ocaml-doc-4.01/0000755000175000017500000000000012244425010011532 5ustar i33173i33173ocaml-doc-4.01/ocaml-4.01-refman.pdf0000644000175000017500000551036412244425010015164 0ustar i33173i33173%PDF-1.5 % 2 0 obj << /Type /ObjStm /N 100 /First 804 /Length 1172 /Filter /FlateDecode >> stream xڍVMo6ﯘcrh,~J*&ܹZګV+ wͯI:. 8op(A9Y2J*,  $)IC)I R$fڒdIK*BIJ)LIC<+rRt/9i%-I 2XiIF  Ȕx+J^'flh hrAgV<Ǻ䭥`"OXS0h*)ϩ3YVP!0lUH>`D,ЀBaJx%!$+EK嬮aK^V]c1ny ;c:tؕLm JAX2!r\O8Li9p0+,  h&Q2q0)x. *, "Ӱ P=6WJ ْA)L,՘P` b"YHiAfȝ.BL v^ȟ4lJp1[tqMu7] xIoެ^\ۖ6nbݵ;|v'jCl=U]ԸnSGD¼sC] Kr2|x?@nk(=`jE>XW9.q>t}턓br%e&2ΖL!5]j`*wB>xCw,c@-K)]{JwCitaTh:*ťGn=F%\Ơ'!|@v}ݸH\?TI üg7P2ojwFro+ bfVc[~Cܻv>n"¦?qU~R(>8_Χ}_ aoKKw]g k*UCP_EΨ];63 3Ѩaawu, Zjn:ns Z2Oiv=Mz\&$#xt+]Ǟ̸%_'3gRg c؏qѭ>ঊ'=syI}<]P$~ }Ȧ+~յߞm"ĿMh7 _KgT)05k:L)( endstream endobj 203 0 obj << /Type /ObjStm /N 100 /First 860 /Length 1276 /Filter /FlateDecode >> stream xڝVn6}߯Gh"J,MڦZKJ{Fq Q$9LRF23$iCRdTxIIhgN"gIm,C6R*R$֔Se,?ixIϜK[ DN#A S _2e{IwK%c׍! 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ET] Gל(<$l;>$v"&k%TmU((9kr#=pp/+a`M>s8~>Hȏ3d =ʝim|@:n7XLm̅0?;|ڭ* Pמ ?PIJ;"k"ax \\|Ƅȍeqϙl-vT֤֫ ?i_9[~l׾s{!: gx~>EG4Lw38h0zұgjBbf h4RRRDw^5/>\e1eZ?z8P譈iB՗` DMyl<^!165'Kx.3;h1phr HTh>A#~8M#!?t|vU@>OG9ߔM݂@BTw kx!ޞ>&o7ФejgIj9G)IѻyI) amGշw, endstream endobj 1990 0 obj << /Length 2359 /Filter /FlateDecode >> stream xɒJ>_6́ ދ  -ۚ%e'voIY&|uwX2aBWw_fz# [oإnjCM^ow?)B9d Ww6J*fV2ZKޞ%A5F ۵i+9@UR仼- Ւ>KC^Gl(v8x*SzF&Li;ͯ|KUY2YR0yps u~f}HDMYmJ@,I|mtc6Q !f ?R %b1gOdƐ]{if6^')kDc|iigsCFY rw7m^B{\8ՙԙ $A~9#t\ |d Jq7h]fT-%G2r$"w6,Wr+ɐPDaʱk V!Őlx;m]mQaȤ^?TuVQR3c>  [I:i~Aah+3 7 AP#ߔmсZI)|뙁{׃FU}&<6\.m~E\!J:b3r.o]•:K8t3DΒ7%Oʪ%B^1>&cRkp(EUr'VV,5!h?rBA<.rţuĴ)|횖ֆng S'ͤ 0vM0 ~e"6SeC0h*zk52*eb y!13>N:uȼ\HX =,=5bY$alS:}D8S*85h n$W¸m {ϩizLϺ 0sz!n8v`nh0VbILʉmX$ͳ3h`UbQX?WR%dzs̡#R<;XAvV{h:0E0>/AXMsHm6]ۥެٯ=N+s.>/ zL80FdKNUC QF#k2{_-%*I\*j38y PO h)-RV8%rJ*5]@IK֤T bj!z*Hy}Y:Ö:B Yι>'7> stream xڵYK71كZK`@8`:iկҴ+U5KH~Ǫ\+r   4FT}p¼;j2%T5lZ¶YK-XA d+\r*?lda .-{إhD~ &nVI@9J`+WXY n(* b JUW`7UrŽvi Jq-p&s PV1&80#:,,T2W [PCd0\{ᨬgƸWMJ$XO0^rd7F5~O|"\E b1)]܇XQyiP"H8M8rRPi ֍3d㶻pX:߾}y a77ajc7lVakK7{a}v+J}D+ |3.⑤8G$ X*T4|LiD ;SEo^]&W]8o3ܞEyf0B u,"b1 rN_RTUkgl^?e܌1B!DCf;o5RN^_k.$ꮶ^Y1G"(1KoB{!"0aĒ, K,$ "7aS}eb_Mx 捚ByA*~4 5:)+ߋe4gQ}Q/KׁfgRw*eiRi#֨j >|u+!J_ ,YA1Z3d[|dHp_o@R2чRBr'$;Q5dGjuyA8u^.;UA9i/2I/ј%B]N>(5Y1.GNX`h4$^F_*H:/b? 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C?u&A/>`Kp,{ngfgABB c'\a/wZ^AYF-@p* n>[U/lm,ئ/z$g7P)㐎]?GJgz>aAB Ȟ7I/$Iީl}/|="dyAɿ`w 90葌IIRl>!NĮy*><7m#nDGҷ!dB`H[ͭ]RLLwW߄u!ⲳdX Nzx]o-TF&CG0vِ25hGۦg]8qy$v$(N&?dQpZV!"/Z^lmߥ [붑 GOqz3{Ldh`8C"?%R`(H/&b&+q_ooly˳ <o<qy?c endstream endobj 3773 0 obj << /Length 1772 /Filter /FlateDecode >> stream xXK6WVX3"i)H ZBdwCҒKg7z%>3<~~%Μ"TtR5cyіW!! /å/KJEe(G/iޣ b/rG~)s/b>^BVP]{!ӵݿ'wKQFw˞#  ^#͎lf6b]"u4ن4%SeK_epVU eCyY*Ml ILfCʦ=*$,ن$KL#lԠ6Ԗ/acmi.`U*9$3T C8b *Kp_/*rTOr(тG&&j- s3+FE4jV˜eo!s+ _1*h>ݗY^ VDh <[p75lDHE;dBxzLs#&xg䧣lBBӊU"qsɬGSSi&B}v Rgbeۚ6 ]N^:o5\)B?SEu3wJ.?id w fW#h7j_$r3mWTkN̷ϓNu N6^9jZy>3! <%Wp?,EX:N`JK_uxqc$t3k1hZA^. 0ۿ}?yq endstream endobj 3777 0 obj << /Length 807 /Filter /FlateDecode >> stream xWK0Rz+VͿ`;4aq˜{=,ʰ(xIqoQx_UQ BJO0 $IJNۢc~]=v|[|54"j(9 a icp_0/xD U@ Bx)! 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Chapter 29  The bigarray library

The bigarray library implements large, multi-dimensional, numerical arrays. These arrays are called “big arrays” to distinguish them from the standard OCaml arrays described in Module Array. The main differences between “big arrays” and standard OCaml arrays are as follows:

  • Big arrays are not limited in size, unlike OCaml arrays (float array are limited to 2097151 elements on a 32-bit platform, other array types to 4194303 elements).
  • Big arrays are multi-dimensional. Any number of dimensions between 1 and 16 is supported. In contrast, OCaml arrays are mono-dimensional and require encoding multi-dimensional arrays as arrays of arrays.
  • Big arrays can only contain integers and floating-point numbers, while OCaml arrays can contain arbitrary OCaml data types. However, big arrays provide more space-efficient storage of integer and floating-point elements, in particular because they support “small” types such as single-precision floats and 8 and 16-bit integers, in addition to the standard OCaml types of double-precision floats and 32 and 64-bit integers.
  • The memory layout of big arrays is entirely compatible with that of arrays in C and Fortran, allowing large arrays to be passed back and forth between OCaml code and C / Fortran code with no data copying at all.
  • Big arrays support interesting high-level operations that normal arrays do not provide efficiently, such as extracting sub-arrays and “slicing” a multi-dimensional array along certain dimensions, all without any copying.

Programs that use the bigarray library must be linked as follows: 

        ocamlc other options bigarray.cma other files
        ocamlopt other options bigarray.cmxa other files

For interactive use of the bigarray library, do: 

        ocamlmktop -o mytop bigarray.cma
        ./mytop

or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "bigarray.cma";;.

29.1  Module Bigarray: large, multi-dimensional, numerical arrays

29.2  Big arrays in the OCaml-C interface

C stub code that interface C or Fortran code with OCaml code, as described in chapter 19, can exploit big arrays as follows.

29.2.1  Include file

The include file <caml/bigarray.h> must be included in the C stub file. It declares the functions, constants and macros discussed below.

29.2.2  Accessing an OCaml bigarray from C or Fortran

If v is a OCaml value representing a big array, the expression Caml_ba_data_val(v) returns a pointer to the data part of the array. This pointer is of type void * and can be cast to the appropriate C type for the array (e.g. double [], char [][10], etc).

Various characteristics of the OCaml big array can be consulted from C as follows:

C expressionReturns
Caml_ba_array_val(v)->num_dimsnumber of dimensions
Caml_ba_array_val(v)->dim[i]i-th dimension
Caml_ba_array_val(v)->flags & BIGARRAY_KIND_MASKkind of array elements

The kind of array elements is one of the following constants:

ConstantElement kind
CAML_BA_FLOAT3232-bit single-precision floats
CAML_BA_FLOAT6464-bit double-precision floats
CAML_BA_SINT88-bit signed integers
CAML_BA_UINT88-bit unsigned integers
CAML_BA_SINT1616-bit signed integers
CAML_BA_UINT1616-bit unsigned integers
CAML_BA_INT3232-bit signed integers
CAML_BA_INT6464-bit signed integers
CAML_BA_CAML_INT31- or 63-bit signed integers
CAML_BA_NATIVE_INT32- or 64-bit (platform-native) integers

The following example shows the passing of a two-dimensional big array to a C function and a Fortran function. 

    extern void my_c_function(double * data, int dimx, int dimy);
    extern void my_fortran_function_(double * data, int * dimx, int * dimy);

    value caml_stub(value bigarray)
    {
      int dimx = Caml_ba_array_val(bigarray)->dim[0];
      int dimy = Caml_ba_array_val(bigarray)->dim[1];
      /* C passes scalar parameters by value */
      my_c_function(Caml_ba_data_val(bigarray), dimx, dimy);
      /* Fortran passes all parameters by reference */
      my_fortran_function_(Caml_ba_data_val(bigarray), &dimx, &dimy);
      return Val_unit;
    }

29.2.3  Wrapping a C or Fortran array as an OCaml big array

A pointer p to an already-allocated C or Fortran array can be wrapped and returned to OCaml as a big array using the caml_ba_alloc or caml_ba_alloc_dims functions.

  • caml_ba_alloc(kind | layout, numdims, p, dims)

    Return an OCaml big array wrapping the data pointed to by p. kind is the kind of array elements (one of the CAML_BA_ kind constants above). layout is CAML_BA_C_LAYOUT for an array with C layout and CAML_BA_FORTRAN_LAYOUT for an array with Fortran layout. numdims is the number of dimensions in the array. dims is an array of numdims long integers, giving the sizes of the array in each dimension.

  • caml_ba_alloc_dims(kind | layout, numdims, p, (long) dim1, (long) dim2, …, (long) dimnumdims)

    Same as caml_ba_alloc, but the sizes of the array in each dimension are listed as extra arguments in the function call, rather than being passed as an array.

The following example illustrates how statically-allocated C and Fortran arrays can be made available to OCaml. 

    extern long my_c_array[100][200];
    extern float my_fortran_array_[300][400];

    value caml_get_c_array(value unit)
    {
      long dims[2];
      dims[0] = 100; dims[1] = 200;
      return caml_ba_alloc(CAML_BA_NATIVE_INT | CAML_BA_C_LAYOUT,
                           2, my_c_array, dims);
    }

    value caml_get_fortran_array(value unit)
    {
      return caml_ba_alloc_dims(CAML_BA_FLOAT32 | CAML_BA_FORTRAN_LAYOUT,
                                2, my_fortran_array_, 300L, 400L);
    }
Previous Up Next ocaml-doc-4.01/ocaml.html/lex.html0000644000175000017500000006057712214324200015261 0ustar i33173i33173 Lexical conventions Up Next

6.1  Lexical conventions

Blanks

The following characters are considered as blanks: space, horizontal tabulation, carriage return, line feed and form feed. Blanks are ignored, but they separate adjacent identifiers, literals and keywords that would otherwise be confused as one single identifier, literal or keyword.

Comments

Comments are introduced by the two characters (*, with no intervening blanks, and terminated by the characters *), with no intervening blanks. Comments are treated as blank characters. Comments do not occur inside string or character literals. Nested comments are handled correctly.

Identifiers

ident::= ( letter ∣  _ ) { letter ∣  0 … 9 ∣  _ ∣  ' }  
 
capitalized-ident::= (A … Z) { letter ∣  0 … 9 ∣  _ ∣  ' }  
 
lowercase-ident::= (a … z ∣  _) { letter ∣  0 … 9 ∣  _ ∣  ' }  
 
letter::= A … Z ∣  a … z

Identifiers are sequences of letters, digits, _ (the underscore character), and ' (the single quote), starting with a letter or an underscore. Letters contain at least the 52 lowercase and uppercase letters from the ASCII set. The current implementation also recognizes as letters some characters from the ISO 8859-1 set (characters 192–214 and 216–222 as uppercase letters; characters 223–246 and 248–255 as lowercase letters). This feature is deprecated and should be avoided for future compatibility.

All characters in an identifier are meaningful. The current implementation accepts identifiers up to 16000000 characters in length.

In many places, OCaml makes a distinction between capitalized identifiers and identifiers that begin with a lowercase letter. The underscore character is considered a lowercase letter for this purpose.

Integer literals

integer-literal::= [-] (09) { 09 ∣  _ }  
  [-] (0x∣ 0X) (09∣ AF∣ af) { 09∣ AF∣ af∣ _ }  
  [-] (0o∣ 0O) (07) { 07∣ _ }  
  [-] (0b∣ 0B) (01) { 01∣ _ }

An integer literal is a sequence of one or more digits, optionally preceded by a minus sign. By default, integer literals are in decimal (radix 10). The following prefixes select a different radix:

PrefixRadix
0x, 0Xhexadecimal (radix 16)
0o, 0Ooctal (radix 8)
0b, 0Bbinary (radix 2)

(The initial 0 is the digit zero; the O for octal is the letter O.) The interpretation of integer literals that fall outside the range of representable integer values is undefined.

For convenience and readability, underscore characters (_) are accepted (and ignored) within integer literals.

Floating-point literals

float-literal::= [-] (09) { 09∣ _ } [. { 09∣ _ }] [(e∣ E) [+∣ -] (09) { 09∣ _ }]

Floating-point decimals consist in an integer part, a decimal part and an exponent part. The integer part is a sequence of one or more digits, optionally preceded by a minus sign. The decimal part is a decimal point followed by zero, one or more digits. The exponent part is the character e or E followed by an optional + or - sign, followed by one or more digits. The decimal part or the exponent part can be omitted but not both, to avoid ambiguity with integer literals. The interpretation of floating-point literals that fall outside the range of representable floating-point values is undefined.

For convenience and readability, underscore characters (_) are accepted (and ignored) within floating-point literals.

Character literals

char-literal::= ' regular-char '  
  ' escape-sequence '  
 
escape-sequence::= \ ( \ ∣  " ∣  ' ∣  n ∣  t ∣  b ∣  r ∣  space )  
  \ (09) (09) (09)  
  \x (09∣ AF∣ af) (09∣ AF∣ af)

Character literals are delimited by ' (single quote) characters. The two single quotes enclose either one character different from ' and \, or one of the escape sequences below:

SequenceCharacter denoted
\\backslash (\)
\"double quote (")
\'single quote (')
\nlinefeed (LF)
\rcarriage return (CR)
\thorizontal tabulation (TAB)
\bbackspace (BS)
\spacespace (SPC)
\dddthe character with ASCII code ddd in decimal
\xhhthe character with ASCII code hh in hexadecimal

String literals

string-literal::= " { string-character } "  
 
string-character::= regular-string-char  
  escape-sequence  
  \ newline  { space ∣  tab }

String literals are delimited by " (double quote) characters. The two double quotes enclose a sequence of either characters different from " and \, or escape sequences from the table given above for character literals.

To allow splitting long string literals across lines, the sequence \newline spaces-or-tabs (a backslash at the end of a line followed by any number of spaces and horizontal tabulations at the beginning of the next line) is ignored inside string literals.

The current implementation places practically no restrictions on the length of string literals.

Naming labels

To avoid ambiguities, naming labels in expressions cannot just be defined syntactically as the sequence of the three tokens ~, ident and :, and have to be defined at the lexical level.

label-name::= lowercase-ident  
 
label::= ~ label-name :  
 
optlabel::= ? label-name :

Naming labels come in two flavours: label for normal arguments and optlabel for optional ones. They are simply distinguished by their first character, either ~ or ?.

Despite label and optlabel being lexical entities in expressions, their expansions ~ label-name : and ? label-name : will be used in grammars, for the sake of readability. Note also that inside type expressions, this expansion can be taken literally, i.e. there are really 3 tokens, with optional blanks between them.

Prefix and infix symbols

infix-symbol::= (= ∣  < ∣  > ∣  @ ∣  ^ ∣  | ∣  & ∣  + ∣  - ∣  * ∣  / ∣  $ ∣  %) { operator-char }  
 
prefix-symbol::= ! { operator-char }  
  (? ∣  ~) { operator-char }+  
 
operator-char::= ! ∣  $ ∣  % ∣  & ∣  * ∣  + ∣  - ∣  . ∣  / ∣  : ∣  < ∣  = ∣  > ∣  ? ∣  @ ∣  ^ ∣  | ∣  ~

Sequences of “operator characters”, such as <=> or !!, are read as a single token from the infix-symbol or prefix-symbol class. These symbols are parsed as prefix and infix operators inside expressions, but otherwise behave like normal identifiers.

Keywords

The identifiers below are reserved as keywords, and cannot be employed otherwise: 

      and         as          assert      asr         begin       class
      constraint  do          done        downto      else        end
      exception   external    false       for         fun         function
      functor     if          in          include     inherit     initializer
      land        lazy        let         lor         lsl         lsr
      lxor        match       method      mod         module      mutable
      new         object      of          open        or          private
      rec         sig         struct      then        to          true
      try         type        val         virtual     when        while
      with


The following character sequences are also keywords: 

    !=    #     &     &&    '     (     )     *     +     ,     -
    -.    ->    .     ..    :     ::    :=    :>    ;     ;;    <
    <-    =     >     >]    >}    ?     [     [<    [>    [|    ]
    _     `     {     {<    |     |]    ||    }     ~

Note that the following identifiers are keywords of the Camlp4 extensions and should be avoided for compatibility reasons. 

    parser    value    $     $$    $:    <:    <<    >>    ??

Ambiguities

Lexical ambiguities are resolved according to the “longest match” rule: when a character sequence can be decomposed into two tokens in several different ways, the decomposition retained is the one with the longest first token.

Line number directives

linenum-directive::= # {0 … 9}+  
  # {0 … 9}+ " { string-character } "

Preprocessors that generate OCaml source code can insert line number directives in their output so that error messages produced by the compiler contain line numbers and file names referring to the source file before preprocessing, instead of after preprocessing. A line number directive is composed of a # (sharp sign), followed by a positive integer (the source line number), optionally followed by a character string (the source file name). Line number directives are treated as blanks during lexical analysis.

Up Next ocaml-doc-4.01/ocaml.html/browser.html0000644000175000017500000002340712214324200016143 0ustar i33173i33173 The browser/editor (ocamlbrowser) Previous Up Next

Chapter 14  The browser/editor (ocamlbrowser)

This chapter describes OCamlBrowser, a source and compiled interface browser, written using LablTk. This is a useful companion to the programmer.

Its functions are:

  • navigation through OCaml’s modules (using compiled interfaces).
  • source editing, type-checking, and browsing.
  • integrated OCaml shell, running as a subprocess.

14.1  Invocation

The browser is started by the command ocamlbrowser, as follows: 

        ocamlbrowser options

The following command-line options are recognized by ocamlbrowser.

-I directory
Add the given directory to the list of directories searched for source and compiled files. By default, only the standard library directory is searched. The standard library can also be changed by setting the OCAMLLIB environment variable.
-nolabels
Ignore non-optional labels in types. Labels cannot be used in applications, and parameter order becomes strict.
-oldui
Old multi-window interface. The default is now more like Smalltalk’s class browser.
-rectypes
Allow arbitrary recursive types during type-checking. By default, only recursive types where the recursion goes through an object type are supported.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-w warning-list
Enable or disable warnings according to the argument warning-list.

Most options can also be modified inside the application by the Modules - Path editor and Compiler - Preferences commands. They are inherited when you start a toplevel shell.

14.2  Viewer

This is the first window you get when you start OCamlBrowser. It displays a search window, and the list of modules in the load path. At the top a row of menus.

  • File - Open and File - Editor give access to the editor.
  • File - Shell creates an OCaml subprocess in a shell.
  • View - Show all defs displays the signature of the currently selected module.
  • View - Search entry shows/hides the search entry just below the menu bar.
  • Modules - Path editor changes the load path. Modules - Reset cache rescans the load path and resets the module cache. Do it if you recompile some interface, or get confused about what is in the cache.
  • Modules - Search symbol allows searching a symbol either by its name, like the bottom line of the viewer, or more interestingly, by its type. Exact type searches for a type with exactly the same information as the pattern (variables match only variables). Included type allows giving only partial information: the actual type may take more arguments and return more results, and variables in the pattern match anything. In both cases, argument and tuple order is irrelevant1, and unlabeled arguments in the pattern match any label.
  • The Search entry just below the menu bar allows one to search for an identifier in all modules (wildcards “?” and “*” allowed). If you choose the type option, the search is done by type inclusion (cf. Search Symbol - Included type).
  • The Close all button is there to dismiss the windows created by the Detach button. By double-clicking on it you will quit the browser.

14.3  Module browsing

You select a module in the leftmost box by either cliking on it or pressing return when it is selected. Fast access is available in all boxes pressing the first few letter of the desired name. Double-clicking / double-return displays the whole signature for the module.

Defined identifiers inside the module are displayed in a box to the right of the previous one. If you click on one, this will either display its contents in another box (if this is a sub-module) or display the signature for this identifier below.

Signatures are clickable. Double clicking with the left mouse button on an identifier in a signature brings you to its signature. A single click on the right button pops up a menu displaying the type declaration for the selected identifier. Its title, when selectable, also brings you to its signature.

At the bottom, a series of buttons, depending on the context.

  • Detach copies the currently displayed signature in a new window, to keep it.
  • Impl and Intf bring you to the implementation or interface of the currently displayed signature, if it is available.

Control-S lets you search a string in the signature.

14.4  File editor

You can edit files with it, if you’re not yet used to emacs. Otherwise you can use it as a browser, making occasional corrections.

The Edit menu contains commands for jump (C-g), search (C-s), and sending the current phrase (or selection if some text is selected) to a sub-shell (M-x). For this last option, you may choose the shell via a dialog.

Essential functions are in the Compiler menu.

  • Preferences opens a dialog to set internals of the editor and type-checker.
  • Lex adds colors according to lexical categories.
  • Typecheck verifies typing, and memorizes to let one see an expression’s type by double-clicking on it. This is also valid for interfaces. If an error occurs, the part of the interface preceding the error is computed.

    After typechecking, pressing the right button pops up a menu that gives the type of the pointed expression and, where applicable, provides some links that can be followed.

  • Clear errors dismisses type-checker error messages and warnings.
  • Signature shows the signature of the current file (after type checking).

14.5  Shell

When you create a shell, a dialog is presented to you, letting you choose which command you want to run, and the title of the shell (to choose it in the Editor).

The executed subshell is given the current load path.

  • File use a source file or load a bytecode file. You may also import the browser’s path into the subprocess.
  • History M-p and M-n browse up and down.
  • Signal C-c interrupts, and you can also kill the subprocess.
1
To avoid combinatorial explosion of the search space, optional arguments in the actual type are ignored in the actual if (1) there are too many of them, and (2) they do not appear explicitly in the pattern.
Previous Up Next ocaml-doc-4.01/ocaml.html/expr.html0000644000175000017500000031663312214324200015444 0ustar i33173i33173 Expressions Previous Up Next

6.7  Expressions

expr::= value-path  
  constant  
  ( expr )  
  begin expr end  
  ( expr :  typexpr )  
  expr  {, expr}+  
  constr  expr  
  `tag-name  expr  
  expr ::  expr  
  [ expr  { ; expr }  [;]  
  [| expr  { ; expr }  [;|]  
  { field =  expr  { ; field =  expr }  [;}  
  { expr with  field =  expr  { ; field =  expr }  [;}  
  expr  { argument }+  
  prefix-symbol  expr  
  - expr  
  -. expr  
  expr  infix-op  expr  
  expr .  field  
  expr .  field <-  expr  
  expr .(  expr )  
  expr .(  expr ) <-  expr  
  expr .[  expr ]  
  expr .[  expr ] <-  expr  
  if expr then  expr  [ else expr ]  
  while expr do  expr done  
  for value-name =  expr  ( to ∣  downto ) expr do  expr done  
  expr ;  expr  
  match expr with  pattern-matching  
  function pattern-matching  
  fun multiple-matching  
  try expr with  pattern-matching  
  let [reclet-binding  { and let-binding } in  expr  
  new class-path  
  object class-body end  
  expr #  method-name  
  inst-var-name  
  inst-var-name <-  expr  
  ( expr :>  typexpr )  
  ( expr :  typexpr :>  typexpr )  
  {< [ inst-var-name =  expr  { ; inst-var-name =  expr }  [;] ] >}  
 
argument::= expr  
  ~ label-name  
  ~ label-name :  expr  
  ? label-name  
  ? label-name :  expr  
 
pattern-matching::=| ] pattern  [when expr->  expr  { | pattern  [when expr->  expr }  
 
multiple-matching::=parameter }+  [when expr->  expr  
 
let-binding::= pattern =  expr  
  value-name  { parameter }  [: typexpr]  [:> typexpr=  expr  
 
parameter::= pattern  
  ~ label-name  
  ~ ( label-name  [: typexpr)  
  ~ label-name :  pattern  
  ? label-name  
  ? ( label-name  [: typexpr]  [= expr)  
  ? label-name :  pattern  
  ? label-name : (  pattern  [: typexpr]  [= expr)

The table below shows the relative precedences and associativity of operators and non-closed constructions. The constructions with higher precedence come first. For infix and prefix symbols, we write “*…” to mean “any symbol starting with *”.

Construction or operatorAssociativity
prefix-symbol
. .( .[ .{ (see section 7.20)
#
function application, constructor application, tag application, assert (see 7.5), lazy (see 7.6)left
- -. (prefix)
** lsl lsr asrright
* / % mod land lor lxorleft
+ -left
::right
@ ^right
= < > | & $ !=left
& &&right
or ||right
,
<- :=right
if
;right
let match fun function try

6.7.1  Basic expressions

Constants

An expression consisting in a constant evaluates to this constant.

Value paths

An expression consisting in an access path evaluates to the value bound to this path in the current evaluation environment. The path can be either a value name or an access path to a value component of a module.

Parenthesized expressions

The expressions ( expr ) and begin expr end have the same value as expr. The two constructs are semantically equivalent, but it is good style to use beginend inside control structures: 

        if … then begin … ; … end else begin … ; … end

and () for the other grouping situations.

Parenthesized expressions can contain a type constraint, as in ( expr :  typexpr ). This constraint forces the type of expr to be compatible with typexpr.

Parenthesized expressions can also contain coercions ( expr  [: typexpr] :>  typexpr) (see subsection 6.7.6 below).

Function application

Function application is denoted by juxtaposition of (possibly labeled) expressions. The expression expr  argument1 …  argumentn evaluates the expression expr and those appearing in argument1 to argumentn. The expression expr must evaluate to a functional value f, which is then applied to the values of argument1, …,  argumentn.

The order in which the expressions expr,  argument1, …,  argumentn are evaluated is not specified.

Arguments and parameters are matched according to their respective labels. Argument order is irrelevant, except among arguments with the same label, or no label.

If a parameter is specified as optional (label prefixed by ?) in the type of expr, the corresponding argument will be automatically wrapped with the constructor Some, except if the argument itself is also prefixed by ?, in which case it is passed as is. If a non-labeled argument is passed, and its corresponding parameter is preceded by one or several optional parameters, then these parameters are defaulted, i.e. the value None will be passed for them. All other missing parameters (without corresponding argument), both optional and non-optional, will be kept, and the result of the function will still be a function of these missing parameters to the body of f.

As a special case, if the function has a known arity, all the arguments are unlabeled, and their number matches the number of non-optional parameters, then labels are ignored and non-optional parameters are matched in their definition order. Optional arguments are defaulted.

In all cases but exact match of order and labels, without optional parameters, the function type should be known at the application point. This can be ensured by adding a type constraint. Principality of the derivation can be checked in the -principal mode.

Function definition

Two syntactic forms are provided to define functions. The first form is introduced by the keyword function:

functionpattern1->expr1 
|… 
|patternn->exprn

This expression evaluates to a functional value with one argument. When this function is applied to a value v, this value is matched against each pattern pattern1 to patternn. If one of these matchings succeeds, that is, if the value v matches the pattern patterni for some i, then the expression expri associated to the selected pattern is evaluated, and its value becomes the value of the function application. The evaluation of expri takes place in an environment enriched by the bindings performed during the matching.

If several patterns match the argument v, the one that occurs first in the function definition is selected. If none of the patterns matches the argument, the exception Match_failure is raised.


The other form of function definition is introduced by the keyword fun:

fun parameter1 …  parametern ->  expr

This expression is equivalent to:

fun parameter1 ->fun  parametern ->  expr

The parameter patterns ~lab and ~(lab  [: typ]) are shorthands for respectively ~lab: lab and ~lab:( lab  [: typ]), and similarly for their optional counterparts.

A function of the form fun ? lab :(  pattern =  expr0 ) ->  expr is equivalent to

fun ? lab :  ident -> let  pattern = match  ident with Some  ident ->  ident | None ->  expr0 in  expr

where ident is a fresh variable, except that it is unspecified when expr0 is evaluated.

After these two transformations, expressions are of the form

fun [label1]  pattern1 ->fun  [labeln]  patternn ->  expr

If we ignore labels, which will only be meaningful at function application, this is equivalent to

function pattern1 ->function  patternn ->  expr

That is, the fun expression above evaluates to a curried function with n arguments: after applying this function n times to the values v1vn, the values will be matched in parallel against the patterns pattern1 …  patternn. If the matching succeeds, the function returns the value of expr in an environment enriched by the bindings performed during the matchings. If the matching fails, the exception Match_failure is raised.

Guards in pattern-matchings

The cases of a pattern matching (in the function, fun, match and try constructs) can include guard expressions, which are arbitrary boolean expressions that must evaluate to true for the match case to be selected. Guards occur just before the -> token and are introduced by the when keyword:

functionpattern1   [when   cond1]->expr1 
|… 
|patternn    [when   condn]->exprn

Matching proceeds as described before, except that if the value matches some pattern patterni which has a guard condi, then the expression condi is evaluated (in an environment enriched by the bindings performed during matching). If condi evaluates to true, then expri is evaluated and its value returned as the result of the matching, as usual. But if condi evaluates to false, the matching is resumed against the patterns following patterni.

Local definitions

The let and let rec constructs bind value names locally. The construct

let pattern1 =  expr1 andand  patternn =  exprn in  expr

evaluates expr1 …  exprn in some unspecified order and matches their values against the patterns pattern1 …  patternn. If the matchings succeed, expr is evaluated in the environment enriched by the bindings performed during matching, and the value of expr is returned as the value of the whole let expression. If one of the matchings fails, the exception Match_failure is raised.

An alternate syntax is provided to bind variables to functional values: instead of writing

let ident = fun  parameter1 …  parameterm ->  expr

in a let expression, one may instead write

let ident  parameter1 …  parameterm =  expr


Recursive definitions of names are introduced by let rec:

let rec pattern1 =  expr1 andand  patternn =  exprn in  expr

The only difference with the let construct described above is that the bindings of names to values performed by the pattern-matching are considered already performed when the expressions expr1 to exprn are evaluated. That is, the expressions expr1 to exprn can reference identifiers that are bound by one of the patterns pattern1, …,  patternn, and expect them to have the same value as in expr, the body of the let rec construct.

The recursive definition is guaranteed to behave as described above if the expressions expr1 to exprn are function definitions (fun … or function …), and the patterns pattern1 …  patternn are just value names, as in:

let rec name1 = funandand  namen = funin  expr

This defines name1 …  namen as mutually recursive functions local to expr.

The behavior of other forms of let rec definitions is implementation-dependent. The current implementation also supports a certain class of recursive definitions of non-functional values, as explained in section 7.3.

6.7.2  Control structures

Sequence

The expression expr1 ;  expr2 evaluates expr1 first, then expr2, and returns the value of expr2.

Conditional

The expression if expr1 then  expr2 else  expr3 evaluates to the value of expr2 if expr1 evaluates to the boolean true, and to the value of expr3 if expr1 evaluates to the boolean false.

The else expr3 part can be omitted, in which case it defaults to else ().

Case expression

The expression

matchexpr 
withpattern1->expr1 
|… 
|patternn->exprn

matches the value of expr against the patterns pattern1 to patternn. If the matching against patterni succeeds, the associated expression expri is evaluated, and its value becomes the value of the whole match expression. The evaluation of expri takes place in an environment enriched by the bindings performed during matching. If several patterns match the value of expr, the one that occurs first in the match expression is selected. If none of the patterns match the value of expr, the exception Match_failure is raised.

Boolean operators

The expression expr1 &&  expr2 evaluates to true if both expr1 and expr2 evaluate to true; otherwise, it evaluates to false. The first component, expr1, is evaluated first. The second component, expr2, is not evaluated if the first component evaluates to false. Hence, the expression expr1 &&  expr2 behaves exactly as

if expr1 then  expr2 else false.

The expression expr1 ||  expr2 evaluates to true if one of the expressions expr1 and expr2 evaluates to true; otherwise, it evaluates to false. The first component, expr1, is evaluated first. The second component, expr2, is not evaluated if the first component evaluates to true. Hence, the expression expr1 ||  expr2 behaves exactly as

if expr1 then true else  expr2.

The boolean operators & and or are deprecated synonyms for (respectively) && and ||.

Loops

The expression while expr1 do  expr2 done repeatedly evaluates expr2 while expr1 evaluates to true. The loop condition expr1 is evaluated and tested at the beginning of each iteration. The whole whiledone expression evaluates to the unit value ().

The expression for name =  expr1 to  expr2 do  expr3 done first evaluates the expressions expr1 and expr2 (the boundaries) into integer values n and p. Then, the loop body expr3 is repeatedly evaluated in an environment where name is successively bound to the values n, n+1, …, p−1, p. The loop body is never evaluated if n > p.

The expression for name =  expr1 downto  expr2 do  expr3 done evaluates similarly, except that name is successively bound to the values n, n−1, …, p+1, p. The loop body is never evaluated if n < p.

In both cases, the whole for expression evaluates to the unit value ().

Exception handling

The expression

try expr 
withpattern1->expr1 
|… 
|patternn->exprn

evaluates the expression expr and returns its value if the evaluation of expr does not raise any exception. If the evaluation of expr raises an exception, the exception value is matched against the patterns pattern1 to patternn. If the matching against patterni succeeds, the associated expression expri is evaluated, and its value becomes the value of the whole try expression. The evaluation of expri takes place in an environment enriched by the bindings performed during matching. If several patterns match the value of expr, the one that occurs first in the try expression is selected. If none of the patterns matches the value of expr, the exception value is raised again, thereby transparently “passing through” the try construct.

6.7.3  Operations on data structures

Products

The expression expr1 ,,  exprn evaluates to the n-tuple of the values of expressions expr1 to exprn. The evaluation order of the subexpressions is not specified.

Variants

The expression constr  expr evaluates to the unary variant value whose constructor is constr, and whose argument is the value of expr. Similarly, the expression constr (  expr1 ,,  exprn ) evaluates to the n-ary variant value whose constructor is constr and whose arguments are the values of expr1, …,  exprn.

The expression constr ( expr1, …,  exprn) evaluates to the variant value whose constructor is constr, and whose arguments are the values of expr1 …  exprn.

For lists, some syntactic sugar is provided. The expression expr1 ::  expr2 stands for the constructor ( :: ) applied to the arguments ( expr1 ,  expr2 ), and therefore evaluates to the list whose head is the value of expr1 and whose tail is the value of expr2. The expression [ expr1 ;;  exprn ] is equivalent to expr1 ::::  exprn :: [], and therefore evaluates to the list whose elements are the values of expr1 to exprn.

Polymorphic variants

The expression `tag-name  expr evaluates to the polymorphic variant value whose tag is tag-name, and whose argument is the value of expr.

Records

The expression { field1 =  expr1 ;;  fieldn =  exprn } evaluates to the record value { field1 = v1; …; fieldn = vn } where vi is the value of expri for i = 1,… , n. The fields field1 to fieldn must all belong to the same record type; each field of this record type must appear exactly once in the record expression, though they can appear in any order. The order in which expr1 to exprn are evaluated is not specified.

The expression { expr with  field1 =  expr1 ;;  fieldn =  exprn } builds a fresh record with fields field1 …  fieldn equal to expr1 …  exprn, and all other fields having the same value as in the record expr. In other terms, it returns a shallow copy of the record expr, except for the fields field1 …  fieldn, which are initialized to expr1 …  exprn.

The expression expr1 .  field evaluates expr1 to a record value, and returns the value associated to field in this record value.

The expression expr1 .  field <-  expr2 evaluates expr1 to a record value, which is then modified in-place by replacing the value associated to field in this record by the value of expr2. This operation is permitted only if field has been declared mutable in the definition of the record type. The whole expression expr1 .  field <-  expr2 evaluates to the unit value ().

Arrays

The expression [| expr1 ;;  exprn |] evaluates to a n-element array, whose elements are initialized with the values of expr1 to exprn respectively. The order in which these expressions are evaluated is unspecified.

The expression expr1 .(  expr2 ) returns the value of element number expr2 in the array denoted by expr1. The first element has number 0; the last element has number n−1, where n is the size of the array. The exception Invalid_argument is raised if the access is out of bounds.

The expression expr1 .(  expr2 ) <-  expr3 modifies in-place the array denoted by expr1, replacing element number expr2 by the value of expr3. The exception Invalid_argument is raised if the access is out of bounds. The value of the whole expression is ().

Strings

The expression expr1 .[  expr2 ] returns the value of character number expr2 in the string denoted by expr1. The first character has number 0; the last character has number n−1, where n is the length of the string. The exception Invalid_argument is raised if the access is out of bounds.

The expression expr1 .[  expr2 ] <-  expr3 modifies in-place the string denoted by expr1, replacing character number expr2 by the value of expr3. The exception Invalid_argument is raised if the access is out of bounds. The value of the whole expression is ().

6.7.4  Operators

Symbols from the class infix-symbol, as well as the keywords *, +, -, -., =, !=, <, >, or, ||, &, &&, :=, mod, land, lor, lxor, lsl, lsr, and asr can appear in infix position (between two expressions). Symbols from the class prefix-symbol, as well as the keywords - and -. can appear in prefix position (in front of an expression).

Infix and prefix symbols do not have a fixed meaning: they are simply interpreted as applications of functions bound to the names corresponding to the symbols. The expression prefix-symbol  expr is interpreted as the application ( prefix-symbol )  expr. Similarly, the expression expr1  infix-symbol  expr2 is interpreted as the application ( infix-symbol )  expr1  expr2.

The table below lists the symbols defined in the initial environment and their initial meaning. (See the description of the core library module Pervasives in chapter 20 for more details). Their meaning may be changed at any time using let ( infix-op )  name1  name2 =

Note: the operators &&, ||, and ~- are handled specially and it is not advisable to change their meaning.

The keywords - and -. can appear both as infix and prefix operators. When they appear as prefix operators, they are interpreted respectively as the functions (~-) and (~-.).

OperatorInitial meaning
+Integer addition.
- (infix)Integer subtraction.
~- - (prefix)Integer negation.
*Integer multiplication.
/Integer division. Raise Division_by_zero if second argument is zero.
modInteger modulus. Raise Division_by_zero if second argument is zero.
landBitwise logical “and” on integers.
lorBitwise logical “or” on integers.
lxorBitwise logical “exclusive or” on integers.
lslBitwise logical shift left on integers.
lsrBitwise logical shift right on integers.
asrBitwise arithmetic shift right on integers.
+.Floating-point addition.
-. (infix)Floating-point subtraction.
~-. -. (prefix)Floating-point negation.
*.Floating-point multiplication.
/.Floating-point division.
**Floating-point exponentiation.
@ List concatenation.
^ String concatenation.
! Dereferencing (return the current contents of a reference).
:=Reference assignment (update the reference given as first argument with the value of the second argument).
= Structural equality test.
<> Structural inequality test.
== Physical equality test.
!= Physical inequality test.
< Test “less than”.
<= Test “less than or equal”.
> Test “greater than”.
>= Test “greater than or equal”.
&& &Boolean conjunction.
|| orBoolean disjunction.

6.7.5  Objects

Object creation

When class-path evaluates to a class body, new class-path evaluates to a new object containing the instance variables and methods of this class.

When class-path evaluates to a class function, new class-path evaluates to a function expecting the same number of arguments and returning a new object of this class.

Immediate object creation

Creating directly an object through the object class-body end construct is operationally equivalent to defining locally a class class-name = object  class-body end —see sections 6.9.2 and following for the syntax of class-body— and immediately creating a single object from it by new class-name.

The typing of immediate objects is slightly different from explicitly defining a class in two respects. First, the inferred object type may contain free type variables. Second, since the class body of an immediate object will never be extended, its self type can be unified with a closed object type.

Method invocation

The expression expr #  method-name invokes the method method-name of the object denoted by expr.

If method-name is a polymorphic method, its type should be known at the invocation site. This is true for instance if expr is the name of a fresh object (let ident = new  class-path … ) or if there is a type constraint. Principality of the derivation can be checked in the -principal mode.

Accessing and modifying instance variables

The instance variables of a class are visible only in the body of the methods defined in the same class or a class that inherits from the class defining the instance variables. The expression inst-var-name evaluates to the value of the given instance variable. The expression inst-var-name <-  expr assigns the value of expr to the instance variable inst-var-name, which must be mutable. The whole expression inst-var-name <-  expr evaluates to ().

Object duplication

An object can be duplicated using the library function Oo.copy (see Module Oo). Inside a method, the expression {< inst-var-name =  expr  { ; inst-var-name =  expr } >} returns a copy of self with the given instance variables replaced by the values of the associated expressions; other instance variables have the same value in the returned object as in self.

6.7.6  Coercions

Expressions whose type contains object or polymorphic variant types can be explicitly coerced (weakened) to a supertype. The expression (expr :>  typexpr) coerces the expression expr to type typexpr. The expression (expr :  typexpr1 :>  typexpr2) coerces the expression expr from type typexpr1 to type typexpr2.

The former operator will sometimes fail to coerce an expression expr from a type typ1 to a type typ2 even if type typ1 is a subtype of type typ2: in the current implementation it only expands two levels of type abbreviations containing objects and/or polymorphic variants, keeping only recursion when it is explicit in the class type (for objects). As an exception to the above algorithm, if both the inferred type of expr and typ are ground (i.e. do not contain type variables), the former operator behaves as the latter one, taking the inferred type of expr as typ1. In case of failure with the former operator, the latter one should be used.

It is only possible to coerce an expression expr from type typ1 to type typ2, if the type of expr is an instance of typ1 (like for a type annotation), and typ1 is a subtype of typ2. The type of the coerced expression is an instance of typ2. If the types contain variables, they may be instantiated by the subtyping algorithm, but this is only done after determining whether typ1 is a potential subtype of typ2. This means that typing may fail during this latter unification step, even if some instance of typ1 is a subtype of some instance of typ2. In the following paragraphs we describe the subtyping relation used.

Object types

A fixed object type admits as subtype any object type that includes all its methods. The types of the methods shall be subtypes of those in the supertype. Namely,

< met1 :  typ1 ;;  metn :  typn >

is a supertype of

< met1 :  typ1 ;; metn :  typn ; metn+1 : typn+1 ;; metn+m : typn+m  [; ..] >

which may contain an ellipsis .. if every typi is a supertype of the corresponding typi.

A monomorphic method type can be a supertype of a polymorphic method type. Namely, if typ is an instance of typ′, then 'a1'an . typ′ is a subtype of typ.

Inside a class definition, newly defined types are not available for subtyping, as the type abbreviations are not yet completely defined. There is an exception for coercing self to the (exact) type of its class: this is allowed if the type of self does not appear in a contravariant position in the class type, i.e. if there are no binary methods.

Polymorphic variant types

A polymorphic variant type typ is a subtype of another polymorphic variant type typ′ if the upper bound of typ (i.e. the maximum set of constructors that may appear in an instance of typ) is included in the lower bound of typ′, and the types of arguments for the constructors of typ are subtypes of those in typ′. Namely,

[[<] `C1 of  typ1 || ` Cn of  typn ]

which may be a shrinkable type, is a subtype of

[[>] `C1 of  typ1 || `Cn of  typn | `Cn+1 of typn+1 || `Cn+m of typn+m ]

which may be an extensible type, if every typi is a subtype of typi.

Variance

Other types do not introduce new subtyping, but they may propagate the subtyping of their arguments. For instance, typ1 *  typ2 is a subtype of typ1 * typ2 when typ1 and typ2 are respectively subtypes of typ1 and typ2. For function types, the relation is more subtle: typ1 ->  typ2 is a subtype of typ1 -> typ2 if typ1 is a supertype of typ1 and typ2 is a subtype of typ2. For this reason, function types are covariant in their second argument (like tuples), but contravariant in their first argument. Mutable types, like array or ref are neither covariant nor contravariant, they are nonvariant, that is they do not propagate subtyping.

For user-defined types, the variance is automatically inferred: a parameter is covariant if it has only covariant occurences, contravariant if it has only contravariant occurences, variance-free if it has no occurences, and nonvariant otherwise. A variance-free parameter may change freely through subtyping, it does not have to be a subtype or a supertype. For abstract and private types, the variance must be given explicitly (see section 6.8.1), otherwise the default is nonvariant. This is also the case for constrained arguments in type definitions.

Previous Up Next ocaml-doc-4.01/ocaml.html/advexamples.html0000644000175000017500000010022612214324200016764 0ustar i33173i33173 Advanced examples with classes and modules Previous Up Next

Chapter 5  Advanced examples with classes and modules

(Chapter written by Didier Rémy)



In this chapter, we show some larger examples using objects, classes and modules. We review many of the object features simultaneously on the example of a bank account. We show how modules taken from the standard library can be expressed as classes. Lastly, we describe a programming pattern know of as virtual types through the example of window managers.

5.1  Extended example: bank accounts

In this section, we illustrate most aspects of Object and inheritance by refining, debugging, and specializing the following initial naive definition of a simple bank account. (We reuse the module Euro defined at the end of chapter 3.) 

# let euro = new Euro.c;;
val euro : float -> Euro.c = <fun>

# let zero = euro 0.;;
val zero : Euro.c = <obj>

# let neg x = x#times (-1.);;
val neg : < times : float -> 'a; .. > -> 'a = <fun>

# class account =
    object
      val mutable balance = zero
      method balance = balance
      method deposit x = balance <- balance # plus x
      method withdraw x =
        if x#leq balance then (balance <- balance # plus (neg x); x) else zero
    end;;
class account :
  object
    val mutable balance : Euro.c
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method withdraw : Euro.c -> Euro.c
  end

# let c = new account in c # deposit (euro 100.); c # withdraw (euro 50.);;
- : Euro.c = <obj>

We now refine this definition with a method to compute interest. 

# class account_with_interests =
    object (self)
      inherit account
      method private interest = self # deposit (self # balance # times 0.03)
    end;;
class account_with_interests :
  object
    val mutable balance : Euro.c
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method private interest : unit
    method withdraw : Euro.c -> Euro.c
  end

We make the method interest private, since clearly it should not be called freely from the outside. Here, it is only made accessible to subclasses that will manage monthly or yearly updates of the account.

We should soon fix a bug in the current definition: the deposit method can be used for withdrawing money by depositing negative amounts. We can fix this directly: 

# class safe_account =
    object
      inherit account
      method deposit x = if zero#leq x then balance <- balance#plus x
    end;;
class safe_account :
  object
    val mutable balance : Euro.c
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method withdraw : Euro.c -> Euro.c
  end

However, the bug might be fixed more safely by the following definition: 

# class safe_account =
    object
      inherit account as unsafe
      method deposit x =
        if zero#leq x then unsafe # deposit x
        else raise (Invalid_argument "deposit")
    end;;
class safe_account :
  object
    val mutable balance : Euro.c
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method withdraw : Euro.c -> Euro.c
  end

In particular, this does not require the knowledge of the implementation of the method deposit.

To keep track of operations, we extend the class with a mutable field history and a private method trace to add an operation in the log. Then each method to be traced is redefined. 

# type 'a operation = Deposit of 'a | Retrieval of 'a;;
type 'a operation = Deposit of 'a | Retrieval of 'a

# class account_with_history =
    object (self)
      inherit safe_account as super
      val mutable history = []
      method private trace x = history <- x :: history
      method deposit x = self#trace (Deposit x);  super#deposit x
      method withdraw x = self#trace (Retrieval x); super#withdraw x
      method history = List.rev history
    end;;
class account_with_history :
  object
    val mutable balance : Euro.c
    val mutable history : Euro.c operation list
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method history : Euro.c operation list
    method private trace : Euro.c operation -> unit
    method withdraw : Euro.c -> Euro.c
  end

One may wish to open an account and simultaneously deposit some initial amount. Although the initial implementation did not address this requirement, it can be achieved by using an initializer. 

# class account_with_deposit x =
    object
      inherit account_with_history
      initializer balance <- x
    end;;
class account_with_deposit :
  Euro.c ->
  object
    val mutable balance : Euro.c
    val mutable history : Euro.c operation list
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method history : Euro.c operation list
    method private trace : Euro.c operation -> unit
    method withdraw : Euro.c -> Euro.c
  end

A better alternative is: 

# class account_with_deposit x =
    object (self)
      inherit account_with_history
      initializer self#deposit x
    end;;
class account_with_deposit :
  Euro.c ->
  object
    val mutable balance : Euro.c
    val mutable history : Euro.c operation list
    method balance : Euro.c
    method deposit : Euro.c -> unit
    method history : Euro.c operation list
    method private trace : Euro.c operation -> unit
    method withdraw : Euro.c -> Euro.c
  end

Indeed, the latter is safer since the call to deposit will automatically benefit from safety checks and from the trace. Let’s test it: 

# let ccp = new account_with_deposit (euro 100.) in
  let _balance = ccp#withdraw (euro 50.) in
  ccp#history;;
- : Euro.c operation list = [Deposit <obj>; Retrieval <obj>]

Closing an account can be done with the following polymorphic function: 

# let close c = c#withdraw c#balance;;
val close : < balance : 'a; withdraw : 'a -> 'b; .. > -> 'b = <fun>

Of course, this applies to all sorts of accounts.

Finally, we gather several versions of the account into a module Account abstracted over some currency. 

# let today () = (01,01,2000) (* an approximation *)
  module Account (M:MONEY) =
    struct
      type m = M.c
      let m = new M.c
      let zero = m 0.

      class bank =
        object (self)
          val mutable balance = zero
          method balance = balance
          val mutable history = []
          method private trace x = history <- x::history
          method deposit x =
            self#trace (Deposit x);
            if zero#leq x then balance <- balance # plus x
            else raise (Invalid_argument "deposit")
          method withdraw x =
            if x#leq balance then
              (balance <- balance # plus (neg x); self#trace (Retrieval x); x)
            else zero
          method history = List.rev history
        end

      class type client_view =
        object
          method deposit : m -> unit
          method history : m operation list
          method withdraw : m -> m
          method balance : m
        end

      class virtual check_client x =
        let y = if (m 100.)#leq x then x
        else raise (Failure "Insufficient initial deposit") in
        object (self) initializer self#deposit y end

      module Client (B : sig class bank : client_view end) =
        struct
          class account x : client_view =
            object
              inherit B.bank
              inherit check_client x
            end

          let discount x =
            let c = new account x in
            if today() < (1998,10,30) then c # deposit (m 100.); c
        end
    end;;

This shows the use of modules to group several class definitions that can in fact be thought of as a single unit. This unit would be provided by a bank for both internal and external uses. This is implemented as a functor that abstracts over the currency so that the same code can be used to provide accounts in different currencies.

The class bank is the real implementation of the bank account (it could have been inlined). This is the one that will be used for further extensions, refinements, etc. Conversely, the client will only be given the client view. 

# module Euro_account = Account(Euro);;

  module Client = Euro_account.Client (Euro_account);;

  new Client.account (new Euro.c 100.);;

Hence, the clients do not have direct access to the balance, nor the history of their own accounts. Their only way to change their balance is to deposit or withdraw money. It is important to give the clients a class and not just the ability to create accounts (such as the promotional discount account), so that they can personalize their account. For instance, a client may refine the deposit and withdraw methods so as to do his own financial bookkeeping, automatically. On the other hand, the function discount is given as such, with no possibility for further personalization.

It is important to provide the client’s view as a functor Client so that client accounts can still be built after a possible specialization of the bank. The functor Client may remain unchanged and be passed the new definition to initialize a client’s view of the extended account. 

# module Investment_account (M : MONEY) =
    struct
      type m = M.c
      module A = Account(M)

      class bank =
        object
          inherit A.bank as super
          method deposit x =
            if (new M.c 1000.)#leq x then
              print_string "Would you like to invest?";
            super#deposit x
        end

      module Client = A.Client
    end;;

The functor Client may also be redefined when some new features of the account can be given to the client. 

# module Internet_account (M : MONEY) =
    struct
      type m = M.c
      module A = Account(M)

      class bank =
        object
          inherit A.bank
          method mail s = print_string s
        end

      class type client_view =
        object
          method deposit : m -> unit
          method history : m operation list
          method withdraw : m -> m
          method balance : m
          method mail : string -> unit
        end

      module Client (B : sig class bank : client_view end) =
        struct
          class account x : client_view =
            object
              inherit B.bank
              inherit A.check_client x
            end
        end
    end;;

5.2  Simple modules as classes

One may wonder whether it is possible to treat primitive types such as integers and strings as objects. Although this is usually uninteresting for integers or strings, there may be some situations where this is desirable. The class money above is such an example. We show here how to do it for strings.

5.2.1  Strings

A naive definition of strings as objects could be: 

# class ostring s =
    object
       method get n = String.get s n
       method set n c = String.set s n c
       method print = print_string s
       method copy = new ostring (String.copy s)
    end;;
class ostring :
  string ->
  object
    method copy : ostring
    method get : int -> char
    method print : unit
    method set : int -> char -> unit
  end

However, the method copy returns an object of the class ostring, and not an objet of the current class. Hence, if the class is further extended, the method copy will only return an object of the parent class. 

# class sub_string s =
    object
       inherit ostring s
       method sub start len = new sub_string (String.sub s  start len)
    end;;
class sub_string :
  string ->
  object
    method copy : ostring
    method get : int -> char
    method print : unit
    method set : int -> char -> unit
    method sub : int -> int -> sub_string
  end

As seen in section 3.16, the solution is to use functional update instead. We need to create an instance variable containing the representation s of the string. 

# class better_string s =
    object
       val repr = s
       method get n = String.get repr n
       method set n c = String.set repr n c
       method print = print_string repr
       method copy = {< repr = String.copy repr >}
       method sub start len = {< repr = String.sub s  start len >}
    end;;
class better_string :
  string ->
  object ('a)
    val repr : string
    method copy : 'a
    method get : int -> char
    method print : unit
    method set : int -> char -> unit
    method sub : int -> int -> 'a
  end

As shown in the inferred type, the methods copy and sub now return objects of the same type as the one of the class.

Another difficulty is the implementation of the method concat. In order to concatenate a string with another string of the same class, one must be able to access the instance variable externally. Thus, a method repr returning s must be defined. Here is the correct definition of strings: 

# class ostring s =
    object (self : 'mytype)
       val repr = s
       method repr = repr
       method get n = String.get repr n
       method set n c = String.set repr n c
       method print = print_string repr
       method copy = {< repr = String.copy repr >}
       method sub start len = {< repr = String.sub s start len >}
       method concat (t : 'mytype) = {< repr = repr ^ t#repr >}
    end;;
class ostring :
  string ->
  object ('a)
    val repr : string
    method concat : 'a -> 'a
    method copy : 'a
    method get : int -> char
    method print : unit
    method repr : string
    method set : int -> char -> unit
    method sub : int -> int -> 'a
  end

Another constructor of the class string can be defined to return an uninitialized string of a given length: 

# class cstring n = ostring (String.create n);;
class cstring : int -> ostring

Here, exposing the representation of strings is probably harmless. We do could also hide the representation of strings as we hid the currency in the class money of section 3.17.

Stacks

There is sometimes an alternative between using modules or classes for parametric data types. Indeed, there are situations when the two approaches are quite similar. For instance, a stack can be straightforwardly implemented as a class: 

# exception Empty;;
exception Empty

# class ['a] stack =
    object
      val mutable l = ([] : 'a list)
      method push x = l <- x::l
      method pop = match l with [] -> raise Empty | a::l' -> l <- l'; a
      method clear = l <- []
      method length = List.length l
    end;;
class ['a] stack :
  object
    val mutable l : 'a list
    method clear : unit
    method length : int
    method pop : 'a
    method push : 'a -> unit
  end

However, writing a method for iterating over a stack is more problematic. A method fold would have type ('b -> 'a -> 'b) -> 'b -> 'b. Here 'a is the parameter of the stack. The parameter 'b is not related to the class 'a stack but to the argument that will be passed to the method fold. A naive approach is to make 'b an extra parameter of class stack: 

# class ['a, 'b] stack2 =
    object
      inherit ['a] stack
      method fold f (x : 'b) = List.fold_left f x l
    end;;
class ['a, 'b] stack2 :
  object
    val mutable l : 'a list
    method clear : unit
    method fold : ('b -> 'a -> 'b) -> 'b -> 'b
    method length : int
    method pop : 'a
    method push : 'a -> unit
  end

However, the method fold of a given object can only be applied to functions that all have the same type: 

# let s = new stack2;;
val s : ('_a, '_b) stack2 = <obj>

# s#fold ( + ) 0;;
- : int = 0

# s;;
- : (int, int) stack2 = <obj>

A better solution is to use polymorphic methods, which were introduced in OCaml version 3.05. Polymorphic methods makes it possible to treat the type variable 'b in the type of fold as universally quantified, giving fold the polymorphic type Forall 'b. ('b -> 'a -> 'b) -> 'b -> 'b. An explicit type declaration on the method fold is required, since the type checker cannot infer the polymorphic type by itself. 

# class ['a] stack3 =
    object
      inherit ['a] stack
      method fold : 'b. ('b -> 'a -> 'b) -> 'b -> 'b
                  = fun f x -> List.fold_left f x l
    end;;
class ['a] stack3 :
  object
    val mutable l : 'a list
    method clear : unit
    method fold : ('b -> 'a -> 'b) -> 'b -> 'b
    method length : int
    method pop : 'a
    method push : 'a -> unit
  end

5.2.2  Hashtbl

A simplified version of object-oriented hash tables should have the following class type. 

# class type ['a, 'b] hash_table =
    object
      method find : 'a -> 'b
      method add : 'a -> 'b -> unit
    end;;
class type ['a, 'b] hash_table =
  object method add : 'a -> 'b -> unit method find : 'a -> 'b end

A simple implementation, which is quite reasonable for small hastables is to use an association list: 

# class ['a, 'b] small_hashtbl : ['a, 'b] hash_table =
    object
      val mutable table = []
      method find key = List.assoc key table
      method add key valeur = table <- (key, valeur) :: table
    end;;
class ['a, 'b] small_hashtbl : ['a, 'b] hash_table

A better implementation, and one that scales up better, is to use a true hash tables… whose elements are small hash tables! 

# class ['a, 'b] hashtbl size : ['a, 'b] hash_table =
    object (self)
      val table = Array.init size (fun i -> new small_hashtbl)
      method private hash key =
        (Hashtbl.hash key) mod (Array.length table)
      method find key = table.(self#hash key) # find key
      method add key = table.(self#hash key) # add key
    end;;
class ['a, 'b] hashtbl : int -> ['a, 'b] hash_table

5.2.3  Sets

Implementing sets leads to another difficulty. Indeed, the method union needs to be able to access the internal representation of another object of the same class.

This is another instance of friend functions as seen in section 3.17. Indeed, this is the same mechanism used in the module Set in the absence of objects.

In the object-oriented version of sets, we only need to add an additional method tag to return the representation of a set. Since sets are parametric in the type of elements, the method tag has a parametric type 'a tag, concrete within the module definition but abstract in its signature. From outside, it will then be guaranteed that two objects with a method tag of the same type will share the same representation. 

# module type SET =
    sig
      type 'a tag
      class ['a] c :
        object ('b)
          method is_empty : bool
          method mem : 'a -> bool
          method add : 'a -> 'b
          method union : 'b -> 'b
          method iter : ('a -> unit) -> unit
          method tag : 'a tag
        end
    end;;

  module Set : SET =
    struct
      let rec merge l1 l2 =
        match l1 with
          [] -> l2
        | h1 :: t1 ->
            match l2 with
              [] -> l1
            | h2 :: t2 ->
                if h1 < h2 then h1 :: merge t1 l2
                else if h1 > h2 then h2 :: merge l1 t2
                else merge t1 l2
      type 'a tag = 'a list
      class ['a] c =
        object (_ : 'b)
          val repr = ([] : 'a list)
          method is_empty = (repr = [])
          method mem x = List.exists (( = ) x) repr
          method add x = {< repr = merge [x] repr >}
          method union (s : 'b) = {< repr = merge repr s#tag >}
          method iter (f : 'a -> unit) = List.iter f repr
          method tag = repr
        end
    end;;

5.3  The subject/observer pattern

The following example, known as the subject/observer pattern, is often presented in the literature as a difficult inheritance problem with inter-connected classes. The general pattern amounts to the definition a pair of two classes that recursively interact with one another.

The class observer has a distinguished method notify that requires two arguments, a subject and an event to execute an action. 

# class virtual ['subject, 'event] observer =
    object
      method virtual notify : 'subject ->  'event -> unit
    end;;
class virtual ['subject, 'event] observer :
  object method virtual notify : 'subject -> 'event -> unit end

The class subject remembers a list of observers in an instance variable, and has a distinguished method notify_observers to broadcast the message notify to all observers with a particular event e. 

# class ['observer, 'event] subject =
    object (self)
      val mutable observers = ([]:'observer list)
      method add_observer obs = observers <- (obs :: observers)
      method notify_observers (e : 'event) =
          List.iter (fun x -> x#notify self e) observers
    end;;
class ['a, 'event] subject :
  object ('b)
    constraint 'a = < notify : 'b -> 'event -> unit; .. >
    val mutable observers : 'a list
    method add_observer : 'a -> unit
    method notify_observers : 'event -> unit
  end

The difficulty usually lies in defining instances of the pattern above by inheritance. This can be done in a natural and obvious manner in OCaml, as shown on the following example manipulating windows. 

# type event = Raise | Resize | Move;;
type event = Raise | Resize | Move

# let string_of_event = function
      Raise -> "Raise" | Resize -> "Resize" | Move -> "Move";;
val string_of_event : event -> string = <fun>

# let count = ref 0;;
val count : int ref = {contents = 0}

# class ['observer] window_subject =
    let id = count := succ !count; !count in
    object (self)
      inherit ['observer, event] subject
      val mutable position = 0
      method identity = id
      method move x = position <- position + x; self#notify_observers Move
      method draw = Printf.printf "{Position = %d}\n"  position;
    end;;
class ['a] window_subject :
  object ('b)
    constraint 'a = < notify : 'b -> event -> unit; .. >
    val mutable observers : 'a list
    val mutable position : int
    method add_observer : 'a -> unit
    method draw : unit
    method identity : int
    method move : int -> unit
    method notify_observers : event -> unit
  end

# class ['subject] window_observer =
    object
      inherit ['subject, event] observer
      method notify s e = s#draw
    end;;
class ['a] window_observer :
  object
    constraint 'a = < draw : unit; .. >
    method notify : 'a -> event -> unit
  end

As can be expected, the type of window is recursive. 

# let window = new window_subject;;
val window : < notify : 'a -> event -> unit; _.. > window_subject as 'a =
  <obj>

However, the two classes of window_subject and window_observer are not mutually recursive. 

# let window_observer = new window_observer;;
val window_observer : < draw : unit; _.. > window_observer = <obj>

# window#add_observer window_observer;;
- : unit = ()

# window#move 1;;
{Position = 1}
- : unit = ()

Classes window_observer and window_subject can still be extended by inheritance. For instance, one may enrich the subject with new behaviors and refine the behavior of the observer. 

# class ['observer] richer_window_subject =
    object (self)
      inherit ['observer] window_subject
      val mutable size = 1
      method resize x = size <- size + x; self#notify_observers Resize
      val mutable top = false
      method raise = top <- true; self#notify_observers Raise
      method draw = Printf.printf "{Position = %d; Size = %d}\n"  position size;
    end;;
class ['a] richer_window_subject :
  object ('b)
    constraint 'a = < notify : 'b -> event -> unit; .. >
    val mutable observers : 'a list
    val mutable position : int
    val mutable size : int
    val mutable top : bool
    method add_observer : 'a -> unit
    method draw : unit
    method identity : int
    method move : int -> unit
    method notify_observers : event -> unit
    method raise : unit
    method resize : int -> unit
  end

# class ['subject] richer_window_observer =
    object
      inherit ['subject] window_observer as super
      method notify s e = if e <> Raise then s#raise; super#notify s e
    end;;
class ['a] richer_window_observer :
  object
    constraint 'a = < draw : unit; raise : unit; .. >
    method notify : 'a -> event -> unit
  end

We can also create a different kind of observer: 

# class ['subject] trace_observer =
    object
      inherit ['subject, event] observer
      method notify s e =
        Printf.printf
          "<Window %d <== %s>\n" s#identity (string_of_event e)
    end;;
class ['a] trace_observer :
  object
    constraint 'a = < identity : int; .. >
    method notify : 'a -> event -> unit
  end

and attach several observers to the same object: 

# let window = new richer_window_subject;;
val window :
  < notify : 'a -> event -> unit; _.. > richer_window_subject as 'a = <obj>

# window#add_observer (new richer_window_observer);;
- : unit = ()

# window#add_observer (new trace_observer);;
- : unit = ()

# window#move 1; window#resize 2;;
<Window 1 <== Move>
<Window 1 <== Raise>
{Position = 1; Size = 1}
{Position = 1; Size = 1}
<Window 1 <== Resize>
<Window 1 <== Raise>
{Position = 1; Size = 3}
{Position = 1; Size = 3}
- : unit = ()
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Contents

Up Next ocaml-doc-4.01/ocaml.html/stdlib.html0000644000175000017500000001643112214324200015740 0ustar i33173i33173 The standard library Previous Up Next

Chapter 21  The standard library

This chapter describes the functions provided by the OCaml standard library. The modules from the standard library are automatically linked with the user’s object code files by the ocamlc command. Hence, these modules can be used in standalone programs without having to add any .cmo file on the command line for the linking phase. Similarly, in interactive use, these globals can be used in toplevel phrases without having to load any .cmo file in memory.

Unlike the Pervasives module from the core library, the modules from the standard library are not automatically “opened” when a compilation starts, or when the toplevel system is launched. Hence it is necessary to use qualified identifiers to refer to the functions provided by these modules, or to add open directives.

Conventions

For easy reference, the modules are listed below in alphabetical order of module names. For each module, the declarations from its signature are printed one by one in typewriter font, followed by a short comment. All modules and the identifiers they export are indexed at the end of this report.

Previous Up Next ocaml-doc-4.01/ocaml.html/libnum.html0000644000175000017500000000457612214324200015754 0ustar i33173i33173 The num library: arbitrary-precision rational arithmetic Previous Up Next

Chapter 23  The num library: arbitrary-precision rational arithmetic

The num library implements integer arithmetic and rational arithmetic in arbitrary precision.

More documentation on the functions provided in this library can be found in The CAML Numbers Reference Manual by Valérie Ménissier-Morain, technical report 141, INRIA, july 1992 (available electronically, http://hal.inria.fr/docs/00/07/00/27/PDF/RT-0141.pdf).

Programs that use the num library must be linked as follows: 

        ocamlc other options nums.cma other files
        ocamlopt other options nums.cmxa other files

For interactive use of the nums library, do: 

        ocamlmktop -o mytop nums.cma
        ./mytop

or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "nums.cma";;.

Previous Up Next ocaml-doc-4.01/ocaml.html/language.html0000644000175000017500000000537012214324200016242 0ustar i33173i33173 The OCaml language Previous Up Next

Chapter 6  The OCaml language

Foreword

This document is intended as a reference manual for the OCaml language. It lists the language constructs, and gives their precise syntax and informal semantics. It is by no means a tutorial introduction to the language: there is not a single example. A good working knowledge of OCaml is assumed.

No attempt has been made at mathematical rigor: words are employed with their intuitive meaning, without further definition. As a consequence, the typing rules have been left out, by lack of the mathematical framework required to express them, while they are definitely part of a full formal definition of the language.

Notations

The syntax of the language is given in BNF-like notation. Terminal symbols are set in typewriter font (like this). Non-terminal symbols are set in italic font (like  that). Square brackets […] denote optional components. Curly brackets {…} denotes zero, one or several repetitions of the enclosed components. Curly brackets with a trailing plus sign {…}+ denote one or several repetitions of the enclosed components. Parentheses (…) denote grouping.

Previous Up Next ocaml-doc-4.01/ocaml.html/objectexamples.html0000644000175000017500000021443112214324200017464 0ustar i33173i33173 Objects in OCaml Previous Up Next

Chapter 3  Objects in OCaml

(Chapter written by Jérôme Vouillon, Didier Rémy and Jacques Garrigue)



This chapter gives an overview of the object-oriented features of OCaml. Note that the relation between object, class and type in OCaml is very different from that in mainstream object-oriented languages like Java or C++, so that you should not assume that similar keywords mean the same thing.

3.1 Classes and objects
3.2 Immediate objects
3.3 Reference to self
3.4 Initializers
3.5 Virtual methods
3.6 Private methods
3.7 Class interfaces
3.8 Inheritance
3.9 Multiple inheritance
3.10 Parameterized classes
3.11 Polymorphic methods
3.12 Using coercions
3.13 Functional objects
3.14 Cloning objects
3.15 Recursive classes
3.16 Binary methods
3.17 Friends

3.1  Classes and objects

The class point below defines one instance variable x and two methods get_x and move. The initial value of the instance variable is 0. The variable x is declared mutable, so the method move can change its value. 

# class point =
    object
      val mutable x = 0
      method get_x = x
      method move d = x <- x + d
    end;;
class point :
  object val mutable x : int method get_x : int method move : int -> unit end

We now create a new point p, instance of the point class. 

# let p = new point;;
val p : point = <obj>

Note that the type of p is point. This is an abbreviation automatically defined by the class definition above. It stands for the object type <get_x : int; move : int -> unit>, listing the methods of class point along with their types.

We now invoke some methods to p: 

# p#get_x;;
- : int = 0

# p#move 3;;
- : unit = ()

# p#get_x;;
- : int = 3

The evaluation of the body of a class only takes place at object creation time. Therefore, in the following example, the instance variable x is initialized to different values for two different objects. 

# let x0 = ref 0;;
val x0 : int ref = {contents = 0}

# class point =
    object
      val mutable x = incr x0; !x0
      method get_x = x
      method move d = x <- x + d
    end;;
class point :
  object val mutable x : int method get_x : int method move : int -> unit end

# new point#get_x;;
- : int = 1

# new point#get_x;;
- : int = 2

The class point can also be abstracted over the initial values of the x coordinate. 

# class point = fun x_init ->
    object
      val mutable x = x_init
      method get_x = x
      method move d = x <- x + d
    end;;
class point :
  int ->
  object val mutable x : int method get_x : int method move : int -> unit end

Like in function definitions, the definition above can be abbreviated as: 

# class point x_init =
    object
      val mutable x = x_init
      method get_x = x
      method move d = x <- x + d
    end;;
class point :
  int ->
  object val mutable x : int method get_x : int method move : int -> unit end

An instance of the class point is now a function that expects an initial parameter to create a point object: 

# new point;;
- : int -> point = <fun>

# let p = new point 7;;
val p : point = <obj>

The parameter x_init is, of course, visible in the whole body of the definition, including methods. For instance, the method get_offset in the class below returns the position of the object relative to its initial position. 

# class point x_init =
    object
      val mutable x = x_init
      method get_x = x
      method get_offset = x - x_init
      method move d = x <- x + d
    end;;
class point :
  int ->
  object
    val mutable x : int
    method get_offset : int
    method get_x : int
    method move : int -> unit
  end

Expressions can be evaluated and bound before defining the object body of the class. This is useful to enforce invariants. For instance, points can be automatically adjusted to the nearest point on a grid, as follows: 

# class adjusted_point x_init =
    let origin = (x_init / 10) * 10 in
    object
      val mutable x = origin
      method get_x = x
      method get_offset = x - origin
      method move d = x <- x + d
    end;;
class adjusted_point :
  int ->
  object
    val mutable x : int
    method get_offset : int
    method get_x : int
    method move : int -> unit
  end

(One could also raise an exception if the x_init coordinate is not on the grid.) In fact, the same effect could here be obtained by calling the definition of class point with the value of the origin. 

# class adjusted_point x_init =  point ((x_init / 10) * 10);;
class adjusted_point : int -> point

An alternate solution would have been to define the adjustment in a special allocation function: 

# let new_adjusted_point x_init = new point ((x_init / 10) * 10);;
val new_adjusted_point : int -> point = <fun>

However, the former pattern is generally more appropriate, since the code for adjustment is part of the definition of the class and will be inherited.

This ability provides class constructors as can be found in other languages. Several constructors can be defined this way to build objects of the same class but with different initialization patterns; an alternative is to use initializers, as decribed below in section 3.4.

3.2  Immediate objects

There is another, more direct way to create an object: create it without going through a class.

The syntax is exactly the same as for class expressions, but the result is a single object rather than a class. All the constructs described in the rest of this section also apply to immediate objects. 

# let p =
    object
      val mutable x = 0
      method get_x = x
      method move d = x <- x + d
    end;;
val p : < get_x : int; move : int -> unit > = <obj>

# p#get_x;;
- : int = 0

# p#move 3;;
- : unit = ()

# p#get_x;;
- : int = 3

Unlike classes, which cannot be defined inside an expression, immediate objects can appear anywhere, using variables from their environment. 

# let minmax x y =
    if x < y then object method min = x method max = y end
    else object method min = y method max = x end;;
val minmax : 'a -> 'a -> < max : 'a; min : 'a > = <fun>

Immediate objects have two weaknesses compared to classes: their types are not abbreviated, and you cannot inherit from them. But these two weaknesses can be advantages in some situations, as we will see in sections 3.3 and 3.10.

3.3  Reference to self

A method or an initializer can send messages to self (that is, the current object). For that, self must be explicitly bound, here to the variable s (s could be any identifier, even though we will often choose the name self.) 

# class printable_point x_init =
    object (s)
      val mutable x = x_init
      method get_x = x
      method move d = x <- x + d
      method print = print_int s#get_x
    end;;
class printable_point :
  int ->
  object
    val mutable x : int
    method get_x : int
    method move : int -> unit
    method print : unit
  end

# let p = new printable_point 7;;
val p : printable_point = <obj>

# p#print;;
7- : unit = ()

Dynamically, the variable s is bound at the invocation of a method. In particular, when the class printable_point is inherited, the variable s will be correctly bound to the object of the subclass.

A common problem with self is that, as its type may be extended in subclasses, you cannot fix it in advance. Here is a simple example. 

# let ints = ref [];;
val ints : '_a list ref = {contents = []}

# class my_int =
    object (self)
      method n = 1
      method register = ints := self :: !ints
    end;;
Error: This expression has type < n : int; register : 'b; .. > as 'a
       but an expression was expected of type 'a
       Self type cannot escape its class

You can ignore the first two lines of the error message. What matters is the last one: putting self into an external reference would make it impossible to extend it through inheritance. We will see in section 3.12 a workaround to this problem. Note however that, since immediate objects are not extensible, the problem does not occur with them. 

# let my_int =
    object (self)
      method n = 1
      method register = ints := self :: !ints
    end;;
val my_int : < n : int; register : unit > = <obj>

3.4  Initializers

Let-bindings within class definitions are evaluated before the object is constructed. It is also possible to evaluate an expression immediately after the object has been built. Such code is written as an anonymous hidden method called an initializer. Therefore, it can access self and the instance variables. 

# class printable_point x_init =
    let origin = (x_init / 10) * 10 in
    object (self)
      val mutable x = origin
      method get_x = x
      method move d = x <- x + d
      method print = print_int self#get_x
      initializer print_string "new point at "; self#print; print_newline ()
    end;;
class printable_point :
  int ->
  object
    val mutable x : int
    method get_x : int
    method move : int -> unit
    method print : unit
  end

# let p = new printable_point 17;;
new point at 10
val p : printable_point = <obj>

Initializers cannot be overridden. On the contrary, all initializers are evaluated sequentially. Initializers are particularly useful to enforce invariants. Another example can be seen in section 5.1.

3.5  Virtual methods

It is possible to declare a method without actually defining it, using the keyword virtual. This method will be provided later in subclasses. A class containing virtual methods must be flagged virtual, and cannot be instantiated (that is, no object of this class can be created). It still defines type abbreviations (treating virtual methods as other methods.) 

# class virtual abstract_point x_init =
    object (self)
      method virtual get_x : int
      method get_offset = self#get_x - x_init
      method virtual move : int -> unit
    end;;
class virtual abstract_point :
  int ->
  object
    method get_offset : int
    method virtual get_x : int
    method virtual move : int -> unit
  end

# class point x_init =
    object
      inherit abstract_point x_init
      val mutable x = x_init
      method get_x = x
      method move d = x <- x + d
    end;;
class point :
  int ->
  object
    val mutable x : int
    method get_offset : int
    method get_x : int
    method move : int -> unit
  end

Instance variables can also be declared as virtual, with the same effect as with methods. 

# class virtual abstract_point2 =
    object
      val mutable virtual x : int
      method move d = x <- x + d
    end;;
class virtual abstract_point2 :
  object val mutable virtual x : int method move : int -> unit end

# class point2 x_init =
    object
      inherit abstract_point2
      val mutable x = x_init
      method get_offset = x - x_init
    end;;
class point2 :
  int ->
  object
    val mutable x : int
    method get_offset : int
    method move : int -> unit
  end

3.6  Private methods

Private methods are methods that do not appear in object interfaces. They can only be invoked from other methods of the same object. 

# class restricted_point x_init =
    object (self)
      val mutable x = x_init
      method get_x = x
      method private move d = x <- x + d
      method bump = self#move 1
    end;;
class restricted_point :
  int ->
  object
    val mutable x : int
    method bump : unit
    method get_x : int
    method private move : int -> unit
  end

# let p = new restricted_point 0;;
val p : restricted_point = <obj>

# p#move 10;;
Error: This expression has type restricted_point
       It has no method move

# p#bump;;
- : unit = ()

Note that this is not the same thing as private and protected methods in Java or C++, which can be called from other objects of the same class. This is a direct consequence of the independence between types and classes in OCaml: two unrelated classes may produce objects of the same type, and there is no way at the type level to ensure that an object comes from a specific class. However a possible encoding of friend methods is given in section 3.17.

Private methods are inherited (they are by default visible in subclasses), unless they are hidden by signature matching, as described below.

Private methods can be made public in a subclass. 

# class point_again x =
    object (self)
      inherit restricted_point x
      method virtual move : _
    end;;
class point_again :
  int ->
  object
    val mutable x : int
    method bump : unit
    method get_x : int
    method move : int -> unit
  end

The annotation virtual here is only used to mention a method without providing its definition. Since we didn’t add the private annotation, this makes the method public, keeping the original definition.

An alternative definition is 

# class point_again x =
    object (self : < move : _; ..> )
      inherit restricted_point x
    end;;
class point_again :
  int ->
  object
    val mutable x : int
    method bump : unit
    method get_x : int
    method move : int -> unit
  end

The constraint on self’s type is requiring a public move method, and this is sufficient to override private.

One could think that a private method should remain private in a subclass. However, since the method is visible in a subclass, it is always possible to pick its code and define a method of the same name that runs that code, so yet another (heavier) solution would be: 

# class point_again x =
    object
      inherit restricted_point x as super
      method move = super#move
    end;;
class point_again :
  int ->
  object
    val mutable x : int
    method bump : unit
    method get_x : int
    method move : int -> unit
  end

Of course, private methods can also be virtual. Then, the keywords must appear in this order method private virtual.

3.7  Class interfaces

Class interfaces are inferred from class definitions. They may also be defined directly and used to restrict the type of a class. Like class declarations, they also define a new type abbreviation. 

# class type restricted_point_type =
    object
      method get_x : int
      method bump : unit
  end;;
class type restricted_point_type =
  object method bump : unit method get_x : int end

# fun (x : restricted_point_type) -> x;;
- : restricted_point_type -> restricted_point_type = <fun>

In addition to program documentation, class interfaces can be used to constrain the type of a class. Both concrete instance variables and concrete private methods can be hidden by a class type constraint. Public methods and virtual members, however, cannot. 

# class restricted_point' x = (restricted_point x : restricted_point_type);;
class restricted_point' : int -> restricted_point_type

Or, equivalently: 

# class restricted_point' = (restricted_point : int -> restricted_point_type);;
class restricted_point' : int -> restricted_point_type

The interface of a class can also be specified in a module signature, and used to restrict the inferred signature of a module. 

# module type POINT = sig
    class restricted_point' : int ->
      object
        method get_x : int
        method bump : unit
      end
  end;;
module type POINT =
  sig
    class restricted_point' :
      int -> object method bump : unit method get_x : int end
  end

# module Point : POINT = struct
    class restricted_point' = restricted_point
  end;;
module Point : POINT

3.8  Inheritance

We illustrate inheritance by defining a class of colored points that inherits from the class of points. This class has all instance variables and all methods of class point, plus a new instance variable c and a new method color. 

# class colored_point x (c : string) =
    object
      inherit point x
      val c = c
      method color = c
    end;;
class colored_point :
  int ->
  string ->
  object
    val c : string
    val mutable x : int
    method color : string
    method get_offset : int
    method get_x : int
    method move : int -> unit
  end

# let p' = new colored_point 5 "red";;
val p' : colored_point = <obj>

# p'#get_x, p'#color;;
- : int * string = (5, "red")

A point and a colored point have incompatible types, since a point has no method color. However, the function get_x below is a generic function applying method get_x to any object p that has this method (and possibly some others, which are represented by an ellipsis in the type). Thus, it applies to both points and colored points. 

# let get_succ_x p = p#get_x + 1;;
val get_succ_x : < get_x : int; .. > -> int = <fun>

# get_succ_x p + get_succ_x p';;
- : int = 8

Methods need not be declared previously, as shown by the example: 

# let set_x p = p#set_x;;
val set_x : < set_x : 'a; .. > -> 'a = <fun>

# let incr p = set_x p (get_succ_x p);;
val incr : < get_x : int; set_x : int -> 'a; .. > -> 'a = <fun>

3.9  Multiple inheritance

Multiple inheritance is allowed. Only the last definition of a method is kept: the redefinition in a subclass of a method that was visible in the parent class overrides the definition in the parent class. Previous definitions of a method can be reused by binding the related ancestor. Below, super is bound to the ancestor printable_point. The name super is a pseudo value identifier that can only be used to invoke a super-class method, as in super#print. 

# class printable_colored_point y c =
    object (self)
      val c = c
      method color = c
      inherit printable_point y as super
      method print =
        print_string "(";
        super#print;
        print_string ", ";
        print_string (self#color);
        print_string ")"
    end;;
class printable_colored_point :
  int ->
  string ->
  object
    val c : string
    val mutable x : int
    method color : string
    method get_x : int
    method move : int -> unit
    method print : unit
  end

# let p' = new printable_colored_point 17 "red";;
new point at (10, red)
val p' : printable_colored_point = <obj>

# p'#print;;
(10, red)- : unit = ()

A private method that has been hidden in the parent class is no longer visible, and is thus not overridden. Since initializers are treated as private methods, all initializers along the class hierarchy are evaluated, in the order they are introduced.

3.10  Parameterized classes

Reference cells can be implemented as objects. The naive definition fails to typecheck: 

# class ref x_init =
    object
      val mutable x = x_init
      method get = x
      method set y = x <- y
    end;;
Error: Some type variables are unbound in this type:
         class ref :
           'a ->
           object
             val mutable x : 'a
             method get : 'a
             method set : 'a -> unit
           end
       The method get has type 'a where 'a is unbound

The reason is that at least one of the methods has a polymorphic type (here, the type of the value stored in the reference cell), thus either the class should be parametric, or the method type should be constrained to a monomorphic type. A monomorphic instance of the class could be defined by: 

# class ref (x_init:int) =
    object
      val mutable x = x_init
      method get = x
      method set y = x <- y
    end;;
class ref :
  int ->
  object val mutable x : int method get : int method set : int -> unit end

Note that since immediate objects do not define a class type, they have no such restriction. 

# let new_ref x_init =
    object
      val mutable x = x_init
      method get = x
      method set y = x <- y
    end;;
val new_ref : 'a -> < get : 'a; set : 'a -> unit > = <fun>

On the other hand, a class for polymorphic references must explicitly list the type parameters in its declaration. Class type parameters are listed between [ and ]. The type parameters must also be bound somewhere in the class body by a type constraint. 

# class ['a] ref x_init =
    object
      val mutable x = (x_init : 'a)
      method get = x
      method set y = x <- y
    end;;
class ['a] ref :
  'a -> object val mutable x : 'a method get : 'a method set : 'a -> unit end

# let r = new ref 1 in r#set 2; (r#get);;
- : int = 2

The type parameter in the declaration may actually be constrained in the body of the class definition. In the class type, the actual value of the type parameter is displayed in the constraint clause. 

# class ['a] ref_succ (x_init:'a) =
    object
      val mutable x = x_init + 1
      method get = x
      method set y = x <- y
    end;;
class ['a] ref_succ :
  'a ->
  object
    constraint 'a = int
    val mutable x : int
    method get : int
    method set : int -> unit
  end

Let us consider a more complex example: define a circle, whose center may be any kind of point. We put an additional type constraint in method move, since no free variables must remain unaccounted for by the class type parameters. 

# class ['a] circle (c : 'a) =
    object
      val mutable center = c
      method center = center
      method set_center c = center <- c
      method move = (center#move : int -> unit)
    end;;
class ['a] circle :
  'a ->
  object
    constraint 'a = < move : int -> unit; .. >
    val mutable center : 'a
    method center : 'a
    method move : int -> unit
    method set_center : 'a -> unit
  end

An alternate definition of circle, using a constraint clause in the class definition, is shown below. The type #point used below in the constraint clause is an abbreviation produced by the definition of class point. This abbreviation unifies with the type of any object belonging to a subclass of class point. It actually expands to < get_x : int; move : int -> unit; .. >. This leads to the following alternate definition of circle, which has slightly stronger constraints on its argument, as we now expect center to have a method get_x. 

# class ['a] circle (c : 'a) =
    object
      constraint 'a = #point
      val mutable center = c
      method center = center
      method set_center c = center <- c
      method move = center#move
    end;;
class ['a] circle :
  'a ->
  object
    constraint 'a = #point
    val mutable center : 'a
    method center : 'a
    method move : int -> unit
    method set_center : 'a -> unit
  end

The class colored_circle is a specialized version of class circle that requires the type of the center to unify with #colored_point, and adds a method color. Note that when specializing a parameterized class, the instance of type parameter must always be explicitly given. It is again written between [ and ]. 

# class ['a] colored_circle c =
    object
      constraint 'a = #colored_point
      inherit ['a] circle c
      method color = center#color
    end;;
class ['a] colored_circle :
  'a ->
  object
    constraint 'a = #colored_point
    val mutable center : 'a
    method center : 'a
    method color : string
    method move : int -> unit
    method set_center : 'a -> unit
  end

3.11  Polymorphic methods

While parameterized classes may be polymorphic in their contents, they are not enough to allow polymorphism of method use.

A classical example is defining an iterator. 

# List.fold_left;;
- : ('a -> 'b -> 'a) -> 'a -> 'b list -> 'a = <fun>

# class ['a] intlist (l : int list) =
    object
      method empty = (l = [])
      method fold f (accu : 'a) = List.fold_left f accu l
    end;;
class ['a] intlist :
  int list ->
  object method empty : bool method fold : ('a -> int -> 'a) -> 'a -> 'a end

At first look, we seem to have a polymorphic iterator, however this does not work in practice. 

# let l = new intlist [1; 2; 3];;
val l : '_a intlist = <obj>

# l#fold (fun x y -> x+y) 0;;
- : int = 6

# l;;
- : int intlist = <obj>

# l#fold (fun s x -> s ^ string_of_int x ^ " ") "";;
Error: This expression has type int but an expression was expected of type
         string

Our iterator works, as shows its first use for summation. However, since objects themselves are not polymorphic (only their constructors are), using the fold method fixes its type for this individual object. Our next attempt to use it as a string iterator fails.

The problem here is that quantification was wrongly located: it is not the class we want to be polymorphic, but the fold method. This can be achieved by giving an explicitly polymorphic type in the method definition. 

# class intlist (l : int list) =
    object
      method empty = (l = [])
      method fold : 'a. ('a -> int -> 'a) -> 'a -> 'a =
        fun f accu -> List.fold_left f accu l
    end;;
class intlist :
  int list ->
  object method empty : bool method fold : ('a -> int -> 'a) -> 'a -> 'a end

# let l = new intlist [1; 2; 3];;
val l : intlist = <obj>

# l#fold (fun x y -> x+y) 0;;
- : int = 6

# l#fold (fun s x -> s ^ string_of_int x ^ " ") "";;
- : string = "1 2 3 "

As you can see in the class type shown by the compiler, while polymorphic method types must be fully explicit in class definitions (appearing immediately after the method name), quantified type variables can be left implicit in class descriptions. Why require types to be explicit? The problem is that (int -> int -> int) -> int -> int would also be a valid type for fold, and it happens to be incompatible with the polymorphic type we gave (automatic instantiation only works for toplevel types variables, not for inner quantifiers, where it becomes an undecidable problem.) So the compiler cannot choose between those two types, and must be helped.

However, the type can be completely omitted in the class definition if it is already known, through inheritance or type constraints on self. Here is an example of method overriding. 

# class intlist_rev l =
    object
      inherit intlist l
      method fold f accu = List.fold_left f accu (List.rev l)
    end;;

The following idiom separates description and definition. 

# class type ['a] iterator =
    object method fold : ('b -> 'a -> 'b) -> 'b -> 'b end;;

  class intlist l =
    object (self : int #iterator)
      method empty = (l = [])
      method fold f accu = List.fold_left f accu l
    end;;

Note here the (self : int #iterator) idiom, which ensures that this object implements the interface iterator.

Polymorphic methods are called in exactly the same way as normal methods, but you should be aware of some limitations of type inference. Namely, a polymorphic method can only be called if its type is known at the call site. Otherwise, the method will be assumed to be monomorphic, and given an incompatible type. 

# let sum lst = lst#fold (fun x y -> x+y) 0;;
val sum : < fold : (int -> int -> int) -> int -> 'a; .. > -> 'a = <fun>

# sum l;;
Error: This expression has type intlist
       but an expression was expected of type
         < fold : (int -> int -> int) -> int -> 'a; .. >
       Types for method fold are incompatible

The workaround is easy: you should put a type constraint on the parameter. 

# let sum (lst : _ #iterator) = lst#fold (fun x y -> x+y) 0;;
val sum : int #iterator -> int = <fun>

Of course the constraint may also be an explicit method type. Only occurences of quantified variables are required. 

# let sum lst =
    (lst : < fold : 'a. ('a -> _ -> 'a) -> 'a -> 'a; .. >)#fold (+) 0;;
val sum : < fold : 'a. ('a -> int -> 'a) -> 'a -> 'a; .. > -> int = <fun>

Another use of polymorphic methods is to allow some form of implicit subtyping in method arguments. We have already seen in section 3.8 how some functions may be polymorphic in the class of their argument. This can be extended to methods. 

# class type point0 = object method get_x : int end;;
class type point0 = object method get_x : int end

# class distance_point x =
    object
      inherit point x
      method distance : 'a. (#point0 as 'a) -> int =
        fun other -> abs (other#get_x - x)
    end;;
class distance_point :
  int ->
  object
    val mutable x : int
    method distance : #point0 -> int
    method get_offset : int
    method get_x : int
    method move : int -> unit
  end

# let p = new distance_point 3 in
  (p#distance (new point 8), p#distance (new colored_point 1 "blue"));;
- : int * int = (5, 2)

Note here the special syntax (#point0 as 'a) we have to use to quantify the extensible part of #point0. As for the variable binder, it can be omitted in class specifications. If you want polymorphism inside object field it must be quantified independently. 

# class multi_poly =
    object
      method m1 : 'a. (< n1 : 'b. 'b -> 'b; .. > as 'a) -> _ =
        fun o -> o#n1 true, o#n1 "hello"
      method m2 : 'a 'b. (< n2 : 'b -> bool; .. > as 'a) -> 'b -> _ =
        fun o x -> o#n2 x
    end;;
class multi_poly :
  object
    method m1 : < n1 : 'b. 'b -> 'b; .. > -> bool * string
    method m2 : < n2 : 'b -> bool; .. > -> 'b -> bool
  end

In method m1, o must be an object with at least a method n1, itself polymorphic. In method m2, the argument of n2 and x must have the same type, which is quantified at the same level as 'a.

3.12  Using coercions

Subtyping is never implicit. There are, however, two ways to perform subtyping. The most general construction is fully explicit: both the domain and the codomain of the type coercion must be given.

We have seen that points and colored points have incompatible types. For instance, they cannot be mixed in the same list. However, a colored point can be coerced to a point, hiding its color method: 

# let colored_point_to_point cp = (cp : colored_point :> point);;
val colored_point_to_point : colored_point -> point = <fun>

# let p = new point 3 and q = new colored_point 4 "blue";;
val p : point = <obj>
val q : colored_point = <obj>

# let l = [p; (colored_point_to_point q)];;
val l : point list = [<obj>; <obj>]

An object of type t can be seen as an object of type t' only if t is a subtype of t'. For instance, a point cannot be seen as a colored point. 

# (p : point :> colored_point);;
Error: Type point = < get_offset : int; get_x : int; move : int -> unit >
       is not a subtype of
         colored_point =
           < color : string; get_offset : int; get_x : int;
             move : int -> unit >

Indeed, narrowing coercions without runtime checks would be unsafe. Runtime type checks might raise exceptions, and they would require the presence of type information at runtime, which is not the case in the OCaml system. For these reasons, there is no such operation available in the language.

Be aware that subtyping and inheritance are not related. Inheritance is a syntactic relation between classes while subtyping is a semantic relation between types. For instance, the class of colored points could have been defined directly, without inheriting from the class of points; the type of colored points would remain unchanged and thus still be a subtype of points.

The domain of a coercion can often be omitted. For instance, one can define: 

# let to_point cp = (cp :> point);;
val to_point : #point -> point = <fun>

In this case, the function colored_point_to_point is an instance of the function to_point. This is not always true, however. The fully explicit coercion is more precise and is sometimes unavoidable. Consider, for example, the following class: 

# class c0 = object method m = {< >} method n = 0 end;;
class c0 : object ('a) method m : 'a method n : int end

The object type c0 is an abbreviation for <m : 'a; n : int> as 'a. Consider now the type declaration: 

# class type c1 =  object method m : c1 end;;
class type c1 = object method m : c1 end

The object type c1 is an abbreviation for the type <m : 'a> as 'a. The coercion from an object of type c0 to an object of type c1 is correct: 

# fun (x:c0) -> (x : c0 :> c1);;
- : c0 -> c1 = <fun>

However, the domain of the coercion cannot always be omitted. In that case, the solution is to use the explicit form. Sometimes, a change in the class-type definition can also solve the problem 

# class type c2 = object ('a) method m : 'a end;;
class type c2 = object ('a) method m : 'a end

# fun (x:c0) -> (x :> c2);;
- : c0 -> c2 = <fun>

While class types c1 and c2 are different, both object types c1 and c2 expand to the same object type (same method names and types). Yet, when the domain of a coercion is left implicit and its co-domain is an abbreviation of a known class type, then the class type, rather than the object type, is used to derive the coercion function. This allows leaving the domain implicit in most cases when coercing form a subclass to its superclass. The type of a coercion can always be seen as below: 

# let to_c1 x = (x :> c1);;
val to_c1 : < m : #c1; .. > -> c1 = <fun>

# let to_c2 x = (x :> c2);;
val to_c2 : #c2 -> c2 = <fun>

Note the difference between these two coercions: in the case of to_c2, the type #c2 = < m : 'a; .. > as 'a is polymorphically recursive (according to the explicit recursion in the class type of c2); hence the success of applying this coercion to an object of class c0. On the other hand, in the first case, c1 was only expanded and unrolled twice to obtain < m : < m : c1; .. >; .. > (remember #c1 = < m : c1; .. >), without introducing recursion. You may also note that the type of to_c2 is #c2 -> c2 while the type of to_c1 is more general than #c1 -> c1. This is not always true, since there are class types for which some instances of #c are not subtypes of c, as explained in section 3.16. Yet, for parameterless classes the coercion (_ :> c) is always more general than (_ : #c :> c).

A common problem may occur when one tries to define a coercion to a class c while defining class c. The problem is due to the type abbreviation not being completely defined yet, and so its subtypes are not clearly known. Then, a coercion (_ :> c) or (_ : #c :> c) is taken to be the identity function, as in 

# function x -> (x :> 'a);;
- : 'a -> 'a = <fun>

As a consequence, if the coercion is applied to self, as in the following example, the type of self is unified with the closed type c (a closed object type is an object type without ellipsis). This would constrain the type of self be closed and is thus rejected. Indeed, the type of self cannot be closed: this would prevent any further extension of the class. Therefore, a type error is generated when the unification of this type with another type would result in a closed object type. 

# class c = object method m = 1 end
  and d = object (self)
    inherit c
    method n = 2
    method as_c = (self :> c)
  end;;
Error: This expression cannot be coerced to type c = < m : int >; it has type
         < as_c : c; m : int; n : int; .. >
       but is here used with type c
       Self type cannot escape its class

However, the most common instance of this problem, coercing self to its current class, is detected as a special case by the type checker, and properly typed. 

# class c = object (self) method m = (self :> c) end;;
class c : object method m : c end

This allows the following idiom, keeping a list of all objects belonging to a class or its subclasses: 

# let all_c = ref [];;
val all_c : '_a list ref = {contents = []}

# class c (m : int) =
    object (self)
      method m = m
      initializer all_c := (self :> c) :: !all_c
    end;;
class c : int -> object method m : int end

This idiom can in turn be used to retrieve an object whose type has been weakened: 

# let rec lookup_obj obj = function [] -> raise Not_found
    | obj' :: l ->
       if (obj :> < >) = (obj' :> < >) then obj' else lookup_obj obj l ;;
val lookup_obj : < .. > -> (< .. > as 'a) list -> 'a = <fun>

# let lookup_c obj = lookup_obj obj !all_c;;
val lookup_c : < .. > -> < m : int > = <fun>

The type < m : int > we see here is just the expansion of c, due to the use of a reference; we have succeeded in getting back an object of type c.


The previous coercion problem can often be avoided by first defining the abbreviation, using a class type: 

# class type c' = object method m : int end;;
class type c' = object method m : int end

# class c : c' = object method m = 1 end
  and d = object (self)
    inherit c
    method n = 2
    method as_c = (self :> c')
  end;;
class c : c'
and d : object method as_c : c' method m : int method n : int end

It is also possible to use a virtual class. Inheriting from this class simultaneously forces all methods of c to have the same type as the methods of c'. 

# class virtual c' = object method virtual m : int end;;
class virtual c' : object method virtual m : int end

# class c = object (self) inherit c' method m = 1 end;;
class c : object method m : int end

One could think of defining the type abbreviation directly: 

# type c' = <m : int>;;

However, the abbreviation #c' cannot be defined directly in a similar way. It can only be defined by a class or a class-type definition. This is because a #-abbreviation carries an implicit anonymous variable .. that cannot be explicitly named. The closer you get to it is: 

# type 'a c'_class = 'a constraint 'a = < m : int; .. >;;

with an extra type variable capturing the open object type.

3.13  Functional objects

It is possible to write a version of class point without assignments on the instance variables. The override construct {< ... >} returns a copy of “self” (that is, the current object), possibly changing the value of some instance variables. 

# class functional_point y =
    object
      val x = y
      method get_x = x
      method move d = {< x = x + d >}
    end;;
class functional_point :
  int ->
  object ('a) val x : int method get_x : int method move : int -> 'a end

# let p = new functional_point 7;;
val p : functional_point = <obj>

# p#get_x;;
- : int = 7

# (p#move 3)#get_x;;
- : int = 10

# p#get_x;;
- : int = 7

Note that the type abbreviation functional_point is recursive, which can be seen in the class type of functional_point: the type of self is 'a and 'a appears inside the type of the method move.

The above definition of functional_point is not equivalent to the following: 

# class bad_functional_point y =
    object
      val x = y
      method get_x = x
      method move d = new bad_functional_point (x+d)
    end;;
class bad_functional_point :
  int ->
  object
    val x : int
    method get_x : int
    method move : int -> bad_functional_point
  end

While objects of either class will behave the same, objects of their subclasses will be different. In a subclass of bad_functional_point, the method move will keep returning an object of the parent class. On the contrary, in a subclass of functional_point, the method move will return an object of the subclass.

Functional update is often used in conjunction with binary methods as illustrated in section 5.2.1.

3.14  Cloning objects

Objects can also be cloned, whether they are functional or imperative. The library function Oo.copy makes a shallow copy of an object. That is, it returns a new object that has the same methods and instance variables as its argument. The instance variables are copied but their contents are shared. Assigning a new value to an instance variable of the copy (using a method call) will not affect instance variables of the original, and conversely. A deeper assignment (for example if the instance variable is a reference cell) will of course affect both the original and the copy.

The type of Oo.copy is the following: 

# Oo.copy;;
- : (< .. > as 'a) -> 'a = <fun>

The keyword as in that type binds the type variable 'a to the object type < .. >. Therefore, Oo.copy takes an object with any methods (represented by the ellipsis), and returns an object of the same type. The type of Oo.copy is different from type < .. > -> < .. > as each ellipsis represents a different set of methods. Ellipsis actually behaves as a type variable. 

# let p = new point 5;;
val p : point = <obj>

# let q = Oo.copy p;;
val q : point = <obj>

# q#move 7; (p#get_x, q#get_x);;
- : int * int = (5, 12)

In fact, Oo.copy p will behave as p#copy assuming that a public method copy with body {< >} has been defined in the class of p.

Objects can be compared using the generic comparison functions = and <>. Two objects are equal if and only if they are physically equal. In particular, an object and its copy are not equal. 

# let q = Oo.copy p;;
val q : point = <obj>

# p = q, p = p;;
- : bool * bool = (false, true)

Other generic comparisons such as (<, <=, ...) can also be used on objects. The relation < defines an unspecified but strict ordering on objets. The ordering relationship between two objects is fixed once for all after the two objects have been created and it is not affected by mutation of fields.

Cloning and override have a non empty intersection. They are interchangeable when used within an object and without overriding any field: 

# class copy =
    object
      method copy = {< >}
    end;;
class copy : object ('a) method copy : 'a end

# class copy =
    object (self)
      method copy = Oo.copy self
    end;;
class copy : object ('a) method copy : 'a end

Only the override can be used to actually override fields, and only the Oo.copy primitive can be used externally.

Cloning can also be used to provide facilities for saving and restoring the state of objects. 

# class backup =
    object (self : 'mytype)
      val mutable copy = None
      method save = copy <- Some {< copy = None >}
      method restore = match copy with Some x -> x | None -> self
    end;;
class backup :
  object ('a)
    val mutable copy : 'a option
    method restore : 'a
    method save : unit
  end

The above definition will only backup one level. The backup facility can be added to any class by using multiple inheritance. 

# class ['a] backup_ref x = object inherit ['a] ref x inherit backup end;;
class ['a] backup_ref :
  'a ->
  object ('b)
    val mutable copy : 'b option
    val mutable x : 'a
    method get : 'a
    method restore : 'b
    method save : unit
    method set : 'a -> unit
  end

# let rec get p n = if n = 0 then p # get else get (p # restore) (n-1);;
val get : (< get : 'b; restore : 'a; .. > as 'a) -> int -> 'b = <fun>

# let p = new backup_ref 0  in
  p # save; p # set 1; p # save; p # set 2;
  [get p 0; get p 1; get p 2; get p 3; get p 4];;
- : int list = [2; 1; 1; 1; 1]

We can define a variant of backup that retains all copies. (We also add a method clear to manually erase all copies.) 

# class backup =
    object (self : 'mytype)
      val mutable copy = None
      method save = copy <- Some {< >}
      method restore = match copy with Some x -> x | None -> self
      method clear = copy <- None
    end;;
class backup :
  object ('a)
    val mutable copy : 'a option
    method clear : unit
    method restore : 'a
    method save : unit
  end

# class ['a] backup_ref x = object inherit ['a] ref x inherit backup end;;
class ['a] backup_ref :
  'a ->
  object ('b)
    val mutable copy : 'b option
    val mutable x : 'a
    method clear : unit
    method get : 'a
    method restore : 'b
    method save : unit
    method set : 'a -> unit
  end

# let p = new backup_ref 0  in
  p # save; p # set 1; p # save; p # set 2;
  [get p 0; get p 1; get p 2; get p 3; get p 4];;
- : int list = [2; 1; 0; 0; 0]

3.15  Recursive classes

Recursive classes can be used to define objects whose types are mutually recursive. 

# class window =
    object
      val mutable top_widget = (None : widget option)
      method top_widget = top_widget
    end
  and widget (w : window) =
    object
      val window = w
      method window = window
    end;;
class window :
  object
    val mutable top_widget : widget option
    method top_widget : widget option
  end
and widget : window -> object val window : window method window : window end

Although their types are mutually recursive, the classes widget and window are themselves independent.

3.16  Binary methods

A binary method is a method which takes an argument of the same type as self. The class comparable below is a template for classes with a binary method leq of type 'a -> bool where the type variable 'a is bound to the type of self. Therefore, #comparable expands to < leq : 'a -> bool; .. > as 'a. We see here that the binder as also allows writing recursive types. 

# class virtual comparable =
    object (_ : 'a)
      method virtual leq : 'a -> bool
    end;;
class virtual comparable : object ('a) method virtual leq : 'a -> bool end

We then define a subclass money of comparable. The class money simply wraps floats as comparable objects. We will extend it below with more operations. We have to use a type constraint on the class parameter x because the primitive <= is a polymorphic function in OCaml. The inherit clause ensures that the type of objects of this class is an instance of #comparable. 

# class money (x : float) =
    object
      inherit comparable
      val repr = x
      method value = repr
      method leq p = repr <= p#value
    end;;
class money :
  float ->
  object ('a)
    val repr : float
    method leq : 'a -> bool
    method value : float
  end

Note that the type money is not a subtype of type comparable, as the self type appears in contravariant position in the type of method leq. Indeed, an object m of class money has a method leq that expects an argument of type money since it accesses its value method. Considering m of type comparable would allow a call to method leq on m with an argument that does not have a method value, which would be an error.

Similarly, the type money2 below is not a subtype of type money. 

# class money2 x =
    object
      inherit money x
      method times k = {< repr = k *. repr >}
    end;;
class money2 :
  float ->
  object ('a)
    val repr : float
    method leq : 'a -> bool
    method times : float -> 'a
    method value : float
  end

It is however possible to define functions that manipulate objects of type either money or money2: the function min will return the minimum of any two objects whose type unifies with #comparable. The type of min is not the same as #comparable -> #comparable -> #comparable, as the abbreviation #comparable hides a type variable (an ellipsis). Each occurrence of this abbreviation generates a new variable. 

# let min (x : #comparable) y =
    if x#leq y then x else y;;
val min : (#comparable as 'a) -> 'a -> 'a = <fun>

This function can be applied to objects of type money or money2. 

# (min (new money  1.3) (new money 3.1))#value;;
- : float = 1.3

# (min (new money2 5.0) (new money2 3.14))#value;;
- : float = 3.14

More examples of binary methods can be found in sections 5.2.1 and 5.2.3.

Note the use of override for method times. Writing new money2 (k *. repr) instead of {< repr = k *. repr >} would not behave well with inheritance: in a subclass money3 of money2 the times method would return an object of class money2 but not of class money3 as would be expected.

The class money could naturally carry another binary method. Here is a direct definition: 

# class money x =
    object (self : 'a)
      val repr = x
      method value = repr
      method print = print_float repr
      method times k = {< repr = k *. x >}
      method leq (p : 'a) = repr <= p#value
      method plus (p : 'a) = {< repr = x +. p#value >}
    end;;
class money :
  float ->
  object ('a)
    val repr : float
    method leq : 'a -> bool
    method plus : 'a -> 'a
    method print : unit
    method times : float -> 'a
    method value : float
  end

3.17  Friends

The above class money reveals a problem that often occurs with binary methods. In order to interact with other objects of the same class, the representation of money objects must be revealed, using a method such as value. If we remove all binary methods (here plus and leq), the representation can easily be hidden inside objects by removing the method value as well. However, this is not possible as soon as some binary method requires access to the representation of objects of the same class (other than self). 

# class safe_money x =
    object (self : 'a)
      val repr = x
      method print = print_float repr
      method times k = {< repr = k *. x >}
    end;;
class safe_money :
  float ->
  object ('a)
    val repr : float
    method print : unit
    method times : float -> 'a
  end

Here, the representation of the object is known only to a particular object. To make it available to other objects of the same class, we are forced to make it available to the whole world. However we can easily restrict the visibility of the representation using the module system. 

# module type MONEY =
    sig
      type t
      class c : float ->
        object ('a)
          val repr : t
          method value : t
          method print : unit
          method times : float -> 'a
          method leq : 'a -> bool
          method plus : 'a -> 'a
        end
    end;;

  module Euro : MONEY =
    struct
      type t = float
      class c x =
        object (self : 'a)
          val repr = x
          method value = repr
          method print = print_float repr
          method times k = {< repr = k *. x >}
          method leq (p : 'a) = repr <= p#value
          method plus (p : 'a) = {< repr = x +. p#value >}
        end
    end;;

Another example of friend functions may be found in section 5.2.3. These examples occur when a group of objects (here objects of the same class) and functions should see each others internal representation, while their representation should be hidden from the outside. The solution is always to define all friends in the same module, give access to the representation and use a signature constraint to make the representation abstract outside the module.

Previous Up Next ocaml-doc-4.01/ocaml.html/libstr.html0000644000175000017500000000367012214324200015757 0ustar i33173i33173 The str library: regular expressions and string processing Previous Up Next

Chapter 24  The str library: regular expressions and string processing

The str library provides high-level string processing functions, some based on regular expressions. It is intended to support the kind of file processing that is usually performed with scripting languages such as awk, perl or sed.

Programs that use the str library must be linked as follows: 

        ocamlc other options str.cma other files
        ocamlopt other options str.cmxa other files

For interactive use of the str library, do: 

        ocamlmktop -o mytop str.cma
        ./mytop

or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "str.cma";;.

Previous Up Next ocaml-doc-4.01/ocaml.html/toplevel.html0000644000175000017500000010042612214324200016307 0ustar i33173i33173 The toplevel system (ocaml) Previous Up Next

Chapter 9  The toplevel system (ocaml)

This chapter describes the toplevel system for OCaml, that permits interactive use of the OCaml system through a read-eval-print loop. In this mode, the system repeatedly reads OCaml phrases from the input, then typechecks, compile and evaluate them, then prints the inferred type and result value, if any. The system prints a # (sharp) prompt before reading each phrase.

Input to the toplevel can span several lines. It is terminated by ;; (a double-semicolon). The toplevel input consists in one or several toplevel phrases, with the following syntax:

toplevel-input::=definition }+ ;;  
  expr ;;  
  # ident  [ directive-argument ] ;;  
 
directive-argument::= string-literal  
  integer-literal  
  value-path  
  true ∣  false

A phrase can consist of a definition, like those found in implementations of compilation units or in structend module expressions. The definition can bind value names, type names, an exception, a module name, or a module type name. The toplevel system performs the bindings, then prints the types and values (if any) for the names thus defined.

A phrase may also consist in a value expression (section 6.7). It is simply evaluated without performing any bindings, and its value is printed.

Finally, a phrase can also consist in a toplevel directive, starting with # (the sharp sign). These directives control the behavior of the toplevel; they are listed below in section 9.2.

Unix:   The toplevel system is started by the command ocaml, as follows: 
        ocaml options objects                # interactive mode
        ocaml options objects scriptfile        # script mode
options are described below. objects are filenames ending in .cmo or .cma; they are loaded into the interpreter immediately after options are set. scriptfile is any file name not ending in .cmo or .cma.

If no scriptfile is given on the command line, the toplevel system enters interactive mode: phrases are read on standard input, results are printed on standard output, errors on standard error. End-of-file on standard input terminates ocaml (see also the #quit directive in section 9.2).

On start-up (before the first phrase is read), if the file .ocamlinit exists in the current directory, its contents are read as a sequence of OCaml phrases and executed as per the #use directive described in section 9.2. The evaluation outcode for each phrase are not displayed. If the current directory does not contain an .ocamlinit file, but the user’s home directory (environment variable HOME) does, the latter is read and executed as described below.

The toplevel system does not perform line editing, but it can easily be used in conjunction with an external line editor such as ledit, ocaml2 or rlwrap (see the Caml Hump). Another option is to use ocaml under Gnu Emacs, which gives the full editing power of Emacs (command run-caml from library inf-caml).

At any point, the parsing, compilation or evaluation of the current phrase can be interrupted by pressing ctrl-C (or, more precisely, by sending the INTR signal to the ocaml process). The toplevel then immediately returns to the # prompt.

If scriptfile is given on the command-line to ocaml, the toplevel system enters script mode: the contents of the file are read as a sequence of OCaml phrases and executed, as per the #use directive (section 9.2). The outcome of the evaluation is not printed. On reaching the end of file, the ocaml command exits immediately. No commands are read from standard input. Sys.argv is transformed, ignoring all OCaml parameters, and starting with the script file name in Sys.argv.(0).

In script mode, the first line of the script is ignored if it starts with #!. Thus, it should be possible to make the script itself executable and put as first line #!/usr/local/bin/ocaml, thus calling the toplevel system automatically when the script is run. However, ocaml itself is a #! script on most installations of OCaml, and Unix kernels usually do not handle nested #! scripts. A better solution is to put the following as the first line of the script: 

        #!/usr/local/bin/ocamlrun /usr/local/bin/ocaml
Windows:   In addition to the text-only command ocaml.exe, which works exactly as under Unix (see above), a graphical user interface for the toplevel is available under the name ocamlwin.exe. It should be launched from the Windows file manager or program manager. This interface provides a text window in which commands can be entered and edited, and the toplevel responses are printed.

9.1  Options

The following command-line options are recognized by the ocaml command.

-absname
Force error messages to show absolute paths for file names.
-I directory
Add the given directory to the list of directories searched for source and compiled files. By default, the current directory is searched first, then the standard library directory. Directories added with -I are searched after the current directory, in the order in which they were given on the command line, but before the standard library directory.

If the given directory starts with +, it is taken relative to the standard library directory. For instance, -I +labltk adds the subdirectory labltk of the standard library to the search path.

Directories can also be added to the list once the toplevel is running with the #directory directive (section 9.2).

-init file
Load the given file instead of the default initialization file. The default file is .ocamlinit in the current directory if it exists, otherwise .ocamlinit in the user’s home directory.
-labels
Labels are not ignored in types, labels may be used in applications, and labelled parameters can be given in any order. This is the default.
-no-app-funct
Deactivates the applicative behaviour of functors. With this option, each functor application generates new types in its result and applying the same functor twice to the same argument yields two incompatible structures.
-noassert
Do not compile assertion checks. Note that the special form assert false is always compiled because it is typed specially.
-nolabels
Ignore non-optional labels in types. Labels cannot be used in applications, and parameter order becomes strict.
-noprompt
Do not display any prompt when waiting for input.
-nopromptcont
Do not display the secondary prompt when waiting for continuation lines in multi-line inputs. This should be used e.g. when running ocaml in an emacs window.
-nostdlib
Do not include the standard library directory in the list of directories searched for source and compiled files.
-ppx command
After parsing, pipe the abstract syntax tree through the preprocessor command. The format of the input and ouput of the preprocessor are not yet documented.
-principal
Check information paths during type-checking, to make sure that all types are derived in a principal way. When using labelled arguments and/or polymorphic methods, this flag is required to ensure future versions of the compiler will be able to infer types correctly, even if internal algorithms change. All programs accepted in -principal mode are also accepted in the default mode with equivalent types, but different binary signatures, and this may slow down type checking; yet it is a good idea to use it once before publishing source code.
-rectypes
Allow arbitrary recursive types during type-checking. By default, only recursive types where the recursion goes through an object type are supported.
-short-paths
When a type is visible under several module-paths, use the shortest one when printing the type’s name in inferred interfaces and error and warning messages.
-stdin
Read the standard input as a script file rather than starting an interactive session.
-strict-sequence
Force the left-hand part of each sequence to have type unit.
-unsafe
See the corresponding option for ocamlc, chapter 8. Turn bound checking off on array and string accesses (the v.(i) and s.[i] constructs). Programs compiled with -unsafe are therefore slightly faster, but unsafe: anything can happen if the program accesses an array or string outside of its bounds.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-w warning-list
Enable or disable warnings according to the argument warning-list. See section 8.2 for the syntax of the argument.
-warn-error warning-list
Mark as fatal the warnings enabled by the argument warning-list. See section 8.2 for the syntax of the argument.
-warn-help
Show the description of all available warning numbers.
- file
Use file as a script file name, even when it starts with a hyphen (-).
-help or --help
Display a short usage summary and exit.
Unix:   The following environment variables are also consulted:
LC_CTYPE
If set to iso_8859_1, accented characters (from the ISO Latin-1 character set) in string and character literals are printed as is; otherwise, they are printed as decimal escape sequences (\ddd).
TERM
When printing error messages, the toplevel system attempts to underline visually the location of the error. It consults the TERM variable to determines the type of output terminal and look up its capabilities in the terminal database.
HOME
Directory where the .ocamlinit file is searched.

9.2  Toplevel directives

The following directives control the toplevel behavior, load files in memory, and trace program execution.

Note: all directives start with a # (sharp) symbol. This # must be typed before the directive, and must not be confused with the # prompt displayed by the interactive loop. For instance, typing #quit;; will exit the toplevel loop, but typing quit;; will result in an “unbound value quit” error.

#quit;;
Exit the toplevel loop and terminate the ocaml command.
#labels bool;;
Ignore labels in function types if argument is false, or switch back to default behaviour (commuting style) if argument is true.
#principal bool;;
If the argument is true, check information paths during type-checking, to make sure that all types are derived in a principal way. If the argument is false, do not check information paths.
#rectypes;;
Allow arbitrary recursive types during type-checking. Note: once enabled, this option cannot be disabled because that would lead to unsoundness of the type system.
#warnings "warning-list";;
Enable or disable warnings according to the argument.
#warn_error "warning-list";;
Treat as errors the warnings enabled by the argument and as normal warnings the warnings disabled by the argument.
#directory "dir-name";;
Add the given directory to the list of directories searched for source and compiled files.
#remove_directory "dir-name";;
Remove the given directory from the list of directories searched for source and compiled files. Do nothing if the list does not contain the given directory.
#cd "dir-name";;
Change the current working directory.
#load "file-name";;
Load in memory a bytecode object file (.cmo file) or library file (.cma file) produced by the batch compiler ocamlc.
#load_rec "file-name";;
Load in memory a bytecode object file (.cmo file) or library file (.cma file) produced by the batch compiler ocamlc. When loading an object file that depends on other modules which have not been loaded yet, the .cmo files for these modules are searched and loaded as well, recursively. The loading order is not specified.
#use "file-name";;
Read, compile and execute source phrases from the given file. This is textual inclusion: phrases are processed just as if they were typed on standard input. The reading of the file stops at the first error encountered.
#mod_use "file-name";;
Similar to #use but also wrap the code into a top-level module of the same name as capitalised file name without extensions, following semantics of the compiler.
#install_printer printer-name;;
This directive registers the function named printer-name (a value path) as a printer for values whose types match the argument type of the function. That is, the toplevel loop will call printer-name when it has such a value to print.

The printing function printer-name should have type Format.formatter -> t -> unit, where t is the type for the values to be printed, and should output its textual representation for the value of type t on the given formatter, using the functions provided by the Format library. For backward compatibility, printer-name can also have type t -> unit and should then output on the standard formatter, but this usage is deprecated.

#remove_printer printer-name;;
Remove the named function from the table of toplevel printers.
#trace function-name;;
After executing this directive, all calls to the function named function-name will be “traced”. That is, the argument and the result are displayed for each call, as well as the exceptions escaping out of the function, raised either by the function itself or by another function it calls. If the function is curried, each argument is printed as it is passed to the function.
#untrace function-name;;
Stop tracing the given function.
#untrace_all;;
Stop tracing all functions traced so far.
#print_depth n;;
Limit the printing of values to a maximal depth of n. The parts of values whose depth exceeds n are printed as ... (ellipsis).
#print_length n;;
Limit the number of value nodes printed to at most n. Remaining parts of values are printed as ... (ellipsis).

9.3  The toplevel and the module system

Toplevel phrases can refer to identifiers defined in compilation units with the same mechanisms as for separately compiled units: either by using qualified names (Modulename.localname), or by using the open construct and unqualified names (see section 6.3).

However, before referencing another compilation unit, an implementation of that unit must be present in memory. At start-up, the toplevel system contains implementations for all the modules in the the standard library. Implementations for user modules can be entered with the #load directive described above. Referencing a unit for which no implementation has been provided results in the error Reference to undefined global `...'.

Note that entering open Mod merely accesses the compiled interface (.cmi file) for Mod, but does not load the implementation of Mod, and does not cause any error if no implementation of Mod has been loaded. The error “reference to undefined global Mod” will occur only when executing a value or module definition that refers to Mod.

9.4  Common errors

This section describes and explains the most frequently encountered error messages.

Cannot find file filename
The named file could not be found in the current directory, nor in the directories of the search path.

If filename has the format mod.cmi, this means you have referenced the compilation unit mod, but its compiled interface could not be found. Fix: compile mod.mli or mod.ml first, to create the compiled interface mod.cmi.

If filename has the format mod.cmo, this means you are trying to load with #load a bytecode object file that does not exist yet. Fix: compile mod.ml first.

If your program spans several directories, this error can also appear because you haven’t specified the directories to look into. Fix: use the #directory directive to add the correct directories to the search path.

This expression has type t1, but is used with type t2
See section 8.4.
Reference to undefined global mod
You have neglected to load in memory an implementation for a module with #load. See section 9.3 above.

9.5  Building custom toplevel systems: ocamlmktop

The ocamlmktop command builds OCaml toplevels that contain user code preloaded at start-up.

The ocamlmktop command takes as argument a set of .cmo and .cma files, and links them with the object files that implement the OCaml toplevel. The typical use is: 

        ocamlmktop -o mytoplevel foo.cmo bar.cmo gee.cmo

This creates the bytecode file mytoplevel, containing the OCaml toplevel system, plus the code from the three .cmo files. This toplevel is directly executable and is started by: 

        ./mytoplevel

This enters a regular toplevel loop, except that the code from foo.cmo, bar.cmo and gee.cmo is already loaded in memory, just as if you had typed: 

        #load "foo.cmo";;
        #load "bar.cmo";;
        #load "gee.cmo";;

on entrance to the toplevel. The modules Foo, Bar and Gee are not opened, though; you still have to do 

        open Foo;;

yourself, if this is what you wish.

9.6  Options

The following command-line options are recognized by ocamlmktop.

-cclib libname
Pass the -llibname option to the C linker when linking in “custom runtime” mode. See the corresponding option for ocamlc, in chapter 8.
-ccopt option
Pass the given option to the C compiler and linker, when linking in “custom runtime” mode. See the corresponding option for ocamlc, in chapter 8.
-custom
Link in “custom runtime” mode. See the corresponding option for ocamlc, in chapter 8.
-I directory
Add the given directory to the list of directories searched for compiled object code files (.cmo and .cma).
-o exec-file
Specify the name of the toplevel file produced by the linker. The default is a.out.
Previous Up Next ocaml-doc-4.01/ocaml.html/keywords.html0000644000175000017500000001250212202166773016341 0ustar i33173i33173 The OCaml system, release 4.01
 The OCaml system
release 4.01
Documentation and user’s manual
Xavier Leroy,
Damien Doligez, Alain Frisch, Jacques Garrigue, Didier Rémy and Jérôme Vouillon
August 12, 2013
  Copyright © 2012 Institut National de Recherche en Informatique et en Automatique
This manual is also available in PDF. Postscript, DVI, plain text, as a bundle of HTML files, and as a bundle of Emacs Info files.

Part I
An introduction to OCaml

Part II
The OCaml language

Part III
The OCaml tools

Part IV
The OCaml library

Part V
Appendix

This document was translated from LATEX by HEVEA.
ocaml-doc-4.01/ocaml.html/contents_motif.gif0000644000175000017500000000047412214324200017313 0ustar i33173i33173GIF89ap!" Imported from XPM image: toc.xpm!,@6313c B0 0 A0 0 0 0 `0@`0 `  `0@`0 `0@`0000000000 0000000000 00000000 000000 0000 000000000 00000000000 00000000000000` ;ocaml-doc-4.01/ocaml.html/lablexamples.html0000644000175000017500000007276612214324200017145 0ustar i33173i33173 Labels and variants Previous Up Next

Chapter 4  Labels and variants

(Chapter written by Jacques Garrigue)



This chapter gives an overview of the new features in OCaml 3: labels, and polymorphic variants.

4.1  Labels

If you have a look at modules ending in Labels in the standard library, you will see that function types have annotations you did not have in the functions you defined yourself.

# ListLabels.map;;
- : f:('a -> 'b) -> 'a list -> 'b list = <fun>

# StringLabels.sub;;
- : string -> pos:int -> len:int -> string = <fun>

Such annotations of the form name: are called labels. They are meant to document the code, allow more checking, and give more flexibility to function application. You can give such names to arguments in your programs, by prefixing them with a tilde ~.

# let f ~x ~y = x - y;;
val f : x:int -> y:int -> int = <fun>

# let x = 3 and y = 2 in f ~x ~y;;
- : int = 1

When you want to use distinct names for the variable and the label appearing in the type, you can use a naming label of the form ~name:. This also applies when the argument is not a variable.

# let f ~x:x1 ~y:y1 = x1 - y1;;
val f : x:int -> y:int -> int = <fun>

# f ~x:3 ~y:2;;
- : int = 1

Labels obey the same rules as other identifiers in OCaml, that is you cannot use a reserved keyword (like in or to) as label.

Formal parameters and arguments are matched according to their respective labels1, the absence of label being interpreted as the empty label. This allows commuting arguments in applications. One can also partially apply a function on any argument, creating a new function of the remaining parameters.

# let f ~x ~y = x - y;;
val f : x:int -> y:int -> int = <fun>

# f ~y:2 ~x:3;;
- : int = 1

# ListLabels.fold_left;;
- : f:('a -> 'b -> 'a) -> init:'a -> 'b list -> 'a = <fun>

# ListLabels.fold_left [1;2;3] ~init:0 ~f:( + );;
- : int = 6

# ListLabels.fold_left ~init:0;;
- : f:(int -> 'a -> int) -> 'a list -> int = <fun>

If several arguments of a function bear the same label (or no label), they will not commute among themselves, and order matters. But they can still commute with other arguments.

# let hline ~x:x1 ~x:x2 ~y = (x1, x2, y);;
val hline : x:'a -> x:'b -> y:'c -> 'a * 'b * 'c = <fun>

# hline ~x:3 ~y:2 ~x:5;;
- : int * int * int = (3, 5, 2)

As an exception to the above parameter matching rules, if an application is total (omitting all optional arguments), labels may be omitted. In practice, many applications are total, so that labels can often be omitted. 

# f 3 2;;
- : int = 1

# ListLabels.map succ [1;2;3];;
- : int list = [2; 3; 4]

But beware that functions like ListLabels.fold_left whose result type is a type variable will never be considered as totally applied. 

# ListLabels.fold_left ( + ) 0 [1;2;3];;
Error: This expression has type int -> int -> int
       but an expression was expected of type 'a list

When a function is passed as an argument to a higher-order function, labels must match in both types. Neither adding nor removing labels are allowed. 

# let h g = g ~x:3 ~y:2;;
val h : (x:int -> y:int -> 'a) -> 'a = <fun>

# h f;;
- : int = 1

# h ( + );;
Error: This expression has type int -> int -> int
       but an expression was expected of type x:int -> y:int -> 'a

Note that when you don’t need an argument, you can still use a wildcard pattern, but you must prefix it with the label. 

# h (fun ~x:_ ~y -> y+1);;
- : int = 3

4.1.1  Optional arguments

An interesting feature of labeled arguments is that they can be made optional. For optional parameters, the question mark ? replaces the tilde ~ of non-optional ones, and the label is also prefixed by ? in the function type. Default values may be given for such optional parameters.

# let bump ?(step = 1) x = x + step;;
val bump : ?step:int -> int -> int = <fun>

# bump 2;;
- : int = 3

# bump ~step:3 2;;
- : int = 5

A function taking some optional arguments must also take at least one non-optional argument. The criterion for deciding whether an optional argument has been omitted is the non-labeled application of an argument appearing after this optional argument in the function type. Note that if that argument is labeled, you will only be able to eliminate optional arguments through the special case for total applications.

# let test ?(x = 0) ?(y = 0) () ?(z = 0) () = (x, y, z);;
val test : ?x:int -> ?y:int -> unit -> ?z:int -> unit -> int * int * int =
  <fun>

# test ();;
- : ?z:int -> unit -> int * int * int = <fun>

# test ~x:2 () ~z:3 ();;
- : int * int * int = (2, 0, 3)

Optional parameters may also commute with non-optional or unlabeled ones, as long as they are applied simultaneously. By nature, optional arguments do not commute with unlabeled arguments applied independently. 

# test ~y:2 ~x:3 () ();;
- : int * int * int = (3, 2, 0)

# test () () ~z:1 ~y:2 ~x:3;;
- : int * int * int = (3, 2, 1)

# (test () ()) ~z:1;;
Error: This expression has type int * int * int
       This is not a function; it cannot be applied.

Here (test () ()) is already (0,0,0) and cannot be further applied.

Optional arguments are actually implemented as option types. If you do not give a default value, you have access to their internal representation, type 'a option = None | Some of 'a. You can then provide different behaviors when an argument is present or not.

# let bump ?step x =
    match step with
    | None -> x * 2
    | Some y -> x + y
  ;;
val bump : ?step:int -> int -> int = <fun>

It may also be useful to relay an optional argument from a function call to another. This can be done by prefixing the applied argument with ?. This question mark disables the wrapping of optional argument in an option type.

# let test2 ?x ?y () = test ?x ?y () ();;
val test2 : ?x:int -> ?y:int -> unit -> int * int * int = <fun>

# test2 ?x:None;;
- : ?y:int -> unit -> int * int * int = <fun>

4.1.2  Labels and type inference

While they provide an increased comfort for writing function applications, labels and optional arguments have the pitfall that they cannot be inferred as completely as the rest of the language.

You can see it in the following two examples. 

# let h' g = g ~y:2 ~x:3;;
val h' : (y:int -> x:int -> 'a) -> 'a = <fun>

# h' f;;
Error: This expression has type x:int -> y:int -> int
       but an expression was expected of type y:int -> x:int -> 'a

# let bump_it bump x =
    bump ~step:2 x;;
val bump_it : (step:int -> 'a -> 'b) -> 'a -> 'b = <fun>

# bump_it bump 1;;
Error: This expression has type ?step:int -> int -> int
       but an expression was expected of type step:int -> 'a -> 'b

The first case is simple: g is passed ~y and then ~x, but f expects ~x and then ~y. This is correctly handled if we know the type of g to be x:int -> y:int -> int in advance, but otherwise this causes the above type clash. The simplest workaround is to apply formal parameters in a standard order.

The second example is more subtle: while we intended the argument bump to be of type ?step:int -> int -> int, it is inferred as step:int -> int -> 'a. These two types being incompatible (internally normal and optional arguments are different), a type error occurs when applying bump_it to the real bump.

We will not try here to explain in detail how type inference works. One must just understand that there is not enough information in the above program to deduce the correct type of g or bump. That is, there is no way to know whether an argument is optional or not, or which is the correct order, by looking only at how a function is applied. The strategy used by the compiler is to assume that there are no optional arguments, and that applications are done in the right order.

The right way to solve this problem for optional parameters is to add a type annotation to the argument bump. 

# let bump_it (bump : ?step:int -> int -> int) x =
    bump ~step:2 x;;
val bump_it : (?step:int -> int -> int) -> int -> int = <fun>

# bump_it bump 1;;
- : int = 3

In practice, such problems appear mostly when using objects whose methods have optional arguments, so that writing the type of object arguments is often a good idea.

Normally the compiler generates a type error if you attempt to pass to a function a parameter whose type is different from the expected one. However, in the specific case where the expected type is a non-labeled function type, and the argument is a function expecting optional parameters, the compiler will attempt to transform the argument to have it match the expected type, by passing None for all optional parameters.

# let twice f (x : int) = f(f x);;
val twice : (int -> int) -> int -> int = <fun>

# twice bump 2;;
- : int = 8

This transformation is coherent with the intended semantics, including side-effects. That is, if the application of optional parameters shall produce side-effects, these are delayed until the received function is really applied to an argument.

4.1.3  Suggestions for labeling

Like for names, choosing labels for functions is not an easy task. A good labeling is a labeling which

  • makes programs more readable,
  • is easy to remember,
  • when possible, allows useful partial applications.

We explain here the rules we applied when labeling OCaml libraries.

To speak in an “object-oriented” way, one can consider that each function has a main argument, its object, and other arguments related with its action, the parameters. To permit the combination of functions through functionals in commuting label mode, the object will not be labeled. Its role is clear from the function itself. The parameters are labeled with names reminding of their nature or their role. The best labels combine nature and role. When this is not possible the role is to be preferred, since the nature will often be given by the type itself. Obscure abbreviations should be avoided. 

ListLabels.map : f:('a -> 'b) -> 'a list -> 'b list
UnixLabels.write : file_descr -> buf:string -> pos:int -> len:int -> unit

When there are several objects of same nature and role, they are all left unlabeled. 

ListLabels.iter2 : f:('a -> 'b -> 'c) -> 'a list -> 'b list -> unit

When there is no preferable object, all arguments are labeled. 

StringLabels.blit :
  src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit

However, when there is only one argument, it is often left unlabeled. 

StringLabels.create : int -> string

This principle also applies to functions of several arguments whose return type is a type variable, as long as the role of each argument is not ambiguous. Labeling such functions may lead to awkward error messages when one attempts to omit labels in an application, as we have seen with ListLabels.fold_left.

Here are some of the label names you will find throughout the libraries.

LabelMeaning
f:a function to be applied
pos:a position in a string or array
len:a length
buf:a string used as buffer
src:the source of an operation
dst:the destination of an operation
init:the initial value for an iterator
cmp:a comparison function, e.g. Pervasives.compare
mode:an operation mode or a flag list

All these are only suggestions, but keep in mind that the choice of labels is essential for readability. Bizarre choices will make the program harder to maintain.

In the ideal, the right function name with right labels sould be enough to understand the function’s meaning. Since one can get this information with OCamlBrowser or the ocaml toplevel, the documentation is only used when a more detailed specification is needed.

4.2  Polymorphic variants

Variants as presented in section 1.4 are a powerful tool to build data structures and algorithms. However they sometimes lack flexibility when used in modular programming. This is due to the fact every constructor reserves a name to be used with a unique type. One cannot use the same name in another type, or consider a value of some type to belong to some other type with more constructors.

With polymorphic variants, this original assumption is removed. That is, a variant tag does not belong to any type in particular, the type system will just check that it is an admissible value according to its use. You need not define a type before using a variant tag. A variant type will be inferred independently for each of its uses.

Basic use

In programs, polymorphic variants work like usual ones. You just have to prefix their names with a backquote character `. 

# [`On; `Off];;
- : [> `Off | `On ] list = [`On; `Off]

# `Number 1;;
- : [> `Number of int ] = `Number 1

# let f = function `On -> 1 | `Off -> 0 | `Number n -> n;;
val f : [< `Number of int | `Off | `On ] -> int = <fun>

# List.map f [`On; `Off];;
- : int list = [1; 0]

[>`Off|`On] list means that to match this list, you should at least be able to match `Off and `On, without argument. [<`On|`Off|`Number of int] means that f may be applied to `Off, `On (both without argument), or `Number n where n is an integer. The > and < inside the variant types show that they may still be refined, either by defining more tags or by allowing less. As such, they contain an implicit type variable. Because each of the variant types appears only once in the whole type, their implicit type variables are not shown.

The above variant types were polymorphic, allowing further refinement. When writing type annotations, one will most often describe fixed variant types, that is types that cannot be refined. This is also the case for type abbreviations. Such types do not contain < or >, but just an enumeration of the tags and their associated types, just like in a normal datatype definition. 

# type 'a vlist = [`Nil | `Cons of 'a * 'a vlist];;
type 'a vlist = [ `Cons of 'a * 'a vlist | `Nil ]

# let rec map f : 'a vlist -> 'b vlist = function
    | `Nil -> `Nil
    | `Cons(a, l) -> `Cons(f a, map f l)
  ;;
val map : ('a -> 'b) -> 'a vlist -> 'b vlist = <fun>

Advanced use

Type-checking polymorphic variants is a subtle thing, and some expressions may result in more complex type information.

# let f = function `A -> `C | `B -> `D | x -> x;;
val f : ([> `A | `B | `C | `D ] as 'a) -> 'a = <fun>

# f `E;;
- : [> `A | `B | `C | `D | `E ] = `E

Here we are seeing two phenomena. First, since this matching is open (the last case catches any tag), we obtain the type [> `A | `B] rather than [< `A | `B] in a closed matching. Then, since x is returned as is, input and return types are identical. The notation as 'a denotes such type sharing. If we apply f to yet another tag `E, it gets added to the list.

# let f1 = function `A x -> x = 1 | `B -> true | `C -> false
  let f2 = function `A x -> x = "a" | `B -> true ;;
val f1 : [< `A of int | `B | `C ] -> bool = <fun>
val f2 : [< `A of string | `B ] -> bool = <fun>

# let f x = f1 x && f2 x;;
val f : [< `A of string & int | `B ] -> bool = <fun>

Here f1 and f2 both accept the variant tags `A and `B, but the argument of `A is int for f1 and string for f2. In f’s type `C, only accepted by f1, disappears, but both argument types appear for `A as int & string. This means that if we pass the variant tag `A to f, its argument should be both int and string. Since there is no such value, f cannot be applied to `A, and `B is the only accepted input.

Even if a value has a fixed variant type, one can still give it a larger type through coercions. Coercions are normally written with both the source type and the destination type, but in simple cases the source type may be omitted. 

# type 'a wlist = [`Nil | `Cons of 'a * 'a wlist | `Snoc of 'a wlist * 'a];;
type 'a wlist = [ `Cons of 'a * 'a wlist | `Nil | `Snoc of 'a wlist * 'a ]

# let wlist_of_vlist  l = (l : 'a vlist :> 'a wlist);;
val wlist_of_vlist : 'a vlist -> 'a wlist = <fun>

# let open_vlist l = (l : 'a vlist :> [> 'a vlist]);;
val open_vlist : 'a vlist -> [> 'a vlist ] = <fun>

# fun x -> (x :> [`A|`B|`C]);;
- : [< `A | `B | `C ] -> [ `A | `B | `C ] = <fun>

You may also selectively coerce values through pattern matching. 

# let split_cases = function
    | `Nil | `Cons _ as x -> `A x
    | `Snoc _ as x -> `B x
  ;;
val split_cases :
  [< `Cons of 'a | `Nil | `Snoc of 'b ] ->
  [> `A of [> `Cons of 'a | `Nil ] | `B of [> `Snoc of 'b ] ] = <fun>

When an or-pattern composed of variant tags is wrapped inside an alias-pattern, the alias is given a type containing only the tags enumerated in the or-pattern. This allows for many useful idioms, like incremental definition of functions.

# let num x = `Num x
  let eval1 eval (`Num x) = x
  let rec eval x = eval1 eval x ;;
val num : 'a -> [> `Num of 'a ] = <fun>
val eval1 : 'a -> [< `Num of 'b ] -> 'b = <fun>
val eval : [< `Num of 'a ] -> 'a = <fun>

# let plus x y = `Plus(x,y)
  let eval2 eval = function
    | `Plus(x,y) -> eval x + eval y
    | `Num _ as x -> eval1 eval x
  let rec eval x = eval2 eval x ;;
val plus : 'a -> 'b -> [> `Plus of 'a * 'b ] = <fun>
val eval2 : ('a -> int) -> [< `Num of int | `Plus of 'a * 'a ] -> int = <fun>
val eval : ([< `Num of int | `Plus of 'a * 'a ] as 'a) -> int = <fun>

To make this even more comfortable, you may use type definitions as abbreviations for or-patterns. That is, if you have defined type myvariant = [`Tag1 of int | `Tag2 of bool], then the pattern #myvariant is equivalent to writing (`Tag1(_ : int) | `Tag2(_ : bool)).

Such abbreviations may be used alone, 

# let f = function
    | #myvariant -> "myvariant"
    | `Tag3 -> "Tag3";;
val f : [< `Tag1 of int | `Tag2 of bool | `Tag3 ] -> string = <fun>

or combined with with aliases. 

# let g1 = function `Tag1 _ -> "Tag1" | `Tag2 _ -> "Tag2";;
val g1 : [< `Tag1 of 'a | `Tag2 of 'b ] -> string = <fun>

# let g = function
    | #myvariant as x -> g1 x
    | `Tag3 -> "Tag3";;
val g : [< `Tag1 of int | `Tag2 of bool | `Tag3 ] -> string = <fun>

4.2.1  Weaknesses of polymorphic variants

After seeing the power of polymorphic variants, one may wonder why they were added to core language variants, rather than replacing them.

The answer is twofold. One first aspect is that while being pretty efficient, the lack of static type information allows for less optimizations, and makes polymorphic variants slightly heavier than core language ones. However noticeable differences would only appear on huge data structures.

More important is the fact that polymorphic variants, while being type-safe, result in a weaker type discipline. That is, core language variants do actually much more than ensuring type-safety, they also check that you use only declared constructors, that all constructors present in a data-structure are compatible, and they enforce typing constraints to their parameters.

For this reason, you must be more careful about making types explicit when you use polymorphic variants. When you write a library, this is easy since you can describe exact types in interfaces, but for simple programs you are probably better off with core language variants.

Beware also that some idioms make trivial errors very hard to find. For instance, the following code is probably wrong but the compiler has no way to see it. 

# type abc = [`A | `B | `C] ;;
type abc = [ `A | `B | `C ]

# let f = function
    | `As -> "A"
    | #abc -> "other" ;;
val f : [< `A | `As | `B | `C ] -> string = <fun>

# let f : abc -> string = f ;;
val f : abc -> string = <fun>

You can avoid such risks by annotating the definition itself. 

# let f : abc -> string = function
    | `As -> "A"
    | #abc -> "other" ;;
Error: This pattern matches values of type [? `As ]
       but a pattern was expected which matches values of type abc
       The second variant type does not allow tag(s) `As
1
This correspond to the commuting label mode of Objective Caml 3.00 through 3.02, with some additional flexibility on total applications. The so-called classic mode (-nolabels options) is now deprecated for normal use.
Previous Up Next ocaml-doc-4.01/ocaml.html/previous_motif.gif0000644000175000017500000000047512214324200017333 0ustar i33173i33173GIF89app!# Imported from XPM image: prev.xpm!,@63333# B 0 A0 0 0 0 `0 `0 A   `0 `00000000000000000000000000000000000000000000  000 0000000000000000000000000000000` ;ocaml-doc-4.01/ocaml.html/compunit.html0000644000175000017500000001077012214324200016315 0ustar i33173i33173 Compilation units Previous Up

6.12  Compilation units

unit-interface::= { specification  [;;] }  
 
unit-implementation::= [ module-items ]

Compilation units bridge the module system and the separate compilation system. A compilation unit is composed of two parts: an interface and an implementation. The interface contains a sequence of specifications, just as the inside of a sigend signature expression. The implementation contains a sequence of definitions and expressions, just as the inside of a structend module expression. A compilation unit also has a name unit-name, derived from the names of the files containing the interface and the implementation (see chapter 8 for more details). A compilation unit behaves roughly as the module definition

module unit-name : sig  unit-interface end = struct  unit-implementation end

A compilation unit can refer to other compilation units by their names, as if they were regular modules. For instance, if U is a compilation unit that defines a type t, other compilation units can refer to that type under the name U.t; they can also refer to U as a whole structure. Except for names of other compilation units, a unit interface or unit implementation must not have any other free variables. In other terms, the type-checking and compilation of an interface or implementation proceeds in the initial environment

name1 : sig  specification1 end …  namen : sig  specificationn end

where name1 …  namen are the names of the other compilation units available in the search path (see chapter 8 for more details) and specification1 …  specificationn are their respective interfaces.

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6.6  Patterns

pattern::= value-name  
  _  
  constant  
  pattern as  value-name  
  ( pattern )  
  ( pattern :  typexpr )  
  pattern |  pattern  
  constr  pattern  
  `tag-name  pattern  
  #typeconstr  
  pattern  { , pattern }+  
  { field =  pattern  { ; field =  pattern }  [ ; ] }  
  [ pattern  { ; pattern }  [ ; ] ]  
  pattern ::  pattern  
  [| pattern  { ; pattern }  [ ; ] |]

The table below shows the relative precedences and associativity of operators and non-closed pattern constructions. The constructions with higher precedences come first.

OperatorAssociativity
.. (see section 7.4)
lazy (see section 7.6)
Constructor application, Tag applicationright
::right
,
|left
as

Patterns are templates that allow selecting data structures of a given shape, and binding identifiers to components of the data structure. This selection operation is called pattern matching; its outcome is either “this value does not match this pattern”, or “this value matches this pattern, resulting in the following bindings of names to values”.

Variable patterns

A pattern that consists in a value name matches any value, binding the name to the value. The pattern _ also matches any value, but does not bind any name.

Patterns are linear: a variable cannot be bound several times by a given pattern. In particular, there is no way to test for equality between two parts of a data structure using only a pattern (but when guards can be used for this purpose).

Constant patterns

A pattern consisting in a constant matches the values that are equal to this constant.

Alias patterns

The pattern pattern1 as  value-name matches the same values as pattern1. If the matching against pattern1 is successful, the name value-name is bound to the matched value, in addition to the bindings performed by the matching against pattern1.

Parenthesized patterns

The pattern ( pattern1 ) matches the same values as pattern1. A type constraint can appear in a parenthesized pattern, as in ( pattern1 :  typexpr ). This constraint forces the type of pattern1 to be compatible with typexpr.

“Or” patterns

The pattern pattern1 |  pattern2 represents the logical “or” of the two patterns pattern1 and pattern2. A value matches pattern1 |  pattern2 if it matches pattern1 or pattern2. The two sub-patterns pattern1 and pattern2 must bind exactly the same identifiers to values having the same types. Matching is performed from left to right. More precisely, in case some value v matches pattern1 |  pattern2, the bindings performed are those of pattern1 when v matches pattern1. Otherwise, value v matches pattern2 whose bindings are performed.

Variant patterns

The pattern constr (  pattern1 ,,  patternn ) matches all variants whose constructor is equal to constr, and whose arguments match pattern1 …  patternn. It is a type error if n is not the number of arguments expected by the constructor.

The pattern constr _ matches all variants whose constructor is constr.

The pattern pattern1 ::  pattern2 matches non-empty lists whose heads match pattern1, and whose tails match pattern2.

The pattern [ pattern1 ;;  patternn ] matches lists of length n whose elements match pattern1patternn, respectively. This pattern behaves like pattern1 ::::  patternn :: [].

Polymorphic variant patterns

The pattern `tag-name  pattern1 matches all polymorphic variants whose tag is equal to tag-name, and whose argument matches pattern1.

Polymorphic variant abbreviation patterns

If the type [('a,'b,)] typeconstr = [ ` tag-name1  typexpr1 || ` tag-namen  typexprn] is defined, then the pattern #typeconstr is a shorthand for the following or-pattern: ( `tag-name1(_ :  typexpr1) || ` tag-namen(_ :  typexprn)). It matches all values of type [< typeconstr ].

Tuple patterns

The pattern pattern1 ,,  patternn matches n-tuples whose components match the patterns pattern1 through patternn. That is, the pattern matches the tuple values (v1, …, vn) such that patterni matches vi for i = 1,… , n.

Record patterns

The pattern { field1 =  pattern1 ;;  fieldn =  patternn } matches records that define at least the fields field1 through fieldn, and such that the value associated to fieldi matches the pattern patterni, for i = 1,… , n. The record value can define more fields than field1fieldn; the values associated to these extra fields are not taken into account for matching.

Array patterns

The pattern [| pattern1 ;;  patternn |] matches arrays of length n such that the i-th array element matches the pattern patterni, for i = 1,… , n.

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Chapter 15  The documentation generator (ocamldoc)

This chapter describes OCamldoc, a tool that generates documentation from special comments embedded in source files. The comments used by OCamldoc are of the form (***) and follow the format described in section 15.2.

OCamldoc can produce documentation in various formats: HTML, LATEX, TeXinfo, Unix man pages, and dot dependency graphs. Moreover, users can add their own custom generators, as explained in section 15.3.

In this chapter, we use the word element to refer to any of the following parts of an OCaml source file: a type declaration, a value, a module, an exception, a module type, a type constructor, a record field, a class, a class type, a class method, a class value or a class inheritance clause.

15.1  Usage

15.1.1  Invocation

OCamldoc is invoked via the command ocamldoc, as follows: 

        ocamldoc options sourcefiles

Options for choosing the output format

The following options determine the format for the generated documentation.

-html
Generate documentation in HTML default format. The generated HTML pages are stored in the current directory, or in the directory specified with the -d option. You can customize the style of the generated pages by editing the generated style.css file, or by providing your own style sheet using option -css-style. The file style.css is not generated if it already exists or if -css-style is used.
-latex
Generate documentation in LATEX default format. The generated LATEX document is saved in file ocamldoc.out, or in the file specified with the -o option. The document uses the style file ocamldoc.sty. This file is generated when using the -latex option, if it does not already exist. You can change this file to customize the style of your LATEX documentation.
-texi
Generate documentation in TeXinfo default format. The generated LATEX document is saved in file ocamldoc.out, or in the file specified with the -o option.
-man
Generate documentation as a set of Unix man pages. The generated pages are stored in the current directory, or in the directory specified with the -d option.
-dot
Generate a dependency graph for the toplevel modules, in a format suitable for displaying and processing by dot. The dot tool is available from http://www.research.att.com/sw/tools/graphviz/. The textual representation of the graph is written to the file ocamldoc.out, or to the file specified with the -o option. Use dot ocamldoc.out to display it.
-g file.cm[o,a,xs]
Dynamically load the given file, which defines a custom documentation generator. See section 15.4.1. This option is supported by the ocamldoc command (to load .cmo and .cma files) and by its native-code version ocamldoc.opt (to load .cmxs files). If the given file is a simple one and does not exist in the current directory, then ocamldoc looks for it in the custom generators default directory, and in the directories specified with optional -i options.
-customdir
Display the custom generators default directory.
-i directory
Add the given directory to the path where to look for custom generators.

General options

-d dir
Generate files in directory dir, rather than the current directory.
-dump file
Dump collected information into file. This information can be read with the -load option in a subsequent invocation of ocamldoc.
-hide modules
Hide the given complete module names in the generated documentation. modules is a list of complete module names separated by ’,’, without blanks. For instance: Pervasives,M2.M3.
-inv-merge-ml-mli
Reverse the precedence of implementations and interfaces when merging. All elements in implementation files are kept, and the -m option indicates which parts of the comments in interface files are merged with the comments in implementation files.
-keep-code
Always keep the source code for values, methods and instance variables, when available. The source code is always kept when a .ml file is given, but is by default discarded when a .mli is given. This option keeps the source code in all cases.
-load file
Load information from file, which has been produced by ocamldoc -dump. Several -load options can be given.
-m flags
Specify merge options between interfaces and implementations. (see section 15.1.2 for details). flags can be one or several of the following characters:
d
merge description
a
merge @author
v
merge @version
l
merge @see
s
merge @since
b
merge @before
o
merge @deprecated
p
merge @param
e
merge @raise
r
merge @return
A
merge everything
-no-custom-tags
Do not allow custom @-tags (see section 15.2.5).
-no-stop
Keep elements placed after/between the (**/**) special comment(s) (see section 15.2).
-o file
Output the generated documentation to file instead of ocamldoc.out. This option is meaningful only in conjunction with the -latex, -texi, or -dot options.
-pp command
Pipe sources through preprocessor command.
-impl filename
Process the file filename as an implementation file, even if its extension is not .ml.
-intf filename
Process the file filename as an interface file, even if its extension is not .mli.
-text filename
Process the file filename as a text file, even if its extension is not .txt.
-sort
Sort the list of top-level modules before generating the documentation.
-stars
Remove blank characters until the first asterisk (’*’) in each line of comments.
-t title
Use title as the title for the generated documentation.
-intro file
Use content of file as ocamldoc text to use as introduction (HTML, LATEX and TeXinfo only). For HTML, the file is used to create the whole index.html file.
-v
Verbose mode. Display progress information.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-warn-error
Treat Ocamldoc warnings as errors.
-hide-warnings
Do not print OCamldoc warnings.
-help or --help
Display a short usage summary and exit.

Type-checking options

OCamldoc calls the OCaml type-checker to obtain type information. The following options impact the type-checking phase. They have the same meaning as for the ocamlc and ocamlopt commands.

-I directory
Add directory to the list of directories search for compiled interface files (.cmi files).
-nolabels
Ignore non-optional labels in types.
-rectypes
Allow arbitrary recursive types. (See the -rectypes option to ocamlc.)

Options for generating HTML pages

The following options apply in conjunction with the -html option:

-all-params
Display the complete list of parameters for functions and methods.
-charset charset
Add information about character encoding being charset (default is iso-8859-1).
-colorize-code
Colorize the OCaml code enclosed in [ ] and {[ ]}, using colors to emphasize keywords, etc. If the code fragments are not syntactically correct, no color is added.
-css-style filename
Use filename as the Cascading Style Sheet file.
-index-only
Generate only index files.
-short-functors
Use a short form to display functors: 
module M : functor (A:Module) -> functor (B:Module2) -> sig .. end
is displayed as: 
module M (A:Module) (B:Module2) : sig .. end

Options for generating LATEX files

The following options apply in conjunction with the -latex option:

-latex-value-prefix prefix
Give a prefix to use for the labels of the values in the generated LATEX document. The default prefix is the empty string. You can also use the options -latex-type-prefix, -latex-exception-prefix, -latex-module-prefix, -latex-module-type-prefix, -latex-class-prefix, -latex-class-type-prefix, -latex-attribute-prefix and -latex-method-prefix.

These options are useful when you have, for example, a type and a value with the same name. If you do not specify prefixes, LATEX will complain about multiply defined labels.

-latextitle n,style
Associate style number n to the given LATEX sectioning command style, e.g. section or subsection. (LATEX only.) This is useful when including the generated document in another LATEX document, at a given sectioning level. The default association is 1 for section, 2 for subsection, 3 for subsubsection, 4 for paragraph and 5 for subparagraph.
-noheader
Suppress header in generated documentation.
-notoc
Do not generate a table of contents.
-notrailer
Suppress trailer in generated documentation.
-sepfiles
Generate one .tex file per toplevel module, instead of the global ocamldoc.out file.

Options for generating TeXinfo files

The following options apply in conjunction with the -texi option:

-esc8
Escape accented characters in Info files.
-info-entry
Specify Info directory entry.
-info-section
Specify section of Info directory.
-noheader
Suppress header in generated documentation.
-noindex
Do not build index for Info files.
-notrailer
Suppress trailer in generated documentation.

Options for generating dot graphs

The following options apply in conjunction with the -dot option:

-dot-colors colors
Specify the colors to use in the generated dot code. When generating module dependencies, ocamldoc uses different colors for modules, depending on the directories in which they reside. When generating types dependencies, ocamldoc uses different colors for types, depending on the modules in which they are defined. colors is a list of color names separated by ’,’, as in Red,Blue,Green. The available colors are the ones supported by the dot tool.
-dot-include-all
Include all modules in the dot output, not only modules given on the command line or loaded with the -load option.
-dot-reduce
Perform a transitive reduction of the dependency graph before outputting the dot code. This can be useful if there are a lot of transitive dependencies that clutter the graph.
-dot-types
Output dot code describing the type dependency graph instead of the module dependency graph.

Options for generating man files

The following options apply in conjunction with the -man option:

-man-mini
Generate man pages only for modules, module types, clases and class types, instead of pages for all elements.
-man-suffix suffix
Set the suffix used for generated man filenames. Default is ’3o’, as in List.3o.
-man-section section
Set the section number used for generated man filenames. Default is ’3’.

15.1.2  Merging of module information

Information on a module can be extracted either from the .mli or .ml file, or both, depending on the files given on the command line. When both .mli and .ml files are given for the same module, information extracted from these files is merged according to the following rules:

  • Only elements (values, types, classes, ...) declared in the .mli file are kept. In other terms, definitions from the .ml file that are not exported in the .mli file are not documented.
  • Descriptions of elements and descriptions in @-tags are handled as follows. If a description for the same element or in the same @-tag of the same element is present in both files, then the description of the .ml file is concatenated to the one in the .mli file, if the corresponding -m flag is given on the command line. If a description is present in the .ml file and not in the .mli file, the .ml description is kept. In either case, all the information given in the .mli file is kept.

15.1.3  Coding rules

The following rules must be respected in order to avoid name clashes resulting in cross-reference errors:

  • In a module, there must not be two modules, two module types or a module and a module type with the same name. In the default HTML generator, modules ab and AB will be printed to the same file on case insensitive file systems.
  • In a module, there must not be two classes, two class types or a class and a class type with the same name.
  • In a module, there must not be two values, two types, or two exceptions with the same name.
  • Values defined in tuple, as in let (x,y,z) = (1,2,3) are not kept by OCamldoc.
  • Avoid the following construction: 
    open Foo (* which has a module Bar with a value x *)
module Foo =
  struct
    module Bar =
      struct
        let x = 1
      end
  end
  let dummy = Bar.x
    In this case, OCamldoc will associate Bar.x to the x of module Foo defined just above, instead of to the Bar.x defined in the opened module Foo.

15.2  Syntax of documentation comments

Comments containing documentation material are called special comments and are written between (** and *). Special comments must start exactly with (**. Comments beginning with ( and more than two * are ignored.

15.2.1  Placement of documentation comments

OCamldoc can associate comments to some elements of the language encountered in the source files. The association is made according to the locations of comments with respect to the language elements. The locations of comments in .mli and .ml files are different.

Comments in .mli files

A special comment is associated to an element if it is placed before or after the element.
A special comment before an element is associated to this element if :

  • There is no blank line or another special comment between the special comment and the element. However, a regular comment can occur between the special comment and the element.
  • The special comment is not already associated to the previous element.
  • The special comment is not the first one of a toplevel module.

A special comment after an element is associated to this element if there is no blank line or comment between the special comment and the element.

There are two exceptions: for constructors and record fields in type definitions, the associated comment can only be placed after the constructor or field definition, without blank lines or other comments between them. The special comment for a constructor with another constructor following must be placed before the ’|’ character separating the two constructors.

The following sample interface file foo.mli illustrates the placement rules for comments in .mli files.

(** The first special comment of the file is the comment associated
    with the whole module.*)


(** Special comments can be placed between elements and are kept
    by the OCamldoc tool, but are not associated to any element.
    @-tags in these comments are ignored.*)

(*******************************************************************)
(** Comments like the one above, with more than two asterisks,
    are ignored. *)

(** The comment for function f. *)
val f : int -> int -> int
(** The continuation of the comment for function f. *)

(** Comment for exception My_exception, even with a simple comment
    between the special comment and the exception.*)
(* Hello, I'm a simple comment :-) *)
exception My_exception of (int -> int) * int

(** Comment for type weather  *)
type weather =
| Rain of int (** The comment for construtor Rain *)
| Sun (** The comment for constructor Sun *)

(** Comment for type weather2  *)
type weather2 =
| Rain of int (** The comment for construtor Rain *)
| Sun (** The comment for constructor Sun *)
(** I can continue the comment for type weather2 here
  because there is already a comment associated to the last constructor.*)

(** The comment for type my_record *)
type my_record = {
    val foo : int ;    (** Comment for field foo *)
    val bar : string ; (** Comment for field bar *)
  }
  (** Continuation of comment for type my_record *)

(** Comment for foo *)
val foo : string
(** This comment is associated to foo and not to bar. *)
val bar : string
(** This comment is assciated to bar. *)

(** The comment for class my_class *)
class my_class :
  object
    (** A comment to describe inheritance from cl *)
    inherit cl

    (** The comment for attribute tutu *)
    val mutable tutu : string

    (** The comment for attribute toto. *)
    val toto : int

    (** This comment is not attached to titi since
        there is a blank line before titi, but is kept
        as a comment in the class. *)

    val titi : string

    (** Comment for method toto *)
    method toto : string

    (** Comment for method m *)
    method m : float -> int
  end

(** The comment for the class type my_class_type *)
class type my_class_type =
  object
    (** The comment for variable x. *)
    val mutable x : int

    (** The commend for method m. *)
    method m : int -> int
end

(** The comment for module Foo *)
module Foo =
  struct
    (** The comment for x *)
    val x : int

    (** A special comment that is kept but not associated to any element *)
  end

(** The comment for module type my_module_type. *)
module type my_module_type =
  sig
    (** The comment for value x. *)
    val x : int

    (** The comment for module M. *)
    module M =
      struct
        (** The comment for value y. *)
        val y : int

        (* ... *)
      end

  end

Comments in .ml files

A special comment is associated to an element if it is placed before the element and there is no blank line between the comment and the element. Meanwhile, there can be a simple comment between the special comment and the element. There are two exceptions, for constructors and record fields in type definitions, whose associated comment must be placed after the constructor or field definition, without blank line between them. The special comment for a constructor with another constructor following must be placed before the ’|’ character separating the two constructors.

The following example of file toto.ml shows where to place comments in a .ml file.

(** The first special comment of the file is the comment associated
    to the whole module. *)

(** The comment for function f *)
let f x y = x + y

(** This comment is not attached to any element since there is another
    special comment just before the next element. *)

(** Comment for exception My_exception, even with a simple comment
    between the special comment and the exception.*)
(* A simple comment. *)
exception My_exception of (int -> int) * int

(** Comment for type weather  *)
type weather =
| Rain of int (** The comment for constructor Rain *)
| Sun (** The comment for constructor Sun *)

(** The comment for type my_record *)
type my_record = {
    val foo : int ;    (** Comment for field foo *)
    val bar : string ; (** Comment for field bar *)
  }

(** The comment for class my_class *)
class my_class =
    object
      (** A comment to describe inheritance from cl *)
      inherit cl

      (** The comment for the instance variable tutu *)
      val mutable tutu = "tutu"
      (** The comment for toto *)
      val toto = 1
      val titi = "titi"
      (** Comment for method toto *)
      method toto = tutu ^ "!"
      (** Comment for method m *)
      method m (f : float) = 1
    end

(** The comment for class type my_class_type *)
class type my_class_type =
  object
    (** The comment for the instance variable x. *)
    val mutable x : int
    (** The commend for method m. *)
    method m : int -> int
  end

(** The comment for module Foo *)
module Foo =
  struct
    (** The comment for x *)
    val x : int
    (** A special comment in the class, but not associated to any element. *)
  end

(** The comment for module type my_module_type. *)
module type my_module_type =
  sig
    (* Comment for value x. *)
    val x : int
    (* ... *)
  end

15.2.2  The Stop special comment

The special comment (**/**) tells OCamldoc to discard elements placed after this comment, up to the end of the current class, class type, module or module type, or up to the next stop comment. For instance: 

class type foo =
  object
    (** comment for method m *)
    method m : string

    (**/**)

    (** This method won't appear in the documentation *)
    method bar : int
  end

(** This value appears in the documentation, since the Stop special comment
    in the class does not affect the parent module of the class.*)
val foo : string

(**/**)
(** The value bar does not appear in the documentation.*)
val bar : string
(**/**)

(** The type t appears since in the documentation since the previous stop comment
toggled off the "no documentation mode". *)
type t = string

The -no-stop option to ocamldoc causes the Stop special comments to be ignored.

15.2.3  Syntax of documentation comments

The inside of documentation comments (***) consists of free-form text with optional formatting annotations, followed by optional tags giving more specific information about parameters, version, authors, … The tags are distinguished by a leading @ character. Thus, a documentation comment has the following shape: 

(** The comment begins with a description, which is text formatted
   according to the rules described in the next section.
   The description continues until the first non-escaped '@' character.
   @author Mr Smith
   @param x description for parameter x
*)

Some elements support only a subset of all @-tags. Tags that are not relevant to the documented element are simply ignored. For instance, all tags are ignored when documenting type constructors, record fields, and class inheritance clauses. Similarly, a @param tag on a class instance variable is ignored.

At last, (**) is the empty documentation comment.

15.2.4  Text formatting

Here is the BNF grammar for the simple markup language used to format text descriptions.

text::= {text-element}+  
 
text-element::=
{ { 09 }+ text } format text as a section header; the integer following { indicates the sectioning level.
{ { 09 }+ : label text } same, but also associate the name label to the current point. This point can be referenced by its fully-qualified label in a {! command, just like any other element.
{b text } set text in bold.
{i text } set text in italic.
{e text } emphasize text.
{C text } center text.
{L text } left align text.
{R text } right align text.
{ul list } build a list.
{ol list } build an enumerated list.
{{: string }  text } put a link to the given address (given as string) on the given text.
[ string ] set the given string in source code style.
{[ string ]} set the given string in preformatted source code style.
{v string v} set the given string in verbatim style.
{% string %} target-specific content (LATEX code by default, see details in 15.2.4)
{! string } insert a cross-reference to an element (see below 15.2.4 for the syntax of cross-references).
{!modules: string  string ... } insert an index table for the given module names. Used in HTML only.
{!indexlist} insert a table of links to the various indexes (types, values, modules, ...). Used in HTML only.
{^ text } set text in superscript.
{_ text } set text in subscript.
escaped-stringtypeset the given string as is; special characters (’{’, ’}’, ’[’, ’]’ and ’@’) must be escaped by a ’\
blank-lineforce a new line.


List formatting

list::=  
  { {- text } }+  
  { {li text } }+

A shortcut syntax exists for lists and enumerated lists: 

(** Here is a {b list}
- item 1
- item 2
- item 3

The list is ended by the blank line.*)

is equivalent to: 

(** Here is a {b list}
{ul {- item 1}
{- item 2}
{- item 3}}
The list is ended by the blank line.*)

The same shortcut is available for enumerated lists, using ’+’ instead of ’-’. Note that only one list can be defined by this shortcut in nested lists.

Cross-reference formatting

Cross-references are fully qualified element names, as in the example {!Foo.Bar.t}. This is an ambiguous reference as it may designate a type name, a value name, a class name, etc. It is possible to make explicit the intended syntactic class, using {!type:Foo.Bar.t} to designate a type, and {!val:Foo.Bar.t} a value of the same name.

The list of possible syntactic class is as follows:

tagsyntactic class
module:module
modtype:module type
class:class
classtype:class type
val:value
type:type
exception:exception
attribute:attribute
method:class method
section:ocamldoc section
const:variant constructor
recfield:record field

In the case of variant constructors or record field, the constructor or field name should be preceded by the name of the correspond type – to avoid the ambiguity of several types having the same constructor names. For example, the constructor Node of the type tree will be referenced as {!tree.Node} or {!const:tree.Node}, or possibly {!Mod1.Mod2.tree.Node} from outside the module.

First sentence

In the description of a value, type, exception, module, module type, class or class type, the first sentence is sometimes used in indexes, or when just a part of the description is needed. The first sentence is composed of the first characters of the description, until

  • the first dot followed by a blank, or
  • the first blank line

outside of the following text formatting : {ul list } , {ol list } , [ string ] , {[ string ]} , {v string v} , {% string %} , {! string } , {^ text } , {_ text } .

Target-specific formatting

The content inside {%foo: ... %} is target-specific and will only be interpreted by the backend foo, and ignored by the others. The backends of the distribution are latex, html, texi and man. If no target is specified (syntax {% ... %}), latex is chosen by default. Custom generators may support their own target prefix.

Recognized HTML tags

The HTML tags <b>..</b>, <code>..</code>, <i>..</i>, <ul>..</ul>, <ol>..</ol>, <li>..</li>, <center>..</center> and <h[0-9]>..</h[0-9]> can be used instead of, respectively, {b ..} , [..] , {i ..} , {ul ..} , {ol ..} , {li ..} , {C ..} and {[0-9] ..}.

15.2.5  Documentation tags (@-tags)

Predefined tags

The following table gives the list of predefined @-tags, with their syntax and meaning.

@author string The author of the element. One author per @author tag. There may be several @author tags for the same element.
@deprecated text The text should describe when the element was deprecated, what to use as a replacement, and possibly the reason for deprecation.
@param id  text Associate the given description (text) to the given parameter name id. This tag is used for functions, methods, classes and functors.
@raise Exc  text Explain that the element may raise the exception Exc.
@return text Describe the return value and its possible values. This tag is used for functions and methods.
@see < URL >  text Add a reference to the URL with the given text as comment.
@see 'filename' text Add a reference to the given file name (written between single quotes), with the given text as comment.
@see "document-name" text Add a reference to the given document name (written between double quotes), with the given text as comment.
@since string Indicate when the element was introduced.
@before version text Associate the given description (text) to the given version in order to document compatibility issues.
@version string The version number for the element.

Custom tags

You can use custom tags in the documentation comments, but they will have no effect if the generator used does not handle them. To use a custom tag, for example foo, just put @foo with some text in your comment, as in: 

(** My comment to show you a custom tag.
@foo this is the text argument to the [foo] custom tag.
*)

To handle custom tags, you need to define a custom generator, as explained in section 15.3.2.

15.3  Custom generators

OCamldoc operates in two steps:

  1. analysis of the source files;
  2. generation of documentation, through a documentation generator, which is an object of class Odoc_args.class_generator.

Users can provide their own documentation generator to be used during step 2 instead of the default generators. All the information retrieved during the analysis step is available through the Odoc_info module, which gives access to all the types and functions representing the elements found in the given modules, with their associated description.

The files you can use to define custom generators are installed in the ocamldoc sub-directory of the OCaml standard library.

15.3.1  The generator modules

The type of a generator module depends on the kind of generated documentation. Here is the list of generator module types, with the name of the generator class in the module :

  • for HTML : Odoc_html.Html_generator (class html),
  • for LATEX : Odoc_latex.Latex_generator (class latex),
  • for TeXinfo : Odoc_texi.Texi_generator (class texi),
  • for man pages : Odoc_man.Man_generator (class man),
  • for graphviz (dot) : Odoc_dot.Dot_generator (class dot),
  • for other kinds : Odoc_gen.Base (class generator).

That is, to define a new generator, one must implement a module with the expected signature, and with the given generator class, providing the generate method as entry point to make the generator generates documentation for a given list of modules :

        method generate : Odoc_info.Module.t_module list -> unit

This method will be called with the list of analysed and possibly merged Odoc_info.t_module structures.

It is recommanded to inherit from the current generator of the same kind as the one you want to define. Doing so, it is possible to load various custom generators to combine improvments brought by each one.

This is done using first class modules (see chapter 7.14).

The easiest way to define a custom generator is the following this example, here extending the current HTML generator. We don’t have to know if this is the original HTML generator defined in ocamldoc or if it has been extended already by a previously loaded custom generator :

module Generator (G : Odoc_html.Html_generator) =
struct
  class html =
    object(self)
      inherit G.html as html
      (* ... *)

      method generate module_list =
        (* ... *)
        ()

      (* ... *)
  end
end;;

let _ = Odoc_args.extend_html_generator (module Generator : Odoc_gen.Html_functor);;

To know which methods to override and/or which methods are available, have a look at the different base implementations, depending on the kind of generator you are extending :

15.3.2  Handling custom tags

Making a custom generator handle custom tags (see 15.2.5) is very simple.

For HTML

Here is how to develop a HTML generator handling your custom tags.

The class Odoc_html.Generator.html inherits from the class Odoc_html.info, containing a field tag_functions which is a list pairs composed of a custom tag (e.g. "foo") and a function taking a text and returning HTML code (of type string). To handle a new tag bar, extend the current HTML generator and complete the tag_functions field: 

module Generator (G : Odoc_html.Html_generator) =
struct
  class html =
    object(self)
      inherit G.html

      (** Return HTML code for the given text of a bar tag. *)
      method html_of_bar t = (* your code here *)

      initializer
        tag_functions <- ("bar", self#html_of_bar) :: tag_functions
  end
end
let _ = Odoc_args.extend_html_generator (module Generator : Odoc_gen.Html_functor);;

Another method of the class Odoc_html.info will look for the function associated to a custom tag and apply it to the text given to the tag. If no function is associated to a custom tag, then the method prints a warning message on stderr.

For other generators

You can act the same way for other kinds of generators.

15.4  Adding command line options

The command line analysis is performed after loading the module containing the documentation generator, thus allowing command line options to be added to the list of existing ones. Adding an option can be done with the function 

        Odoc_args.add_option : string * Arg.spec * string -> unit

Note: Existing command line options can be redefined using this function.

15.4.1  Compilation and usage

Defining a custom generator class in one file

Let custom.ml be the file defining a new generator class. Compilation of custom.ml can be performed by the following command : 

        ocamlc -I +ocamldoc -c custom.ml

The file custom.cmo is created and can be used this way : 

        ocamldoc -g custom.cmo other-options source-files

It is important not to give the -html or any other option selecting a built-in generator to ocamldoc, which would result in using this generator instead of the one you just loaded.

Defining a custom generator class in several files

It is possible to define a generator class in several modules, which are defined in several files file1.ml[i], file2.ml[i], ..., filen.ml[i]. A .cma library file must be created, including all these files.

The following commands create the custom.cma file from files file1.ml[i], ..., filen.ml[i] : 

ocamlc -I +ocamldoc -c file1.ml[i]
ocamlc -I +ocamldoc -c file2.ml[i]
...
ocamlc -I +ocamldoc -c filen.ml[i]
ocamlc -o custom.cma -a file1.cmo file2.cmo ... filen.cmo

Then, the following command uses custom.cma as custom generator: 

        ocamldoc -g custom.cma other-options source-files

Again, it is important not to give the -html or any other option selecting a built-in generator to ocamldoc, which would result in using this generator instead of the one you just loaded.

Previous Up Next ocaml-doc-4.01/ocaml.html/next_motif.gif0000644000175000017500000000047512214324200016435 0ustar i33173i33173GIF89app!# Imported from XPM image: next.xpm!,@63333B! 0 A0 0 0  0 `0 `0 A @ `0 `00000000000000000000000000000000000000000000  000000 0000000000000000000000000000` ;ocaml-doc-4.01/ocaml.html/core.html0000644000175000017500000002310612214324200015404 0ustar i33173i33173 The core library Previous Up Next

Chapter 20  The core library

This chapter describes the OCaml core library, which is composed of declarations for built-in types and exceptions, plus the module Pervasives that provides basic operations on these built-in types. The Pervasives module is special in two ways:

  • It is automatically linked with the user’s object code files by the ocamlc command (chapter 8).
  • It is automatically “opened” when a compilation starts, or when the toplevel system is launched. Hence, it is possible to use unqualified identifiers to refer to the functions provided by the Pervasives module, without adding a open Pervasives directive.

Conventions

The declarations of the built-in types and the components of module Pervasives are printed one by one in typewriter font, followed by a short comment. All library modules and the components they provide are indexed at the end of this report.

20.1  Built-in types and predefined exceptions

The following built-in types and predefined exceptions are always defined in the compilation environment, but are not part of any module. As a consequence, they can only be referred by their short names.

Built-in types

 type int

The type of integer numbers. 
 type char

The type of characters. 
 type string

The type of character strings. 
 type float

The type of floating-point numbers. 
 type bool = false | true

The type of booleans (truth values). 
 type unit = ()

The type of the unit value. 
 type exn

The type of exception values. 
 type 'a array

The type of arrays whose elements have type 'a. 
 type 'a list = [] | :: of 'a * 'a list

The type of lists whose elements have type 'a. 
type 'a option = None | Some of 'a

The type of optional values of type 'a. 
type int32

The type of signed 32-bit integers. See the Int32[Int32] module. 
type int64

The type of signed 64-bit integers. See the Int64[Int64] module. 
type nativeint

The type of signed, platform-native integers (32 bits on 32-bit processors, 64 bits on 64-bit processors). See the Nativeint[Nativeint] module. 
type ('a, 'b, 'c, 'd, 'e, 'f) format6

The type of format strings. 'a is the type of the parameters of the format, 'f is the result type for the printf-style functions, 'b is the type of the first argument given to %a and %t printing functions (see module Printf[Printf]), 'c is the result type of these functions, and also the type of the argument transmitted to the first argument of kprintf-style functions, 'd is the result type for the scanf-style functions (see module Scanf[Scanf]), and 'e is the type of the receiver function for the scanf-style functions. 
type 'a lazy_t

This type is used to implement the Lazy[Lazy] module. It should not be used directly.

Predefined exceptions

exception Match_failure of (string * int * int)

Exception raised when none of the cases of a pattern-matching apply. The arguments are the location of the match keyword in the source code (file name, line number, column number). 
exception Assert_failure of (string * int * int)

Exception raised when an assertion fails. The arguments are the location of the assert keyword in the source code (file name, line number, column number). 
exception Invalid_argument of string

Exception raised by library functions to signal that the given arguments do not make sense. 
exception Failure of string

Exception raised by library functions to signal that they are undefined on the given arguments. 
exception Not_found

Exception raised by search functions when the desired object could not be found. 
exception Out_of_memory

Exception raised by the garbage collector when there is insufficient memory to complete the computation. 
exception Stack_overflow

Exception raised by the bytecode interpreter when the evaluation stack reaches its maximal size. This often indicates infinite or excessively deep recursion in the user’s program. (Not fully implemented by the native-code compiler; see section 11.5.) 
exception Sys_error of string

Exception raised by the input/output functions to report an operating system error. 
exception End_of_file

Exception raised by input functions to signal that the end of file has been reached. 
exception Division_by_zero

Exception raised by integer division and remainder operations when their second argument is zero. 
exception Sys_blocked_io

A special case of Sys_error raised when no I/O is possible on a non-blocking I/O channel. 
exception Undefined_recursive_module of (string * int * int)

Exception raised when an ill-founded recursive module definition is evaluated. (See section 7.8.) The arguments are the location of the definition in the source code (file name, line number, column number).

20.2  Module Pervasives: the initially opened module

Previous Up Next ocaml-doc-4.01/ocaml.html/index.html0000644000175000017500000001250512214324200015564 0ustar i33173i33173 The OCaml system, release 4.01
 The OCaml system
release 4.01
Documentation and user’s manual
Xavier Leroy,
Damien Doligez, Alain Frisch, Jacques Garrigue, Didier Rémy and Jérôme Vouillon
September 12, 2013
  Copyright © 2013 Institut National de Recherche en Informatique et en Automatique
This manual is also available in PDF. Postscript, DVI, plain text, as a bundle of HTML files, and as a bundle of Emacs Info files.

Part I
An introduction to OCaml

Part II
The OCaml language

Part III
The OCaml tools

Part IV
The OCaml library

Part V
Appendix

This document was translated from LATEX by HEVEA.
ocaml-doc-4.01/ocaml.html/comp.html0000644000175000017500000015511612214324200015421 0ustar i33173i33173 Batch compilation (ocamlc) Previous Up Next

Chapter 8  Batch compilation (ocamlc)

This chapter describes the OCaml batch compiler ocamlc, which compiles OCaml source files to bytecode object files and links these object files to produce standalone bytecode executable files. These executable files are then run by the bytecode interpreter ocamlrun.

8.1  Overview of the compiler

The ocamlc command has a command-line interface similar to the one of most C compilers. It accepts several types of arguments and processes them sequentially:

  • Arguments ending in .mli are taken to be source files for compilation unit interfaces. Interfaces specify the names exported by compilation units: they declare value names with their types, define public data types, declare abstract data types, and so on. From the file x.mli, the ocamlc compiler produces a compiled interface in the file x.cmi.
  • Arguments ending in .ml are taken to be source files for compilation unit implementations. Implementations provide definitions for the names exported by the unit, and also contain expressions to be evaluated for their side-effects. From the file x.ml, the ocamlc compiler produces compiled object bytecode in the file x.cmo.

    If the interface file x.mli exists, the implementation x.ml is checked against the corresponding compiled interface x.cmi, which is assumed to exist. If no interface x.mli is provided, the compilation of x.ml produces a compiled interface file x.cmi in addition to the compiled object code file x.cmo. The file x.cmi produced corresponds to an interface that exports everything that is defined in the implementation x.ml.

  • Arguments ending in .cmo are taken to be compiled object bytecode. These files are linked together, along with the object files obtained by compiling .ml arguments (if any), and the OCaml standard library, to produce a standalone executable program. The order in which .cmo and .ml arguments are presented on the command line is relevant: compilation units are initialized in that order at run-time, and it is a link-time error to use a component of a unit before having initialized it. Hence, a given x.cmo file must come before all .cmo files that refer to the unit x.
  • Arguments ending in .cma are taken to be libraries of object bytecode. A library of object bytecode packs in a single file a set of object bytecode files (.cmo files). Libraries are built with ocamlc -a (see the description of the -a option below). The object files contained in the library are linked as regular .cmo files (see above), in the order specified when the .cma file was built. The only difference is that if an object file contained in a library is not referenced anywhere in the program, then it is not linked in.
  • Arguments ending in .c are passed to the C compiler, which generates a .o object file (.obj under Windows). This object file is linked with the program if the -custom flag is set (see the description of -custom below).
  • Arguments ending in .o or .a (.obj or .lib under Windows) are assumed to be C object files and libraries. They are passed to the C linker when linking in -custom mode (see the description of -custom below).
  • Arguments ending in .so (.dll under Windows) are assumed to be C shared libraries (DLLs). During linking, they are searched for external C functions referenced from the OCaml code, and their names are written in the generated bytecode executable. The run-time system ocamlrun then loads them dynamically at program start-up time.

The output of the linking phase is a file containing compiled bytecode that can be executed by the OCaml bytecode interpreter: the command named ocamlrun. If a.out is the name of the file produced by the linking phase, the command 

        ocamlrun a.out arg1 arg2argn

executes the compiled code contained in a.out, passing it as arguments the character strings arg1 to argn. (See chapter 10 for more details.)

On most systems, the file produced by the linking phase can be run directly, as in: 

        ./a.out arg1 arg2argn

The produced file has the executable bit set, and it manages to launch the bytecode interpreter by itself.

8.2  Options

The following command-line options are recognized by ocamlc. The options -pack, -a, -c and -output-obj are mutually exclusive.

-a
Build a library (.cma file) with the object files (.cmo files) given on the command line, instead of linking them into an executable file. The name of the library must be set with the -o option.

If -custom, -cclib or -ccopt options are passed on the command line, these options are stored in the resulting .cma library. Then, linking with this library automatically adds back the -custom, -cclib and -ccopt options as if they had been provided on the command line, unless the -noautolink option is given.

-absname
Force error messages to show absolute paths for file names.
-annot
Dump detailed information about the compilation (types, bindings, tail-calls, etc). The information for file src.ml is put into file src.annot. In case of a type error, dump all the information inferred by the type-checker before the error. The src.annot file can be used with the emacs commands given in emacs/caml-types.el to display types and other annotations interactively.
-bin-annot
Dump detailed information about the compilation (types, bindings, tail-calls, etc) in binary format. The information for file src.ml is put into file src.cmt. In case of a type error, dump all the information inferred by the type-checker before the error. The *.cmt files produced by -bin-annot contain more information and are much more compact than the files produced by -annot.
-c
Compile only. Suppress the linking phase of the compilation. Source code files are turned into compiled files, but no executable file is produced. This option is useful to compile modules separately.
-cc ccomp
Use ccomp as the C linker when linking in “custom runtime” mode (see the -custom option) and as the C compiler for compiling .c source files.
-cclib -llibname
Pass the -llibname option to the C linker when linking in “custom runtime” mode (see the -custom option). This causes the given C library to be linked with the program.
-ccopt option
Pass the given option to the C compiler and linker. When linking in “custom runtime” mode, for instance, -ccopt -Ldir causes the C linker to search for C libraries in directory dir. (See the -custom option.)
-compat-32
Check that the generated bytecode executable can run on 32-bit platforms and signal an error if it cannot. This is useful when compiling bytecode on a 64-bit machine.
-config
Print the version number of ocamlc and a detailed summary of its configuration, then exit.
-custom
Link in “custom runtime” mode. In the default linking mode, the linker produces bytecode that is intended to be executed with the shared runtime system, ocamlrun. In the custom runtime mode, the linker produces an output file that contains both the runtime system and the bytecode for the program. The resulting file is larger, but it can be executed directly, even if the ocamlrun command is not installed. Moreover, the “custom runtime” mode enables static linking of OCaml code with user-defined C functions, as described in chapter 19.
Unix:   Never use the strip command on executables produced by ocamlc -custom, this would remove the bytecode part of the executable.
-dllib -llibname
Arrange for the C shared library dlllibname.so (dlllibname.dll under Windows) to be loaded dynamically by the run-time system ocamlrun at program start-up time.
-dllpath dir
Adds the directory dir to the run-time search path for shared C libraries. At link-time, shared libraries are searched in the standard search path (the one corresponding to the -I option). The -dllpath option simply stores dir in the produced executable file, where ocamlrun can find it and use it as described in section 10.3.
-for-pack ident
This option is accepted for compatibility with ocamlopt; it does nothing.
-g
Add debugging information while compiling and linking. This option is required in order to be able to debug the program with ocamldebug (see chapter 16), and to produce stack backtraces when the program terminates on an uncaught exception (see section 10.2).
-i
Cause the compiler to print all defined names (with their inferred types or their definitions) when compiling an implementation (.ml file). No compiled files (.cmo and .cmi files) are produced. This can be useful to check the types inferred by the compiler. Also, since the output follows the syntax of interfaces, it can help in writing an explicit interface (.mli file) for a file: just redirect the standard output of the compiler to a .mli file, and edit that file to remove all declarations of unexported names.
-I directory
Add the given directory to the list of directories searched for compiled interface files (.cmi), compiled object code files (.cmo), libraries (.cma), and C libraries specified with -cclib -lxxx. By default, the current directory is searched first, then the standard library directory. Directories added with -I are searched after the current directory, in the order in which they were given on the command line, but before the standard library directory.

If the given directory starts with +, it is taken relative to the standard library directory. For instance, -I +labltk adds the subdirectory labltk of the standard library to the search path.

-impl filename
Compile the file filename as an implementation file, even if its extension is not .ml.
-intf filename
Compile the file filename as an interface file, even if its extension is not .mli.
-intf-suffix string
Recognize file names ending with string as interface files (instead of the default .mli).
-labels
Labels are not ignored in types, labels may be used in applications, and labelled parameters can be given in any order. This is the default.
-linkall
Force all modules contained in libraries to be linked in. If this flag is not given, unreferenced modules are not linked in. When building a library (option -a), setting the -linkall option forces all subsequent links of programs involving that library to link all the modules contained in the library.
-make-runtime
Build a custom runtime system (in the file specified by option -o) incorporating the C object files and libraries given on the command line. This custom runtime system can be used later to execute bytecode executables produced with the ocamlc -use-runtime runtime-name option. See section 19.1.6 for more information.
-no-app-funct
Deactivates the applicative behaviour of functors. With this option, each functor application generates new types in its result and applying the same functor twice to the same argument yields two incompatible structures.
-noassert
Do not compile assertion checks. Note that the special form assert false is always compiled because it is typed specially. This flag has no effect when linking already-compiled files.
-noautolink
When linking .cma libraries, ignore -custom, -cclib and -ccopt options potentially contained in the libraries (if these options were given when building the libraries). This can be useful if a library contains incorrect specifications of C libraries or C options; in this case, during linking, set -noautolink and pass the correct C libraries and options on the command line.
-nolabels
Ignore non-optional labels in types. Labels cannot be used in applications, and parameter order becomes strict.
-nostdlib
Do not include the standard library directory in the list of directories searched for compiled interfaces (see option -I).
-o exec-file
Specify the name of the output file produced by the compiler. The default output name is a.out under Unix and camlprog.exe under Windows. If the -a option is given, specify the name of the library produced. If the -pack option is given, specify the name of the packed object file produced. If the -output-obj option is given, specify the name of the output file produced. If the -c option is given, specify the name of the object file produced for the next source file that appears on the command line.
-output-obj
Cause the linker to produce a C object file instead of a bytecode executable file. This is useful to wrap OCaml code as a C library, callable from any C program. See chapter 19, section 19.7.5. The name of the output object file must be set with the -o option. This option can also be used to produce a C source file (.c extension) or a compiled shared/dynamic library (.so extension, .dll under Windows).
-pack
Build a bytecode object file (.cmo file) and its associated compiled interface (.cmi) that combines the object files given on the command line, making them appear as sub-modules of the output .cmo file. The name of the output .cmo file must be given with the -o option. For instance, 
        ocamlc -pack -o p.cmo a.cmo b.cmo c.cmo
generates compiled files p.cmo and p.cmi describing a compilation unit having three sub-modules A, B and C, corresponding to the contents of the object files a.cmo, b.cmo and c.cmo. These contents can be referenced as P.A, P.B and P.C in the remainder of the program.
-pp command
Cause the compiler to call the given command as a preprocessor for each source file. The output of command is redirected to an intermediate file, which is compiled. If there are no compilation errors, the intermediate file is deleted afterwards.
-ppx command
After parsing, pipe the abstract syntax tree through the preprocessor command. The format of the input and ouput of the preprocessor are not yet documented.
-principal
Check information path during type-checking, to make sure that all types are derived in a principal way. When using labelled arguments and/or polymorphic methods, this flag is required to ensure future versions of the compiler will be able to infer types correctly, even if internal algorithms change. All programs accepted in -principal mode are also accepted in the default mode with equivalent types, but different binary signatures, and this may slow down type checking; yet it is a good idea to use it once before publishing source code.
-rectypes
Allow arbitrary recursive types during type-checking. By default, only recursive types where the recursion goes through an object type are supported. Note that once you have created an interface using this flag, you must use it again for all dependencies.
-runtime-variant suffix
Add the suffix string to the name of the runtime library used by the program. Currently, only one such suffix is supported: d, and only if the OCaml compiler was configured with option -with-debug-runtime. This suffix gives the debug version of the runtime, which is useful for debugging pointer problems in low-level code such as C stubs.
-short-paths
When a type is visible under several module-paths, use the shortest one when printing the type’s name in inferred interfaces and error and warning messages.
-strict-sequence
Force the left-hand part of each sequence to have type unit.
-thread
Compile or link multithreaded programs, in combination with the system threads library described in chapter 25.
-unsafe
Turn bound checking off for array and string accesses (the v.(i) and s.[i] constructs). Programs compiled with -unsafe are therefore slightly faster, but unsafe: anything can happen if the program accesses an array or string outside of its bounds.
-use-runtime runtime-name
Generate a bytecode executable file that can be executed on the custom runtime system runtime-name, built earlier with ocamlc -make-runtime runtime-name. See section 19.1.6 for more information.
-v
Print the version number of the compiler and the location of the standard library directory, then exit.
-verbose
Print all external commands before they are executed, in particular invocations of the C compiler and linker in -custom mode. Useful to debug C library problems.
-vmthread
Compile or link multithreaded programs, in combination with the VM-level threads library described in chapter 25.
-vnum or -version
Print the version number of the compiler in short form (e.g. 3.11.0), then exit.
-w warning-list
Enable, disable, or mark as fatal the warnings specified by the argument warning-list. Each warning can be enabled or disabled, and each warning can be fatal or non-fatal. If a warning is disabled, it isn’t displayed and doesn’t affect compilation in any way (even if it is fatal). If a warning is enabled, it is displayed normally by the compiler whenever the source code triggers it. If it is enabled and fatal, the compiler will also stop with an error after displaying it.

The warning-list argument is a sequence of warning specifiers, with no separators between them. A warning specifier is one of the following:

+num
Enable warning number num.
-num
Disable warning number num.
@num
Enable and mark as fatal warning number num.
+num1..num2
Enable warnings in the given range.
-num1..num2
Disable warnings in the given range.
@num1..num2
Enable and mark as fatal warnings in the given range.
+letter
Enable the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
-letter
Disable the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
@letter
Enable and mark as fatal the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
uppercase-letter
Enable the set of warnings corresponding to uppercase-letter.
lowercase-letter
Disable the set of warnings corresponding to lowercase-letter.

Warning numbers and letters which are out of the range of warnings that are currently defined are ignored. The warning are as follows.

1
Suspicious-looking start-of-comment mark.
2
Suspicious-looking end-of-comment mark.
3
Deprecated feature.
4
Fragile pattern matching: matching that will remain complete even if additional constructors are added to one of the variant types matched.
5
Partially applied function: expression whose result has function type and is ignored.
6
Label omitted in function application.
7
Method overridden.
8
Partial match: missing cases in pattern-matching.
9
Missing fields in a record pattern.
10
Expression on the left-hand side of a sequence that doesn’t have type unit (and that is not a function, see warning number 5).
11
Redundant case in a pattern matching (unused match case).
12
Redundant sub-pattern in a pattern-matching.
13
Instance variable overridden.
14
Illegal backslash escape in a string constant.
15
Private method made public implicitly.
16
Unerasable optional argument.
17
Undeclared virtual method.
18
Non-principal type.
19
Type without principality.
20
Unused function argument.
21
Non-returning statement.
22
Camlp4 warning.
23
Useless record with clause.
24
Bad module name: the source file name is not a valid OCaml module name.
25
Pattern-matching with all clauses guarded. Exhaustiveness cannot be checked.
26
Suspicious unused variable: unused variable that is bound with let or as, and doesn’t start with an underscore (_) character.
27
Innocuous unused variable: unused variable that is not bound with let nor as, and doesn’t start with an underscore (_) character.
28
Wildcard pattern given as argument to a constant constructor.
29
Unescaped end-of-line in a string constant (non-portable code).
30
Two labels or constructors of the same name are defined in two mutually recursive types.
31
A module is linked twice in the same executable.
32
Unused value declaration.
33
Unused open statement.
34
Unused type declaration.
35
Unused for-loop index.
36
Unused ancestor variable.
37
Unused constructor.
38
Unused exception constructor.
39
Unused rec flag.
40
Constructor or label name used out of scope.
41
Ambiguous constructor or label name.
42
Disambiguated constructor or label name.
43
Nonoptional label applied as optional.
44
Open statement shadows an already defined identifier.
45
Open statement shadows an already defined label or constructor.
A
All warnings.
C
Set of warnings 1, 2.
D
Synonym for warning 3.
E
Synonym for warning 4.
F
Synonym for warning 5.
K
Set of warnings 32, 33, 34, 35, 36, 37, 38, 39.
L
Synonym for warning 6.
M
Synonym for warning 7.
P
Synonym for warning 8.
R
Synonym for warning 9.
S
Synonym for warning 10.
U
Set of warnings 11, 12.
V
Synonym for warning 13.
X
Set of warnings 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30.
Y
Synonym for warning 26.
Z
Synonym for warning 27.

The default setting is -w +a-4-6-7-9-27-29-32..39-41..42-44-45. It is displayed by ocamlc -help. Note that warnings 5 and 10 are not always triggered, depending on the internals of the type checker.

-warn-error warning-list
Mark as fatal the warnings specified in the argument warning-list. The compiler will stop with an error when one of these warnings is emitted. The warning-list has the same meaning as for the -w option: a + sign (or an uppercase letter) marks the corresponding warnings as fatal, a - sign (or a lowercase letter) turns them back into non-fatal warnings, and a @ sign both enables and marks as fatal the corresponding warnings.

Note: it is not recommended to use warning sets (i.e. letters) as arguments to -warn-error in production code, because this can break your build when future versions of OCaml add some new warnings.

The default setting is -warn-error -a (all warnings are non-fatal).

-warn-help
Show the description of all available warning numbers.
-where
Print the location of the standard library, then exit.
- file
Process file as a file name, even if it starts with a dash (-) character.
-help or --help
Display a short usage summary and exit.

8.3  Modules and the file system

This short section is intended to clarify the relationship between the names of the modules corresponding to compilation units and the names of the files that contain their compiled interface and compiled implementation.

The compiler always derives the module name by taking the capitalized base name of the source file (.ml or .mli file). That is, it strips the leading directory name, if any, as well as the .ml or .mli suffix; then, it set the first letter to uppercase, in order to comply with the requirement that module names must be capitalized. For instance, compiling the file mylib/misc.ml provides an implementation for the module named Misc. Other compilation units may refer to components defined in mylib/misc.ml under the names Misc.name; they can also do open Misc, then use unqualified names name.

The .cmi and .cmo files produced by the compiler have the same base name as the source file. Hence, the compiled files always have their base name equal (modulo capitalization of the first letter) to the name of the module they describe (for .cmi files) or implement (for .cmo files).

When the compiler encounters a reference to a free module identifier Mod, it looks in the search path for a file named Mod.cmi or mod.cmi and loads the compiled interface contained in that file. As a consequence, renaming .cmi files is not advised: the name of a .cmi file must always correspond to the name of the compilation unit it implements. It is admissible to move them to another directory, if their base name is preserved, and the correct -I options are given to the compiler. The compiler will flag an error if it loads a .cmi file that has been renamed.

Compiled bytecode files (.cmo files), on the other hand, can be freely renamed once created. That’s because the linker never attempts to find by itself the .cmo file that implements a module with a given name: it relies instead on the user providing the list of .cmo files by hand.

8.4  Common errors

This section describes and explains the most frequently encountered error messages.

Cannot find file filename
The named file could not be found in the current directory, nor in the directories of the search path. The filename is either a compiled interface file (.cmi file), or a compiled bytecode file (.cmo file). If filename has the format mod.cmi, this means you are trying to compile a file that references identifiers from module mod, but you have not yet compiled an interface for module mod. Fix: compile mod.mli or mod.ml first, to create the compiled interface mod.cmi.

If filename has the format mod.cmo, this means you are trying to link a bytecode object file that does not exist yet. Fix: compile mod.ml first.

If your program spans several directories, this error can also appear because you haven’t specified the directories to look into. Fix: add the correct -I options to the command line.

Corrupted compiled interface filename
The compiler produces this error when it tries to read a compiled interface file (.cmi file) that has the wrong structure. This means something went wrong when this .cmi file was written: the disk was full, the compiler was interrupted in the middle of the file creation, and so on. This error can also appear if a .cmi file is modified after its creation by the compiler. Fix: remove the corrupted .cmi file, and rebuild it.
This expression has type t1, but is used with type t2
This is by far the most common type error in programs. Type t1 is the type inferred for the expression (the part of the program that is displayed in the error message), by looking at the expression itself. Type t2 is the type expected by the context of the expression; it is deduced by looking at how the value of this expression is used in the rest of the program. If the two types t1 and t2 are not compatible, then the error above is produced.

In some cases, it is hard to understand why the two types t1 and t2 are incompatible. For instance, the compiler can report that “expression of type foo cannot be used with type foo”, and it really seems that the two types foo are compatible. This is not always true. Two type constructors can have the same name, but actually represent different types. This can happen if a type constructor is redefined. Example: 

        type foo = A | B
        let f = function A -> 0 | B -> 1
        type foo = C | D
        f C

This result in the error message “expression C of type foo cannot be used with type foo”.

The type of this expression, t, contains type variables that cannot be generalized
Type variables ('a, 'b, …) in a type t can be in either of two states: generalized (which means that the type t is valid for all possible instantiations of the variables) and not generalized (which means that the type t is valid only for one instantiation of the variables). In a let binding let name = expr, the type-checker normally generalizes as many type variables as possible in the type of expr. However, this leads to unsoundness (a well-typed program can crash) in conjunction with polymorphic mutable data structures. To avoid this, generalization is performed at let bindings only if the bound expression expr belongs to the class of “syntactic values”, which includes constants, identifiers, functions, tuples of syntactic values, etc. In all other cases (for instance, expr is a function application), a polymorphic mutable could have been created and generalization is therefore turned off for all variables occuring in contravariant or non-variant branches of the type. For instance, if the type of a non-value is 'a list the variable is generalizable (list is a covariant type constructor), but not in 'a list -> 'a list (the left branch of -> is contravariant) or 'a ref (ref is non-variant).

Non-generalized type variables in a type cause no difficulties inside a given structure or compilation unit (the contents of a .ml file, or an interactive session), but they cannot be allowed inside signatures nor in compiled interfaces (.cmi file), because they could be used inconsistently later. Therefore, the compiler flags an error when a structure or compilation unit defines a value name whose type contains non-generalized type variables. There are two ways to fix this error:

  • Add a type constraint or a .mli file to give a monomorphic type (without type variables) to name. For instance, instead of writing 
        let sort_int_list = Sort.list (<)
    (* inferred type 'a list -> 'a list, with 'a not generalized *)
    write 
        let sort_int_list = (Sort.list (<) : int list -> int list);;
  • If you really need name to have a polymorphic type, turn its defining expression into a function by adding an extra parameter. For instance, instead of writing 
        let map_length = List.map Array.length
    (* inferred type 'a array list -> int list, with 'a not generalized *)
    write 
        let map_length lv = List.map Array.length lv
Reference to undefined global mod
This error appears when trying to link an incomplete or incorrectly ordered set of files. Either you have forgotten to provide an implementation for the compilation unit named mod on the command line (typically, the file named mod.cmo, or a library containing that file). Fix: add the missing .ml or .cmo file to the command line. Or, you have provided an implementation for the module named mod, but it comes too late on the command line: the implementation of mod must come before all bytecode object files that reference mod. Fix: change the order of .ml and .cmo files on the command line.

Of course, you will always encounter this error if you have mutually recursive functions across modules. That is, function Mod1.f calls function Mod2.g, and function Mod2.g calls function Mod1.f. In this case, no matter what permutations you perform on the command line, the program will be rejected at link-time. Fixes:

  • Put f and g in the same module.
  • Parameterize one function by the other. That is, instead of having 
    mod1.ml:    let f x = ... Mod2.g ...
mod2.ml:    let g y = ... Mod1.f ...
    define 
    mod1.ml:    let f g x = ... g ...
mod2.ml:    let rec g y = ... Mod1.f g ...
    and link mod1.cmo before mod2.cmo.
  • Use a reference to hold one of the two functions, as in : 
    mod1.ml:    let forward_g =
                ref((fun x -> failwith "forward_g") : <type>)
            let f x = ... !forward_g ...
mod2.ml:    let g y = ... Mod1.f ...
            let _ = Mod1.forward_g := g
The external function f is not available
This error appears when trying to link code that calls external functions written in C. As explained in chapter 19, such code must be linked with C libraries that implement the required f C function. If the C libraries in question are not shared libraries (DLLs), the code must be linked in “custom runtime” mode. Fix: add the required C libraries to the command line, and possibly the -custom option.
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Chapter 13  Dependency generator (ocamldep)

The ocamldep command scans a set of OCaml source files (.ml and .mli files) for references to external compilation units, and outputs dependency lines in a format suitable for the make utility. This ensures that make will compile the source files in the correct order, and recompile those files that need to when a source file is modified.

The typical usage is: 

        ocamldep options *.mli *.ml > .depend

where *.mli *.ml expands to all source files in the current directory and .depend is the file that should contain the dependencies. (See below for a typical Makefile.)

Dependencies are generated both for compiling with the bytecode compiler ocamlc and with the native-code compiler ocamlopt.

The ocamlbuild compilation manager (see chapter 18) provide a higher-level, more automated alternative to the combination of make and ocamldep.

13.1  Options

The following command-line options are recognized by ocamldep.

-I directory
Add the given directory to the list of directories searched for source files. If a source file foo.ml mentions an external compilation unit Bar, a dependency on that unit’s interface bar.cmi is generated only if the source for bar is found in the current directory or in one of the directories specified with -I. Otherwise, Bar is assumed to be a module from the standard library, and no dependencies are generated. For programs that span multiple directories, it is recommended to pass ocamldep the same -I options that are passed to the compiler.
-ml-synonym .ext
Consider the given extension (with leading dot) to be a synonym for .ml.
-mli-synonym .ext
Consider the given extension (with leading dot) to be a synonym for .mli.
-modules
Output raw dependencies of the form 
      filename: Module1 Module2 ... ModuleN
where Module1, …, ModuleN are the names of the compilation units referenced within the file filename, but these names are not resolved to source file names. Such raw dependencies cannot be used by make, but can be post-processed by other tools such as Omake.
-native
Generate dependencies for a pure native-code program (no bytecode version). When an implementation file (.ml file) has no explicit interface file (.mli file), ocamldep generates dependencies on the bytecode compiled file (.cmo file) to reflect interface changes. This can cause unnecessary bytecode recompilations for programs that are compiled to native-code only. The flag -native causes dependencies on native compiled files (.cmx) to be generated instead of on .cmo files. (This flag makes no difference if all source files have explicit .mli interface files.)
-pp command
Cause ocamldep to call the given command as a preprocessor for each source file.
-slash
Under Windows, use a forward slash (/) as the path separator instead of the usual backward slash (\). Under Unix, this option does nothing.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-help or --help
Display a short usage summary and exit.

13.2  A typical Makefile

Here is a template Makefile for a OCaml program.

OCAMLC=ocamlc
OCAMLOPT=ocamlopt
OCAMLDEP=ocamldep
INCLUDES=                 # all relevant -I options here
OCAMLFLAGS=$(INCLUDES)    # add other options for ocamlc here
OCAMLOPTFLAGS=$(INCLUDES) # add other options for ocamlopt here

# prog1 should be compiled to bytecode, and is composed of three
# units: mod1, mod2 and mod3.

# The list of object files for prog1
PROG1_OBJS=mod1.cmo mod2.cmo mod3.cmo

prog1: $(PROG1_OBJS)
        $(OCAMLC) -o prog1 $(OCAMLFLAGS) $(PROG1_OBJS)

# prog2 should be compiled to native-code, and is composed of two
# units: mod4 and mod5.

# The list of object files for prog2
PROG2_OBJS=mod4.cmx mod5.cmx

prog2: $(PROG2_OBJS)
        $(OCAMLOPT) -o prog2 $(OCAMLFLAGS) $(PROG2_OBJS)

# Common rules
.SUFFIXES: .ml .mli .cmo .cmi .cmx

.ml.cmo:
        $(OCAMLC) $(OCAMLFLAGS) -c $<

.mli.cmi:
        $(OCAMLC) $(OCAMLFLAGS) -c $<

.ml.cmx:
        $(OCAMLOPT) $(OCAMLOPTFLAGS) -c $<

# Clean up
clean:
        rm -f prog1 prog2
        rm -f *.cm[iox]

# Dependencies
depend:
        $(OCAMLDEP) $(INCLUDES) *.mli *.ml > .depend

include .depend
Previous Up Next ocaml-doc-4.01/ocaml.html/threads.html0000644000175000017500000000765512145477756016155 0ustar i33173i33173 The threads library Previous Up Next

Chapter 25  The threads library

The threads library allows concurrent programming in OCaml. It provides multiple threads of control (also called lightweight processes) that execute concurrently in the same memory space. Threads communicate by in-place modification of shared data structures, or by sending and receiving data on communication channels.

The threads library is implemented by time-sharing on a single processor. It will not take advantage of multi-processor machines. Using this library will therefore never make programs run faster. However, many programs are easier to write when structured as several communicating processes.

Two implementations of the threads library are available, depending on the capabilities of the operating system:

  • System threads. This implementation builds on the OS-provided threads facilities: POSIX 1003.1c threads for Unix, and Win32 threads for Windows. When available, system threads support both bytecode and native-code programs.
  • VM-level threads. This implementation performs time-sharing and context switching at the level of the OCaml virtual machine (bytecode interpreter). It is available on Unix systems, and supports only bytecode programs. It cannot be used with native-code programs.

Programs that use system threads must be linked as follows: 

        ocamlc -thread other options unix.cma threads.cma other files
        ocamlopt -thread other options unix.cmxa threads.cmxa other files

Compilation units that use the threads library must also be compiled with the -thread option (see chapter 8).

Programs that use VM-level threads must be compiled with the -vmthread option to ocamlc (see chapter 8), and be linked as follows: 

        ocamlc -vmthread other options threads.cma other files

Compilation units that use threads library must also be compiled with the -vmthread option (see chapter 8).

Previous Up Next ocaml-doc-4.01/ocaml.html/libunix.html0000644000175000017500000001472412214324200016134 0ustar i33173i33173 The unix library: Unix system calls Previous Up Next

Chapter 22  The unix library: Unix system calls

The unix library makes many Unix system calls and system-related library functions available to OCaml programs. This chapter describes briefly the functions provided. Refer to sections 2 and 3 of the Unix manual for more details on the behavior of these functions.

Not all functions are provided by all Unix variants. If some functions are not available, they will raise Invalid_arg when called.

Programs that use the unix library must be linked as follows: 

        ocamlc other options unix.cma other files
        ocamlopt other options unix.cmxa other files

For interactive use of the unix library, do: 

        ocamlmktop -o mytop unix.cma
        ./mytop

or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "unix.cma";;.

Windows:   A fairly complete emulation of the Unix system calls is provided in the Windows version of OCaml. The end of this chapter gives more information on the functions that are not supported under Windows.
Windows:   The Cygwin port of OCaml fully implements all functions from the Unix module. The native Win32 ports implement a subset of them. Below is a list of the functions that are not implemented, or only partially implemented, by the Win32 ports. Functions not mentioned are fully implemented and behave as described previously in this chapter.
FunctionsComment
forknot implemented, use create_process or threads
waitnot implemented, use waitpid
waitpidcan only wait for a given PID, not any child process
getppidnot implemented (meaningless under Windows)
nicenot implemented
truncate, ftruncatenot implemented
link, symlink, readlinknot implemented (no links under Windows)
accessexecute permission X_OK cannot be tested, it just tests for read permission instead
fchmodnot implemented
chown, fchownnot implemented (make no sense on a DOS file system)
umasknot implemented
mkfifonot implemented
kill, pausenot implemented (no inter-process signals in Windows)
alarmnot implemented
timespartially implemented, will not report timings for child processes
getitimer, setitimernot implemented
getuid, getgidalways return 1
getgid, getegid, getgroupsnot implemented
setuid, setgidnot implemented
getpwnam, getpwuidalways raise Not_found
getgrnam, getgrgidalways raise Not_found
type socket_domainthe domains PF_UNIX and PF_INET6 are not supported; PF_INET is fully supported
establish_servernot implemented; use threads
terminal functions (tc*)not implemented
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6.11  Module expressions (module implementations)

Module expressions are the module-level equivalent of value expressions: they evaluate to modules, thus providing implementations for the specifications expressed in module types.

module-expr::= module-path  
  struct [ module-items ] end  
  functor ( module-name :  module-type ) ->  module-expr  
  module-expr (  module-expr )  
  ( module-expr )  
  ( module-expr :  module-type )  
 
module-items::= [;;] ( definition ∣  expr )  { [;;definition ∣  ;; expr }  [;;]  
 
definition::= let [reclet-binding  { and let-binding }  
  external value-name :  typexpr =  external-declaration  
  type-definition  
  exception-definition  
  class-definition  
  classtype-definition  
  module module-name  { ( module-name :  module-type ) }  [ : module-type ]  =  module-expr  
  module type modtype-name =  module-type  
  open module-path  
  include module-expr

6.11.1  Simple module expressions

The expression module-path evaluates to the module bound to the name module-path.

The expression ( module-expr ) evaluates to the same module as module-expr.

The expression ( module-expr :  module-type ) checks that the type of module-expr is a subtype of module-type, that is, that all components specified in module-type are implemented in module-expr, and their implementation meets the requirements given in module-type. In other terms, it checks that the implementation module-expr meets the type specification module-type. The whole expression evaluates to the same module as module-expr, except that all components not specified in module-type are hidden and can no longer be accessed.

6.11.2  Structures

Structures structend are collections of definitions for value names, type names, exceptions, module names and module type names. The definitions are evaluated in the order in which they appear in the structure. The scopes of the bindings performed by the definitions extend to the end of the structure. As a consequence, a definition may refer to names bound by earlier definitions in the same structure.

For compatibility with toplevel phrases (chapter 9), an optional ;; is allowed after each definition in a structure. The ;; has no semantic meaning. Also for compatibility, expr is allowed as a component of a structure, meaning let _ = expr, i.e. evaluate expr for its side-effects. In this case, the ;; of the previous component (if any) is not optional.

Value definitions

A value definition let [rec] let-binding  { and let-binding } bind value names in the same way as a letin … expression (see section 6.7.1). The value names appearing in the left-hand sides of the bindings are bound to the corresponding values in the right-hand sides.

A value definition external value-name :  typexpr =  external-declaration implements value-name as the external function specified in external-declaration (see chapter 19).

Type definitions

A definition of one or several type components is written type typedef  { and typedef } and consists of a sequence of mutually recursive definitions of type names.

Exception definitions

Exceptions are defined with the syntax exception constr-decl or exception constr-name =  constr.

Class definitions

A definition of one or several classes is written class class-binding  { and class-binding } and consists of a sequence of mutually recursive definitions of class names. Class definitions are described more precisely in section 6.9.3.

Class type definitions

A definition of one or several classes is written class type classtype-def  { and classtype-def } and consists of a sequence of mutually recursive definitions of class type names. Class type definitions are described more precisely in section 6.9.5.

Module definitions

The basic form for defining a module component is module module-name =  module-expr, which evaluates module-expr and binds the result to the name module-name.

One can write

module module-name :  module-type =  module-expr

instead of

module module-name = (  module-expr :  module-type ).

Another derived form is

module module-name (  name1 :  module-type1 )(  namen :  module-typen ) =  module-expr

which is equivalent to

module module-name = functor (  name1 :  module-type1 ) ->->  module-expr

Module type definitions

A definition for a module type is written module type modtype-name =  module-type. It binds the name modtype-name to the module type denoted by the expression module-type.

Opening a module path

The expression open module-path in a structure does not define any components nor perform any bindings. It simply affects the parsing of the following items of the structure, allowing components of the module denoted by module-path to be referred to by their simple names name instead of path accesses module-path .  name. The scope of the open stops at the end of the structure expression.

Including the components of another structure

The expression include module-expr in a structure re-exports in the current structure all definitions of the structure denoted by module-expr. For instance, if the identifier S is bound to the module 

        struct type t = int  let x = 2 end

the module expression 

        struct include S  let y = (x + 1 : t) end

is equivalent to the module expression 

        struct type t = S.t  let x = S.x  let y = (x + 1 : t) end

The difference between open and include is that open simply provides short names for the components of the opened structure, without defining any components of the current structure, while include also adds definitions for the components of the included structure.

6.11.3  Functors

Functor definition

The expression functor ( module-name :  module-type ) ->  module-expr evaluates to a functor that takes as argument modules of the type module-type1, binds module-name to these modules, evaluates module-expr in the extended environment, and returns the resulting modules as results. No restrictions are placed on the type of the functor argument; in particular, a functor may take another functor as argument (“higher-order” functor).

Functor application

The expression module-expr1 (  module-expr2 ) evaluates module-expr1 to a functor and module-expr2 to a module, and applies the former to the latter. The type of module-expr2 must match the type expected for the arguments of the functor module-expr1.

Previous Up Next ocaml-doc-4.01/ocaml.html/values.html0000644000175000017500000001654012214324200015757 0ustar i33173i33173 Values Previous Up Next

6.2  Values

This section describes the kinds of values that are manipulated by OCaml programs.

6.2.1  Base values

Integer numbers

Integer values are integer numbers from −230 to 230−1, that is −1073741824 to 1073741823. The implementation may support a wider range of integer values: on 64-bit platforms, the current implementation supports integers ranging from −262 to 262−1.

Floating-point numbers

Floating-point values are numbers in floating-point representation. The current implementation uses double-precision floating-point numbers conforming to the IEEE 754 standard, with 53 bits of mantissa and an exponent ranging from −1022 to 1023.

Characters

Character values are represented as 8-bit integers between 0 and 255. Character codes between 0 and 127 are interpreted following the ASCII standard. The current implementation interprets character codes between 128 and 255 following the ISO 8859-1 standard.

Character strings

String values are finite sequences of characters. The current implementation supports strings containing up to 224 − 5 characters (16777211 characters); on 64-bit platforms, the limit is 257 − 9.

6.2.2  Tuples

Tuples of values are written (v1,, vn), standing for the n-tuple of values v1 to vn. The current implementation supports tuple of up to 222 − 1 elements (4194303 elements).

6.2.3  Records

Record values are labeled tuples of values. The record value written { field1 = v1;;  fieldn = vn } associates the value vi to the record field fieldi, for i = 1 … n. The current implementation supports records with up to 222 − 1 fields (4194303 fields).

6.2.4  Arrays

Arrays are finite, variable-sized sequences of values of the same type. The current implementation supports arrays containing up to 222 − 1 elements (4194303 elements) unless the elements are floating-point numbers (2097151 elements in this case); on 64-bit platforms, the limit is 254 − 1 for all arrays.

6.2.5  Variant values

Variant values are either a constant constructor, or a non-constant constructor applied to a number of values. The former case is written constr; the latter case is written constr (v1, ... , vn ), where the vi are said to be the arguments of the non-constant constructor constr. The parentheses may be omitted if there is only one argument.

The following constants are treated like built-in constant constructors:

ConstantConstructor
falsethe boolean false
truethe boolean true
()the “unit” value
[]the empty list

The current implementation limits each variant type to have at most 246 non-constant constructors and 230−1 constant constructors.

6.2.6  Polymorphic variants

Polymorphic variants are an alternate form of variant values, not belonging explicitly to a predefined variant type, and following specific typing rules. They can be either constant, written `tag-name, or non-constant, written `tag-name(v).

6.2.7  Functions

Functional values are mappings from values to values.

6.2.8  Objects

Objects are composed of a hidden internal state which is a record of instance variables, and a set of methods for accessing and modifying these variables. The structure of an object is described by the toplevel class that created it.

Previous Up Next ocaml-doc-4.01/ocaml.html/names.html0000644000175000017500000003630712214324200015566 0ustar i33173i33173 Names Previous Up Next

6.3  Names

Identifiers are used to give names to several classes of language objects and refer to these objects by name later:

These eleven name spaces are distinguished both by the context and by the capitalization of the identifier: whether the first letter of the identifier is in lowercase (written lowercase-ident below) or in uppercase (written capitalized-ident). Underscore is considered a lowercase letter for this purpose.

Naming objects

value-name::= lowercase-ident  
  ( operator-name )  
 
operator-name::= prefix-symbol ∣  infix-op  
 
infix-op::= infix-symbol  
  * ∣  + ∣  - ∣  -. ∣  = ∣  != ∣  < ∣  > ∣  or ∣  || ∣  & ∣  && ∣  :=  
  mod ∣  land ∣  lor ∣  lxor ∣  lsl ∣  lsr ∣  asr  
 
constr-name::= capitalized-ident  
 
tag-name::= capitalized-ident  
 
typeconstr-name::= lowercase-ident  
 
field-name::= lowercase-ident  
 
module-name::= capitalized-ident  
 
modtype-name::= ident  
 
class-name::= lowercase-ident  
 
inst-var-name::= lowercase-ident  
 
method-name::= lowercase-ident

As shown above, prefix and infix symbols as well as some keywords can be used as value names, provided they are written between parentheses. The capitalization rules are summarized in the table below.

Name spaceCase of first letter
Valueslowercase
Constructorsuppercase
Labelslowercase
Polymorphic variant tagsuppercase
Exceptionsuppercase
Type constructorslowercase
Record fieldslowercase
Classeslowercase
Instance variableslowercase
Methodslowercase
Modulesuppercase
Module typesany

Note on polymorphic variant tags: the current implementation accepts lowercase variant tags in addition to capitalized variant tags, but we suggest you avoid lowercase variant tags for portability and compatibility with future OCaml versions.

Referring to named objects

value-path::=module-path . ]  value-name  
 
constr::=module-path . ]  constr-name  
 
typeconstr::=extended-module-path . ]  typeconstr-name  
 
field::=module-path . ]  field-name  
 
modtype-path::=extended-module-path . ]  modtype-name  
 
class-path::=module-path . ]  class-name  
 
classtype-path::=extended-module-path . ]  class-name  
 
module-path::= module-name  { . module-name }  
 
extended-module-path::= extended-module-name  { . extended-module-name }  
 
extended-module-name::= module-name  { ( extended-module-path ) }

A named object can be referred to either by its name (following the usual static scoping rules for names) or by an access path prefix .  name, where prefix designates a module and name is the name of an object defined in that module. The first component of the path, prefix, is either a simple module name or an access path name1 .  name2 …, in case the defining module is itself nested inside other modules. For referring to type constructors, module types, or class types, the prefix can also contain simple functor applications (as in the syntactic class extended-module-path above) in case the defining module is the result of a functor application.

Label names, tag names, method names and instance variable names need not be qualified: the former three are global labels, while the latter are local to a class.

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Chapter 16  The debugger (ocamldebug)

This chapter describes the OCaml source-level replay debugger ocamldebug.

Unix:   The debugger is available on Unix systems that provide BSD sockets.
Windows:   The debugger is available under the Cygwin port of OCaml, but not under the native Win32 ports.

16.1  Compiling for debugging

Before the debugger can be used, the program must be compiled and linked with the -g option: all .cmo and .cma files that are part of the program should have been created with ocamlc -g, and they must be linked together with ocamlc -g.

Compiling with -g entails no penalty on the running time of programs: object files and bytecode executable files are bigger and take longer to produce, but the executable files run at exactly the same speed as if they had been compiled without -g.

16.2  Invocation

16.2.1  Starting the debugger

The OCaml debugger is invoked by running the program ocamldebug with the name of the bytecode executable file as first argument: 

        ocamldebug [options] program [arguments]

The arguments following program are optional, and are passed as command-line arguments to the program being debugged. (See also the set arguments command.)

The following command-line options are recognized:

-c count
Set the maximum number of simultaneously live checkpoints to count.
-cd dir
Run the debugger program from the working directory dir, instead of the current directory. (See also the cd command.)
-emacs
Tell the debugger it is executed under Emacs. (See section 16.10 for information on how to run the debugger under Emacs.)
-I directory
Add directory to the list of directories searched for source files and compiled files. (See also the directory command.)
-s socket
Use socket for communicating with the debugged program. See the description of the command set socket (section 16.8.6) for the format of socket.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-help or --help
Display a short usage summary and exit.

16.2.2  Exiting the debugger

The command quit exits the debugger. You can also exit the debugger by typing an end-of-file character (usually ctrl-D).

Typing an interrupt character (usually ctrl-C) will not exit the debugger, but will terminate the action of any debugger command that is in progress and return to the debugger command level.

16.3  Commands

A debugger command is a single line of input. It starts with a command name, which is followed by arguments depending on this name. Examples: 

        run
        goto 1000
        set arguments arg1 arg2

A command name can be truncated as long as there is no ambiguity. For instance, go 1000 is understood as goto 1000, since there are no other commands whose name starts with go. For the most frequently used commands, ambiguous abbreviations are allowed. For instance, r stands for run even though there are others commands starting with r. You can test the validity of an abbreviation using the help command.

If the previous command has been successful, a blank line (typing just RET) will repeat it.

16.3.1  Getting help

The OCaml debugger has a simple on-line help system, which gives a brief description of each command and variable.

help
Print the list of commands.
help command
Give help about the command command.
help set variable, help show variable
Give help about the variable variable. The list of all debugger variables can be obtained with help set.
help info topic
Give help about topic. Use help info to get a list of known topics.

16.3.2  Accessing the debugger state

set variable value
Set the debugger variable variable to the value value.
show variable
Print the value of the debugger variable variable.
info subject
Give information about the given subject. For instance, info breakpoints will print the list of all breakpoints.

16.4  Executing a program

16.4.1  Events

Events are “interesting” locations in the source code, corresponding to the beginning or end of evaluation of “interesting” sub-expressions. Events are the unit of single-stepping (stepping goes to the next or previous event encountered in the program execution). Also, breakpoints can only be set at events. Thus, events play the role of line numbers in debuggers for conventional languages.

During program execution, a counter is incremented at each event encountered. The value of this counter is referred as the current time. Thanks to reverse execution, it is possible to jump back and forth to any time of the execution.

Here is where the debugger events (written §§) are located in the source code:

  • Following a function application: 
    (f arg)§§
  • On entrance to a function: 
    fun x y z -> §§ ...
  • On each case of a pattern-matching definition (function, matchwith construct, trywith construct): 
    function pat1 -> §§ expr1
       | ...
       | patN -> §§ exprN
  • Between subexpressions of a sequence: 
    expr1; §§ expr2; §§ ...; §§ exprN
  • In the two branches of a conditional expression: 
    if cond then §§ expr1 else §§ expr2
  • At the beginning of each iteration of a loop: 
    while cond do §§ body done
for i = a to b do §§ body done

Exceptions: A function application followed by a function return is replaced by the compiler by a jump (tail-call optimization). In this case, no event is put after the function application.

16.4.2  Starting the debugged program

The debugger starts executing the debugged program only when needed. This allows setting breapoints or assigning debugger variables before execution starts. There are several ways to start execution:

run
Run the program until a breakpoint is hit, or the program terminates.
goto 0
Load the program and stop on the first event.
goto time
Load the program and execute it until the given time. Useful when you already know approximately at what time the problem appears. Also useful to set breakpoints on function values that have not been computed at time 0 (see section 16.5).

The execution of a program is affected by certain information it receives when the debugger starts it, such as the command-line arguments to the program and its working directory. The debugger provides commands to specify this information (set arguments and cd). These commands must be used before program execution starts. If you try to change the arguments or the working directory after starting your program, the debugger will kill the program (after asking for confirmation).

16.4.3  Running the program

The following commands execute the program forward or backward, starting at the current time. The execution will stop either when specified by the command or when a breakpoint is encountered.

run
Execute the program forward from current time. Stops at next breakpoint or when the program terminates.
reverse
Execute the program backward from current time. Mostly useful to go to the last breakpoint encountered before the current time.
step [count]
Run the program and stop at the next event. With an argument, do it count times. If count is 0, run until the program terminates or a breakpoint is hit.
backstep [count]
Run the program backward and stop at the previous event. With an argument, do it count times.
next [count]
Run the program and stop at the next event, skipping over function calls. With an argument, do it count times.
previous [count]
Run the program backward and stop at the previous event, skipping over function calls. With an argument, do it count times.
finish
Run the program until the current function returns.
start
Run the program backward and stop at the first event before the current function invocation.

16.4.4  Time travel

You can jump directly to a given time, without stopping on breakpoints, using the goto command.

As you move through the program, the debugger maintains an history of the successive times you stop at. The last command can be used to revisit these times: each last command moves one step back through the history. That is useful mainly to undo commands such as step and next.

goto time
Jump to the given time.
last [count]
Go back to the latest time recorded in the execution history. With an argument, do it count times.
set history size
Set the size of the execution history.

16.4.5  Killing the program

kill
Kill the program being executed. This command is mainly useful if you wish to recompile the program without leaving the debugger.

16.5  Breakpoints

A breakpoint causes the program to stop whenever a certain point in the program is reached. It can be set in several ways using the break command. Breakpoints are assigned numbers when set, for further reference. The most comfortable way to set breakpoints is through the Emacs interface (see section 16.10).

break
Set a breakpoint at the current position in the program execution. The current position must be on an event (i.e., neither at the beginning, nor at the end of the program).
break function
Set a breakpoint at the beginning of function. This works only when the functional value of the identifier function has been computed and assigned to the identifier. Hence this command cannot be used at the very beginning of the program execution, when all identifiers are still undefined; use goto time to advance execution until the functional value is available.
break @ [module] line
Set a breakpoint in module module (or in the current module if module is not given), at the first event of line line.
break @ [module] line column
Set a breakpoint in module module (or in the current module if module is not given), at the event closest to line line, column column.
break @ [module] # character
Set a breakpoint in module module at the event closest to character number character.
break address
Set a breakpoint at the code address address.
delete [breakpoint-numbers]
Delete the specified breakpoints. Without argument, all breakpoints are deleted (after asking for confirmation).
info breakpoints
Print the list of all breakpoints.

16.6  The call stack

Each time the program performs a function application, it saves the location of the application (the return address) in a block of data called a stack frame. The frame also contains the local variables of the caller function. All the frames are allocated in a region of memory called the call stack. The command backtrace (or bt) displays parts of the call stack.

At any time, one of the stack frames is “selected” by the debugger; several debugger commands refer implicitly to the selected frame. In particular, whenever you ask the debugger for the value of a local variable, the value is found in the selected frame. The commands frame, up and down select whichever frame you are interested in.

When the program stops, the debugger automatically selects the currently executing frame and describes it briefly as the frame command does.

frame
Describe the currently selected stack frame.
frame frame-number
Select a stack frame by number and describe it. The frame currently executing when the program stopped has number 0; its caller has number 1; and so on up the call stack.
backtrace [count], bt [count]
Print the call stack. This is useful to see which sequence of function calls led to the currently executing frame. With a positive argument, print only the innermost count frames. With a negative argument, print only the outermost -count frames.
up [count]
Select and display the stack frame just “above” the selected frame, that is, the frame that called the selected frame. An argument says how many frames to go up.
down [count]
Select and display the stack frame just “below” the selected frame, that is, the frame that was called by the selected frame. An argument says how many frames to go down.

16.7  Examining variable values

The debugger can print the current value of simple expressions. The expressions can involve program variables: all the identifiers that are in scope at the selected program point can be accessed.

Expressions that can be printed are a subset of OCaml expressions, as described by the following grammar:

simple-expr::= lowercase-ident  
  { capitalized-ident . }  lowercase-ident  
  *  
  $ integer  
  simple-expr .  lowercase-ident  
  simple-expr .(  integer )  
  simple-expr .[  integer ]  
  ! simple-expr  
  ( simple-expr )

The first two cases refer to a value identifier, either unqualified or qualified by the path to the structure that define it. * refers to the result just computed (typically, the value of a function application), and is valid only if the selected event is an “after” event (typically, a function application). $ integer refer to a previously printed value. The remaining four forms select part of an expression: respectively, a record field, an array element, a string element, and the current contents of a reference.

print variables
Print the values of the given variables. print can be abbreviated as p.
display variables
Same as print, but limit the depth of printing to 1. Useful to browse large data structures without printing them in full. display can be abbreviated as d.

When printing a complex expression, a name of the form $integer is automatically assigned to its value. Such names are also assigned to parts of the value that cannot be printed because the maximal printing depth is exceeded. Named values can be printed later on with the commands p $integer or d $integer. Named values are valid only as long as the program is stopped. They are forgotten as soon as the program resumes execution.

set print_depth d
Limit the printing of values to a maximal depth of d.
set print_length l
Limit the printing of values to at most l nodes printed.

16.8  Controlling the debugger

16.8.1  Setting the program name and arguments

set program file
Set the program name to file.
set arguments arguments
Give arguments as command-line arguments for the program.

A shell is used to pass the arguments to the debugged program. You can therefore use wildcards, shell variables, and file redirections inside the arguments. To debug programs that read from standard input, it is recommended to redirect their input from a file (using set arguments < input-file), otherwise input to the program and input to the debugger are not properly separated, and inputs are not properly replayed when running the program backwards.

16.8.2  How programs are loaded

The loadingmode variable controls how the program is executed.

set loadingmode direct
The program is run directly by the debugger. This is the default mode.
set loadingmode runtime
The debugger execute the OCaml runtime ocamlrun on the program. Rarely useful; moreover it prevents the debugging of programs compiled in “custom runtime” mode.
set loadingmode manual
The user starts manually the program, when asked by the debugger. Allows remote debugging (see section 16.8.6).

16.8.3  Search path for files

The debugger searches for source files and compiled interface files in a list of directories, the search path. The search path initially contains the current directory . and the standard library directory. The directory command adds directories to the path.

Whenever the search path is modified, the debugger will clear any information it may have cached about the files.

directory directorynames
Add the given directories to the search path. These directories are added at the front, and will therefore be searched first.
directory directorynames for modulename
Same as directory directorynames, but the given directories will be searched only when looking for the source file of a module that has been packed into modulename.
directory
Reset the search path. This requires confirmation.

16.8.4  Working directory

Each time a program is started in the debugger, it inherits its working directory from the current working directory of the debugger. This working directory is initially whatever it inherited from its parent process (typically the shell), but you can specify a new working directory in the debugger with the cd command or the -cd command-line option.

cd directory
Set the working directory for ocamldebug to directory.
pwd
Print the working directory for ocamldebug.

16.8.5  Turning reverse execution on and off

In some cases, you may want to turn reverse execution off. This speeds up the program execution, and is also sometimes useful for interactive programs.

Normally, the debugger takes checkpoints of the program state from time to time. That is, it makes a copy of the current state of the program (using the Unix system call fork). If the variable checkpoints is set to off, the debugger will not take any checkpoints.

set checkpoints on/off
Select whether the debugger makes checkpoints or not.

16.8.6  Communication between the debugger and the program

The debugger communicate with the program being debugged through a Unix socket. You may need to change the socket name, for example if you need to run the debugger on a machine and your program on another.

set socket socket
Use socket for communication with the program. socket can be either a file name, or an Internet port specification host:port, where host is a host name or an Internet address in dot notation, and port is a port number on the host.

On the debugged program side, the socket name is passed through the CAML_DEBUG_SOCKET environment variable.

16.8.7  Fine-tuning the debugger

Several variables enables to fine-tune the debugger. Reasonable defaults are provided, and you should normally not have to change them.

set processcount count
Set the maximum number of checkpoints to count. More checkpoints facilitate going far back in time, but use more memory and create more Unix processes.

As checkpointing is quite expensive, it must not be done too often. On the other hand, backward execution is faster when checkpoints are taken more often. In particular, backward single-stepping is more responsive when many checkpoints have been taken just before the current time. To fine-tune the checkpointing strategy, the debugger does not take checkpoints at the same frequency for long displacements (e.g. run) and small ones (e.g. step). The two variables bigstep and smallstep contain the number of events between two checkpoints in each case.

set bigstep count
Set the number of events between two checkpoints for long displacements.
set smallstep count
Set the number of events between two checkpoints for small displacements.

The following commands display information on checkpoints and events:

info checkpoints
Print a list of checkpoints.
info events [module]
Print the list of events in the given module (the current module, by default).

16.8.8  User-defined printers

Just as in the toplevel system (section 9.2), the user can register functions for printing values of certain types. For technical reasons, the debugger cannot call printing functions that reside in the program being debugged. The code for the printing functions must therefore be loaded explicitly in the debugger.

load_printer "file-name"
Load in the debugger the indicated .cmo or .cma object file. The file is loaded in an environment consisting only of the OCaml standard library plus the definitions provided by object files previously loaded using load_printer. If this file depends on other object files not yet loaded, the debugger automatically loads them if it is able to find them in the search path. The loaded file does not have direct access to the modules of the program being debugged.
install_printer printer-name
Register the function named printer-name (a value path) as a printer for objects whose types match the argument type of the function. That is, the debugger will call printer-name when it has such an object to print. The printing function printer-name must use the Format library module to produce its output, otherwise its output will not be correctly located in the values printed by the toplevel loop.

The value path printer-name must refer to one of the functions defined by the object files loaded using load_printer. It cannot reference the functions of the program being debugged.

remove_printer printer-name
Remove the named function from the table of value printers.

16.9  Miscellaneous commands

list [module] [beginning] [end]
List the source of module module, from line number beginning to line number end. By default, 20 lines of the current module are displayed, starting 10 lines before the current position.
source filename
Read debugger commands from the script filename.

16.10  Running the debugger under Emacs

The most user-friendly way to use the debugger is to run it under Emacs. See the file emacs/README in the distribution for information on how to load the Emacs Lisp files for OCaml support.

The OCaml debugger is started under Emacs by the command M-x camldebug, with argument the name of the executable file progname to debug. Communication with the debugger takes place in an Emacs buffer named *camldebug-progname*. The editing and history facilities of Shell mode are available for interacting with the debugger.

In addition, Emacs displays the source files containing the current event (the current position in the program execution) and highlights the location of the event. This display is updated synchronously with the debugger action.

The following bindings for the most common debugger commands are available in the *camldebug-progname* buffer:

C-c C-s
(command step): execute the program one step forward.
C-c C-k
(command backstep): execute the program one step backward.
C-c C-n
(command next): execute the program one step forward, skipping over function calls.
Middle mouse button
(command display): display named value. $n under mouse cursor (support incremental browsing of large data structures).
C-c C-p
(command print): print value of identifier at point.
C-c C-d
(command display): display value of identifier at point.
C-c C-r
(command run): execute the program forward to next breakpoint.
C-c C-v
(command reverse): execute the program backward to latest breakpoint.
C-c C-l
(command last): go back one step in the command history.
C-c C-t
(command backtrace): display backtrace of function calls.
C-c C-f
(command finish): run forward till the current function returns.
C-c <
(command up): select the stack frame below the current frame.
C-c >
(command down): select the stack frame above the current frame.

In all buffers in OCaml editing mode, the following debugger commands are also available:

C-x C-a C-b
(command break): set a breakpoint at event closest to point
C-x C-a C-p
(command print): print value of identifier at point
C-x C-a C-d
(command display): display value of identifier at point
Previous Up Next ocaml-doc-4.01/ocaml.html/manual044.html0000644000175000017500000003461512214324200016170 0ustar i33173i33173 Index of keywords Previous Up

Index of keywords

Previous Up ocaml-doc-4.01/ocaml.html/typedecl.html0000644000175000017500000004775212214324200016302 0ustar i33173i33173 Type and exception definitions Previous Up Next

6.8  Type and exception definitions

6.8.1  Type definitions

Type definitions bind type constructors to data types: either variant types, record types, type abbreviations, or abstract data types. They also bind the value constructors and record fields associated with the definition.

type-definition::= type typedef  { and typedef }  
 
typedef::= [type-params]  typeconstr-name  type-information  
 
type-information::= [type-equation]  [type-representation]  { type-constraint }  
 
type-equation::= = typexpr  
 
type-representation::= = [|constr-decl  { | constr-decl }  
  = { field-decl  { ; field-decl }  [;}  
 
type-params::= type-param  
  ( type-param  { , type-param } )  
 
type-param::= [variance'  ident  
 
variance::= +  
  -  
 
constr-decl::= (constr-name ∣  ()) [ of typexpr  { * typexpr } ]  
 
field-decl::= [mutablefield-name :  poly-typexpr  
 
type-constraint::= constraint ' ident =  typexpr

Type definitions are introduced by the type keyword, and consist in one or several simple definitions, possibly mutually recursive, separated by the and keyword. Each simple definition defines one type constructor.

A simple definition consists in a lowercase identifier, possibly preceded by one or several type parameters, and followed by an optional type equation, then an optional type representation, and then a constraint clause. The identifier is the name of the type constructor being defined.

The optional type parameters are either one type variable ' ident, for type constructors with one parameter, or a list of type variables ('ident1,…,' identn), for type constructors with several parameters. Each type parameter may be prefixed by a variance constraint + (resp. -) indicating that the parameter is covariant (resp. contravariant). These type parameters can appear in the type expressions of the right-hand side of the definition, optionally restricted by a variance constraint ; i.e. a covariant parameter may only appear on the right side of a functional arrow (more precisely, follow the left branch of an even number of arrows), and a contravariant parameter only the left side (left branch of an odd number of arrows). If the type has a representation or an equation, and the parameter is free (i.e. not bound via a type constraint to a constructed type), its variance constraint is checked but subtyping etc. will use the inferred variance of the parameter, which may be less restrictive; otherwise (i.e. for abstract types or non-free parameters), the variance must be given explicitly, and the parameter is invariant if no variance is given.

The optional type equation = typexpr makes the defined type equivalent to the type expression typexpr: one can be substituted for the other during typing. If no type equation is given, a new type is generated: the defined type is incompatible with any other type.

The optional type representation describes the data structure representing the defined type, by giving the list of associated constructors (if it is a variant type) or associated fields (if it is a record type). If no type representation is given, nothing is assumed on the structure of the type besides what is stated in the optional type equation.

The type representation = [|] constr-decl  { | constr-decl } describes a variant type. The constructor declarations constr-decl1, …,  constr-decln describe the constructors associated to this variant type. The constructor declaration constr-name of  typexpr1 **  typexprn declares the name constr-name as a non-constant constructor, whose arguments have types typexpr1typexprn. The constructor declaration constr-name declares the name constr-name as a constant constructor. Constructor names must be capitalized.

The type representation = { field-decl  { ; field-decl }  [;] } describes a record type. The field declarations field-decl1, …,  field-decln describe the fields associated to this record type. The field declaration field-name :  poly-typexpr declares field-name as a field whose argument has type poly-typexpr. The field declaration mutable field-name :  poly-typexpr behaves similarly; in addition, it allows physical modification of this field. Immutable fields are covariant, mutable fields are non-variant. Both mutable and immutable fields may have a explicitly polymorphic types. The polymorphism of the contents is statically checked whenever a record value is created or modified. Extracted values may have their types instantiated.

The two components of a type definition, the optional equation and the optional representation, can be combined independently, giving rise to four typical situations:

Abstract type: no equation, no representation.
 
When appearing in a module signature, this definition specifies nothing on the type constructor, besides its number of parameters: its representation is hidden and it is assumed incompatible with any other type.
Type abbreviation: an equation, no representation.
 
This defines the type constructor as an abbreviation for the type expression on the right of the = sign.
New variant type or record type: no equation, a representation.
 
This generates a new type constructor and defines associated constructors or fields, through which values of that type can be directly built or inspected.
Re-exported variant type or record type: an equation, a representation.
 
In this case, the type constructor is defined as an abbreviation for the type expression given in the equation, but in addition the constructors or fields given in the representation remain attached to the defined type constructor. The type expression in the equation part must agree with the representation: it must be of the same kind (record or variant) and have exactly the same constructors or fields, in the same order, with the same arguments.

The type variables appearing as type parameters can optionally be prefixed by + or - to indicate that the type constructor is covariant or contravariant with respect to this parameter. This variance information is used to decide subtyping relations when checking the validity of :> coercions (see section 6.7.6).

For instance, type +'a t declares t as an abstract type that is covariant in its parameter; this means that if the type τ is a subtype of the type σ, then τ t is a subtype of σ t. Similarly, type -'a t declares that the abstract type t is contravariant in its parameter: if τ is a subtype of σ, then σ t is a subtype of τ t. If no + or - variance annotation is given, the type constructor is assumed non-variant in the corresponding parameter. For instance, the abstract type declaration type 'a t means that τ t is neither a subtype nor a supertype of σ t if τ is subtype of σ.

The variance indicated by the + and - annotations on parameters are required only for abstract types. For abbreviations, variant types or record types, the variance properties of the type constructor are inferred from its definition, and the variance annotations are only checked for conformance with the definition.

The construct constraint ' ident =  typexpr allows the specification of type parameters. Any actual type argument corresponding to the type parameter ident has to be an instance of typexpr (more precisely, ident and typexpr are unified). Type variables of typexpr can appear in the type equation and the type declaration.

6.8.2  Exception definitions

exception-definition::= exception constr-name  [ of typexpr  { * typexpr } ]  
  exception constr-name =  constr

Exception definitions add new constructors to the built-in variant type exn of exception values. The constructors are declared as for a definition of a variant type.

The form exception constr-name  [of typexpr  {* typexpr}] generates a new exception, distinct from all other exceptions in the system. The form exception constr-name =  constr gives an alternate name to an existing exception.

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6.4  Type expressions

typexpr::= ' ident  
  _  
  ( typexpr )  
  [[?]label-name:]  typexpr ->  typexpr  
  typexpr  { * typexpr }+  
  typeconstr  
  typexpr  typeconstr  
  ( typexpr  { , typexpr } )  typeconstr  
  typexpr as '  ident  
  polymorphic-variant-type  
  < [..>  
  < method-type  { ; method-type }  [; ∣  ; ..>  
  # class-path  
  typexpr #  class-path  
  ( typexpr  { , typexpr } ) #  class-path  
 
poly-typexpr::= typexpr  
  { ' ident }+ .  typexpr  
 
method-type::= method-name :  poly-typexpr

The table below shows the relative precedences and associativity of operators and non-closed type constructions. The constructions with higher precedences come first.

OperatorAssociativity
Type constructor application
#
*
->right
as

Type expressions denote types in definitions of data types as well as in type constraints over patterns and expressions.

Type variables

The type expression ' ident stands for the type variable named ident. The type expression _ stands for an anonymous type variable. In data type definitions, type variables are names for the data type parameters. In type constraints, they represent unspecified types that can be instantiated by any type to satisfy the type constraint. In general the scope of a named type variable is the whole top-level phrase where it appears, and it can only be generalized when leaving this scope. Anonymous variables have no such restriction. In the following cases, the scope of named type variables is restricted to the type expression where they appear: 1) for universal (explicitly polymorphic) type variables; 2) for type variables that only appear in public method specifications (as those variables will be made universal, as described in section 6.9.1); 3) for variables used as aliases, when the type they are aliased to would be invalid in the scope of the enclosing definition (i.e. when it contains free universal type variables, or locally defined types.)

Parenthesized types

The type expression ( typexpr ) denotes the same type as typexpr.

Function types

The type expression typexpr1 ->  typexpr2 denotes the type of functions mapping arguments of type typexpr1 to results of type typexpr2.

label-name :  typexpr1 ->  typexpr2 denotes the same function type, but the argument is labeled label.

? label-name :  typexpr1 ->  typexpr2 denotes the type of functions mapping an optional labeled argument of type typexpr1 to results of type typexpr2. That is, the physical type of the function will be typexpr1 option ->  typexpr2.

Tuple types

The type expression typexpr1 **  typexprn denotes the type of tuples whose elements belong to types typexpr1, …  typexprn respectively.

Constructed types

Type constructors with no parameter, as in typeconstr, are type expressions.

The type expression typexpr  typeconstr, where typeconstr is a type constructor with one parameter, denotes the application of the unary type constructor typeconstr to the type typexpr.

The type expression (typexpr1,…, typexprn)  typeconstr, where typeconstr is a type constructor with n parameters, denotes the application of the n-ary type constructor typeconstr to the types typexpr1 through typexprn.

Aliased and recursive types

The type expression typexpr as '  ident denotes the same type as typexpr, and also binds the type variable ident to type typexpr both in typexpr and in other types. In general the scope of an alias is the same as for a named type variable, and covers the whole enclosing definition. If the type variable ident actually occurs in typexpr, a recursive type is created. Recursive types for which there exists a recursive path that does not contain an object or polymorphic variant type constructor are rejected, except when the -rectypes mode is selected.

If ' ident denotes an explicit polymorphic variable, and typexpr denotes either an object or polymorphic variant type, the row variable of typexpr is captured by ' ident, and quantified upon.

Polymorphic variant types

polymorphic-variant-type::= [ tag-spec-first  { | tag-spec } ]  
  [> [ tag-spec ]  { | tag-spec } ]  
  [< [|tag-spec-full  { | tag-spec-full }  [ > { `tag-name }+ ] ]  
 
tag-spec-first::= `tag-name  [ of typexpr ]  
  [ typexpr ] |  tag-spec  
 
tag-spec::= `tag-name  [ of typexpr ]  
  typexpr  
 
tag-spec-full::= `tag-name  [ of [&typexpr  { & typexpr } ]  
  typexpr

Polymorphic variant types describe the values a polymorphic variant may take.

The first case is an exact variant type: all possible tags are known, with their associated types, and they can all be present. Its structure is fully known.

The second case is an open variant type, describing a polymorphic variant value: it gives the list of all tags the value could take, with their associated types. This type is still compatible with a variant type containing more tags. A special case is the unknown type, which does not define any tag, and is compatible with any variant type.

The third case is a closed variant type. It gives information about all the possible tags and their associated types, and which tags are known to potentially appear in values. The exact variant type (first case) is just an abbreviation for a closed variant type where all possible tags are also potentially present.

In all three cases, tags may be either specified directly in the `tag-name  [of typexpr] form, or indirectly through a type expression, which must expand to an exact variant type, whose tag specifications are inserted in its place.

Full specifications of variant tags are only used for non-exact closed types. They can be understood as a conjunctive type for the argument: it is intended to have all the types enumerated in the specification.

Such conjunctive constraints may be unsatisfiable. In such a case the corresponding tag may not be used in a value of this type. This does not mean that the whole type is not valid: one can still use other available tags. Conjunctive constraints are mainly intended as output from the type checker. When they are used in source programs, unsolvable constraints may cause early failures.

Object types

An object type < [method-type  { ; method-type }] > is a record of method types.

Each method may have an explicit polymorphic type: { ' ident }+ .  typexpr. Explicit polymorphic variables have a local scope, and an explicit polymorphic type can only be unified to an equivalent one, where only the order and names of polymorphic variables may change.

The type < {method-type ;} .. > is the type of an object whose method names and types are described by method-type1, …,  method-typen, and possibly some other methods represented by the ellipsis. This ellipsis actually is a special kind of type variable (called row variable in the literature) that stands for any number of extra method types.

#-types

The type # class-path is a special kind of abbreviation. This abbreviation unifies with the type of any object belonging to a subclass of class class-path. It is handled in a special way as it usually hides a type variable (an ellipsis, representing the methods that may be added in a subclass). In particular, it vanishes when the ellipsis gets instantiated. Each type expression # class-path defines a new type variable, so type # class-path -> #  class-path is usually not the same as type (# class-path as '  ident) -> '  ident.

Use of #-types to abbreviate polymorphic variant types is deprecated. If t is an exact variant type then #t translates to [< t], and #t[> `tag1` tagk] translates to [< t > `tag1` tagk]

Variant and record types

There are no type expressions describing (defined) variant types nor record types, since those are always named, i.e. defined before use and referred to by name. Type definitions are described in section 6.8.1.

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Chapter 26  The graphics library

The graphics library provides a set of portable drawing primitives. Drawing takes place in a separate window that is created when Graphics.open_graph is called.

Unix:   This library is implemented under the X11 windows system. Programs that use the graphics library must be linked as follows: 
        ocamlc other options graphics.cma other files
For interactive use of the graphics library, do: 
        ocamlmktop -o mytop graphics.cma
        ./mytop
or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "graphics.cma";;.

Here are the graphics mode specifications supported by Graphics.open_graph on the X11 implementation of this library: the argument to Graphics.open_graph has the format "display-name geometry", where display-name is the name of the X-windows display to connect to, and geometry is a standard X-windows geometry specification. The two components are separated by a space. Either can be omitted, or both. Examples:

Graphics.open_graph "foo:0"
connects to the display foo:0 and creates a window with the default geometry
Graphics.open_graph "foo:0 300x100+50-0"
connects to the display foo:0 and creates a window 300 pixels wide by 100 pixels tall, at location (50,0)
Graphics.open_graph " 300x100+50-0"
connects to the default display and creates a window 300 pixels wide by 100 pixels tall, at location (50,0)
Graphics.open_graph ""
connects to the default display and creates a window with the default geometry.
Windows:   This library is available both for standalone compiled programs and under the toplevel application ocamlwin.exe. For the latter, this library must be loaded in-core by typing 
        #load "graphics.cma";;

The screen coordinates are interpreted as shown in the figure below. Notice that the coordinate system used is the same as in mathematics: y increases from the bottom of the screen to the top of the screen, and angles are measured counterclockwise (in degrees). Drawing is clipped to the screen.

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  val copy : (< .. > as 'a) -> 'a
  external id : < .. > -> int = "%field1"
  val new_method : string -> CamlinternalOO.tag
  val public_method_label : string -> CamlinternalOO.tag
endocaml-doc-4.01/ocaml.html/libref/Genlex.html0000644000175000017500000003015412214324150017146 0ustar i33173i33173 Genlex
Previous  Up  Next

Module Genlex

module Genlex: sig .. end
A generic lexical analyzer.

This module implements a simple 'standard' lexical analyzer, presented as a function from character streams to token streams. It implements roughly the lexical conventions of OCaml, but is parameterized by the set of keywords of your language.

Example: a lexer suitable for a desk calculator is obtained by 

     let lexer = make_lexer ["+";"-";"*";"/";"let";"=""("")"]  

The associated parser would be a function from token stream to, for instance, int, and would have rules such as: 

           let rec parse_expr = parser

             | [< n1 = parse_atom; n2 = parse_remainder n1 >] -> n2

           and parse_atom = parser

             | [< 'Int n >] -> n

             | [< 'Kwd "("; n = parse_expr; 'Kwd ")" >] -> n

           and parse_remainder n1 = parser

             | [< 'Kwd "+"; n2 = parse_expr >] -> n1+n2

             | [< >] -> n1

   

One should notice that the use of the parser keyword and associated notation for streams are only available through camlp4 extensions. This means that one has to preprocess its sources e. g. by using the "-pp" command-line switch of the compilers.

type token =
| Kwd of string
| Ident of string
| Int of int
| Float of float
| String of string
| Char of char
The type of tokens. The lexical classes are: Int and Float for integer and floating-point numbers; String for string literals, enclosed in double quotes; Char for character literals, enclosed in single quotes; Ident for identifiers (either sequences of letters, digits, underscores and quotes, or sequences of 'operator characters' such as +, *, etc); and Kwd for keywords (either identifiers or single 'special characters' such as (, }, etc).
val make_lexer : string list -> char Stream.t -> token Stream.t
Construct the lexer function. The first argument is the list of keywords. An identifier s is returned as Kwd s if s belongs to this list, and as Ident s otherwise. A special character s is returned as Kwd s if s belongs to this list, and cause a lexical error (exception Stream.Error with the offending lexeme as its parameter) otherwise. Blanks and newlines are skipped. Comments delimited by (* and *) are skipped as well, and can be nested. A Stream.Failure exception is raised if end of stream is unexpectedly reached.
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.html0000644000175000017500000011247212214324155022407 0ustar i33173i33173 MoreLabels.Hashtbl sig
  type ('a, 'b) t = ('a, 'b) Hashtbl.t
  val create : ?random:bool -> int -> ('a, 'b) MoreLabels.Hashtbl.t
  val clear : ('a, 'b) MoreLabels.Hashtbl.t -> unit
  val reset : ('a, 'b) MoreLabels.Hashtbl.t -> unit
  val copy : ('a, 'b) MoreLabels.Hashtbl.t -> ('a, 'b) MoreLabels.Hashtbl.t
  val add : ('a, 'b) MoreLabels.Hashtbl.t -> key:'-> data:'-> unit
  val find : ('a, 'b) MoreLabels.Hashtbl.t -> '-> 'b
  val find_all : ('a, 'b) MoreLabels.Hashtbl.t -> '-> 'b list
  val mem : ('a, 'b) MoreLabels.Hashtbl.t -> '-> bool
  val remove : ('a, 'b) MoreLabels.Hashtbl.t -> '-> unit
  val replace : ('a, 'b) MoreLabels.Hashtbl.t -> key:'-> data:'-> unit
  val iter :
    f:(key:'-> data:'-> unit) -> ('a, 'b) MoreLabels.Hashtbl.t -> unit
  val fold :
    f:(key:'-> data:'-> '-> 'c) ->
    ('a, 'b) MoreLabels.Hashtbl.t -> init:'-> 'c
  val length : ('a, 'b) MoreLabels.Hashtbl.t -> int
  val randomize : unit -> unit
  type statistics = Hashtbl.statistics
  val stats : ('a, 'b) MoreLabels.Hashtbl.t -> MoreLabels.Hashtbl.statistics
  module type HashedType = Hashtbl.HashedType
  module type SeededHashedType = Hashtbl.SeededHashedType
  module type S =
    sig
      type key
      and 'a t
      val create : int -> 'MoreLabels.Hashtbl.S.t
      val clear : 'MoreLabels.Hashtbl.S.t -> unit
      val reset : 'MoreLabels.Hashtbl.S.t -> unit
      val copy : 'MoreLabels.Hashtbl.S.t -> 'MoreLabels.Hashtbl.S.t
      val add :
        'MoreLabels.Hashtbl.S.t ->
        key:MoreLabels.Hashtbl.S.key -> data:'-> unit
      val remove :
        'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> unit
      val find : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a
      val find_all :
        'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a list
      val replace :
        'MoreLabels.Hashtbl.S.t ->
        key:MoreLabels.Hashtbl.S.key -> data:'-> unit
      val mem : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> bool
      val iter :
        f:(key:MoreLabels.Hashtbl.S.key -> data:'-> unit) ->
        'MoreLabels.Hashtbl.S.t -> unit
      val fold :
        f:(key:MoreLabels.Hashtbl.S.key -> data:'-> '-> 'b) ->
        'MoreLabels.Hashtbl.S.t -> init:'-> 'b
      val length : 'MoreLabels.Hashtbl.S.t -> int
      val stats : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.statistics
    end
  module type SeededS =
    sig
      type key
      and 'a t
      val create : ?random:bool -> int -> 'MoreLabels.Hashtbl.SeededS.t
      val clear : 'MoreLabels.Hashtbl.SeededS.t -> unit
      val reset : 'MoreLabels.Hashtbl.SeededS.t -> unit
      val copy :
        'MoreLabels.Hashtbl.SeededS.t -> 'MoreLabels.Hashtbl.SeededS.t
      val add :
        'MoreLabels.Hashtbl.SeededS.t ->
        key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
      val remove :
        'MoreLabels.Hashtbl.SeededS.t ->
        MoreLabels.Hashtbl.SeededS.key -> unit
      val find :
        'MoreLabels.Hashtbl.SeededS.t ->
        MoreLabels.Hashtbl.SeededS.key -> 'a
      val find_all :
        'MoreLabels.Hashtbl.SeededS.t ->
        MoreLabels.Hashtbl.SeededS.key -> 'a list
      val replace :
        'MoreLabels.Hashtbl.SeededS.t ->
        key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
      val mem :
        'MoreLabels.Hashtbl.SeededS.t ->
        MoreLabels.Hashtbl.SeededS.key -> bool
      val iter :
        f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit) ->
        'MoreLabels.Hashtbl.SeededS.t -> unit
      val fold :
        f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> '-> 'b) ->
        'MoreLabels.Hashtbl.SeededS.t -> init:'-> 'b
      val length : 'MoreLabels.Hashtbl.SeededS.t -> int
      val stats :
        'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.statistics
    end
  module Make :
    functor (H : HashedType->
      sig
        type key = H.t
        and 'a t
        val create : int -> 'a t
        val clear : 'a t -> unit
        val reset : 'a t -> unit
        val copy : 'a t -> 'a t
        val add : 'a t -> key:key -> data:'-> unit
        val remove : 'a t -> key -> unit
        val find : 'a t -> key -> 'a
        val find_all : 'a t -> key -> 'a list
        val replace : 'a t -> key:key -> data:'-> unit
        val mem : 'a t -> key -> bool
        val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
        val fold :
          f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
        val length : 'a t -> int
        val stats : 'a t -> statistics
      end
  module MakeSeeded :
    functor (H : SeededHashedType->
      sig
        type key = H.t
        and 'a t
        val create : ?random:bool -> int -> 'a t
        val clear : 'a t -> unit
        val reset : 'a t -> unit
        val copy : 'a t -> 'a t
        val add : 'a t -> key:key -> data:'-> unit
        val remove : 'a t -> key -> unit
        val find : 'a t -> key -> 'a
        val find_all : 'a t -> key -> 'a list
        val replace : 'a t -> key:key -> data:'-> unit
        val mem : 'a t -> key -> bool
        val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
        val fold :
          f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
        val length : 'a t -> int
        val stats : 'a t -> statistics
      end
  val hash : '-> int
  val seeded_hash : int -> '-> int
  val hash_param : int -> int -> '-> int
  val seeded_hash_param : int -> int -> int -> '-> int
endocaml-doc-4.01/ocaml.html/libref/type_Bigarray.Genarray.html0000644000175000017500000003317112214324145022302 0ustar i33173i33173 Bigarray.Genarray sig
  type ('a, 'b, 'c) t
  external create :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> int array -> ('a, 'b, 'c) Bigarray.Genarray.t
    = "caml_ba_create"
  external num_dims : ('a, 'b, 'c) Bigarray.Genarray.t -> int
    = "caml_ba_num_dims"
  val dims : ('a, 'b, 'c) Bigarray.Genarray.t -> int array
  external nth_dim : ('a, 'b, 'c) Bigarray.Genarray.t -> int -> int
    = "caml_ba_dim"
  external kind : ('a, 'b, 'c) Bigarray.Genarray.t -> ('a, 'b) Bigarray.kind
    = "caml_ba_kind"
  external layout : ('a, 'b, 'c) Bigarray.Genarray.t -> 'Bigarray.layout
    = "caml_ba_layout"
  external get : ('a, 'b, 'c) Bigarray.Genarray.t -> int array -> 'a
    = "caml_ba_get_generic"
  external set : ('a, 'b, 'c) Bigarray.Genarray.t -> int array -> '-> unit
    = "caml_ba_set_generic"
  external sub_left :
    ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t ->
    int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t
    = "caml_ba_sub"
  external sub_right :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t ->
    int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t
    = "caml_ba_sub"
  external slice_left :
    ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t ->
    int array -> ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t
    = "caml_ba_slice"
  external slice_right :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t ->
    int array -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t
    = "caml_ba_slice"
  external blit :
    ('a, 'b, 'c) Bigarray.Genarray.t ->
    ('a, 'b, 'c) Bigarray.Genarray.t -> unit = "caml_ba_blit"
  external fill : ('a, 'b, 'c) Bigarray.Genarray.t -> '-> unit
    = "caml_ba_fill"
  val map_file :
    Unix.file_descr ->
    ?pos:int64 ->
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout ->
    bool -> int array -> ('a, 'b, 'c) Bigarray.Genarray.t
endocaml-doc-4.01/ocaml.html/libref/Pervasives.LargeFile.html0000644000175000017500000001400012214324161021676 0ustar i33173i33173 Pervasives.LargeFile
 Up  

Module Pervasives.LargeFile

module LargeFile: sig .. end
Operations on large files. This sub-module provides 64-bit variants of the channel functions that manipulate file positions and file sizes. By representing positions and sizes by 64-bit integers (type int64) instead of regular integers (type int), these alternate functions allow operating on files whose sizes are greater than max_int.
val seek_out : out_channel -> int64 -> unit
val pos_out : out_channel -> int64
val out_channel_length : out_channel -> int64
val seek_in : in_channel -> int64 -> unit
val pos_in : in_channel -> int64
val in_channel_length : in_channel -> int64
ocaml-doc-4.01/ocaml.html/libref/Obj.html0000644000175000017500000002277412214324161016451 0ustar i33173i33173 Obj
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Module Obj

module Obj: sig .. end
Operations on internal representations of values.

Not for the casual user.

type t 
val repr : 'a -> t
val obj : t -> 'a
val magic : 'a -> 'b
val is_block : t -> bool
val is_int : t -> bool
val tag : t -> int
val set_tag : t -> int -> unit
val size : t -> int
val field : t -> int -> t
val set_field : t -> int -> t -> unit
val double_field : t -> int -> float
val set_double_field : t -> int -> float -> unit
val new_block : int -> int -> t
val dup : t -> t
val truncate : t -> int -> unit
val add_offset : t -> Int32.t -> t
val lazy_tag : int
val closure_tag : int
val object_tag : int
val infix_tag : int
val forward_tag : int
val no_scan_tag : int
val abstract_tag : int
val string_tag : int
val double_tag : int
val double_array_tag : int
val custom_tag : int
val final_tag : int
val int_tag : int
val out_of_heap_tag : int
val unaligned_tag : int

The following two functions are deprecated. Use module Marshal instead.
val marshal : t -> string
val unmarshal : string -> int -> t * int
ocaml-doc-4.01/ocaml.html/libref/Sort.html0000644000175000017500000001451612214324164016664 0ustar i33173i33173 Sort
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Module Sort

module Sort: sig .. end
Deprecated.This module is obsolete and exists only for backward compatibility. The sorting functions in Array and List should be used instead. The new functions are faster and use less memory.
Sorting and merging lists.
val list : ('a -> 'a -> bool) -> 'a list -> 'a list
Sort a list in increasing order according to an ordering predicate. The predicate should return true if its first argument is less than or equal to its second argument.
val array : ('a -> 'a -> bool) -> 'a array -> unit
Sort an array in increasing order according to an ordering predicate. The predicate should return true if its first argument is less than or equal to its second argument. The array is sorted in place.
val merge : ('a -> 'a -> bool) -> 'a list -> 'a list -> 'a list
Merge two lists according to the given predicate. Assuming the two argument lists are sorted according to the predicate, merge returns a sorted list containing the elements from the two lists. The behavior is undefined if the two argument lists were not sorted.
ocaml-doc-4.01/ocaml.html/libref/String.html0000644000175000017500000005543512214324166017212 0ustar i33173i33173 String
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Module String

module String: sig .. end
String operations.

Given a string s of length l, we call character number in s the index of a character in s. Indexes start at 0, and we will call a character number valid in s if it falls within the range [0...l-1]. A position is the point between two characters or at the beginning or end of the string. We call a position valid in s if it falls within the range [0...l]. Note that character number n is between positions n and n+1.

Two parameters start and len are said to designate a valid substring of s if len >= 0 and start and start+len are valid positions in s.

OCaml strings can be modified in place, for instance via the String.set and String.blit functions described below. This possibility should be used rarely and with much care, however, since both the OCaml compiler and most OCaml libraries share strings as if they were immutable, rather than copying them. In particular, string literals are shared: a single copy of the string is created at program loading time and returned by all evaluations of the string literal. Consider for example: 

      # let f () = "foo";;

      val f : unit -> string = <fun>

      # (f ()).[0] <- 'b';;

      - : unit = ()

      # f ();;

      - : string = "boo"

  

Likewise, many functions from the standard library can return string literals or one of their string arguments. Therefore, the returned strings must not be modified directly. If mutation is absolutely necessary, it should be performed on a fresh copy of the string, as produced by String.copy.

val length : string -> int
Return the length (number of characters) of the given string.
val get : string -> int -> char
String.get s n returns character number n in string s. You can also write s.[n] instead of String.get s n.

Raise Invalid_argument if n not a valid character number in s.

val set : string -> int -> char -> unit
String.set s n c modifies string s in place, replacing the character number n by c. You can also write s.[n] <- c instead of String.set s n c.

Raise Invalid_argument if n is not a valid character number in s.

val create : int -> string
String.create n returns a fresh string of length n. The string initially contains arbitrary characters.

Raise Invalid_argument if n < 0 or n > Sys.max_string_length.

val make : int -> char -> string
String.make n c returns a fresh string of length n, filled with the character c.

Raise Invalid_argument if n < 0 or n > Sys.max_string_length.

val copy : string -> string
Return a copy of the given string.
val sub : string -> int -> int -> string
String.sub s start len returns a fresh string of length len, containing the substring of s that starts at position start and has length len.

Raise Invalid_argument if start and len do not designate a valid substring of s.

val fill : string -> int -> int -> char -> unit
String.fill s start len c modifies string s in place, replacing len characters by c, starting at start.

Raise Invalid_argument if start and len do not designate a valid substring of s.

val blit : string -> int -> string -> int -> int -> unit
String.blit src srcoff dst dstoff len copies len characters from string src, starting at character number srcoff, to string dst, starting at character number dstoff. It works correctly even if src and dst are the same string, and the source and destination intervals overlap.

Raise Invalid_argument if srcoff and len do not designate a valid substring of src, or if dstoff and len do not designate a valid substring of dst.

val concat : string -> string list -> string
String.concat sep sl concatenates the list of strings sl, inserting the separator string sep between each.
val iter : (char -> unit) -> string -> unit
String.iter f s applies function f in turn to all the characters of s. It is equivalent to f s.[0]; f s.[1]; ...; f s.[String.length s - 1]; ().
val iteri : (int -> char -> unit) -> string -> unit
Same as String.iter, but the function is applied to the index of the element as first argument (counting from 0), and the character itself as second argument.
Since 4.00.0
val map : (char -> char) -> string -> string
String.map f s applies function f in turn to all the characters of s and stores the results in a new string that is returned.
Since 4.00.0
val trim : string -> string
Return a copy of the argument, without leading and trailing whitespace. The characters regarded as whitespace are: ' ', '\012', '\n', '\r', and '\t'. If there is no leading nor trailing whitespace character in the argument, return the original string itself, not a copy.
Since 4.00.0
val escaped : string -> string
Return a copy of the argument, with special characters represented by escape sequences, following the lexical conventions of OCaml. If there is no special character in the argument, return the original string itself, not a copy. Its inverse function is Scanf.unescaped.
val index : string -> char -> int
String.index s c returns the character number of the first occurrence of character c in string s.

Raise Not_found if c does not occur in s.

val rindex : string -> char -> int
String.rindex s c returns the character number of the last occurrence of character c in string s.

Raise Not_found if c does not occur in s.

val index_from : string -> int -> char -> int
String.index_from s i c returns the character number of the first occurrence of character c in string s after position i. String.index s c is equivalent to String.index_from s 0 c.

Raise Invalid_argument if i is not a valid position in s. Raise Not_found if c does not occur in s after position i.

val rindex_from : string -> int -> char -> int
String.rindex_from s i c returns the character number of the last occurrence of character c in string s before position i+1. String.rindex s c is equivalent to String.rindex_from s (String.length s - 1) c.

Raise Invalid_argument if i+1 is not a valid position in s. Raise Not_found if c does not occur in s before position i+1.

val contains : string -> char -> bool
String.contains s c tests if character c appears in the string s.
val contains_from : string -> int -> char -> bool
String.contains_from s start c tests if character c appears in s after position start. String.contains s c is equivalent to String.contains_from s 0 c.

Raise Invalid_argument if start is not a valid position in s.

val rcontains_from : string -> int -> char -> bool
String.rcontains_from s stop c tests if character c appears in s before position stop+1.

Raise Invalid_argument if stop < 0 or stop+1 is not a valid position in s.

val uppercase : string -> string
Return a copy of the argument, with all lowercase letters translated to uppercase, including accented letters of the ISO Latin-1 (8859-1) character set.
val lowercase : string -> string
Return a copy of the argument, with all uppercase letters translated to lowercase, including accented letters of the ISO Latin-1 (8859-1) character set.
val capitalize : string -> string
Return a copy of the argument, with the first character set to uppercase.
val uncapitalize : string -> string
Return a copy of the argument, with the first character set to lowercase.
type t = string
An alias for the type of strings.
val compare : t -> t -> int
The comparison function for strings, with the same specification as compare. Along with the type t, this function compare allows the module String to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.html0000644000175000017500000026711612214324160021025 0ustar i33173i33173 MoreLabels sig
  module Hashtbl :
    sig
      type ('a, 'b) t = ('a, 'b) Hashtbl.t
      val create : ?random:bool -> int -> ('a, 'b) MoreLabels.Hashtbl.t
      val clear : ('a, 'b) MoreLabels.Hashtbl.t -> unit
      val reset : ('a, 'b) MoreLabels.Hashtbl.t -> unit
      val copy :
        ('a, 'b) MoreLabels.Hashtbl.t -> ('a, 'b) MoreLabels.Hashtbl.t
      val add : ('a, 'b) MoreLabels.Hashtbl.t -> key:'-> data:'-> unit
      val find : ('a, 'b) MoreLabels.Hashtbl.t -> '-> 'b
      val find_all : ('a, 'b) MoreLabels.Hashtbl.t -> '-> 'b list
      val mem : ('a, 'b) MoreLabels.Hashtbl.t -> '-> bool
      val remove : ('a, 'b) MoreLabels.Hashtbl.t -> '-> unit
      val replace :
        ('a, 'b) MoreLabels.Hashtbl.t -> key:'-> data:'-> unit
      val iter :
        f:(key:'-> data:'-> unit) ->
        ('a, 'b) MoreLabels.Hashtbl.t -> unit
      val fold :
        f:(key:'-> data:'-> '-> 'c) ->
        ('a, 'b) MoreLabels.Hashtbl.t -> init:'-> 'c
      val length : ('a, 'b) MoreLabels.Hashtbl.t -> int
      val randomize : unit -> unit
      type statistics = Hashtbl.statistics
      val stats :
        ('a, 'b) MoreLabels.Hashtbl.t -> MoreLabels.Hashtbl.statistics
      module type HashedType = Hashtbl.HashedType
      module type SeededHashedType = Hashtbl.SeededHashedType
      module type S =
        sig
          type key
          and 'a t
          val create : int -> 'MoreLabels.Hashtbl.S.t
          val clear : 'MoreLabels.Hashtbl.S.t -> unit
          val reset : 'MoreLabels.Hashtbl.S.t -> unit
          val copy : 'MoreLabels.Hashtbl.S.t -> 'MoreLabels.Hashtbl.S.t
          val add :
            'MoreLabels.Hashtbl.S.t ->
            key:MoreLabels.Hashtbl.S.key -> data:'-> unit
          val remove :
            'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> unit
          val find :
            'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a
          val find_all :
            'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a list
          val replace :
            'MoreLabels.Hashtbl.S.t ->
            key:MoreLabels.Hashtbl.S.key -> data:'-> unit
          val mem :
            'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> bool
          val iter :
            f:(key:MoreLabels.Hashtbl.S.key -> data:'-> unit) ->
            'MoreLabels.Hashtbl.S.t -> unit
          val fold :
            f:(key:MoreLabels.Hashtbl.S.key -> data:'-> '-> 'b) ->
            'MoreLabels.Hashtbl.S.t -> init:'-> 'b
          val length : 'MoreLabels.Hashtbl.S.t -> int
          val stats :
            'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.statistics
        end
      module type SeededS =
        sig
          type key
          and 'a t
          val create : ?random:bool -> int -> 'MoreLabels.Hashtbl.SeededS.t
          val clear : 'MoreLabels.Hashtbl.SeededS.t -> unit
          val reset : 'MoreLabels.Hashtbl.SeededS.t -> unit
          val copy :
            'MoreLabels.Hashtbl.SeededS.t ->
            'MoreLabels.Hashtbl.SeededS.t
          val add :
            'MoreLabels.Hashtbl.SeededS.t ->
            key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
          val remove :
            'MoreLabels.Hashtbl.SeededS.t ->
            MoreLabels.Hashtbl.SeededS.key -> unit
          val find :
            'MoreLabels.Hashtbl.SeededS.t ->
            MoreLabels.Hashtbl.SeededS.key -> 'a
          val find_all :
            'MoreLabels.Hashtbl.SeededS.t ->
            MoreLabels.Hashtbl.SeededS.key -> 'a list
          val replace :
            'MoreLabels.Hashtbl.SeededS.t ->
            key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
          val mem :
            'MoreLabels.Hashtbl.SeededS.t ->
            MoreLabels.Hashtbl.SeededS.key -> bool
          val iter :
            f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit) ->
            'MoreLabels.Hashtbl.SeededS.t -> unit
          val fold :
            f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> '-> 'b) ->
            'MoreLabels.Hashtbl.SeededS.t -> init:'-> 'b
          val length : 'MoreLabels.Hashtbl.SeededS.t -> int
          val stats :
            'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.statistics
        end
      module Make :
        functor (H : HashedType->
          sig
            type key = H.t
            and 'a t
            val create : int -> 'a t
            val clear : 'a t -> unit
            val reset : 'a t -> unit
            val copy : 'a t -> 'a t
            val add : 'a t -> key:key -> data:'-> unit
            val remove : 'a t -> key -> unit
            val find : 'a t -> key -> 'a
            val find_all : 'a t -> key -> 'a list
            val replace : 'a t -> key:key -> data:'-> unit
            val mem : 'a t -> key -> bool
            val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
            val fold :
              f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
            val length : 'a t -> int
            val stats : 'a t -> statistics
          end
      module MakeSeeded :
        functor (H : SeededHashedType->
          sig
            type key = H.t
            and 'a t
            val create : ?random:bool -> int -> 'a t
            val clear : 'a t -> unit
            val reset : 'a t -> unit
            val copy : 'a t -> 'a t
            val add : 'a t -> key:key -> data:'-> unit
            val remove : 'a t -> key -> unit
            val find : 'a t -> key -> 'a
            val find_all : 'a t -> key -> 'a list
            val replace : 'a t -> key:key -> data:'-> unit
            val mem : 'a t -> key -> bool
            val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
            val fold :
              f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
            val length : 'a t -> int
            val stats : 'a t -> statistics
          end
      val hash : '-> int
      val seeded_hash : int -> '-> int
      val hash_param : int -> int -> '-> int
      val seeded_hash_param : int -> int -> int -> '-> int
    end
  module Map :
    sig
      module type OrderedType = Map.OrderedType
      module type S =
        sig
          type key
          and +'a t
          val empty : 'MoreLabels.Map.S.t
          val is_empty : 'MoreLabels.Map.S.t -> bool
          val mem : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> bool
          val add :
            key:MoreLabels.Map.S.key ->
            data:'-> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
          val singleton : MoreLabels.Map.S.key -> '-> 'MoreLabels.Map.S.t
          val remove :
            MoreLabels.Map.S.key ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
          val merge :
            f:(MoreLabels.Map.S.key -> 'a option -> 'b option -> 'c option) ->
            'MoreLabels.Map.S.t ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
          val compare :
            cmp:('-> '-> int) ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> int
          val equal :
            cmp:('-> '-> bool) ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> bool
          val iter :
            f:(key:MoreLabels.Map.S.key -> data:'-> unit) ->
            'MoreLabels.Map.S.t -> unit
          val fold :
            f:(key:MoreLabels.Map.S.key -> data:'-> '-> 'b) ->
            'MoreLabels.Map.S.t -> init:'-> 'b
          val for_all :
            f:(MoreLabels.Map.S.key -> '-> bool) ->
            'MoreLabels.Map.S.t -> bool
          val exists :
            f:(MoreLabels.Map.S.key -> '-> bool) ->
            'MoreLabels.Map.S.t -> bool
          val filter :
            f:(MoreLabels.Map.S.key -> '-> bool) ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
          val partition :
            f:(MoreLabels.Map.S.key -> '-> bool) ->
            'MoreLabels.Map.S.t ->
            'MoreLabels.Map.S.t * 'MoreLabels.Map.S.t
          val cardinal : 'MoreLabels.Map.S.t -> int
          val bindings :
            'MoreLabels.Map.S.t -> (MoreLabels.Map.S.key * 'a) list
          val min_binding :
            'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
          val max_binding :
            'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
          val choose : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
          val split :
            MoreLabels.Map.S.key ->
            'MoreLabels.Map.S.t ->
            'MoreLabels.Map.S.t * 'a option * 'MoreLabels.Map.S.t
          val find : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> 'a
          val map :
            f:('-> 'b) -> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
          val mapi :
            f:(MoreLabels.Map.S.key -> '-> 'b) ->
            'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
        end
      module Make :
        functor (Ord : OrderedType->
          sig
            type key = Ord.t
            and +'a t
            val empty : 'a t
            val is_empty : 'a t -> bool
            val mem : key -> 'a t -> bool
            val add : key:key -> data:'-> 'a t -> 'a t
            val singleton : key -> '-> 'a t
            val remove : key -> 'a t -> 'a t
            val merge :
              f:(key -> 'a option -> 'b option -> 'c option) ->
              'a t -> 'b t -> 'c t
            val compare : cmp:('-> '-> int) -> 'a t -> 'a t -> int
            val equal : cmp:('-> '-> bool) -> 'a t -> 'a t -> bool
            val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
            val fold :
              f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
            val for_all : f:(key -> '-> bool) -> 'a t -> bool
            val exists : f:(key -> '-> bool) -> 'a t -> bool
            val filter : f:(key -> '-> bool) -> 'a t -> 'a t
            val partition : f:(key -> '-> bool) -> 'a t -> 'a t * 'a t
            val cardinal : 'a t -> int
            val bindings : 'a t -> (key * 'a) list
            val min_binding : 'a t -> key * 'a
            val max_binding : 'a t -> key * 'a
            val choose : 'a t -> key * 'a
            val split : key -> 'a t -> 'a t * 'a option * 'a t
            val find : key -> 'a t -> 'a
            val map : f:('-> 'b) -> 'a t -> 'b t
            val mapi : f:(key -> '-> 'b) -> 'a t -> 'b t
          end
    end
  module Set :
    sig
      module type OrderedType = Set.OrderedType
      module type S =
        sig
          type elt
          and t
          val empty : MoreLabels.Set.S.t
          val is_empty : MoreLabels.Set.S.t -> bool
          val mem : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> bool
          val add :
            MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val singleton : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t
          val remove :
            MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val union :
            MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val inter :
            MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val diff :
            MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val compare : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> int
          val equal : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
          val subset : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
          val iter :
            f:(MoreLabels.Set.S.elt -> unit) -> MoreLabels.Set.S.t -> unit
          val fold :
            f:(MoreLabels.Set.S.elt -> '-> 'a) ->
            MoreLabels.Set.S.t -> init:'-> 'a
          val for_all :
            f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
          val exists :
            f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
          val filter :
            f:(MoreLabels.Set.S.elt -> bool) ->
            MoreLabels.Set.S.t -> MoreLabels.Set.S.t
          val partition :
            f:(MoreLabels.Set.S.elt -> bool) ->
            MoreLabels.Set.S.t -> MoreLabels.Set.S.t * MoreLabels.Set.S.t
          val cardinal : MoreLabels.Set.S.t -> int
          val elements : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt list
          val min_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
          val max_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
          val choose : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
          val split :
            MoreLabels.Set.S.elt ->
            MoreLabels.Set.S.t ->
            MoreLabels.Set.S.t * bool * MoreLabels.Set.S.t
          val find :
            MoreLabels.Set.S.elt ->
            MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
        end
      module Make :
        functor (Ord : OrderedType->
          sig
            type elt = Ord.t
            and t
            val empty : t
            val is_empty : t -> bool
            val mem : elt -> t -> bool
            val add : elt -> t -> t
            val singleton : elt -> t
            val remove : elt -> t -> t
            val union : t -> t -> t
            val inter : t -> t -> t
            val diff : t -> t -> t
            val compare : t -> t -> int
            val equal : t -> t -> bool
            val subset : t -> t -> bool
            val iter : f:(elt -> unit) -> t -> unit
            val fold : f:(elt -> '-> 'a) -> t -> init:'-> 'a
            val for_all : f:(elt -> bool) -> t -> bool
            val exists : f:(elt -> bool) -> t -> bool
            val filter : f:(elt -> bool) -> t -> t
            val partition : f:(elt -> bool) -> t -> t * t
            val cardinal : t -> int
            val elements : t -> elt list
            val min_elt : t -> elt
            val max_elt : t -> elt
            val choose : t -> elt
            val split : elt -> t -> t * bool * t
            val find : elt -> t -> elt
          end
    end
endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.HashedType.html0000644000175000017500000001010312214324154024427 0ustar i33173i33173 MoreLabels.Hashtbl.HashedType Hashtbl.HashedTypeocaml-doc-4.01/ocaml.html/libref/Printf.html0000644000175000017500000004405212214324162017173 0ustar i33173i33173 Printf
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Module Printf

module Printf: sig .. end
Formatted output functions.
val fprintf : out_channel ->
       ('a, out_channel, unit) format -> 'a
fprintf outchan format arg1 ... argN formats the arguments arg1 to argN according to the format string format, and outputs the resulting string on the channel outchan.

The format string is a character string which contains two types of objects: plain characters, which are simply copied to the output channel, and conversion specifications, each of which causes conversion and printing of arguments.

Conversion specifications have the following form:

% [flags] [width] [.precision] type

In short, a conversion specification consists in the % character, followed by optional modifiers and a type which is made of one or two characters.

The types and their meanings are:

  • d, i: convert an integer argument to signed decimal.
  • u, n, l, L, or N: convert an integer argument to unsigned decimal. Warning: n, l, L, and N are used for scanf, and should not be used for printf.
  • x: convert an integer argument to unsigned hexadecimal, using lowercase letters.
  • X: convert an integer argument to unsigned hexadecimal, using uppercase letters.
  • o: convert an integer argument to unsigned octal.
  • s: insert a string argument.
  • S: convert a string argument to OCaml syntax (double quotes, escapes).
  • c: insert a character argument.
  • C: convert a character argument to OCaml syntax (single quotes, escapes).
  • f: convert a floating-point argument to decimal notation, in the style dddd.ddd.
  • F: convert a floating-point argument to OCaml syntax (dddd. or dddd.ddd or d.ddd e+-dd).
  • e or E: convert a floating-point argument to decimal notation, in the style d.ddd e+-dd (mantissa and exponent).
  • g or G: convert a floating-point argument to decimal notation, in style f or e, E (whichever is more compact).
  • B: convert a boolean argument to the string true or false
  • b: convert a boolean argument (deprecated; do not use in new programs).
  • ld, li, lu, lx, lX, lo: convert an int32 argument to the format specified by the second letter (decimal, hexadecimal, etc).
  • nd, ni, nu, nx, nX, no: convert a nativeint argument to the format specified by the second letter.
  • Ld, Li, Lu, Lx, LX, Lo: convert an int64 argument to the format specified by the second letter.
  • a: user-defined printer. Take two arguments and apply the first one to outchan (the current output channel) and to the second argument. The first argument must therefore have type out_channel -> 'b -> unit and the second 'b. The output produced by the function is inserted in the output of fprintf at the current point.
  • t: same as %a, but take only one argument (with type out_channel -> unit) and apply it to outchan.
  • { fmt %}: convert a format string argument to its type digest. The argument must have the same type as the internal format string fmt.
  • ( fmt %): format string substitution. Take a format string argument and substitute it to the internal format string fmt to print following arguments. The argument must have the same type as the internal format string fmt.
  • !: take no argument and flush the output.
  • %: take no argument and output one % character.
  • @: take no argument and output one @ character.
  • ,: take no argument and output nothing: a no-op delimiter for conversion specifications.
The optional flags are:
  • -: left-justify the output (default is right justification).
  • 0: for numerical conversions, pad with zeroes instead of spaces.
  • +: for signed numerical conversions, prefix number with a + sign if positive.
  • space: for signed numerical conversions, prefix number with a space if positive.
  • #: request an alternate formatting style for numbers.
The optional width is an integer indicating the minimal width of the result. For instance, %6d prints an integer, prefixing it with spaces to fill at least 6 characters.

The optional precision is a dot . followed by an integer indicating how many digits follow the decimal point in the %f, %e, and %E conversions. For instance, %.4f prints a float with 4 fractional digits.

The integer in a width or precision can also be specified as *, in which case an extra integer argument is taken to specify the corresponding width or precision. This integer argument precedes immediately the argument to print. For instance, %.*f prints a float with as many fractional digits as the value of the argument given before the float.

val printf : ('a, out_channel, unit) format -> 'a
Same as Printf.fprintf, but output on stdout.
val eprintf : ('a, out_channel, unit) format -> 'a
Same as Printf.fprintf, but output on stderr.
val sprintf : ('a, unit, string) format -> 'a
Same as Printf.fprintf, but instead of printing on an output channel, return a string containing the result of formatting the arguments.
val bprintf : Buffer.t -> ('a, Buffer.t, unit) format -> 'a
Same as Printf.fprintf, but instead of printing on an output channel, append the formatted arguments to the given extensible buffer (see module Buffer).
val ifprintf : 'a -> ('b, 'a, unit) format -> 'b
Same as Printf.fprintf, but does not print anything. Useful to ignore some material when conditionally printing.
Since 3.10.0

Formatted output functions with continuations.
val kfprintf : (out_channel -> 'a) ->
       out_channel ->
       ('b, out_channel, unit, 'a) format4 -> 'b
Same as fprintf, but instead of returning immediately, passes the out channel to its first argument at the end of printing.
Since 3.09.0
val ikfprintf : (out_channel -> 'a) ->
       out_channel ->
       ('b, out_channel, unit, 'a) format4 -> 'b
Same as kfprintf above, but does not print anything. Useful to ignore some material when conditionally printing.
Since 4.0
val ksprintf : (string -> 'a) -> ('b, unit, string, 'a) format4 -> 'b
Same as sprintf above, but instead of returning the string, passes it to the first argument.
Since 3.09.0
val kbprintf : (Buffer.t -> 'a) ->
       Buffer.t -> ('b, Buffer.t, unit, 'a) format4 -> 'b
Same as bprintf, but instead of returning immediately, passes the buffer to its first argument at the end of printing.
Since 3.10.0

Deprecated
val kprintf : (string -> 'a) -> ('b, unit, string, 'a) format4 -> 'b
A deprecated synonym for ksprintf.
ocaml-doc-4.01/ocaml.html/libref/type_CamlinternalOO.html0000644000175000017500000005156612214324147021654 0ustar i33173i33173 CamlinternalOO sig
  type tag
  type label
  type table
  type meth
  type t
  type obj
  type closure
  val public_method_label : string -> CamlinternalOO.tag
  val new_method : CamlinternalOO.table -> CamlinternalOO.label
  val new_variable : CamlinternalOO.table -> string -> int
  val new_methods_variables :
    CamlinternalOO.table ->
    string array -> string array -> CamlinternalOO.label array
  val get_variable : CamlinternalOO.table -> string -> int
  val get_variables : CamlinternalOO.table -> string array -> int array
  val get_method_label :
    CamlinternalOO.table -> string -> CamlinternalOO.label
  val get_method_labels :
    CamlinternalOO.table -> string array -> CamlinternalOO.label array
  val get_method :
    CamlinternalOO.table -> CamlinternalOO.label -> CamlinternalOO.meth
  val set_method :
    CamlinternalOO.table ->
    CamlinternalOO.label -> CamlinternalOO.meth -> unit
  val set_methods :
    CamlinternalOO.table -> CamlinternalOO.label array -> unit
  val narrow :
    CamlinternalOO.table ->
    string array -> string array -> string array -> unit
  val widen : CamlinternalOO.table -> unit
  val add_initializer :
    CamlinternalOO.table -> (CamlinternalOO.obj -> unit) -> unit
  val dummy_table : CamlinternalOO.table
  val create_table : string array -> CamlinternalOO.table
  val init_class : CamlinternalOO.table -> unit
  val inherits :
    CamlinternalOO.table ->
    string array ->
    string array ->
    string array ->
    CamlinternalOO.t *
    (CamlinternalOO.table -> CamlinternalOO.obj -> Obj.t) *
    CamlinternalOO.t * CamlinternalOO.obj -> bool -> Obj.t array
  val make_class :
    string array ->
    (CamlinternalOO.table -> Obj.t -> CamlinternalOO.t) ->
    CamlinternalOO.t * (CamlinternalOO.table -> Obj.t -> CamlinternalOO.t) *
    (Obj.t -> CamlinternalOO.t) * Obj.t
  type init_table
  val make_class_store :
    string array ->
    (CamlinternalOO.table -> CamlinternalOO.t) ->
    CamlinternalOO.init_table -> unit
  val dummy_class :
    string * int * int ->
    CamlinternalOO.t * (CamlinternalOO.table -> Obj.t -> CamlinternalOO.t) *
    (Obj.t -> CamlinternalOO.t) * Obj.t
  val copy : (< .. > as 'a) -> 'a
  val create_object : CamlinternalOO.table -> CamlinternalOO.obj
  val create_object_opt :
    CamlinternalOO.obj -> CamlinternalOO.table -> CamlinternalOO.obj
  val run_initializers : CamlinternalOO.obj -> CamlinternalOO.table -> unit
  val run_initializers_opt :
    CamlinternalOO.obj ->
    CamlinternalOO.obj -> CamlinternalOO.table -> CamlinternalOO.obj
  val create_object_and_run_initializers :
    CamlinternalOO.obj -> CamlinternalOO.table -> CamlinternalOO.obj
  external send :
    CamlinternalOO.obj -> CamlinternalOO.tag -> CamlinternalOO.t = "%send"
  external sendcache :
    CamlinternalOO.obj ->
    CamlinternalOO.tag -> CamlinternalOO.t -> int -> CamlinternalOO.t
    = "%sendcache"
  external sendself :
    CamlinternalOO.obj -> CamlinternalOO.label -> CamlinternalOO.t
    = "%sendself"
  external get_public_method :
    CamlinternalOO.obj -> CamlinternalOO.tag -> CamlinternalOO.closure
    = "caml_get_public_method" "noalloc"
  type tables
  val lookup_tables :
    CamlinternalOO.tables ->
    CamlinternalOO.closure array -> CamlinternalOO.tables
  type impl =
      GetConst
    | GetVar
    | GetEnv
    | GetMeth
    | SetVar
    | AppConst
    | AppVar
    | AppEnv
    | AppMeth
    | AppConstConst
    | AppConstVar
    | AppConstEnv
    | AppConstMeth
    | AppVarConst
    | AppEnvConst
    | AppMethConst
    | MethAppConst
    | MethAppVar
    | MethAppEnv
    | MethAppMeth
    | SendConst
    | SendVar
    | SendEnv
    | SendMeth
    | Closure of CamlinternalOO.closure
  type params = {
    mutable compact_table : bool;
    mutable copy_parent : bool;
    mutable clean_when_copying : bool;
    mutable retry_count : int;
    mutable bucket_small_size : int;
  }
  val params : CamlinternalOO.params
  type stats = { classes : int; methods : int; inst_vars : int; }
  val stats : unit -> CamlinternalOO.stats
endocaml-doc-4.01/ocaml.html/libref/type_ArrayLabels.html0000644000175000017500000003245612214324144021200 0ustar i33173i33173 ArrayLabels sig
  external length : 'a array -> int = "%array_length"
  external get : 'a array -> int -> 'a = "%array_safe_get"
  external set : 'a array -> int -> '-> unit = "%array_safe_set"
  external make : int -> '-> 'a array = "caml_make_vect"
  external create : int -> '-> 'a array = "caml_make_vect"
  val init : int -> f:(int -> 'a) -> 'a array
  val make_matrix : dimx:int -> dimy:int -> '-> 'a array array
  val create_matrix : dimx:int -> dimy:int -> '-> 'a array array
  val append : 'a array -> 'a array -> 'a array
  val concat : 'a array list -> 'a array
  val sub : 'a array -> pos:int -> len:int -> 'a array
  val copy : 'a array -> 'a array
  val fill : 'a array -> pos:int -> len:int -> '-> unit
  val blit :
    src:'a array ->
    src_pos:int -> dst:'a array -> dst_pos:int -> len:int -> unit
  val to_list : 'a array -> 'a list
  val of_list : 'a list -> 'a array
  val iter : f:('-> unit) -> 'a array -> unit
  val map : f:('-> 'b) -> 'a array -> 'b array
  val iteri : f:(int -> '-> unit) -> 'a array -> unit
  val mapi : f:(int -> '-> 'b) -> 'a array -> 'b array
  val fold_left : f:('-> '-> 'a) -> init:'-> 'b array -> 'a
  val fold_right : f:('-> '-> 'a) -> 'b array -> init:'-> 'a
  val sort : cmp:('-> '-> int) -> 'a array -> unit
  val stable_sort : cmp:('-> '-> int) -> 'a array -> unit
  val fast_sort : cmp:('-> '-> int) -> 'a array -> unit
  external unsafe_get : 'a array -> int -> 'a = "%array_unsafe_get"
  external unsafe_set : 'a array -> int -> '-> unit = "%array_unsafe_set"
endocaml-doc-4.01/ocaml.html/libref/Bigarray.Array1.html0000644000175000017500000003076512214324145020636 0ustar i33173i33173 Bigarray.Array1
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Module Bigarray.Array1

module Array1: sig .. end
One-dimensional arrays. The Array1 structure provides operations similar to those of Bigarray.Genarray, but specialized to the case of one-dimensional arrays. (The Array2 and Array3 structures below provide operations specialized for two- and three-dimensional arrays.) Statically knowing the number of dimensions of the array allows faster operations, and more precise static type-checking.
type ('a, 'b, 'c) t
The type of one-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
val create : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> int -> ('a, 'b, 'c) t
Array1.create kind layout dim returns a new bigarray of one dimension, whose size is dim. kind and layout determine the array element kind and the array layout as described for Genarray.create.
val dim : ('a, 'b, 'c) t -> int
Return the size (dimension) of the given one-dimensional big array.
val kind : ('a, 'b, 'c) t -> ('a, 'b) Bigarray.kind
Return the kind of the given big array.
val layout : ('a, 'b, 'c) t -> 'c Bigarray.layout
Return the layout of the given big array.
val get : ('a, 'b, 'c) t -> int -> 'a
Array1.get a x, or alternatively a.{x}, returns the element of a at index x. x must be greater or equal than 0 and strictly less than Array1.dim a if a has C layout. If a has Fortran layout, x must be greater or equal than 1 and less or equal than Array1.dim a. Otherwise, Invalid_argument is raised.
val set : ('a, 'b, 'c) t -> int -> 'a -> unit
Array1.set a x v, also written a.{x} <- v, stores the value v at index x in a. x must be inside the bounds of a as described in Bigarray.Array1.get; otherwise, Invalid_argument is raised.
val sub : ('a, 'b, 'c) t ->
       int -> int -> ('a, 'b, 'c) t
Extract a sub-array of the given one-dimensional big array. See Genarray.sub_left for more details.
val blit : ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
Copy the first big array to the second big array. See Genarray.blit for more details.
val fill : ('a, 'b, 'c) t -> 'a -> unit
Fill the given big array with the given value. See Genarray.fill for more details.
val of_array : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> 'a array -> ('a, 'b, 'c) t
Build a one-dimensional big array initialized from the given array.
val map_file : Unix.file_descr ->
       ?pos:int64 ->
       ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> bool -> int -> ('a, 'b, 'c) t
Memory mapping of a file as a one-dimensional big array. See Bigarray.Genarray.map_file for more details.
val unsafe_get : ('a, 'b, 'c) t -> int -> 'a
Like Bigarray.Array1.get, but bounds checking is not always performed. Use with caution and only when the program logic guarantees that the access is within bounds.
val unsafe_set : ('a, 'b, 'c) t -> int -> 'a -> unit
Like Bigarray.Array1.set, but bounds checking is not always performed. Use with caution and only when the program logic guarantees that the access is within bounds.
ocaml-doc-4.01/ocaml.html/libref/Ratio.html0000644000175000017500000001167512214324163017015 0ustar i33173i33173 Ratio
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Module Ratio

module Ratio: sig .. end
Operation on rational numbers.

This module is used to support the implementation of Num and should not be called directly.

type ratio
ocaml-doc-4.01/ocaml.html/libref/type_String.html0000644000175000017500000002626612214324166020253 0ustar i33173i33173 String sig
  external length : string -> int = "%string_length"
  external get : string -> int -> char = "%string_safe_get"
  external set : string -> int -> char -> unit = "%string_safe_set"
  external create : int -> string = "caml_create_string"
  val make : int -> char -> string
  val copy : string -> string
  val sub : string -> int -> int -> string
  val fill : string -> int -> int -> char -> unit
  val blit : string -> int -> string -> int -> int -> unit
  val concat : string -> string list -> string
  val iter : (char -> unit) -> string -> unit
  val iteri : (int -> char -> unit) -> string -> unit
  val map : (char -> char) -> string -> string
  val trim : string -> string
  val escaped : string -> string
  val index : string -> char -> int
  val rindex : string -> char -> int
  val index_from : string -> int -> char -> int
  val rindex_from : string -> int -> char -> int
  val contains : string -> char -> bool
  val contains_from : string -> int -> char -> bool
  val rcontains_from : string -> int -> char -> bool
  val uppercase : string -> string
  val lowercase : string -> string
  val capitalize : string -> string
  val uncapitalize : string -> string
  type t = string
  val compare : String.t -> String.t -> int
  external unsafe_get : string -> int -> char = "%string_unsafe_get"
  external unsafe_set : string -> int -> char -> unit = "%string_unsafe_set"
  external unsafe_blit : string -> int -> string -> int -> int -> unit
    = "caml_blit_string" "noalloc"
  external unsafe_fill : string -> int -> int -> char -> unit
    = "caml_fill_string" "noalloc"
endocaml-doc-4.01/ocaml.html/libref/Hashtbl.MakeSeeded.html0000644000175000017500000002260512214324151021302 0ustar i33173i33173 Hashtbl.MakeSeeded
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Functor Hashtbl.MakeSeeded

module MakeSeeded: 
functor (H : SeededHashedType) -> SeededS  with type key = H.t
Functor building an implementation of the hashtable structure. The functor Hashtbl.MakeSeeded returns a structure containing a type key of keys and a type 'a t of hash tables associating data of type 'a to keys of type key. The operations perform similarly to those of the generic interface, but use the seeded hashing and equality functions specified in the functor argument H instead of generic equality and hashing. The create operation of the result structure supports the ~random optional parameter and returns randomized hash tables if ~random:true is passed or if randomization is globally on (see Hashtbl.randomize).
Since 4.00.0
Parameters:
H : SeededHashedType 
type key 
type 'a t 
val create : ?random:bool -> int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
val stats : 'a t -> Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/Set.html0000644000175000017500000001466312214324164016473 0ustar i33173i33173 Set
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Module Set

module Set: sig .. end
Sets over ordered types.

This module implements the set data structure, given a total ordering function over the set elements. All operations over sets are purely applicative (no side-effects). The implementation uses balanced binary trees, and is therefore reasonably efficient: insertion and membership take time logarithmic in the size of the set, for instance.

module type OrderedType = sig .. end
Input signature of the functor Set.Make. 
module type S = sig .. end
Output signature of the functor Set.Make. 
module Make: 
functor (Ord : OrderedType) -> S  with type elt = Ord.t
Functor building an implementation of the set structure given a totally ordered type.
ocaml-doc-4.01/ocaml.html/libref/type_Unix.html0000644000175000017500000021306412214324171017716 0ustar i33173i33173 Unix sig
  type error =
      E2BIG
    | EACCES
    | EAGAIN
    | EBADF
    | EBUSY
    | ECHILD
    | EDEADLK
    | EDOM
    | EEXIST
    | EFAULT
    | EFBIG
    | EINTR
    | EINVAL
    | EIO
    | EISDIR
    | EMFILE
    | EMLINK
    | ENAMETOOLONG
    | ENFILE
    | ENODEV
    | ENOENT
    | ENOEXEC
    | ENOLCK
    | ENOMEM
    | ENOSPC
    | ENOSYS
    | ENOTDIR
    | ENOTEMPTY
    | ENOTTY
    | ENXIO
    | EPERM
    | EPIPE
    | ERANGE
    | EROFS
    | ESPIPE
    | ESRCH
    | EXDEV
    | EWOULDBLOCK
    | EINPROGRESS
    | EALREADY
    | ENOTSOCK
    | EDESTADDRREQ
    | EMSGSIZE
    | EPROTOTYPE
    | ENOPROTOOPT
    | EPROTONOSUPPORT
    | ESOCKTNOSUPPORT
    | EOPNOTSUPP
    | EPFNOSUPPORT
    | EAFNOSUPPORT
    | EADDRINUSE
    | EADDRNOTAVAIL
    | ENETDOWN
    | ENETUNREACH
    | ENETRESET
    | ECONNABORTED
    | ECONNRESET
    | ENOBUFS
    | EISCONN
    | ENOTCONN
    | ESHUTDOWN
    | ETOOMANYREFS
    | ETIMEDOUT
    | ECONNREFUSED
    | EHOSTDOWN
    | EHOSTUNREACH
    | ELOOP
    | EOVERFLOW
    | EUNKNOWNERR of int
  exception Unix_error of Unix.error * string * string
  val error_message : Unix.error -> string
  val handle_unix_error : ('-> 'b) -> '-> 'b
  val environment : unit -> string array
  val getenv : string -> string
  val putenv : string -> string -> unit
  type process_status = WEXITED of int | WSIGNALED of int | WSTOPPED of int
  type wait_flag = WNOHANG | WUNTRACED
  val execv : string -> string array -> 'a
  val execve : string -> string array -> string array -> 'a
  val execvp : string -> string array -> 'a
  val execvpe : string -> string array -> string array -> 'a
  val fork : unit -> int
  val wait : unit -> int * Unix.process_status
  val waitpid : Unix.wait_flag list -> int -> int * Unix.process_status
  val system : string -> Unix.process_status
  val getpid : unit -> int
  val getppid : unit -> int
  val nice : int -> int
  type file_descr
  val stdin : Unix.file_descr
  val stdout : Unix.file_descr
  val stderr : Unix.file_descr
  type open_flag =
      O_RDONLY
    | O_WRONLY
    | O_RDWR
    | O_NONBLOCK
    | O_APPEND
    | O_CREAT
    | O_TRUNC
    | O_EXCL
    | O_NOCTTY
    | O_DSYNC
    | O_SYNC
    | O_RSYNC
    | O_SHARE_DELETE
    | O_CLOEXEC
  type file_perm = int
  val openfile :
    string -> Unix.open_flag list -> Unix.file_perm -> Unix.file_descr
  val close : Unix.file_descr -> unit
  val read : Unix.file_descr -> string -> int -> int -> int
  val write : Unix.file_descr -> string -> int -> int -> int
  val single_write : Unix.file_descr -> string -> int -> int -> int
  val in_channel_of_descr : Unix.file_descr -> Pervasives.in_channel
  val out_channel_of_descr : Unix.file_descr -> Pervasives.out_channel
  val descr_of_in_channel : Pervasives.in_channel -> Unix.file_descr
  val descr_of_out_channel : Pervasives.out_channel -> Unix.file_descr
  type seek_command = SEEK_SET | SEEK_CUR | SEEK_END
  val lseek : Unix.file_descr -> int -> Unix.seek_command -> int
  val truncate : string -> int -> unit
  val ftruncate : Unix.file_descr -> int -> unit
  type file_kind = S_REG | S_DIR | S_CHR | S_BLK | S_LNK | S_FIFO | S_SOCK
  type stats = {
    st_dev : int;
    st_ino : int;
    st_kind : Unix.file_kind;
    st_perm : Unix.file_perm;
    st_nlink : int;
    st_uid : int;
    st_gid : int;
    st_rdev : int;
    st_size : int;
    st_atime : float;
    st_mtime : float;
    st_ctime : float;
  }
  val stat : string -> Unix.stats
  val lstat : string -> Unix.stats
  val fstat : Unix.file_descr -> Unix.stats
  val isatty : Unix.file_descr -> bool
  module LargeFile :
    sig
      val lseek : Unix.file_descr -> int64 -> Unix.seek_command -> int64
      val truncate : string -> int64 -> unit
      val ftruncate : Unix.file_descr -> int64 -> unit
      type stats = {
        st_dev : int;
        st_ino : int;
        st_kind : Unix.file_kind;
        st_perm : Unix.file_perm;
        st_nlink : int;
        st_uid : int;
        st_gid : int;
        st_rdev : int;
        st_size : int64;
        st_atime : float;
        st_mtime : float;
        st_ctime : float;
      }
      val stat : string -> Unix.LargeFile.stats
      val lstat : string -> Unix.LargeFile.stats
      val fstat : Unix.file_descr -> Unix.LargeFile.stats
    end
  val unlink : string -> unit
  val rename : string -> string -> unit
  val link : string -> string -> unit
  type access_permission = R_OK | W_OK | X_OK | F_OK
  val chmod : string -> Unix.file_perm -> unit
  val fchmod : Unix.file_descr -> Unix.file_perm -> unit
  val chown : string -> int -> int -> unit
  val fchown : Unix.file_descr -> int -> int -> unit
  val umask : int -> int
  val access : string -> Unix.access_permission list -> unit
  val dup : Unix.file_descr -> Unix.file_descr
  val dup2 : Unix.file_descr -> Unix.file_descr -> unit
  val set_nonblock : Unix.file_descr -> unit
  val clear_nonblock : Unix.file_descr -> unit
  val set_close_on_exec : Unix.file_descr -> unit
  val clear_close_on_exec : Unix.file_descr -> unit
  val mkdir : string -> Unix.file_perm -> unit
  val rmdir : string -> unit
  val chdir : string -> unit
  val getcwd : unit -> string
  val chroot : string -> unit
  type dir_handle
  val opendir : string -> Unix.dir_handle
  val readdir : Unix.dir_handle -> string
  val rewinddir : Unix.dir_handle -> unit
  val closedir : Unix.dir_handle -> unit
  val pipe : unit -> Unix.file_descr * Unix.file_descr
  val mkfifo : string -> Unix.file_perm -> unit
  val create_process :
    string ->
    string array ->
    Unix.file_descr -> Unix.file_descr -> Unix.file_descr -> int
  val create_process_env :
    string ->
    string array ->
    string array ->
    Unix.file_descr -> Unix.file_descr -> Unix.file_descr -> int
  val open_process_in : string -> Pervasives.in_channel
  val open_process_out : string -> Pervasives.out_channel
  val open_process : string -> Pervasives.in_channel * Pervasives.out_channel
  val open_process_full :
    string ->
    string array ->
    Pervasives.in_channel * Pervasives.out_channel * Pervasives.in_channel
  val close_process_in : Pervasives.in_channel -> Unix.process_status
  val close_process_out : Pervasives.out_channel -> Unix.process_status
  val close_process :
    Pervasives.in_channel * Pervasives.out_channel -> Unix.process_status
  val close_process_full :
    Pervasives.in_channel * Pervasives.out_channel * Pervasives.in_channel ->
    Unix.process_status
  val symlink : string -> string -> unit
  val readlink : string -> string
  val select :
    Unix.file_descr list ->
    Unix.file_descr list ->
    Unix.file_descr list ->
    float ->
    Unix.file_descr list * Unix.file_descr list * Unix.file_descr list
  type lock_command =
      F_ULOCK
    | F_LOCK
    | F_TLOCK
    | F_TEST
    | F_RLOCK
    | F_TRLOCK
  val lockf : Unix.file_descr -> Unix.lock_command -> int -> unit
  val kill : int -> int -> unit
  type sigprocmask_command = SIG_SETMASK | SIG_BLOCK | SIG_UNBLOCK
  val sigprocmask : Unix.sigprocmask_command -> int list -> int list
  val sigpending : unit -> int list
  val sigsuspend : int list -> unit
  val pause : unit -> unit
  type process_times = {
    tms_utime : float;
    tms_stime : float;
    tms_cutime : float;
    tms_cstime : float;
  }
  type tm = {
    tm_sec : int;
    tm_min : int;
    tm_hour : int;
    tm_mday : int;
    tm_mon : int;
    tm_year : int;
    tm_wday : int;
    tm_yday : int;
    tm_isdst : bool;
  }
  val time : unit -> float
  val gettimeofday : unit -> float
  val gmtime : float -> Unix.tm
  val localtime : float -> Unix.tm
  val mktime : Unix.tm -> float * Unix.tm
  val alarm : int -> int
  val sleep : int -> unit
  val times : unit -> Unix.process_times
  val utimes : string -> float -> float -> unit
  type interval_timer = ITIMER_REAL | ITIMER_VIRTUAL | ITIMER_PROF
  type interval_timer_status = { it_interval : float; it_value : float; }
  val getitimer : Unix.interval_timer -> Unix.interval_timer_status
  val setitimer :
    Unix.interval_timer ->
    Unix.interval_timer_status -> Unix.interval_timer_status
  val getuid : unit -> int
  val geteuid : unit -> int
  val setuid : int -> unit
  val getgid : unit -> int
  val getegid : unit -> int
  val setgid : int -> unit
  val getgroups : unit -> int array
  val setgroups : int array -> unit
  val initgroups : string -> int -> unit
  type passwd_entry = {
    pw_name : string;
    pw_passwd : string;
    pw_uid : int;
    pw_gid : int;
    pw_gecos : string;
    pw_dir : string;
    pw_shell : string;
  }
  type group_entry = {
    gr_name : string;
    gr_passwd : string;
    gr_gid : int;
    gr_mem : string array;
  }
  val getlogin : unit -> string
  val getpwnam : string -> Unix.passwd_entry
  val getgrnam : string -> Unix.group_entry
  val getpwuid : int -> Unix.passwd_entry
  val getgrgid : int -> Unix.group_entry
  type inet_addr
  val inet_addr_of_string : string -> Unix.inet_addr
  val string_of_inet_addr : Unix.inet_addr -> string
  val inet_addr_any : Unix.inet_addr
  val inet_addr_loopback : Unix.inet_addr
  val inet6_addr_any : Unix.inet_addr
  val inet6_addr_loopback : Unix.inet_addr
  type socket_domain = PF_UNIX | PF_INET | PF_INET6
  type socket_type = SOCK_STREAM | SOCK_DGRAM | SOCK_RAW | SOCK_SEQPACKET
  type sockaddr = ADDR_UNIX of string | ADDR_INET of Unix.inet_addr * int
  val socket :
    Unix.socket_domain -> Unix.socket_type -> int -> Unix.file_descr
  val domain_of_sockaddr : Unix.sockaddr -> Unix.socket_domain
  val socketpair :
    Unix.socket_domain ->
    Unix.socket_type -> int -> Unix.file_descr * Unix.file_descr
  val accept : Unix.file_descr -> Unix.file_descr * Unix.sockaddr
  val bind : Unix.file_descr -> Unix.sockaddr -> unit
  val connect : Unix.file_descr -> Unix.sockaddr -> unit
  val listen : Unix.file_descr -> int -> unit
  type shutdown_command = SHUTDOWN_RECEIVE | SHUTDOWN_SEND | SHUTDOWN_ALL
  val shutdown : Unix.file_descr -> Unix.shutdown_command -> unit
  val getsockname : Unix.file_descr -> Unix.sockaddr
  val getpeername : Unix.file_descr -> Unix.sockaddr
  type msg_flag = MSG_OOB | MSG_DONTROUTE | MSG_PEEK
  val recv :
    Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
  val recvfrom :
    Unix.file_descr ->
    string -> int -> int -> Unix.msg_flag list -> int * Unix.sockaddr
  val send :
    Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
  val sendto :
    Unix.file_descr ->
    string -> int -> int -> Unix.msg_flag list -> Unix.sockaddr -> int
  type socket_bool_option =
      SO_DEBUG
    | SO_BROADCAST
    | SO_REUSEADDR
    | SO_KEEPALIVE
    | SO_DONTROUTE
    | SO_OOBINLINE
    | SO_ACCEPTCONN
    | TCP_NODELAY
    | IPV6_ONLY
  type socket_int_option =
      SO_SNDBUF
    | SO_RCVBUF
    | SO_ERROR
    | SO_TYPE
    | SO_RCVLOWAT
    | SO_SNDLOWAT
  type socket_optint_option = SO_LINGER
  type socket_float_option = SO_RCVTIMEO | SO_SNDTIMEO
  val getsockopt : Unix.file_descr -> Unix.socket_bool_option -> bool
  val setsockopt : Unix.file_descr -> Unix.socket_bool_option -> bool -> unit
  val getsockopt_int : Unix.file_descr -> Unix.socket_int_option -> int
  val setsockopt_int :
    Unix.file_descr -> Unix.socket_int_option -> int -> unit
  val getsockopt_optint :
    Unix.file_descr -> Unix.socket_optint_option -> int option
  val setsockopt_optint :
    Unix.file_descr -> Unix.socket_optint_option -> int option -> unit
  val getsockopt_float : Unix.file_descr -> Unix.socket_float_option -> float
  val setsockopt_float :
    Unix.file_descr -> Unix.socket_float_option -> float -> unit
  val getsockopt_error : Unix.file_descr -> Unix.error option
  val open_connection :
    Unix.sockaddr -> Pervasives.in_channel * Pervasives.out_channel
  val shutdown_connection : Pervasives.in_channel -> unit
  val establish_server :
    (Pervasives.in_channel -> Pervasives.out_channel -> unit) ->
    Unix.sockaddr -> unit
  type host_entry = {
    h_name : string;
    h_aliases : string array;
    h_addrtype : Unix.socket_domain;
    h_addr_list : Unix.inet_addr array;
  }
  type protocol_entry = {
    p_name : string;
    p_aliases : string array;
    p_proto : int;
  }
  type service_entry = {
    s_name : string;
    s_aliases : string array;
    s_port : int;
    s_proto : string;
  }
  val gethostname : unit -> string
  val gethostbyname : string -> Unix.host_entry
  val gethostbyaddr : Unix.inet_addr -> Unix.host_entry
  val getprotobyname : string -> Unix.protocol_entry
  val getprotobynumber : int -> Unix.protocol_entry
  val getservbyname : string -> string -> Unix.service_entry
  val getservbyport : int -> string -> Unix.service_entry
  type addr_info = {
    ai_family : Unix.socket_domain;
    ai_socktype : Unix.socket_type;
    ai_protocol : int;
    ai_addr : Unix.sockaddr;
    ai_canonname : string;
  }
  type getaddrinfo_option =
      AI_FAMILY of Unix.socket_domain
    | AI_SOCKTYPE of Unix.socket_type
    | AI_PROTOCOL of int
    | AI_NUMERICHOST
    | AI_CANONNAME
    | AI_PASSIVE
  val getaddrinfo :
    string -> string -> Unix.getaddrinfo_option list -> Unix.addr_info list
  type name_info = { ni_hostname : string; ni_service : string; }
  type getnameinfo_option =
      NI_NOFQDN
    | NI_NUMERICHOST
    | NI_NAMEREQD
    | NI_NUMERICSERV
    | NI_DGRAM
  val getnameinfo :
    Unix.sockaddr -> Unix.getnameinfo_option list -> Unix.name_info
  type terminal_io = {
    mutable c_ignbrk : bool;
    mutable c_brkint : bool;
    mutable c_ignpar : bool;
    mutable c_parmrk : bool;
    mutable c_inpck : bool;
    mutable c_istrip : bool;
    mutable c_inlcr : bool;
    mutable c_igncr : bool;
    mutable c_icrnl : bool;
    mutable c_ixon : bool;
    mutable c_ixoff : bool;
    mutable c_opost : bool;
    mutable c_obaud : int;
    mutable c_ibaud : int;
    mutable c_csize : int;
    mutable c_cstopb : int;
    mutable c_cread : bool;
    mutable c_parenb : bool;
    mutable c_parodd : bool;
    mutable c_hupcl : bool;
    mutable c_clocal : bool;
    mutable c_isig : bool;
    mutable c_icanon : bool;
    mutable c_noflsh : bool;
    mutable c_echo : bool;
    mutable c_echoe : bool;
    mutable c_echok : bool;
    mutable c_echonl : bool;
    mutable c_vintr : char;
    mutable c_vquit : char;
    mutable c_verase : char;
    mutable c_vkill : char;
    mutable c_veof : char;
    mutable c_veol : char;
    mutable c_vmin : int;
    mutable c_vtime : int;
    mutable c_vstart : char;
    mutable c_vstop : char;
  }
  val tcgetattr : Unix.file_descr -> Unix.terminal_io
  type setattr_when = TCSANOW | TCSADRAIN | TCSAFLUSH
  val tcsetattr :
    Unix.file_descr -> Unix.setattr_when -> Unix.terminal_io -> unit
  val tcsendbreak : Unix.file_descr -> int -> unit
  val tcdrain : Unix.file_descr -> unit
  type flush_queue = TCIFLUSH | TCOFLUSH | TCIOFLUSH
  val tcflush : Unix.file_descr -> Unix.flush_queue -> unit
  type flow_action = TCOOFF | TCOON | TCIOFF | TCION
  val tcflow : Unix.file_descr -> Unix.flow_action -> unit
  val setsid : unit -> int
endocaml-doc-4.01/ocaml.html/libref/Digest.html0000644000175000017500000002250512214324147017152 0ustar i33173i33173 Digest
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Module Digest

module Digest: sig .. end
MD5 message digest.

This module provides functions to compute 128-bit 'digests' of arbitrary-length strings or files. The digests are of cryptographic quality: it is very hard, given a digest, to forge a string having that digest. The algorithm used is MD5. This module should not be used for secure and sensitive cryptographic applications. For these kind of applications more recent and stronger cryptographic primitives should be used instead.

type t = string
The type of digests: 16-character strings.
val compare : t -> t -> int
The comparison function for 16-character digest, with the same specification as compare and the implementation shared with String.compare. Along with the type t, this function compare allows the module Digest to be passed as argument to the functors Set.Make and Map.Make.
Since 4.00.0
val string : string -> t
Return the digest of the given string.
val substring : string -> int -> int -> t
Digest.substring s ofs len returns the digest of the substring of s starting at character number ofs and containing len characters.
val channel : in_channel -> int -> t
If len is nonnegative, Digest.channel ic len reads len characters from channel ic and returns their digest, or raises End_of_file if end-of-file is reached before len characters are read. If len is negative, Digest.channel ic len reads all characters from ic until end-of-file is reached and return their digest.
val file : string -> t
Return the digest of the file whose name is given.
val output : out_channel -> t -> unit
Write a digest on the given output channel.
val input : in_channel -> t
Read a digest from the given input channel.
val to_hex : t -> string
Return the printable hexadecimal representation of the given digest.
val from_hex : string -> t
Convert a hexadecimal representation back into the corresponding digest. Raise Invalid_argument if the argument is not exactly 32 hexadecimal characters.
Since 4.00.0
ocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.MakeSeeded.html0000644000175000017500000002031612214324151022340 0ustar i33173i33173 Hashtbl.MakeSeeded functor (H : SeededHashedType->
  sig
    type key = H.t
    type 'a t
    val create : ?random:bool -> int -> 'a t
    val clear : 'a t -> unit
    val reset : 'a t -> unit
    val copy : 'a t -> 'a t
    val add : 'a t -> key -> '-> unit
    val remove : 'a t -> key -> unit
    val find : 'a t -> key -> 'a
    val find_all : 'a t -> key -> 'a list
    val replace : 'a t -> key -> '-> unit
    val mem : 'a t -> key -> bool
    val iter : (key -> '-> unit) -> 'a t -> unit
    val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
    val length : 'a t -> int
    val stats : 'a t -> statistics
  endocaml-doc-4.01/ocaml.html/libref/Char.html0000644000175000017500000001571412214324147016614 0ustar i33173i33173 Char
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Module Char

module Char: sig .. end
Character operations.
val code : char -> int
Return the ASCII code of the argument.
val chr : int -> char
Return the character with the given ASCII code. Raise Invalid_argument "Char.chr" if the argument is outside the range 0--255.
val escaped : char -> string
Return a string representing the given character, with special characters escaped following the lexical conventions of OCaml.
val lowercase : char -> char
Convert the given character to its equivalent lowercase character.
val uppercase : char -> char
Convert the given character to its equivalent uppercase character.
type t = char
An alias for the type of characters.
val compare : t -> t -> int
The comparison function for characters, with the same specification as compare. Along with the type t, this function compare allows the module Char to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/type_Condition.html0000644000175000017500000001154412214324147020723 0ustar i33173i33173 Condition sig
  type t
  val create : unit -> Condition.t
  val wait : Condition.t -> Mutex.t -> unit
  val signal : Condition.t -> unit
  val broadcast : Condition.t -> unit
endocaml-doc-4.01/ocaml.html/libref/Array.html0000644000175000017500000005131212214324143017003 0ustar i33173i33173 Array
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Module Array

module Array: sig .. end
Array operations.
val length : 'a array -> int
Return the length (number of elements) of the given array.
val get : 'a array -> int -> 'a
Array.get a n returns the element number n of array a. The first element has number 0. The last element has number Array.length a - 1. You can also write a.(n) instead of Array.get a n.

Raise Invalid_argument "index out of bounds" if n is outside the range 0 to (Array.length a - 1).

val set : 'a array -> int -> 'a -> unit
Array.set a n x modifies array a in place, replacing element number n with x. You can also write a.(n) <- x instead of Array.set a n x.

Raise Invalid_argument "index out of bounds" if n is outside the range 0 to Array.length a - 1.

val make : int -> 'a -> 'a array
Array.make n x returns a fresh array of length n, initialized with x. All the elements of this new array are initially physically equal to x (in the sense of the == predicate). Consequently, if x is mutable, it is shared among all elements of the array, and modifying x through one of the array entries will modify all other entries at the same time.

Raise Invalid_argument if n < 0 or n > Sys.max_array_length. If the value of x is a floating-point number, then the maximum size is only Sys.max_array_length / 2.

val create : int -> 'a -> 'a array
Deprecated.Array.create is an alias for Array.make.
val init : int -> (int -> 'a) -> 'a array
Array.init n f returns a fresh array of length n, with element number i initialized to the result of f i. In other terms, Array.init n f tabulates the results of f applied to the integers 0 to n-1.

Raise Invalid_argument if n < 0 or n > Sys.max_array_length. If the return type of f is float, then the maximum size is only Sys.max_array_length / 2.

val make_matrix : int -> int -> 'a -> 'a array array
Array.make_matrix dimx dimy e returns a two-dimensional array (an array of arrays) with first dimension dimx and second dimension dimy. All the elements of this new matrix are initially physically equal to e. The element (x,y) of a matrix m is accessed with the notation m.(x).(y).

Raise Invalid_argument if dimx or dimy is negative or greater than Sys.max_array_length. If the value of e is a floating-point number, then the maximum size is only Sys.max_array_length / 2.

val create_matrix : int -> int -> 'a -> 'a array array
Deprecated.Array.create_matrix is an alias for Array.make_matrix.
val append : 'a array -> 'a array -> 'a array
Array.append v1 v2 returns a fresh array containing the concatenation of the arrays v1 and v2.
val concat : 'a array list -> 'a array
Same as Array.append, but concatenates a list of arrays.
val sub : 'a array -> int -> int -> 'a array
Array.sub a start len returns a fresh array of length len, containing the elements number start to start + len - 1 of array a.

Raise Invalid_argument "Array.sub" if start and len do not designate a valid subarray of a; that is, if start < 0, or len < 0, or start + len > Array.length a.

val copy : 'a array -> 'a array
Array.copy a returns a copy of a, that is, a fresh array containing the same elements as a.
val fill : 'a array -> int -> int -> 'a -> unit
Array.fill a ofs len x modifies the array a in place, storing x in elements number ofs to ofs + len - 1.

Raise Invalid_argument "Array.fill" if ofs and len do not designate a valid subarray of a.

val blit : 'a array -> int -> 'a array -> int -> int -> unit
Array.blit v1 o1 v2 o2 len copies len elements from array v1, starting at element number o1, to array v2, starting at element number o2. It works correctly even if v1 and v2 are the same array, and the source and destination chunks overlap.

Raise Invalid_argument "Array.blit" if o1 and len do not designate a valid subarray of v1, or if o2 and len do not designate a valid subarray of v2.

val to_list : 'a array -> 'a list
Array.to_list a returns the list of all the elements of a.
val of_list : 'a list -> 'a array
Array.of_list l returns a fresh array containing the elements of l.
val iter : ('a -> unit) -> 'a array -> unit
Array.iter f a applies function f in turn to all the elements of a. It is equivalent to f a.(0); f a.(1); ...; f a.(Array.length a - 1); ().
val map : ('a -> 'b) -> 'a array -> 'b array
Array.map f a applies function f to all the elements of a, and builds an array with the results returned by f: [| f a.(0); f a.(1); ...; f a.(Array.length a - 1) |].
val iteri : (int -> 'a -> unit) -> 'a array -> unit
Same as Array.iter, but the function is applied to the index of the element as first argument, and the element itself as second argument.
val mapi : (int -> 'a -> 'b) -> 'a array -> 'b array
Same as Array.map, but the function is applied to the index of the element as first argument, and the element itself as second argument.
val fold_left : ('a -> 'b -> 'a) -> 'a -> 'b array -> 'a
Array.fold_left f x a computes f (... (f (f x a.(0)) a.(1)) ...) a.(n-1), where n is the length of the array a.
val fold_right : ('b -> 'a -> 'a) -> 'b array -> 'a -> 'a
Array.fold_right f a x computes f a.(0) (f a.(1) ( ... (f a.(n-1) x) ...)), where n is the length of the array a.

Sorting

val sort : ('a -> 'a -> int) -> 'a array -> unit
Sort an array in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see below for a complete specification). For example, compare is a suitable comparison function, provided there are no floating-point NaN values in the data. After calling Array.sort, the array is sorted in place in increasing order. Array.sort is guaranteed to run in constant heap space and (at most) logarithmic stack space.

The current implementation uses Heap Sort. It runs in constant stack space.

Specification of the comparison function: Let a be the array and cmp the comparison function. The following must be true for all x, y, z in a :

  • cmp x y > 0 if and only if cmp y x < 0
  • if cmp x y >= 0 and cmp y z >= 0 then cmp x z >= 0
When Array.sort returns, a contains the same elements as before, reordered in such a way that for all i and j valid indices of a :
  • cmp a.(i) a.(j) >= 0 if and only if i >= j

val stable_sort : ('a -> 'a -> int) -> 'a array -> unit
Same as Array.sort, but the sorting algorithm is stable (i.e. elements that compare equal are kept in their original order) and not guaranteed to run in constant heap space.

The current implementation uses Merge Sort. It uses n/2 words of heap space, where n is the length of the array. It is usually faster than the current implementation of Array.sort.

val fast_sort : ('a -> 'a -> int) -> 'a array -> unit
Same as Array.sort or Array.stable_sort, whichever is faster on typical input.
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Map.OrderedType.html0000644000175000017500000001007512214324155023760 0ustar i33173i33173 MoreLabels.Map.OrderedType Map.OrderedTypeocaml-doc-4.01/ocaml.html/libref/Hashtbl.SeededHashedType.html0000644000175000017500000001412012214324151022454 0ustar i33173i33173 Hashtbl.SeededHashedType
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Module type Hashtbl.SeededHashedType

module type SeededHashedType = sig .. end
The input signature of the functor Hashtbl.MakeSeeded.
Since 4.00.0
type t
The type of the hashtable keys.
val equal : t -> t -> bool
The equality predicate used to compare keys.
val hash : int -> t -> int
A seeded hashing function on keys. The first argument is the seed. It must be the case that if equal x y is true, then hash seed x = hash seed y for any value of seed. A suitable choice for hash is the function Hashtbl.seeded_hash below.
ocaml-doc-4.01/ocaml.html/libref/Scanf.html0000644000175000017500000011347012214324163016765 0ustar i33173i33173 Scanf
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Module Scanf

module Scanf: sig .. end
Formatted input functions.

Introduction


Functional input with format strings


The module Scanf provides formatted input functions or scanners.

The formatted input functions can read from any kind of input, including strings, files, or anything that can return characters. The more general source of characters is named a formatted input channel (or scanning buffer) and has type Scanf.Scanning.in_channel. The more general formatted input function reads from any scanning buffer and is named bscanf.

Generally speaking, the formatted input functions have 3 arguments:

  • the first argument is a source of characters for the input,
  • the second argument is a format string that specifies the values to read,
  • the third argument is a receiver function that is applied to the values read.
Hence, a typical call to the formatted input function Scanf.bscanf is bscanf ic fmt f, where:

  • fmt is a format string (the same format strings as those used to print material with module Printf or Format),
  • f is a function that has as many arguments as the number of values to read in the input.


A simple example


As suggested above, the expression bscanf ic "%d" f reads a decimal integer n from the source of characters ic and returns f n.

For instance,

  • if we use stdin as the source of characters (Scanf.Scanning.stdin is the predefined formatted input channel that reads from standard input),
  • if we define the receiver f as let f x = x + 1,
then bscanf Scanning.stdin "%d" f reads an integer n from the standard input and returns f n (that is n + 1). Thus, if we evaluate bscanf stdin "%d" f, and then enter 41 at the keyboard, we get 42 as the final result.

Formatted input as a functional feature


The OCaml scanning facility is reminiscent of the corresponding C feature. However, it is also largely different, simpler, and yet more powerful: the formatted input functions are higher-order functionals and the parameter passing mechanism is just the regular function application not the variable assignment based mechanism which is typical for formatted input in imperative languages; the OCaml format strings also feature useful additions to easily define complex tokens; as expected within a functional programming language, the formatted input functions also support polymorphism, in particular arbitrary interaction with polymorphic user-defined scanners. Furthermore, the OCaml formatted input facility is fully type-checked at compile time.

Formatted input channel

module Scanning: sig .. end

Type of formatted input functions

type ('a, 'b, 'c, 'd) scanner = ('a, Scanning.in_channel, 'b, 'c, 'a -> 'd, 'd) format6 -> 'c
The type of formatted input scanners: ('a, 'b, 'c, 'd) scanner is the type of a formatted input function that reads from some formatted input channel according to some format string; more precisely, if scan is some formatted input function, then scan ic fmt f applies f to the arguments specified by the format string fmt, when scan has read those arguments from the formatted input channel ic.

For instance, the scanf function below has type ('a, 'b, 'c, 'd) scanner, since it is a formatted input function that reads from Scanning.stdin: scanf fmt f applies f to the arguments specified by fmt, reading those arguments from Pervasives.stdin as expected.

If the format fmt has some %r indications, the corresponding input functions must be provided before the receiver f argument. For instance, if read_elem is an input function for values of type t, then bscanf ic "%r;" read_elem f reads a value v of type t followed by a ';' character, and returns f v.
Since 3.10.0

exception Scan_failure of string
The exception that formatted input functions raise when the input cannot be read according to the given format.

The general formatted input function

val bscanf : Scanning.in_channel -> ('a, 'b, 'c, 'd) scanner
bscanf ic fmt r1 ... rN f reads arguments for the function f, from the formatted input channel ic, according to the format string fmt, and applies f to these values. The result of this call to f is returned as the result of the entire bscanf call. For instance, if f is the function fun s i -> i + 1, then Scanf.sscanf "x= 1" "%s = %i" f returns 2.

Arguments r1 to rN are user-defined input functions that read the argument corresponding to the %r conversions specified in the format string.


Format string description


The format string is a character string which contains three types of objects:

The space character in format strings


As mentioned above, a plain character in the format string is just matched with the next character of the input; however, two characters are special exceptions to this rule: the space character (' ' or ASCII code 32) and the line feed character ('\n' or ASCII code 10). A space does not match a single space character, but any amount of 'whitespace' in the input. More precisely, a space inside the format string matches any number of tab, space, line feed and carriage return characters. Similarly, a line feed character in the format string matches either a single line feed or a carriage return followed by a line feed.

Matching any amount of whitespace, a space in the format string also matches no amount of whitespace at all; hence, the call bscanf ib "Price = %d $" (fun p -> p) succeeds and returns 1 when reading an input with various whitespace in it, such as Price = 1 $, Price = 1 $, or even Price=1$.

Conversion specifications in format strings


Conversion specifications consist in the % character, followed by an optional flag, an optional field width, and followed by one or two conversion characters. The conversion characters and their meanings are:

  • d: reads an optionally signed decimal integer.
  • i: reads an optionally signed integer (usual input conventions for decimal (0-9+), hexadecimal (0x[0-9a-f]+ and 0X[0-9A-F]+), octal (0o[0-7]+), and binary (0b[0-1]+) notations are understood).
  • u: reads an unsigned decimal integer.
  • x or X: reads an unsigned hexadecimal integer ([0-9a-fA-F]+).
  • o: reads an unsigned octal integer ([0-7]+).
  • s: reads a string argument that spreads as much as possible, until the following bounding condition holds: Hence, this conversion always succeeds: it returns an empty string if the bounding condition holds when the scan begins.
  • S: reads a delimited string argument (delimiters and special escaped characters follow the lexical conventions of OCaml).
  • c: reads a single character. To test the current input character without reading it, specify a null field width, i.e. use specification %0c. Raise Invalid_argument, if the field width specification is greater than 1.
  • C: reads a single delimited character (delimiters and special escaped characters follow the lexical conventions of OCaml).
  • f, e, E, g, G: reads an optionally signed floating-point number in decimal notation, in the style dddd.ddd e/E+-dd.
  • F: reads a floating point number according to the lexical conventions of OCaml (hence the decimal point is mandatory if the exponent part is not mentioned).
  • B: reads a boolean argument (true or false).
  • b: reads a boolean argument (for backward compatibility; do not use in new programs).
  • ld, li, lu, lx, lX, lo: reads an int32 argument to the format specified by the second letter for regular integers.
  • nd, ni, nu, nx, nX, no: reads a nativeint argument to the format specified by the second letter for regular integers.
  • Ld, Li, Lu, Lx, LX, Lo: reads an int64 argument to the format specified by the second letter for regular integers.
  • [ range ]: reads characters that matches one of the characters mentioned in the range of characters range (or not mentioned in it, if the range starts with ^). Reads a string that can be empty, if the next input character does not match the range. The set of characters from c1 to c2 (inclusively) is denoted by c1-c2. Hence, %[0-9] returns a string representing a decimal number or an empty string if no decimal digit is found; similarly, %[\\048-\\057\\065-\\070] returns a string of hexadecimal digits. If a closing bracket appears in a range, it must occur as the first character of the range (or just after the ^ in case of range negation); hence []] matches a ] character and [^]] matches any character that is not ]. Use %% and %@ to include a % or a @ in a range.
  • r: user-defined reader. Takes the next ri formatted input function and applies it to the scanning buffer ib to read the next argument. The input function ri must therefore have type Scanning.in_channel -> 'a and the argument read has type 'a.
  • { fmt %}: reads a format string argument. The format string read must have the same type as the format string specification fmt. For instance, "%{ %i %}" reads any format string that can read a value of type int; hence, if s is the string "fmt:\"number is %u\"", then Scanf.sscanf s "fmt: %{%i%}" succeeds and returns the format string "number is %u".
  • \( fmt %\): scanning sub-format substitution. Reads a format string rf in the input, then goes on scanning with rf instead of scanning with fmt. The format string rf must have the same type as the format string specification fmt that it replaces. For instance, "%( %i %)" reads any format string that can read a value of type int. The conversion returns the format string read rf, and then a value read using rf. Hence, if s is the string "\"%4d\"1234.00", then Scanf.sscanf s "%(%i%)" (fun fmt i -> fmt, i) evaluates to ("%4d", 1234).
This behaviour is not mere format substitution, since the conversion returns the format string read as additional argument. If you need pure format substitution, use special flag _ to discard the extraneous argument: conversion %_\( fmt %\) reads a format string rf and then behaves the same as format string rf. Hence, if s is the string "\"%4d\"1234.00", then Scanf.sscanf s "%_(%i%)" is simply equivalent to Scanf.sscanf "1234.00" "%4d".

  • l: returns the number of lines read so far.
  • n: returns the number of characters read so far.
  • N or L: returns the number of tokens read so far.
  • !: matches the end of input condition.
  • %: matches one % character in the input.
  • @: matches one @ character in the input.
  • ,: does nothing.
Following the % character that introduces a conversion, there may be the special flag _: the conversion that follows occurs as usual, but the resulting value is discarded. For instance, if f is the function fun i -> i + 1, and s is the string "x = 1", then Scanf.sscanf s "%_s = %i" f returns 2.

The field width is composed of an optional integer literal indicating the maximal width of the token to read. For instance, %6d reads an integer, having at most 6 decimal digits; %4f reads a float with at most 4 characters; and %8[\\000-\\255] returns the next 8 characters (or all the characters still available, if fewer than 8 characters are available in the input).

Notes:

  • as mentioned above, a %s conversion always succeeds, even if there is nothing to read in the input: in this case, it simply returns "".
  • in addition to the relevant digits, '_' characters may appear inside numbers (this is reminiscent to the usual OCaml lexical conventions). If stricter scanning is desired, use the range conversion facility instead of the number conversions.
  • the scanf facility is not intended for heavy duty lexical analysis and parsing. If it appears not expressive enough for your needs, several alternative exists: regular expressions (module Str), stream parsers, ocamllex-generated lexers, ocamlyacc-generated parsers.


Scanning indications in format strings


Scanning indications appear just after the string conversions %s and %[ range ] to delimit the end of the token. A scanning indication is introduced by a @ character, followed by some plain character c. It means that the string token should end just before the next matching c (which is skipped). If no c character is encountered, the string token spreads as much as possible. For instance, "%s@\t" reads a string up to the next tab character or to the end of input. If a @ character appears anywhere else in the format string, it is treated as a plain character.

Note:

  • As usual in format strings, % and @ characters must be escaped using %% and %@; this rule still holds within range specifications and scanning indications. For instance, "%s@%%" reads a string up to the next % character.
  • The scanning indications introduce slight differences in the syntax of Scanf format strings, compared to those used for the Printf module. However, the scanning indications are similar to those used in the Format module; hence, when producing formatted text to be scanned by !Scanf.bscanf, it is wise to use printing functions from the Format module (or, if you need to use functions from Printf, banish or carefully double check the format strings that contain '@' characters).


Exceptions during scanning


Scanners may raise the following exceptions when the input cannot be read according to the format string:

  • Raise Scanf.Scan_failure if the input does not match the format.
  • Raise Failure if a conversion to a number is not possible.
  • Raise End_of_file if the end of input is encountered while some more characters are needed to read the current conversion specification.
  • Raise Invalid_argument if the format string is invalid.
Note:

  • as a consequence, scanning a %s conversion never raises exception End_of_file: if the end of input is reached the conversion succeeds and simply returns the characters read so far, or "" if none were ever read.


Specialised formatted input functions

val fscanf : in_channel -> ('a, 'b, 'c, 'd) scanner
Same as Scanf.bscanf, but reads from the given regular input channel.

Warning: since all formatted input functions operate from a formatted input channel, be aware that each fscanf invocation will operate with a formatted input channel reading from the given channel. This extra level of bufferization can lead to a strange scanning behaviour if you use low level primitives on the channel (reading characters, seeking the reading position, and so on).

As a consequence, never mix direct low level reading and high level scanning from the same regular input channel.

val sscanf : string -> ('a, 'b, 'c, 'd) scanner
Same as Scanf.bscanf, but reads from the given string.
val scanf : ('a, 'b, 'c, 'd) scanner
Same as Scanf.bscanf, but reads from the predefined formatted input channel Scanf.Scanning.stdin that is connected to Pervasives.stdin.
val kscanf : Scanning.in_channel ->
       (Scanning.in_channel -> exn -> 'd) -> ('a, 'b, 'c, 'd) scanner
Same as Scanf.bscanf, but takes an additional function argument ef that is called in case of error: if the scanning process or some conversion fails, the scanning function aborts and calls the error handling function ef with the formatted input channel and the exception that aborted the scanning process as arguments.

Reading format strings from input

val bscanf_format : Scanning.in_channel ->
       ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
       (('a, 'b, 'c, 'd, 'e, 'f) format6 -> 'g) -> 'g
bscanf_format ic fmt f reads a format string token from the formatted input channel ic, according to the given format string fmt, and applies f to the resulting format string value. Raise Scan_failure if the format string value read does not have the same type as fmt.
Since 3.09.0
val sscanf_format : string ->
       ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
       (('a, 'b, 'c, 'd, 'e, 'f) format6 -> 'g) -> 'g
Same as Scanf.bscanf_format, but reads from the given string.
Since 3.09.0
val format_from_string : string ->
       ('a, 'b, 'c, 'd, 'e, 'f) format6 -> ('a, 'b, 'c, 'd, 'e, 'f) format6
format_from_string s fmt converts a string argument to a format string, according to the given format string fmt. Raise Scan_failure if s, considered as a format string, does not have the same type as fmt.
Since 3.10.0
val unescaped : string -> string
Return a copy of the argument with escape sequences, following the lexical conventions of OCaml, replaced by their corresponding special characters. If there is no escape sequence in the argument, still return a copy, contrary to String.escaped.
Since 4.00.0
ocaml-doc-4.01/ocaml.html/libref/Big_int.html0000644000175000017500000006120012214324144017276 0ustar i33173i33173 Big_int
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Module Big_int

module Big_int: sig .. end
Operations on arbitrary-precision integers.

Big integers (type big_int) are signed integers of arbitrary size.

type big_int
The type of big integers.
val zero_big_int : big_int
The big integer 0.
val unit_big_int : big_int
The big integer 1.

Arithmetic operations

val minus_big_int : big_int -> big_int
Unary negation.
val abs_big_int : big_int -> big_int
Absolute value.
val add_big_int : big_int -> big_int -> big_int
Addition.
val succ_big_int : big_int -> big_int
Successor (add 1).
val add_int_big_int : int -> big_int -> big_int
Addition of a small integer to a big integer.
val sub_big_int : big_int -> big_int -> big_int
Subtraction.
val pred_big_int : big_int -> big_int
Predecessor (subtract 1).
val mult_big_int : big_int -> big_int -> big_int
Multiplication of two big integers.
val mult_int_big_int : int -> big_int -> big_int
Multiplication of a big integer by a small integer
val square_big_int : big_int -> big_int
Return the square of the given big integer
val sqrt_big_int : big_int -> big_int
sqrt_big_int a returns the integer square root of a, that is, the largest big integer r such that r * r <= a. Raise Invalid_argument if a is negative.
val quomod_big_int : big_int -> big_int -> big_int * big_int
Euclidean division of two big integers. The first part of the result is the quotient, the second part is the remainder. Writing (q,r) = quomod_big_int a b, we have a = q * b + r and 0 <= r < |b|. Raise Division_by_zero if the divisor is zero.
val div_big_int : big_int -> big_int -> big_int
Euclidean quotient of two big integers. This is the first result q of quomod_big_int (see above).
val mod_big_int : big_int -> big_int -> big_int
Euclidean modulus of two big integers. This is the second result r of quomod_big_int (see above).
val gcd_big_int : big_int -> big_int -> big_int
Greatest common divisor of two big integers.
val power_int_positive_int : int -> int -> big_int
val power_big_int_positive_int : big_int -> int -> big_int
val power_int_positive_big_int : int -> big_int -> big_int
val power_big_int_positive_big_int : big_int -> big_int -> big_int
Exponentiation functions. Return the big integer representing the first argument a raised to the power b (the second argument). Depending on the function, a and b can be either small integers or big integers. Raise Invalid_argument if b is negative.

Comparisons and tests

val sign_big_int : big_int -> int
Return 0 if the given big integer is zero, 1 if it is positive, and -1 if it is negative.
val compare_big_int : big_int -> big_int -> int
compare_big_int a b returns 0 if a and b are equal, 1 if a is greater than b, and -1 if a is smaller than b.
val eq_big_int : big_int -> big_int -> bool
val le_big_int : big_int -> big_int -> bool
val ge_big_int : big_int -> big_int -> bool
val lt_big_int : big_int -> big_int -> bool
val gt_big_int : big_int -> big_int -> bool
Usual boolean comparisons between two big integers.
val max_big_int : big_int -> big_int -> big_int
Return the greater of its two arguments.
val min_big_int : big_int -> big_int -> big_int
Return the smaller of its two arguments.
val num_digits_big_int : big_int -> int
Return the number of machine words used to store the given big integer.

Conversions to and from strings

val string_of_big_int : big_int -> string
Return the string representation of the given big integer, in decimal (base 10).
val big_int_of_string : string -> big_int
Convert a string to a big integer, in decimal. The string consists of an optional - or + sign, followed by one or several decimal digits.

Conversions to and from other numerical types

val big_int_of_int : int -> big_int
Convert a small integer to a big integer.
val is_int_big_int : big_int -> bool
Test whether the given big integer is small enough to be representable as a small integer (type int) without loss of precision. On a 32-bit platform, is_int_big_int a returns true if and only if a is between 230 and 230-1. On a 64-bit platform, is_int_big_int a returns true if and only if a is between -262 and 262-1.
val int_of_big_int : big_int -> int
Convert a big integer to a small integer (type int). Raises Failure "int_of_big_int" if the big integer is not representable as a small integer.
val big_int_of_int32 : int32 -> big_int
Convert a 32-bit integer to a big integer.
val big_int_of_nativeint : nativeint -> big_int
Convert a native integer to a big integer.
val big_int_of_int64 : int64 -> big_int
Convert a 64-bit integer to a big integer.
val int32_of_big_int : big_int -> int32
Convert a big integer to a 32-bit integer. Raises Failure if the big integer is outside the range [-2{^31}, 2{^31}-1].
val nativeint_of_big_int : big_int -> nativeint
Convert a big integer to a native integer. Raises Failure if the big integer is outside the range [Nativeint.min_int, Nativeint.max_int].
val int64_of_big_int : big_int -> int64
Convert a big integer to a 64-bit integer. Raises Failure if the big integer is outside the range [-2{^63}, 2{^63}-1].
val float_of_big_int : big_int -> float
Returns a floating-point number approximating the given big integer.

Bit-oriented operations

val and_big_int : big_int -> big_int -> big_int
Bitwise logical 'and'. The arguments must be positive or zero.
val or_big_int : big_int -> big_int -> big_int
Bitwise logical 'or'. The arguments must be positive or zero.
val xor_big_int : big_int -> big_int -> big_int
Bitwise logical 'exclusive or'. The arguments must be positive or zero.
val shift_left_big_int : big_int -> int -> big_int
shift_left_big_int b n returns b shifted left by n bits. Equivalent to multiplication by 2^n.
val shift_right_big_int : big_int -> int -> big_int
shift_right_big_int b n returns b shifted right by n bits. Equivalent to division by 2^n with the result being rounded towards minus infinity.
val shift_right_towards_zero_big_int : big_int -> int -> big_int
shift_right_towards_zero_big_int b n returns b shifted right by n bits. The shift is performed on the absolute value of b, and the result has the same sign as b. Equivalent to division by 2^n with the result being rounded towards zero.
val extract_big_int : big_int -> int -> int -> big_int
extract_big_int bi ofs n returns a nonnegative number corresponding to bits ofs to ofs + n - 1 of the binary representation of bi. If bi is negative, a two's complement representation is used.
ocaml-doc-4.01/ocaml.html/libref/type_Weak.S.html0000644000175000017500000002017612214324173020065 0ustar i33173i33173 Weak.S sig
  type data
  type t
  val create : int -> Weak.S.t
  val clear : Weak.S.t -> unit
  val merge : Weak.S.t -> Weak.S.data -> Weak.S.data
  val add : Weak.S.t -> Weak.S.data -> unit
  val remove : Weak.S.t -> Weak.S.data -> unit
  val find : Weak.S.t -> Weak.S.data -> Weak.S.data
  val find_all : Weak.S.t -> Weak.S.data -> Weak.S.data list
  val mem : Weak.S.t -> Weak.S.data -> bool
  val iter : (Weak.S.data -> unit) -> Weak.S.t -> unit
  val fold : (Weak.S.data -> '-> 'a) -> Weak.S.t -> '-> 'a
  val count : Weak.S.t -> int
  val stats : Weak.S.t -> int * int * int * int * int * int
endocaml-doc-4.01/ocaml.html/libref/type_Char.html0000644000175000017500000001236412214324147017653 0ustar i33173i33173 Char sig
  external code : char -> int = "%identity"
  val chr : int -> char
  val escaped : char -> string
  val lowercase : char -> char
  val uppercase : char -> char
  type t = char
  val compare : Char.t -> Char.t -> int
  external unsafe_chr : int -> char = "%identity"
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.SeededHashedType.html0000644000175000017500000001363412214324154024514 0ustar i33173i33173 MoreLabels.Hashtbl.SeededHashedType
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Module type MoreLabels.Hashtbl.SeededHashedType

module type SeededHashedType = Hashtbl.SeededHashedType
type t
The type of the hashtable keys.
val equal : t -> t -> bool
The equality predicate used to compare keys.
val hash : int -> t -> int
A seeded hashing function on keys. The first argument is the seed. It must be the case that if equal x y is true, then hash seed x = hash seed y for any value of seed. A suitable choice for hash is the function Hashtbl.seeded_hash below.
ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.S.html0000644000175000017500000001767512214324154021557 0ustar i33173i33173 MoreLabels.Hashtbl.S
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Module type MoreLabels.Hashtbl.S

module type S = sig .. end
type key 
type 'a t 
val create : int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key:key -> data:'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key:key -> data:'a -> unit
val mem : 'a t -> key -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val length : 'a t -> int
val stats : 'a t -> MoreLabels.Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/StringLabels.html0000644000175000017500000004655312214324166020336 0ustar i33173i33173 StringLabels
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Module StringLabels

module StringLabels: sig .. end
String operations.
val length : string -> int
Return the length (number of characters) of the given string.
val get : string -> int -> char
String.get s n returns character number n in string s. The first character is character number 0. The last character is character number String.length s - 1. You can also write s.[n] instead of String.get s n.

Raise Invalid_argument "index out of bounds" if n is outside the range 0 to (String.length s - 1).

val set : string -> int -> char -> unit
String.set s n c modifies string s in place, replacing the character number n by c. You can also write s.[n] <- c instead of String.set s n c. Raise Invalid_argument "index out of bounds" if n is outside the range 0 to (String.length s - 1).
val create : int -> string
String.create n returns a fresh string of length n. The string initially contains arbitrary characters. Raise Invalid_argument if n < 0 or n > Sys.max_string_length.
val make : int -> char -> string
String.make n c returns a fresh string of length n, filled with the character c. Raise Invalid_argument if n < 0 or n > Sys.max_string_length.
val copy : string -> string
Return a copy of the given string.
val sub : string -> pos:int -> len:int -> string
String.sub s start len returns a fresh string of length len, containing the characters number start to start + len - 1 of string s. Raise Invalid_argument if start and len do not designate a valid substring of s; that is, if start < 0, or len < 0, or start + len > StringLabels.length s.
val fill : string -> pos:int -> len:int -> char -> unit
String.fill s start len c modifies string s in place, replacing the characters number start to start + len - 1 by c. Raise Invalid_argument if start and len do not designate a valid substring of s.
val blit : src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
String.blit src srcoff dst dstoff len copies len characters from string src, starting at character number srcoff, to string dst, starting at character number dstoff. It works correctly even if src and dst are the same string, and the source and destination chunks overlap. Raise Invalid_argument if srcoff and len do not designate a valid substring of src, or if dstoff and len do not designate a valid substring of dst.
val concat : sep:string -> string list -> string
String.concat sep sl concatenates the list of strings sl, inserting the separator string sep between each.
val iter : f:(char -> unit) -> string -> unit
String.iter f s applies function f in turn to all the characters of s. It is equivalent to f s.[0]; f s.[1]; ...; f s.[String.length s - 1]; ().
val iteri : f:(int -> char -> unit) -> string -> unit
Same as String.iter, but the function is applied to the index of the element as first argument (counting from 0), and the character itself as second argument.
Since 4.00.0
val map : f:(char -> char) -> string -> string
String.map f s applies function f in turn to all the characters of s and stores the results in a new string that is returned.
Since 4.00.0
val trim : string -> string
Return a copy of the argument, without leading and trailing whitespace. The characters regarded as whitespace are: ' ', '\012', '\n', '\r', and '\t'. If there is no whitespace character in the argument, return the original string itself, not a copy.
Since 4.00.0
val escaped : string -> string
Return a copy of the argument, with special characters represented by escape sequences, following the lexical conventions of OCaml. If there is no special character in the argument, return the original string itself, not a copy.
val index : string -> char -> int
String.index s c returns the position of the leftmost occurrence of character c in string s. Raise Not_found if c does not occur in s.
val rindex : string -> char -> int
String.rindex s c returns the position of the rightmost occurrence of character c in string s. Raise Not_found if c does not occur in s.
val index_from : string -> int -> char -> int
Same as StringLabels.index, but start searching at the character position given as second argument. String.index s c is equivalent to String.index_from s 0 c.
val rindex_from : string -> int -> char -> int
Same as StringLabels.rindex, but start searching at the character position given as second argument. String.rindex s c is equivalent to String.rindex_from s (String.length s - 1) c.
val contains : string -> char -> bool
String.contains s c tests if character c appears in the string s.
val contains_from : string -> int -> char -> bool
String.contains_from s start c tests if character c appears in the substring of s starting from start to the end of s. Raise Invalid_argument if start is not a valid index of s.
val rcontains_from : string -> int -> char -> bool
String.rcontains_from s stop c tests if character c appears in the substring of s starting from the beginning of s to index stop. Raise Invalid_argument if stop is not a valid index of s.
val uppercase : string -> string
Return a copy of the argument, with all lowercase letters translated to uppercase, including accented letters of the ISO Latin-1 (8859-1) character set.
val lowercase : string -> string
Return a copy of the argument, with all uppercase letters translated to lowercase, including accented letters of the ISO Latin-1 (8859-1) character set.
val capitalize : string -> string
Return a copy of the argument, with the first character set to uppercase.
val uncapitalize : string -> string
Return a copy of the argument, with the first character set to lowercase.
type t = string
An alias for the type of strings.
val compare : t -> t -> int
The comparison function for strings, with the same specification as compare. Along with the type t, this function compare allows the module String to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/index_methods.html0000644000175000017500000001013512214324176020563 0ustar i33173i33173 Index of class methods
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Index of class methods

ocaml-doc-4.01/ocaml.html/libref/Int32.html0000644000175000017500000003717012214324152016632 0ustar i33173i33173 Int32
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Module Int32

module Int32: sig .. end
32-bit integers.

This module provides operations on the type int32 of signed 32-bit integers. Unlike the built-in int type, the type int32 is guaranteed to be exactly 32-bit wide on all platforms. All arithmetic operations over int32 are taken modulo 232.

Performance notice: values of type int32 occupy more memory space than values of type int, and arithmetic operations on int32 are generally slower than those on int. Use int32 only when the application requires exact 32-bit arithmetic.

val zero : int32
The 32-bit integer 0.
val one : int32
The 32-bit integer 1.
val minus_one : int32
The 32-bit integer -1.
val neg : int32 -> int32
Unary negation.
val add : int32 -> int32 -> int32
Addition.
val sub : int32 -> int32 -> int32
Subtraction.
val mul : int32 -> int32 -> int32
Multiplication.
val div : int32 -> int32 -> int32
Integer division. Raise Division_by_zero if the second argument is zero. This division rounds the real quotient of its arguments towards zero, as specified for (/).
val rem : int32 -> int32 -> int32
Integer remainder. If y is not zero, the result of Int32.rem x y satisfies the following property: x = Int32.add (Int32.mul (Int32.div x y) y) (Int32.rem x y). If y = 0, Int32.rem x y raises Division_by_zero.
val succ : int32 -> int32
Successor. Int32.succ x is Int32.add x Int32.one.
val pred : int32 -> int32
Predecessor. Int32.pred x is Int32.sub x Int32.one.
val abs : int32 -> int32
Return the absolute value of its argument.
val max_int : int32
The greatest representable 32-bit integer, 231 - 1.
val min_int : int32
The smallest representable 32-bit integer, -231.
val logand : int32 -> int32 -> int32
Bitwise logical and.
val logor : int32 -> int32 -> int32
Bitwise logical or.
val logxor : int32 -> int32 -> int32
Bitwise logical exclusive or.
val lognot : int32 -> int32
Bitwise logical negation
val shift_left : int32 -> int -> int32
Int32.shift_left x y shifts x to the left by y bits. The result is unspecified if y < 0 or y >= 32.
val shift_right : int32 -> int -> int32
Int32.shift_right x y shifts x to the right by y bits. This is an arithmetic shift: the sign bit of x is replicated and inserted in the vacated bits. The result is unspecified if y < 0 or y >= 32.
val shift_right_logical : int32 -> int -> int32
Int32.shift_right_logical x y shifts x to the right by y bits. This is a logical shift: zeroes are inserted in the vacated bits regardless of the sign of x. The result is unspecified if y < 0 or y >= 32.
val of_int : int -> int32
Convert the given integer (type int) to a 32-bit integer (type int32).
val to_int : int32 -> int
Convert the given 32-bit integer (type int32) to an integer (type int). On 32-bit platforms, the 32-bit integer is taken modulo 231, i.e. the high-order bit is lost during the conversion. On 64-bit platforms, the conversion is exact.
val of_float : float -> int32
Convert the given floating-point number to a 32-bit integer, discarding the fractional part (truncate towards 0). The result of the conversion is undefined if, after truncation, the number is outside the range [Int32.min_int, Int32.max_int].
val to_float : int32 -> float
Convert the given 32-bit integer to a floating-point number.
val of_string : string -> int32
Convert the given string to a 32-bit integer. The string is read in decimal (by default) or in hexadecimal, octal or binary if the string begins with 0x, 0o or 0b respectively. Raise Failure "int_of_string" if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type int32.
val to_string : int32 -> string
Return the string representation of its argument, in signed decimal.
val bits_of_float : float -> int32
Return the internal representation of the given float according to the IEEE 754 floating-point 'single format' bit layout. Bit 31 of the result represents the sign of the float; bits 30 to 23 represent the (biased) exponent; bits 22 to 0 represent the mantissa.
val float_of_bits : int32 -> float
Return the floating-point number whose internal representation, according to the IEEE 754 floating-point 'single format' bit layout, is the given int32.
type t = int32
An alias for the type of 32-bit integers.
val compare : t -> t -> int
The comparison function for 32-bit integers, with the same specification as compare. Along with the type t, this function compare allows the module Int32 to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/ArrayLabels.html0000644000175000017500000005156612214324144020142 0ustar i33173i33173 ArrayLabels
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Module ArrayLabels

module ArrayLabels: sig .. end
Array operations.
val length : 'a array -> int
Return the length (number of elements) of the given array.
val get : 'a array -> int -> 'a
Array.get a n returns the element number n of array a. The first element has number 0. The last element has number Array.length a - 1. You can also write a.(n) instead of Array.get a n.

Raise Invalid_argument "index out of bounds" if n is outside the range 0 to (Array.length a - 1).

val set : 'a array -> int -> 'a -> unit
Array.set a n x modifies array a in place, replacing element number n with x. You can also write a.(n) <- x instead of Array.set a n x.

Raise Invalid_argument "index out of bounds" if n is outside the range 0 to Array.length a - 1.

val make : int -> 'a -> 'a array
Array.make n x returns a fresh array of length n, initialized with x. All the elements of this new array are initially physically equal to x (in the sense of the == predicate). Consequently, if x is mutable, it is shared among all elements of the array, and modifying x through one of the array entries will modify all other entries at the same time.

Raise Invalid_argument if n < 0 or n > Sys.max_array_length. If the value of x is a floating-point number, then the maximum size is only Sys.max_array_length / 2.

val create : int -> 'a -> 'a array
Deprecated.Array.create is an alias for ArrayLabels.make.
val init : int -> f:(int -> 'a) -> 'a array
Array.init n f returns a fresh array of length n, with element number i initialized to the result of f i. In other terms, Array.init n f tabulates the results of f applied to the integers 0 to n-1.

Raise Invalid_argument if n < 0 or n > Sys.max_array_length. If the return type of f is float, then the maximum size is only Sys.max_array_length / 2.

val make_matrix : dimx:int -> dimy:int -> 'a -> 'a array array
Array.make_matrix dimx dimy e returns a two-dimensional array (an array of arrays) with first dimension dimx and second dimension dimy. All the elements of this new matrix are initially physically equal to e. The element (x,y) of a matrix m is accessed with the notation m.(x).(y).

Raise Invalid_argument if dimx or dimy is negative or greater than Sys.max_array_length. If the value of e is a floating-point number, then the maximum size is only Sys.max_array_length / 2.

val create_matrix : dimx:int -> dimy:int -> 'a -> 'a array array
Deprecated.Array.create_matrix is an alias for ArrayLabels.make_matrix.
val append : 'a array -> 'a array -> 'a array
Array.append v1 v2 returns a fresh array containing the concatenation of the arrays v1 and v2.
val concat : 'a array list -> 'a array
Same as Array.append, but concatenates a list of arrays.
val sub : 'a array -> pos:int -> len:int -> 'a array
Array.sub a start len returns a fresh array of length len, containing the elements number start to start + len - 1 of array a.

Raise Invalid_argument "Array.sub" if start and len do not designate a valid subarray of a; that is, if start < 0, or len < 0, or start + len > Array.length a.

val copy : 'a array -> 'a array
Array.copy a returns a copy of a, that is, a fresh array containing the same elements as a.
val fill : 'a array -> pos:int -> len:int -> 'a -> unit
Array.fill a ofs len x modifies the array a in place, storing x in elements number ofs to ofs + len - 1.

Raise Invalid_argument "Array.fill" if ofs and len do not designate a valid subarray of a.

val blit : src:'a array -> src_pos:int -> dst:'a array -> dst_pos:int -> len:int -> unit
Array.blit v1 o1 v2 o2 len copies len elements from array v1, starting at element number o1, to array v2, starting at element number o2. It works correctly even if v1 and v2 are the same array, and the source and destination chunks overlap.

Raise Invalid_argument "Array.blit" if o1 and len do not designate a valid subarray of v1, or if o2 and len do not designate a valid subarray of v2.

val to_list : 'a array -> 'a list
Array.to_list a returns the list of all the elements of a.
val of_list : 'a list -> 'a array
Array.of_list l returns a fresh array containing the elements of l.
val iter : f:('a -> unit) -> 'a array -> unit
Array.iter f a applies function f in turn to all the elements of a. It is equivalent to f a.(0); f a.(1); ...; f a.(Array.length a - 1); ().
val map : f:('a -> 'b) -> 'a array -> 'b array
Array.map f a applies function f to all the elements of a, and builds an array with the results returned by f: [| f a.(0); f a.(1); ...; f a.(Array.length a - 1) |].
val iteri : f:(int -> 'a -> unit) -> 'a array -> unit
Same as ArrayLabels.iter, but the function is applied to the index of the element as first argument, and the element itself as second argument.
val mapi : f:(int -> 'a -> 'b) -> 'a array -> 'b array
Same as ArrayLabels.map, but the function is applied to the index of the element as first argument, and the element itself as second argument.
val fold_left : f:('a -> 'b -> 'a) -> init:'a -> 'b array -> 'a
Array.fold_left f x a computes f (... (f (f x a.(0)) a.(1)) ...) a.(n-1), where n is the length of the array a.
val fold_right : f:('b -> 'a -> 'a) -> 'b array -> init:'a -> 'a
Array.fold_right f a x computes f a.(0) (f a.(1) ( ... (f a.(n-1) x) ...)), where n is the length of the array a.

Sorting

val sort : cmp:('a -> 'a -> int) -> 'a array -> unit
Sort an array in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see below for a complete specification). For example, compare is a suitable comparison function, provided there are no floating-point NaN values in the data. After calling Array.sort, the array is sorted in place in increasing order. Array.sort is guaranteed to run in constant heap space and (at most) logarithmic stack space.

The current implementation uses Heap Sort. It runs in constant stack space.

Specification of the comparison function: Let a be the array and cmp the comparison function. The following must be true for all x, y, z in a :

  • cmp x y > 0 if and only if cmp y x < 0
  • if cmp x y >= 0 and cmp y z >= 0 then cmp x z >= 0
When Array.sort returns, a contains the same elements as before, reordered in such a way that for all i and j valid indices of a :
  • cmp a.(i) a.(j) >= 0 if and only if i >= j

val stable_sort : cmp:('a -> 'a -> int) -> 'a array -> unit
Same as ArrayLabels.sort, but the sorting algorithm is stable (i.e. elements that compare equal are kept in their original order) and not guaranteed to run in constant heap space.

The current implementation uses Merge Sort. It uses n/2 words of heap space, where n is the length of the array. It is usually faster than the current implementation of ArrayLabels.sort.

val fast_sort : cmp:('a -> 'a -> int) -> 'a array -> unit
Same as Array.sort or Array.stable_sort, whichever is faster on typical input.
ocaml-doc-4.01/ocaml.html/libref/type_Array.html0000644000175000017500000003222612214324144020050 0ustar i33173i33173 Array sig
  external length : 'a array -> int = "%array_length"
  external get : 'a array -> int -> 'a = "%array_safe_get"
  external set : 'a array -> int -> '-> unit = "%array_safe_set"
  external make : int -> '-> 'a array = "caml_make_vect"
  external create : int -> '-> 'a array = "caml_make_vect"
  val init : int -> (int -> 'a) -> 'a array
  val make_matrix : int -> int -> '-> 'a array array
  val create_matrix : int -> int -> '-> 'a array array
  val append : 'a array -> 'a array -> 'a array
  val concat : 'a array list -> 'a array
  val sub : 'a array -> int -> int -> 'a array
  val copy : 'a array -> 'a array
  val fill : 'a array -> int -> int -> '-> unit
  val blit : 'a array -> int -> 'a array -> int -> int -> unit
  val to_list : 'a array -> 'a list
  val of_list : 'a list -> 'a array
  val iter : ('-> unit) -> 'a array -> unit
  val map : ('-> 'b) -> 'a array -> 'b array
  val iteri : (int -> '-> unit) -> 'a array -> unit
  val mapi : (int -> '-> 'b) -> 'a array -> 'b array
  val fold_left : ('-> '-> 'a) -> '-> 'b array -> 'a
  val fold_right : ('-> '-> 'a) -> 'b array -> '-> 'a
  val sort : ('-> '-> int) -> 'a array -> unit
  val stable_sort : ('-> '-> int) -> 'a array -> unit
  val fast_sort : ('-> '-> int) -> 'a array -> unit
  external unsafe_get : 'a array -> int -> 'a = "%array_unsafe_get"
  external unsafe_set : 'a array -> int -> '-> unit = "%array_unsafe_set"
endocaml-doc-4.01/ocaml.html/libref/type_ThreadUnix.html0000644000175000017500000002743112214324167021054 0ustar i33173i33173 ThreadUnix sig
  val execv : string -> string array -> unit
  val execve : string -> string array -> string array -> unit
  val execvp : string -> string array -> unit
  val wait : unit -> int * Unix.process_status
  val waitpid : Unix.wait_flag list -> int -> int * Unix.process_status
  val system : string -> Unix.process_status
  val read : Unix.file_descr -> string -> int -> int -> int
  val write : Unix.file_descr -> string -> int -> int -> int
  val timed_read : Unix.file_descr -> string -> int -> int -> float -> int
  val timed_write : Unix.file_descr -> string -> int -> int -> float -> int
  val select :
    Unix.file_descr list ->
    Unix.file_descr list ->
    Unix.file_descr list ->
    float ->
    Unix.file_descr list * Unix.file_descr list * Unix.file_descr list
  val pipe : unit -> Unix.file_descr * Unix.file_descr
  val open_process_in : string -> Pervasives.in_channel
  val open_process_out : string -> Pervasives.out_channel
  val open_process : string -> Pervasives.in_channel * Pervasives.out_channel
  val sleep : int -> unit
  val socket :
    Unix.socket_domain -> Unix.socket_type -> int -> Unix.file_descr
  val accept : Unix.file_descr -> Unix.file_descr * Unix.sockaddr
  val connect : Unix.file_descr -> Unix.sockaddr -> unit
  val recv :
    Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
  val recvfrom :
    Unix.file_descr ->
    string -> int -> int -> Unix.msg_flag list -> int * Unix.sockaddr
  val send :
    Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
  val sendto :
    Unix.file_descr ->
    string -> int -> int -> Unix.msg_flag list -> Unix.sockaddr -> int
  val open_connection :
    Unix.sockaddr -> Pervasives.in_channel * Pervasives.out_channel
endocaml-doc-4.01/ocaml.html/libref/type_Random.html0000644000175000017500000002212212214324163020205 0ustar i33173i33173 Random sig
  val init : int -> unit
  val full_init : int array -> unit
  val self_init : unit -> unit
  val bits : unit -> int
  val int : int -> int
  val int32 : Int32.t -> Int32.t
  val nativeint : Nativeint.t -> Nativeint.t
  val int64 : Int64.t -> Int64.t
  val float : float -> float
  val bool : unit -> bool
  module State :
    sig
      type t
      val make : int array -> Random.State.t
      val make_self_init : unit -> Random.State.t
      val copy : Random.State.t -> Random.State.t
      val bits : Random.State.t -> int
      val int : Random.State.t -> int -> int
      val int32 : Random.State.t -> Int32.t -> Int32.t
      val nativeint : Random.State.t -> Nativeint.t -> Nativeint.t
      val int64 : Random.State.t -> Int64.t -> Int64.t
      val float : Random.State.t -> float -> float
      val bool : Random.State.t -> bool
    end
  val get_state : unit -> Random.State.t
  val set_state : Random.State.t -> unit
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.SeededS.html0000644000175000017500000001770012214324154022656 0ustar i33173i33173 MoreLabels.Hashtbl.SeededS
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Module type MoreLabels.Hashtbl.SeededS

module type SeededS = sig .. end
type key 
type 'a t 
val create : ?random:bool -> int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t ->
       key:key -> data:'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t ->
       key:key -> data:'a -> unit
val mem : 'a t -> key -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val length : 'a t -> int
val stats : 'a t -> MoreLabels.Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/Map.S.html0000644000175000017500000004226312214324153016651 0ustar i33173i33173 Map.S
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Module type Map.S

module type S = sig .. end
Output signature of the functor Map.Make.
type key
The type of the map keys.
type +'a t
The type of maps from type key to type 'a.
val empty : 'a t
The empty map.
val is_empty : 'a t -> bool
Test whether a map is empty or not.
val mem : key -> 'a t -> bool
mem x m returns true if m contains a binding for x, and false otherwise.
val add : key -> 'a -> 'a t -> 'a t
add x y m returns a map containing the same bindings as m, plus a binding of x to y. If x was already bound in m, its previous binding disappears.
val singleton : key -> 'a -> 'a t
singleton x y returns the one-element map that contains a binding y for x.
Since 3.12.0
val remove : key -> 'a t -> 'a t
remove x m returns a map containing the same bindings as m, except for x which is unbound in the returned map.
val merge : (key -> 'a option -> 'b option -> 'c option) ->
       'a t -> 'b t -> 'c t
merge f m1 m2 computes a map whose keys is a subset of keys of m1 and of m2. The presence of each such binding, and the corresponding value, is determined with the function f.
Since 3.12.0
val compare : ('a -> 'a -> int) -> 'a t -> 'a t -> int
Total ordering between maps. The first argument is a total ordering used to compare data associated with equal keys in the two maps.
val equal : ('a -> 'a -> bool) -> 'a t -> 'a t -> bool
equal cmp m1 m2 tests whether the maps m1 and m2 are equal, that is, contain equal keys and associate them with equal data. cmp is the equality predicate used to compare the data associated with the keys.
val iter : (key -> 'a -> unit) -> 'a t -> unit
iter f m applies f to all bindings in map m. f receives the key as first argument, and the associated value as second argument. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys.
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
fold f m a computes (f kN dN ... (f k1 d1 a)...), where k1 ... kN are the keys of all bindings in m (in increasing order), and d1 ... dN are the associated data.
val for_all : (key -> 'a -> bool) -> 'a t -> bool
for_all p m checks if all the bindings of the map satisfy the predicate p.
Since 3.12.0
val exists : (key -> 'a -> bool) -> 'a t -> bool
exists p m checks if at least one binding of the map satisfy the predicate p.
Since 3.12.0
val filter : (key -> 'a -> bool) -> 'a t -> 'a t
filter p m returns the map with all the bindings in m that satisfy predicate p.
Since 3.12.0
val partition : (key -> 'a -> bool) -> 'a t -> 'a t * 'a t
partition p m returns a pair of maps (m1, m2), where m1 contains all the bindings of s that satisfy the predicate p, and m2 is the map with all the bindings of s that do not satisfy p.
Since 3.12.0
val cardinal : 'a t -> int
Return the number of bindings of a map.
Since 3.12.0
val bindings : 'a t -> (key * 'a) list
Return the list of all bindings of the given map. The returned list is sorted in increasing order with respect to the ordering Ord.compare, where Ord is the argument given to Map.Make.
Since 3.12.0
val min_binding : 'a t -> key * 'a
Return the smallest binding of the given map (with respect to the Ord.compare ordering), or raise Not_found if the map is empty.
Since 3.12.0
val max_binding : 'a t -> key * 'a
Same as Map.S.min_binding, but returns the largest binding of the given map.
Since 3.12.0
val choose : 'a t -> key * 'a
Return one binding of the given map, or raise Not_found if the map is empty. Which binding is chosen is unspecified, but equal bindings will be chosen for equal maps.
Since 3.12.0
val split : key -> 'a t -> 'a t * 'a option * 'a t
split x m returns a triple (l, data, r), where l is the map with all the bindings of m whose key is strictly less than x; r is the map with all the bindings of m whose key is strictly greater than x; data is None if m contains no binding for x, or Some v if m binds v to x.
Since 3.12.0
val find : key -> 'a t -> 'a
find x m returns the current binding of x in m, or raises Not_found if no such binding exists.
val map : ('a -> 'b) -> 'a t -> 'b t
map f m returns a map with same domain as m, where the associated value a of all bindings of m has been replaced by the result of the application of f to a. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys.
val mapi : (key -> 'a -> 'b) -> 'a t -> 'b t
Same as Map.S.map, but the function receives as arguments both the key and the associated value for each binding of the map.
ocaml-doc-4.01/ocaml.html/libref/type_Tk.html0000644000175000017500000007277512214324167017372 0ustar i33173i33173 Tk sig
  val openTk :
    ?display:string -> ?clas:string -> unit -> Widget.toplevel Widget.widget
  val mainLoop : unit -> unit
  val closeTk : unit -> unit
  val destroy : 'Widget.widget -> unit
  val update : unit -> unit
  val appname_get : unit -> string
  val appname_set : string -> unit
  type units =
      [ `Cm of float
      | `In of float
      | `Mm of float
      | `Pix of int
      | `Pt of float ]
  val pixels : Tk.units -> int
  type anchor = [ `Center | `E | `N | `Ne | `Nw | `S | `Se | `Sw | `W ]
  type fillMode = [ `Both | `None | `X | `Y ]
  type side = [ `Bottom | `Left | `Right | `Top ]
  val pack :
    ?after:'Widget.widget ->
    ?anchor:Tk.anchor ->
    ?before:'Widget.widget ->
    ?expand:bool ->
    ?fill:Tk.fillMode ->
    ?inside:'Widget.widget ->
    ?ipadx:int ->
    ?ipady:int ->
    ?padx:int -> ?pady:int -> ?side:Tk.side -> 'Widget.widget list -> unit
  val grid :
    ?column:int ->
    ?columnspan:int ->
    ?inside:'Widget.widget ->
    ?ipadx:int ->
    ?ipady:int ->
    ?padx:int ->
    ?pady:int ->
    ?row:int ->
    ?rowspan:int -> ?sticky:string -> 'Widget.widget list -> unit
  type borderMode = [ `Ignore | `Inside | `Outside ]
  val place :
    ?anchor:Tk.anchor ->
    ?bordermode:Tk.borderMode ->
    ?height:int ->
    ?inside:'Widget.widget ->
    ?relheight:float ->
    ?relwidth:float ->
    ?relx:float ->
    ?rely:float -> ?width:int -> ?x:int -> ?y:int -> 'Widget.widget -> unit
  val raise_window : ?above:'Widget.widget -> 'Widget.widget -> unit
  val lower_window : ?below:'Widget.widget -> 'Widget.widget -> unit
  type modifier =
      [ `Alt
      | `Button1
      | `Button2
      | `Button3
      | `Button4
      | `Button5
      | `Control
      | `Double
      | `Lock
      | `Meta
      | `Mod1
      | `Mod2
      | `Mod3
      | `Mod4
      | `Mod5
      | `Shift
      | `Triple ]
  type event =
      [ `ButtonPress
      | `ButtonPressDetail of int
      | `ButtonRelease
      | `ButtonReleaseDetail of int
      | `Circulate
      | `ColorMap
      | `Configure
      | `Destroy
      | `Enter
      | `Expose
      | `FocusIn
      | `FocusOut
      | `Gravity
      | `KeyPress
      | `KeyPressDetail of string
      | `KeyRelease
      | `KeyReleaseDetail of string
      | `Leave
      | `Map
      | `Modified of Tk.modifier list * Tk.event
      | `Motion
      | `Property
      | `Reparent
      | `Unmap
      | `Visibility ]
  type eventInfo = {
    mutable ev_Above : int;
    mutable ev_ButtonNumber : int;
    mutable ev_Count : int;
    mutable ev_Detail : string;
    mutable ev_Focus : bool;
    mutable ev_Height : int;
    mutable ev_KeyCode : int;
    mutable ev_Mode : string;
    mutable ev_OverrideRedirect : bool;
    mutable ev_Place : string;
    mutable ev_State : string;
    mutable ev_Time : int;
    mutable ev_Width : int;
    mutable ev_MouseX : int;
    mutable ev_MouseY : int;
    mutable ev_Char : string;
    mutable ev_BorderWidth : int;
    mutable ev_SendEvent : bool;
    mutable ev_KeySymString : string;
    mutable ev_KeySymInt : int;
    mutable ev_RootWindow : int;
    mutable ev_SubWindow : int;
    mutable ev_Type : int;
    mutable ev_Widget : Widget.any Widget.widget;
    mutable ev_RootX : int;
    mutable ev_RootY : int;
  }
  type eventField =
      [ `Above
      | `BorderWidth
      | `ButtonNumber
      | `Char
      | `Count
      | `Detail
      | `Focus
      | `Height
      | `KeyCode
      | `KeySymInt
      | `KeySymString
      | `Mode
      | `MouseX
      | `MouseY
      | `OverrideRedirect
      | `Place
      | `RootWindow
      | `RootX
      | `RootY
      | `SendEvent
      | `State
      | `SubWindow
      | `Time
      | `Type
      | `Widget
      | `Width ]
  val bind :
    events:Tk.event list ->
    ?extend:bool ->
    ?breakable:bool ->
    ?fields:Tk.eventField list ->
    ?action:(Tk.eventInfo -> unit) -> 'Widget.widget -> unit
  val bind_class :
    events:Tk.event list ->
    ?extend:bool ->
    ?breakable:bool ->
    ?fields:Tk.eventField list ->
    ?action:(Tk.eventInfo -> unit) -> ?on:'Widget.widget -> string -> unit
  val bind_tag :
    events:Tk.event list ->
    ?extend:bool ->
    ?breakable:bool ->
    ?fields:Tk.eventField list ->
    ?action:(Tk.eventInfo -> unit) -> ?on:'Widget.widget -> string -> unit
  val break : unit -> unit
endocaml-doc-4.01/ocaml.html/libref/Unix.LargeFile.html0000644000175000017500000003015212214324170020500 0ustar i33173i33173 Unix.LargeFile
 Up  

Module Unix.LargeFile

module LargeFile: sig .. end
File operations on large files. This sub-module provides 64-bit variants of the functions Unix.lseek (for positioning a file descriptor), Unix.truncate and Unix.ftruncate (for changing the size of a file), and Unix.stat, Unix.lstat and Unix.fstat (for obtaining information on files). These alternate functions represent positions and sizes by 64-bit integers (type int64) instead of regular integers (type int), thus allowing operating on files whose sizes are greater than max_int.
val lseek : Unix.file_descr -> int64 -> Unix.seek_command -> int64
val truncate : string -> int64 -> unit
val ftruncate : Unix.file_descr -> int64 -> unit
type stats = {
   st_dev : int; (*Device number*)
   st_ino : int; (*Inode number*)
   st_kind : Unix.file_kind; (*Kind of the file*)
   st_perm : Unix.file_perm; (*Access rights*)
   st_nlink : int; (*Number of links*)
   st_uid : int; (*User id of the owner*)
   st_gid : int; (*Group ID of the file's group*)
   st_rdev : int; (*Device minor number*)
   st_size : int64; (*Size in bytes*)
   st_atime : float; (*Last access time*)
   st_mtime : float; (*Last modification time*)
   st_ctime : float; (*Last status change time*)
} 
val stat : string -> stats
val lstat : string -> stats
val fstat : Unix.file_descr -> stats
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.SeededS.html0000644000175000017500000002607412214324155023724 0ustar i33173i33173 MoreLabels.Hashtbl.SeededS sig
  type key
  and 'a t
  val create : ?random:bool -> int -> 'MoreLabels.Hashtbl.SeededS.t
  val clear : 'MoreLabels.Hashtbl.SeededS.t -> unit
  val reset : 'MoreLabels.Hashtbl.SeededS.t -> unit
  val copy :
    'MoreLabels.Hashtbl.SeededS.t -> 'MoreLabels.Hashtbl.SeededS.t
  val add :
    'MoreLabels.Hashtbl.SeededS.t ->
    key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
  val remove :
    'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.SeededS.key -> unit
  val find :
    'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.SeededS.key -> 'a
  val find_all :
    'MoreLabels.Hashtbl.SeededS.t ->
    MoreLabels.Hashtbl.SeededS.key -> 'a list
  val replace :
    'MoreLabels.Hashtbl.SeededS.t ->
    key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit
  val mem :
    'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.SeededS.key -> bool
  val iter :
    f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> unit) ->
    'MoreLabels.Hashtbl.SeededS.t -> unit
  val fold :
    f:(key:MoreLabels.Hashtbl.SeededS.key -> data:'-> '-> 'b) ->
    'MoreLabels.Hashtbl.SeededS.t -> init:'-> 'b
  val length : 'MoreLabels.Hashtbl.SeededS.t -> int
  val stats :
    'MoreLabels.Hashtbl.SeededS.t -> MoreLabels.Hashtbl.statistics
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Set.OrderedType.html0000644000175000017500000001323712214324156022741 0ustar i33173i33173 MoreLabels.Set.OrderedType
 Up  Next

Module type MoreLabels.Set.OrderedType

module type OrderedType = Set.OrderedType
type t
The type of the set elements.
val compare : t -> t -> int
A total ordering function over the set elements. This is a two-argument function f such that f e1 e2 is zero if the elements e1 and e2 are equal, f e1 e2 is strictly negative if e1 is smaller than e2, and f e1 e2 is strictly positive if e1 is greater than e2. Example: a suitable ordering function is the generic structural comparison function compare.
ocaml-doc-4.01/ocaml.html/libref/type_List.html0000644000175000017500000005011312214324153017700 0ustar i33173i33173 List sig
  val length : 'a list -> int
  val hd : 'a list -> 'a
  val tl : 'a list -> 'a list
  val nth : 'a list -> int -> 'a
  val rev : 'a list -> 'a list
  val append : 'a list -> 'a list -> 'a list
  val rev_append : 'a list -> 'a list -> 'a list
  val concat : 'a list list -> 'a list
  val flatten : 'a list list -> 'a list
  val iter : ('-> unit) -> 'a list -> unit
  val iteri : (int -> '-> unit) -> 'a list -> unit
  val map : ('-> 'b) -> 'a list -> 'b list
  val mapi : (int -> '-> 'b) -> 'a list -> 'b list
  val rev_map : ('-> 'b) -> 'a list -> 'b list
  val fold_left : ('-> '-> 'a) -> '-> 'b list -> 'a
  val fold_right : ('-> '-> 'b) -> 'a list -> '-> 'b
  val iter2 : ('-> '-> unit) -> 'a list -> 'b list -> unit
  val map2 : ('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val rev_map2 : ('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val fold_left2 : ('-> '-> '-> 'a) -> '-> 'b list -> 'c list -> 'a
  val fold_right2 : ('-> '-> '-> 'c) -> 'a list -> 'b list -> '-> 'c
  val for_all : ('-> bool) -> 'a list -> bool
  val exists : ('-> bool) -> 'a list -> bool
  val for_all2 : ('-> '-> bool) -> 'a list -> 'b list -> bool
  val exists2 : ('-> '-> bool) -> 'a list -> 'b list -> bool
  val mem : '-> 'a list -> bool
  val memq : '-> 'a list -> bool
  val find : ('-> bool) -> 'a list -> 'a
  val filter : ('-> bool) -> 'a list -> 'a list
  val find_all : ('-> bool) -> 'a list -> 'a list
  val partition : ('-> bool) -> 'a list -> 'a list * 'a list
  val assoc : '-> ('a * 'b) list -> 'b
  val assq : '-> ('a * 'b) list -> 'b
  val mem_assoc : '-> ('a * 'b) list -> bool
  val mem_assq : '-> ('a * 'b) list -> bool
  val remove_assoc : '-> ('a * 'b) list -> ('a * 'b) list
  val remove_assq : '-> ('a * 'b) list -> ('a * 'b) list
  val split : ('a * 'b) list -> 'a list * 'b list
  val combine : 'a list -> 'b list -> ('a * 'b) list
  val sort : ('-> '-> int) -> 'a list -> 'a list
  val stable_sort : ('-> '-> int) -> 'a list -> 'a list
  val fast_sort : ('-> '-> int) -> 'a list -> 'a list
  val merge : ('-> '-> int) -> 'a list -> 'a list -> 'a list
endocaml-doc-4.01/ocaml.html/libref/Event.html0000644000175000017500000002416012214324147017013 0ustar i33173i33173 Event
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Module Event

module Event: sig .. end
First-class synchronous communication.

This module implements synchronous inter-thread communications over channels. As in John Reppy's Concurrent ML system, the communication events are first-class values: they can be built and combined independently before being offered for communication.

type 'a channel
The type of communication channels carrying values of type 'a.
val new_channel : unit -> 'a channel
Return a new channel.
type +'a event
The type of communication events returning a result of type 'a.
val send : 'a channel -> 'a -> unit event
send ch v returns the event consisting in sending the value v over the channel ch. The result value of this event is ().
val receive : 'a channel -> 'a event
receive ch returns the event consisting in receiving a value from the channel ch. The result value of this event is the value received.
val always : 'a -> 'a event
always v returns an event that is always ready for synchronization. The result value of this event is v.
val choose : 'a event list -> 'a event
choose evl returns the event that is the alternative of all the events in the list evl.
val wrap : 'a event -> ('a -> 'b) -> 'b event
wrap ev fn returns the event that performs the same communications as ev, then applies the post-processing function fn on the return value.
val wrap_abort : 'a event -> (unit -> unit) -> 'a event
wrap_abort ev fn returns the event that performs the same communications as ev, but if it is not selected the function fn is called after the synchronization.
val guard : (unit -> 'a event) -> 'a event
guard fn returns the event that, when synchronized, computes fn() and behaves as the resulting event. This allows to compute events with side-effects at the time of the synchronization operation.
val sync : 'a event -> 'a
'Synchronize' on an event: offer all the communication possibilities specified in the event to the outside world, and block until one of the communications succeed. The result value of that communication is returned.
val select : 'a event list -> 'a
'Synchronize' on an alternative of events. select evl is shorthand for sync(choose evl).
val poll : 'a event -> 'a option
Non-blocking version of Event.sync: offer all the communication possibilities specified in the event to the outside world, and if one can take place immediately, perform it and return Some r where r is the result value of that communication. Otherwise, return None without blocking.
ocaml-doc-4.01/ocaml.html/libref/type_Queue.html0000644000175000017500000002006412214324163020054 0ustar i33173i33173 Queue sig
  type 'a t
  exception Empty
  val create : unit -> 'Queue.t
  val add : '-> 'Queue.t -> unit
  val push : '-> 'Queue.t -> unit
  val take : 'Queue.t -> 'a
  val pop : 'Queue.t -> 'a
  val peek : 'Queue.t -> 'a
  val top : 'Queue.t -> 'a
  val clear : 'Queue.t -> unit
  val copy : 'Queue.t -> 'Queue.t
  val is_empty : 'Queue.t -> bool
  val length : 'Queue.t -> int
  val iter : ('-> unit) -> 'Queue.t -> unit
  val fold : ('-> '-> 'b) -> '-> 'Queue.t -> 'b
  val transfer : 'Queue.t -> 'Queue.t -> unit
endocaml-doc-4.01/ocaml.html/libref/Mutex.html0000644000175000017500000001565312214324160017036 0ustar i33173i33173 Mutex
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Module Mutex

module Mutex: sig .. end
Locks for mutual exclusion.

Mutexes (mutual-exclusion locks) are used to implement critical sections and protect shared mutable data structures against concurrent accesses. The typical use is (if m is the mutex associated with the data structure D): 

     Mutex.lock m;

     (* Critical section that operates over D *);

     Mutex.unlock m

   

type t
The type of mutexes.
val create : unit -> t
Return a new mutex.
val lock : t -> unit
Lock the given mutex. Only one thread can have the mutex locked at any time. A thread that attempts to lock a mutex already locked by another thread will suspend until the other thread unlocks the mutex.
val try_lock : t -> bool
Same as Mutex.lock, but does not suspend the calling thread if the mutex is already locked: just return false immediately in that case. If the mutex is unlocked, lock it and return true.
val unlock : t -> unit
Unlock the given mutex. Other threads suspended trying to lock the mutex will restart.
ocaml-doc-4.01/ocaml.html/libref/type_Obj.html0000644000175000017500000002362312214324161017504 0ustar i33173i33173 Obj sig
  type t
  external repr : '-> Obj.t = "%identity"
  external obj : Obj.t -> 'a = "%identity"
  external magic : '-> 'b = "%identity"
  external is_block : Obj.t -> bool = "caml_obj_is_block"
  external is_int : Obj.t -> bool = "%obj_is_int"
  external tag : Obj.t -> int = "caml_obj_tag"
  external set_tag : Obj.t -> int -> unit = "caml_obj_set_tag"
  external size : Obj.t -> int = "%obj_size"
  external field : Obj.t -> int -> Obj.t = "%obj_field"
  external set_field : Obj.t -> int -> Obj.t -> unit = "%obj_set_field"
  val double_field : Obj.t -> int -> float
  val set_double_field : Obj.t -> int -> float -> unit
  external new_block : int -> int -> Obj.t = "caml_obj_block"
  external dup : Obj.t -> Obj.t = "caml_obj_dup"
  external truncate : Obj.t -> int -> unit = "caml_obj_truncate"
  external add_offset : Obj.t -> Int32.t -> Obj.t = "caml_obj_add_offset"
  val lazy_tag : int
  val closure_tag : int
  val object_tag : int
  val infix_tag : int
  val forward_tag : int
  val no_scan_tag : int
  val abstract_tag : int
  val string_tag : int
  val double_tag : int
  val double_array_tag : int
  val custom_tag : int
  val final_tag : int
  val int_tag : int
  val out_of_heap_tag : int
  val unaligned_tag : int
  val marshal : Obj.t -> string
  val unmarshal : string -> int -> Obj.t * int
endocaml-doc-4.01/ocaml.html/libref/type_Map.OrderedType.html0000644000175000017500000001064212214324153021732 0ustar i33173i33173 Map.OrderedType sig type t val compare : Map.OrderedType.t -> Map.OrderedType.t -> int endocaml-doc-4.01/ocaml.html/libref/Bigarray.Genarray.html0000644000175000017500000006402412214324144021241 0ustar i33173i33173 Bigarray.Genarray
 Up  Next

Module Bigarray.Genarray

module Genarray: sig .. end
type ('a, 'b, 'c) t
The type Genarray.t is the type of big arrays with variable numbers of dimensions. Any number of dimensions between 1 and 16 is supported.

The three type parameters to Genarray.t identify the array element kind and layout, as follows:

  • the first parameter, 'a, is the OCaml type for accessing array elements (float, int, int32, int64, nativeint);
  • the second parameter, 'b, is the actual kind of array elements (float32_elt, float64_elt, int8_signed_elt, int8_unsigned_elt, etc);
  • the third parameter, 'c, identifies the array layout (c_layout or fortran_layout).
For instance, (float, float32_elt, fortran_layout) Genarray.t is the type of generic big arrays containing 32-bit floats in Fortran layout; reads and writes in this array use the OCaml type float.
val create : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> int array -> ('a, 'b, 'c) t
Genarray.create kind layout dimensions returns a new big array whose element kind is determined by the parameter kind (one of float32, float64, int8_signed, etc) and whose layout is determined by the parameter layout (one of c_layout or fortran_layout). The dimensions parameter is an array of integers that indicate the size of the big array in each dimension. The length of dimensions determines the number of dimensions of the bigarray.

For instance, Genarray.create int32 c_layout [|4;6;8|] returns a fresh big array of 32-bit integers, in C layout, having three dimensions, the three dimensions being 4, 6 and 8 respectively.

Big arrays returned by Genarray.create are not initialized: the initial values of array elements is unspecified.

Genarray.create raises Invalid_argument if the number of dimensions is not in the range 1 to 16 inclusive, or if one of the dimensions is negative.

val num_dims : ('a, 'b, 'c) t -> int
Return the number of dimensions of the given big array.
val dims : ('a, 'b, 'c) t -> int array
Genarray.dims a returns all dimensions of the big array a, as an array of integers of length Genarray.num_dims a.
val nth_dim : ('a, 'b, 'c) t -> int -> int
Genarray.nth_dim a n returns the n-th dimension of the big array a. The first dimension corresponds to n = 0; the second dimension corresponds to n = 1; the last dimension, to n = Genarray.num_dims a - 1. Raise Invalid_argument if n is less than 0 or greater or equal than Genarray.num_dims a.
val kind : ('a, 'b, 'c) t -> ('a, 'b) Bigarray.kind
Return the kind of the given big array.
val layout : ('a, 'b, 'c) t -> 'c Bigarray.layout
Return the layout of the given big array.
val get : ('a, 'b, 'c) t -> int array -> 'a
Read an element of a generic big array. Genarray.get a [|i1; ...; iN|] returns the element of a whose coordinates are i1 in the first dimension, i2 in the second dimension, ..., iN in the N-th dimension.

If a has C layout, the coordinates must be greater or equal than 0 and strictly less than the corresponding dimensions of a. If a has Fortran layout, the coordinates must be greater or equal than 1 and less or equal than the corresponding dimensions of a. Raise Invalid_argument if the array a does not have exactly N dimensions, or if the coordinates are outside the array bounds.

If N > 3, alternate syntax is provided: you can write a.{i1, i2, ..., iN} instead of Genarray.get a [|i1; ...; iN|]. (The syntax a.{...} with one, two or three coordinates is reserved for accessing one-, two- and three-dimensional arrays as described below.)

val set : ('a, 'b, 'c) t -> int array -> 'a -> unit
Assign an element of a generic big array. Genarray.set a [|i1; ...; iN|] v stores the value v in the element of a whose coordinates are i1 in the first dimension, i2 in the second dimension, ..., iN in the N-th dimension.

The array a must have exactly N dimensions, and all coordinates must lie inside the array bounds, as described for Genarray.get; otherwise, Invalid_argument is raised.

If N > 3, alternate syntax is provided: you can write a.{i1, i2, ..., iN} <- v instead of Genarray.set a [|i1; ...; iN|] v. (The syntax a.{...} <- v with one, two or three coordinates is reserved for updating one-, two- and three-dimensional arrays as described below.)

val sub_left : ('a, 'b, Bigarray.c_layout) t ->
       int -> int -> ('a, 'b, Bigarray.c_layout) t
Extract a sub-array of the given big array by restricting the first (left-most) dimension. Genarray.sub_left a ofs len returns a big array with the same number of dimensions as a, and the same dimensions as a, except the first dimension, which corresponds to the interval [ofs ... ofs + len - 1] of the first dimension of a. No copying of elements is involved: the sub-array and the original array share the same storage space. In other terms, the element at coordinates [|i1; ...; iN|] of the sub-array is identical to the element at coordinates [|i1+ofs; ...; iN|] of the original array a.

Genarray.sub_left applies only to big arrays in C layout. Raise Invalid_argument if ofs and len do not designate a valid sub-array of a, that is, if ofs < 0, or len < 0, or ofs + len > Genarray.nth_dim a 0.

val sub_right : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> int -> ('a, 'b, Bigarray.fortran_layout) t
Extract a sub-array of the given big array by restricting the last (right-most) dimension. Genarray.sub_right a ofs len returns a big array with the same number of dimensions as a, and the same dimensions as a, except the last dimension, which corresponds to the interval [ofs ... ofs + len - 1] of the last dimension of a. No copying of elements is involved: the sub-array and the original array share the same storage space. In other terms, the element at coordinates [|i1; ...; iN|] of the sub-array is identical to the element at coordinates [|i1; ...; iN+ofs|] of the original array a.

Genarray.sub_right applies only to big arrays in Fortran layout. Raise Invalid_argument if ofs and len do not designate a valid sub-array of a, that is, if ofs < 1, or len < 0, or ofs + len > Genarray.nth_dim a (Genarray.num_dims a - 1).

val slice_left : ('a, 'b, Bigarray.c_layout) t ->
       int array -> ('a, 'b, Bigarray.c_layout) t
Extract a sub-array of lower dimension from the given big array by fixing one or several of the first (left-most) coordinates. Genarray.slice_left a [|i1; ... ; iM|] returns the 'slice' of a obtained by setting the first M coordinates to i1, ..., iM. If a has N dimensions, the slice has dimension N - M, and the element at coordinates [|j1; ...; j(N-M)|] in the slice is identical to the element at coordinates [|i1; ...; iM; j1; ...; j(N-M)|] in the original array a. No copying of elements is involved: the slice and the original array share the same storage space.

Genarray.slice_left applies only to big arrays in C layout. Raise Invalid_argument if M >= N, or if [|i1; ... ; iM|] is outside the bounds of a.

val slice_right : ('a, 'b, Bigarray.fortran_layout) t ->
       int array -> ('a, 'b, Bigarray.fortran_layout) t
Extract a sub-array of lower dimension from the given big array by fixing one or several of the last (right-most) coordinates. Genarray.slice_right a [|i1; ... ; iM|] returns the 'slice' of a obtained by setting the last M coordinates to i1, ..., iM. If a has N dimensions, the slice has dimension N - M, and the element at coordinates [|j1; ...; j(N-M)|] in the slice is identical to the element at coordinates [|j1; ...; j(N-M); i1; ...; iM|] in the original array a. No copying of elements is involved: the slice and the original array share the same storage space.

Genarray.slice_right applies only to big arrays in Fortran layout. Raise Invalid_argument if M >= N, or if [|i1; ... ; iM|] is outside the bounds of a.

val blit : ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
Copy all elements of a big array in another big array. Genarray.blit src dst copies all elements of src into dst. Both arrays src and dst must have the same number of dimensions and equal dimensions. Copying a sub-array of src to a sub-array of dst can be achieved by applying Genarray.blit to sub-array or slices of src and dst.
val fill : ('a, 'b, 'c) t -> 'a -> unit
Set all elements of a big array to a given value. Genarray.fill a v stores the value v in all elements of the big array a. Setting only some elements of a to v can be achieved by applying Genarray.fill to a sub-array or a slice of a.
val map_file : Unix.file_descr ->
       ?pos:int64 ->
       ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> bool -> int array -> ('a, 'b, 'c) t
Memory mapping of a file as a big array. Genarray.map_file fd kind layout shared dims returns a big array of kind kind, layout layout, and dimensions as specified in dims. The data contained in this big array are the contents of the file referred to by the file descriptor fd (as opened previously with Unix.openfile, for example). The optional pos parameter is the byte offset in the file of the data being mapped; it defaults to 0 (map from the beginning of the file).

If shared is true, all modifications performed on the array are reflected in the file. This requires that fd be opened with write permissions. If shared is false, modifications performed on the array are done in memory only, using copy-on-write of the modified pages; the underlying file is not affected.

Genarray.map_file is much more efficient than reading the whole file in a big array, modifying that big array, and writing it afterwards.

To adjust automatically the dimensions of the big array to the actual size of the file, the major dimension (that is, the first dimension for an array with C layout, and the last dimension for an array with Fortran layout) can be given as -1. Genarray.map_file then determines the major dimension from the size of the file. The file must contain an integral number of sub-arrays as determined by the non-major dimensions, otherwise Failure is raised.

If all dimensions of the big array are given, the file size is matched against the size of the big array. If the file is larger than the big array, only the initial portion of the file is mapped to the big array. If the file is smaller than the big array, the file is automatically grown to the size of the big array. This requires write permissions on fd.

Array accesses are bounds-checked, but the bounds are determined by the initial call to map_file. Therefore, you should make sure no other process modifies the mapped file while you're accessing it, or a SIGBUS signal may be raised. This happens, for instance, if the file is shrinked.

ocaml-doc-4.01/ocaml.html/libref/type_Pervasives.LargeFile.html0000644000175000017500000001237712214324161022756 0ustar i33173i33173 Pervasives.LargeFile sig
  val seek_out : Pervasives.out_channel -> int64 -> unit
  val pos_out : Pervasives.out_channel -> int64
  val out_channel_length : Pervasives.out_channel -> int64
  val seek_in : Pervasives.in_channel -> int64 -> unit
  val pos_in : Pervasives.in_channel -> int64
  val in_channel_length : Pervasives.in_channel -> int64
endocaml-doc-4.01/ocaml.html/libref/Map.html0000644000175000017500000001473412214324153016452 0ustar i33173i33173 Map
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Module Map

module Map: sig .. end
Association tables over ordered types.

This module implements applicative association tables, also known as finite maps or dictionaries, given a total ordering function over the keys. All operations over maps are purely applicative (no side-effects). The implementation uses balanced binary trees, and therefore searching and insertion take time logarithmic in the size of the map.

module type OrderedType = sig .. end
Input signature of the functor Map.Make. 
module type S = sig .. end
Output signature of the functor Map.Make. 
module Make: 
functor (Ord : OrderedType) -> S  with type key = Ord.t
Functor building an implementation of the map structure given a totally ordered type.
ocaml-doc-4.01/ocaml.html/libref/type_StdLabels.html0000644000175000017500000011666512214324166020665 0ustar i33173i33173 StdLabels sig
  module Array :
    sig
      external length : 'a array -> int = "%array_length"
      external get : 'a array -> int -> 'a = "%array_safe_get"
      external set : 'a array -> int -> '-> unit = "%array_safe_set"
      external make : int -> '-> 'a array = "caml_make_vect"
      external create : int -> '-> 'a array = "caml_make_vect"
      val init : int -> f:(int -> 'a) -> 'a array
      val make_matrix : dimx:int -> dimy:int -> '-> 'a array array
      val create_matrix : dimx:int -> dimy:int -> '-> 'a array array
      val append : 'a array -> 'a array -> 'a array
      val concat : 'a array list -> 'a array
      val sub : 'a array -> pos:int -> len:int -> 'a array
      val copy : 'a array -> 'a array
      val fill : 'a array -> pos:int -> len:int -> '-> unit
      val blit :
        src:'a array ->
        src_pos:int -> dst:'a array -> dst_pos:int -> len:int -> unit
      val to_list : 'a array -> 'a list
      val of_list : 'a list -> 'a array
      val iter : f:('-> unit) -> 'a array -> unit
      val map : f:('-> 'b) -> 'a array -> 'b array
      val iteri : f:(int -> '-> unit) -> 'a array -> unit
      val mapi : f:(int -> '-> 'b) -> 'a array -> 'b array
      val fold_left : f:('-> '-> 'a) -> init:'-> 'b array -> 'a
      val fold_right : f:('-> '-> 'b) -> 'a array -> init:'-> 'b
      val sort : cmp:('-> '-> int) -> 'a array -> unit
      val stable_sort : cmp:('-> '-> int) -> 'a array -> unit
      val fast_sort : cmp:('-> '-> int) -> 'a array -> unit
      external unsafe_get : 'a array -> int -> 'a = "%array_unsafe_get"
      external unsafe_set : 'a array -> int -> '-> unit
        = "%array_unsafe_set"
    end
  module List :
    sig
      val length : 'a list -> int
      val hd : 'a list -> 'a
      val tl : 'a list -> 'a list
      val nth : 'a list -> int -> 'a
      val rev : 'a list -> 'a list
      val append : 'a list -> 'a list -> 'a list
      val rev_append : 'a list -> 'a list -> 'a list
      val concat : 'a list list -> 'a list
      val flatten : 'a list list -> 'a list
      val iter : f:('-> unit) -> 'a list -> unit
      val map : f:('-> 'b) -> 'a list -> 'b list
      val rev_map : f:('-> 'b) -> 'a list -> 'b list
      val fold_left : f:('-> '-> 'a) -> init:'-> 'b list -> 'a
      val fold_right : f:('-> '-> 'b) -> 'a list -> init:'-> 'b
      val iter2 : f:('-> '-> unit) -> 'a list -> 'b list -> unit
      val map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
      val rev_map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
      val fold_left2 :
        f:('-> '-> '-> 'a) -> init:'-> 'b list -> 'c list -> 'a
      val fold_right2 :
        f:('-> '-> '-> 'c) -> 'a list -> 'b list -> init:'-> 'c
      val for_all : f:('-> bool) -> 'a list -> bool
      val exists : f:('-> bool) -> 'a list -> bool
      val for_all2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
      val exists2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
      val mem : '-> set:'a list -> bool
      val memq : '-> set:'a list -> bool
      val find : f:('-> bool) -> 'a list -> 'a
      val filter : f:('-> bool) -> 'a list -> 'a list
      val find_all : f:('-> bool) -> 'a list -> 'a list
      val partition : f:('-> bool) -> 'a list -> 'a list * 'a list
      val assoc : '-> ('a * 'b) list -> 'b
      val assq : '-> ('a * 'b) list -> 'b
      val mem_assoc : '-> map:('a * 'b) list -> bool
      val mem_assq : '-> map:('a * 'b) list -> bool
      val remove_assoc : '-> ('a * 'b) list -> ('a * 'b) list
      val remove_assq : '-> ('a * 'b) list -> ('a * 'b) list
      val split : ('a * 'b) list -> 'a list * 'b list
      val combine : 'a list -> 'b list -> ('a * 'b) list
      val sort : cmp:('-> '-> int) -> 'a list -> 'a list
      val stable_sort : cmp:('-> '-> int) -> 'a list -> 'a list
      val fast_sort : cmp:('-> '-> int) -> 'a list -> 'a list
      val merge : cmp:('-> '-> int) -> 'a list -> 'a list -> 'a list
    end
  module String :
    sig
      external length : string -> int = "%string_length"
      external get : string -> int -> char = "%string_safe_get"
      external set : string -> int -> char -> unit = "%string_safe_set"
      external create : int -> string = "caml_create_string"
      val make : int -> char -> string
      val copy : string -> string
      val sub : string -> pos:int -> len:int -> string
      val fill : string -> pos:int -> len:int -> char -> unit
      val blit :
        src:string ->
        src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
      val concat : sep:string -> string list -> string
      val iter : f:(char -> unit) -> string -> unit
      val iteri : f:(int -> char -> unit) -> string -> unit
      val map : f:(char -> char) -> string -> string
      val trim : string -> string
      val escaped : string -> string
      val index : string -> char -> int
      val rindex : string -> char -> int
      val index_from : string -> int -> char -> int
      val rindex_from : string -> int -> char -> int
      val contains : string -> char -> bool
      val contains_from : string -> int -> char -> bool
      val rcontains_from : string -> int -> char -> bool
      val uppercase : string -> string
      val lowercase : string -> string
      val capitalize : string -> string
      val uncapitalize : string -> string
      type t = string
      val compare : StdLabels.String.t -> StdLabels.String.t -> int
      external unsafe_get : string -> int -> char = "%string_unsafe_get"
      external unsafe_set : string -> int -> char -> unit
        = "%string_unsafe_set"
      external unsafe_blit :
        src:string ->
        src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
        = "caml_blit_string" "noalloc"
      external unsafe_fill : string -> pos:int -> len:int -> char -> unit
        = "caml_fill_string" "noalloc"
    end
endocaml-doc-4.01/ocaml.html/libref/type_StdLabels.List.html0000644000175000017500000004667012214324165021574 0ustar i33173i33173 StdLabels.List sig
  val length : 'a list -> int
  val hd : 'a list -> 'a
  val tl : 'a list -> 'a list
  val nth : 'a list -> int -> 'a
  val rev : 'a list -> 'a list
  val append : 'a list -> 'a list -> 'a list
  val rev_append : 'a list -> 'a list -> 'a list
  val concat : 'a list list -> 'a list
  val flatten : 'a list list -> 'a list
  val iter : f:('-> unit) -> 'a list -> unit
  val map : f:('-> 'b) -> 'a list -> 'b list
  val rev_map : f:('-> 'b) -> 'a list -> 'b list
  val fold_left : f:('-> '-> 'a) -> init:'-> 'b list -> 'a
  val fold_right : f:('-> '-> 'b) -> 'a list -> init:'-> 'b
  val iter2 : f:('-> '-> unit) -> 'a list -> 'b list -> unit
  val map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val rev_map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val fold_left2 :
    f:('-> '-> '-> 'a) -> init:'-> 'b list -> 'c list -> 'a
  val fold_right2 :
    f:('-> '-> '-> 'c) -> 'a list -> 'b list -> init:'-> 'c
  val for_all : f:('-> bool) -> 'a list -> bool
  val exists : f:('-> bool) -> 'a list -> bool
  val for_all2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
  val exists2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
  val mem : '-> set:'a list -> bool
  val memq : '-> set:'a list -> bool
  val find : f:('-> bool) -> 'a list -> 'a
  val filter : f:('-> bool) -> 'a list -> 'a list
  val find_all : f:('-> bool) -> 'a list -> 'a list
  val partition : f:('-> bool) -> 'a list -> 'a list * 'a list
  val assoc : '-> ('a * 'b) list -> 'b
  val assq : '-> ('a * 'b) list -> 'b
  val mem_assoc : '-> map:('a * 'b) list -> bool
  val mem_assq : '-> map:('a * 'b) list -> bool
  val remove_assoc : '-> ('a * 'b) list -> ('a * 'b) list
  val remove_assq : '-> ('a * 'b) list -> ('a * 'b) list
  val split : ('a * 'b) list -> 'a list * 'b list
  val combine : 'a list -> 'b list -> ('a * 'b) list
  val sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val stable_sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val fast_sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val merge : cmp:('-> '-> int) -> 'a list -> 'a list -> 'a list
endocaml-doc-4.01/ocaml.html/libref/type_Big_int.html0000644000175000017500000004427312214324144020352 0ustar i33173i33173 Big_int sig
  type big_int
  val zero_big_int : Big_int.big_int
  val unit_big_int : Big_int.big_int
  val minus_big_int : Big_int.big_int -> Big_int.big_int
  val abs_big_int : Big_int.big_int -> Big_int.big_int
  val add_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val succ_big_int : Big_int.big_int -> Big_int.big_int
  val add_int_big_int : int -> Big_int.big_int -> Big_int.big_int
  val sub_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val pred_big_int : Big_int.big_int -> Big_int.big_int
  val mult_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val mult_int_big_int : int -> Big_int.big_int -> Big_int.big_int
  val square_big_int : Big_int.big_int -> Big_int.big_int
  val sqrt_big_int : Big_int.big_int -> Big_int.big_int
  val quomod_big_int :
    Big_int.big_int -> Big_int.big_int -> Big_int.big_int * Big_int.big_int
  val div_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val mod_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val gcd_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val power_int_positive_int : int -> int -> Big_int.big_int
  val power_big_int_positive_int : Big_int.big_int -> int -> Big_int.big_int
  val power_int_positive_big_int : int -> Big_int.big_int -> Big_int.big_int
  val power_big_int_positive_big_int :
    Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val sign_big_int : Big_int.big_int -> int
  val compare_big_int : Big_int.big_int -> Big_int.big_int -> int
  val eq_big_int : Big_int.big_int -> Big_int.big_int -> bool
  val le_big_int : Big_int.big_int -> Big_int.big_int -> bool
  val ge_big_int : Big_int.big_int -> Big_int.big_int -> bool
  val lt_big_int : Big_int.big_int -> Big_int.big_int -> bool
  val gt_big_int : Big_int.big_int -> Big_int.big_int -> bool
  val max_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val min_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val num_digits_big_int : Big_int.big_int -> int
  val string_of_big_int : Big_int.big_int -> string
  val big_int_of_string : string -> Big_int.big_int
  val big_int_of_int : int -> Big_int.big_int
  val is_int_big_int : Big_int.big_int -> bool
  val int_of_big_int : Big_int.big_int -> int
  val big_int_of_int32 : int32 -> Big_int.big_int
  val big_int_of_nativeint : nativeint -> Big_int.big_int
  val big_int_of_int64 : int64 -> Big_int.big_int
  val int32_of_big_int : Big_int.big_int -> int32
  val nativeint_of_big_int : Big_int.big_int -> nativeint
  val int64_of_big_int : Big_int.big_int -> int64
  val float_of_big_int : Big_int.big_int -> float
  val and_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val or_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val xor_big_int : Big_int.big_int -> Big_int.big_int -> Big_int.big_int
  val shift_left_big_int : Big_int.big_int -> int -> Big_int.big_int
  val shift_right_big_int : Big_int.big_int -> int -> Big_int.big_int
  val shift_right_towards_zero_big_int :
    Big_int.big_int -> int -> Big_int.big_int
  val extract_big_int : Big_int.big_int -> int -> int -> Big_int.big_int
  val nat_of_big_int : Big_int.big_int -> Nat.nat
  val big_int_of_nat : Nat.nat -> Big_int.big_int
  val base_power_big_int : int -> int -> Big_int.big_int -> Big_int.big_int
  val sys_big_int_of_string : string -> int -> int -> Big_int.big_int
  val round_futur_last_digit : string -> int -> int -> bool
  val approx_big_int : int -> Big_int.big_int -> string
endocaml-doc-4.01/ocaml.html/libref/Set.Make.html0000644000175000017500000003761612214324164017352 0ustar i33173i33173 Set.Make
 Up  

Functor Set.Make

module Make: 
functor (Ord : OrderedType) -> S  with type elt = Ord.t
Functor building an implementation of the set structure given a totally ordered type.
Parameters:
Ord : OrderedType 
type elt
The type of the set elements.
type t
The type of sets.
val empty : t
The empty set.
val is_empty : t -> bool
Test whether a set is empty or not.
val mem : elt -> t -> bool
mem x s tests whether x belongs to the set s.
val add : elt -> t -> t
add x s returns a set containing all elements of s, plus x. If x was already in s, s is returned unchanged.
val singleton : elt -> t
singleton x returns the one-element set containing only x.
val remove : elt -> t -> t
remove x s returns a set containing all elements of s, except x. If x was not in s, s is returned unchanged.
val union : t -> t -> t
Set union.
val inter : t -> t -> t
Set intersection.
val diff : t -> t -> t
Set difference.
val compare : t -> t -> int
Total ordering between sets. Can be used as the ordering function for doing sets of sets.
val equal : t -> t -> bool
equal s1 s2 tests whether the sets s1 and s2 are equal, that is, contain equal elements.
val subset : t -> t -> bool
subset s1 s2 tests whether the set s1 is a subset of the set s2.
val iter : (elt -> unit) -> t -> unit
iter f s applies f in turn to all elements of s. The elements of s are presented to f in increasing order with respect to the ordering over the type of the elements.
val fold : (elt -> 'a -> 'a) -> t -> 'a -> 'a
fold f s a computes (f xN ... (f x2 (f x1 a))...), where x1 ... xN are the elements of s, in increasing order.
val for_all : (elt -> bool) -> t -> bool
for_all p s checks if all elements of the set satisfy the predicate p.
val exists : (elt -> bool) -> t -> bool
exists p s checks if at least one element of the set satisfies the predicate p.
val filter : (elt -> bool) -> t -> t
filter p s returns the set of all elements in s that satisfy predicate p.
val partition : (elt -> bool) -> t -> t * t
partition p s returns a pair of sets (s1, s2), where s1 is the set of all the elements of s that satisfy the predicate p, and s2 is the set of all the elements of s that do not satisfy p.
val cardinal : t -> int
Return the number of elements of a set.
val elements : t -> elt list
Return the list of all elements of the given set. The returned list is sorted in increasing order with respect to the ordering Ord.compare, where Ord is the argument given to Set.Make.
val min_elt : t -> elt
Return the smallest element of the given set (with respect to the Ord.compare ordering), or raise Not_found if the set is empty.
val max_elt : t -> elt
Same as Set.S.min_elt, but returns the largest element of the given set.
val choose : t -> elt
Return one element of the given set, or raise Not_found if the set is empty. Which element is chosen is unspecified, but equal elements will be chosen for equal sets.
val split : elt -> t -> t * bool * t
split x s returns a triple (l, present, r), where l is the set of elements of s that are strictly less than x; r is the set of elements of s that are strictly greater than x; present is false if s contains no element equal to x, or true if s contains an element equal to x.
val find : elt -> t -> elt
find x s returns the element of s equal to x (according to Ord.compare), or raise Not_found if no such element exists.
Since 4.01.0
ocaml-doc-4.01/ocaml.html/libref/type_CamlinternalMod.html0000644000175000017500000001240512214324146022042 0ustar i33173i33173 CamlinternalMod sig
  type shape =
      Function
    | Lazy
    | Class
    | Module of CamlinternalMod.shape array
  val init_mod : string * int * int -> CamlinternalMod.shape -> Obj.t
  val update_mod : CamlinternalMod.shape -> Obj.t -> Obj.t -> unit
endocaml-doc-4.01/ocaml.html/libref/type_Unix.LargeFile.html0000644000175000017500000001440012214324170021537 0ustar i33173i33173 Unix.LargeFile sig
  val lseek : Unix.file_descr -> int64 -> Unix.seek_command -> int64
  val truncate : string -> int64 -> unit
  val ftruncate : Unix.file_descr -> int64 -> unit
  type stats = {
    st_dev : int;
    st_ino : int;
    st_kind : Unix.file_kind;
    st_perm : Unix.file_perm;
    st_nlink : int;
    st_uid : int;
    st_gid : int;
    st_rdev : int;
    st_size : int64;
    st_atime : float;
    st_mtime : float;
    st_ctime : float;
  }
  val stat : string -> Unix.LargeFile.stats
  val lstat : string -> Unix.LargeFile.stats
  val fstat : Unix.file_descr -> Unix.LargeFile.stats
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.html0000644000175000017500000001360712214324154017761 0ustar i33173i33173 MoreLabels
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Module MoreLabels

module MoreLabels: sig .. end
Extra labeled libraries.

This meta-module provides labelized version of the Hashtbl, Map and Set modules.

They only differ by their labels. They are provided to help porting from previous versions of OCaml. The contents of this module are subject to change.

module Hashtbl: sig .. end
module Map: sig .. end
module Set: sig .. end
ocaml-doc-4.01/ocaml.html/libref/Lazy.html0000644000175000017500000002453712214324152016655 0ustar i33173i33173 Lazy
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Module Lazy

module Lazy: sig .. end
Deferred computations.
type 'a t = 'a lazy_t
A value of type 'a Lazy.t is a deferred computation, called a suspension, that has a result of type 'a. The special expression syntax lazy (expr) makes a suspension of the computation of expr, without computing expr itself yet. "Forcing" the suspension will then compute expr and return its result.

Note: lazy_t is the built-in type constructor used by the compiler for the lazy keyword. You should not use it directly. Always use Lazy.t instead.

Note: Lazy.force is not thread-safe. If you use this module in a multi-threaded program, you will need to add some locks.

Note: if the program is compiled with the -rectypes option, ill-founded recursive definitions of the form let rec x = lazy x or let rec x = lazy(lazy(...(lazy x))) are accepted by the type-checker and lead, when forced, to ill-formed values that trigger infinite loops in the garbage collector and other parts of the run-time system. Without the -rectypes option, such ill-founded recursive definitions are rejected by the type-checker.

exception Undefined
val force : 'a t -> 'a
force x forces the suspension x and returns its result. If x has already been forced, Lazy.force x returns the same value again without recomputing it. If it raised an exception, the same exception is raised again. Raise Undefined if the forcing of x tries to force x itself recursively.
val force_val : 'a t -> 'a
force_val x forces the suspension x and returns its result. If x has already been forced, force_val x returns the same value again without recomputing it. Raise Undefined if the forcing of x tries to force x itself recursively. If the computation of x raises an exception, it is unspecified whether force_val x raises the same exception or Undefined.
val from_fun : (unit -> 'a) -> 'a t
from_fun f is the same as lazy (f ()) but slightly more efficient.
Since 4.00.0
val from_val : 'a -> 'a t
from_val v returns an already-forced suspension of v. This is for special purposes only and should not be confused with lazy (v).
Since 4.00.0
val is_val : 'a t -> bool
is_val x returns true if x has already been forced and did not raise an exception.
Since 4.00.0
val lazy_from_fun : (unit -> 'a) -> 'a t
Deprecated.synonym for from_fun.
val lazy_from_val : 'a -> 'a t
Deprecated.synonym for from_val.
val lazy_is_val : 'a t -> bool
Deprecated.synonym for is_val.
ocaml-doc-4.01/ocaml.html/libref/UnixLabels.LargeFile.html0000644000175000017500000003062512214324171021631 0ustar i33173i33173 UnixLabels.LargeFile
 Up  

Module UnixLabels.LargeFile

module LargeFile: sig .. end
File operations on large files. This sub-module provides 64-bit variants of the functions UnixLabels.lseek (for positioning a file descriptor), UnixLabels.truncate and UnixLabels.ftruncate (for changing the size of a file), and UnixLabels.stat, UnixLabels.lstat and UnixLabels.fstat (for obtaining information on files). These alternate functions represent positions and sizes by 64-bit integers (type int64) instead of regular integers (type int), thus allowing operating on files whose sizes are greater than max_int.
val lseek : UnixLabels.file_descr -> int64 -> mode:UnixLabels.seek_command -> int64
val truncate : string -> len:int64 -> unit
val ftruncate : UnixLabels.file_descr -> len:int64 -> unit
type stats = Unix.LargeFile.stats = {
   st_dev : int; (*Device number*)
   st_ino : int; (*Inode number*)
   st_kind : UnixLabels.file_kind; (*Kind of the file*)
   st_perm : UnixLabels.file_perm; (*Access rights*)
   st_nlink : int; (*Number of links*)
   st_uid : int; (*User id of the owner*)
   st_gid : int; (*Group ID of the file's group*)
   st_rdev : int; (*Device minor number*)
   st_size : int64; (*Size in bytes*)
   st_atime : float; (*Last access time*)
   st_mtime : float; (*Last modification time*)
   st_ctime : float; (*Last status change time*)
} 
val stat : string -> stats
val lstat : string -> stats
val fstat : UnixLabels.file_descr -> stats
ocaml-doc-4.01/ocaml.html/libref/type_Nativeint.html0000644000175000017500000002436612214324161020740 0ustar i33173i33173 Nativeint sig
  val zero : nativeint
  val one : nativeint
  val minus_one : nativeint
  external neg : nativeint -> nativeint = "%nativeint_neg"
  external add : nativeint -> nativeint -> nativeint = "%nativeint_add"
  external sub : nativeint -> nativeint -> nativeint = "%nativeint_sub"
  external mul : nativeint -> nativeint -> nativeint = "%nativeint_mul"
  external div : nativeint -> nativeint -> nativeint = "%nativeint_div"
  external rem : nativeint -> nativeint -> nativeint = "%nativeint_mod"
  val succ : nativeint -> nativeint
  val pred : nativeint -> nativeint
  val abs : nativeint -> nativeint
  val size : int
  val max_int : nativeint
  val min_int : nativeint
  external logand : nativeint -> nativeint -> nativeint = "%nativeint_and"
  external logor : nativeint -> nativeint -> nativeint = "%nativeint_or"
  external logxor : nativeint -> nativeint -> nativeint = "%nativeint_xor"
  val lognot : nativeint -> nativeint
  external shift_left : nativeint -> int -> nativeint = "%nativeint_lsl"
  external shift_right : nativeint -> int -> nativeint = "%nativeint_asr"
  external shift_right_logical : nativeint -> int -> nativeint
    = "%nativeint_lsr"
  external of_int : int -> nativeint = "%nativeint_of_int"
  external to_int : nativeint -> int = "%nativeint_to_int"
  external of_float : float -> nativeint = "caml_nativeint_of_float"
  external to_float : nativeint -> float = "caml_nativeint_to_float"
  external of_int32 : int32 -> nativeint = "%nativeint_of_int32"
  external to_int32 : nativeint -> int32 = "%nativeint_to_int32"
  external of_string : string -> nativeint = "caml_nativeint_of_string"
  val to_string : nativeint -> string
  type t = nativeint
  val compare : Nativeint.t -> Nativeint.t -> int
  external format : string -> nativeint -> string = "caml_nativeint_format"
endocaml-doc-4.01/ocaml.html/libref/type_Event.html0000644000175000017500000001704312214324147020056 0ustar i33173i33173 Event sig
  type 'a channel
  val new_channel : unit -> 'Event.channel
  type +'a event
  val send : 'Event.channel -> '-> unit Event.event
  val receive : 'Event.channel -> 'Event.event
  val always : '-> 'Event.event
  val choose : 'Event.event list -> 'Event.event
  val wrap : 'Event.event -> ('-> 'b) -> 'Event.event
  val wrap_abort : 'Event.event -> (unit -> unit) -> 'Event.event
  val guard : (unit -> 'Event.event) -> 'Event.event
  val sync : 'Event.event -> 'a
  val select : 'Event.event list -> 'a
  val poll : 'Event.event -> 'a option
endocaml-doc-4.01/ocaml.html/libref/type_Stream.html0000644000175000017500000002406212214324166020230 0ustar i33173i33173 Stream sig
  type 'a t
  exception Failure
  exception Error of string
  val from : (int -> 'a option) -> 'Stream.t
  val of_list : 'a list -> 'Stream.t
  val of_string : string -> char Stream.t
  val of_channel : Pervasives.in_channel -> char Stream.t
  val iter : ('-> unit) -> 'Stream.t -> unit
  val next : 'Stream.t -> 'a
  val empty : 'Stream.t -> unit
  val peek : 'Stream.t -> 'a option
  val junk : 'Stream.t -> unit
  val count : 'Stream.t -> int
  val npeek : int -> 'Stream.t -> 'a list
  val iapp : 'Stream.t -> 'Stream.t -> 'Stream.t
  val icons : '-> 'Stream.t -> 'Stream.t
  val ising : '-> 'Stream.t
  val lapp : (unit -> 'Stream.t) -> 'Stream.t -> 'Stream.t
  val lcons : (unit -> 'a) -> 'Stream.t -> 'Stream.t
  val lsing : (unit -> 'a) -> 'Stream.t
  val sempty : 'Stream.t
  val slazy : (unit -> 'Stream.t) -> 'Stream.t
  val dump : ('-> unit) -> 'Stream.t -> unit
endocaml-doc-4.01/ocaml.html/libref/Bigarray.Array2.html0000644000175000017500000003700012214324145020624 0ustar i33173i33173 Bigarray.Array2
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Module Bigarray.Array2

module Array2: sig .. end
Two-dimensional arrays. The Array2 structure provides operations similar to those of Bigarray.Genarray, but specialized to the case of two-dimensional arrays.
type ('a, 'b, 'c) t
The type of two-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
val create : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> int -> int -> ('a, 'b, 'c) t
Array2.create kind layout dim1 dim2 returns a new bigarray of two dimension, whose size is dim1 in the first dimension and dim2 in the second dimension. kind and layout determine the array element kind and the array layout as described for Bigarray.Genarray.create.
val dim1 : ('a, 'b, 'c) t -> int
Return the first dimension of the given two-dimensional big array.
val dim2 : ('a, 'b, 'c) t -> int
Return the second dimension of the given two-dimensional big array.
val kind : ('a, 'b, 'c) t -> ('a, 'b) Bigarray.kind
Return the kind of the given big array.
val layout : ('a, 'b, 'c) t -> 'c Bigarray.layout
Return the layout of the given big array.
val get : ('a, 'b, 'c) t -> int -> int -> 'a
Array2.get a x y, also written a.{x,y}, returns the element of a at coordinates (x, y). x and y must be within the bounds of a, as described for Bigarray.Genarray.get; otherwise, Invalid_argument is raised.
val set : ('a, 'b, 'c) t -> int -> int -> 'a -> unit
Array2.set a x y v, or alternatively a.{x,y} <- v, stores the value v at coordinates (x, y) in a. x and y must be within the bounds of a, as described for Bigarray.Genarray.set; otherwise, Invalid_argument is raised.
val sub_left : ('a, 'b, Bigarray.c_layout) t ->
       int -> int -> ('a, 'b, Bigarray.c_layout) t
Extract a two-dimensional sub-array of the given two-dimensional big array by restricting the first dimension. See Bigarray.Genarray.sub_left for more details. Array2.sub_left applies only to arrays with C layout.
val sub_right : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> int -> ('a, 'b, Bigarray.fortran_layout) t
Extract a two-dimensional sub-array of the given two-dimensional big array by restricting the second dimension. See Bigarray.Genarray.sub_right for more details. Array2.sub_right applies only to arrays with Fortran layout.
val slice_left : ('a, 'b, Bigarray.c_layout) t ->
       int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
Extract a row (one-dimensional slice) of the given two-dimensional big array. The integer parameter is the index of the row to extract. See Bigarray.Genarray.slice_left for more details. Array2.slice_left applies only to arrays with C layout.
val slice_right : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
Extract a column (one-dimensional slice) of the given two-dimensional big array. The integer parameter is the index of the column to extract. See Bigarray.Genarray.slice_right for more details. Array2.slice_right applies only to arrays with Fortran layout.
val blit : ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
Copy the first big array to the second big array. See Bigarray.Genarray.blit for more details.
val fill : ('a, 'b, 'c) t -> 'a -> unit
Fill the given big array with the given value. See Bigarray.Genarray.fill for more details.
val of_array : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> 'a array array -> ('a, 'b, 'c) t
Build a two-dimensional big array initialized from the given array of arrays.
val map_file : Unix.file_descr ->
       ?pos:int64 ->
       ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> bool -> int -> int -> ('a, 'b, 'c) t
Memory mapping of a file as a two-dimensional big array. See Bigarray.Genarray.map_file for more details.
val unsafe_get : ('a, 'b, 'c) t -> int -> int -> 'a
Like Bigarray.Array2.get, but bounds checking is not always performed.
val unsafe_set : ('a, 'b, 'c) t -> int -> int -> 'a -> unit
Like Bigarray.Array2.set, but bounds checking is not always performed.
ocaml-doc-4.01/ocaml.html/libref/type_Bigarray.Array3.html0000644000175000017500000004226512214324145021677 0ustar i33173i33173 Bigarray.Array3 sig
  type ('a, 'b, 'c) t
  val create :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array3.t
  external dim1 : ('a, 'b, 'c) Bigarray.Array3.t -> int = "%caml_ba_dim_1"
  external dim2 : ('a, 'b, 'c) Bigarray.Array3.t -> int = "%caml_ba_dim_2"
  external dim3 : ('a, 'b, 'c) Bigarray.Array3.t -> int = "%caml_ba_dim_3"
  external kind : ('a, 'b, 'c) Bigarray.Array3.t -> ('a, 'b) Bigarray.kind
    = "caml_ba_kind"
  external layout : ('a, 'b, 'c) Bigarray.Array3.t -> 'Bigarray.layout
    = "caml_ba_layout"
  external get : ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> 'a
    = "%caml_ba_ref_3"
  external set :
    ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> '-> unit
    = "%caml_ba_set_3"
  external sub_left :
    ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
    int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t
    = "caml_ba_sub"
  external sub_right :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
    int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t
    = "caml_ba_sub"
  val slice_left_1 :
    ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
    int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
  val slice_right_1 :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
    int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
  val slice_left_2 :
    ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
    int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t
  val slice_right_2 :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
    int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t
  external blit :
    ('a, 'b, 'c) Bigarray.Array3.t -> ('a, 'b, 'c) Bigarray.Array3.t -> unit
    = "caml_ba_blit"
  external fill : ('a, 'b, 'c) Bigarray.Array3.t -> '-> unit
    = "caml_ba_fill"
  val of_array :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout ->
    'a array array array -> ('a, 'b, 'c) Bigarray.Array3.t
  val map_file :
    Unix.file_descr ->
    ?pos:int64 ->
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout ->
    bool -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array3.t
  external unsafe_get :
    ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> 'a
    = "%caml_ba_unsafe_ref_3"
  external unsafe_set :
    ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> '-> unit
    = "%caml_ba_unsafe_set_3"
endocaml-doc-4.01/ocaml.html/libref/type_StdLabels.Array.html0000644000175000017500000003246212214324165021731 0ustar i33173i33173 StdLabels.Array sig
  external length : 'a array -> int = "%array_length"
  external get : 'a array -> int -> 'a = "%array_safe_get"
  external set : 'a array -> int -> '-> unit = "%array_safe_set"
  external make : int -> '-> 'a array = "caml_make_vect"
  external create : int -> '-> 'a array = "caml_make_vect"
  val init : int -> f:(int -> 'a) -> 'a array
  val make_matrix : dimx:int -> dimy:int -> '-> 'a array array
  val create_matrix : dimx:int -> dimy:int -> '-> 'a array array
  val append : 'a array -> 'a array -> 'a array
  val concat : 'a array list -> 'a array
  val sub : 'a array -> pos:int -> len:int -> 'a array
  val copy : 'a array -> 'a array
  val fill : 'a array -> pos:int -> len:int -> '-> unit
  val blit :
    src:'a array ->
    src_pos:int -> dst:'a array -> dst_pos:int -> len:int -> unit
  val to_list : 'a array -> 'a list
  val of_list : 'a list -> 'a array
  val iter : f:('-> unit) -> 'a array -> unit
  val map : f:('-> 'b) -> 'a array -> 'b array
  val iteri : f:(int -> '-> unit) -> 'a array -> unit
  val mapi : f:(int -> '-> 'b) -> 'a array -> 'b array
  val fold_left : f:('-> '-> 'a) -> init:'-> 'b array -> 'a
  val fold_right : f:('-> '-> 'b) -> 'a array -> init:'-> 'b
  val sort : cmp:('-> '-> int) -> 'a array -> unit
  val stable_sort : cmp:('-> '-> int) -> 'a array -> unit
  val fast_sort : cmp:('-> '-> int) -> 'a array -> unit
  external unsafe_get : 'a array -> int -> 'a = "%array_unsafe_get"
  external unsafe_set : 'a array -> int -> '-> unit = "%array_unsafe_set"
endocaml-doc-4.01/ocaml.html/libref/Buffer.html0000644000175000017500000003245512214324146017150 0ustar i33173i33173 Buffer
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Module Buffer

module Buffer: sig .. end
Extensible string buffers.

This module implements string buffers that automatically expand as necessary. It provides accumulative concatenation of strings in quasi-linear time (instead of quadratic time when strings are concatenated pairwise).

type t
The abstract type of buffers.
val create : int -> t
create n returns a fresh buffer, initially empty. The n parameter is the initial size of the internal string that holds the buffer contents. That string is automatically reallocated when more than n characters are stored in the buffer, but shrinks back to n characters when reset is called. For best performance, n should be of the same order of magnitude as the number of characters that are expected to be stored in the buffer (for instance, 80 for a buffer that holds one output line). Nothing bad will happen if the buffer grows beyond that limit, however. In doubt, take n = 16 for instance. If n is not between 1 and Sys.max_string_length, it will be clipped to that interval.
val contents : t -> string
Return a copy of the current contents of the buffer. The buffer itself is unchanged.
val sub : t -> int -> int -> string
Buffer.sub b off len returns (a copy of) the substring of the current contents of the buffer b starting at offset off of length len bytes. May raise Invalid_argument if out of bounds request. The buffer itself is unaffected.
val blit : t -> int -> string -> int -> int -> unit
Buffer.blit src srcoff dst dstoff len copies len characters from the current contents of the buffer src, starting at offset srcoff to string dst, starting at character dstoff.

Raise Invalid_argument if srcoff and len do not designate a valid substring of src, or if dstoff and len do not designate a valid substring of dst.
Since 3.11.2

val nth : t -> int -> char
get the n-th character of the buffer. Raise Invalid_argument if index out of bounds
val length : t -> int
Return the number of characters currently contained in the buffer.
val clear : t -> unit
Empty the buffer.
val reset : t -> unit
Empty the buffer and deallocate the internal string holding the buffer contents, replacing it with the initial internal string of length n that was allocated by Buffer.create n. For long-lived buffers that may have grown a lot, reset allows faster reclamation of the space used by the buffer.
val add_char : t -> char -> unit
add_char b c appends the character c at the end of the buffer b.
val add_string : t -> string -> unit
add_string b s appends the string s at the end of the buffer b.
val add_substring : t -> string -> int -> int -> unit
add_substring b s ofs len takes len characters from offset ofs in string s and appends them at the end of the buffer b.
val add_substitute : t -> (string -> string) -> string -> unit
add_substitute b f s appends the string pattern s at the end of the buffer b with substitution. The substitution process looks for variables into the pattern and substitutes each variable name by its value, as obtained by applying the mapping f to the variable name. Inside the string pattern, a variable name immediately follows a non-escaped $ character and is one of the following:
  • a non empty sequence of alphanumeric or _ characters,
  • an arbitrary sequence of characters enclosed by a pair of matching parentheses or curly brackets. An escaped $ character is a $ that immediately follows a backslash character; it then stands for a plain $. Raise Not_found if the closing character of a parenthesized variable cannot be found.

val add_buffer : t -> t -> unit
add_buffer b1 b2 appends the current contents of buffer b2 at the end of buffer b1. b2 is not modified.
val add_channel : t -> in_channel -> int -> unit
add_channel b ic n reads exactly n character from the input channel ic and stores them at the end of buffer b. Raise End_of_file if the channel contains fewer than n characters.
val output_buffer : out_channel -> t -> unit
output_buffer oc b writes the current contents of buffer b on the output channel oc.
ocaml-doc-4.01/ocaml.html/libref/type_Map.S.html0000644000175000017500000003772712214324154017724 0ustar i33173i33173 Map.S sig
  type key
  type +'a t
  val empty : 'Map.S.t
  val is_empty : 'Map.S.t -> bool
  val mem : Map.S.key -> 'Map.S.t -> bool
  val add : Map.S.key -> '-> 'Map.S.t -> 'Map.S.t
  val singleton : Map.S.key -> '-> 'Map.S.t
  val remove : Map.S.key -> 'Map.S.t -> 'Map.S.t
  val merge :
    (Map.S.key -> 'a option -> 'b option -> 'c option) ->
    'Map.S.t -> 'Map.S.t -> 'Map.S.t
  val compare : ('-> '-> int) -> 'Map.S.t -> 'Map.S.t -> int
  val equal : ('-> '-> bool) -> 'Map.S.t -> 'Map.S.t -> bool
  val iter : (Map.S.key -> '-> unit) -> 'Map.S.t -> unit
  val fold : (Map.S.key -> '-> '-> 'b) -> 'Map.S.t -> '-> 'b
  val for_all : (Map.S.key -> '-> bool) -> 'Map.S.t -> bool
  val exists : (Map.S.key -> '-> bool) -> 'Map.S.t -> bool
  val filter : (Map.S.key -> '-> bool) -> 'Map.S.t -> 'Map.S.t
  val partition :
    (Map.S.key -> '-> bool) -> 'Map.S.t -> 'Map.S.t * 'Map.S.t
  val cardinal : 'Map.S.t -> int
  val bindings : 'Map.S.t -> (Map.S.key * 'a) list
  val min_binding : 'Map.S.t -> Map.S.key * 'a
  val max_binding : 'Map.S.t -> Map.S.key * 'a
  val choose : 'Map.S.t -> Map.S.key * 'a
  val split : Map.S.key -> 'Map.S.t -> 'Map.S.t * 'a option * 'Map.S.t
  val find : Map.S.key -> 'Map.S.t -> 'a
  val map : ('-> 'b) -> 'Map.S.t -> 'Map.S.t
  val mapi : (Map.S.key -> '-> 'b) -> 'Map.S.t -> 'Map.S.t
endocaml-doc-4.01/ocaml.html/libref/CamlinternalLazy.html0000644000175000017500000001271512214324146021205 0ustar i33173i33173 CamlinternalLazy
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Module CamlinternalLazy

module CamlinternalLazy: sig .. end
Run-time support for lazy values. All functions in this module are for system use only, not for the casual user.
exception Undefined
val force_lazy_block : 'a lazy_t -> 'a
val force_val_lazy_block : 'a lazy_t -> 'a
val force : 'a lazy_t -> 'a
val force_val : 'a lazy_t -> 'a
ocaml-doc-4.01/ocaml.html/libref/Random.html0000644000175000017500000002364012214324163017152 0ustar i33173i33173 Random
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Module Random

module Random: sig .. end
Pseudo-random number generators (PRNG).

Basic functions

val init : int -> unit
Initialize the generator, using the argument as a seed. The same seed will always yield the same sequence of numbers.
val full_init : int array -> unit
Same as Random.init but takes more data as seed.
val self_init : unit -> unit
Initialize the generator with a random seed chosen in a system-dependent way. If /dev/urandom is available on the host machine, it is used to provide a highly random initial seed. Otherwise, a less random seed is computed from system parameters (current time, process IDs).
val bits : unit -> int
Return 30 random bits in a nonnegative integer.
Before 3.12.0 used a different algorithm (affects all the following functions)
val int : int -> int
Random.int bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0 and less than 230.
val int32 : Int32.t -> Int32.t
Random.int32 bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.
val nativeint : Nativeint.t -> Nativeint.t
Random.nativeint bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.
val int64 : Int64.t -> Int64.t
Random.int64 bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.
val float : float -> float
Random.float bound returns a random floating-point number between 0 and bound (inclusive). If bound is negative, the result is negative or zero. If bound is 0, the result is 0.
val bool : unit -> bool
Random.bool () returns true or false with probability 0.5 each.

Advanced functions


The functions from module State manipulate the current state of the random generator explicitly. This allows using one or several deterministic PRNGs, even in a multi-threaded program, without interference from other parts of the program.
module State: sig .. end
val get_state : unit -> State.t
Return the current state of the generator used by the basic functions.
val set_state : State.t -> unit
Set the state of the generator used by the basic functions.
ocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.SeededS.html0000644000175000017500000002332112214324151021664 0ustar i33173i33173 Hashtbl.SeededS sig
  type key
  type 'a t
  val create : ?random:bool -> int -> 'Hashtbl.SeededS.t
  val clear : 'Hashtbl.SeededS.t -> unit
  val reset : 'Hashtbl.SeededS.t -> unit
  val copy : 'Hashtbl.SeededS.t -> 'Hashtbl.SeededS.t
  val add : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> '-> unit
  val remove : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> unit
  val find : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> 'a
  val find_all : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> 'a list
  val replace : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> '-> unit
  val mem : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> bool
  val iter :
    (Hashtbl.SeededS.key -> '-> unit) -> 'Hashtbl.SeededS.t -> unit
  val fold :
    (Hashtbl.SeededS.key -> '-> '-> 'b) ->
    'Hashtbl.SeededS.t -> '-> 'b
  val length : 'Hashtbl.SeededS.t -> int
  val stats : 'Hashtbl.SeededS.t -> Hashtbl.statistics
endocaml-doc-4.01/ocaml.html/libref/type_Sys.html0000644000175000017500000002376712214324167017567 0ustar i33173i33173 Sys sig
  val argv : string array
  val executable_name : string
  external file_exists : string -> bool = "caml_sys_file_exists"
  external is_directory : string -> bool = "caml_sys_is_directory"
  external remove : string -> unit = "caml_sys_remove"
  external rename : string -> string -> unit = "caml_sys_rename"
  external getenv : string -> string = "caml_sys_getenv"
  external command : string -> int = "caml_sys_system_command"
  external time : unit -> float = "caml_sys_time"
  external chdir : string -> unit = "caml_sys_chdir"
  external getcwd : unit -> string = "caml_sys_getcwd"
  external readdir : string -> string array = "caml_sys_read_directory"
  val interactive : bool Pervasives.ref
  val os_type : string
  val unix : bool
  val win32 : bool
  val cygwin : bool
  val word_size : int
  val big_endian : bool
  val max_string_length : int
  val max_array_length : int
  type signal_behavior =
      Signal_default
    | Signal_ignore
    | Signal_handle of (int -> unit)
  external signal : int -> Sys.signal_behavior -> Sys.signal_behavior
    = "caml_install_signal_handler"
  val set_signal : int -> Sys.signal_behavior -> unit
  val sigabrt : int
  val sigalrm : int
  val sigfpe : int
  val sighup : int
  val sigill : int
  val sigint : int
  val sigkill : int
  val sigpipe : int
  val sigquit : int
  val sigsegv : int
  val sigterm : int
  val sigusr1 : int
  val sigusr2 : int
  val sigchld : int
  val sigcont : int
  val sigstop : int
  val sigtstp : int
  val sigttin : int
  val sigttou : int
  val sigvtalrm : int
  val sigprof : int
  exception Break
  val catch_break : bool -> unit
  val ocaml_version : string
endocaml-doc-4.01/ocaml.html/libref/type_Bigarray.html0000644000175000017500000017376412214324146020551 0ustar i33173i33173 Bigarray sig
  type float32_elt
  type float64_elt
  type complex32_elt
  type complex64_elt
  type int8_signed_elt
  type int8_unsigned_elt
  type int16_signed_elt
  type int16_unsigned_elt
  type int_elt
  type int32_elt
  type int64_elt
  type nativeint_elt
  type ('a, 'b) kind
  val float32 : (float, Bigarray.float32_elt) Bigarray.kind
  val float64 : (float, Bigarray.float64_elt) Bigarray.kind
  val complex32 : (Complex.t, Bigarray.complex32_elt) Bigarray.kind
  val complex64 : (Complex.t, Bigarray.complex64_elt) Bigarray.kind
  val int8_signed : (int, Bigarray.int8_signed_elt) Bigarray.kind
  val int8_unsigned : (int, Bigarray.int8_unsigned_elt) Bigarray.kind
  val int16_signed : (int, Bigarray.int16_signed_elt) Bigarray.kind
  val int16_unsigned : (int, Bigarray.int16_unsigned_elt) Bigarray.kind
  val int : (int, Bigarray.int_elt) Bigarray.kind
  val int32 : (int32, Bigarray.int32_elt) Bigarray.kind
  val int64 : (int64, Bigarray.int64_elt) Bigarray.kind
  val nativeint : (nativeint, Bigarray.nativeint_elt) Bigarray.kind
  val char : (char, Bigarray.int8_unsigned_elt) Bigarray.kind
  type c_layout
  type fortran_layout
  type 'a layout
  val c_layout : Bigarray.c_layout Bigarray.layout
  val fortran_layout : Bigarray.fortran_layout Bigarray.layout
  module Genarray :
    sig
      type ('a, 'b, 'c) t
      external create :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout -> int array -> ('a, 'b, 'c) Bigarray.Genarray.t
        = "caml_ba_create"
      external num_dims : ('a, 'b, 'c) Bigarray.Genarray.t -> int
        = "caml_ba_num_dims"
      val dims : ('a, 'b, 'c) Bigarray.Genarray.t -> int array
      external nth_dim : ('a, 'b, 'c) Bigarray.Genarray.t -> int -> int
        = "caml_ba_dim"
      external kind :
        ('a, 'b, 'c) Bigarray.Genarray.t -> ('a, 'b) Bigarray.kind
        = "caml_ba_kind"
      external layout :
        ('a, 'b, 'c) Bigarray.Genarray.t -> 'Bigarray.layout
        = "caml_ba_layout"
      external get : ('a, 'b, 'c) Bigarray.Genarray.t -> int array -> 'a
        = "caml_ba_get_generic"
      external set :
        ('a, 'b, 'c) Bigarray.Genarray.t -> int array -> '-> unit
        = "caml_ba_set_generic"
      external sub_left :
        ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t ->
        int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t
        = "caml_ba_sub"
      external sub_right :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t ->
        int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t
        = "caml_ba_sub"
      external slice_left :
        ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t ->
        int array -> ('a, 'b, Bigarray.c_layout) Bigarray.Genarray.t
        = "caml_ba_slice"
      external slice_right :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t ->
        int array -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Genarray.t
        = "caml_ba_slice"
      external blit :
        ('a, 'b, 'c) Bigarray.Genarray.t ->
        ('a, 'b, 'c) Bigarray.Genarray.t -> unit = "caml_ba_blit"
      external fill : ('a, 'b, 'c) Bigarray.Genarray.t -> '-> unit
        = "caml_ba_fill"
      val map_file :
        Unix.file_descr ->
        ?pos:int64 ->
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        bool -> int array -> ('a, 'b, 'c) Bigarray.Genarray.t
    end
  module Array1 :
    sig
      type ('a, 'b, 'c) t
      val create :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout -> int -> ('a, 'b, 'c) Bigarray.Array1.t
      external dim : ('a, 'b, 'c) Bigarray.Array1.t -> int = "%caml_ba_dim_1"
      external kind :
        ('a, 'b, 'c) Bigarray.Array1.t -> ('a, 'b) Bigarray.kind
        = "caml_ba_kind"
      external layout : ('a, 'b, 'c) Bigarray.Array1.t -> 'Bigarray.layout
        = "caml_ba_layout"
      external get : ('a, 'b, 'c) Bigarray.Array1.t -> int -> 'a
        = "%caml_ba_ref_1"
      external set : ('a, 'b, 'c) Bigarray.Array1.t -> int -> '-> unit
        = "%caml_ba_set_1"
      external sub :
        ('a, 'b, 'c) Bigarray.Array1.t ->
        int -> int -> ('a, 'b, 'c) Bigarray.Array1.t = "caml_ba_sub"
      external blit :
        ('a, 'b, 'c) Bigarray.Array1.t ->
        ('a, 'b, 'c) Bigarray.Array1.t -> unit = "caml_ba_blit"
      external fill : ('a, 'b, 'c) Bigarray.Array1.t -> '-> unit
        = "caml_ba_fill"
      val of_array :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout -> 'a array -> ('a, 'b, 'c) Bigarray.Array1.t
      val map_file :
        Unix.file_descr ->
        ?pos:int64 ->
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout -> bool -> int -> ('a, 'b, 'c) Bigarray.Array1.t
      external unsafe_get : ('a, 'b, 'c) Bigarray.Array1.t -> int -> 'a
        = "%caml_ba_unsafe_ref_1"
      external unsafe_set :
        ('a, 'b, 'c) Bigarray.Array1.t -> int -> '-> unit
        = "%caml_ba_unsafe_set_1"
    end
  module Array2 :
    sig
      type ('a, 'b, 'c) t
      val create :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
      external dim1 : ('a, 'b, 'c) Bigarray.Array2.t -> int
        = "%caml_ba_dim_1"
      external dim2 : ('a, 'b, 'c) Bigarray.Array2.t -> int
        = "%caml_ba_dim_2"
      external kind :
        ('a, 'b, 'c) Bigarray.Array2.t -> ('a, 'b) Bigarray.kind
        = "caml_ba_kind"
      external layout : ('a, 'b, 'c) Bigarray.Array2.t -> 'Bigarray.layout
        = "caml_ba_layout"
      external get : ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> 'a
        = "%caml_ba_ref_2"
      external set :
        ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> '-> unit
        = "%caml_ba_set_2"
      external sub_left :
        ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t ->
        int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t
        = "caml_ba_sub"
      external sub_right :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t ->
        int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t
        = "caml_ba_sub"
      val slice_left :
        ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t ->
        int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
      val slice_right :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t ->
        int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
      external blit :
        ('a, 'b, 'c) Bigarray.Array2.t ->
        ('a, 'b, 'c) Bigarray.Array2.t -> unit = "caml_ba_blit"
      external fill : ('a, 'b, 'c) Bigarray.Array2.t -> '-> unit
        = "caml_ba_fill"
      val of_array :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        'a array array -> ('a, 'b, 'c) Bigarray.Array2.t
      val map_file :
        Unix.file_descr ->
        ?pos:int64 ->
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        bool -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
      external unsafe_get :
        ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> 'a
        = "%caml_ba_unsafe_ref_2"
      external unsafe_set :
        ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> '-> unit
        = "%caml_ba_unsafe_set_2"
    end
  module Array3 :
    sig
      type ('a, 'b, 'c) t
      val create :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        int -> int -> int -> ('a, 'b, 'c) Bigarray.Array3.t
      external dim1 : ('a, 'b, 'c) Bigarray.Array3.t -> int
        = "%caml_ba_dim_1"
      external dim2 : ('a, 'b, 'c) Bigarray.Array3.t -> int
        = "%caml_ba_dim_2"
      external dim3 : ('a, 'b, 'c) Bigarray.Array3.t -> int
        = "%caml_ba_dim_3"
      external kind :
        ('a, 'b, 'c) Bigarray.Array3.t -> ('a, 'b) Bigarray.kind
        = "caml_ba_kind"
      external layout : ('a, 'b, 'c) Bigarray.Array3.t -> 'Bigarray.layout
        = "caml_ba_layout"
      external get :
        ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> 'a
        = "%caml_ba_ref_3"
      external set :
        ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> '-> unit
        = "%caml_ba_set_3"
      external sub_left :
        ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
        int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t
        = "caml_ba_sub"
      external sub_right :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
        int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t
        = "caml_ba_sub"
      val slice_left_1 :
        ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
        int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
      val slice_right_1 :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
        int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
      val slice_left_2 :
        ('a, 'b, Bigarray.c_layout) Bigarray.Array3.t ->
        int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t
      val slice_right_2 :
        ('a, 'b, Bigarray.fortran_layout) Bigarray.Array3.t ->
        int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t
      external blit :
        ('a, 'b, 'c) Bigarray.Array3.t ->
        ('a, 'b, 'c) Bigarray.Array3.t -> unit = "caml_ba_blit"
      external fill : ('a, 'b, 'c) Bigarray.Array3.t -> '-> unit
        = "caml_ba_fill"
      val of_array :
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        'a array array array -> ('a, 'b, 'c) Bigarray.Array3.t
      val map_file :
        Unix.file_descr ->
        ?pos:int64 ->
        ('a, 'b) Bigarray.kind ->
        'Bigarray.layout ->
        bool -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array3.t
      external unsafe_get :
        ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> 'a
        = "%caml_ba_unsafe_ref_3"
      external unsafe_set :
        ('a, 'b, 'c) Bigarray.Array3.t -> int -> int -> int -> '-> unit
        = "%caml_ba_unsafe_set_3"
    end
  external genarray_of_array1 :
    ('a, 'b, 'c) Bigarray.Array1.t -> ('a, 'b, 'c) Bigarray.Genarray.t
    = "%identity"
  external genarray_of_array2 :
    ('a, 'b, 'c) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Genarray.t
    = "%identity"
  external genarray_of_array3 :
    ('a, 'b, 'c) Bigarray.Array3.t -> ('a, 'b, 'c) Bigarray.Genarray.t
    = "%identity"
  val array1_of_genarray :
    ('a, 'b, 'c) Bigarray.Genarray.t -> ('a, 'b, 'c) Bigarray.Array1.t
  val array2_of_genarray :
    ('a, 'b, 'c) Bigarray.Genarray.t -> ('a, 'b, 'c) Bigarray.Array2.t
  val array3_of_genarray :
    ('a, 'b, 'c) Bigarray.Genarray.t -> ('a, 'b, 'c) Bigarray.Array3.t
  val reshape :
    ('a, 'b, 'c) Bigarray.Genarray.t ->
    int array -> ('a, 'b, 'c) Bigarray.Genarray.t
  val reshape_1 :
    ('a, 'b, 'c) Bigarray.Genarray.t -> int -> ('a, 'b, 'c) Bigarray.Array1.t
  val reshape_2 :
    ('a, 'b, 'c) Bigarray.Genarray.t ->
    int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
  val reshape_3 :
    ('a, 'b, 'c) Bigarray.Genarray.t ->
    int -> int -> int -> ('a, 'b, 'c) Bigarray.Array3.t
endocaml-doc-4.01/ocaml.html/libref/type_Thread.html0000644000175000017500000001721412214324167020206 0ustar i33173i33173 Thread sig
  type t
  val create : ('-> 'b) -> '-> Thread.t
  val self : unit -> Thread.t
  val id : Thread.t -> int
  val exit : unit -> unit
  val kill : Thread.t -> unit
  val delay : float -> unit
  val join : Thread.t -> unit
  val wait_read : Unix.file_descr -> unit
  val wait_write : Unix.file_descr -> unit
  val wait_timed_read : Unix.file_descr -> float -> bool
  val wait_timed_write : Unix.file_descr -> float -> bool
  val select :
    Unix.file_descr list ->
    Unix.file_descr list ->
    Unix.file_descr list ->
    float ->
    Unix.file_descr list * Unix.file_descr list * Unix.file_descr list
  val wait_pid : int -> int * Unix.process_status
  val yield : unit -> unit
  val sigmask : Unix.sigprocmask_command -> int list -> int list
  val wait_signal : int list -> int
endocaml-doc-4.01/ocaml.html/libref/Hashtbl.S.html0000644000175000017500000001727312214324151017522 0ustar i33173i33173 Hashtbl.S
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Module type Hashtbl.S

module type S = sig .. end
The output signature of the functor Hashtbl.Make.
type key 
type 'a t 
val create : int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
val stats : 'a t -> Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/type_StringLabels.html0000644000175000017500000002652012214324166021367 0ustar i33173i33173 StringLabels sig
  external length : string -> int = "%string_length"
  external get : string -> int -> char = "%string_safe_get"
  external set : string -> int -> char -> unit = "%string_safe_set"
  external create : int -> string = "caml_create_string"
  val make : int -> char -> string
  val copy : string -> string
  val sub : string -> pos:int -> len:int -> string
  val fill : string -> pos:int -> len:int -> char -> unit
  val blit :
    src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
  val concat : sep:string -> string list -> string
  val iter : f:(char -> unit) -> string -> unit
  val iteri : f:(int -> char -> unit) -> string -> unit
  val map : f:(char -> char) -> string -> string
  val trim : string -> string
  val escaped : string -> string
  val index : string -> char -> int
  val rindex : string -> char -> int
  val index_from : string -> int -> char -> int
  val rindex_from : string -> int -> char -> int
  val contains : string -> char -> bool
  val contains_from : string -> int -> char -> bool
  val rcontains_from : string -> int -> char -> bool
  val uppercase : string -> string
  val lowercase : string -> string
  val capitalize : string -> string
  val uncapitalize : string -> string
  type t = string
  val compare : StringLabels.t -> StringLabels.t -> int
  external unsafe_get : string -> int -> char = "%string_unsafe_get"
  external unsafe_set : string -> int -> char -> unit = "%string_unsafe_set"
  external unsafe_blit :
    src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
    = "caml_blit_string" "noalloc"
  external unsafe_fill : string -> pos:int -> len:int -> char -> unit
    = "caml_fill_string" "noalloc"
endocaml-doc-4.01/ocaml.html/libref/type_Marshal.html0000644000175000017500000001466212214324154020366 0ustar i33173i33173 Marshal sig
  type extern_flags = No_sharing | Closures | Compat_32
  val to_channel :
    Pervasives.out_channel -> '-> Marshal.extern_flags list -> unit
  external to_string : '-> Marshal.extern_flags list -> string
    = "caml_output_value_to_string"
  val to_buffer :
    string -> int -> int -> '-> Marshal.extern_flags list -> int
  val from_channel : Pervasives.in_channel -> 'a
  val from_string : string -> int -> 'a
  val header_size : int
  val data_size : string -> int -> int
  val total_size : string -> int -> int
endocaml-doc-4.01/ocaml.html/libref/Arith_status.html0000644000175000017500000002131612214324143020400 0ustar i33173i33173 Arith_status
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Module Arith_status

module Arith_status: sig .. end
Flags that control rational arithmetic.
val arith_status : unit -> unit
Print the current status of the arithmetic flags.
val get_error_when_null_denominator : unit -> bool
See Arith_status.set_error_when_null_denominator.
val set_error_when_null_denominator : bool -> unit
Get or set the flag null_denominator. When on, attempting to create a rational with a null denominator raises an exception. When off, rationals with null denominators are accepted. Initially: on.
val get_normalize_ratio : unit -> bool
See Arith_status.set_normalize_ratio.
val set_normalize_ratio : bool -> unit
Get or set the flag normalize_ratio. When on, rational numbers are normalized after each operation. When off, rational numbers are not normalized until printed. Initially: off.
val get_normalize_ratio_when_printing : unit -> bool
See Arith_status.set_normalize_ratio_when_printing.
val set_normalize_ratio_when_printing : bool -> unit
Get or set the flag normalize_ratio_when_printing. When on, rational numbers are normalized before being printed. When off, rational numbers are printed as is, without normalization. Initially: on.
val get_approx_printing : unit -> bool
See Arith_status.set_approx_printing.
val set_approx_printing : bool -> unit
Get or set the flag approx_printing. When on, rational numbers are printed as a decimal approximation. When off, rational numbers are printed as a fraction. Initially: off.
val get_floating_precision : unit -> int
See Arith_status.set_floating_precision.
val set_floating_precision : int -> unit
Get or set the parameter floating_precision. This parameter is the number of digits displayed when approx_printing is on. Initially: 12.
ocaml-doc-4.01/ocaml.html/libref/type_Lazy.html0000644000175000017500000001443612214324152017713 0ustar i33173i33173 Lazy sig
  type 'a t = 'a lazy_t
  exception Undefined
  external force : 'Lazy.t -> 'a = "%lazy_force"
  val force_val : 'Lazy.t -> 'a
  val from_fun : (unit -> 'a) -> 'Lazy.t
  val from_val : '-> 'Lazy.t
  val is_val : 'Lazy.t -> bool
  val lazy_from_fun : (unit -> 'a) -> 'Lazy.t
  val lazy_from_val : '-> 'Lazy.t
  val lazy_is_val : 'Lazy.t -> bool
endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.MakeSeeded.html0000644000175000017500000002040512214324154024366 0ustar i33173i33173 MoreLabels.Hashtbl.MakeSeeded functor (H : SeededHashedType->
  sig
    type key = H.t
    and 'a t
    val create : ?random:bool -> int -> 'a t
    val clear : 'a t -> unit
    val reset : 'a t -> unit
    val copy : 'a t -> 'a t
    val add : 'a t -> key:key -> data:'-> unit
    val remove : 'a t -> key -> unit
    val find : 'a t -> key -> 'a
    val find_all : 'a t -> key -> 'a list
    val replace : 'a t -> key:key -> data:'-> unit
    val mem : 'a t -> key -> bool
    val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
    val fold : f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
    val length : 'a t -> int
    val stats : 'a t -> statistics
  endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.Make.html0000644000175000017500000002027312214324154023257 0ustar i33173i33173 MoreLabels.Hashtbl.Make functor (H : HashedType->
  sig
    type key = H.t
    and 'a t
    val create : int -> 'a t
    val clear : 'a t -> unit
    val reset : 'a t -> unit
    val copy : 'a t -> 'a t
    val add : 'a t -> key:key -> data:'-> unit
    val remove : 'a t -> key -> unit
    val find : 'a t -> key -> 'a
    val find_all : 'a t -> key -> 'a list
    val replace : 'a t -> key:key -> data:'-> unit
    val mem : 'a t -> key -> bool
    val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
    val fold : f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
    val length : 'a t -> int
    val stats : 'a t -> statistics
  endocaml-doc-4.01/ocaml.html/libref/type_Printexc.html0000644000175000017500000001521712214324162020567 0ustar i33173i33173 Printexc sig
  val to_string : exn -> string
  val print : ('-> 'b) -> '-> 'b
  val catch : ('-> 'b) -> '-> 'b
  val print_backtrace : Pervasives.out_channel -> unit
  val get_backtrace : unit -> string
  val record_backtrace : bool -> unit
  val backtrace_status : unit -> bool
  val register_printer : (exn -> string option) -> unit
  type raw_backtrace
  val get_raw_backtrace : unit -> Printexc.raw_backtrace
  val print_raw_backtrace :
    Pervasives.out_channel -> Printexc.raw_backtrace -> unit
  val raw_backtrace_to_string : Printexc.raw_backtrace -> string
  val get_callstack : int -> Printexc.raw_backtrace
endocaml-doc-4.01/ocaml.html/libref/Weak.html0000644000175000017500000003411712214324173016623 0ustar i33173i33173 Weak
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Module Weak

module Weak: sig .. end
Arrays of weak pointers and hash tables of weak pointers.

Low-level functions

type 'a t
The type of arrays of weak pointers (weak arrays). A weak pointer is a value that the garbage collector may erase whenever the value is not used any more (through normal pointers) by the program. Note that finalisation functions are run after the weak pointers are erased.

A weak pointer is said to be full if it points to a value, empty if the value was erased by the GC.

Notes:

  • Integers are not allocated and cannot be stored in weak arrays.
  • Weak arrays cannot be marshaled using output_value nor the functions of the Marshal module.

val create : int -> 'a t
Weak.create n returns a new weak array of length n. All the pointers are initially empty. Raise Invalid_argument if n is negative or greater than Sys.max_array_length-1.
val length : 'a t -> int
Weak.length ar returns the length (number of elements) of ar.
val set : 'a t -> int -> 'a option -> unit
Weak.set ar n (Some el) sets the nth cell of ar to be a (full) pointer to el; Weak.set ar n None sets the nth cell of ar to empty. Raise Invalid_argument "Weak.set" if n is not in the range 0 to Weak.length a - 1.
val get : 'a t -> int -> 'a option
Weak.get ar n returns None if the nth cell of ar is empty, Some x (where x is the value) if it is full. Raise Invalid_argument "Weak.get" if n is not in the range 0 to Weak.length a - 1.
val get_copy : 'a t -> int -> 'a option
Weak.get_copy ar n returns None if the nth cell of ar is empty, Some x (where x is a (shallow) copy of the value) if it is full. In addition to pitfalls with mutable values, the interesting difference with get is that get_copy does not prevent the incremental GC from erasing the value in its current cycle (get may delay the erasure to the next GC cycle). Raise Invalid_argument "Weak.get" if n is not in the range 0 to Weak.length a - 1.
val check : 'a t -> int -> bool
Weak.check ar n returns true if the nth cell of ar is full, false if it is empty. Note that even if Weak.check ar n returns true, a subsequent Weak.get ar n can return None.
val fill : 'a t -> int -> int -> 'a option -> unit
Weak.fill ar ofs len el sets to el all pointers of ar from ofs to ofs + len - 1. Raise Invalid_argument "Weak.fill" if ofs and len do not designate a valid subarray of a.
val blit : 'a t -> int -> 'a t -> int -> int -> unit
Weak.blit ar1 off1 ar2 off2 len copies len weak pointers from ar1 (starting at off1) to ar2 (starting at off2). It works correctly even if ar1 and ar2 are the same. Raise Invalid_argument "Weak.blit" if off1 and len do not designate a valid subarray of ar1, or if off2 and len do not designate a valid subarray of ar2.

Weak hash tables


A weak hash table is a hashed set of values. Each value may magically disappear from the set when it is not used by the rest of the program any more. This is normally used to share data structures without inducing memory leaks. Weak hash tables are defined on values from a Hashtbl.HashedType module; the equal relation and hash function are taken from that module. We will say that v is an instance of x if equal x v is true.

The equal relation must be able to work on a shallow copy of the values and give the same result as with the values themselves.

module type S = sig .. end
The output signature of the functor Weak.Make. 
module Make: 
functor (H : Hashtbl.HashedType) -> S  with type data = H.t
Functor building an implementation of the weak hash table structure.
ocaml-doc-4.01/ocaml.html/libref/index.html0000644000175000017500000003112412214324173017036 0ustar i33173i33173



Arg
Parsing of command line arguments.
Arith_status
Flags that control rational arithmetic.
Array
Array operations.
ArrayLabels
Array operations.
Big_int
Operations on arbitrary-precision integers.
Bigarray
Large, multi-dimensional, numerical arrays.
Buffer
Extensible string buffers.
Callback
Registering OCaml values with the C runtime.
CamlinternalLazy
Run-time support for lazy values.
CamlinternalMod
Run-time support for recursive modules.
CamlinternalOO
Run-time support for objects and classes.
Char
Character operations.
Complex
Complex numbers.
Condition
Condition variables to synchronize between threads.
Digest
MD5 message digest.
Dynlink
Dynamic loading of object files.
Event
First-class synchronous communication.
Filename
Operations on file names.
Format
Pretty printing.
Gc
Memory management control and statistics; finalised values.
Genlex
A generic lexical analyzer.
Graphics
Machine-independent graphics primitives.
GraphicsX11
Additional graphics primitives for the X Windows system.
Hashtbl
Hash tables and hash functions.
Int32
32-bit integers.
Int64
64-bit integers.
Lazy
Deferred computations.
Lexing
The run-time library for lexers generated by ocamllex.
List
List operations.
ListLabels
List operations.
Map
Association tables over ordered types.
Marshal
Marshaling of data structures.
MoreLabels
Extra labeled libraries.
Mutex
Locks for mutual exclusion.
Nativeint
Processor-native integers.
Num
Operation on arbitrary-precision numbers.
Obj
Operations on internal representations of values.
Oo
Operations on objects
Parsing
The run-time library for parsers generated by ocamlyacc.
Pervasives
The initially opened module.
Printexc
Facilities for printing exceptions and inspecting current call stack.
Printf
Formatted output functions.
Queue
First-in first-out queues.
Random
Pseudo-random number generators (PRNG).
Ratio
Operation on rational numbers.
Scanf
Formatted input functions.
Set
Sets over ordered types.
Sort
Sorting and merging lists.
Stack
Last-in first-out stacks.
StdLabels
Standard labeled libraries.
Str
Regular expressions and high-level string processing
Stream
Streams and parsers.
String
String operations.
StringLabels
String operations.
Sys
System interface.
Thread
Lightweight threads for Posix 1003.1c and Win32.
ThreadUnix
Thread-compatible system calls.
Tk
Basic functions and types for LablTk
Unix
Interface to the Unix system
UnixLabels
Interface to the Unix system.
Weak
Arrays of weak pointers and hash tables of weak pointers.
ocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.HashedType.html0000644000175000017500000001122212214324151022403 0ustar i33173i33173 Hashtbl.HashedType sig
  type t
  val equal : Hashtbl.HashedType.t -> Hashtbl.HashedType.t -> bool
  val hash : Hashtbl.HashedType.t -> int
endocaml-doc-4.01/ocaml.html/libref/Marshal.html0000644000175000017500000004371312214324154017324 0ustar i33173i33173 Marshal
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Module Marshal

module Marshal: sig .. end
Marshaling of data structures.

This module provides functions to encode arbitrary data structures as sequences of bytes, which can then be written on a file or sent over a pipe or network connection. The bytes can then be read back later, possibly in another process, and decoded back into a data structure. The format for the byte sequences is compatible across all machines for a given version of OCaml.

Warning: marshaling is currently not type-safe. The type of marshaled data is not transmitted along the value of the data, making it impossible to check that the data read back possesses the type expected by the context. In particular, the result type of the Marshal.from_* functions is given as 'a, but this is misleading: the returned OCaml value does not possess type 'a for all 'a; it has one, unique type which cannot be determined at compile-type. The programmer should explicitly give the expected type of the returned value, using the following syntax:

  • (Marshal.from_channel chan : type). Anything can happen at run-time if the object in the file does not belong to the given type.
OCaml exception values (of type exn) returned by the unmarhsaller should not be pattern-matched over through match ... with or try ... with, because unmarshalling does not preserve the information required for matching their exception constructor. Structural equalities with other exception values, or most other uses such as Printexc.to_string, will still work as expected.

The representation of marshaled values is not human-readable, and uses bytes that are not printable characters. Therefore, input and output channels used in conjunction with Marshal.to_channel and Marshal.from_channel must be opened in binary mode, using e.g. open_out_bin or open_in_bin; channels opened in text mode will cause unmarshaling errors on platforms where text channels behave differently than binary channels, e.g. Windows.

type extern_flags =
| No_sharing (*Don't preserve sharing*)
| Closures (*Send function closures*)
| Compat_32 (*Ensure 32-bit compatibility*)
The flags to the Marshal.to_* functions below.
val to_channel : out_channel -> 'a -> extern_flags list -> unit
Marshal.to_channel chan v flags writes the representation of v on channel chan. The flags argument is a possibly empty list of flags that governs the marshaling behavior with respect to sharing, functional values, and compatibility between 32- and 64-bit platforms.

If flags does not contain Marshal.No_sharing, circularities and sharing inside the value v are detected and preserved in the sequence of bytes produced. In particular, this guarantees that marshaling always terminates. Sharing between values marshaled by successive calls to Marshal.to_channel is neither detected nor preserved, though. If flags contains Marshal.No_sharing, sharing is ignored. This results in faster marshaling if v contains no shared substructures, but may cause slower marshaling and larger byte representations if v actually contains sharing, or even non-termination if v contains cycles.

If flags does not contain Marshal.Closures, marshaling fails when it encounters a functional value inside v: only 'pure' data structures, containing neither functions nor objects, can safely be transmitted between different programs. If flags contains Marshal.Closures, functional values will be marshaled as a position in the code of the program. In this case, the output of marshaling can only be read back in processes that run exactly the same program, with exactly the same compiled code. (This is checked at un-marshaling time, using an MD5 digest of the code transmitted along with the code position.)

If flags contains Marshal.Compat_32, marshaling fails when it encounters an integer value outside the range [-2{^30}, 2{^30}-1] of integers that are representable on a 32-bit platform. This ensures that marshaled data generated on a 64-bit platform can be safely read back on a 32-bit platform. If flags does not contain Marshal.Compat_32, integer values outside the range [-2{^30}, 2{^30}-1] are marshaled, and can be read back on a 64-bit platform, but will cause an error at un-marshaling time when read back on a 32-bit platform. The Mashal.Compat_32 flag only matters when marshaling is performed on a 64-bit platform; it has no effect if marshaling is performed on a 32-bit platform.

val to_string : 'a -> extern_flags list -> string
Marshal.to_string v flags returns a string containing the representation of v as a sequence of bytes. The flags argument has the same meaning as for Marshal.to_channel.
val to_buffer : string -> int -> int -> 'a -> extern_flags list -> int
Marshal.to_buffer buff ofs len v flags marshals the value v, storing its byte representation in the string buff, starting at character number ofs, and writing at most len characters. It returns the number of characters actually written to the string. If the byte representation of v does not fit in len characters, the exception Failure is raised.
val from_channel : in_channel -> 'a
Marshal.from_channel chan reads from channel chan the byte representation of a structured value, as produced by one of the Marshal.to_* functions, and reconstructs and returns the corresponding value.
val from_string : string -> int -> 'a
Marshal.from_string buff ofs unmarshals a structured value like Marshal.from_channel does, except that the byte representation is not read from a channel, but taken from the string buff, starting at position ofs.
val header_size : int
The bytes representing a marshaled value are composed of a fixed-size header and a variable-sized data part, whose size can be determined from the header. Marshal.header_size is the size, in characters, of the header. Marshal.data_size buff ofs is the size, in characters, of the data part, assuming a valid header is stored in buff starting at position ofs. Finally, Marshal.total_size buff ofs is the total size, in characters, of the marshaled value. Both Marshal.data_size and Marshal.total_size raise Failure if buff, ofs does not contain a valid header.

To read the byte representation of a marshaled value into a string buffer, the program needs to read first Marshal.header_size characters into the buffer, then determine the length of the remainder of the representation using Marshal.data_size, make sure the buffer is large enough to hold the remaining data, then read it, and finally call Marshal.from_string to unmarshal the value.

val data_size : string -> int -> int
See Marshal.header_size.
val total_size : string -> int -> int
See Marshal.header_size.
ocaml-doc-4.01/ocaml.html/libref/index_exceptions.html0000644000175000017500000002060112214324175021277 0ustar i33173i33173 Index of exceptions
 Up  

Index of exceptions


B
Bad [Arg]
Functions in spec or anon_fun can raise Arg.Bad with an error message to reject invalid arguments.
Break [Sys]
Exception raised on interactive interrupt if Sys.catch_break is on.

E
Empty [Stack]
Raised when Stack.pop or Stack.top is applied to an empty stack.
Empty [Queue]
Raised when Queue.take or Queue.peek is applied to an empty queue.
Error [Stream]
Raised by parsers when the first component of a stream pattern is accepted, but one of the following components is rejected.
Error [Dynlink]
Errors in dynamic linking are reported by raising the Error exception with a description of the error.
Exit [Pervasives]
The Exit exception is not raised by any library function.

F
Failure [Stream]
Raised by parsers when none of the first components of the stream patterns is accepted.

G
Graphic_failure [Graphics]
Raised by the functions below when they encounter an error.

H
Help [Arg]
Raised by Arg.parse_argv when the user asks for help.

P
Parse_error [Parsing]
Raised when a parser encounters a syntax error.

S
Scan_failure [Scanf]
The exception that formatted input functions raise when the input cannot be read according to the given format.

U
Undefined [Lazy]
Undefined [CamlinternalLazy]
Unix_error [UnixLabels]
Raised by the system calls below when an error is encountered.
Unix_error [Unix]
Raised by the system calls below when an error is encountered.
ocaml-doc-4.01/ocaml.html/libref/type_Scanf.Scanning.html0000644000175000017500000001670212214324163021565 0ustar i33173i33173 Scanf.Scanning sig
  type in_channel
  type scanbuf = Scanf.Scanning.in_channel
  val stdin : Scanf.Scanning.in_channel
  type file_name = string
  val open_in : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
  val open_in_bin : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
  val close_in : Scanf.Scanning.in_channel -> unit
  val from_file : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
  val from_file_bin : string -> Scanf.Scanning.in_channel
  val from_string : string -> Scanf.Scanning.in_channel
  val from_function : (unit -> char) -> Scanf.Scanning.in_channel
  val from_channel : Pervasives.in_channel -> Scanf.Scanning.in_channel
  val end_of_input : Scanf.Scanning.in_channel -> bool
  val beginning_of_input : Scanf.Scanning.in_channel -> bool
  val name_of_input : Scanf.Scanning.in_channel -> string
  val stdib : Scanf.Scanning.in_channel
endocaml-doc-4.01/ocaml.html/libref/type_Int32.html0000644000175000017500000002357012214324152017672 0ustar i33173i33173 Int32 sig
  val zero : int32
  val one : int32
  val minus_one : int32
  external neg : int32 -> int32 = "%int32_neg"
  external add : int32 -> int32 -> int32 = "%int32_add"
  external sub : int32 -> int32 -> int32 = "%int32_sub"
  external mul : int32 -> int32 -> int32 = "%int32_mul"
  external div : int32 -> int32 -> int32 = "%int32_div"
  external rem : int32 -> int32 -> int32 = "%int32_mod"
  val succ : int32 -> int32
  val pred : int32 -> int32
  val abs : int32 -> int32
  val max_int : int32
  val min_int : int32
  external logand : int32 -> int32 -> int32 = "%int32_and"
  external logor : int32 -> int32 -> int32 = "%int32_or"
  external logxor : int32 -> int32 -> int32 = "%int32_xor"
  val lognot : int32 -> int32
  external shift_left : int32 -> int -> int32 = "%int32_lsl"
  external shift_right : int32 -> int -> int32 = "%int32_asr"
  external shift_right_logical : int32 -> int -> int32 = "%int32_lsr"
  external of_int : int -> int32 = "%int32_of_int"
  external to_int : int32 -> int = "%int32_to_int"
  external of_float : float -> int32 = "caml_int32_of_float"
  external to_float : int32 -> float = "caml_int32_to_float"
  external of_string : string -> int32 = "caml_int32_of_string"
  val to_string : int32 -> string
  external bits_of_float : float -> int32 = "caml_int32_bits_of_float"
  external float_of_bits : int32 -> float = "caml_int32_float_of_bits"
  type t = int32
  val compare : Int32.t -> Int32.t -> int
  external format : string -> int32 -> string = "caml_int32_format"
endocaml-doc-4.01/ocaml.html/libref/index_class_types.html0000644000175000017500000001013112214324176021445 0ustar i33173i33173 Index of class types
 Up  

Index of class types

ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Set.S.html0000644000175000017500000002442412214324156020715 0ustar i33173i33173 MoreLabels.Set.S
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Module type MoreLabels.Set.S

module type S = sig .. end
type elt 
type t 
val empty : t
val is_empty : t -> bool
val mem : elt -> t -> bool
val add : elt -> t -> t
val singleton : elt -> t
val remove : elt -> t -> t
val union : t -> t -> t
val inter : t -> t -> t
val diff : t -> t -> t
val compare : t -> t -> int
val equal : t -> t -> bool
val subset : t -> t -> bool
val iter : f:(elt -> unit) -> t -> unit
val fold : f:(elt -> 'a -> 'a) -> t -> init:'a -> 'a
val for_all : f:(elt -> bool) -> t -> bool
val exists : f:(elt -> bool) -> t -> bool
val filter : f:(elt -> bool) -> t -> t
val partition : f:(elt -> bool) ->
       t -> t * t
val cardinal : t -> int
val elements : t -> elt list
val min_elt : t -> elt
val max_elt : t -> elt
val choose : t -> elt
val split : elt ->
       t -> t * bool * t
val find : elt -> t -> elt
ocaml-doc-4.01/ocaml.html/libref/type_Mutex.html0000644000175000017500000001136512214324160020073 0ustar i33173i33173 Mutex sig
  type t
  val create : unit -> Mutex.t
  val lock : Mutex.t -> unit
  val try_lock : Mutex.t -> bool
  val unlock : Mutex.t -> unit
endocaml-doc-4.01/ocaml.html/libref/type_Sort.html0000644000175000017500000001256612214324164017730 0ustar i33173i33173 Sort sig
  val list : ('-> '-> bool) -> 'a list -> 'a list
  val array : ('-> '-> bool) -> 'a array -> unit
  val merge : ('-> '-> bool) -> 'a list -> 'a list -> 'a list
endocaml-doc-4.01/ocaml.html/libref/CamlinternalMod.html0000644000175000017500000001467312214324146021012 0ustar i33173i33173 CamlinternalMod
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Module CamlinternalMod

module CamlinternalMod: sig .. end
Run-time support for recursive modules. All functions in this module are for system use only, not for the casual user.
type shape =
| Function
| Lazy
| Class
| Module of shape array 
val init_mod : string * int * int -> shape -> Obj.t
val update_mod : shape -> Obj.t -> Obj.t -> unit
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Map.S.html0000644000175000017500000004556212214324156021746 0ustar i33173i33173 MoreLabels.Map.S sig
  type key
  and +'a t
  val empty : 'MoreLabels.Map.S.t
  val is_empty : 'MoreLabels.Map.S.t -> bool
  val mem : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> bool
  val add :
    key:MoreLabels.Map.S.key ->
    data:'-> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
  val singleton : MoreLabels.Map.S.key -> '-> 'MoreLabels.Map.S.t
  val remove :
    MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
  val merge :
    f:(MoreLabels.Map.S.key -> 'a option -> 'b option -> 'c option) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
  val compare :
    cmp:('-> '-> int) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> int
  val equal :
    cmp:('-> '-> bool) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> bool
  val iter :
    f:(key:MoreLabels.Map.S.key -> data:'-> unit) ->
    'MoreLabels.Map.S.t -> unit
  val fold :
    f:(key:MoreLabels.Map.S.key -> data:'-> '-> 'b) ->
    'MoreLabels.Map.S.t -> init:'-> 'b
  val for_all :
    f:(MoreLabels.Map.S.key -> '-> bool) -> 'MoreLabels.Map.S.t -> bool
  val exists :
    f:(MoreLabels.Map.S.key -> '-> bool) -> 'MoreLabels.Map.S.t -> bool
  val filter :
    f:(MoreLabels.Map.S.key -> '-> bool) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
  val partition :
    f:(MoreLabels.Map.S.key -> '-> bool) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t * 'MoreLabels.Map.S.t
  val cardinal : 'MoreLabels.Map.S.t -> int
  val bindings : 'MoreLabels.Map.S.t -> (MoreLabels.Map.S.key * 'a) list
  val min_binding : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
  val max_binding : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
  val choose : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
  val split :
    MoreLabels.Map.S.key ->
    'MoreLabels.Map.S.t ->
    'MoreLabels.Map.S.t * 'a option * 'MoreLabels.Map.S.t
  val find : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> 'a
  val map : f:('-> 'b) -> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
  val mapi :
    f:(MoreLabels.Map.S.key -> '-> 'b) ->
    'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Set.Make.html0000644000175000017500000002542312214324156021370 0ustar i33173i33173 MoreLabels.Set.Make
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Functor MoreLabels.Set.Make

module Make: 
functor (Ord : OrderedType) -> S  with type elt = Ord.t
Parameters:
Ord : OrderedType 
type elt 
type t 
val empty : t
val is_empty : t -> bool
val mem : elt -> t -> bool
val add : elt -> t -> t
val singleton : elt -> t
val remove : elt -> t -> t
val union : t -> t -> t
val inter : t -> t -> t
val diff : t -> t -> t
val compare : t -> t -> int
val equal : t -> t -> bool
val subset : t -> t -> bool
val iter : f:(elt -> unit) -> t -> unit
val fold : f:(elt -> 'a -> 'a) -> t -> init:'a -> 'a
val for_all : f:(elt -> bool) -> t -> bool
val exists : f:(elt -> bool) -> t -> bool
val filter : f:(elt -> bool) -> t -> t
val partition : f:(elt -> bool) ->
       t -> t * t
val cardinal : t -> int
val elements : t -> elt list
val min_elt : t -> elt
val max_elt : t -> elt
val choose : t -> elt
val split : elt ->
       t -> t * bool * t
val find : elt -> t -> elt
ocaml-doc-4.01/ocaml.html/libref/Arg.html0000644000175000017500000006111512214324143016440 0ustar i33173i33173 Arg
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Module Arg

module Arg: sig .. end
Parsing of command line arguments.

This module provides a general mechanism for extracting options and arguments from the command line to the program.

Syntax of command lines: A keyword is a character string starting with a -. An option is a keyword alone or followed by an argument. The types of keywords are: Unit, Bool, Set, Clear, String, Set_string, Int, Set_int, Float, Set_float, Tuple, Symbol, and Rest. Unit, Set and Clear keywords take no argument. A Rest keyword takes the remaining of the command line as arguments. Every other keyword takes the following word on the command line as argument. Arguments not preceded by a keyword are called anonymous arguments.

Examples (cmd is assumed to be the command name):

  • cmd -flag (a unit option)
  • cmd -int 1 (an int option with argument 1)
  • cmd -string foobar (a string option with argument "foobar")
  • cmd -float 12.34 (a float option with argument 12.34)
  • cmd a b c (three anonymous arguments: "a", "b", and "c")
  • cmd a b -- c d (two anonymous arguments and a rest option with two arguments)

type spec =
| Unit of (unit -> unit) (*Call the function with unit argument*)
| Bool of (bool -> unit) (*Call the function with a bool argument*)
| Set of bool ref (*Set the reference to true*)
| Clear of bool ref (*Set the reference to false*)
| String of (string -> unit) (*Call the function with a string argument*)
| Set_string of string ref (*Set the reference to the string argument*)
| Int of (int -> unit) (*Call the function with an int argument*)
| Set_int of int ref (*Set the reference to the int argument*)
| Float of (float -> unit) (*Call the function with a float argument*)
| Set_float of float ref (*Set the reference to the float argument*)
| Tuple of spec list (*Take several arguments according to the spec list*)
| Symbol of string list * (string -> unit) (*Take one of the symbols as argument and call the function with the symbol*)
| Rest of (string -> unit) (*Stop interpreting keywords and call the function with each remaining argument*)
The concrete type describing the behavior associated with a keyword.
type key = string 
type doc = string 
type usage_msg = string 
type anon_fun = string -> unit 
val parse : (key * spec * doc) list -> anon_fun -> usage_msg -> unit
Arg.parse speclist anon_fun usage_msg parses the command line. speclist is a list of triples (key, spec, doc). key is the option keyword, it must start with a '-' character. spec gives the option type and the function to call when this option is found on the command line. doc is a one-line description of this option. anon_fun is called on anonymous arguments. The functions in spec and anon_fun are called in the same order as their arguments appear on the command line.

If an error occurs, Arg.parse exits the program, after printing to standard error an error message as follows:

  • The reason for the error: unknown option, invalid or missing argument, etc.
  • usage_msg
  • The list of options, each followed by the corresponding doc string. Beware: options that have an empty doc string will not be included in the list.
For the user to be able to specify anonymous arguments starting with a -, include for example ("-", String anon_fun, doc) in speclist.

By default, parse recognizes two unit options, -help and --help, which will print to standard output usage_msg and the list of options, and exit the program. You can override this behaviour by specifying your own -help and --help options in speclist.

val parse_dynamic : (string * spec * string) list ref ->
       anon_fun -> string -> unit
Same as Arg.parse, except that the speclist argument is a reference and may be updated during the parsing. A typical use for this feature is to parse command lines of the form:
  • command subcommand options where the list of options depends on the value of the subcommand argument.

val parse_argv : ?current:int ref ->
       string array ->
       (key * spec * doc) list -> anon_fun -> usage_msg -> unit
Arg.parse_argv ~current args speclist anon_fun usage_msg parses the array args as if it were the command line. It uses and updates the value of ~current (if given), or Arg.current. You must set it before calling parse_argv. The initial value of current is the index of the program name (argument 0) in the array. If an error occurs, Arg.parse_argv raises Arg.Bad with the error message as argument. If option -help or --help is given, Arg.parse_argv raises Arg.Help with the help message as argument.
val parse_argv_dynamic : ?current:int ref ->
       string array ->
       (string * spec * string) list ref ->
       anon_fun -> string -> unit
Same as Arg.parse_argv, except that the speclist argument is a reference and may be updated during the parsing. See Arg.parse_dynamic.
exception Help of string
Raised by Arg.parse_argv when the user asks for help.
exception Bad of string
Functions in spec or anon_fun can raise Arg.Bad with an error message to reject invalid arguments. Arg.Bad is also raised by Arg.parse_argv in case of an error.
val usage : (key * spec * doc) list -> usage_msg -> unit
Arg.usage speclist usage_msg prints to standard error an error message that includes the list of valid options. This is the same message that Arg.parse prints in case of error. speclist and usage_msg are the same as for Arg.parse.
val usage_string : (key * spec * doc) list -> usage_msg -> string
Returns the message that would have been printed by Arg.usage, if provided with the same parameters.
val align : (key * spec * doc) list -> (key * spec * doc) list
Align the documentation strings by inserting spaces at the first space, according to the length of the keyword. Use a space as the first character in a doc string if you want to align the whole string. The doc strings corresponding to Symbol arguments are aligned on the next line.
val current : int ref
Position (in Sys.argv) of the argument being processed. You can change this value, e.g. to force Arg.parse to skip some arguments. Arg.parse uses the initial value of Arg.current as the index of argument 0 (the program name) and starts parsing arguments at the next element.
ocaml-doc-4.01/ocaml.html/libref/GraphicsX11.html0000644000175000017500000001344712214324151017765 0ustar i33173i33173 GraphicsX11
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Module GraphicsX11

module GraphicsX11: sig .. end
Additional graphics primitives for the X Windows system.
type window_id = string 
val window_id : unit -> window_id
Return the unique identifier of the OCaml graphics window. The returned string is an unsigned 32 bits integer in decimal form.
val open_subwindow : x:int -> y:int -> width:int -> height:int -> window_id
Create a sub-window of the current OCaml graphics window and return its identifier.
val close_subwindow : window_id -> unit
Close the sub-window having the given identifier.
ocaml-doc-4.01/ocaml.html/libref/Unix.html0000644000175000017500000062255612214324170016666 0ustar i33173i33173 Unix
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Module Unix

module Unix: sig .. end
Interface to the Unix system

Error report

type error =
| E2BIG (*Argument list too long*)
| EACCES (*Permission denied*)
| EAGAIN (*Resource temporarily unavailable; try again*)
| EBADF (*Bad file descriptor*)
| EBUSY (*Resource unavailable*)
| ECHILD (*No child process*)
| EDEADLK (*Resource deadlock would occur*)
| EDOM (*Domain error for math functions, etc.*)
| EEXIST (*File exists*)
| EFAULT (*Bad address*)
| EFBIG (*File too large*)
| EINTR (*Function interrupted by signal*)
| EINVAL (*Invalid argument*)
| EIO (*Hardware I/O error*)
| EISDIR (*Is a directory*)
| EMFILE (*Too many open files by the process*)
| EMLINK (*Too many links*)
| ENAMETOOLONG (*Filename too long*)
| ENFILE (*Too many open files in the system*)
| ENODEV (*No such device*)
| ENOENT (*No such file or directory*)
| ENOEXEC (*Not an executable file*)
| ENOLCK (*No locks available*)
| ENOMEM (*Not enough memory*)
| ENOSPC (*No space left on device*)
| ENOSYS (*Function not supported*)
| ENOTDIR (*Not a directory*)
| ENOTEMPTY (*Directory not empty*)
| ENOTTY (*Inappropriate I/O control operation*)
| ENXIO (*No such device or address*)
| EPERM (*Operation not permitted*)
| EPIPE (*Broken pipe*)
| ERANGE (*Result too large*)
| EROFS (*Read-only file system*)
| ESPIPE (*Invalid seek e.g. on a pipe*)
| ESRCH (*No such process*)
| EXDEV (*Invalid link*)
| EWOULDBLOCK (*Operation would block*)
| EINPROGRESS (*Operation now in progress*)
| EALREADY (*Operation already in progress*)
| ENOTSOCK (*Socket operation on non-socket*)
| EDESTADDRREQ (*Destination address required*)
| EMSGSIZE (*Message too long*)
| EPROTOTYPE (*Protocol wrong type for socket*)
| ENOPROTOOPT (*Protocol not available*)
| EPROTONOSUPPORT (*Protocol not supported*)
| ESOCKTNOSUPPORT (*Socket type not supported*)
| EOPNOTSUPP (*Operation not supported on socket*)
| EPFNOSUPPORT (*Protocol family not supported*)
| EAFNOSUPPORT (*Address family not supported by protocol family*)
| EADDRINUSE (*Address already in use*)
| EADDRNOTAVAIL (*Can't assign requested address*)
| ENETDOWN (*Network is down*)
| ENETUNREACH (*Network is unreachable*)
| ENETRESET (*Network dropped connection on reset*)
| ECONNABORTED (*Software caused connection abort*)
| ECONNRESET (*Connection reset by peer*)
| ENOBUFS (*No buffer space available*)
| EISCONN (*Socket is already connected*)
| ENOTCONN (*Socket is not connected*)
| ESHUTDOWN (*Can't send after socket shutdown*)
| ETOOMANYREFS (*Too many references: can't splice*)
| ETIMEDOUT (*Connection timed out*)
| ECONNREFUSED (*Connection refused*)
| EHOSTDOWN (*Host is down*)
| EHOSTUNREACH (*No route to host*)
| ELOOP (*Too many levels of symbolic links*)
| EOVERFLOW (*File size or position not representable*)
| EUNKNOWNERR of int (*Unknown error*)
The type of error codes. Errors defined in the POSIX standard and additional errors from UNIX98 and BSD. All other errors are mapped to EUNKNOWNERR.
exception Unix_error of error * string * string
Raised by the system calls below when an error is encountered. The first component is the error code; the second component is the function name; the third component is the string parameter to the function, if it has one, or the empty string otherwise.
val error_message : error -> string
Return a string describing the given error code.
val handle_unix_error : ('a -> 'b) -> 'a -> 'b
handle_unix_error f x applies f to x and returns the result. If the exception Unix_error is raised, it prints a message describing the error and exits with code 2.

Access to the process environment

val environment : unit -> string array
Return the process environment, as an array of strings with the format ``variable=value''.
val getenv : string -> string
Return the value associated to a variable in the process environment. Raise Not_found if the variable is unbound. (This function is identical to Sys.getenv.)
val putenv : string -> string -> unit
Unix.putenv name value sets the value associated to a variable in the process environment. name is the name of the environment variable, and value its new associated value.

Process handling

type process_status =
| WEXITED of int (*The process terminated normally by exit; the argument is the return code.*)
| WSIGNALED of int (*The process was killed by a signal; the argument is the signal number.*)
| WSTOPPED of int (*The process was stopped by a signal; the argument is the signal number.*)
The termination status of a process. See module Sys for the definitions of the standard signal numbers. Note that they are not the numbers used by the OS.
type wait_flag =
| WNOHANG (*do not block if no child has died yet, but immediately return with a pid equal to 0.*)
| WUNTRACED (*report also the children that receive stop signals.*)
Flags for Unix.waitpid.
val execv : string -> string array -> 'a
execv prog args execute the program in file prog, with the arguments args, and the current process environment. These execv* functions never return: on success, the current program is replaced by the new one; on failure, a Unix.Unix_error exception is raised.
val execve : string -> string array -> string array -> 'a
Same as Unix.execv, except that the third argument provides the environment to the program executed.
val execvp : string -> string array -> 'a
Same as Unix.execv, except that the program is searched in the path.
val execvpe : string -> string array -> string array -> 'a
Same as Unix.execve, except that the program is searched in the path.
val fork : unit -> int
Fork a new process. The returned integer is 0 for the child process, the pid of the child process for the parent process.
val wait : unit -> int * process_status
Wait until one of the children processes die, and return its pid and termination status.
val waitpid : wait_flag list -> int -> int * process_status
Same as Unix.wait, but waits for the child process whose pid is given. A pid of -1 means wait for any child. A pid of 0 means wait for any child in the same process group as the current process. Negative pid arguments represent process groups. The list of options indicates whether waitpid should return immediately without waiting, and whether it should report stopped children.
val system : string -> process_status
Execute the given command, wait until it terminates, and return its termination status. The string is interpreted by the shell /bin/sh and therefore can contain redirections, quotes, variables, etc. The result WEXITED 127 indicates that the shell couldn't be executed.
val getpid : unit -> int
Return the pid of the process.
val getppid : unit -> int
Return the pid of the parent process.
val nice : int -> int
Change the process priority. The integer argument is added to the ``nice'' value. (Higher values of the ``nice'' value mean lower priorities.) Return the new nice value.

Basic file input/output

type file_descr
The abstract type of file descriptors.
val stdin : file_descr
File descriptor for standard input.
val stdout : file_descr
File descriptor for standard output.
val stderr : file_descr
File descriptor for standard error.
type open_flag =
| O_RDONLY (*Open for reading*)
| O_WRONLY (*Open for writing*)
| O_RDWR (*Open for reading and writing*)
| O_NONBLOCK (*Open in non-blocking mode*)
| O_APPEND (*Open for append*)
| O_CREAT (*Create if nonexistent*)
| O_TRUNC (*Truncate to 0 length if existing*)
| O_EXCL (*Fail if existing*)
| O_NOCTTY (*Don't make this dev a controlling tty*)
| O_DSYNC (*Writes complete as `Synchronised I/O data integrity completion'*)
| O_SYNC (*Writes complete as `Synchronised I/O file integrity completion'*)
| O_RSYNC (*Reads complete as writes (depending on O_SYNC/O_DSYNC)*)
| O_SHARE_DELETE (*Windows only: allow the file to be deleted while still open*)
| O_CLOEXEC (*Set the close-on-exec flag on the descriptor returned by Unix.openfile*)

The flags to Unix.openfile.
type file_perm = int
The type of file access rights, e.g. 0o640 is read and write for user, read for group, none for others
val openfile : string -> open_flag list -> file_perm -> file_descr
Open the named file with the given flags. Third argument is the permissions to give to the file if it is created (see Unix.umask). Return a file descriptor on the named file.
val close : file_descr -> unit
Close a file descriptor.
val read : file_descr -> string -> int -> int -> int
read fd buff ofs len reads len characters from descriptor fd, storing them in string buff, starting at position ofs in string buff. Return the number of characters actually read.
val write : file_descr -> string -> int -> int -> int
write fd buff ofs len writes len characters to descriptor fd, taking them from string buff, starting at position ofs in string buff. Return the number of characters actually written. write repeats the writing operation until all characters have been written or an error occurs.
val single_write : file_descr -> string -> int -> int -> int
Same as write, but attempts to write only once. Thus, if an error occurs, single_write guarantees that no data has been written.

Interfacing with the standard input/output library

val in_channel_of_descr : file_descr -> in_channel
Create an input channel reading from the given descriptor. The channel is initially in binary mode; use set_binary_mode_in ic false if text mode is desired.
val out_channel_of_descr : file_descr -> out_channel
Create an output channel writing on the given descriptor. The channel is initially in binary mode; use set_binary_mode_out oc false if text mode is desired.
val descr_of_in_channel : in_channel -> file_descr
Return the descriptor corresponding to an input channel.
val descr_of_out_channel : out_channel -> file_descr
Return the descriptor corresponding to an output channel.

Seeking and truncating

type seek_command =
| SEEK_SET (*indicates positions relative to the beginning of the file*)
| SEEK_CUR (*indicates positions relative to the current position*)
| SEEK_END (*indicates positions relative to the end of the file*)
Positioning modes for Unix.lseek.
val lseek : file_descr -> int -> seek_command -> int
Set the current position for a file descriptor, and return the resulting offset (from the beginning of the file).
val truncate : string -> int -> unit
Truncates the named file to the given size.
val ftruncate : file_descr -> int -> unit
Truncates the file corresponding to the given descriptor to the given size.

File status

type file_kind =
| S_REG (*Regular file*)
| S_DIR (*Directory*)
| S_CHR (*Character device*)
| S_BLK (*Block device*)
| S_LNK (*Symbolic link*)
| S_FIFO (*Named pipe*)
| S_SOCK (*Socket*) 
type stats = {
   st_dev : int; (*Device number*)
   st_ino : int; (*Inode number*)
   st_kind : file_kind; (*Kind of the file*)
   st_perm : file_perm; (*Access rights*)
   st_nlink : int; (*Number of links*)
   st_uid : int; (*User id of the owner*)
   st_gid : int; (*Group ID of the file's group*)
   st_rdev : int; (*Device minor number*)
   st_size : int; (*Size in bytes*)
   st_atime : float; (*Last access time*)
   st_mtime : float; (*Last modification time*)
   st_ctime : float; (*Last status change time*)
}
The information returned by the Unix.stat calls.
val stat : string -> stats
Return the information for the named file.
val lstat : string -> stats
Same as Unix.stat, but in case the file is a symbolic link, return the information for the link itself.
val fstat : file_descr -> stats
Return the information for the file associated with the given descriptor.
val isatty : file_descr -> bool
Return true if the given file descriptor refers to a terminal or console window, false otherwise.

File operations on large files

module LargeFile: sig .. end
File operations on large files.

Operations on file names

val unlink : string -> unit
Removes the named file
val rename : string -> string -> unit
rename old new changes the name of a file from old to new.
val link : string -> string -> unit
link source dest creates a hard link named dest to the file named source.

File permissions and ownership

type access_permission =
| R_OK (*Read permission*)
| W_OK (*Write permission*)
| X_OK (*Execution permission*)
| F_OK (*File exists*)
Flags for the Unix.access call.
val chmod : string -> file_perm -> unit
Change the permissions of the named file.
val fchmod : file_descr -> file_perm -> unit
Change the permissions of an opened file.
val chown : string -> int -> int -> unit
Change the owner uid and owner gid of the named file.
val fchown : file_descr -> int -> int -> unit
Change the owner uid and owner gid of an opened file.
val umask : int -> int
Set the process's file mode creation mask, and return the previous mask.
val access : string -> access_permission list -> unit
Check that the process has the given permissions over the named file. Raise Unix_error otherwise.

Operations on file descriptors

val dup : file_descr -> file_descr
Return a new file descriptor referencing the same file as the given descriptor.
val dup2 : file_descr -> file_descr -> unit
dup2 fd1 fd2 duplicates fd1 to fd2, closing fd2 if already opened.
val set_nonblock : file_descr -> unit
Set the ``non-blocking'' flag on the given descriptor. When the non-blocking flag is set, reading on a descriptor on which there is temporarily no data available raises the EAGAIN or EWOULDBLOCK error instead of blocking; writing on a descriptor on which there is temporarily no room for writing also raises EAGAIN or EWOULDBLOCK.
val clear_nonblock : file_descr -> unit
Clear the ``non-blocking'' flag on the given descriptor. See Unix.set_nonblock.
val set_close_on_exec : file_descr -> unit
Set the ``close-on-exec'' flag on the given descriptor. A descriptor with the close-on-exec flag is automatically closed when the current process starts another program with one of the exec functions.
val clear_close_on_exec : file_descr -> unit
Clear the ``close-on-exec'' flag on the given descriptor. See Unix.set_close_on_exec.

Directories

val mkdir : string -> file_perm -> unit
Create a directory with the given permissions (see Unix.umask).
val rmdir : string -> unit
Remove an empty directory.
val chdir : string -> unit
Change the process working directory.
val getcwd : unit -> string
Return the name of the current working directory.
val chroot : string -> unit
Change the process root directory.
type dir_handle
The type of descriptors over opened directories.
val opendir : string -> dir_handle
Open a descriptor on a directory
val readdir : dir_handle -> string
Return the next entry in a directory.
Raises End_of_file when the end of the directory has been reached.
val rewinddir : dir_handle -> unit
Reposition the descriptor to the beginning of the directory
val closedir : dir_handle -> unit
Close a directory descriptor.

Pipes and redirections

val pipe : unit -> file_descr * file_descr
Create a pipe. The first component of the result is opened for reading, that's the exit to the pipe. The second component is opened for writing, that's the entrance to the pipe.
val mkfifo : string -> file_perm -> unit
Create a named pipe with the given permissions (see Unix.umask).

High-level process and redirection management

val create_process : string ->
       string array -> file_descr -> file_descr -> file_descr -> int
create_process prog args new_stdin new_stdout new_stderr forks a new process that executes the program in file prog, with arguments args. The pid of the new process is returned immediately; the new process executes concurrently with the current process. The standard input and outputs of the new process are connected to the descriptors new_stdin, new_stdout and new_stderr. Passing e.g. stdout for new_stdout prevents the redirection and causes the new process to have the same standard output as the current process. The executable file prog is searched in the path. The new process has the same environment as the current process.
val create_process_env : string ->
       string array ->
       string array -> file_descr -> file_descr -> file_descr -> int
create_process_env prog args env new_stdin new_stdout new_stderr works as Unix.create_process, except that the extra argument env specifies the environment passed to the program.
val open_process_in : string -> in_channel
High-level pipe and process management. This function runs the given command in parallel with the program. The standard output of the command is redirected to a pipe, which can be read via the returned input channel. The command is interpreted by the shell /bin/sh (cf. system).
val open_process_out : string -> out_channel
Same as Unix.open_process_in, but redirect the standard input of the command to a pipe. Data written to the returned output channel is sent to the standard input of the command. Warning: writes on output channels are buffered, hence be careful to call flush at the right times to ensure correct synchronization.
val open_process : string -> in_channel * out_channel
Same as Unix.open_process_out, but redirects both the standard input and standard output of the command to pipes connected to the two returned channels. The input channel is connected to the output of the command, and the output channel to the input of the command.
val open_process_full : string ->
       string array ->
       in_channel * out_channel * in_channel
Similar to Unix.open_process, but the second argument specifies the environment passed to the command. The result is a triple of channels connected respectively to the standard output, standard input, and standard error of the command.
val close_process_in : in_channel -> process_status
Close channels opened by Unix.open_process_in, wait for the associated command to terminate, and return its termination status.
val close_process_out : out_channel -> process_status
Close channels opened by Unix.open_process_out, wait for the associated command to terminate, and return its termination status.
val close_process : in_channel * out_channel -> process_status
Close channels opened by Unix.open_process, wait for the associated command to terminate, and return its termination status.
val close_process_full : in_channel * out_channel * in_channel ->
       process_status
Close channels opened by Unix.open_process_full, wait for the associated command to terminate, and return its termination status.


val symlink : string -> string -> unit
symlink source dest creates the file dest as a symbolic link to the file source.
val readlink : string -> string
Read the contents of a link.

Polling

val select : file_descr list ->
       file_descr list ->
       file_descr list ->
       float -> file_descr list * file_descr list * file_descr list
Wait until some input/output operations become possible on some channels. The three list arguments are, respectively, a set of descriptors to check for reading (first argument), for writing (second argument), or for exceptional conditions (third argument). The fourth argument is the maximal timeout, in seconds; a negative fourth argument means no timeout (unbounded wait). The result is composed of three sets of descriptors: those ready for reading (first component), ready for writing (second component), and over which an exceptional condition is pending (third component).

Locking

type lock_command =
| F_ULOCK (*Unlock a region*)
| F_LOCK (*Lock a region for writing, and block if already locked*)
| F_TLOCK (*Lock a region for writing, or fail if already locked*)
| F_TEST (*Test a region for other process locks*)
| F_RLOCK (*Lock a region for reading, and block if already locked*)
| F_TRLOCK (*Lock a region for reading, or fail if already locked*)
Commands for Unix.lockf.
val lockf : file_descr -> lock_command -> int -> unit
lockf fd cmd size puts a lock on a region of the file opened as fd. The region starts at the current read/write position for fd (as set by Unix.lseek), and extends size bytes forward if size is positive, size bytes backwards if size is negative, or to the end of the file if size is zero. A write lock prevents any other process from acquiring a read or write lock on the region. A read lock prevents any other process from acquiring a write lock on the region, but lets other processes acquire read locks on it.

The F_LOCK and F_TLOCK commands attempts to put a write lock on the specified region. The F_RLOCK and F_TRLOCK commands attempts to put a read lock on the specified region. If one or several locks put by another process prevent the current process from acquiring the lock, F_LOCK and F_RLOCK block until these locks are removed, while F_TLOCK and F_TRLOCK fail immediately with an exception. The F_ULOCK removes whatever locks the current process has on the specified region. Finally, the F_TEST command tests whether a write lock can be acquired on the specified region, without actually putting a lock. It returns immediately if successful, or fails otherwise.


Signals
Note: installation of signal handlers is performed via the functions Sys.signal and Sys.set_signal.
val kill : int -> int -> unit
kill pid sig sends signal number sig to the process with id pid.
type sigprocmask_command =
| SIG_SETMASK
| SIG_BLOCK
| SIG_UNBLOCK 
val sigprocmask : sigprocmask_command -> int list -> int list
sigprocmask cmd sigs changes the set of blocked signals. If cmd is SIG_SETMASK, blocked signals are set to those in the list sigs. If cmd is SIG_BLOCK, the signals in sigs are added to the set of blocked signals. If cmd is SIG_UNBLOCK, the signals in sigs are removed from the set of blocked signals. sigprocmask returns the set of previously blocked signals.
val sigpending : unit -> int list
Return the set of blocked signals that are currently pending.
val sigsuspend : int list -> unit
sigsuspend sigs atomically sets the blocked signals to sigs and waits for a non-ignored, non-blocked signal to be delivered. On return, the blocked signals are reset to their initial value.
val pause : unit -> unit
Wait until a non-ignored, non-blocked signal is delivered.

Time functions

type process_times = {
   tms_utime : float; (*User time for the process*)
   tms_stime : float; (*System time for the process*)
   tms_cutime : float; (*User time for the children processes*)
   tms_cstime : float; (*System time for the children processes*)
}
The execution times (CPU times) of a process.
type tm = {
   tm_sec : int; (*Seconds 0..60*)
   tm_min : int; (*Minutes 0..59*)
   tm_hour : int; (*Hours 0..23*)
   tm_mday : int; (*Day of month 1..31*)
   tm_mon : int; (*Month of year 0..11*)
   tm_year : int; (*Year - 1900*)
   tm_wday : int; (*Day of week (Sunday is 0)*)
   tm_yday : int; (*Day of year 0..365*)
   tm_isdst : bool; (*Daylight time savings in effect*)
}
The type representing wallclock time and calendar date.
val time : unit -> float
Return the current time since 00:00:00 GMT, Jan. 1, 1970, in seconds.
val gettimeofday : unit -> float
Same as Unix.time, but with resolution better than 1 second.
val gmtime : float -> tm
Convert a time in seconds, as returned by Unix.time, into a date and a time. Assumes UTC (Coordinated Universal Time), also known as GMT.
val localtime : float -> tm
Convert a time in seconds, as returned by Unix.time, into a date and a time. Assumes the local time zone.
val mktime : tm -> float * tm
Convert a date and time, specified by the tm argument, into a time in seconds, as returned by Unix.time. The tm_isdst, tm_wday and tm_yday fields of tm are ignored. Also return a normalized copy of the given tm record, with the tm_wday, tm_yday, and tm_isdst fields recomputed from the other fields, and the other fields normalized (so that, e.g., 40 October is changed into 9 November). The tm argument is interpreted in the local time zone.
val alarm : int -> int
Schedule a SIGALRM signal after the given number of seconds.
val sleep : int -> unit
Stop execution for the given number of seconds.
val times : unit -> process_times
Return the execution times of the process.
val utimes : string -> float -> float -> unit
Set the last access time (second arg) and last modification time (third arg) for a file. Times are expressed in seconds from 00:00:00 GMT, Jan. 1, 1970. A time of 0.0 is interpreted as the current time.
type interval_timer =
| ITIMER_REAL (*decrements in real time, and sends the signal SIGALRM when expired.*)
| ITIMER_VIRTUAL (*decrements in process virtual time, and sends SIGVTALRM when expired.*)
| ITIMER_PROF (*(for profiling) decrements both when the process is running and when the system is running on behalf of the process; it sends SIGPROF when expired.*)
The three kinds of interval timers.
type interval_timer_status = {
   it_interval : float; (*Period*)
   it_value : float; (*Current value of the timer*)
}
The type describing the status of an interval timer
val getitimer : interval_timer -> interval_timer_status
Return the current status of the given interval timer.
val setitimer : interval_timer ->
       interval_timer_status -> interval_timer_status
setitimer t s sets the interval timer t and returns its previous status. The s argument is interpreted as follows: s.it_value, if nonzero, is the time to the next timer expiration; s.it_interval, if nonzero, specifies a value to be used in reloading it_value when the timer expires. Setting s.it_value to zero disable the timer. Setting s.it_interval to zero causes the timer to be disabled after its next expiration.

User id, group id

val getuid : unit -> int
Return the user id of the user executing the process.
val geteuid : unit -> int
Return the effective user id under which the process runs.
val setuid : int -> unit
Set the real user id and effective user id for the process.
val getgid : unit -> int
Return the group id of the user executing the process.
val getegid : unit -> int
Return the effective group id under which the process runs.
val setgid : int -> unit
Set the real group id and effective group id for the process.
val getgroups : unit -> int array
Return the list of groups to which the user executing the process belongs.
val setgroups : int array -> unit
setgroups groups sets the supplementary group IDs for the calling process. Appropriate privileges are required.
val initgroups : string -> int -> unit
initgroups user group initializes the group access list by reading the group database /etc/group and using all groups of which user is a member. The additional group group is also added to the list.
type passwd_entry = {
   pw_name : string;
   pw_passwd : string;
   pw_uid : int;
   pw_gid : int;
   pw_gecos : string;
   pw_dir : string;
   pw_shell : string;
}
Structure of entries in the passwd database.
type group_entry = {
   gr_name : string;
   gr_passwd : string;
   gr_gid : int;
   gr_mem : string array;
}
Structure of entries in the groups database.
val getlogin : unit -> string
Return the login name of the user executing the process.
val getpwnam : string -> passwd_entry
Find an entry in passwd with the given name, or raise Not_found.
val getgrnam : string -> group_entry
Find an entry in group with the given name, or raise Not_found.
val getpwuid : int -> passwd_entry
Find an entry in passwd with the given user id, or raise Not_found.
val getgrgid : int -> group_entry
Find an entry in group with the given group id, or raise Not_found.

Internet addresses

type inet_addr
The abstract type of Internet addresses.
val inet_addr_of_string : string -> inet_addr
Conversion from the printable representation of an Internet address to its internal representation. The argument string consists of 4 numbers separated by periods (XXX.YYY.ZZZ.TTT) for IPv4 addresses, and up to 8 numbers separated by colons for IPv6 addresses. Raise Failure when given a string that does not match these formats.
val string_of_inet_addr : inet_addr -> string
Return the printable representation of the given Internet address. See Unix.inet_addr_of_string for a description of the printable representation.
val inet_addr_any : inet_addr
A special IPv4 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
val inet_addr_loopback : inet_addr
A special IPv4 address representing the host machine (127.0.0.1).
val inet6_addr_any : inet_addr
A special IPv6 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
val inet6_addr_loopback : inet_addr
A special IPv6 address representing the host machine (::1).

Sockets

type socket_domain =
| PF_UNIX (*Unix domain*)
| PF_INET (*Internet domain (IPv4)*)
| PF_INET6 (*Internet domain (IPv6)*)
The type of socket domains. Not all platforms support IPv6 sockets (type PF_INET6).
type socket_type =
| SOCK_STREAM (*Stream socket*)
| SOCK_DGRAM (*Datagram socket*)
| SOCK_RAW (*Raw socket*)
| SOCK_SEQPACKET (*Sequenced packets socket*)
The type of socket kinds, specifying the semantics of communications.
type sockaddr =
| ADDR_UNIX of string
| ADDR_INET of inet_addr * int (*The type of socket addresses. ADDR_UNIX name is a socket address in the Unix domain; name is a file name in the file system. ADDR_INET(addr,port) is a socket address in the Internet domain; addr is the Internet address of the machine, and port is the port number.*) 
val socket : socket_domain -> socket_type -> int -> file_descr
Create a new socket in the given domain, and with the given kind. The third argument is the protocol type; 0 selects the default protocol for that kind of sockets.
val domain_of_sockaddr : sockaddr -> socket_domain
Return the socket domain adequate for the given socket address.
val socketpair : socket_domain ->
       socket_type -> int -> file_descr * file_descr
Create a pair of unnamed sockets, connected together.
val accept : file_descr -> file_descr * sockaddr
Accept connections on the given socket. The returned descriptor is a socket connected to the client; the returned address is the address of the connecting client.
val bind : file_descr -> sockaddr -> unit
Bind a socket to an address.
val connect : file_descr -> sockaddr -> unit
Connect a socket to an address.
val listen : file_descr -> int -> unit
Set up a socket for receiving connection requests. The integer argument is the maximal number of pending requests.
type shutdown_command =
| SHUTDOWN_RECEIVE (*Close for receiving*)
| SHUTDOWN_SEND (*Close for sending*)
| SHUTDOWN_ALL (*Close both*)
The type of commands for shutdown.
val shutdown : file_descr -> shutdown_command -> unit
Shutdown a socket connection. SHUTDOWN_SEND as second argument causes reads on the other end of the connection to return an end-of-file condition. SHUTDOWN_RECEIVE causes writes on the other end of the connection to return a closed pipe condition (SIGPIPE signal).
val getsockname : file_descr -> sockaddr
Return the address of the given socket.
val getpeername : file_descr -> sockaddr
Return the address of the host connected to the given socket.
type msg_flag =
| MSG_OOB
| MSG_DONTROUTE
| MSG_PEEK (*The flags for Unix.recv, Unix.recvfrom, Unix.send and Unix.sendto.*) 
val recv : file_descr -> string -> int -> int -> msg_flag list -> int
Receive data from a connected socket.
val recvfrom : file_descr ->
       string -> int -> int -> msg_flag list -> int * sockaddr
Receive data from an unconnected socket.
val send : file_descr -> string -> int -> int -> msg_flag list -> int
Send data over a connected socket.
val sendto : file_descr ->
       string -> int -> int -> msg_flag list -> sockaddr -> int
Send data over an unconnected socket.

Socket options

type socket_bool_option =
| SO_DEBUG (*Record debugging information*)
| SO_BROADCAST (*Permit sending of broadcast messages*)
| SO_REUSEADDR (*Allow reuse of local addresses for bind*)
| SO_KEEPALIVE (*Keep connection active*)
| SO_DONTROUTE (*Bypass the standard routing algorithms*)
| SO_OOBINLINE (*Leave out-of-band data in line*)
| SO_ACCEPTCONN (*Report whether socket listening is enabled*)
| TCP_NODELAY (*Control the Nagle algorithm for TCP sockets*)
| IPV6_ONLY (*Forbid binding an IPv6 socket to an IPv4 address*)
The socket options that can be consulted with Unix.getsockopt and modified with Unix.setsockopt. These options have a boolean (true/false) value.
type socket_int_option =
| SO_SNDBUF (*Size of send buffer*)
| SO_RCVBUF (*Size of received buffer*)
| SO_ERROR (*Deprecated. Use Unix.getsockopt_error instead.*)
| SO_TYPE (*Report the socket type*)
| SO_RCVLOWAT (*Minimum number of bytes to process for input operations*)
| SO_SNDLOWAT (*Minimum number of bytes to process for output operations*)
The socket options that can be consulted with Unix.getsockopt_int and modified with Unix.setsockopt_int. These options have an integer value.
type socket_optint_option =
| SO_LINGER (*Whether to linger on closed connections that have data present, and for how long (in seconds)*)
The socket options that can be consulted with Unix.getsockopt_optint and modified with Unix.setsockopt_optint. These options have a value of type int option, with None meaning ``disabled''.
type socket_float_option =
| SO_RCVTIMEO (*Timeout for input operations*)
| SO_SNDTIMEO (*Timeout for output operations*)
The socket options that can be consulted with Unix.getsockopt_float and modified with Unix.setsockopt_float. These options have a floating-point value representing a time in seconds. The value 0 means infinite timeout.
val getsockopt : file_descr -> socket_bool_option -> bool
Return the current status of a boolean-valued option in the given socket.
val setsockopt : file_descr -> socket_bool_option -> bool -> unit
Set or clear a boolean-valued option in the given socket.
val getsockopt_int : file_descr -> socket_int_option -> int
Same as Unix.getsockopt for an integer-valued socket option.
val setsockopt_int : file_descr -> socket_int_option -> int -> unit
Same as Unix.setsockopt for an integer-valued socket option.
val getsockopt_optint : file_descr -> socket_optint_option -> int option
Same as Unix.getsockopt for a socket option whose value is an int option.
val setsockopt_optint : file_descr -> socket_optint_option -> int option -> unit
Same as Unix.setsockopt for a socket option whose value is an int option.
val getsockopt_float : file_descr -> socket_float_option -> float
Same as Unix.getsockopt for a socket option whose value is a floating-point number.
val setsockopt_float : file_descr -> socket_float_option -> float -> unit
Same as Unix.setsockopt for a socket option whose value is a floating-point number.
val getsockopt_error : file_descr -> error option
Return the error condition associated with the given socket, and clear it.

High-level network connection functions

val open_connection : sockaddr -> in_channel * out_channel
Connect to a server at the given address. Return a pair of buffered channels connected to the server. Remember to call flush on the output channel at the right times to ensure correct synchronization.
val shutdown_connection : in_channel -> unit
``Shut down'' a connection established with Unix.open_connection; that is, transmit an end-of-file condition to the server reading on the other side of the connection.
val establish_server : (in_channel -> out_channel -> unit) ->
       sockaddr -> unit
Establish a server on the given address. The function given as first argument is called for each connection with two buffered channels connected to the client. A new process is created for each connection. The function Unix.establish_server never returns normally.

Host and protocol databases

type host_entry = {
   h_name : string;
   h_aliases : string array;
   h_addrtype : socket_domain;
   h_addr_list : inet_addr array;
}
Structure of entries in the hosts database.
type protocol_entry = {
   p_name : string;
   p_aliases : string array;
   p_proto : int;
}
Structure of entries in the protocols database.
type service_entry = {
   s_name : string;
   s_aliases : string array;
   s_port : int;
   s_proto : string;
}
Structure of entries in the services database.
val gethostname : unit -> string
Return the name of the local host.
val gethostbyname : string -> host_entry
Find an entry in hosts with the given name, or raise Not_found.
val gethostbyaddr : inet_addr -> host_entry
Find an entry in hosts with the given address, or raise Not_found.
val getprotobyname : string -> protocol_entry
Find an entry in protocols with the given name, or raise Not_found.
val getprotobynumber : int -> protocol_entry
Find an entry in protocols with the given protocol number, or raise Not_found.
val getservbyname : string -> string -> service_entry
Find an entry in services with the given name, or raise Not_found.
val getservbyport : int -> string -> service_entry
Find an entry in services with the given service number, or raise Not_found.
type addr_info = {
   ai_family : socket_domain; (*Socket domain*)
   ai_socktype : socket_type; (*Socket type*)
   ai_protocol : int; (*Socket protocol number*)
   ai_addr : sockaddr; (*Address*)
   ai_canonname : string; (*Canonical host name*)
}
Address information returned by Unix.getaddrinfo.
type getaddrinfo_option =
| AI_FAMILY of socket_domain (*Impose the given socket domain*)
| AI_SOCKTYPE of socket_type (*Impose the given socket type*)
| AI_PROTOCOL of int (*Impose the given protocol*)
| AI_NUMERICHOST (*Do not call name resolver, expect numeric IP address*)
| AI_CANONNAME (*Fill the ai_canonname field of the result*)
| AI_PASSIVE (*Set address to ``any'' address for use with Unix.bind*)
Options to Unix.getaddrinfo.
val getaddrinfo : string -> string -> getaddrinfo_option list -> addr_info list
getaddrinfo host service opts returns a list of Unix.addr_info records describing socket parameters and addresses suitable for communicating with the given host and service. The empty list is returned if the host or service names are unknown, or the constraints expressed in opts cannot be satisfied.

host is either a host name or the string representation of an IP address. host can be given as the empty string; in this case, the ``any'' address or the ``loopback'' address are used, depending whether opts contains AI_PASSIVE. service is either a service name or the string representation of a port number. service can be given as the empty string; in this case, the port field of the returned addresses is set to 0. opts is a possibly empty list of options that allows the caller to force a particular socket domain (e.g. IPv6 only or IPv4 only) or a particular socket type (e.g. TCP only or UDP only).

type name_info = {
   ni_hostname : string; (*Name or IP address of host*)
   ni_service : string;
}
Name of service or port number

Host and service information returned by Unix.getnameinfo.
type getnameinfo_option =
| NI_NOFQDN (*Do not qualify local host names*)
| NI_NUMERICHOST (*Always return host as IP address*)
| NI_NAMEREQD (*Fail if host name cannot be determined*)
| NI_NUMERICSERV (*Always return service as port number*)
| NI_DGRAM (*Consider the service as UDP-based instead of the default TCP*)
Options to Unix.getnameinfo.
val getnameinfo : sockaddr -> getnameinfo_option list -> name_info
getnameinfo addr opts returns the host name and service name corresponding to the socket address addr. opts is a possibly empty list of options that governs how these names are obtained. Raise Not_found if an error occurs.

Terminal interface


The following functions implement the POSIX standard terminal interface. They provide control over asynchronous communication ports and pseudo-terminals. Refer to the termios man page for a complete description.
type terminal_io = {
   mutable c_ignbrk : bool; (*Ignore the break condition.*)
   mutable c_brkint : bool; (*Signal interrupt on break condition.*)
   mutable c_ignpar : bool; (*Ignore characters with parity errors.*)
   mutable c_parmrk : bool; (*Mark parity errors.*)
   mutable c_inpck : bool; (*Enable parity check on input.*)
   mutable c_istrip : bool; (*Strip 8th bit on input characters.*)
   mutable c_inlcr : bool; (*Map NL to CR on input.*)
   mutable c_igncr : bool; (*Ignore CR on input.*)
   mutable c_icrnl : bool; (*Map CR to NL on input.*)
   mutable c_ixon : bool; (*Recognize XON/XOFF characters on input.*)
   mutable c_ixoff : bool; (*Emit XON/XOFF chars to control input flow.*)
   mutable c_opost : bool; (*Enable output processing.*)
   mutable c_obaud : int; (*Output baud rate (0 means close connection).*)
   mutable c_ibaud : int; (*Input baud rate.*)
   mutable c_csize : int; (*Number of bits per character (5-8).*)
   mutable c_cstopb : int; (*Number of stop bits (1-2).*)
   mutable c_cread : bool; (*Reception is enabled.*)
   mutable c_parenb : bool; (*Enable parity generation and detection.*)
   mutable c_parodd : bool; (*Specify odd parity instead of even.*)
   mutable c_hupcl : bool; (*Hang up on last close.*)
   mutable c_clocal : bool; (*Ignore modem status lines.*)
   mutable c_isig : bool; (*Generate signal on INTR, QUIT, SUSP.*)
   mutable c_icanon : bool; (*Enable canonical processing (line buffering and editing)*)
   mutable c_noflsh : bool; (*Disable flush after INTR, QUIT, SUSP.*)
   mutable c_echo : bool; (*Echo input characters.*)
   mutable c_echoe : bool; (*Echo ERASE (to erase previous character).*)
   mutable c_echok : bool; (*Echo KILL (to erase the current line).*)
   mutable c_echonl : bool; (*Echo NL even if c_echo is not set.*)
   mutable c_vintr : char; (*Interrupt character (usually ctrl-C).*)
   mutable c_vquit : char; (*Quit character (usually ctrl-\).*)
   mutable c_verase : char; (*Erase character (usually DEL or ctrl-H).*)
   mutable c_vkill : char; (*Kill line character (usually ctrl-U).*)
   mutable c_veof : char; (*End-of-file character (usually ctrl-D).*)
   mutable c_veol : char; (*Alternate end-of-line char. (usually none).*)
   mutable c_vmin : int; (*Minimum number of characters to read before the read request is satisfied.*)
   mutable c_vtime : int; (*Maximum read wait (in 0.1s units).*)
   mutable c_vstart : char; (*Start character (usually ctrl-Q).*)
   mutable c_vstop : char; (*Stop character (usually ctrl-S).*)
} 
val tcgetattr : file_descr -> terminal_io
Return the status of the terminal referred to by the given file descriptor.
type setattr_when =
| TCSANOW
| TCSADRAIN
| TCSAFLUSH 
val tcsetattr : file_descr -> setattr_when -> terminal_io -> unit
Set the status of the terminal referred to by the given file descriptor. The second argument indicates when the status change takes place: immediately (TCSANOW), when all pending output has been transmitted (TCSADRAIN), or after flushing all input that has been received but not read (TCSAFLUSH). TCSADRAIN is recommended when changing the output parameters; TCSAFLUSH, when changing the input parameters.
val tcsendbreak : file_descr -> int -> unit
Send a break condition on the given file descriptor. The second argument is the duration of the break, in 0.1s units; 0 means standard duration (0.25s).
val tcdrain : file_descr -> unit
Waits until all output written on the given file descriptor has been transmitted.
type flush_queue =
| TCIFLUSH
| TCOFLUSH
| TCIOFLUSH 
val tcflush : file_descr -> flush_queue -> unit
Discard data written on the given file descriptor but not yet transmitted, or data received but not yet read, depending on the second argument: TCIFLUSH flushes data received but not read, TCOFLUSH flushes data written but not transmitted, and TCIOFLUSH flushes both.
type flow_action =
| TCOOFF
| TCOON
| TCIOFF
| TCION 
val tcflow : file_descr -> flow_action -> unit
Suspend or restart reception or transmission of data on the given file descriptor, depending on the second argument: TCOOFF suspends output, TCOON restarts output, TCIOFF transmits a STOP character to suspend input, and TCION transmits a START character to restart input.
val setsid : unit -> int
Put the calling process in a new session and detach it from its controlling terminal.
ocaml-doc-4.01/ocaml.html/libref/type_CamlinternalLazy.html0000644000175000017500000001174012214324146022243 0ustar i33173i33173 CamlinternalLazy sig
  exception Undefined
  val force_lazy_block : 'a lazy_t -> 'a
  val force_val_lazy_block : 'a lazy_t -> 'a
  val force : 'a lazy_t -> 'a
  val force_val : 'a lazy_t -> 'a
endocaml-doc-4.01/ocaml.html/libref/type_ListLabels.html0000644000175000017500000005033312214324153021027 0ustar i33173i33173 ListLabels sig
  val length : 'a list -> int
  val hd : 'a list -> 'a
  val tl : 'a list -> 'a list
  val nth : 'a list -> int -> 'a
  val rev : 'a list -> 'a list
  val append : 'a list -> 'a list -> 'a list
  val rev_append : 'a list -> 'a list -> 'a list
  val concat : 'a list list -> 'a list
  val flatten : 'a list list -> 'a list
  val iter : f:('-> unit) -> 'a list -> unit
  val iteri : f:(int -> '-> unit) -> 'a list -> unit
  val map : f:('-> 'b) -> 'a list -> 'b list
  val mapi : f:(int -> '-> 'b) -> 'a list -> 'b list
  val rev_map : f:('-> 'b) -> 'a list -> 'b list
  val fold_left : f:('-> '-> 'a) -> init:'-> 'b list -> 'a
  val fold_right : f:('-> '-> 'b) -> 'a list -> init:'-> 'b
  val iter2 : f:('-> '-> unit) -> 'a list -> 'b list -> unit
  val map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val rev_map2 : f:('-> '-> 'c) -> 'a list -> 'b list -> 'c list
  val fold_left2 :
    f:('-> '-> '-> 'a) -> init:'-> 'b list -> 'c list -> 'a
  val fold_right2 :
    f:('-> '-> '-> 'c) -> 'a list -> 'b list -> init:'-> 'c
  val for_all : f:('-> bool) -> 'a list -> bool
  val exists : f:('-> bool) -> 'a list -> bool
  val for_all2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
  val exists2 : f:('-> '-> bool) -> 'a list -> 'b list -> bool
  val mem : '-> set:'a list -> bool
  val memq : '-> set:'a list -> bool
  val find : f:('-> bool) -> 'a list -> 'a
  val filter : f:('-> bool) -> 'a list -> 'a list
  val find_all : f:('-> bool) -> 'a list -> 'a list
  val partition : f:('-> bool) -> 'a list -> 'a list * 'a list
  val assoc : '-> ('a * 'b) list -> 'b
  val assq : '-> ('a * 'b) list -> 'b
  val mem_assoc : '-> map:('a * 'b) list -> bool
  val mem_assq : '-> map:('a * 'b) list -> bool
  val remove_assoc : '-> ('a * 'b) list -> ('a * 'b) list
  val remove_assq : '-> ('a * 'b) list -> ('a * 'b) list
  val split : ('a * 'b) list -> 'a list * 'b list
  val combine : 'a list -> 'b list -> ('a * 'b) list
  val sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val stable_sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val fast_sort : cmp:('-> '-> int) -> 'a list -> 'a list
  val merge : cmp:('-> '-> int) -> 'a list -> 'a list -> 'a list
endocaml-doc-4.01/ocaml.html/libref/index_types.html0000644000175000017500000013532412214324176020274 0ustar i33173i33173 Index of types
 Up  

Index of types


A
access_permission [UnixLabels]
Flags for the UnixLabels.access call.
access_permission [Unix]
Flags for the Unix.access call.
addr_info [UnixLabels]
Address information returned by Unix.getaddrinfo.
addr_info [Unix]
Address information returned by Unix.getaddrinfo.
alarm [Gc]
An alarm is a piece of data that calls a user function at the end of each major GC cycle.
anchor [Tk]
anon_fun [Arg]

B
big_int [Big_int]
The type of big integers.
borderMode [Tk]

C
c_layout [Bigarray]
See Bigarray.fortran_layout.
channel [Event]
The type of communication channels carrying values of type 'a.
closure [CamlinternalOO]
color [Graphics]
A color is specified by its R, G, B components.
complex32_elt [Bigarray]
complex64_elt [Bigarray]
control [Gc]
The GC parameters are given as a control record.

D
data [Weak.S]
The type of the elements stored in the table.
dir_handle [UnixLabels]
The type of descriptors over opened directories.
dir_handle [Unix]
The type of descriptors over opened directories.
doc [Arg]

E
elt [Set.S]
The type of the set elements.
elt [MoreLabels.Set.S]
error [UnixLabels]
The type of error codes.
error [Unix]
The type of error codes.
error [Dynlink]
event [Tk]
event [Graphics]
To specify events to wait for.
event [Event]
The type of communication events returning a result of type 'a.
eventField [Tk]
eventInfo [Tk]
extern_flags [Marshal]
The flags to the Marshal.to_* functions below.

F
file_descr [UnixLabels]
The abstract type of file descriptors.
file_descr [Unix]
The abstract type of file descriptors.
file_kind [UnixLabels]
file_kind [Unix]
file_name [Scanf.Scanning]
A convenient alias to designate a file name.
file_perm [UnixLabels]
The type of file access rights, e.g.
file_perm [Unix]
The type of file access rights, e.g.
fillMode [Tk]
float32_elt [Bigarray]
float64_elt [Bigarray]
flow_action [UnixLabels]
flow_action [Unix]
flush_queue [UnixLabels]
flush_queue [Unix]
format [Pervasives]
format4 [Pervasives]
Format strings have a general and highly polymorphic type ('a, 'b, 'c, 'd, 'e, 'f) format6.
formatter [Format]
Abstract data corresponding to a pretty-printer (also called a formatter) and all its machinery.
formatter_out_functions [Format]
formatter_tag_functions [Format]
The tag handling functions specific to a formatter: mark versions are the 'tag marking' functions that associate a string marker to a tag in order for the pretty-printing engine to flush those markers as 0 length tokens in the output device of the formatter.
fortran_layout [Bigarray]
To facilitate interoperability with existing C and Fortran code, this library supports two different memory layouts for big arrays, one compatible with the C conventions, the other compatible with the Fortran conventions.
fpclass [Pervasives]
The five classes of floating-point numbers, as determined by the classify_float function.

G
getaddrinfo_option [UnixLabels]
Options to Unix.getaddrinfo.
getaddrinfo_option [Unix]
Options to Unix.getaddrinfo.
getnameinfo_option [UnixLabels]
Options to Unix.getnameinfo.
getnameinfo_option [Unix]
Options to Unix.getnameinfo.
group_entry [UnixLabels]
Structure of entries in the groups database.
group_entry [Unix]
Structure of entries in the groups database.

H
host_entry [UnixLabels]
Structure of entries in the hosts database.
host_entry [Unix]
Structure of entries in the hosts database.

I
image [Graphics]
The abstract type for images, in internal representation.
impl [CamlinternalOO]
in_channel [Scanf.Scanning]
The notion of input channel for the Scanf module: those channels provide all the machinery necessary to read from a given Pervasives.in_channel value.
in_channel [Pervasives]
The type of input channel.
inet_addr [UnixLabels]
The abstract type of Internet addresses.
inet_addr [Unix]
The abstract type of Internet addresses.
init_table [CamlinternalOO]
int16_signed_elt [Bigarray]
int16_unsigned_elt [Bigarray]
int32_elt [Bigarray]
int64_elt [Bigarray]
int8_signed_elt [Bigarray]
int8_unsigned_elt [Bigarray]
int_elt [Bigarray]
interval_timer [UnixLabels]
The three kinds of interval timers.
interval_timer [Unix]
The three kinds of interval timers.
interval_timer_status [UnixLabels]
The type describing the status of an interval timer
interval_timer_status [Unix]
The type describing the status of an interval timer

K
key [MoreLabels.Map.S]
key [MoreLabels.Hashtbl.SeededS]
key [MoreLabels.Hashtbl.S]
key [Map.S]
The type of the map keys.
key [Hashtbl.SeededS]
key [Hashtbl.S]
key [Arg]
kind [Bigarray]
To each element kind is associated an OCaml type, which is the type of OCaml values that can be stored in the big array or read back from it.

L
label [CamlinternalOO]
layout [Bigarray]
The type 'a layout represents one of the two supported memory layouts: C-style if 'a is Bigarray.c_layout, Fortran-style if 'a is Bigarray.fortran_layout.
lexbuf [Lexing]
The type of lexer buffers.
linking_error [Dynlink]
lock_command [UnixLabels]
Commands for UnixLabels.lockf.
lock_command [Unix]
Commands for Unix.lockf.

M
meth [CamlinternalOO]
modifier [Tk]
msg_flag [UnixLabels]
msg_flag [Unix]

N
name_info [UnixLabels]
Name of service or port number
name_info [Unix]
Name of service or port number
nativeint_elt [Bigarray]
num [Num]
The type of numbers.

O
obj [CamlinternalOO]
open_flag [UnixLabels]
The flags to UnixLabels.openfile.
open_flag [Unix]
open_flag [Pervasives]
Opening modes for open_out_gen and open_in_gen.
out_channel [Pervasives]
The type of output channel.

P
params [CamlinternalOO]
passwd_entry [UnixLabels]
Structure of entries in the passwd database.
passwd_entry [Unix]
Structure of entries in the passwd database.
position [Lexing]
A value of type position describes a point in a source file.
process_status [UnixLabels]
The termination status of a process.
process_status [Unix]
The termination status of a process.
process_times [UnixLabels]
The execution times (CPU times) of a process.
process_times [Unix]
The execution times (CPU times) of a process.
protocol_entry [UnixLabels]
Structure of entries in the protocols database.
protocol_entry [Unix]
Structure of entries in the protocols database.

R
ratio [Ratio]
raw_backtrace [Printexc]
ref [Pervasives]
The type of references (mutable indirection cells) containing a value of type 'a.
regexp [Str]
The type of compiled regular expressions.

S
scanbuf [Scanf.Scanning]
The type of scanning buffers.
scanner [Scanf]
The type of formatted input scanners: ('a, 'b, 'c, 'd) scanner is the type of a formatted input function that reads from some formatted input channel according to some format string; more precisely, if scan is some formatted input function, then scan ic fmt f applies f to the arguments specified by the format string fmt, when scan has read those arguments from the formatted input channel ic.
seek_command [UnixLabels]
Positioning modes for UnixLabels.lseek.
seek_command [Unix]
Positioning modes for Unix.lseek.
service_entry [UnixLabels]
Structure of entries in the services database.
service_entry [Unix]
Structure of entries in the services database.
setattr_when [UnixLabels]
setattr_when [Unix]
shape [CamlinternalMod]
shutdown_command [UnixLabels]
The type of commands for shutdown.
shutdown_command [Unix]
The type of commands for shutdown.
side [Tk]
signal_behavior [Sys]
What to do when receiving a signal: Signal_default: take the default behavior (usually: abort the program), Signal_ignore: ignore the signal, Signal_handle f: call function f, giving it the signal number as argument.
sigprocmask_command [UnixLabels]
sigprocmask_command [Unix]
sockaddr [UnixLabels]
sockaddr [Unix]
socket_bool_option [UnixLabels]
The socket options that can be consulted with UnixLabels.getsockopt and modified with UnixLabels.setsockopt.
socket_bool_option [Unix]
The socket options that can be consulted with Unix.getsockopt and modified with Unix.setsockopt.
socket_domain [UnixLabels]
The type of socket domains.
socket_domain [Unix]
The type of socket domains.
socket_float_option [UnixLabels]
The socket options that can be consulted with UnixLabels.getsockopt_float and modified with UnixLabels.setsockopt_float.
socket_float_option [Unix]
The socket options that can be consulted with Unix.getsockopt_float and modified with Unix.setsockopt_float.
socket_int_option [UnixLabels]
The socket options that can be consulted with UnixLabels.getsockopt_int and modified with UnixLabels.setsockopt_int.
socket_int_option [Unix]
The socket options that can be consulted with Unix.getsockopt_int and modified with Unix.setsockopt_int.
socket_optint_option [UnixLabels]
The socket options that can be consulted with Unix.getsockopt_optint and modified with Unix.setsockopt_optint.
socket_optint_option [Unix]
The socket options that can be consulted with Unix.getsockopt_optint and modified with Unix.setsockopt_optint.
socket_type [UnixLabels]
The type of socket kinds, specifying the semantics of communications.
socket_type [Unix]
The type of socket kinds, specifying the semantics of communications.
spec [Arg]
The concrete type describing the behavior associated with a keyword.
split_result [Str]
stat [Gc]
The memory management counters are returned in a stat record.
statistics [MoreLabels.Hashtbl]
statistics [Hashtbl]
stats [UnixLabels.LargeFile]
stats [UnixLabels]
The information returned by the UnixLabels.stat calls.
stats [Unix.LargeFile]
stats [Unix]
The information returned by the Unix.stat calls.
stats [CamlinternalOO]
status [Graphics]
To report events.

T
t [Weak.S]
The type of tables that contain elements of type data.
t [Weak]
The type of arrays of weak pointers (weak arrays).
t [Thread]
The type of thread handles.
t [StringLabels]
An alias for the type of strings.
t [String]
An alias for the type of strings.
t [Stream]
The type of streams holding values of type 'a.
t [StdLabels.String]
t [Stack]
The type of stacks containing elements of type 'a.
t [Set.S]
The type of sets.
t [Random.State]
The type of PRNG states.
t [Queue]
The type of queues containing elements of type 'a.
t [Obj]
t [Nativeint]
An alias for the type of native integers.
t [Mutex]
The type of mutexes.
t [Set.OrderedType]
The type of the set elements.
t [MoreLabels.Set.S]
t [MoreLabels.Map.S]
t [MoreLabels.Hashtbl.SeededS]
t [MoreLabels.Hashtbl.S]
t [MoreLabels.Hashtbl]
t [Map.OrderedType]
The type of the map keys.
t [Map.S]
The type of maps from type key to type 'a.
t [Lazy]
A value of type 'a Lazy.t is a deferred computation, called a suspension, that has a result of type 'a.
t [Int64]
An alias for the type of 64-bit integers.
t [Int32]
An alias for the type of 32-bit integers.
t [Hashtbl.SeededHashedType]
The type of the hashtable keys.
t [Hashtbl.HashedType]
The type of the hashtable keys.
t [Hashtbl.SeededS]
t [Hashtbl.S]
t [Hashtbl]
The type of hash tables from type 'a to type 'b.
t [Digest]
The type of digests: 16-character strings.
t [Condition]
The type of condition variables.
t [Complex]
The type of complex numbers.
t [Char]
An alias for the type of characters.
t [CamlinternalOO]
t [Buffer]
The abstract type of buffers.
t [Bigarray.Array3]
The type of three-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
t [Bigarray.Array2]
The type of two-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
t [Bigarray.Array1]
The type of one-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
t [Bigarray.Genarray]
The type Genarray.t is the type of big arrays with variable numbers of dimensions.
table [CamlinternalOO]
tables [CamlinternalOO]
tag [Format]
tag [CamlinternalOO]
terminal_io [UnixLabels]
terminal_io [Unix]
tm [UnixLabels]
The type representing wallclock time and calendar date.
tm [Unix]
The type representing wallclock time and calendar date.
token [Genlex]
The type of tokens.

U
units [Tk]
usage_msg [Arg]

W
wait_flag [UnixLabels]
Flags for UnixLabels.waitpid.
wait_flag [Unix]
Flags for Unix.waitpid.
window_id [GraphicsX11]
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Set.Make.html0000644000175000017500000002243712214324156022433 0ustar i33173i33173 MoreLabels.Set.Make functor (Ord : OrderedType->
  sig
    type elt = Ord.t
    and t
    val empty : t
    val is_empty : t -> bool
    val mem : elt -> t -> bool
    val add : elt -> t -> t
    val singleton : elt -> t
    val remove : elt -> t -> t
    val union : t -> t -> t
    val inter : t -> t -> t
    val diff : t -> t -> t
    val compare : t -> t -> int
    val equal : t -> t -> bool
    val subset : t -> t -> bool
    val iter : f:(elt -> unit) -> t -> unit
    val fold : f:(elt -> '-> 'a) -> t -> init:'-> 'a
    val for_all : f:(elt -> bool) -> t -> bool
    val exists : f:(elt -> bool) -> t -> bool
    val filter : f:(elt -> bool) -> t -> t
    val partition : f:(elt -> bool) -> t -> t * t
    val cardinal : t -> int
    val elements : t -> elt list
    val min_elt : t -> elt
    val max_elt : t -> elt
    val choose : t -> elt
    val split : elt -> t -> t * bool * t
    val find : elt -> t -> elt
  endocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.SeededHashedType.html0000644000175000017500000001136612214324151023526 0ustar i33173i33173 Hashtbl.SeededHashedType sig
  type t
  val equal :
    Hashtbl.SeededHashedType.t -> Hashtbl.SeededHashedType.t -> bool
  val hash : int -> Hashtbl.SeededHashedType.t -> int
endocaml-doc-4.01/ocaml.html/libref/type_Pervasives.html0000644000175000017500000013310212214324162021114 0ustar i33173i33173 Pervasives sig
  external raise : exn -> 'a = "%raise"
  val invalid_arg : string -> 'a
  val failwith : string -> 'a
  exception Exit
  external ( = ) : '-> '-> bool = "%equal"
  external ( <> ) : '-> '-> bool = "%notequal"
  external ( < ) : '-> '-> bool = "%lessthan"
  external ( > ) : '-> '-> bool = "%greaterthan"
  external ( <= ) : '-> '-> bool = "%lessequal"
  external ( >= ) : '-> '-> bool = "%greaterequal"
  external compare : '-> '-> int = "%compare"
  val min : '-> '-> 'a
  val max : '-> '-> 'a
  external ( == ) : '-> '-> bool = "%eq"
  external ( != ) : '-> '-> bool = "%noteq"
  external not : bool -> bool = "%boolnot"
  external ( && ) : bool -> bool -> bool = "%sequand"
  external ( & ) : bool -> bool -> bool = "%sequand"
  external ( || ) : bool -> bool -> bool = "%sequor"
  external ( or ) : bool -> bool -> bool = "%sequor"
  external ( |> ) : '-> ('-> 'b) -> 'b = "%revapply"
  external ( @@ ) : ('-> 'b) -> '-> 'b = "%apply"
  external ( ~- ) : int -> int = "%negint"
  external ( ~+ ) : int -> int = "%identity"
  external succ : int -> int = "%succint"
  external pred : int -> int = "%predint"
  external ( + ) : int -> int -> int = "%addint"
  external ( - ) : int -> int -> int = "%subint"
  external ( * ) : int -> int -> int = "%mulint"
  external ( / ) : int -> int -> int = "%divint"
  external ( mod ) : int -> int -> int = "%modint"
  val abs : int -> int
  val max_int : int
  val min_int : int
  external ( land ) : int -> int -> int = "%andint"
  external ( lor ) : int -> int -> int = "%orint"
  external ( lxor ) : int -> int -> int = "%xorint"
  val lnot : int -> int
  external ( lsl ) : int -> int -> int = "%lslint"
  external ( lsr ) : int -> int -> int = "%lsrint"
  external ( asr ) : int -> int -> int = "%asrint"
  external ( ~-. ) : float -> float = "%negfloat"
  external ( ~+. ) : float -> float = "%identity"
  external ( +. ) : float -> float -> float = "%addfloat"
  external ( -. ) : float -> float -> float = "%subfloat"
  external ( *. ) : float -> float -> float = "%mulfloat"
  external ( /. ) : float -> float -> float = "%divfloat"
  external ( ** ) : float -> float -> float = "caml_power_float" "pow"
    "float"
  external sqrt : float -> float = "caml_sqrt_float" "sqrt" "float"
  external exp : float -> float = "caml_exp_float" "exp" "float"
  external log : float -> float = "caml_log_float" "log" "float"
  external log10 : float -> float = "caml_log10_float" "log10" "float"
  external expm1 : float -> float = "caml_expm1_float" "caml_expm1" "float"
  external log1p : float -> float = "caml_log1p_float" "caml_log1p" "float"
  external cos : float -> float = "caml_cos_float" "cos" "float"
  external sin : float -> float = "caml_sin_float" "sin" "float"
  external tan : float -> float = "caml_tan_float" "tan" "float"
  external acos : float -> float = "caml_acos_float" "acos" "float"
  external asin : float -> float = "caml_asin_float" "asin" "float"
  external atan : float -> float = "caml_atan_float" "atan" "float"
  external atan2 : float -> float -> float = "caml_atan2_float" "atan2"
    "float"
  external hypot : float -> float -> float = "caml_hypot_float" "caml_hypot"
    "float"
  external cosh : float -> float = "caml_cosh_float" "cosh" "float"
  external sinh : float -> float = "caml_sinh_float" "sinh" "float"
  external tanh : float -> float = "caml_tanh_float" "tanh" "float"
  external ceil : float -> float = "caml_ceil_float" "ceil" "float"
  external floor : float -> float = "caml_floor_float" "floor" "float"
  external abs_float : float -> float = "%absfloat"
  external copysign : float -> float -> float = "caml_copysign_float"
    "caml_copysign" "float"
  external mod_float : float -> float -> float = "caml_fmod_float" "fmod"
    "float"
  external frexp : float -> float * int = "caml_frexp_float"
  external ldexp : float -> int -> float = "caml_ldexp_float"
  external modf : float -> float * float = "caml_modf_float"
  external float : int -> float = "%floatofint"
  external float_of_int : int -> float = "%floatofint"
  external truncate : float -> int = "%intoffloat"
  external int_of_float : float -> int = "%intoffloat"
  val infinity : float
  val neg_infinity : float
  val nan : float
  val max_float : float
  val min_float : float
  val epsilon_float : float
  type fpclass = FP_normal | FP_subnormal | FP_zero | FP_infinite | FP_nan
  external classify_float : float -> Pervasives.fpclass
    = "caml_classify_float"
  val ( ^ ) : string -> string -> string
  external int_of_char : char -> int = "%identity"
  val char_of_int : int -> char
  external ignore : '-> unit = "%ignore"
  val string_of_bool : bool -> string
  val bool_of_string : string -> bool
  val string_of_int : int -> string
  external int_of_string : string -> int = "caml_int_of_string"
  val string_of_float : float -> string
  external float_of_string : string -> float = "caml_float_of_string"
  external fst : 'a * '-> 'a = "%field0"
  external snd : 'a * '-> 'b = "%field1"
  val ( @ ) : 'a list -> 'a list -> 'a list
  type in_channel
  type out_channel
  val stdin : Pervasives.in_channel
  val stdout : Pervasives.out_channel
  val stderr : Pervasives.out_channel
  val print_char : char -> unit
  val print_string : string -> unit
  val print_int : int -> unit
  val print_float : float -> unit
  val print_endline : string -> unit
  val print_newline : unit -> unit
  val prerr_char : char -> unit
  val prerr_string : string -> unit
  val prerr_int : int -> unit
  val prerr_float : float -> unit
  val prerr_endline : string -> unit
  val prerr_newline : unit -> unit
  val read_line : unit -> string
  val read_int : unit -> int
  val read_float : unit -> float
  type open_flag =
      Open_rdonly
    | Open_wronly
    | Open_append
    | Open_creat
    | Open_trunc
    | Open_excl
    | Open_binary
    | Open_text
    | Open_nonblock
  val open_out : string -> Pervasives.out_channel
  val open_out_bin : string -> Pervasives.out_channel
  val open_out_gen :
    Pervasives.open_flag list -> int -> string -> Pervasives.out_channel
  val flush : Pervasives.out_channel -> unit
  val flush_all : unit -> unit
  val output_char : Pervasives.out_channel -> char -> unit
  val output_string : Pervasives.out_channel -> string -> unit
  val output : Pervasives.out_channel -> string -> int -> int -> unit
  val output_byte : Pervasives.out_channel -> int -> unit
  val output_binary_int : Pervasives.out_channel -> int -> unit
  val output_value : Pervasives.out_channel -> '-> unit
  val seek_out : Pervasives.out_channel -> int -> unit
  val pos_out : Pervasives.out_channel -> int
  val out_channel_length : Pervasives.out_channel -> int
  val close_out : Pervasives.out_channel -> unit
  val close_out_noerr : Pervasives.out_channel -> unit
  val set_binary_mode_out : Pervasives.out_channel -> bool -> unit
  val open_in : string -> Pervasives.in_channel
  val open_in_bin : string -> Pervasives.in_channel
  val open_in_gen :
    Pervasives.open_flag list -> int -> string -> Pervasives.in_channel
  val input_char : Pervasives.in_channel -> char
  val input_line : Pervasives.in_channel -> string
  val input : Pervasives.in_channel -> string -> int -> int -> int
  val really_input : Pervasives.in_channel -> string -> int -> int -> unit
  val input_byte : Pervasives.in_channel -> int
  val input_binary_int : Pervasives.in_channel -> int
  val input_value : Pervasives.in_channel -> 'a
  val seek_in : Pervasives.in_channel -> int -> unit
  val pos_in : Pervasives.in_channel -> int
  val in_channel_length : Pervasives.in_channel -> int
  val close_in : Pervasives.in_channel -> unit
  val close_in_noerr : Pervasives.in_channel -> unit
  val set_binary_mode_in : Pervasives.in_channel -> bool -> unit
  module LargeFile :
    sig
      val seek_out : Pervasives.out_channel -> int64 -> unit
      val pos_out : Pervasives.out_channel -> int64
      val out_channel_length : Pervasives.out_channel -> int64
      val seek_in : Pervasives.in_channel -> int64 -> unit
      val pos_in : Pervasives.in_channel -> int64
      val in_channel_length : Pervasives.in_channel -> int64
    end
  type 'a ref = { mutable contents : 'a; }
  external ref : '-> 'Pervasives.ref = "%makemutable"
  external ( ! ) : 'Pervasives.ref -> 'a = "%field0"
  external ( := ) : 'Pervasives.ref -> '-> unit = "%setfield0"
  external incr : int Pervasives.ref -> unit = "%incr"
  external decr : int Pervasives.ref -> unit = "%decr"
  type ('a, 'b, 'c, 'd) format4 = ('a, 'b, 'c, 'c, 'c, 'd) format6
  type ('a, 'b, 'c) format = ('a, 'b, 'c, 'c) Pervasives.format4
  val string_of_format : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> string
  external format_of_string :
    ('a, 'b, 'c, 'd, 'e, 'f) format6 -> ('a, 'b, 'c, 'd, 'e, 'f) format6
    = "%identity"
  val ( ^^ ) :
    ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
    ('f, 'b, 'c, 'e, 'g, 'h) format6 -> ('a, 'b, 'c, 'd, 'g, 'h) format6
  val exit : int -> 'a
  val at_exit : (unit -> unit) -> unit
  val valid_float_lexem : string -> string
  val unsafe_really_input :
    Pervasives.in_channel -> string -> int -> int -> unit
  val do_at_exit : unit -> unit
endocaml-doc-4.01/ocaml.html/libref/Stream.html0000644000175000017500000002417212214324166017171 0ustar i33173i33173 Stream
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Module Stream

module Stream: sig .. end
Streams and parsers.
type 'a t
The type of streams holding values of type 'a.
exception Failure
Raised by parsers when none of the first components of the stream patterns is accepted.
exception Error of string
Raised by parsers when the first component of a stream pattern is accepted, but one of the following components is rejected.

Stream builders

val from : (int -> 'a option) -> 'a t
Stream.from f returns a stream built from the function f. To create a new stream element, the function f is called with the current stream count. The user function f must return either Some <value> for a value or None to specify the end of the stream.

Do note that the indices passed to f may not start at 0 in the general case. For example, [< '0; '1; Stream.from f >] would call f the first time with count 2.

val of_list : 'a list -> 'a t
Return the stream holding the elements of the list in the same order.
val of_string : string -> char t
Return the stream of the characters of the string parameter.
val of_channel : in_channel -> char t
Return the stream of the characters read from the input channel.

Stream iterator

val iter : ('a -> unit) -> 'a t -> unit
Stream.iter f s scans the whole stream s, applying function f in turn to each stream element encountered.

Predefined parsers

val next : 'a t -> 'a
Return the first element of the stream and remove it from the stream. Raise Stream.Failure if the stream is empty.
val empty : 'a t -> unit
Return () if the stream is empty, else raise Stream.Failure.

Useful functions

val peek : 'a t -> 'a option
Return Some of "the first element" of the stream, or None if the stream is empty.
val junk : 'a t -> unit
Remove the first element of the stream, possibly unfreezing it before.
val count : 'a t -> int
Return the current count of the stream elements, i.e. the number of the stream elements discarded.
val npeek : int -> 'a t -> 'a list
npeek n returns the list of the n first elements of the stream, or all its remaining elements if less than n elements are available.
ocaml-doc-4.01/ocaml.html/libref/type_Dynlink.html0000644000175000017500000002074212214324147020405 0ustar i33173i33173 Dynlink sig
  val is_native : bool
  val loadfile : string -> unit
  val loadfile_private : string -> unit
  val adapt_filename : string -> string
  val allow_only : string list -> unit
  val prohibit : string list -> unit
  val default_available_units : unit -> unit
  val allow_unsafe_modules : bool -> unit
  val add_interfaces : string list -> string list -> unit
  val add_available_units : (string * Digest.t) list -> unit
  val clear_available_units : unit -> unit
  val init : unit -> unit
  type linking_error =
      Undefined_global of string
    | Unavailable_primitive of string
    | Uninitialized_global of string
  type error =
      Not_a_bytecode_file of string
    | Inconsistent_import of string
    | Unavailable_unit of string
    | Unsafe_file
    | Linking_error of string * Dynlink.linking_error
    | Corrupted_interface of string
    | File_not_found of string
    | Cannot_open_dll of string
    | Inconsistent_implementation of string
  exception Error of Dynlink.error
  val error_message : Dynlink.error -> string
  val digest_interface : string -> string list -> Digest.t
endocaml-doc-4.01/ocaml.html/libref/Oo.html0000644000175000017500000001312012214324161016275 0ustar i33173i33173 Oo
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Module Oo

module Oo: sig .. end
Operations on objects
val copy : (< .. > as 'a) -> 'a
Oo.copy o returns a copy of object o, that is a fresh object with the same methods and instance variables as o.
val id : < .. > -> int
Return an integer identifying this object, unique for the current execution of the program. The generic comparison and hashing functions are based on this integer. When an object is obtained by unmarshaling, the id is refreshed, and thus different from the original object. As a consequence, the internal invariants of data structures such as hash table or sets containing objects are broken after unmarshaling the data structures.
ocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.Make.html0000644000175000017500000002020412214324151021222 0ustar i33173i33173 Hashtbl.Make functor (H : HashedType->
  sig
    type key = H.t
    type 'a t
    val create : int -> 'a t
    val clear : 'a t -> unit
    val reset : 'a t -> unit
    val copy : 'a t -> 'a t
    val add : 'a t -> key -> '-> unit
    val remove : 'a t -> key -> unit
    val find : 'a t -> key -> 'a
    val find_all : 'a t -> key -> 'a list
    val replace : 'a t -> key -> '-> unit
    val mem : 'a t -> key -> bool
    val iter : (key -> '-> unit) -> 'a t -> unit
    val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
    val length : 'a t -> int
    val stats : 'a t -> statistics
  endocaml-doc-4.01/ocaml.html/libref/StdLabels.String.html0000644000175000017500000002173512214324165021061 0ustar i33173i33173 StdLabels.String
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Module StdLabels.String

module String: sig .. end
val length : string -> int
val get : string -> int -> char
val set : string -> int -> char -> unit
val create : int -> string
val make : int -> char -> string
val copy : string -> string
val sub : string -> pos:int -> len:int -> string
val fill : string -> pos:int -> len:int -> char -> unit
val blit : src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
val concat : sep:string -> string list -> string
val iter : f:(char -> unit) -> string -> unit
val iteri : f:(int -> char -> unit) -> string -> unit
val map : f:(char -> char) -> string -> string
val trim : string -> string
val escaped : string -> string
val index : string -> char -> int
val rindex : string -> char -> int
val index_from : string -> int -> char -> int
val rindex_from : string -> int -> char -> int
val contains : string -> char -> bool
val contains_from : string -> int -> char -> bool
val rcontains_from : string -> int -> char -> bool
val uppercase : string -> string
val lowercase : string -> string
val capitalize : string -> string
val uncapitalize : string -> string
type t = string 
val compare : t -> t -> int
val unsafe_get : string -> int -> char
val unsafe_set : string -> int -> char -> unit
val unsafe_blit : src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
val unsafe_fill : string -> pos:int -> len:int -> char -> unit
ocaml-doc-4.01/ocaml.html/libref/type_Num.html0000644000175000017500000004155012214324161017530 0ustar i33173i33173 Num sig
  type num = Int of int | Big_int of Big_int.big_int | Ratio of Ratio.ratio
  val ( +/ ) : Num.num -> Num.num -> Num.num
  val add_num : Num.num -> Num.num -> Num.num
  val minus_num : Num.num -> Num.num
  val ( -/ ) : Num.num -> Num.num -> Num.num
  val sub_num : Num.num -> Num.num -> Num.num
  val ( */ ) : Num.num -> Num.num -> Num.num
  val mult_num : Num.num -> Num.num -> Num.num
  val square_num : Num.num -> Num.num
  val ( // ) : Num.num -> Num.num -> Num.num
  val div_num : Num.num -> Num.num -> Num.num
  val quo_num : Num.num -> Num.num -> Num.num
  val mod_num : Num.num -> Num.num -> Num.num
  val ( **/ ) : Num.num -> Num.num -> Num.num
  val power_num : Num.num -> Num.num -> Num.num
  val abs_num : Num.num -> Num.num
  val succ_num : Num.num -> Num.num
  val pred_num : Num.num -> Num.num
  val incr_num : Num.num Pervasives.ref -> unit
  val decr_num : Num.num Pervasives.ref -> unit
  val is_integer_num : Num.num -> bool
  val integer_num : Num.num -> Num.num
  val floor_num : Num.num -> Num.num
  val round_num : Num.num -> Num.num
  val ceiling_num : Num.num -> Num.num
  val sign_num : Num.num -> int
  val ( =/ ) : Num.num -> Num.num -> bool
  val ( </ ) : Num.num -> Num.num -> bool
  val ( >/ ) : Num.num -> Num.num -> bool
  val ( <=/ ) : Num.num -> Num.num -> bool
  val ( >=/ ) : Num.num -> Num.num -> bool
  val ( <>/ ) : Num.num -> Num.num -> bool
  val eq_num : Num.num -> Num.num -> bool
  val lt_num : Num.num -> Num.num -> bool
  val le_num : Num.num -> Num.num -> bool
  val gt_num : Num.num -> Num.num -> bool
  val ge_num : Num.num -> Num.num -> bool
  val compare_num : Num.num -> Num.num -> int
  val max_num : Num.num -> Num.num -> Num.num
  val min_num : Num.num -> Num.num -> Num.num
  val string_of_num : Num.num -> string
  val approx_num_fix : int -> Num.num -> string
  val approx_num_exp : int -> Num.num -> string
  val num_of_string : string -> Num.num
  val int_of_num : Num.num -> int
  val num_of_int : int -> Num.num
  val nat_of_num : Num.num -> Nat.nat
  val num_of_nat : Nat.nat -> Num.num
  val num_of_big_int : Big_int.big_int -> Num.num
  val big_int_of_num : Num.num -> Big_int.big_int
  val ratio_of_num : Num.num -> Ratio.ratio
  val num_of_ratio : Ratio.ratio -> Num.num
  val float_of_num : Num.num -> float
endocaml-doc-4.01/ocaml.html/libref/Set.OrderedType.html0000644000175000017500000001352612214324164020715 0ustar i33173i33173 Set.OrderedType
 Up  Next

Module type Set.OrderedType

module type OrderedType = sig .. end
Input signature of the functor Set.Make.
type t
The type of the set elements.
val compare : t -> t -> int
A total ordering function over the set elements. This is a two-argument function f such that f e1 e2 is zero if the elements e1 and e2 are equal, f e1 e2 is strictly negative if e1 is smaller than e2, and f e1 e2 is strictly positive if e1 is greater than e2. Example: a suitable ordering function is the generic structural comparison function compare.
ocaml-doc-4.01/ocaml.html/libref/Set.S.html0000644000175000017500000003671612214324164016677 0ustar i33173i33173 Set.S
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Module type Set.S

module type S = sig .. end
Output signature of the functor Set.Make.
type elt
The type of the set elements.
type t
The type of sets.
val empty : t
The empty set.
val is_empty : t -> bool
Test whether a set is empty or not.
val mem : elt -> t -> bool
mem x s tests whether x belongs to the set s.
val add : elt -> t -> t
add x s returns a set containing all elements of s, plus x. If x was already in s, s is returned unchanged.
val singleton : elt -> t
singleton x returns the one-element set containing only x.
val remove : elt -> t -> t
remove x s returns a set containing all elements of s, except x. If x was not in s, s is returned unchanged.
val union : t -> t -> t
Set union.
val inter : t -> t -> t
Set intersection.
val diff : t -> t -> t
Set difference.
val compare : t -> t -> int
Total ordering between sets. Can be used as the ordering function for doing sets of sets.
val equal : t -> t -> bool
equal s1 s2 tests whether the sets s1 and s2 are equal, that is, contain equal elements.
val subset : t -> t -> bool
subset s1 s2 tests whether the set s1 is a subset of the set s2.
val iter : (elt -> unit) -> t -> unit
iter f s applies f in turn to all elements of s. The elements of s are presented to f in increasing order with respect to the ordering over the type of the elements.
val fold : (elt -> 'a -> 'a) -> t -> 'a -> 'a
fold f s a computes (f xN ... (f x2 (f x1 a))...), where x1 ... xN are the elements of s, in increasing order.
val for_all : (elt -> bool) -> t -> bool
for_all p s checks if all elements of the set satisfy the predicate p.
val exists : (elt -> bool) -> t -> bool
exists p s checks if at least one element of the set satisfies the predicate p.
val filter : (elt -> bool) -> t -> t
filter p s returns the set of all elements in s that satisfy predicate p.
val partition : (elt -> bool) -> t -> t * t
partition p s returns a pair of sets (s1, s2), where s1 is the set of all the elements of s that satisfy the predicate p, and s2 is the set of all the elements of s that do not satisfy p.
val cardinal : t -> int
Return the number of elements of a set.
val elements : t -> elt list
Return the list of all elements of the given set. The returned list is sorted in increasing order with respect to the ordering Ord.compare, where Ord is the argument given to Set.Make.
val min_elt : t -> elt
Return the smallest element of the given set (with respect to the Ord.compare ordering), or raise Not_found if the set is empty.
val max_elt : t -> elt
Same as Set.S.min_elt, but returns the largest element of the given set.
val choose : t -> elt
Return one element of the given set, or raise Not_found if the set is empty. Which element is chosen is unspecified, but equal elements will be chosen for equal sets.
val split : elt -> t -> t * bool * t
split x s returns a triple (l, present, r), where l is the set of elements of s that are strictly less than x; r is the set of elements of s that are strictly greater than x; present is false if s contains no element equal to x, or true if s contains an element equal to x.
val find : elt -> t -> elt
find x s returns the element of s equal to x (according to Ord.compare), or raise Not_found if no such element exists.
Since 4.01.0
ocaml-doc-4.01/ocaml.html/libref/type_Bigarray.Array1.html0000644000175000017500000003000412214324145021661 0ustar i33173i33173 Bigarray.Array1 sig
  type ('a, 'b, 'c) t
  val create :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> int -> ('a, 'b, 'c) Bigarray.Array1.t
  external dim : ('a, 'b, 'c) Bigarray.Array1.t -> int = "%caml_ba_dim_1"
  external kind : ('a, 'b, 'c) Bigarray.Array1.t -> ('a, 'b) Bigarray.kind
    = "caml_ba_kind"
  external layout : ('a, 'b, 'c) Bigarray.Array1.t -> 'Bigarray.layout
    = "caml_ba_layout"
  external get : ('a, 'b, 'c) Bigarray.Array1.t -> int -> 'a
    = "%caml_ba_ref_1"
  external set : ('a, 'b, 'c) Bigarray.Array1.t -> int -> '-> unit
    = "%caml_ba_set_1"
  external sub :
    ('a, 'b, 'c) Bigarray.Array1.t ->
    int -> int -> ('a, 'b, 'c) Bigarray.Array1.t = "caml_ba_sub"
  external blit :
    ('a, 'b, 'c) Bigarray.Array1.t -> ('a, 'b, 'c) Bigarray.Array1.t -> unit
    = "caml_ba_blit"
  external fill : ('a, 'b, 'c) Bigarray.Array1.t -> '-> unit
    = "caml_ba_fill"
  val of_array :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> 'a array -> ('a, 'b, 'c) Bigarray.Array1.t
  val map_file :
    Unix.file_descr ->
    ?pos:int64 ->
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> bool -> int -> ('a, 'b, 'c) Bigarray.Array1.t
  external unsafe_get : ('a, 'b, 'c) Bigarray.Array1.t -> int -> 'a
    = "%caml_ba_unsafe_ref_1"
  external unsafe_set : ('a, 'b, 'c) Bigarray.Array1.t -> int -> '-> unit
    = "%caml_ba_unsafe_set_1"
endocaml-doc-4.01/ocaml.html/libref/type_Arg.html0000644000175000017500000002630212214324143017500 0ustar i33173i33173 Arg sig
  type spec =
      Unit of (unit -> unit)
    | Bool of (bool -> unit)
    | Set of bool Pervasives.ref
    | Clear of bool Pervasives.ref
    | String of (string -> unit)
    | Set_string of string Pervasives.ref
    | Int of (int -> unit)
    | Set_int of int Pervasives.ref
    | Float of (float -> unit)
    | Set_float of float Pervasives.ref
    | Tuple of Arg.spec list
    | Symbol of string list * (string -> unit)
    | Rest of (string -> unit)
  type key = string
  type doc = string
  type usage_msg = string
  type anon_fun = string -> unit
  val parse :
    (Arg.key * Arg.spec * Arg.doc) list ->
    Arg.anon_fun -> Arg.usage_msg -> unit
  val parse_dynamic :
    (string * Arg.spec * string) list Pervasives.ref ->
    Arg.anon_fun -> string -> unit
  val parse_argv :
    ?current:int Pervasives.ref ->
    string array ->
    (Arg.key * Arg.spec * Arg.doc) list ->
    Arg.anon_fun -> Arg.usage_msg -> unit
  val parse_argv_dynamic :
    ?current:int Pervasives.ref ->
    string array ->
    (string * Arg.spec * string) list Pervasives.ref ->
    Arg.anon_fun -> string -> unit
  exception Help of string
  exception Bad of string
  val usage : (Arg.key * Arg.spec * Arg.doc) list -> Arg.usage_msg -> unit
  val usage_string :
    (Arg.key * Arg.spec * Arg.doc) list -> Arg.usage_msg -> string
  val align :
    (Arg.key * Arg.spec * Arg.doc) list ->
    (Arg.key * Arg.spec * Arg.doc) list
  val current : int Pervasives.ref
endocaml-doc-4.01/ocaml.html/libref/StdLabels.html0000644000175000017500000001365412214324164017614 0ustar i33173i33173 StdLabels
Previous  Up  Next

Module StdLabels

module StdLabels: sig .. end
Standard labeled libraries.

This meta-module provides labelized version of the Array, List and String modules.

They only differ by their labels. Detailed interfaces can be found in arrayLabels.mli, listLabels.mli and stringLabels.mli.

module Array: sig .. end
module List: sig .. end
module String: sig .. end
ocaml-doc-4.01/ocaml.html/libref/type_Scanf.html0000644000175000017500000003366012214324164020031 0ustar i33173i33173 Scanf sig
  module Scanning :
    sig
      type in_channel
      type scanbuf = Scanf.Scanning.in_channel
      val stdin : Scanf.Scanning.in_channel
      type file_name = string
      val open_in : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
      val open_in_bin : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
      val close_in : Scanf.Scanning.in_channel -> unit
      val from_file : Scanf.Scanning.file_name -> Scanf.Scanning.in_channel
      val from_file_bin : string -> Scanf.Scanning.in_channel
      val from_string : string -> Scanf.Scanning.in_channel
      val from_function : (unit -> char) -> Scanf.Scanning.in_channel
      val from_channel : Pervasives.in_channel -> Scanf.Scanning.in_channel
      val end_of_input : Scanf.Scanning.in_channel -> bool
      val beginning_of_input : Scanf.Scanning.in_channel -> bool
      val name_of_input : Scanf.Scanning.in_channel -> string
      val stdib : Scanf.Scanning.in_channel
    end
  type ('a, 'b, 'c, 'd) scanner =
      ('a, Scanf.Scanning.in_channel, 'b, 'c, '-> 'd, 'd) format6 -> 'c
  exception Scan_failure of string
  val bscanf : Scanf.Scanning.in_channel -> ('a, 'b, 'c, 'd) Scanf.scanner
  val fscanf : Pervasives.in_channel -> ('a, 'b, 'c, 'd) Scanf.scanner
  val sscanf : string -> ('a, 'b, 'c, 'd) Scanf.scanner
  val scanf : ('a, 'b, 'c, 'd) Scanf.scanner
  val kscanf :
    Scanf.Scanning.in_channel ->
    (Scanf.Scanning.in_channel -> exn -> 'd) ->
    ('a, 'b, 'c, 'd) Scanf.scanner
  val bscanf_format :
    Scanf.Scanning.in_channel ->
    ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
    (('a, 'b, 'c, 'd, 'e, 'f) format6 -> 'g) -> 'g
  val sscanf_format :
    string ->
    ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
    (('a, 'b, 'c, 'd, 'e, 'f) format6 -> 'g) -> 'g
  val format_from_string :
    string ->
    ('a, 'b, 'c, 'd, 'e, 'f) format6 -> ('a, 'b, 'c, 'd, 'e, 'f) format6
  val unescaped : string -> string
endocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.html0000644000175000017500000010522012214324152020351 0ustar i33173i33173 Hashtbl sig
  type ('a, 'b) t
  val create : ?random:bool -> int -> ('a, 'b) Hashtbl.t
  val clear : ('a, 'b) Hashtbl.t -> unit
  val reset : ('a, 'b) Hashtbl.t -> unit
  val copy : ('a, 'b) Hashtbl.t -> ('a, 'b) Hashtbl.t
  val add : ('a, 'b) Hashtbl.t -> '-> '-> unit
  val find : ('a, 'b) Hashtbl.t -> '-> 'b
  val find_all : ('a, 'b) Hashtbl.t -> '-> 'b list
  val mem : ('a, 'b) Hashtbl.t -> '-> bool
  val remove : ('a, 'b) Hashtbl.t -> '-> unit
  val replace : ('a, 'b) Hashtbl.t -> '-> '-> unit
  val iter : ('-> '-> unit) -> ('a, 'b) Hashtbl.t -> unit
  val fold : ('-> '-> '-> 'c) -> ('a, 'b) Hashtbl.t -> '-> 'c
  val length : ('a, 'b) Hashtbl.t -> int
  val randomize : unit -> unit
  type statistics = {
    num_bindings : int;
    num_buckets : int;
    max_bucket_length : int;
    bucket_histogram : int array;
  }
  val stats : ('a, 'b) Hashtbl.t -> Hashtbl.statistics
  module type HashedType =
    sig
      type t
      val equal : Hashtbl.HashedType.t -> Hashtbl.HashedType.t -> bool
      val hash : Hashtbl.HashedType.t -> int
    end
  module type S =
    sig
      type key
      type 'a t
      val create : int -> 'Hashtbl.S.t
      val clear : 'Hashtbl.S.t -> unit
      val reset : 'Hashtbl.S.t -> unit
      val copy : 'Hashtbl.S.t -> 'Hashtbl.S.t
      val add : 'Hashtbl.S.t -> Hashtbl.S.key -> '-> unit
      val remove : 'Hashtbl.S.t -> Hashtbl.S.key -> unit
      val find : 'Hashtbl.S.t -> Hashtbl.S.key -> 'a
      val find_all : 'Hashtbl.S.t -> Hashtbl.S.key -> 'a list
      val replace : 'Hashtbl.S.t -> Hashtbl.S.key -> '-> unit
      val mem : 'Hashtbl.S.t -> Hashtbl.S.key -> bool
      val iter : (Hashtbl.S.key -> '-> unit) -> 'Hashtbl.S.t -> unit
      val fold :
        (Hashtbl.S.key -> '-> '-> 'b) -> 'Hashtbl.S.t -> '-> 'b
      val length : 'Hashtbl.S.t -> int
      val stats : 'Hashtbl.S.t -> Hashtbl.statistics
    end
  module Make :
    functor (H : HashedType->
      sig
        type key = H.t
        type 'a t
        val create : int -> 'a t
        val clear : 'a t -> unit
        val reset : 'a t -> unit
        val copy : 'a t -> 'a t
        val add : 'a t -> key -> '-> unit
        val remove : 'a t -> key -> unit
        val find : 'a t -> key -> 'a
        val find_all : 'a t -> key -> 'a list
        val replace : 'a t -> key -> '-> unit
        val mem : 'a t -> key -> bool
        val iter : (key -> '-> unit) -> 'a t -> unit
        val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
        val length : 'a t -> int
        val stats : 'a t -> statistics
      end
  module type SeededHashedType =
    sig
      type t
      val equal :
        Hashtbl.SeededHashedType.t -> Hashtbl.SeededHashedType.t -> bool
      val hash : int -> Hashtbl.SeededHashedType.t -> int
    end
  module type SeededS =
    sig
      type key
      type 'a t
      val create : ?random:bool -> int -> 'Hashtbl.SeededS.t
      val clear : 'Hashtbl.SeededS.t -> unit
      val reset : 'Hashtbl.SeededS.t -> unit
      val copy : 'Hashtbl.SeededS.t -> 'Hashtbl.SeededS.t
      val add : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> '-> unit
      val remove : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> unit
      val find : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> 'a
      val find_all : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> 'a list
      val replace : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> '-> unit
      val mem : 'Hashtbl.SeededS.t -> Hashtbl.SeededS.key -> bool
      val iter :
        (Hashtbl.SeededS.key -> '-> unit) -> 'Hashtbl.SeededS.t -> unit
      val fold :
        (Hashtbl.SeededS.key -> '-> '-> 'b) ->
        'Hashtbl.SeededS.t -> '-> 'b
      val length : 'Hashtbl.SeededS.t -> int
      val stats : 'Hashtbl.SeededS.t -> Hashtbl.statistics
    end
  module MakeSeeded :
    functor (H : SeededHashedType->
      sig
        type key = H.t
        type 'a t
        val create : ?random:bool -> int -> 'a t
        val clear : 'a t -> unit
        val reset : 'a t -> unit
        val copy : 'a t -> 'a t
        val add : 'a t -> key -> '-> unit
        val remove : 'a t -> key -> unit
        val find : 'a t -> key -> 'a
        val find_all : 'a t -> key -> 'a list
        val replace : 'a t -> key -> '-> unit
        val mem : 'a t -> key -> bool
        val iter : (key -> '-> unit) -> 'a t -> unit
        val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
        val length : 'a t -> int
        val stats : 'a t -> statistics
      end
  val hash : '-> int
  val seeded_hash : int -> '-> int
  val hash_param : int -> int -> '-> int
  val seeded_hash_param : int -> int -> int -> '-> int
endocaml-doc-4.01/ocaml.html/libref/type_Map.html0000644000175000017500000006625012214324154017514 0ustar i33173i33173 Map sig
  module type OrderedType =
    sig
      type t
      val compare : Map.OrderedType.t -> Map.OrderedType.t -> int
    end
  module type S =
    sig
      type key
      type +'a t
      val empty : 'Map.S.t
      val is_empty : 'Map.S.t -> bool
      val mem : Map.S.key -> 'Map.S.t -> bool
      val add : Map.S.key -> '-> 'Map.S.t -> 'Map.S.t
      val singleton : Map.S.key -> '-> 'Map.S.t
      val remove : Map.S.key -> 'Map.S.t -> 'Map.S.t
      val merge :
        (Map.S.key -> 'a option -> 'b option -> 'c option) ->
        'Map.S.t -> 'Map.S.t -> 'Map.S.t
      val compare : ('-> '-> int) -> 'Map.S.t -> 'Map.S.t -> int
      val equal : ('-> '-> bool) -> 'Map.S.t -> 'Map.S.t -> bool
      val iter : (Map.S.key -> '-> unit) -> 'Map.S.t -> unit
      val fold : (Map.S.key -> '-> '-> 'b) -> 'Map.S.t -> '-> 'b
      val for_all : (Map.S.key -> '-> bool) -> 'Map.S.t -> bool
      val exists : (Map.S.key -> '-> bool) -> 'Map.S.t -> bool
      val filter : (Map.S.key -> '-> bool) -> 'Map.S.t -> 'Map.S.t
      val partition :
        (Map.S.key -> '-> bool) -> 'Map.S.t -> 'Map.S.t * 'Map.S.t
      val cardinal : 'Map.S.t -> int
      val bindings : 'Map.S.t -> (Map.S.key * 'a) list
      val min_binding : 'Map.S.t -> Map.S.key * 'a
      val max_binding : 'Map.S.t -> Map.S.key * 'a
      val choose : 'Map.S.t -> Map.S.key * 'a
      val split :
        Map.S.key -> 'Map.S.t -> 'Map.S.t * 'a option * 'Map.S.t
      val find : Map.S.key -> 'Map.S.t -> 'a
      val map : ('-> 'b) -> 'Map.S.t -> 'Map.S.t
      val mapi : (Map.S.key -> '-> 'b) -> 'Map.S.t -> 'Map.S.t
    end
  module Make :
    functor (Ord : OrderedType->
      sig
        type key = Ord.t
        type +'a t
        val empty : 'a t
        val is_empty : 'a t -> bool
        val mem : key -> 'a t -> bool
        val add : key -> '-> 'a t -> 'a t
        val singleton : key -> '-> 'a t
        val remove : key -> 'a t -> 'a t
        val merge :
          (key -> 'a option -> 'b option -> 'c option) ->
          'a t -> 'b t -> 'c t
        val compare : ('-> '-> int) -> 'a t -> 'a t -> int
        val equal : ('-> '-> bool) -> 'a t -> 'a t -> bool
        val iter : (key -> '-> unit) -> 'a t -> unit
        val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
        val for_all : (key -> '-> bool) -> 'a t -> bool
        val exists : (key -> '-> bool) -> 'a t -> bool
        val filter : (key -> '-> bool) -> 'a t -> 'a t
        val partition : (key -> '-> bool) -> 'a t -> 'a t * 'a t
        val cardinal : 'a t -> int
        val bindings : 'a t -> (key * 'a) list
        val min_binding : 'a t -> key * 'a
        val max_binding : 'a t -> key * 'a
        val choose : 'a t -> key * 'a
        val split : key -> 'a t -> 'a t * 'a option * 'a t
        val find : key -> 'a t -> 'a
        val map : ('-> 'b) -> 'a t -> 'b t
        val mapi : (key -> '-> 'b) -> 'a t -> 'b t
      end
endocaml-doc-4.01/ocaml.html/libref/style.css0000644000175000017500000000417412214324176016723 0ustar i33173i33173a:visited {color : #416DFF; text-decoration : none; } a:link {color : #416DFF; text-decoration : none;} a:hover {color : Red; text-decoration : none; background-color: #5FFF88} a:active {color : Red; text-decoration : underline; } .keyword { font-weight : bold ; color : Red } .keywordsign { color : #C04600 } .superscript { font-size : 4 } .subscript { font-size : 4 } .comment { color : Green } .constructor { color : Blue } .type { color : #5C6585 } .string { color : Maroon } .warning { color : Red ; font-weight : bold } .info { margin-left : 3em; margin-right : 3em } .code { color : #465F91 ; } h1 { font-size : 20pt ; text-align: center; } h2 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90BDFF ;padding: 2px; } h3 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90DDFF ;padding: 2px; } h4 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90EDFF ;padding: 2px; } h5 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90FDFF ;padding: 2px; } h6 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90BDFF ; padding: 2px; } div.h7 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #90DDFF ; padding: 2px; } div.h8 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #F0FFFF ; padding: 2px; } div.h9 { font-size : 20pt ; border: 1px solid #000000; margin-top: 5px; margin-bottom: 2px;text-align: center; background-color: #FFFFFF ; padding: 2px; } .typetable { border-style : hidden } .indextable { border-style : hidden } .paramstable { border-style : hidden ; padding: 5pt 5pt} body { background-color : White } tr { background-color : White } td.typefieldcomment { background-color : #FFFFFF } pre { margin-bottom: 4px } div.sig_block {margin-left: 2em}ocaml-doc-4.01/ocaml.html/libref/type_Hashtbl.S.html0000644000175000017500000002267612214324151020566 0ustar i33173i33173 Hashtbl.S sig
  type key
  type 'a t
  val create : int -> 'Hashtbl.S.t
  val clear : 'Hashtbl.S.t -> unit
  val reset : 'Hashtbl.S.t -> unit
  val copy : 'Hashtbl.S.t -> 'Hashtbl.S.t
  val add : 'Hashtbl.S.t -> Hashtbl.S.key -> '-> unit
  val remove : 'Hashtbl.S.t -> Hashtbl.S.key -> unit
  val find : 'Hashtbl.S.t -> Hashtbl.S.key -> 'a
  val find_all : 'Hashtbl.S.t -> Hashtbl.S.key -> 'a list
  val replace : 'Hashtbl.S.t -> Hashtbl.S.key -> '-> unit
  val mem : 'Hashtbl.S.t -> Hashtbl.S.key -> bool
  val iter : (Hashtbl.S.key -> '-> unit) -> 'Hashtbl.S.t -> unit
  val fold : (Hashtbl.S.key -> '-> '-> 'b) -> 'Hashtbl.S.t -> '-> 'b
  val length : 'Hashtbl.S.t -> int
  val stats : 'Hashtbl.S.t -> Hashtbl.statistics
endocaml-doc-4.01/ocaml.html/libref/Graphics.html0000644000175000017500000011016412214324150017464 0ustar i33173i33173 Graphics
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Module Graphics

module Graphics: sig .. end
Machine-independent graphics primitives.
exception Graphic_failure of string
Raised by the functions below when they encounter an error.

Initializations

val open_graph : string -> unit
Show the graphics window or switch the screen to graphic mode. The graphics window is cleared and the current point is set to (0, 0). The string argument is used to pass optional information on the desired graphics mode, the graphics window size, and so on. Its interpretation is implementation-dependent. If the empty string is given, a sensible default is selected.
val close_graph : unit -> unit
Delete the graphics window or switch the screen back to text mode.
val set_window_title : string -> unit
Set the title of the graphics window.
val resize_window : int -> int -> unit
Resize and erase the graphics window.
val clear_graph : unit -> unit
Erase the graphics window.
val size_x : unit -> int
See Graphics.size_y.
val size_y : unit -> int
Return the size of the graphics window. Coordinates of the screen pixels range over 0 .. size_x()-1 and 0 .. size_y()-1. Drawings outside of this rectangle are clipped, without causing an error. The origin (0,0) is at the lower left corner.

Colors

type color = int
A color is specified by its R, G, B components. Each component is in the range 0..255. The three components are packed in an int: 0xRRGGBB, where RR are the two hexadecimal digits for the red component, GG for the green component, BB for the blue component.
val rgb : int -> int -> int -> color
rgb r g b returns the integer encoding the color with red component r, green component g, and blue component b. r, g and b are in the range 0..255.
val set_color : color -> unit
Set the current drawing color.
val background : color
See Graphics.foreground.
val foreground : color
Default background and foreground colors (usually, either black foreground on a white background or white foreground on a black background). Graphics.clear_graph fills the screen with the background color. The initial drawing color is foreground.

Some predefined colors

val black : color
val white : color
val red : color
val green : color
val blue : color
val yellow : color
val cyan : color
val magenta : color

Point and line drawing

val plot : int -> int -> unit
Plot the given point with the current drawing color.
val plots : (int * int) array -> unit
Plot the given points with the current drawing color.
val point_color : int -> int -> color
Return the color of the given point in the backing store (see "Double buffering" below).
val moveto : int -> int -> unit
Position the current point.
val rmoveto : int -> int -> unit
rmoveto dx dy translates the current point by the given vector.
val current_x : unit -> int
Return the abscissa of the current point.
val current_y : unit -> int
Return the ordinate of the current point.
val current_point : unit -> int * int
Return the position of the current point.
val lineto : int -> int -> unit
Draw a line with endpoints the current point and the given point, and move the current point to the given point.
val rlineto : int -> int -> unit
Draw a line with endpoints the current point and the current point translated of the given vector, and move the current point to this point.
val curveto : int * int -> int * int -> int * int -> unit
curveto b c d draws a cubic Bezier curve starting from the current point to point d, with control points b and c, and moves the current point to d.
val draw_rect : int -> int -> int -> int -> unit
draw_rect x y w h draws the rectangle with lower left corner at x,y, width w and height h. The current point is unchanged. Raise Invalid_argument if w or h is negative.
val draw_poly_line : (int * int) array -> unit
draw_poly_line points draws the line that joins the points given by the array argument. The array contains the coordinates of the vertices of the polygonal line, which need not be closed. The current point is unchanged.
val draw_poly : (int * int) array -> unit
draw_poly polygon draws the given polygon. The array contains the coordinates of the vertices of the polygon. The current point is unchanged.
val draw_segments : (int * int * int * int) array -> unit
draw_segments segments draws the segments given in the array argument. Each segment is specified as a quadruple (x0, y0, x1, y1) where (x0, y0) and (x1, y1) are the coordinates of the end points of the segment. The current point is unchanged.
val draw_arc : int -> int -> int -> int -> int -> int -> unit
draw_arc x y rx ry a1 a2 draws an elliptical arc with center x,y, horizontal radius rx, vertical radius ry, from angle a1 to angle a2 (in degrees). The current point is unchanged. Raise Invalid_argument if rx or ry is negative.
val draw_ellipse : int -> int -> int -> int -> unit
draw_ellipse x y rx ry draws an ellipse with center x,y, horizontal radius rx and vertical radius ry. The current point is unchanged. Raise Invalid_argument if rx or ry is negative.
val draw_circle : int -> int -> int -> unit
draw_circle x y r draws a circle with center x,y and radius r. The current point is unchanged. Raise Invalid_argument if r is negative.
val set_line_width : int -> unit
Set the width of points and lines drawn with the functions above. Under X Windows, set_line_width 0 selects a width of 1 pixel and a faster, but less precise drawing algorithm than the one used when set_line_width 1 is specified. Raise Invalid_argument if the argument is negative.

Text drawing

val draw_char : char -> unit
See Graphics.draw_string.
val draw_string : string -> unit
Draw a character or a character string with lower left corner at current position. After drawing, the current position is set to the lower right corner of the text drawn.
val set_font : string -> unit
Set the font used for drawing text. The interpretation of the argument to set_font is implementation-dependent.
val set_text_size : int -> unit
Set the character size used for drawing text. The interpretation of the argument to set_text_size is implementation-dependent.
val text_size : string -> int * int
Return the dimensions of the given text, if it were drawn with the current font and size.

Filling

val fill_rect : int -> int -> int -> int -> unit
fill_rect x y w h fills the rectangle with lower left corner at x,y, width w and height h, with the current color. Raise Invalid_argument if w or h is negative.
val fill_poly : (int * int) array -> unit
Fill the given polygon with the current color. The array contains the coordinates of the vertices of the polygon.
val fill_arc : int -> int -> int -> int -> int -> int -> unit
Fill an elliptical pie slice with the current color. The parameters are the same as for Graphics.draw_arc.
val fill_ellipse : int -> int -> int -> int -> unit
Fill an ellipse with the current color. The parameters are the same as for Graphics.draw_ellipse.
val fill_circle : int -> int -> int -> unit
Fill a circle with the current color. The parameters are the same as for Graphics.draw_circle.

Images

type image
The abstract type for images, in internal representation. Externally, images are represented as matrices of colors.
val transp : color
In matrices of colors, this color represent a 'transparent' point: when drawing the corresponding image, all pixels on the screen corresponding to a transparent pixel in the image will not be modified, while other points will be set to the color of the corresponding point in the image. This allows superimposing an image over an existing background.
val make_image : color array array -> image
Convert the given color matrix to an image. Each sub-array represents one horizontal line. All sub-arrays must have the same length; otherwise, exception Graphic_failure is raised.
val dump_image : image -> color array array
Convert an image to a color matrix.
val draw_image : image -> int -> int -> unit
Draw the given image with lower left corner at the given point.
val get_image : int -> int -> int -> int -> image
Capture the contents of a rectangle on the screen as an image. The parameters are the same as for Graphics.fill_rect.
val create_image : int -> int -> image
create_image w h returns a new image w pixels wide and h pixels tall, to be used in conjunction with blit_image. The initial image contents are random, except that no point is transparent.
val blit_image : image -> int -> int -> unit
blit_image img x y copies screen pixels into the image img, modifying img in-place. The pixels copied are those inside the rectangle with lower left corner at x,y, and width and height equal to those of the image. Pixels that were transparent in img are left unchanged.

Mouse and keyboard events

type status = {
   mouse_x : int; (*X coordinate of the mouse*)
   mouse_y : int; (*Y coordinate of the mouse*)
   button : bool; (*true if a mouse button is pressed*)
   keypressed : bool; (*true if a key has been pressed*)
   key : char; (*the character for the key pressed*)
}
To report events.
type event =
| Button_down (*A mouse button is pressed*)
| Button_up (*A mouse button is released*)
| Key_pressed (*A key is pressed*)
| Mouse_motion (*The mouse is moved*)
| Poll (*Don't wait; return immediately*)
To specify events to wait for.
val wait_next_event : event list -> status
Wait until one of the events specified in the given event list occurs, and return the status of the mouse and keyboard at that time. If Poll is given in the event list, return immediately with the current status. If the mouse cursor is outside of the graphics window, the mouse_x and mouse_y fields of the event are outside the range 0..size_x()-1, 0..size_y()-1. Keypresses are queued, and dequeued one by one when the Key_pressed event is specified.
val loop_at_exit : event list -> (status -> unit) -> unit
Loop before exiting the program, the list given as argument is the list of handlers and the events on which these handlers are called. To exit cleanly the loop, the handler should raise Exit. Any other exception will be propagated outside of the loop.
Since 4.01

Mouse and keyboard polling

val mouse_pos : unit -> int * int
Return the position of the mouse cursor, relative to the graphics window. If the mouse cursor is outside of the graphics window, mouse_pos() returns a point outside of the range 0..size_x()-1, 0..size_y()-1.
val button_down : unit -> bool
Return true if the mouse button is pressed, false otherwise.
val read_key : unit -> char
Wait for a key to be pressed, and return the corresponding character. Keypresses are queued.
val key_pressed : unit -> bool
Return true if a keypress is available; that is, if read_key would not block.

Sound

val sound : int -> int -> unit
sound freq dur plays a sound at frequency freq (in hertz) for a duration dur (in milliseconds).

Double buffering

val auto_synchronize : bool -> unit
By default, drawing takes place both on the window displayed on screen, and in a memory area (the 'backing store'). The backing store image is used to re-paint the on-screen window when necessary.

To avoid flicker during animations, it is possible to turn off on-screen drawing, perform a number of drawing operations in the backing store only, then refresh the on-screen window explicitly.

auto_synchronize false turns on-screen drawing off. All subsequent drawing commands are performed on the backing store only.

auto_synchronize true refreshes the on-screen window from the backing store (as per synchronize), then turns on-screen drawing back on. All subsequent drawing commands are performed both on screen and in the backing store.

The default drawing mode corresponds to auto_synchronize true.

val synchronize : unit -> unit
Synchronize the backing store and the on-screen window, by copying the contents of the backing store onto the graphics window.
val display_mode : bool -> unit
Set display mode on or off. When turned on, drawings are done in the graphics window; when turned off, drawings do not affect the graphics window. This occurs independently of drawing into the backing store (see the function Graphics.remember_mode below). Default display mode is on.
val remember_mode : bool -> unit
Set remember mode on or off. When turned on, drawings are done in the backing store; when turned off, the backing store is unaffected by drawings. This occurs independently of drawing onto the graphics window (see the function Graphics.display_mode above). Default remember mode is on.
ocaml-doc-4.01/ocaml.html/libref/type_Graphics.html0000644000175000017500000004557712214324151020545 0ustar i33173i33173 Graphics sig
  exception Graphic_failure of string
  val open_graph : string -> unit
  val close_graph : unit -> unit
  val set_window_title : string -> unit
  val resize_window : int -> int -> unit
  external clear_graph : unit -> unit = "caml_gr_clear_graph"
  external size_x : unit -> int = "caml_gr_size_x"
  external size_y : unit -> int = "caml_gr_size_y"
  type color = int
  val rgb : int -> int -> int -> Graphics.color
  external set_color : Graphics.color -> unit = "caml_gr_set_color"
  val background : Graphics.color
  val foreground : Graphics.color
  val black : Graphics.color
  val white : Graphics.color
  val red : Graphics.color
  val green : Graphics.color
  val blue : Graphics.color
  val yellow : Graphics.color
  val cyan : Graphics.color
  val magenta : Graphics.color
  external plot : int -> int -> unit = "caml_gr_plot"
  val plots : (int * int) array -> unit
  external point_color : int -> int -> Graphics.color = "caml_gr_point_color"
  external moveto : int -> int -> unit = "caml_gr_moveto"
  val rmoveto : int -> int -> unit
  external current_x : unit -> int = "caml_gr_current_x"
  external current_y : unit -> int = "caml_gr_current_y"
  val current_point : unit -> int * int
  external lineto : int -> int -> unit = "caml_gr_lineto"
  val rlineto : int -> int -> unit
  val curveto : int * int -> int * int -> int * int -> unit
  val draw_rect : int -> int -> int -> int -> unit
  val draw_poly_line : (int * int) array -> unit
  val draw_poly : (int * int) array -> unit
  val draw_segments : (int * int * int * int) array -> unit
  val draw_arc : int -> int -> int -> int -> int -> int -> unit
  val draw_ellipse : int -> int -> int -> int -> unit
  val draw_circle : int -> int -> int -> unit
  val set_line_width : int -> unit
  external draw_char : char -> unit = "caml_gr_draw_char"
  external draw_string : string -> unit = "caml_gr_draw_string"
  external set_font : string -> unit = "caml_gr_set_font"
  val set_text_size : int -> unit
  external text_size : string -> int * int = "caml_gr_text_size"
  val fill_rect : int -> int -> int -> int -> unit
  external fill_poly : (int * int) array -> unit = "caml_gr_fill_poly"
  val fill_arc : int -> int -> int -> int -> int -> int -> unit
  val fill_ellipse : int -> int -> int -> int -> unit
  val fill_circle : int -> int -> int -> unit
  type image
  val transp : Graphics.color
  external make_image : Graphics.color array array -> Graphics.image
    = "caml_gr_make_image"
  external dump_image : Graphics.image -> Graphics.color array array
    = "caml_gr_dump_image"
  external draw_image : Graphics.image -> int -> int -> unit
    = "caml_gr_draw_image"
  val get_image : int -> int -> int -> int -> Graphics.image
  external create_image : int -> int -> Graphics.image
    = "caml_gr_create_image"
  external blit_image : Graphics.image -> int -> int -> unit
    = "caml_gr_blit_image"
  type status = {
    mouse_x : int;
    mouse_y : int;
    button : bool;
    keypressed : bool;
    key : char;
  }
  type event = Button_down | Button_up | Key_pressed | Mouse_motion | Poll
  external wait_next_event : Graphics.event list -> Graphics.status
    = "caml_gr_wait_event"
  val loop_at_exit : Graphics.event list -> (Graphics.status -> unit) -> unit
  val mouse_pos : unit -> int * int
  val button_down : unit -> bool
  val read_key : unit -> char
  val key_pressed : unit -> bool
  external sound : int -> int -> unit = "caml_gr_sound"
  val auto_synchronize : bool -> unit
  external synchronize : unit -> unit = "caml_gr_synchronize"
  external display_mode : bool -> unit = "caml_gr_display_mode"
  external remember_mode : bool -> unit = "caml_gr_remember_mode"
endocaml-doc-4.01/ocaml.html/libref/Weak.S.html0000644000175000017500000002505512214324173017025 0ustar i33173i33173 Weak.S
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Module type Weak.S

module type S = sig .. end
The output signature of the functor Weak.Make.
type data
The type of the elements stored in the table.
type t
The type of tables that contain elements of type data. Note that weak hash tables cannot be marshaled using output_value or the functions of the Marshal module.
val create : int -> t
create n creates a new empty weak hash table, of initial size n. The table will grow as needed.
val clear : t -> unit
Remove all elements from the table.
val merge : t -> data -> data
merge t x returns an instance of x found in t if any, or else adds x to t and return x.
val add : t -> data -> unit
add t x adds x to t. If there is already an instance of x in t, it is unspecified which one will be returned by subsequent calls to find and merge.
val remove : t -> data -> unit
remove t x removes from t one instance of x. Does nothing if there is no instance of x in t.
val find : t -> data -> data
find t x returns an instance of x found in t. Raise Not_found if there is no such element.
val find_all : t -> data -> data list
find_all t x returns a list of all the instances of x found in t.
val mem : t -> data -> bool
mem t x returns true if there is at least one instance of x in t, false otherwise.
val iter : (data -> unit) -> t -> unit
iter f t calls f on each element of t, in some unspecified order. It is not specified what happens if f tries to change t itself.
val fold : (data -> 'a -> 'a) -> t -> 'a -> 'a
fold f t init computes (f d1 (... (f dN init))) where d1 ... dN are the elements of t in some unspecified order. It is not specified what happens if f tries to change t itself.
val count : t -> int
Count the number of elements in the table. count t gives the same result as fold (fun _ n -> n+1) t 0 but does not delay the deallocation of the dead elements.
val stats : t -> int * int * int * int * int * int
Return statistics on the table. The numbers are, in order: table length, number of entries, sum of bucket lengths, smallest bucket length, median bucket length, biggest bucket length.
ocaml-doc-4.01/ocaml.html/libref/Hashtbl.SeededS.html0000644000175000017500000001742312214324151020631 0ustar i33173i33173 Hashtbl.SeededS
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Module type Hashtbl.SeededS

module type SeededS = sig .. end
The output signature of the functor Hashtbl.MakeSeeded.
Since 4.00.0
type key 
type 'a t 
val create : ?random:bool -> int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
val stats : 'a t -> Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/UnixLabels.html0000644000175000017500000063310112214324171017776 0ustar i33173i33173 UnixLabels
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Module UnixLabels

module UnixLabels: sig .. end
Interface to the Unix system. To use as replacement to default Unix module, add module Unix = UnixLabels in your implementation.

Error report

type error = Unix.error =
| E2BIG (*Argument list too long*)
| EACCES (*Permission denied*)
| EAGAIN (*Resource temporarily unavailable; try again*)
| EBADF (*Bad file descriptor*)
| EBUSY (*Resource unavailable*)
| ECHILD (*No child process*)
| EDEADLK (*Resource deadlock would occur*)
| EDOM (*Domain error for math functions, etc.*)
| EEXIST (*File exists*)
| EFAULT (*Bad address*)
| EFBIG (*File too large*)
| EINTR (*Function interrupted by signal*)
| EINVAL (*Invalid argument*)
| EIO (*Hardware I/O error*)
| EISDIR (*Is a directory*)
| EMFILE (*Too many open files by the process*)
| EMLINK (*Too many links*)
| ENAMETOOLONG (*Filename too long*)
| ENFILE (*Too many open files in the system*)
| ENODEV (*No such device*)
| ENOENT (*No such file or directory*)
| ENOEXEC (*Not an executable file*)
| ENOLCK (*No locks available*)
| ENOMEM (*Not enough memory*)
| ENOSPC (*No space left on device*)
| ENOSYS (*Function not supported*)
| ENOTDIR (*Not a directory*)
| ENOTEMPTY (*Directory not empty*)
| ENOTTY (*Inappropriate I/O control operation*)
| ENXIO (*No such device or address*)
| EPERM (*Operation not permitted*)
| EPIPE (*Broken pipe*)
| ERANGE (*Result too large*)
| EROFS (*Read-only file system*)
| ESPIPE (*Invalid seek e.g. on a pipe*)
| ESRCH (*No such process*)
| EXDEV (*Invalid link*)
| EWOULDBLOCK (*Operation would block*)
| EINPROGRESS (*Operation now in progress*)
| EALREADY (*Operation already in progress*)
| ENOTSOCK (*Socket operation on non-socket*)
| EDESTADDRREQ (*Destination address required*)
| EMSGSIZE (*Message too long*)
| EPROTOTYPE (*Protocol wrong type for socket*)
| ENOPROTOOPT (*Protocol not available*)
| EPROTONOSUPPORT (*Protocol not supported*)
| ESOCKTNOSUPPORT (*Socket type not supported*)
| EOPNOTSUPP (*Operation not supported on socket*)
| EPFNOSUPPORT (*Protocol family not supported*)
| EAFNOSUPPORT (*Address family not supported by protocol family*)
| EADDRINUSE (*Address already in use*)
| EADDRNOTAVAIL (*Can't assign requested address*)
| ENETDOWN (*Network is down*)
| ENETUNREACH (*Network is unreachable*)
| ENETRESET (*Network dropped connection on reset*)
| ECONNABORTED (*Software caused connection abort*)
| ECONNRESET (*Connection reset by peer*)
| ENOBUFS (*No buffer space available*)
| EISCONN (*Socket is already connected*)
| ENOTCONN (*Socket is not connected*)
| ESHUTDOWN (*Can't send after socket shutdown*)
| ETOOMANYREFS (*Too many references: can't splice*)
| ETIMEDOUT (*Connection timed out*)
| ECONNREFUSED (*Connection refused*)
| EHOSTDOWN (*Host is down*)
| EHOSTUNREACH (*No route to host*)
| ELOOP (*Too many levels of symbolic links*)
| EOVERFLOW (*File size or position not representable*)
| EUNKNOWNERR of int (*Unknown error*)
The type of error codes. Errors defined in the POSIX standard and additional errors from UNIX98 and BSD. All other errors are mapped to EUNKNOWNERR.
exception Unix_error of error * string * string
Raised by the system calls below when an error is encountered. The first component is the error code; the second component is the function name; the third component is the string parameter to the function, if it has one, or the empty string otherwise.
val error_message : error -> string
Return a string describing the given error code.
val handle_unix_error : ('a -> 'b) -> 'a -> 'b
handle_unix_error f x applies f to x and returns the result. If the exception Unix_error is raised, it prints a message describing the error and exits with code 2.

Access to the process environment

val environment : unit -> string array
Return the process environment, as an array of strings with the format ``variable=value''.
val getenv : string -> string
Return the value associated to a variable in the process environment. Raise Not_found if the variable is unbound. (This function is identical to Sys.getenv.)
val putenv : string -> string -> unit
Unix.putenv name value sets the value associated to a variable in the process environment. name is the name of the environment variable, and value its new associated value.

Process handling

type process_status = Unix.process_status =
| WEXITED of int (*The process terminated normally by exit; the argument is the return code.*)
| WSIGNALED of int (*The process was killed by a signal; the argument is the signal number.*)
| WSTOPPED of int (*The process was stopped by a signal; the argument is the signal number.*)
The termination status of a process. See module Sys for the definitions of the standard signal numbers. Note that they are not the numbers used by the OS.
type wait_flag = Unix.wait_flag =
| WNOHANG (*do not block if no child has died yet, but immediately return with a pid equal to 0.*)
| WUNTRACED (*report also the children that receive stop signals.*)
Flags for UnixLabels.waitpid.
val execv : prog:string -> args:string array -> 'a
execv prog args execute the program in file prog, with the arguments args, and the current process environment. These execv* functions never return: on success, the current program is replaced by the new one; on failure, a UnixLabels.Unix_error exception is raised.
val execve : prog:string -> args:string array -> env:string array -> 'a
Same as UnixLabels.execv, except that the third argument provides the environment to the program executed.
val execvp : prog:string -> args:string array -> 'a
Same as UnixLabels.execv, except that the program is searched in the path.
val execvpe : prog:string -> args:string array -> env:string array -> 'a
Same as UnixLabels.execve, except that the program is searched in the path.
val fork : unit -> int
Fork a new process. The returned integer is 0 for the child process, the pid of the child process for the parent process.
val wait : unit -> int * process_status
Wait until one of the children processes die, and return its pid and termination status.
val waitpid : mode:wait_flag list -> int -> int * process_status
Same as UnixLabels.wait, but waits for the child process whose pid is given. A pid of -1 means wait for any child. A pid of 0 means wait for any child in the same process group as the current process. Negative pid arguments represent process groups. The list of options indicates whether waitpid should return immediately without waiting, or also report stopped children.
val system : string -> process_status
Execute the given command, wait until it terminates, and return its termination status. The string is interpreted by the shell /bin/sh and therefore can contain redirections, quotes, variables, etc. The result WEXITED 127 indicates that the shell couldn't be executed.
val getpid : unit -> int
Return the pid of the process.
val getppid : unit -> int
Return the pid of the parent process.
val nice : int -> int
Change the process priority. The integer argument is added to the ``nice'' value. (Higher values of the ``nice'' value mean lower priorities.) Return the new nice value.

Basic file input/output

type file_descr = Unix.file_descr
The abstract type of file descriptors.
val stdin : file_descr
File descriptor for standard input.
val stdout : file_descr
File descriptor for standard output.
val stderr : file_descr
File descriptor for standard error.
type open_flag = Unix.open_flag =
| O_RDONLY (*Open for reading*)
| O_WRONLY (*Open for writing*)
| O_RDWR (*Open for reading and writing*)
| O_NONBLOCK (*Open in non-blocking mode*)
| O_APPEND (*Open for append*)
| O_CREAT (*Create if nonexistent*)
| O_TRUNC (*Truncate to 0 length if existing*)
| O_EXCL (*Fail if existing*)
| O_NOCTTY (*Don't make this dev a controlling tty*)
| O_DSYNC (*Writes complete as `Synchronised I/O data integrity completion'*)
| O_SYNC (*Writes complete as `Synchronised I/O file integrity completion'*)
| O_RSYNC (*Reads complete as writes (depending on O_SYNC/O_DSYNC)*)
| O_SHARE_DELETE (*Windows only: allow the file to be deleted while still open*)
| O_CLOEXEC (*Set the close-on-exec flag on the descriptor returned by UnixLabels.openfile*)
The flags to UnixLabels.openfile.
type file_perm = int
The type of file access rights, e.g. 0o640 is read and write for user, read for group, none for others
val openfile : string ->
       mode:open_flag list ->
       perm:file_perm -> file_descr
Open the named file with the given flags. Third argument is the permissions to give to the file if it is created. Return a file descriptor on the named file.
val close : file_descr -> unit
Close a file descriptor.
val read : file_descr -> buf:string -> pos:int -> len:int -> int
read fd buff ofs len reads len characters from descriptor fd, storing them in string buff, starting at position ofs in string buff. Return the number of characters actually read.
val write : file_descr -> buf:string -> pos:int -> len:int -> int
write fd buff ofs len writes len characters to descriptor fd, taking them from string buff, starting at position ofs in string buff. Return the number of characters actually written. write repeats the writing operation until all characters have been written or an error occurs.
val single_write : file_descr -> buf:string -> pos:int -> len:int -> int
Same as write, but attempts to write only once. Thus, if an error occurs, single_write guarantees that no data has been written.

Interfacing with the standard input/output library

val in_channel_of_descr : file_descr -> in_channel
Create an input channel reading from the given descriptor. The channel is initially in binary mode; use set_binary_mode_in ic false if text mode is desired.
val out_channel_of_descr : file_descr -> out_channel
Create an output channel writing on the given descriptor. The channel is initially in binary mode; use set_binary_mode_out oc false if text mode is desired.
val descr_of_in_channel : in_channel -> file_descr
Return the descriptor corresponding to an input channel.
val descr_of_out_channel : out_channel -> file_descr
Return the descriptor corresponding to an output channel.

Seeking and truncating

type seek_command = Unix.seek_command =
| SEEK_SET (*indicates positions relative to the beginning of the file*)
| SEEK_CUR (*indicates positions relative to the current position*)
| SEEK_END (*indicates positions relative to the end of the file*)
Positioning modes for UnixLabels.lseek.
val lseek : file_descr -> int -> mode:seek_command -> int
Set the current position for a file descriptor, and return the resulting offset (from the beginning of the file).
val truncate : string -> len:int -> unit
Truncates the named file to the given size.
val ftruncate : file_descr -> len:int -> unit
Truncates the file corresponding to the given descriptor to the given size.

File status

type file_kind = Unix.file_kind =
| S_REG (*Regular file*)
| S_DIR (*Directory*)
| S_CHR (*Character device*)
| S_BLK (*Block device*)
| S_LNK (*Symbolic link*)
| S_FIFO (*Named pipe*)
| S_SOCK (*Socket*) 
type stats = Unix.stats = {
   st_dev : int; (*Device number*)
   st_ino : int; (*Inode number*)
   st_kind : file_kind; (*Kind of the file*)
   st_perm : file_perm; (*Access rights*)
   st_nlink : int; (*Number of links*)
   st_uid : int; (*User id of the owner*)
   st_gid : int; (*Group ID of the file's group*)
   st_rdev : int; (*Device minor number*)
   st_size : int; (*Size in bytes*)
   st_atime : float; (*Last access time*)
   st_mtime : float; (*Last modification time*)
   st_ctime : float; (*Last status change time*)
}
The information returned by the UnixLabels.stat calls.
val stat : string -> stats
Return the information for the named file.
val lstat : string -> stats
Same as UnixLabels.stat, but in case the file is a symbolic link, return the information for the link itself.
val fstat : file_descr -> stats
Return the information for the file associated with the given descriptor.
val isatty : file_descr -> bool
Return true if the given file descriptor refers to a terminal or console window, false otherwise.

File operations on large files

module LargeFile: sig .. end
File operations on large files.

Operations on file names

val unlink : string -> unit
Removes the named file
val rename : src:string -> dst:string -> unit
rename old new changes the name of a file from old to new.
val link : src:string -> dst:string -> unit
link source dest creates a hard link named dest to the file named source.

File permissions and ownership

type access_permission = Unix.access_permission =
| R_OK (*Read permission*)
| W_OK (*Write permission*)
| X_OK (*Execution permission*)
| F_OK (*File exists*)
Flags for the UnixLabels.access call.
val chmod : string -> perm:file_perm -> unit
Change the permissions of the named file.
val fchmod : file_descr -> perm:file_perm -> unit
Change the permissions of an opened file.
val chown : string -> uid:int -> gid:int -> unit
Change the owner uid and owner gid of the named file.
val fchown : file_descr -> uid:int -> gid:int -> unit
Change the owner uid and owner gid of an opened file.
val umask : int -> int
Set the process's file mode creation mask, and return the previous mask.
val access : string -> perm:access_permission list -> unit
Check that the process has the given permissions over the named file. Raise Unix_error otherwise.

Operations on file descriptors

val dup : file_descr -> file_descr
Return a new file descriptor referencing the same file as the given descriptor.
val dup2 : src:file_descr -> dst:file_descr -> unit
dup2 fd1 fd2 duplicates fd1 to fd2, closing fd2 if already opened.
val set_nonblock : file_descr -> unit
Set the ``non-blocking'' flag on the given descriptor. When the non-blocking flag is set, reading on a descriptor on which there is temporarily no data available raises the EAGAIN or EWOULDBLOCK error instead of blocking; writing on a descriptor on which there is temporarily no room for writing also raises EAGAIN or EWOULDBLOCK.
val clear_nonblock : file_descr -> unit
Clear the ``non-blocking'' flag on the given descriptor. See UnixLabels.set_nonblock.
val set_close_on_exec : file_descr -> unit
Set the ``close-on-exec'' flag on the given descriptor. A descriptor with the close-on-exec flag is automatically closed when the current process starts another program with one of the exec functions.
val clear_close_on_exec : file_descr -> unit
Clear the ``close-on-exec'' flag on the given descriptor. See UnixLabels.set_close_on_exec.

Directories

val mkdir : string -> perm:file_perm -> unit
Create a directory with the given permissions.
val rmdir : string -> unit
Remove an empty directory.
val chdir : string -> unit
Change the process working directory.
val getcwd : unit -> string
Return the name of the current working directory.
val chroot : string -> unit
Change the process root directory.
type dir_handle = Unix.dir_handle
The type of descriptors over opened directories.
val opendir : string -> dir_handle
Open a descriptor on a directory
val readdir : dir_handle -> string
Return the next entry in a directory.
Raises End_of_file when the end of the directory has been reached.
val rewinddir : dir_handle -> unit
Reposition the descriptor to the beginning of the directory
val closedir : dir_handle -> unit
Close a directory descriptor.

Pipes and redirections

val pipe : unit -> file_descr * file_descr
Create a pipe. The first component of the result is opened for reading, that's the exit to the pipe. The second component is opened for writing, that's the entrance to the pipe.
val mkfifo : string -> perm:file_perm -> unit
Create a named pipe with the given permissions.

High-level process and redirection management

val create_process : prog:string ->
       args:string array ->
       stdin:file_descr ->
       stdout:file_descr -> stderr:file_descr -> int
create_process prog args new_stdin new_stdout new_stderr forks a new process that executes the program in file prog, with arguments args. The pid of the new process is returned immediately; the new process executes concurrently with the current process. The standard input and outputs of the new process are connected to the descriptors new_stdin, new_stdout and new_stderr. Passing e.g. stdout for new_stdout prevents the redirection and causes the new process to have the same standard output as the current process. The executable file prog is searched in the path. The new process has the same environment as the current process.
val create_process_env : prog:string ->
       args:string array ->
       env:string array ->
       stdin:file_descr ->
       stdout:file_descr -> stderr:file_descr -> int
create_process_env prog args env new_stdin new_stdout new_stderr works as UnixLabels.create_process, except that the extra argument env specifies the environment passed to the program.
val open_process_in : string -> in_channel
High-level pipe and process management. This function runs the given command in parallel with the program. The standard output of the command is redirected to a pipe, which can be read via the returned input channel. The command is interpreted by the shell /bin/sh (cf. system).
val open_process_out : string -> out_channel
Same as UnixLabels.open_process_in, but redirect the standard input of the command to a pipe. Data written to the returned output channel is sent to the standard input of the command. Warning: writes on output channels are buffered, hence be careful to call flush at the right times to ensure correct synchronization.
val open_process : string -> in_channel * out_channel
Same as UnixLabels.open_process_out, but redirects both the standard input and standard output of the command to pipes connected to the two returned channels. The input channel is connected to the output of the command, and the output channel to the input of the command.
val open_process_full : string ->
       env:string array ->
       in_channel * out_channel * in_channel
Similar to UnixLabels.open_process, but the second argument specifies the environment passed to the command. The result is a triple of channels connected respectively to the standard output, standard input, and standard error of the command.
val close_process_in : in_channel -> process_status
Close channels opened by UnixLabels.open_process_in, wait for the associated command to terminate, and return its termination status.
val close_process_out : out_channel -> process_status
Close channels opened by UnixLabels.open_process_out, wait for the associated command to terminate, and return its termination status.
val close_process : in_channel * out_channel -> process_status
Close channels opened by UnixLabels.open_process, wait for the associated command to terminate, and return its termination status.
val close_process_full : in_channel * out_channel * in_channel ->
       process_status
Close channels opened by UnixLabels.open_process_full, wait for the associated command to terminate, and return its termination status.


val symlink : src:string -> dst:string -> unit
symlink source dest creates the file dest as a symbolic link to the file source.
val readlink : string -> string
Read the contents of a link.

Polling

val select : read:file_descr list ->
       write:file_descr list ->
       except:file_descr list ->
       timeout:float ->
       file_descr list * file_descr list *
       file_descr list
Wait until some input/output operations become possible on some channels. The three list arguments are, respectively, a set of descriptors to check for reading (first argument), for writing (second argument), or for exceptional conditions (third argument). The fourth argument is the maximal timeout, in seconds; a negative fourth argument means no timeout (unbounded wait). The result is composed of three sets of descriptors: those ready for reading (first component), ready for writing (second component), and over which an exceptional condition is pending (third component).

Locking

type lock_command = Unix.lock_command =
| F_ULOCK (*Unlock a region*)
| F_LOCK (*Lock a region for writing, and block if already locked*)
| F_TLOCK (*Lock a region for writing, or fail if already locked*)
| F_TEST (*Test a region for other process locks*)
| F_RLOCK (*Lock a region for reading, and block if already locked*)
| F_TRLOCK (*Lock a region for reading, or fail if already locked*)
Commands for UnixLabels.lockf.
val lockf : file_descr -> mode:lock_command -> len:int -> unit
lockf fd cmd size puts a lock on a region of the file opened as fd. The region starts at the current read/write position for fd (as set by UnixLabels.lseek), and extends size bytes forward if size is positive, size bytes backwards if size is negative, or to the end of the file if size is zero. A write lock prevents any other process from acquiring a read or write lock on the region. A read lock prevents any other process from acquiring a write lock on the region, but lets other processes acquire read locks on it.

The F_LOCK and F_TLOCK commands attempts to put a write lock on the specified region. The F_RLOCK and F_TRLOCK commands attempts to put a read lock on the specified region. If one or several locks put by another process prevent the current process from acquiring the lock, F_LOCK and F_RLOCK block until these locks are removed, while F_TLOCK and F_TRLOCK fail immediately with an exception. The F_ULOCK removes whatever locks the current process has on the specified region. Finally, the F_TEST command tests whether a write lock can be acquired on the specified region, without actually putting a lock. It returns immediately if successful, or fails otherwise.


Signals
Note: installation of signal handlers is performed via the functions Sys.signal and Sys.set_signal.
val kill : pid:int -> signal:int -> unit
kill pid sig sends signal number sig to the process with id pid.
type sigprocmask_command = Unix.sigprocmask_command =
| SIG_SETMASK
| SIG_BLOCK
| SIG_UNBLOCK 
val sigprocmask : mode:sigprocmask_command -> int list -> int list
sigprocmask cmd sigs changes the set of blocked signals. If cmd is SIG_SETMASK, blocked signals are set to those in the list sigs. If cmd is SIG_BLOCK, the signals in sigs are added to the set of blocked signals. If cmd is SIG_UNBLOCK, the signals in sigs are removed from the set of blocked signals. sigprocmask returns the set of previously blocked signals.
val sigpending : unit -> int list
Return the set of blocked signals that are currently pending.
val sigsuspend : int list -> unit
sigsuspend sigs atomically sets the blocked signals to sigs and waits for a non-ignored, non-blocked signal to be delivered. On return, the blocked signals are reset to their initial value.
val pause : unit -> unit
Wait until a non-ignored, non-blocked signal is delivered.

Time functions

type process_times = Unix.process_times = {
   tms_utime : float; (*User time for the process*)
   tms_stime : float; (*System time for the process*)
   tms_cutime : float; (*User time for the children processes*)
   tms_cstime : float; (*System time for the children processes*)
}
The execution times (CPU times) of a process.
type tm = Unix.tm = {
   tm_sec : int; (*Seconds 0..60*)
   tm_min : int; (*Minutes 0..59*)
   tm_hour : int; (*Hours 0..23*)
   tm_mday : int; (*Day of month 1..31*)
   tm_mon : int; (*Month of year 0..11*)
   tm_year : int; (*Year - 1900*)
   tm_wday : int; (*Day of week (Sunday is 0)*)
   tm_yday : int; (*Day of year 0..365*)
   tm_isdst : bool; (*Daylight time savings in effect*)
}
The type representing wallclock time and calendar date.
val time : unit -> float
Return the current time since 00:00:00 GMT, Jan. 1, 1970, in seconds.
val gettimeofday : unit -> float
Same as UnixLabels.time, but with resolution better than 1 second.
val gmtime : float -> tm
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time. Assumes UTC (Coordinated Universal Time), also known as GMT.
val localtime : float -> tm
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time. Assumes the local time zone.
val mktime : tm -> float * tm
Convert a date and time, specified by the tm argument, into a time in seconds, as returned by UnixLabels.time. The tm_isdst, tm_wday and tm_yday fields of tm are ignored. Also return a normalized copy of the given tm record, with the tm_wday, tm_yday, and tm_isdst fields recomputed from the other fields, and the other fields normalized (so that, e.g., 40 October is changed into 9 November). The tm argument is interpreted in the local time zone.
val alarm : int -> int
Schedule a SIGALRM signal after the given number of seconds.
val sleep : int -> unit
Stop execution for the given number of seconds.
val times : unit -> process_times
Return the execution times of the process.
val utimes : string -> access:float -> modif:float -> unit
Set the last access time (second arg) and last modification time (third arg) for a file. Times are expressed in seconds from 00:00:00 GMT, Jan. 1, 1970. A time of 0.0 is interpreted as the current time.
type interval_timer = Unix.interval_timer =
| ITIMER_REAL (*decrements in real time, and sends the signal SIGALRM when expired.*)
| ITIMER_VIRTUAL (*decrements in process virtual time, and sends SIGVTALRM when expired.*)
| ITIMER_PROF (*(for profiling) decrements both when the process is running and when the system is running on behalf of the process; it sends SIGPROF when expired.*)
The three kinds of interval timers.
type interval_timer_status = Unix.interval_timer_status = {
   it_interval : float; (*Period*)
   it_value : float; (*Current value of the timer*)
}
The type describing the status of an interval timer
val getitimer : interval_timer -> interval_timer_status
Return the current status of the given interval timer.
val setitimer : interval_timer ->
       interval_timer_status -> interval_timer_status
setitimer t s sets the interval timer t and returns its previous status. The s argument is interpreted as follows: s.it_value, if nonzero, is the time to the next timer expiration; s.it_interval, if nonzero, specifies a value to be used in reloading it_value when the timer expires. Setting s.it_value to zero disable the timer. Setting s.it_interval to zero causes the timer to be disabled after its next expiration.

User id, group id

val getuid : unit -> int
Return the user id of the user executing the process.
val geteuid : unit -> int
Return the effective user id under which the process runs.
val setuid : int -> unit
Set the real user id and effective user id for the process.
val getgid : unit -> int
Return the group id of the user executing the process.
val getegid : unit -> int
Return the effective group id under which the process runs.
val setgid : int -> unit
Set the real group id and effective group id for the process.
val getgroups : unit -> int array
Return the list of groups to which the user executing the process belongs.
val setgroups : int array -> unit
setgroups groups sets the supplementary group IDs for the calling process. Appropriate privileges are required.
val initgroups : string -> int -> unit
initgroups user group initializes the group access list by reading the group database /etc/group and using all groups of which user is a member. The additional group group is also added to the list.
type passwd_entry = Unix.passwd_entry = {
   pw_name : string;
   pw_passwd : string;
   pw_uid : int;
   pw_gid : int;
   pw_gecos : string;
   pw_dir : string;
   pw_shell : string;
}
Structure of entries in the passwd database.
type group_entry = Unix.group_entry = {
   gr_name : string;
   gr_passwd : string;
   gr_gid : int;
   gr_mem : string array;
}
Structure of entries in the groups database.
val getlogin : unit -> string
Return the login name of the user executing the process.
val getpwnam : string -> passwd_entry
Find an entry in passwd with the given name, or raise Not_found.
val getgrnam : string -> group_entry
Find an entry in group with the given name, or raise Not_found.
val getpwuid : int -> passwd_entry
Find an entry in passwd with the given user id, or raise Not_found.
val getgrgid : int -> group_entry
Find an entry in group with the given group id, or raise Not_found.

Internet addresses

type inet_addr = Unix.inet_addr
The abstract type of Internet addresses.
val inet_addr_of_string : string -> inet_addr
Conversion from the printable representation of an Internet address to its internal representation. The argument string consists of 4 numbers separated by periods (XXX.YYY.ZZZ.TTT) for IPv4 addresses, and up to 8 numbers separated by colons for IPv6 addresses. Raise Failure when given a string that does not match these formats.
val string_of_inet_addr : inet_addr -> string
Return the printable representation of the given Internet address. See Unix.inet_addr_of_string for a description of the printable representation.
val inet_addr_any : inet_addr
A special IPv4 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
val inet_addr_loopback : inet_addr
A special IPv4 address representing the host machine (127.0.0.1).
val inet6_addr_any : inet_addr
A special IPv6 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
val inet6_addr_loopback : inet_addr
A special IPv6 address representing the host machine (::1).

Sockets

type socket_domain = Unix.socket_domain =
| PF_UNIX (*Unix domain*)
| PF_INET (*Internet domain (IPv4)*)
| PF_INET6 (*Internet domain (IPv6)*)
The type of socket domains. Not all platforms support IPv6 sockets (type PF_INET6).
type socket_type = Unix.socket_type =
| SOCK_STREAM (*Stream socket*)
| SOCK_DGRAM (*Datagram socket*)
| SOCK_RAW (*Raw socket*)
| SOCK_SEQPACKET (*Sequenced packets socket*)
The type of socket kinds, specifying the semantics of communications.
type sockaddr = Unix.sockaddr =
| ADDR_UNIX of string
| ADDR_INET of inet_addr * int (*The type of socket addresses. ADDR_UNIX name is a socket address in the Unix domain; name is a file name in the file system. ADDR_INET(addr,port) is a socket address in the Internet domain; addr is the Internet address of the machine, and port is the port number.*) 
val socket : domain:socket_domain ->
       kind:socket_type -> protocol:int -> file_descr
Create a new socket in the given domain, and with the given kind. The third argument is the protocol type; 0 selects the default protocol for that kind of sockets.
val domain_of_sockaddr : sockaddr -> socket_domain
Return the socket domain adequate for the given socket address.
val socketpair : domain:socket_domain ->
       kind:socket_type ->
       protocol:int -> file_descr * file_descr
Create a pair of unnamed sockets, connected together.
val accept : file_descr -> file_descr * sockaddr
Accept connections on the given socket. The returned descriptor is a socket connected to the client; the returned address is the address of the connecting client.
val bind : file_descr -> addr:sockaddr -> unit
Bind a socket to an address.
val connect : file_descr -> addr:sockaddr -> unit
Connect a socket to an address.
val listen : file_descr -> max:int -> unit
Set up a socket for receiving connection requests. The integer argument is the maximal number of pending requests.
type shutdown_command = Unix.shutdown_command =
| SHUTDOWN_RECEIVE (*Close for receiving*)
| SHUTDOWN_SEND (*Close for sending*)
| SHUTDOWN_ALL (*Close both*)
The type of commands for shutdown.
val shutdown : file_descr -> mode:shutdown_command -> unit
Shutdown a socket connection. SHUTDOWN_SEND as second argument causes reads on the other end of the connection to return an end-of-file condition. SHUTDOWN_RECEIVE causes writes on the other end of the connection to return a closed pipe condition (SIGPIPE signal).
val getsockname : file_descr -> sockaddr
Return the address of the given socket.
val getpeername : file_descr -> sockaddr
Return the address of the host connected to the given socket.
type msg_flag = Unix.msg_flag =
| MSG_OOB
| MSG_DONTROUTE
| MSG_PEEK (*The flags for UnixLabels.recv, UnixLabels.recvfrom, UnixLabels.send and UnixLabels.sendto.*) 
val recv : file_descr ->
       buf:string -> pos:int -> len:int -> mode:msg_flag list -> int
Receive data from a connected socket.
val recvfrom : file_descr ->
       buf:string ->
       pos:int ->
       len:int -> mode:msg_flag list -> int * sockaddr
Receive data from an unconnected socket.
val send : file_descr ->
       buf:string -> pos:int -> len:int -> mode:msg_flag list -> int
Send data over a connected socket.
val sendto : file_descr ->
       buf:string ->
       pos:int ->
       len:int -> mode:msg_flag list -> addr:sockaddr -> int
Send data over an unconnected socket.

Socket options

type socket_bool_option =
| SO_DEBUG (*Record debugging information*)
| SO_BROADCAST (*Permit sending of broadcast messages*)
| SO_REUSEADDR (*Allow reuse of local addresses for bind*)
| SO_KEEPALIVE (*Keep connection active*)
| SO_DONTROUTE (*Bypass the standard routing algorithms*)
| SO_OOBINLINE (*Leave out-of-band data in line*)
| SO_ACCEPTCONN (*Report whether socket listening is enabled*)
| TCP_NODELAY (*Control the Nagle algorithm for TCP sockets*)
| IPV6_ONLY (*Forbid binding an IPv6 socket to an IPv4 address*)
The socket options that can be consulted with UnixLabels.getsockopt and modified with UnixLabels.setsockopt. These options have a boolean (true/false) value.
type socket_int_option =
| SO_SNDBUF (*Size of send buffer*)
| SO_RCVBUF (*Size of received buffer*)
| SO_ERROR (*Deprecated. Use Unix.getsockopt_error instead.*)
| SO_TYPE (*Report the socket type*)
| SO_RCVLOWAT (*Minimum number of bytes to process for input operations*)
| SO_SNDLOWAT (*Minimum number of bytes to process for output operations*)
The socket options that can be consulted with UnixLabels.getsockopt_int and modified with UnixLabels.setsockopt_int. These options have an integer value.
type socket_optint_option =
| SO_LINGER (*Whether to linger on closed connections that have data present, and for how long (in seconds)*)
The socket options that can be consulted with Unix.getsockopt_optint and modified with Unix.setsockopt_optint. These options have a value of type int option, with None meaning ``disabled''.
type socket_float_option =
| SO_RCVTIMEO (*Timeout for input operations*)
| SO_SNDTIMEO (*Timeout for output operations*)
The socket options that can be consulted with UnixLabels.getsockopt_float and modified with UnixLabels.setsockopt_float. These options have a floating-point value representing a time in seconds. The value 0 means infinite timeout.
val getsockopt : file_descr -> socket_bool_option -> bool
Return the current status of a boolean-valued option in the given socket.
val setsockopt : file_descr -> socket_bool_option -> bool -> unit
Set or clear a boolean-valued option in the given socket.
val getsockopt_int : file_descr -> socket_int_option -> int
Same as Unix.getsockopt for an integer-valued socket option.
val setsockopt_int : file_descr -> socket_int_option -> int -> unit
Same as Unix.setsockopt for an integer-valued socket option.
val getsockopt_optint : file_descr -> socket_optint_option -> int option
Same as Unix.getsockopt for a socket option whose value is an int option.
val setsockopt_optint : file_descr ->
       socket_optint_option -> int option -> unit
Same as Unix.setsockopt for a socket option whose value is an int option.
val getsockopt_float : file_descr -> socket_float_option -> float
Same as Unix.getsockopt for a socket option whose value is a floating-point number.
val setsockopt_float : file_descr -> socket_float_option -> float -> unit
Same as Unix.setsockopt for a socket option whose value is a floating-point number.
val getsockopt_error : file_descr -> error option
Return the error condition associated with the given socket, and clear it.

High-level network connection functions

val open_connection : sockaddr -> in_channel * out_channel
Connect to a server at the given address. Return a pair of buffered channels connected to the server. Remember to call flush on the output channel at the right times to ensure correct synchronization.
val shutdown_connection : in_channel -> unit
``Shut down'' a connection established with UnixLabels.open_connection; that is, transmit an end-of-file condition to the server reading on the other side of the connection.
val establish_server : (in_channel -> out_channel -> unit) ->
       addr:sockaddr -> unit
Establish a server on the given address. The function given as first argument is called for each connection with two buffered channels connected to the client. A new process is created for each connection. The function UnixLabels.establish_server never returns normally.

Host and protocol databases

type host_entry = Unix.host_entry = {
   h_name : string;
   h_aliases : string array;
   h_addrtype : socket_domain;
   h_addr_list : inet_addr array;
}
Structure of entries in the hosts database.
type protocol_entry = Unix.protocol_entry = {
   p_name : string;
   p_aliases : string array;
   p_proto : int;
}
Structure of entries in the protocols database.
type service_entry = Unix.service_entry = {
   s_name : string;
   s_aliases : string array;
   s_port : int;
   s_proto : string;
}
Structure of entries in the services database.
val gethostname : unit -> string
Return the name of the local host.
val gethostbyname : string -> host_entry
Find an entry in hosts with the given name, or raise Not_found.
val gethostbyaddr : inet_addr -> host_entry
Find an entry in hosts with the given address, or raise Not_found.
val getprotobyname : string -> protocol_entry
Find an entry in protocols with the given name, or raise Not_found.
val getprotobynumber : int -> protocol_entry
Find an entry in protocols with the given protocol number, or raise Not_found.
val getservbyname : string -> protocol:string -> service_entry
Find an entry in services with the given name, or raise Not_found.
val getservbyport : int -> protocol:string -> service_entry
Find an entry in services with the given service number, or raise Not_found.
type addr_info = {
   ai_family : socket_domain; (*Socket domain*)
   ai_socktype : socket_type; (*Socket type*)
   ai_protocol : int; (*Socket protocol number*)
   ai_addr : sockaddr; (*Address*)
   ai_canonname : string; (*Canonical host name*)
}
Address information returned by Unix.getaddrinfo.
type getaddrinfo_option =
| AI_FAMILY of socket_domain (*Impose the given socket domain*)
| AI_SOCKTYPE of socket_type (*Impose the given socket type*)
| AI_PROTOCOL of int (*Impose the given protocol*)
| AI_NUMERICHOST (*Do not call name resolver, expect numeric IP address*)
| AI_CANONNAME (*Fill the ai_canonname field of the result*)
| AI_PASSIVE (*Set address to ``any'' address for use with Unix.bind*)
Options to Unix.getaddrinfo.
val getaddrinfo : string ->
       string -> getaddrinfo_option list -> addr_info list
getaddrinfo host service opts returns a list of Unix.addr_info records describing socket parameters and addresses suitable for communicating with the given host and service. The empty list is returned if the host or service names are unknown, or the constraints expressed in opts cannot be satisfied.

host is either a host name or the string representation of an IP address. host can be given as the empty string; in this case, the ``any'' address or the ``loopback'' address are used, depending whether opts contains AI_PASSIVE. service is either a service name or the string representation of a port number. service can be given as the empty string; in this case, the port field of the returned addresses is set to 0. opts is a possibly empty list of options that allows the caller to force a particular socket domain (e.g. IPv6 only or IPv4 only) or a particular socket type (e.g. TCP only or UDP only).

type name_info = {
   ni_hostname : string; (*Name or IP address of host*)
   ni_service : string;
}
Name of service or port number

Host and service information returned by Unix.getnameinfo.
type getnameinfo_option =
| NI_NOFQDN (*Do not qualify local host names*)
| NI_NUMERICHOST (*Always return host as IP address*)
| NI_NAMEREQD (*Fail if host name cannot be determined*)
| NI_NUMERICSERV (*Always return service as port number*)
| NI_DGRAM (*Consider the service as UDP-based instead of the default TCP*)
Options to Unix.getnameinfo.
val getnameinfo : sockaddr ->
       getnameinfo_option list -> name_info
getnameinfo addr opts returns the host name and service name corresponding to the socket address addr. opts is a possibly empty list of options that governs how these names are obtained. Raise Not_found if an error occurs.

Terminal interface


The following functions implement the POSIX standard terminal interface. They provide control over asynchronous communication ports and pseudo-terminals. Refer to the termios man page for a complete description.
type terminal_io = Unix.terminal_io = {
   mutable c_ignbrk : bool; (*Ignore the break condition.*)
   mutable c_brkint : bool; (*Signal interrupt on break condition.*)
   mutable c_ignpar : bool; (*Ignore characters with parity errors.*)
   mutable c_parmrk : bool; (*Mark parity errors.*)
   mutable c_inpck : bool; (*Enable parity check on input.*)
   mutable c_istrip : bool; (*Strip 8th bit on input characters.*)
   mutable c_inlcr : bool; (*Map NL to CR on input.*)
   mutable c_igncr : bool; (*Ignore CR on input.*)
   mutable c_icrnl : bool; (*Map CR to NL on input.*)
   mutable c_ixon : bool; (*Recognize XON/XOFF characters on input.*)
   mutable c_ixoff : bool; (*Emit XON/XOFF chars to control input flow.*)
   mutable c_opost : bool; (*Enable output processing.*)
   mutable c_obaud : int; (*Output baud rate (0 means close connection).*)
   mutable c_ibaud : int; (*Input baud rate.*)
   mutable c_csize : int; (*Number of bits per character (5-8).*)
   mutable c_cstopb : int; (*Number of stop bits (1-2).*)
   mutable c_cread : bool; (*Reception is enabled.*)
   mutable c_parenb : bool; (*Enable parity generation and detection.*)
   mutable c_parodd : bool; (*Specify odd parity instead of even.*)
   mutable c_hupcl : bool; (*Hang up on last close.*)
   mutable c_clocal : bool; (*Ignore modem status lines.*)
   mutable c_isig : bool; (*Generate signal on INTR, QUIT, SUSP.*)
   mutable c_icanon : bool; (*Enable canonical processing (line buffering and editing)*)
   mutable c_noflsh : bool; (*Disable flush after INTR, QUIT, SUSP.*)
   mutable c_echo : bool; (*Echo input characters.*)
   mutable c_echoe : bool; (*Echo ERASE (to erase previous character).*)
   mutable c_echok : bool; (*Echo KILL (to erase the current line).*)
   mutable c_echonl : bool; (*Echo NL even if c_echo is not set.*)
   mutable c_vintr : char; (*Interrupt character (usually ctrl-C).*)
   mutable c_vquit : char; (*Quit character (usually ctrl-\).*)
   mutable c_verase : char; (*Erase character (usually DEL or ctrl-H).*)
   mutable c_vkill : char; (*Kill line character (usually ctrl-U).*)
   mutable c_veof : char; (*End-of-file character (usually ctrl-D).*)
   mutable c_veol : char; (*Alternate end-of-line char. (usually none).*)
   mutable c_vmin : int; (*Minimum number of characters to read before the read request is satisfied.*)
   mutable c_vtime : int; (*Maximum read wait (in 0.1s units).*)
   mutable c_vstart : char; (*Start character (usually ctrl-Q).*)
   mutable c_vstop : char; (*Stop character (usually ctrl-S).*)
} 
val tcgetattr : file_descr -> terminal_io
Return the status of the terminal referred to by the given file descriptor.
type setattr_when = Unix.setattr_when =
| TCSANOW
| TCSADRAIN
| TCSAFLUSH 
val tcsetattr : file_descr ->
       mode:setattr_when -> terminal_io -> unit
Set the status of the terminal referred to by the given file descriptor. The second argument indicates when the status change takes place: immediately (TCSANOW), when all pending output has been transmitted (TCSADRAIN), or after flushing all input that has been received but not read (TCSAFLUSH). TCSADRAIN is recommended when changing the output parameters; TCSAFLUSH, when changing the input parameters.
val tcsendbreak : file_descr -> duration:int -> unit
Send a break condition on the given file descriptor. The second argument is the duration of the break, in 0.1s units; 0 means standard duration (0.25s).
val tcdrain : file_descr -> unit
Waits until all output written on the given file descriptor has been transmitted.
type flush_queue = Unix.flush_queue =
| TCIFLUSH
| TCOFLUSH
| TCIOFLUSH 
val tcflush : file_descr -> mode:flush_queue -> unit
Discard data written on the given file descriptor but not yet transmitted, or data received but not yet read, depending on the second argument: TCIFLUSH flushes data received but not read, TCOFLUSH flushes data written but not transmitted, and TCIOFLUSH flushes both.
type flow_action = Unix.flow_action =
| TCOOFF
| TCOON
| TCIOFF
| TCION 
val tcflow : file_descr -> mode:flow_action -> unit
Suspend or restart reception or transmission of data on the given file descriptor, depending on the second argument: TCOOFF suspends output, TCOON restarts output, TCIOFF transmits a STOP character to suspend input, and TCION transmits a START character to restart input.
val setsid : unit -> int
Put the calling process in a new session and detach it from its controlling terminal.
ocaml-doc-4.01/ocaml.html/libref/type_Lexing.html0000644000175000017500000002504112214324152020214 0ustar i33173i33173 Lexing sig
  type position = {
    pos_fname : string;
    pos_lnum : int;
    pos_bol : int;
    pos_cnum : int;
  }
  val dummy_pos : Lexing.position
  type lexbuf = {
    refill_buff : Lexing.lexbuf -> unit;
    mutable lex_buffer : string;
    mutable lex_buffer_len : int;
    mutable lex_abs_pos : int;
    mutable lex_start_pos : int;
    mutable lex_curr_pos : int;
    mutable lex_last_pos : int;
    mutable lex_last_action : int;
    mutable lex_eof_reached : bool;
    mutable lex_mem : int array;
    mutable lex_start_p : Lexing.position;
    mutable lex_curr_p : Lexing.position;
  }
  val from_channel : Pervasives.in_channel -> Lexing.lexbuf
  val from_string : string -> Lexing.lexbuf
  val from_function : (string -> int -> int) -> Lexing.lexbuf
  val lexeme : Lexing.lexbuf -> string
  val lexeme_char : Lexing.lexbuf -> int -> char
  val lexeme_start : Lexing.lexbuf -> int
  val lexeme_end : Lexing.lexbuf -> int
  val lexeme_start_p : Lexing.lexbuf -> Lexing.position
  val lexeme_end_p : Lexing.lexbuf -> Lexing.position
  val new_line : Lexing.lexbuf -> unit
  val flush_input : Lexing.lexbuf -> unit
  val sub_lexeme : Lexing.lexbuf -> int -> int -> string
  val sub_lexeme_opt : Lexing.lexbuf -> int -> int -> string option
  val sub_lexeme_char : Lexing.lexbuf -> int -> char
  val sub_lexeme_char_opt : Lexing.lexbuf -> int -> char option
  type lex_tables = {
    lex_base : string;
    lex_backtrk : string;
    lex_default : string;
    lex_trans : string;
    lex_check : string;
    lex_base_code : string;
    lex_backtrk_code : string;
    lex_default_code : string;
    lex_trans_code : string;
    lex_check_code : string;
    lex_code : string;
  }
  val engine : Lexing.lex_tables -> int -> Lexing.lexbuf -> int
  val new_engine : Lexing.lex_tables -> int -> Lexing.lexbuf -> int
endocaml-doc-4.01/ocaml.html/libref/Tk.html0000644000175000017500000005335012214324167016315 0ustar i33173i33173 Tk
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Module Tk

module Tk: sig .. end
Basic functions and types for LablTk

Initialization and termination

val openTk : ?display:string -> ?clas:string -> unit -> Widget.toplevel Widget.widget
Initialize LablTk and open a toplevel window. display is described according to the X11 conventions. clas is used for the X11 resource mechanism.
val mainLoop : unit -> unit
Start the main event loop
val closeTk : unit -> unit
Quit the main loop and close all open windows.
val destroy : 'a Widget.widget -> unit
Destroy an individual widget.

Application wide commands

val update : unit -> unit
Synchronize display with internal state.
val appname_get : unit -> string
val appname_set : string -> unit
Get or set the application name.

Dimensions

type units = [ `Cm of float | `In of float | `Mm of float | `Pix of int | `Pt of float ] 
val pixels : units -> int
Converts various on-screen units to pixels, respective to the default display. Available units are pixels, centimeters, inches, millimeters and points

Widget layout commands

type anchor = [ `Center | `E | `N | `Ne | `Nw | `S | `Se | `Sw | `W ] 
type fillMode = [ `Both | `None | `X | `Y ] 
type side = [ `Bottom | `Left | `Right | `Top ] 
val pack : ?after:'a Widget.widget ->
       ?anchor:anchor ->
       ?before:'b Widget.widget ->
       ?expand:bool ->
       ?fill:fillMode ->
       ?inside:'c Widget.widget ->
       ?ipadx:int ->
       ?ipady:int ->
       ?padx:int -> ?pady:int -> ?side:side -> 'd Widget.widget list -> unit
Pack a widget inside its parent, using the standard layout engine.
val grid : ?column:int ->
       ?columnspan:int ->
       ?inside:'a Widget.widget ->
       ?ipadx:int ->
       ?ipady:int ->
       ?padx:int ->
       ?pady:int ->
       ?row:int -> ?rowspan:int -> ?sticky:string -> 'b Widget.widget list -> unit
Pack a widget inside its parent, using the grid layout engine.
type borderMode = [ `Ignore | `Inside | `Outside ] 
val place : ?anchor:anchor ->
       ?bordermode:borderMode ->
       ?height:int ->
       ?inside:'a Widget.widget ->
       ?relheight:float ->
       ?relwidth:float ->
       ?relx:float ->
       ?rely:float -> ?width:int -> ?x:int -> ?y:int -> 'b Widget.widget -> unit
Pack a widget inside its parent, at absolute coordinates.
val raise_window : ?above:'a Widget.widget -> 'b Widget.widget -> unit
val lower_window : ?below:'a Widget.widget -> 'b Widget.widget -> unit
Raise or lower the window associated to a widget.

Event handling

type modifier = [ `Alt
       | `Button1
       | `Button2
       | `Button3
       | `Button4
       | `Button5
       | `Control
       | `Double
       | `Lock
       | `Meta
       | `Mod1
       | `Mod2
       | `Mod3
       | `Mod4
       | `Mod5
       | `Shift
       | `Triple ] 
type event = [ `ButtonPress
       | `ButtonPressDetail of int
       | `ButtonRelease
       | `ButtonReleaseDetail of int
       | `Circulate
       | `ColorMap
       | `Configure
       | `Destroy
       | `Enter
       | `Expose
       | `FocusIn
       | `FocusOut
       | `Gravity
       | `KeyPress
       | `KeyPressDetail of string
       | `KeyRelease
       | `KeyReleaseDetail of string
       | `Leave
       | `Map
       | `Modified of modifier list * event
       | `Motion
       | `Property
       | `Reparent
       | `Unmap
       | `Visibility ]

An event can be either a basic X event, or modified by a key or mouse modifier.
type eventInfo = {
   mutable ev_Above : int;
   mutable ev_ButtonNumber : int;
   mutable ev_Count : int;
   mutable ev_Detail : string;
   mutable ev_Focus : bool;
   mutable ev_Height : int;
   mutable ev_KeyCode : int;
   mutable ev_Mode : string;
   mutable ev_OverrideRedirect : bool;
   mutable ev_Place : string;
   mutable ev_State : string;
   mutable ev_Time : int;
   mutable ev_Width : int;
   mutable ev_MouseX : int;
   mutable ev_MouseY : int;
   mutable ev_Char : string;
   mutable ev_BorderWidth : int;
   mutable ev_SendEvent : bool;
   mutable ev_KeySymString : string;
   mutable ev_KeySymInt : int;
   mutable ev_RootWindow : int;
   mutable ev_SubWindow : int;
   mutable ev_Type : int;
   mutable ev_Widget : Widget.any Widget.widget;
   mutable ev_RootX : int;
   mutable ev_RootY : int;
}
Event related information accessible in callbacks.
type eventField = [ `Above
       | `BorderWidth
       | `ButtonNumber
       | `Char
       | `Count
       | `Detail
       | `Focus
       | `Height
       | `KeyCode
       | `KeySymInt
       | `KeySymString
       | `Mode
       | `MouseX
       | `MouseY
       | `OverrideRedirect
       | `Place
       | `RootWindow
       | `RootX
       | `RootY
       | `SendEvent
       | `State
       | `SubWindow
       | `Time
       | `Type
       | `Widget
       | `Width ]

In order to access the above event information, one has to pass a list of required event fields to the bind function.
val bind : events:event list ->
       ?extend:bool ->
       ?breakable:bool ->
       ?fields:eventField list ->
       ?action:(eventInfo -> unit) -> 'a Widget.widget -> unit
Bind a succession of events on a widget to an action. If extend is true then then binding is added after existing ones, otherwise it replaces them. breakable should be true when break is to be called inside the action. action is called with the fields required set in an eventInfo structure. Other fields should not be accessed. If action is omitted then existing bindings are removed.
val bind_class : events:event list ->
       ?extend:bool ->
       ?breakable:bool ->
       ?fields:eventField list ->
       ?action:(eventInfo -> unit) -> ?on:'a Widget.widget -> string -> unit
Same thing for all widgets of a given class. If a widget is given with label ~on:, the binding will be removed as soon as it is destroyed.
val bind_tag : events:event list ->
       ?extend:bool ->
       ?breakable:bool ->
       ?fields:eventField list ->
       ?action:(eventInfo -> unit) -> ?on:'a Widget.widget -> string -> unit
Same thing for all widgets having a given tag
val break : unit -> unit
Used inside a bound action, do not call other actions after this one. This is only possible if this action was bound with ~breakable:true.
ocaml-doc-4.01/ocaml.html/libref/type_Ratio.html0000644000175000017500000004573612214324163020063 0ustar i33173i33173 Ratio sig
  type ratio
  val null_denominator : Ratio.ratio -> bool
  val numerator_ratio : Ratio.ratio -> Big_int.big_int
  val denominator_ratio : Ratio.ratio -> Big_int.big_int
  val sign_ratio : Ratio.ratio -> int
  val normalize_ratio : Ratio.ratio -> Ratio.ratio
  val cautious_normalize_ratio : Ratio.ratio -> Ratio.ratio
  val cautious_normalize_ratio_when_printing : Ratio.ratio -> Ratio.ratio
  val create_ratio : Big_int.big_int -> Big_int.big_int -> Ratio.ratio
  val create_normalized_ratio :
    Big_int.big_int -> Big_int.big_int -> Ratio.ratio
  val is_normalized_ratio : Ratio.ratio -> bool
  val report_sign_ratio : Ratio.ratio -> Big_int.big_int -> Big_int.big_int
  val abs_ratio : Ratio.ratio -> Ratio.ratio
  val is_integer_ratio : Ratio.ratio -> bool
  val add_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val minus_ratio : Ratio.ratio -> Ratio.ratio
  val add_int_ratio : int -> Ratio.ratio -> Ratio.ratio
  val add_big_int_ratio : Big_int.big_int -> Ratio.ratio -> Ratio.ratio
  val sub_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val mult_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val mult_int_ratio : int -> Ratio.ratio -> Ratio.ratio
  val mult_big_int_ratio : Big_int.big_int -> Ratio.ratio -> Ratio.ratio
  val square_ratio : Ratio.ratio -> Ratio.ratio
  val inverse_ratio : Ratio.ratio -> Ratio.ratio
  val div_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val integer_ratio : Ratio.ratio -> Big_int.big_int
  val floor_ratio : Ratio.ratio -> Big_int.big_int
  val round_ratio : Ratio.ratio -> Big_int.big_int
  val ceiling_ratio : Ratio.ratio -> Big_int.big_int
  val eq_ratio : Ratio.ratio -> Ratio.ratio -> bool
  val compare_ratio : Ratio.ratio -> Ratio.ratio -> int
  val lt_ratio : Ratio.ratio -> Ratio.ratio -> bool
  val le_ratio : Ratio.ratio -> Ratio.ratio -> bool
  val gt_ratio : Ratio.ratio -> Ratio.ratio -> bool
  val ge_ratio : Ratio.ratio -> Ratio.ratio -> bool
  val max_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val min_ratio : Ratio.ratio -> Ratio.ratio -> Ratio.ratio
  val eq_big_int_ratio : Big_int.big_int -> Ratio.ratio -> bool
  val compare_big_int_ratio : Big_int.big_int -> Ratio.ratio -> int
  val lt_big_int_ratio : Big_int.big_int -> Ratio.ratio -> bool
  val le_big_int_ratio : Big_int.big_int -> Ratio.ratio -> bool
  val gt_big_int_ratio : Big_int.big_int -> Ratio.ratio -> bool
  val ge_big_int_ratio : Big_int.big_int -> Ratio.ratio -> bool
  val int_of_ratio : Ratio.ratio -> int
  val ratio_of_int : int -> Ratio.ratio
  val ratio_of_nat : Nat.nat -> Ratio.ratio
  val nat_of_ratio : Ratio.ratio -> Nat.nat
  val ratio_of_big_int : Big_int.big_int -> Ratio.ratio
  val big_int_of_ratio : Ratio.ratio -> Big_int.big_int
  val div_int_ratio : int -> Ratio.ratio -> Ratio.ratio
  val div_ratio_int : Ratio.ratio -> int -> Ratio.ratio
  val div_big_int_ratio : Big_int.big_int -> Ratio.ratio -> Ratio.ratio
  val div_ratio_big_int : Ratio.ratio -> Big_int.big_int -> Ratio.ratio
  val approx_ratio_fix : int -> Ratio.ratio -> string
  val approx_ratio_exp : int -> Ratio.ratio -> string
  val float_of_rational_string : Ratio.ratio -> string
  val string_of_ratio : Ratio.ratio -> string
  val ratio_of_string : string -> Ratio.ratio
  val float_of_ratio : Ratio.ratio -> float
  val power_ratio_positive_int : Ratio.ratio -> int -> Ratio.ratio
  val power_ratio_positive_big_int :
    Ratio.ratio -> Big_int.big_int -> Ratio.ratio
endocaml-doc-4.01/ocaml.html/libref/type_Weak.Make.html0000644000175000017500000001570312214324173020540 0ustar i33173i33173 Weak.Make functor (H : Hashtbl.HashedType->
  sig
    type data = H.t
    type t
    val create : int -> t
    val clear : t -> unit
    val merge : t -> data -> data
    val add : t -> data -> unit
    val remove : t -> data -> unit
    val find : t -> data -> data
    val find_all : t -> data -> data list
    val mem : t -> data -> bool
    val iter : (data -> unit) -> t -> unit
    val fold : (data -> '-> 'a) -> t -> '-> 'a
    val count : t -> int
    val stats : t -> int * int * int * int * int * int
  endocaml-doc-4.01/ocaml.html/libref/Hashtbl.Make.html0000644000175000017500000002161612214324151020171 0ustar i33173i33173 Hashtbl.Make
 Up  Next

Functor Hashtbl.Make

module Make: 
functor (H : HashedType) -> S  with type key = H.t
Functor building an implementation of the hashtable structure. The functor Hashtbl.Make returns a structure containing a type key of keys and a type 'a t of hash tables associating data of type 'a to keys of type key. The operations perform similarly to those of the generic interface, but use the hashing and equality functions specified in the functor argument H instead of generic equality and hashing. Since the hash function is not seeded, the create operation of the result structure always returns non-randomized hash tables.
Parameters:
H : HashedType 
type key 
type 'a t 
val create : int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
val stats : 'a t -> Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/type_Set.Make.html0000644000175000017500000002240412214324164020400 0ustar i33173i33173 Set.Make functor (Ord : OrderedType->
  sig
    type elt = Ord.t
    type t
    val empty : t
    val is_empty : t -> bool
    val mem : elt -> t -> bool
    val add : elt -> t -> t
    val singleton : elt -> t
    val remove : elt -> t -> t
    val union : t -> t -> t
    val inter : t -> t -> t
    val diff : t -> t -> t
    val compare : t -> t -> int
    val equal : t -> t -> bool
    val subset : t -> t -> bool
    val iter : (elt -> unit) -> t -> unit
    val fold : (elt -> '-> 'a) -> t -> '-> 'a
    val for_all : (elt -> bool) -> t -> bool
    val exists : (elt -> bool) -> t -> bool
    val filter : (elt -> bool) -> t -> t
    val partition : (elt -> bool) -> t -> t * t
    val cardinal : t -> int
    val elements : t -> elt list
    val min_elt : t -> elt
    val max_elt : t -> elt
    val choose : t -> elt
    val split : elt -> t -> t * bool * t
    val find : elt -> t -> elt
  endocaml-doc-4.01/ocaml.html/libref/type_Gc.html0000644000175000017500000002216712214324150017323 0ustar i33173i33173 Gc sig
  type stat = {
    minor_words : float;
    promoted_words : float;
    major_words : float;
    minor_collections : int;
    major_collections : int;
    heap_words : int;
    heap_chunks : int;
    live_words : int;
    live_blocks : int;
    free_words : int;
    free_blocks : int;
    largest_free : int;
    fragments : int;
    compactions : int;
    top_heap_words : int;
    stack_size : int;
  }
  type control = {
    mutable minor_heap_size : int;
    mutable major_heap_increment : int;
    mutable space_overhead : int;
    mutable verbose : int;
    mutable max_overhead : int;
    mutable stack_limit : int;
    mutable allocation_policy : int;
  }
  external stat : unit -> Gc.stat = "caml_gc_stat"
  external quick_stat : unit -> Gc.stat = "caml_gc_quick_stat"
  external counters : unit -> float * float * float = "caml_gc_counters"
  external get : unit -> Gc.control = "caml_gc_get"
  external set : Gc.control -> unit = "caml_gc_set"
  external minor : unit -> unit = "caml_gc_minor"
  external major_slice : int -> int = "caml_gc_major_slice"
  external major : unit -> unit = "caml_gc_major"
  external full_major : unit -> unit = "caml_gc_full_major"
  external compact : unit -> unit = "caml_gc_compaction"
  val print_stat : Pervasives.out_channel -> unit
  val allocated_bytes : unit -> float
  val finalise : ('-> unit) -> '-> unit
  val finalise_release : unit -> unit
  type alarm
  val create_alarm : (unit -> unit) -> Gc.alarm
  val delete_alarm : Gc.alarm -> unit
endocaml-doc-4.01/ocaml.html/libref/Stack.html0000644000175000017500000002002512214324164016772 0ustar i33173i33173 Stack
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Module Stack

module Stack: sig .. end
Last-in first-out stacks.

This module implements stacks (LIFOs), with in-place modification.

type 'a t
The type of stacks containing elements of type 'a.
exception Empty
Raised when Stack.pop or Stack.top is applied to an empty stack.
val create : unit -> 'a t
Return a new stack, initially empty.
val push : 'a -> 'a t -> unit
push x s adds the element x at the top of stack s.
val pop : 'a t -> 'a
pop s removes and returns the topmost element in stack s, or raises Empty if the stack is empty.
val top : 'a t -> 'a
top s returns the topmost element in stack s, or raises Empty if the stack is empty.
val clear : 'a t -> unit
Discard all elements from a stack.
val copy : 'a t -> 'a t
Return a copy of the given stack.
val is_empty : 'a t -> bool
Return true if the given stack is empty, false otherwise.
val length : 'a t -> int
Return the number of elements in a stack.
val iter : ('a -> unit) -> 'a t -> unit
iter f s applies f in turn to all elements of s, from the element at the top of the stack to the element at the bottom of the stack. The stack itself is unchanged.
ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.html0000644000175000017500000002432612214324154021345 0ustar i33173i33173 MoreLabels.Hashtbl
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Module MoreLabels.Hashtbl

module Hashtbl: sig .. end
type ('a, 'b) t = ('a, 'b) Hashtbl.t 
val create : ?random:bool -> int -> ('a, 'b) t
val clear : ('a, 'b) t -> unit
val reset : ('a, 'b) t -> unit
val copy : ('a, 'b) t -> ('a, 'b) t
val add : ('a, 'b) t -> key:'a -> data:'b -> unit
val find : ('a, 'b) t -> 'a -> 'b
val find_all : ('a, 'b) t -> 'a -> 'b list
val mem : ('a, 'b) t -> 'a -> bool
val remove : ('a, 'b) t -> 'a -> unit
val replace : ('a, 'b) t -> key:'a -> data:'b -> unit
val iter : f:(key:'a -> data:'b -> unit) -> ('a, 'b) t -> unit
val fold : f:(key:'a -> data:'b -> 'c -> 'c) ->
       ('a, 'b) t -> init:'c -> 'c
val length : ('a, 'b) t -> int
val randomize : unit -> unit
type statistics = Hashtbl.statistics 
val stats : ('a, 'b) t -> statistics
module type HashedType = Hashtbl.HashedType
module type SeededHashedType = Hashtbl.SeededHashedType
module type S = sig .. end
module type SeededS = sig .. end
module Make: 
functor (H : HashedType) -> S  with type key = H.t
module MakeSeeded: 
functor (H : SeededHashedType) -> SeededS  with type key = H.t
val hash : 'a -> int
val seeded_hash : int -> 'a -> int
val hash_param : int -> int -> 'a -> int
val seeded_hash_param : int -> int -> int -> 'a -> int
ocaml-doc-4.01/ocaml.html/libref/Bigarray.Array3.html0000644000175000017500000004352512214324145020636 0ustar i33173i33173 Bigarray.Array3
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Module Bigarray.Array3

module Array3: sig .. end
Three-dimensional arrays. The Array3 structure provides operations similar to those of Bigarray.Genarray, but specialized to the case of three-dimensional arrays.
type ('a, 'b, 'c) t
The type of three-dimensional big arrays whose elements have OCaml type 'a, representation kind 'b, and memory layout 'c.
val create : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> int -> int -> int -> ('a, 'b, 'c) t
Array3.create kind layout dim1 dim2 dim3 returns a new bigarray of three dimension, whose size is dim1 in the first dimension, dim2 in the second dimension, and dim3 in the third. kind and layout determine the array element kind and the array layout as described for Bigarray.Genarray.create.
val dim1 : ('a, 'b, 'c) t -> int
Return the first dimension of the given three-dimensional big array.
val dim2 : ('a, 'b, 'c) t -> int
Return the second dimension of the given three-dimensional big array.
val dim3 : ('a, 'b, 'c) t -> int
Return the third dimension of the given three-dimensional big array.
val kind : ('a, 'b, 'c) t -> ('a, 'b) Bigarray.kind
Return the kind of the given big array.
val layout : ('a, 'b, 'c) t -> 'c Bigarray.layout
Return the layout of the given big array.
val get : ('a, 'b, 'c) t -> int -> int -> int -> 'a
Array3.get a x y z, also written a.{x,y,z}, returns the element of a at coordinates (x, y, z). x, y and z must be within the bounds of a, as described for Bigarray.Genarray.get; otherwise, Invalid_argument is raised.
val set : ('a, 'b, 'c) t -> int -> int -> int -> 'a -> unit
Array3.set a x y v, or alternatively a.{x,y,z} <- v, stores the value v at coordinates (x, y, z) in a. x, y and z must be within the bounds of a, as described for Bigarray.Genarray.set; otherwise, Invalid_argument is raised.
val sub_left : ('a, 'b, Bigarray.c_layout) t ->
       int -> int -> ('a, 'b, Bigarray.c_layout) t
Extract a three-dimensional sub-array of the given three-dimensional big array by restricting the first dimension. See Bigarray.Genarray.sub_left for more details. Array3.sub_left applies only to arrays with C layout.
val sub_right : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> int -> ('a, 'b, Bigarray.fortran_layout) t
Extract a three-dimensional sub-array of the given three-dimensional big array by restricting the second dimension. See Bigarray.Genarray.sub_right for more details. Array3.sub_right applies only to arrays with Fortran layout.
val slice_left_1 : ('a, 'b, Bigarray.c_layout) t ->
       int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
Extract a one-dimensional slice of the given three-dimensional big array by fixing the first two coordinates. The integer parameters are the coordinates of the slice to extract. See Bigarray.Genarray.slice_left for more details. Array3.slice_left_1 applies only to arrays with C layout.
val slice_right_1 : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
Extract a one-dimensional slice of the given three-dimensional big array by fixing the last two coordinates. The integer parameters are the coordinates of the slice to extract. See Bigarray.Genarray.slice_right for more details. Array3.slice_right_1 applies only to arrays with Fortran layout.
val slice_left_2 : ('a, 'b, Bigarray.c_layout) t ->
       int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t
Extract a two-dimensional slice of the given three-dimensional big array by fixing the first coordinate. The integer parameter is the first coordinate of the slice to extract. See Bigarray.Genarray.slice_left for more details. Array3.slice_left_2 applies only to arrays with C layout.
val slice_right_2 : ('a, 'b, Bigarray.fortran_layout) t ->
       int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t
Extract a two-dimensional slice of the given three-dimensional big array by fixing the last coordinate. The integer parameter is the coordinate of the slice to extract. See Bigarray.Genarray.slice_right for more details. Array3.slice_right_2 applies only to arrays with Fortran layout.
val blit : ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
Copy the first big array to the second big array. See Bigarray.Genarray.blit for more details.
val fill : ('a, 'b, 'c) t -> 'a -> unit
Fill the given big array with the given value. See Bigarray.Genarray.fill for more details.
val of_array : ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout -> 'a array array array -> ('a, 'b, 'c) t
Build a three-dimensional big array initialized from the given array of arrays of arrays.
val map_file : Unix.file_descr ->
       ?pos:int64 ->
       ('a, 'b) Bigarray.kind ->
       'c Bigarray.layout ->
       bool -> int -> int -> int -> ('a, 'b, 'c) t
Memory mapping of a file as a three-dimensional big array. See Bigarray.Genarray.map_file for more details.
val unsafe_get : ('a, 'b, 'c) t -> int -> int -> int -> 'a
Like Bigarray.Array3.get, but bounds checking is not always performed.
val unsafe_set : ('a, 'b, 'c) t -> int -> int -> int -> 'a -> unit
Like Bigarray.Array3.set, but bounds checking is not always performed.
ocaml-doc-4.01/ocaml.html/libref/type_Weak.html0000644000175000017500000003541112214324173017662 0ustar i33173i33173 Weak sig
  type 'a t
  val create : int -> 'Weak.t
  val length : 'Weak.t -> int
  val set : 'Weak.t -> int -> 'a option -> unit
  val get : 'Weak.t -> int -> 'a option
  val get_copy : 'Weak.t -> int -> 'a option
  val check : 'Weak.t -> int -> bool
  val fill : 'Weak.t -> int -> int -> 'a option -> unit
  val blit : 'Weak.t -> int -> 'Weak.t -> int -> int -> unit
  module type S =
    sig
      type data
      type t
      val create : int -> Weak.S.t
      val clear : Weak.S.t -> unit
      val merge : Weak.S.t -> Weak.S.data -> Weak.S.data
      val add : Weak.S.t -> Weak.S.data -> unit
      val remove : Weak.S.t -> Weak.S.data -> unit
      val find : Weak.S.t -> Weak.S.data -> Weak.S.data
      val find_all : Weak.S.t -> Weak.S.data -> Weak.S.data list
      val mem : Weak.S.t -> Weak.S.data -> bool
      val iter : (Weak.S.data -> unit) -> Weak.S.t -> unit
      val fold : (Weak.S.data -> '-> 'a) -> Weak.S.t -> '-> 'a
      val count : Weak.S.t -> int
      val stats : Weak.S.t -> int * int * int * int * int * int
    end
  module Make :
    functor (H : Hashtbl.HashedType->
      sig
        type data = H.t
        type t
        val create : int -> t
        val clear : t -> unit
        val merge : t -> data -> data
        val add : t -> data -> unit
        val remove : t -> data -> unit
        val find : t -> data -> data
        val find_all : t -> data -> data list
        val mem : t -> data -> bool
        val iter : (data -> unit) -> t -> unit
        val fold : (data -> '-> 'a) -> t -> '-> 'a
        val count : t -> int
        val stats : t -> int * int * int * int * int * int
      end
endocaml-doc-4.01/ocaml.html/libref/type_Int64.html0000644000175000017500000002525412214324152017700 0ustar i33173i33173 Int64 sig
  val zero : int64
  val one : int64
  val minus_one : int64
  external neg : int64 -> int64 = "%int64_neg"
  external add : int64 -> int64 -> int64 = "%int64_add"
  external sub : int64 -> int64 -> int64 = "%int64_sub"
  external mul : int64 -> int64 -> int64 = "%int64_mul"
  external div : int64 -> int64 -> int64 = "%int64_div"
  external rem : int64 -> int64 -> int64 = "%int64_mod"
  val succ : int64 -> int64
  val pred : int64 -> int64
  val abs : int64 -> int64
  val max_int : int64
  val min_int : int64
  external logand : int64 -> int64 -> int64 = "%int64_and"
  external logor : int64 -> int64 -> int64 = "%int64_or"
  external logxor : int64 -> int64 -> int64 = "%int64_xor"
  val lognot : int64 -> int64
  external shift_left : int64 -> int -> int64 = "%int64_lsl"
  external shift_right : int64 -> int -> int64 = "%int64_asr"
  external shift_right_logical : int64 -> int -> int64 = "%int64_lsr"
  external of_int : int -> int64 = "%int64_of_int"
  external to_int : int64 -> int = "%int64_to_int"
  external of_float : float -> int64 = "caml_int64_of_float"
  external to_float : int64 -> float = "caml_int64_to_float"
  external of_int32 : int32 -> int64 = "%int64_of_int32"
  external to_int32 : int64 -> int32 = "%int64_to_int32"
  external of_nativeint : nativeint -> int64 = "%int64_of_nativeint"
  external to_nativeint : int64 -> nativeint = "%int64_to_nativeint"
  external of_string : string -> int64 = "caml_int64_of_string"
  val to_string : int64 -> string
  external bits_of_float : float -> int64 = "caml_int64_bits_of_float"
  external float_of_bits : int64 -> float = "caml_int64_float_of_bits"
  type t = int64
  val compare : Int64.t -> Int64.t -> int
  external format : string -> int64 -> string = "caml_int64_format"
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.MakeSeeded.html0000644000175000017500000002120712214324154023326 0ustar i33173i33173 MoreLabels.Hashtbl.MakeSeeded
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Functor MoreLabels.Hashtbl.MakeSeeded

module MakeSeeded: 
functor (H : SeededHashedType) -> SeededS  with type key = H.t
Parameters:
H : SeededHashedType 
type key 
type 'a t 
val create : ?random:bool -> int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t ->
       key:key -> data:'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t ->
       key:key -> data:'a -> unit
val mem : 'a t -> key -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val length : 'a t -> int
val stats : 'a t -> MoreLabels.Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/index_values.html0000644000175000017500000160473012214324175020431 0ustar i33173i33173 Index of values
 Up  

Index of values


( * ) [Pervasives]
Integer multiplication.
( ** ) [Pervasives]
Exponentiation.
( **/ ) [Num]
Same as Num.power_num.
( *. ) [Pervasives]
Floating-point multiplication
( */ ) [Num]
Same as Num.mult_num.
(!) [Pervasives]
!r returns the current contents of reference r.
(!=) [Pervasives]
Negation of (==).
(&&) [Pervasives]
The boolean 'and'.
(&) [Pervasives]
(+) [Pervasives]
Integer addition.
(+.) [Pervasives]
Floating-point addition
(+/) [Num]
Same as Num.add_num.
(-) [Pervasives]
Integer subtraction.
(-.) [Pervasives]
Floating-point subtraction
(-/) [Num]
Same as Num.sub_num.
(/) [Pervasives]
Integer division.
(/.) [Pervasives]
Floating-point division.
(//) [Num]
Same as Num.div_num.
(:=) [Pervasives]
r := a stores the value of a in reference r.
(<) [Pervasives]
See (>=).
(</) [Num]
(<=) [Pervasives]
See (>=).
(<=/) [Num]
(<>) [Pervasives]
Negation of (=).
(<>/) [Num]
(=) [Pervasives]
e1 = e2 tests for structural equality of e1 and e2.
(=/) [Num]
(==) [Pervasives]
e1 == e2 tests for physical equality of e1 and e2.
(>) [Pervasives]
See (>=).
(>/) [Num]
(>=) [Pervasives]
Structural ordering functions.
(>=/) [Num]
(@) [Pervasives]
List concatenation.
(@@) [Pervasives]
Application operator: g @@ f @@ x is exactly equivalent to g (f (x)).
(^) [Pervasives]
String concatenation.
(^^) [Pervasives]
f1 ^^ f2 catenates format strings f1 and f2.
(asr) [Pervasives]
n asr m shifts n to the right by m bits.
(land) [Pervasives]
Bitwise logical and.
(lor) [Pervasives]
Bitwise logical or.
(lsl) [Pervasives]
n lsl m shifts n to the left by m bits.
(lsr) [Pervasives]
n lsr m shifts n to the right by m bits.
(lxor) [Pervasives]
Bitwise logical exclusive or.
(mod) [Pervasives]
Integer remainder.
(or) [Pervasives]
(|>) [Pervasives]
Reverse-application operator: x |> f |> g is exactly equivalent to g (f (x)).
(||) [Pervasives]
The boolean 'or'.
(~+) [Pervasives]
Unary addition.
(~+.) [Pervasives]
Unary addition.
(~-) [Pervasives]
Unary negation.
(~-.) [Pervasives]
Unary negation.

A
abs [Pervasives]
Return the absolute value of the argument.
abs [Nativeint]
Return the absolute value of its argument.
abs [Int64]
Return the absolute value of its argument.
abs [Int32]
Return the absolute value of its argument.
abs_big_int [Big_int]
Absolute value.
abs_float [Pervasives]
abs_float f returns the absolute value of f.
abs_num [Num]
Absolute value.
abstract_tag [Obj]
accept [UnixLabels]
Accept connections on the given socket.
accept [Unix]
Accept connections on the given socket.
accept [ThreadUnix]
access [UnixLabels]
Check that the process has the given permissions over the named file.
access [Unix]
Check that the process has the given permissions over the named file.
acos [Pervasives]
Arc cosine.
adapt_filename [Dynlink]
In bytecode, the identity function.
add [Weak.S]
add t x adds x to t.
add [Set.S]
add x s returns a set containing all elements of s, plus x.
add [Queue]
add x q adds the element x at the end of the queue q.
add [Nativeint]
Addition.
add [MoreLabels.Set.S]
add [MoreLabels.Map.S]
add [MoreLabels.Hashtbl.SeededS]
add [MoreLabels.Hashtbl.S]
add [MoreLabels.Hashtbl]
add [Map.S]
add x y m returns a map containing the same bindings as m, plus a binding of x to y.
add [Int64]
Addition.
add [Int32]
Addition.
add [Hashtbl.SeededS]
add [Hashtbl.S]
add [Hashtbl]
Hashtbl.add tbl x y adds a binding of x to y in table tbl.
add [Complex]
Addition
add_available_units [Dynlink]
Same as Dynlink.add_interfaces, but instead of searching .cmi files to find the unit interfaces, uses the interface digests given for each unit.
add_big_int [Big_int]
Addition.
add_buffer [Buffer]
add_buffer b1 b2 appends the current contents of buffer b2 at the end of buffer b1.
add_channel [Buffer]
add_channel b ic n reads exactly n character from the input channel ic and stores them at the end of buffer b.
add_char [Buffer]
add_char b c appends the character c at the end of the buffer b.
add_initializer [CamlinternalOO]
add_int_big_int [Big_int]
Addition of a small integer to a big integer.
add_interfaces [Dynlink]
add_interfaces units path grants dynamically-linked object files access to the compilation units named in list units.
add_num [Num]
Addition
add_offset [Obj]
add_string [Buffer]
add_string b s appends the string s at the end of the buffer b.
add_substitute [Buffer]
add_substitute b f s appends the string pattern s at the end of the buffer b with substitution.
add_substring [Buffer]
add_substring b s ofs len takes len characters from offset ofs in string s and appends them at the end of the buffer b.
alarm [UnixLabels]
Schedule a SIGALRM signal after the given number of seconds.
alarm [Unix]
Schedule a SIGALRM signal after the given number of seconds.
align [Arg]
Align the documentation strings by inserting spaces at the first space, according to the length of the keyword.
allocated_bytes [Gc]
Return the total number of bytes allocated since the program was started.
allow_only [Dynlink]
allow_only units restricts the compilation units that dynamically-linked units can reference: it only allows references to the units named in list units.
allow_unsafe_modules [Dynlink]
Govern whether unsafe object files are allowed to be dynamically linked.
always [Event]
always v returns an event that is always ready for synchronization.
and_big_int [Big_int]
Bitwise logical 'and'.
append [StdLabels.List]
append [StdLabels.Array]
append [ListLabels]
Catenate two lists.
append [List]
Catenate two lists.
append [ArrayLabels]
Array.append v1 v2 returns a fresh array containing the concatenation of the arrays v1 and v2.
append [Array]
Array.append v1 v2 returns a fresh array containing the concatenation of the arrays v1 and v2.
appname_get [Tk]
appname_set [Tk]
Get or set the application name.
approx_num_exp [Num]
Approximate a number by a decimal.
approx_num_fix [Num]
See Num.approx_num_exp.
arg [Complex]
Argument.
argv [Sys]
The command line arguments given to the process.
arith_status [Arith_status]
Print the current status of the arithmetic flags.
array [Sort]
Sort an array in increasing order according to an ordering predicate.
array1_of_genarray [Bigarray]
Return the one-dimensional big array corresponding to the given generic big array.
array2_of_genarray [Bigarray]
Return the two-dimensional big array corresponding to the given generic big array.
array3_of_genarray [Bigarray]
Return the three-dimensional big array corresponding to the given generic big array.
asin [Pervasives]
Arc sine.
asprintf [Format]
Same as printf above, but instead of printing on a formatter, returns a string containing the result of formatting the arguments.
assoc [StdLabels.List]
assoc [ListLabels]
assoc a l returns the value associated with key a in the list of pairs l.
assoc [List]
assoc a l returns the value associated with key a in the list of pairs l.
assq [StdLabels.List]
assq [ListLabels]
Same as ListLabels.assoc, but uses physical equality instead of structural equality to compare keys.
assq [List]
Same as List.assoc, but uses physical equality instead of structural equality to compare keys.
at_exit [Pervasives]
Register the given function to be called at program termination time.
atan [Pervasives]
Arc tangent.
atan2 [Pervasives]
atan2 y x returns the arc tangent of y /. x.
auto_synchronize [Graphics]
By default, drawing takes place both on the window displayed on screen, and in a memory area (the 'backing store').

B
background [Graphics]
See Graphics.foreground.
backtrace_status [Printexc]
Printexc.backtrace_status() returns true if exception backtraces are currently recorded, false if not.
basename [Filename]
Split a file name into directory name / base file name.
beginning_of_input [Scanf.Scanning]
Scanning.beginning_of_input ic tests the beginning of input condition of the given formatted input channel.
big_endian [Sys]
Whether the machine currently executing the Caml program is big-endian.
big_int_of_int [Big_int]
Convert a small integer to a big integer.
big_int_of_int32 [Big_int]
Convert a 32-bit integer to a big integer.
big_int_of_int64 [Big_int]
Convert a 64-bit integer to a big integer.
big_int_of_nativeint [Big_int]
Convert a native integer to a big integer.
big_int_of_num [Num]
big_int_of_string [Big_int]
Convert a string to a big integer, in decimal.
bind [UnixLabels]
Bind a socket to an address.
bind [Unix]
Bind a socket to an address.
bind [Tk]
Bind a succession of events on a widget to an action.
bind_class [Tk]
Same thing for all widgets of a given class.
bind_tag [Tk]
Same thing for all widgets having a given tag
bindings [MoreLabels.Map.S]
bindings [Map.S]
Return the list of all bindings of the given map.
bits [Random.State]
bits [Random]
Return 30 random bits in a nonnegative integer.
bits_of_float [Int64]
Return the internal representation of the given float according to the IEEE 754 floating-point 'double format' bit layout.
bits_of_float [Int32]
Return the internal representation of the given float according to the IEEE 754 floating-point 'single format' bit layout.
black [Graphics]
blit [Weak]
Weak.blit ar1 off1 ar2 off2 len copies len weak pointers from ar1 (starting at off1) to ar2 (starting at off2).
blit [StringLabels]
String.blit src srcoff dst dstoff len copies len characters from string src, starting at character number srcoff, to string dst, starting at character number dstoff.
blit [String]
String.blit src srcoff dst dstoff len copies len characters from string src, starting at character number srcoff, to string dst, starting at character number dstoff.
blit [StdLabels.String]
blit [StdLabels.Array]
blit [Buffer]
Buffer.blit src srcoff dst dstoff len copies len characters from the current contents of the buffer src, starting at offset srcoff to string dst, starting at character dstoff.
blit [Bigarray.Array3]
Copy the first big array to the second big array.
blit [Bigarray.Array2]
Copy the first big array to the second big array.
blit [Bigarray.Array1]
Copy the first big array to the second big array.
blit [Bigarray.Genarray]
Copy all elements of a big array in another big array.
blit [ArrayLabels]
Array.blit v1 o1 v2 o2 len copies len elements from array v1, starting at element number o1, to array v2, starting at element number o2.
blit [Array]
Array.blit v1 o1 v2 o2 len copies len elements from array v1, starting at element number o1, to array v2, starting at element number o2.
blit_image [Graphics]
blit_image img x y copies screen pixels into the image img, modifying img in-place.
blue [Graphics]
bool [Random.State]
These functions are the same as the basic functions, except that they use (and update) the given PRNG state instead of the default one.
bool [Random]
Random.bool () returns true or false with probability 0.5 each.
bool_of_string [Pervasives]
Convert the given string to a boolean.
bounded_full_split [Str]
Same as Str.bounded_split_delim, but returns the delimiters as well as the substrings contained between delimiters.
bounded_split [Str]
Same as Str.split, but splits into at most n substrings, where n is the extra integer parameter.
bounded_split_delim [Str]
Same as Str.bounded_split, but occurrences of the delimiter at the beginning and at the end of the string are recognized and returned as empty strings in the result.
bprintf [Printf]
Same as Printf.fprintf, but instead of printing on an output channel, append the formatted arguments to the given extensible buffer (see module Buffer).
bprintf [Format]
A deprecated and error prone function.
break [Tk]
Used inside a bound action, do not call other actions after this one.
broadcast [Condition]
broadcast c restarts all processes waiting on the condition variable c.
bscanf [Scanf]
bscanf ic fmt r1 ... rN f reads arguments for the function f, from the formatted input channel ic, according to the format string fmt, and applies f to these values.
bscanf_format [Scanf]
bscanf_format ic fmt f reads a format string token from the formatted input channel ic, according to the given format string fmt, and applies f to the resulting format string value.
button_down [Graphics]
Return true if the mouse button is pressed, false otherwise.

C
c_layout [Bigarray]
capitalize [StringLabels]
Return a copy of the argument, with the first character set to uppercase.
capitalize [String]
Return a copy of the argument, with the first character set to uppercase.
capitalize [StdLabels.String]
cardinal [Set.S]
Return the number of elements of a set.
cardinal [MoreLabels.Set.S]
cardinal [MoreLabels.Map.S]
cardinal [Map.S]
Return the number of bindings of a map.
catch [Printexc]
Printexc.catch fn x is similar to Printexc.print, but aborts the program with exit code 2 after printing the uncaught exception.
catch_break [Sys]
catch_break governs whether interactive interrupt (ctrl-C) terminates the program or raises the Break exception.
ceil [Pervasives]
Round above to an integer value.
ceiling_num [Num]
ceiling_num n returns the smallest integer bigger or equal to n.
channel [Digest]
If len is nonnegative, Digest.channel ic len reads len characters from channel ic and returns their digest, or raises End_of_file if end-of-file is reached before len characters are read.
char [Bigarray]
As shown by the types of the values above, big arrays of kind float32_elt and float64_elt are accessed using the OCaml type float.
char_of_int [Pervasives]
Return the character with the given ASCII code.
chdir [UnixLabels]
Change the process working directory.
chdir [Unix]
Change the process working directory.
chdir [Sys]
Change the current working directory of the process.
check [Weak]
Weak.check ar n returns true if the nth cell of ar is full, false if it is empty.
check_suffix [Filename]
check_suffix name suff returns true if the filename name ends with the suffix suff.
chmod [UnixLabels]
Change the permissions of the named file.
chmod [Unix]
Change the permissions of the named file.
choose [Set.S]
Return one element of the given set, or raise Not_found if the set is empty.
choose [MoreLabels.Set.S]
choose [MoreLabels.Map.S]
choose [Map.S]
Return one binding of the given map, or raise Not_found if the map is empty.
choose [Event]
choose evl returns the event that is the alternative of all the events in the list evl.
chop_extension [Filename]
Return the given file name without its extension.
chop_suffix [Filename]
chop_suffix name suff removes the suffix suff from the filename name.
chown [UnixLabels]
Change the owner uid and owner gid of the named file.
chown [Unix]
Change the owner uid and owner gid of the named file.
chr [Char]
Return the character with the given ASCII code.
chroot [UnixLabels]
Change the process root directory.
chroot [Unix]
Change the process root directory.
classify_float [Pervasives]
Return the class of the given floating-point number: normal, subnormal, zero, infinite, or not a number.
clear [Weak.S]
Remove all elements from the table.
clear [Stack]
Discard all elements from a stack.
clear [Queue]
Discard all elements from a queue.
clear [MoreLabels.Hashtbl.SeededS]
clear [MoreLabels.Hashtbl.S]
clear [MoreLabels.Hashtbl]
clear [Hashtbl.SeededS]
clear [Hashtbl.S]
clear [Hashtbl]
Empty a hash table.
clear [Buffer]
Empty the buffer.
clear_available_units [Dynlink]
Empty the list of compilation units accessible to dynamically-linked programs.
clear_close_on_exec [UnixLabels]
Clear the ``close-on-exec'' flag on the given descriptor.
clear_close_on_exec [Unix]
Clear the ``close-on-exec'' flag on the given descriptor.
clear_graph [Graphics]
Erase the graphics window.
clear_nonblock [UnixLabels]
Clear the ``non-blocking'' flag on the given descriptor.
clear_nonblock [Unix]
Clear the ``non-blocking'' flag on the given descriptor.
clear_parser [Parsing]
Empty the parser stack.
close [UnixLabels]
Close a file descriptor.
close [Unix]
Close a file descriptor.
closeTk [Tk]
Quit the main loop and close all open windows.
close_box [Format]
Closes the most recently opened pretty-printing box.
close_graph [Graphics]
Delete the graphics window or switch the screen back to text mode.
close_in [Scanf.Scanning]
Closes the Pervasives.in_channel associated with the given Scanning.in_channel formatted input channel.
close_in [Pervasives]
Close the given channel.
close_in_noerr [Pervasives]
Same as close_in, but ignore all errors.
close_out [Pervasives]
Close the given channel, flushing all buffered write operations.
close_out_noerr [Pervasives]
Same as close_out, but ignore all errors.
close_process [UnixLabels]
Close channels opened by UnixLabels.open_process, wait for the associated command to terminate, and return its termination status.
close_process [Unix]
Close channels opened by Unix.open_process, wait for the associated command to terminate, and return its termination status.
close_process_full [UnixLabels]
Close channels opened by UnixLabels.open_process_full, wait for the associated command to terminate, and return its termination status.
close_process_full [Unix]
Close channels opened by Unix.open_process_full, wait for the associated command to terminate, and return its termination status.
close_process_in [UnixLabels]
Close channels opened by UnixLabels.open_process_in, wait for the associated command to terminate, and return its termination status.
close_process_in [Unix]
Close channels opened by Unix.open_process_in, wait for the associated command to terminate, and return its termination status.
close_process_out [UnixLabels]
Close channels opened by UnixLabels.open_process_out, wait for the associated command to terminate, and return its termination status.
close_process_out [Unix]
Close channels opened by Unix.open_process_out, wait for the associated command to terminate, and return its termination status.
close_subwindow [GraphicsX11]
Close the sub-window having the given identifier.
close_tag [Format]
close_tag () closes the most recently opened tag t.
close_tbox [Format]
Closes the most recently opened tabulation box.
closedir [UnixLabels]
Close a directory descriptor.
closedir [Unix]
Close a directory descriptor.
closure_tag [Obj]
code [Char]
Return the ASCII code of the argument.
combine [StdLabels.List]
combine [ListLabels]
Transform a pair of lists into a list of pairs: combine [a1; ...; an] [b1; ...; bn] is [(a1,b1); ...; (an,bn)].
combine [List]
Transform a pair of lists into a list of pairs: combine [a1; ...; an] [b1; ...; bn] is [(a1,b1); ...; (an,bn)].
command [Sys]
Execute the given shell command and return its exit code.
compact [Gc]
Perform a full major collection and compact the heap.
compare [StringLabels]
The comparison function for strings, with the same specification as compare.
compare [String]
The comparison function for strings, with the same specification as compare.
compare [StdLabels.String]
compare [Set.S]
Total ordering between sets.
compare [Pervasives]
compare x y returns 0 if x is equal to y, a negative integer if x is less than y, and a positive integer if x is greater than y.
compare [Nativeint]
The comparison function for native integers, with the same specification as compare.
compare [Set.OrderedType]
A total ordering function over the set elements.
compare [MoreLabels.Set.S]
compare [MoreLabels.Map.S]
compare [Map.OrderedType]
A total ordering function over the keys.
compare [Map.S]
Total ordering between maps.
compare [Int64]
The comparison function for 64-bit integers, with the same specification as compare.
compare [Int32]
The comparison function for 32-bit integers, with the same specification as compare.
compare [Digest]
The comparison function for 16-character digest, with the same specification as compare and the implementation shared with String.compare.
compare [Char]
The comparison function for characters, with the same specification as compare.
compare_big_int [Big_int]
compare_big_int a b returns 0 if a and b are equal, 1 if a is greater than b, and -1 if a is smaller than b.
compare_num [Num]
Return -1, 0 or 1 if the first argument is less than, equal to, or greater than the second argument.
complex32 [Bigarray]
See Bigarray.char.
complex64 [Bigarray]
See Bigarray.char.
concat [StringLabels]
String.concat sep sl concatenates the list of strings sl, inserting the separator string sep between each.
concat [String]
String.concat sep sl concatenates the list of strings sl, inserting the separator string sep between each.
concat [StdLabels.String]
concat [StdLabels.List]
concat [StdLabels.Array]
concat [ListLabels]
Concatenate a list of lists.
concat [List]
Concatenate a list of lists.
concat [Filename]
concat dir file returns a file name that designates file file in directory dir.
concat [ArrayLabels]
Same as Array.append, but concatenates a list of arrays.
concat [Array]
Same as Array.append, but concatenates a list of arrays.
conj [Complex]
Conjugate: given the complex x + i.y, returns x - i.y.
connect [UnixLabels]
Connect a socket to an address.
connect [Unix]
Connect a socket to an address.
connect [ThreadUnix]
contains [StringLabels]
String.contains s c tests if character c appears in the string s.
contains [String]
String.contains s c tests if character c appears in the string s.
contains [StdLabels.String]
contains_from [StringLabels]
String.contains_from s start c tests if character c appears in the substring of s starting from start to the end of s.
contains_from [String]
String.contains_from s start c tests if character c appears in s after position start.
contains_from [StdLabels.String]
contents [Buffer]
Return a copy of the current contents of the buffer.
copy [StringLabels]
Return a copy of the given string.
copy [String]
Return a copy of the given string.
copy [StdLabels.String]
copy [StdLabels.Array]
copy [Stack]
Return a copy of the given stack.
copy [Random.State]
Return a copy of the given state.
copy [Queue]
Return a copy of the given queue.
copy [Oo]
Oo.copy o returns a copy of object o, that is a fresh object with the same methods and instance variables as o.
copy [MoreLabels.Hashtbl.SeededS]
copy [MoreLabels.Hashtbl.S]
copy [MoreLabels.Hashtbl]
copy [Hashtbl.SeededS]
copy [Hashtbl.S]
copy [Hashtbl]
Return a copy of the given hashtable.
copy [CamlinternalOO]
copy [ArrayLabels]
Array.copy a returns a copy of a, that is, a fresh array containing the same elements as a.
copy [Array]
Array.copy a returns a copy of a, that is, a fresh array containing the same elements as a.
copysign [Pervasives]
copysign x y returns a float whose absolute value is that of x and whose sign is that of y.
cos [Pervasives]
Cosine.
cosh [Pervasives]
Hyperbolic cosine.
count [Weak.S]
Count the number of elements in the table.
count [Stream]
Return the current count of the stream elements, i.e.
counters [Gc]
Return (minor_words, promoted_words, major_words).
create [Weak.S]
create n creates a new empty weak hash table, of initial size n.
create [Weak]
Weak.create n returns a new weak array of length n.
create [Thread]
Thread.create funct arg creates a new thread of control, in which the function application funct arg is executed concurrently with the other threads of the program.
create [StringLabels]
String.create n returns a fresh string of length n.
create [String]
String.create n returns a fresh string of length n.
create [StdLabels.String]
create [StdLabels.Array]
create [Stack]
Return a new stack, initially empty.
create [Queue]
Return a new queue, initially empty.
create [Mutex]
Return a new mutex.
create [MoreLabels.Hashtbl.SeededS]
create [MoreLabels.Hashtbl.S]
create [MoreLabels.Hashtbl]
create [Hashtbl.SeededS]
create [Hashtbl.S]
create [Hashtbl]
Hashtbl.create n creates a new, empty hash table, with initial size n.
create [Condition]
Return a new condition variable.
create [Buffer]
create n returns a fresh buffer, initially empty.
create [Bigarray.Array3]
Array3.create kind layout dim1 dim2 dim3 returns a new bigarray of three dimension, whose size is dim1 in the first dimension, dim2 in the second dimension, and dim3 in the third.
create [Bigarray.Array2]
Array2.create kind layout dim1 dim2 returns a new bigarray of two dimension, whose size is dim1 in the first dimension and dim2 in the second dimension.
create [Bigarray.Array1]
Array1.create kind layout dim returns a new bigarray of one dimension, whose size is dim.
create [Bigarray.Genarray]
Genarray.create kind layout dimensions returns a new big array whose element kind is determined by the parameter kind (one of float32, float64, int8_signed, etc) and whose layout is determined by the parameter layout (one of c_layout or fortran_layout).
create [ArrayLabels]
create [Array]
create_alarm [Gc]
create_alarm f will arrange for f to be called at the end of each major GC cycle, starting with the current cycle or the next one.
create_image [Graphics]
create_image w h returns a new image w pixels wide and h pixels tall, to be used in conjunction with blit_image.
create_matrix [StdLabels.Array]
create_matrix [ArrayLabels]
create_matrix [Array]
create_object [CamlinternalOO]
create_object_and_run_initializers [CamlinternalOO]
create_object_opt [CamlinternalOO]
create_process [UnixLabels]
create_process prog args new_stdin new_stdout new_stderr forks a new process that executes the program in file prog, with arguments args.
create_process [Unix]
create_process prog args new_stdin new_stdout new_stderr forks a new process that executes the program in file prog, with arguments args.
create_process_env [UnixLabels]
create_process_env prog args env new_stdin new_stdout new_stderr works as UnixLabels.create_process, except that the extra argument env specifies the environment passed to the program.
create_process_env [Unix]
create_process_env prog args env new_stdin new_stdout new_stderr works as Unix.create_process, except that the extra argument env specifies the environment passed to the program.
create_table [CamlinternalOO]
current [Arg]
Position (in Sys.argv) of the argument being processed.
current_dir_name [Filename]
The conventional name for the current directory (e.g.
current_point [Graphics]
Return the position of the current point.
current_x [Graphics]
Return the abscissa of the current point.
current_y [Graphics]
Return the ordinate of the current point.
curveto [Graphics]
curveto b c d draws a cubic Bezier curve starting from the current point to point d, with control points b and c, and moves the current point to d.
custom_tag [Obj]
cyan [Graphics]
cygwin [Sys]
True if Sys.os_type = "Cygwin".

D
data_size [Marshal]
See Marshal.header_size.
decr [Pervasives]
Decrement the integer contained in the given reference.
decr_num [Num]
decr r is r:=!r-1, where r is a reference to a number.
default_available_units [Dynlink]
Reset the set of units that can be referenced from dynamically-linked code to its default value, that is, all units composing the currently running program.
delay [Thread]
delay d suspends the execution of the calling thread for d seconds.
delete_alarm [Gc]
delete_alarm a will stop the calls to the function associated to a.
descr_of_in_channel [UnixLabels]
Return the descriptor corresponding to an input channel.
descr_of_in_channel [Unix]
Return the descriptor corresponding to an input channel.
descr_of_out_channel [UnixLabels]
Return the descriptor corresponding to an output channel.
descr_of_out_channel [Unix]
Return the descriptor corresponding to an output channel.
destroy [Tk]
Destroy an individual widget.
diff [Set.S]
Set difference.
diff [MoreLabels.Set.S]
dim [Bigarray.Array1]
Return the size (dimension) of the given one-dimensional big array.
dim1 [Bigarray.Array3]
Return the first dimension of the given three-dimensional big array.
dim1 [Bigarray.Array2]
Return the first dimension of the given two-dimensional big array.
dim2 [Bigarray.Array3]
Return the second dimension of the given three-dimensional big array.
dim2 [Bigarray.Array2]
Return the second dimension of the given two-dimensional big array.
dim3 [Bigarray.Array3]
Return the third dimension of the given three-dimensional big array.
dims [Bigarray.Genarray]
Genarray.dims a returns all dimensions of the big array a, as an array of integers of length Genarray.num_dims a.
dir_sep [Filename]
The directory separator (e.g.
dirname [Filename]
See Filename.basename.
display_mode [Graphics]
Set display mode on or off.
div [Nativeint]
Integer division.
div [Int64]
Integer division.
div [Int32]
Integer division.
div [Complex]
Division
div_big_int [Big_int]
Euclidean quotient of two big integers.
div_num [Num]
Division
domain_of_sockaddr [UnixLabels]
Return the socket domain adequate for the given socket address.
domain_of_sockaddr [Unix]
Return the socket domain adequate for the given socket address.
double_array_tag [Obj]
double_field [Obj]
double_tag [Obj]
draw_arc [Graphics]
draw_arc x y rx ry a1 a2 draws an elliptical arc with center x,y, horizontal radius rx, vertical radius ry, from angle a1 to angle a2 (in degrees).
draw_char [Graphics]
See Graphics.draw_string.
draw_circle [Graphics]
draw_circle x y r draws a circle with center x,y and radius r.
draw_ellipse [Graphics]
draw_ellipse x y rx ry draws an ellipse with center x,y, horizontal radius rx and vertical radius ry.
draw_image [Graphics]
Draw the given image with lower left corner at the given point.
draw_poly [Graphics]
draw_poly polygon draws the given polygon.
draw_poly_line [Graphics]
draw_poly_line points draws the line that joins the points given by the array argument.
draw_rect [Graphics]
draw_rect x y w h draws the rectangle with lower left corner at x,y, width w and height h.
draw_segments [Graphics]
draw_segments segments draws the segments given in the array argument.
draw_string [Graphics]
Draw a character or a character string with lower left corner at current position.
dummy_class [CamlinternalOO]
dummy_pos [Lexing]
A value of type position, guaranteed to be different from any valid position.
dummy_table [CamlinternalOO]
dump_image [Graphics]
Convert an image to a color matrix.
dup [UnixLabels]
Return a new file descriptor referencing the same file as the given descriptor.
dup [Unix]
Return a new file descriptor referencing the same file as the given descriptor.
dup [Obj]
dup2 [UnixLabels]
dup2 fd1 fd2 duplicates fd1 to fd2, closing fd2 if already opened.
dup2 [Unix]
dup2 fd1 fd2 duplicates fd1 to fd2, closing fd2 if already opened.

E
elements [Set.S]
Return the list of all elements of the given set.
elements [MoreLabels.Set.S]
empty [Stream]
Return () if the stream is empty, else raise Stream.Failure.
empty [Set.S]
The empty set.
empty [MoreLabels.Set.S]
empty [MoreLabels.Map.S]
empty [Map.S]
The empty map.
end_of_input [Scanf.Scanning]
Scanning.end_of_input ic tests the end-of-input condition of the given formatted input channel.
environment [UnixLabels]
Return the process environment, as an array of strings with the format ``variable=value''.
environment [Unix]
Return the process environment, as an array of strings with the format ``variable=value''.
eprintf [Printf]
Same as Printf.fprintf, but output on stderr.
eprintf [Format]
Same as fprintf above, but output on err_formatter.
epsilon_float [Pervasives]
The difference between 1.0 and the smallest exactly representable floating-point number greater than 1.0.
eq_big_int [Big_int]
eq_num [Num]
equal [Set.S]
equal s1 s2 tests whether the sets s1 and s2 are equal, that is, contain equal elements.
equal [MoreLabels.Set.S]
equal [MoreLabels.Map.S]
equal [Map.S]
equal cmp m1 m2 tests whether the maps m1 and m2 are equal, that is, contain equal keys and associate them with equal data.
equal [Hashtbl.SeededHashedType]
The equality predicate used to compare keys.
equal [Hashtbl.HashedType]
The equality predicate used to compare keys.
err_formatter [Format]
A formatter to use with formatting functions below for output to standard error.
error_message [UnixLabels]
Return a string describing the given error code.
error_message [Unix]
Return a string describing the given error code.
error_message [Dynlink]
Convert an error description to a printable message.
escaped [StringLabels]
Return a copy of the argument, with special characters represented by escape sequences, following the lexical conventions of OCaml.
escaped [String]
Return a copy of the argument, with special characters represented by escape sequences, following the lexical conventions of OCaml.
escaped [StdLabels.String]
escaped [Char]
Return a string representing the given character, with special characters escaped following the lexical conventions of OCaml.
establish_server [UnixLabels]
Establish a server on the given address.
establish_server [Unix]
Establish a server on the given address.
executable_name [Sys]
The name of the file containing the executable currently running.
execv [UnixLabels]
execv prog args execute the program in file prog, with the arguments args, and the current process environment.
execv [Unix]
execv prog args execute the program in file prog, with the arguments args, and the current process environment.
execv [ThreadUnix]
execve [UnixLabels]
Same as UnixLabels.execv, except that the third argument provides the environment to the program executed.
execve [Unix]
Same as Unix.execv, except that the third argument provides the environment to the program executed.
execve [ThreadUnix]
execvp [UnixLabels]
Same as UnixLabels.execv, except that the program is searched in the path.
execvp [Unix]
Same as Unix.execv, except that the program is searched in the path.
execvp [ThreadUnix]
execvpe [UnixLabels]
Same as UnixLabels.execve, except that the program is searched in the path.
execvpe [Unix]
Same as Unix.execve, except that the program is searched in the path.
exists [StdLabels.List]
exists [Set.S]
exists p s checks if at least one element of the set satisfies the predicate p.
exists [MoreLabels.Set.S]
exists [MoreLabels.Map.S]
exists [Map.S]
exists p m checks if at least one binding of the map satisfy the predicate p.
exists [ListLabels]
exists p [a1; ...; an] checks if at least one element of the list satisfies the predicate p.
exists [List]
exists p [a1; ...; an] checks if at least one element of the list satisfies the predicate p.
exists2 [StdLabels.List]
exists2 [ListLabels]
Same as ListLabels.exists, but for a two-argument predicate.
exists2 [List]
Same as List.exists, but for a two-argument predicate.
exit [Thread]
Terminate prematurely the currently executing thread.
exit [Pervasives]
Terminate the process, returning the given status code to the operating system: usually 0 to indicate no errors, and a small positive integer to indicate failure.
exp [Pervasives]
Exponential.
exp [Complex]
Exponentiation.
expm1 [Pervasives]
expm1 x computes exp x -. 1.0, giving numerically-accurate results even if x is close to 0.0.
extract_big_int [Big_int]
extract_big_int bi ofs n returns a nonnegative number corresponding to bits ofs to ofs + n - 1 of the binary representation of bi.

F
failwith [Pervasives]
Raise exception Failure with the given string.
fast_sort [StdLabels.List]
fast_sort [StdLabels.Array]
fast_sort [ListLabels]
Same as List.sort or List.stable_sort, whichever is faster on typical input.
fast_sort [List]
Same as List.sort or List.stable_sort, whichever is faster on typical input.
fast_sort [ArrayLabels]
Same as Array.sort or Array.stable_sort, whichever is faster on typical input.
fast_sort [Array]
Same as Array.sort or Array.stable_sort, whichever is faster on typical input.
fchmod [UnixLabels]
Change the permissions of an opened file.
fchmod [Unix]
Change the permissions of an opened file.
fchown [UnixLabels]
Change the owner uid and owner gid of an opened file.
fchown [Unix]
Change the owner uid and owner gid of an opened file.
field [Obj]
file [Digest]
Return the digest of the file whose name is given.
file_exists [Sys]
Test if a file with the given name exists.
fill [Weak]
Weak.fill ar ofs len el sets to el all pointers of ar from ofs to ofs + len - 1.
fill [StringLabels]
String.fill s start len c modifies string s in place, replacing the characters number start to start + len - 1 by c.
fill [String]
String.fill s start len c modifies string s in place, replacing len characters by c, starting at start.
fill [StdLabels.String]
fill [StdLabels.Array]
fill [Bigarray.Array3]
Fill the given big array with the given value.
fill [Bigarray.Array2]
Fill the given big array with the given value.
fill [Bigarray.Array1]
Fill the given big array with the given value.
fill [Bigarray.Genarray]
Set all elements of a big array to a given value.
fill [ArrayLabels]
Array.fill a ofs len x modifies the array a in place, storing x in elements number ofs to ofs + len - 1.
fill [Array]
Array.fill a ofs len x modifies the array a in place, storing x in elements number ofs to ofs + len - 1.
fill_arc [Graphics]
Fill an elliptical pie slice with the current color.
fill_circle [Graphics]
Fill a circle with the current color.
fill_ellipse [Graphics]
Fill an ellipse with the current color.
fill_poly [Graphics]
Fill the given polygon with the current color.
fill_rect [Graphics]
fill_rect x y w h fills the rectangle with lower left corner at x,y, width w and height h, with the current color.
filter [StdLabels.List]
filter [Set.S]
filter p s returns the set of all elements in s that satisfy predicate p.
filter [MoreLabels.Set.S]
filter [MoreLabels.Map.S]
filter [Map.S]
filter p m returns the map with all the bindings in m that satisfy predicate p.
filter [ListLabels]
filter p l returns all the elements of the list l that satisfy the predicate p.
filter [List]
filter p l returns all the elements of the list l that satisfy the predicate p.
final_tag [Obj]
finalise [Gc]
finalise f v registers f as a finalisation function for v.
finalise_release [Gc]
A finalisation function may call finalise_release to tell the GC that it can launch the next finalisation function without waiting for the current one to return.
find [Weak.S]
find t x returns an instance of x found in t.
find [StdLabels.List]
find [Set.S]
find x s returns the element of s equal to x (according to Ord.compare), or raise Not_found if no such element exists.
find [MoreLabels.Set.S]
find [MoreLabels.Map.S]
find [MoreLabels.Hashtbl.SeededS]
find [MoreLabels.Hashtbl.S]
find [MoreLabels.Hashtbl]
find [Map.S]
find x m returns the current binding of x in m, or raises Not_found if no such binding exists.
find [ListLabels]
find p l returns the first element of the list l that satisfies the predicate p.
find [List]
find p l returns the first element of the list l that satisfies the predicate p.
find [Hashtbl.SeededS]
find [Hashtbl.S]
find [Hashtbl]
Hashtbl.find tbl x returns the current binding of x in tbl, or raises Not_found if no such binding exists.
find_all [Weak.S]
find_all t x returns a list of all the instances of x found in t.
find_all [StdLabels.List]
find_all [MoreLabels.Hashtbl.SeededS]
find_all [MoreLabels.Hashtbl.S]
find_all [MoreLabels.Hashtbl]
find_all [ListLabels]
find_all is another name for ListLabels.filter.
find_all [List]
find_all is another name for List.filter.
find_all [Hashtbl.SeededS]
find_all [Hashtbl.S]
find_all [Hashtbl]
Hashtbl.find_all tbl x returns the list of all data associated with x in tbl.
first_chars [Str]
first_chars s n returns the first n characters of s.
flatten [StdLabels.List]
flatten [ListLabels]
Same as concat.
flatten [List]
Same as concat.
float [Random.State]
float [Random]
Random.float bound returns a random floating-point number between 0 and bound (inclusive).
float [Pervasives]
Same as float_of_int.
float32 [Bigarray]
See Bigarray.char.
float64 [Bigarray]
See Bigarray.char.
float_of_big_int [Big_int]
Returns a floating-point number approximating the given big integer.
float_of_bits [Int64]
Return the floating-point number whose internal representation, according to the IEEE 754 floating-point 'double format' bit layout, is the given int64.
float_of_bits [Int32]
Return the floating-point number whose internal representation, according to the IEEE 754 floating-point 'single format' bit layout, is the given int32.
float_of_int [Pervasives]
Convert an integer to floating-point.
float_of_num [Num]
float_of_string [Pervasives]
Convert the given string to a float.
floor [Pervasives]
Round below to an integer value.
floor_num [Num]
floor_num n returns the largest integer smaller or equal to n.
flush [Pervasives]
Flush the buffer associated with the given output channel, performing all pending writes on that channel.
flush_all [Pervasives]
Flush all open output channels; ignore errors.
flush_input [Lexing]
Discard the contents of the buffer and reset the current position to 0.
flush_str_formatter [Format]
Returns the material printed with str_formatter, flushes the formatter and resets the corresponding buffer.
fold [Weak.S]
fold f t init computes (f d1 (... (f dN init))) where d1 ... dN are the elements of t in some unspecified order.
fold [Set.S]
fold f s a computes (f xN ... (f x2 (f x1 a))...), where x1 ... xN are the elements of s, in increasing order.
fold [Queue]
fold f accu q is equivalent to List.fold_left f accu l, where l is the list of q's elements.
fold [MoreLabels.Set.S]
fold [MoreLabels.Map.S]
fold [MoreLabels.Hashtbl.SeededS]
fold [MoreLabels.Hashtbl.S]
fold [MoreLabels.Hashtbl]
fold [Map.S]
fold f m a computes (f kN dN ... (f k1 d1 a)...), where k1 ... kN are the keys of all bindings in m (in increasing order), and d1 ... dN are the associated data.
fold [Hashtbl.SeededS]
fold [Hashtbl.S]
fold [Hashtbl]
Hashtbl.fold f tbl init computes (f kN dN ... (f k1 d1 init)...), where k1 ... kN are the keys of all bindings in tbl, and d1 ... dN are the associated values.
fold_left [StdLabels.List]
fold_left [StdLabels.Array]
fold_left [ListLabels]
List.fold_left f a [b1; ...; bn] is f (... (f (f a b1) b2) ...) bn.
fold_left [List]
List.fold_left f a [b1; ...; bn] is f (... (f (f a b1) b2) ...) bn.
fold_left [ArrayLabels]
Array.fold_left f x a computes f (... (f (f x a.(0)) a.(1)) ...) a.(n-1), where n is the length of the array a.
fold_left [Array]
Array.fold_left f x a computes f (... (f (f x a.(0)) a.(1)) ...) a.(n-1), where n is the length of the array a.
fold_left2 [StdLabels.List]
fold_left2 [ListLabels]
List.fold_left2 f a [b1; ...; bn] [c1; ...; cn] is f (... (f (f a b1 c1) b2 c2) ...) bn cn.
fold_left2 [List]
List.fold_left2 f a [b1; ...; bn] [c1; ...; cn] is f (... (f (f a b1 c1) b2 c2) ...) bn cn.
fold_right [StdLabels.List]
fold_right [StdLabels.Array]
fold_right [ListLabels]
List.fold_right f [a1; ...; an] b is f a1 (f a2 (... (f an b) ...)).
fold_right [List]
List.fold_right f [a1; ...; an] b is f a1 (f a2 (... (f an b) ...)).
fold_right [ArrayLabels]
Array.fold_right f a x computes f a.(0) (f a.(1) ( ... (f a.(n-1) x) ...)), where n is the length of the array a.
fold_right [Array]
Array.fold_right f a x computes f a.(0) (f a.(1) ( ... (f a.(n-1) x) ...)), where n is the length of the array a.
fold_right2 [StdLabels.List]
fold_right2 [ListLabels]
List.fold_right2 f [a1; ...; an] [b1; ...; bn] c is f a1 b1 (f a2 b2 (... (f an bn c) ...)).
fold_right2 [List]
List.fold_right2 f [a1; ...; an] [b1; ...; bn] c is f a1 b1 (f a2 b2 (... (f an bn c) ...)).
for_all [StdLabels.List]
for_all [Set.S]
for_all p s checks if all elements of the set satisfy the predicate p.
for_all [MoreLabels.Set.S]
for_all [MoreLabels.Map.S]
for_all [Map.S]
for_all p m checks if all the bindings of the map satisfy the predicate p.
for_all [ListLabels]
for_all p [a1; ...; an] checks if all elements of the list satisfy the predicate p.
for_all [List]
for_all p [a1; ...; an] checks if all elements of the list satisfy the predicate p.
for_all2 [StdLabels.List]
for_all2 [ListLabels]
Same as ListLabels.for_all, but for a two-argument predicate.
for_all2 [List]
Same as List.for_all, but for a two-argument predicate.
force [Lazy]
force x forces the suspension x and returns its result.
force [CamlinternalLazy]
force_lazy_block [CamlinternalLazy]
force_newline [Format]
Forces a newline in the current box.
force_val [Lazy]
force_val x forces the suspension x and returns its result.
force_val [CamlinternalLazy]
force_val_lazy_block [CamlinternalLazy]
foreground [Graphics]
Default background and foreground colors (usually, either black foreground on a white background or white foreground on a black background).
fork [UnixLabels]
Fork a new process.
fork [Unix]
Fork a new process.
format_from_string [Scanf]
format_from_string s fmt converts a string argument to a format string, according to the given format string fmt.
format_of_string [Pervasives]
format_of_string s returns a format string read from the string literal s.
formatter_of_buffer [Format]
formatter_of_buffer b returns a new formatter writing to buffer b.
formatter_of_out_channel [Format]
formatter_of_out_channel oc returns a new formatter that writes to the corresponding channel oc.
fortran_layout [Bigarray]
forward_tag [Obj]
fprintf [Printf]
fprintf outchan format arg1 ... argN formats the arguments arg1 to argN according to the format string format, and outputs the resulting string on the channel outchan.
fprintf [Format]
frexp [Pervasives]
frexp f returns the pair of the significant and the exponent of f.
from [Stream]
Stream.from f returns a stream built from the function f.
from_channel [Scanf.Scanning]
Scanning.from_channel ic returns a formatted input channel which reads from the regular input channel ic argument, starting at the current reading position.
from_channel [Marshal]
Marshal.from_channel chan reads from channel chan the byte representation of a structured value, as produced by one of the Marshal.to_* functions, and reconstructs and returns the corresponding value.
from_channel [Lexing]
Create a lexer buffer on the given input channel.
from_file [Scanf.Scanning]
An alias for open_in above.
from_file_bin [Scanf.Scanning]
An alias for open_in_bin above.
from_fun [Lazy]
from_fun f is the same as lazy (f ()) but slightly more efficient.
from_function [Scanf.Scanning]
Scanning.from_function f returns a formatted input channel with the given function as its reading method.
from_function [Lexing]
Create a lexer buffer with the given function as its reading method.
from_hex [Digest]
Convert a hexadecimal representation back into the corresponding digest.
from_string [Scanf.Scanning]
Scanning.from_string s returns a formatted input channel which reads from the given string.
from_string [Marshal]
Marshal.from_string buff ofs unmarshals a structured value like Marshal.from_channel does, except that the byte representation is not read from a channel, but taken from the string buff, starting at position ofs.
from_string [Lexing]
Create a lexer buffer which reads from the given string.
from_val [Lazy]
from_val v returns an already-forced suspension of v.
fscanf [Scanf]
Same as Scanf.bscanf, but reads from the given regular input channel.
fst [Pervasives]
Return the first component of a pair.
fstat [UnixLabels.LargeFile]
fstat [UnixLabels]
Return the information for the file associated with the given descriptor.
fstat [Unix.LargeFile]
fstat [Unix]
Return the information for the file associated with the given descriptor.
ftruncate [UnixLabels.LargeFile]
ftruncate [UnixLabels]
Truncates the file corresponding to the given descriptor to the given size.
ftruncate [Unix.LargeFile]
ftruncate [Unix]
Truncates the file corresponding to the given descriptor to the given size.
full_init [Random]
Same as Random.init but takes more data as seed.
full_major [Gc]
Do a minor collection, finish the current major collection cycle, and perform a complete new cycle.
full_split [Str]
Same as Str.split_delim, but returns the delimiters as well as the substrings contained between delimiters.

G
gcd_big_int [Big_int]
Greatest common divisor of two big integers.
ge_big_int [Big_int]
ge_num [Num]
genarray_of_array1 [Bigarray]
Return the generic big array corresponding to the given one-dimensional big array.
genarray_of_array2 [Bigarray]
Return the generic big array corresponding to the given two-dimensional big array.
genarray_of_array3 [Bigarray]
Return the generic big array corresponding to the given three-dimensional big array.
get [Weak]
Weak.get ar n returns None if the nth cell of ar is empty, Some x (where x is the value) if it is full.
get [StringLabels]
String.get s n returns character number n in string s.
get [String]
String.get s n returns character number n in string s.
get [StdLabels.String]
get [StdLabels.Array]
get [Gc]
Return the current values of the GC parameters in a control record.
get [Bigarray.Array3]
Array3.get a x y z, also written a.{x,y,z}, returns the element of a at coordinates (x, y, z).
get [Bigarray.Array2]
Array2.get a x y, also written a.{x,y}, returns the element of a at coordinates (x, y).
get [Bigarray.Array1]
Array1.get a x, or alternatively a.{x}, returns the element of a at index x.
get [Bigarray.Genarray]
Read an element of a generic big array.
get [ArrayLabels]
Array.get a n returns the element number n of array a.
get [Array]
Array.get a n returns the element number n of array a.
get_all_formatter_output_functions [Format]
Deprecated.
get_approx_printing [Arith_status]
See Arith_status.set_approx_printing.
get_backtrace [Printexc]
Printexc.get_backtrace () returns a string containing the same exception backtrace that Printexc.print_backtrace would print.
get_callstack [Printexc]
get_copy [Weak]
Weak.get_copy ar n returns None if the nth cell of ar is empty, Some x (where x is a (shallow) copy of the value) if it is full.
get_ellipsis_text [Format]
Return the text of the ellipsis.
get_error_when_null_denominator [Arith_status]
See Arith_status.set_error_when_null_denominator.
get_floating_precision [Arith_status]
See Arith_status.set_floating_precision.
get_formatter_out_functions [Format]
Return the current output functions of the pretty-printer, including line breaking and indentation functions.
get_formatter_output_functions [Format]
Return the current output functions of the pretty-printer.
get_formatter_tag_functions [Format]
Return the current tag functions of the pretty-printer.
get_image [Graphics]
Capture the contents of a rectangle on the screen as an image.
get_margin [Format]
Returns the position of the right margin.
get_mark_tags [Format]
Return the current status of tags printing and tags marking.
get_max_boxes [Format]
Returns the maximum number of boxes allowed before ellipsis.
get_max_indent [Format]
Return the value of the maximum indentation limit (in characters).
get_method [CamlinternalOO]
get_method_label [CamlinternalOO]
get_method_labels [CamlinternalOO]
get_normalize_ratio [Arith_status]
See Arith_status.set_normalize_ratio.
get_normalize_ratio_when_printing [Arith_status]
See Arith_status.set_normalize_ratio_when_printing.
get_print_tags [Format]
get_public_method [CamlinternalOO]
get_raw_backtrace [Printexc]
get_state [Random]
Return the current state of the generator used by the basic functions.
get_temp_dir_name [Filename]
The name of the temporary directory: Under Unix, the value of the TMPDIR environment variable, or "/tmp" if the variable is not set.
get_variable [CamlinternalOO]
get_variables [CamlinternalOO]
getaddrinfo [UnixLabels]
getaddrinfo host service opts returns a list of Unix.addr_info records describing socket parameters and addresses suitable for communicating with the given host and service.
getaddrinfo [Unix]
getaddrinfo host service opts returns a list of Unix.addr_info records describing socket parameters and addresses suitable for communicating with the given host and service.
getcwd [UnixLabels]
Return the name of the current working directory.
getcwd [Unix]
Return the name of the current working directory.
getcwd [Sys]
Return the current working directory of the process.
getegid [UnixLabels]
Return the effective group id under which the process runs.
getegid [Unix]
Return the effective group id under which the process runs.
getenv [UnixLabels]
Return the value associated to a variable in the process environment.
getenv [Unix]
Return the value associated to a variable in the process environment.
getenv [Sys]
Return the value associated to a variable in the process environment.
geteuid [UnixLabels]
Return the effective user id under which the process runs.
geteuid [Unix]
Return the effective user id under which the process runs.
getgid [UnixLabels]
Return the group id of the user executing the process.
getgid [Unix]
Return the group id of the user executing the process.
getgrgid [UnixLabels]
Find an entry in group with the given group id, or raise Not_found.
getgrgid [Unix]
Find an entry in group with the given group id, or raise Not_found.
getgrnam [UnixLabels]
Find an entry in group with the given name, or raise Not_found.
getgrnam [Unix]
Find an entry in group with the given name, or raise Not_found.
getgroups [UnixLabels]
Return the list of groups to which the user executing the process belongs.
getgroups [Unix]
Return the list of groups to which the user executing the process belongs.
gethostbyaddr [UnixLabels]
Find an entry in hosts with the given address, or raise Not_found.
gethostbyaddr [Unix]
Find an entry in hosts with the given address, or raise Not_found.
gethostbyname [UnixLabels]
Find an entry in hosts with the given name, or raise Not_found.
gethostbyname [Unix]
Find an entry in hosts with the given name, or raise Not_found.
gethostname [UnixLabels]
Return the name of the local host.
gethostname [Unix]
Return the name of the local host.
getitimer [UnixLabels]
Return the current status of the given interval timer.
getitimer [Unix]
Return the current status of the given interval timer.
getlogin [UnixLabels]
Return the login name of the user executing the process.
getlogin [Unix]
Return the login name of the user executing the process.
getnameinfo [UnixLabels]
getnameinfo addr opts returns the host name and service name corresponding to the socket address addr.
getnameinfo [Unix]
getnameinfo addr opts returns the host name and service name corresponding to the socket address addr.
getpeername [UnixLabels]
Return the address of the host connected to the given socket.
getpeername [Unix]
Return the address of the host connected to the given socket.
getpid [UnixLabels]
Return the pid of the process.
getpid [Unix]
Return the pid of the process.
getppid [UnixLabels]
Return the pid of the parent process.
getppid [Unix]
Return the pid of the parent process.
getprotobyname [UnixLabels]
Find an entry in protocols with the given name, or raise Not_found.
getprotobyname [Unix]
Find an entry in protocols with the given name, or raise Not_found.
getprotobynumber [UnixLabels]
Find an entry in protocols with the given protocol number, or raise Not_found.
getprotobynumber [Unix]
Find an entry in protocols with the given protocol number, or raise Not_found.
getpwnam [UnixLabels]
Find an entry in passwd with the given name, or raise Not_found.
getpwnam [Unix]
Find an entry in passwd with the given name, or raise Not_found.
getpwuid [UnixLabels]
Find an entry in passwd with the given user id, or raise Not_found.
getpwuid [Unix]
Find an entry in passwd with the given user id, or raise Not_found.
getservbyname [UnixLabels]
Find an entry in services with the given name, or raise Not_found.
getservbyname [Unix]
Find an entry in services with the given name, or raise Not_found.
getservbyport [UnixLabels]
Find an entry in services with the given service number, or raise Not_found.
getservbyport [Unix]
Find an entry in services with the given service number, or raise Not_found.
getsockname [UnixLabels]
Return the address of the given socket.
getsockname [Unix]
Return the address of the given socket.
getsockopt [UnixLabels]
Return the current status of a boolean-valued option in the given socket.
getsockopt [Unix]
Return the current status of a boolean-valued option in the given socket.
getsockopt_error [UnixLabels]
Return the error condition associated with the given socket, and clear it.
getsockopt_error [Unix]
Return the error condition associated with the given socket, and clear it.
getsockopt_float [UnixLabels]
Same as Unix.getsockopt for a socket option whose value is a floating-point number.
getsockopt_float [Unix]
Same as Unix.getsockopt for a socket option whose value is a floating-point number.
getsockopt_int [UnixLabels]
Same as Unix.getsockopt for an integer-valued socket option.
getsockopt_int [Unix]
Same as Unix.getsockopt for an integer-valued socket option.
getsockopt_optint [UnixLabels]
Same as Unix.getsockopt for a socket option whose value is an int option.
getsockopt_optint [Unix]
Same as Unix.getsockopt for a socket option whose value is an int option.
gettimeofday [UnixLabels]
Same as UnixLabels.time, but with resolution better than 1 second.
gettimeofday [Unix]
Same as Unix.time, but with resolution better than 1 second.
getuid [UnixLabels]
Return the user id of the user executing the process.
getuid [Unix]
Return the user id of the user executing the process.
global_replace [Str]
global_replace regexp templ s returns a string identical to s, except that all substrings of s that match regexp have been replaced by templ.
global_substitute [Str]
global_substitute regexp subst s returns a string identical to s, except that all substrings of s that match regexp have been replaced by the result of function subst.
gmtime [UnixLabels]
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time.
gmtime [Unix]
Convert a time in seconds, as returned by Unix.time, into a date and a time.
green [Graphics]
grid [Tk]
Pack a widget inside its parent, using the grid layout engine.
group_beginning [Str]
group_beginning n returns the position of the first character of the substring that was matched by the nth group of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details).
group_end [Str]
group_end n returns the position of the character following the last character of substring that was matched by the nth group of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details).
gt_big_int [Big_int]
Usual boolean comparisons between two big integers.
gt_num [Num]
guard [Event]
guard fn returns the event that, when synchronized, computes fn() and behaves as the resulting event.

H
handle_unix_error [UnixLabels]
handle_unix_error f x applies f to x and returns the result.
handle_unix_error [Unix]
handle_unix_error f x applies f to x and returns the result.
hash [MoreLabels.Hashtbl]
hash [Hashtbl.SeededHashedType]
A seeded hashing function on keys.
hash [Hashtbl.HashedType]
A hashing function on keys.
hash [Hashtbl]
Hashtbl.hash x associates a nonnegative integer to any value of any type.
hash_param [MoreLabels.Hashtbl]
hash_param [Hashtbl]
Hashtbl.hash_param meaningful total x computes a hash value for x, with the same properties as for hash.
hd [StdLabels.List]
hd [ListLabels]
Return the first element of the given list.
hd [List]
Return the first element of the given list.
header_size [Marshal]
The bytes representing a marshaled value are composed of a fixed-size header and a variable-sized data part, whose size can be determined from the header.
hypot [Pervasives]
hypot x y returns sqrt(x *. x + y *. y), that is, the length of the hypotenuse of a right-angled triangle with sides of length x and y, or, equivalently, the distance of the point (x,y) to origin.

I
i [Complex]
The complex number i.
id [Thread]
Return the identifier of the given thread.
id [Oo]
Return an integer identifying this object, unique for the current execution of the program.
ifprintf [Printf]
Same as Printf.fprintf, but does not print anything.
ifprintf [Format]
Same as fprintf above, but does not print anything.
ignore [Pervasives]
Discard the value of its argument and return ().
ikfprintf [Printf]
Same as kfprintf above, but does not print anything.
ikfprintf [Format]
Same as kfprintf above, but does not print anything.
in_channel_length [Pervasives.LargeFile]
in_channel_length [Pervasives]
Return the size (number of characters) of the regular file on which the given channel is opened.
in_channel_of_descr [UnixLabels]
Create an input channel reading from the given descriptor.
in_channel_of_descr [Unix]
Create an input channel reading from the given descriptor.
incr [Pervasives]
Increment the integer contained in the given reference.
incr_num [Num]
incr r is r:=!r+1, where r is a reference to a number.
index [StringLabels]
String.index s c returns the position of the leftmost occurrence of character c in string s.
index [String]
String.index s c returns the character number of the first occurrence of character c in string s.
index [StdLabels.String]
index_from [StringLabels]
Same as StringLabels.index, but start searching at the character position given as second argument.
index_from [String]
String.index_from s i c returns the character number of the first occurrence of character c in string s after position i.
index_from [StdLabels.String]
inet6_addr_any [UnixLabels]
A special IPv6 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
inet6_addr_any [Unix]
A special IPv6 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
inet6_addr_loopback [UnixLabels]
A special IPv6 address representing the host machine (::1).
inet6_addr_loopback [Unix]
A special IPv6 address representing the host machine (::1).
inet_addr_any [UnixLabels]
A special IPv4 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
inet_addr_any [Unix]
A special IPv4 address, for use only with bind, representing all the Internet addresses that the host machine possesses.
inet_addr_loopback [UnixLabels]
A special IPv4 address representing the host machine (127.0.0.1).
inet_addr_loopback [Unix]
A special IPv4 address representing the host machine (127.0.0.1).
inet_addr_of_string [UnixLabels]
Conversion from the printable representation of an Internet address to its internal representation.
inet_addr_of_string [Unix]
Conversion from the printable representation of an Internet address to its internal representation.
infinity [Pervasives]
Positive infinity.
infix_tag [Obj]
inherits [CamlinternalOO]
init [StdLabels.Array]
init [Random]
Initialize the generator, using the argument as a seed.
init [Dynlink]
init [ArrayLabels]
Array.init n f returns a fresh array of length n, with element number i initialized to the result of f i.
init [Array]
Array.init n f returns a fresh array of length n, with element number i initialized to the result of f i.
init_class [CamlinternalOO]
init_mod [CamlinternalMod]
initgroups [UnixLabels]
initgroups user group initializes the group access list by reading the group database /etc/group and using all groups of which user is a member.
initgroups [Unix]
initgroups user group initializes the group access list by reading the group database /etc/group and using all groups of which user is a member.
input [Pervasives]
input ic buf pos len reads up to len characters from the given channel ic, storing them in string buf, starting at character number pos.
input [Digest]
Read a digest from the given input channel.
input_binary_int [Pervasives]
Read an integer encoded in binary format (4 bytes, big-endian) from the given input channel.
input_byte [Pervasives]
Same as input_char, but return the 8-bit integer representing the character.
input_char [Pervasives]
Read one character from the given input channel.
input_line [Pervasives]
Read characters from the given input channel, until a newline character is encountered.
input_value [Pervasives]
Read the representation of a structured value, as produced by output_value, and return the corresponding value.
int [Random.State]
int [Random]
Random.int bound returns a random integer between 0 (inclusive) and bound (exclusive).
int [Bigarray]
See Bigarray.char.
int16_signed [Bigarray]
See Bigarray.char.
int16_unsigned [Bigarray]
See Bigarray.char.
int32 [Random.State]
int32 [Random]
Random.int32 bound returns a random integer between 0 (inclusive) and bound (exclusive).
int32 [Bigarray]
See Bigarray.char.
int32_of_big_int [Big_int]
Convert a big integer to a 32-bit integer.
int64 [Random.State]
int64 [Random]
Random.int64 bound returns a random integer between 0 (inclusive) and bound (exclusive).
int64 [Bigarray]
See Bigarray.char.
int64_of_big_int [Big_int]
Convert a big integer to a 64-bit integer.
int8_signed [Bigarray]
See Bigarray.char.
int8_unsigned [Bigarray]
See Bigarray.char.
int_of_big_int [Big_int]
Convert a big integer to a small integer (type int).
int_of_char [Pervasives]
Return the ASCII code of the argument.
int_of_float [Pervasives]
Truncate the given floating-point number to an integer.
int_of_num [Num]
int_of_string [Pervasives]
Convert the given string to an integer.
int_tag [Obj]
integer_num [Num]
integer_num n returns the integer closest to n.
inter [Set.S]
Set intersection.
inter [MoreLabels.Set.S]
interactive [Sys]
This reference is initially set to false in standalone programs and to true if the code is being executed under the interactive toplevel system ocaml.
inv [Complex]
Multiplicative inverse (1/z).
invalid_arg [Pervasives]
Raise exception Invalid_argument with the given string.
is_block [Obj]
is_directory [Sys]
Returns true if the given name refers to a directory, false if it refers to another kind of file.
is_empty [Stack]
Return true if the given stack is empty, false otherwise.
is_empty [Set.S]
Test whether a set is empty or not.
is_empty [Queue]
Return true if the given queue is empty, false otherwise.
is_empty [MoreLabels.Set.S]
is_empty [MoreLabels.Map.S]
is_empty [Map.S]
Test whether a map is empty or not.
is_implicit [Filename]
Return true if the file name is relative and does not start with an explicit reference to the current directory (./ or ../ in Unix), false if it starts with an explicit reference to the root directory or the current directory.
is_int [Obj]
is_int_big_int [Big_int]
Test whether the given big integer is small enough to be representable as a small integer (type int) without loss of precision.
is_integer_num [Num]
Test if a number is an integer
is_native [Dynlink]
true if the program is native, false if the program is bytecode.
is_relative [Filename]
Return true if the file name is relative to the current directory, false if it is absolute (i.e.
is_val [Lazy]
is_val x returns true if x has already been forced and did not raise an exception.
isatty [UnixLabels]
Return true if the given file descriptor refers to a terminal or console window, false otherwise.
isatty [Unix]
Return true if the given file descriptor refers to a terminal or console window, false otherwise.
iter [Weak.S]
iter f t calls f on each element of t, in some unspecified order.
iter [StringLabels]
String.iter f s applies function f in turn to all the characters of s.
iter [String]
String.iter f s applies function f in turn to all the characters of s.
iter [Stream]
Stream.iter f s scans the whole stream s, applying function f in turn to each stream element encountered.
iter [StdLabels.String]
iter [StdLabels.List]
iter [StdLabels.Array]
iter [Stack]
iter f s applies f in turn to all elements of s, from the element at the top of the stack to the element at the bottom of the stack.
iter [Set.S]
iter f s applies f in turn to all elements of s.
iter [Queue]
iter f q applies f in turn to all elements of q, from the least recently entered to the most recently entered.
iter [MoreLabels.Set.S]
iter [MoreLabels.Map.S]
iter [MoreLabels.Hashtbl.SeededS]
iter [MoreLabels.Hashtbl.S]
iter [MoreLabels.Hashtbl]
iter [Map.S]
iter f m applies f to all bindings in map m.
iter [ListLabels]
List.iter f [a1; ...; an] applies function f in turn to a1; ...; an.
iter [List]
List.iter f [a1; ...; an] applies function f in turn to a1; ...; an.
iter [Hashtbl.SeededS]
iter [Hashtbl.S]
iter [Hashtbl]
Hashtbl.iter f tbl applies f to all bindings in table tbl.
iter [ArrayLabels]
Array.iter f a applies function f in turn to all the elements of a.
iter [Array]
Array.iter f a applies function f in turn to all the elements of a.
iter2 [StdLabels.List]
iter2 [ListLabels]
List.iter2 f [a1; ...; an] [b1; ...; bn] calls in turn f a1 b1; ...; f an bn.
iter2 [List]
List.iter2 f [a1; ...; an] [b1; ...; bn] calls in turn f a1 b1; ...; f an bn.
iteri [StringLabels]
Same as String.iter, but the function is applied to the index of the element as first argument (counting from 0), and the character itself as second argument.
iteri [String]
Same as String.iter, but the function is applied to the index of the element as first argument (counting from 0), and the character itself as second argument.
iteri [StdLabels.String]
iteri [StdLabels.Array]
iteri [ListLabels]
Same as List.iter, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
iteri [List]
Same as List.iter, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
iteri [ArrayLabels]
Same as ArrayLabels.iter, but the function is applied to the index of the element as first argument, and the element itself as second argument.
iteri [Array]
Same as Array.iter, but the function is applied to the index of the element as first argument, and the element itself as second argument.

J
join [Thread]
join th suspends the execution of the calling thread until the thread th has terminated.
junk [Stream]
Remove the first element of the stream, possibly unfreezing it before.

K
kbprintf [Printf]
Same as bprintf, but instead of returning immediately, passes the buffer to its first argument at the end of printing.
key_pressed [Graphics]
Return true if a keypress is available; that is, if read_key would not block.
kfprintf [Printf]
Same as fprintf, but instead of returning immediately, passes the out channel to its first argument at the end of printing.
kfprintf [Format]
Same as fprintf above, but instead of returning immediately, passes the formatter to its first argument at the end of printing.
kill [UnixLabels]
kill pid sig sends signal number sig to the process with id pid.
kill [Unix]
kill pid sig sends signal number sig to the process with id pid.
kill [Thread]
Terminate prematurely the thread whose handle is given.
kind [Bigarray.Array3]
Return the kind of the given big array.
kind [Bigarray.Array2]
Return the kind of the given big array.
kind [Bigarray.Array1]
Return the kind of the given big array.
kind [Bigarray.Genarray]
Return the kind of the given big array.
kprintf [Printf]
A deprecated synonym for ksprintf.
kprintf [Format]
A deprecated synonym for ksprintf.
kscanf [Scanf]
Same as Scanf.bscanf, but takes an additional function argument ef that is called in case of error: if the scanning process or some conversion fails, the scanning function aborts and calls the error handling function ef with the formatted input channel and the exception that aborted the scanning process as arguments.
ksprintf [Printf]
Same as sprintf above, but instead of returning the string, passes it to the first argument.
ksprintf [Format]
Same as sprintf above, but instead of returning the string, passes it to the first argument.

L
last_chars [Str]
last_chars s n returns the last n characters of s.
layout [Bigarray.Array3]
Return the layout of the given big array.
layout [Bigarray.Array2]
Return the layout of the given big array.
layout [Bigarray.Array1]
Return the layout of the given big array.
layout [Bigarray.Genarray]
Return the layout of the given big array.
lazy_from_fun [Lazy]
lazy_from_val [Lazy]
lazy_is_val [Lazy]
lazy_tag [Obj]
ldexp [Pervasives]
ldexp x n returns x *. 2 ** n.
le_big_int [Big_int]
le_num [Num]
length [Weak]
Weak.length ar returns the length (number of elements) of ar.
length [StringLabels]
Return the length (number of characters) of the given string.
length [String]
Return the length (number of characters) of the given string.
length [StdLabels.String]
length [StdLabels.List]
length [StdLabels.Array]
length [Stack]
Return the number of elements in a stack.
length [Queue]
Return the number of elements in a queue.
length [MoreLabels.Hashtbl.SeededS]
length [MoreLabels.Hashtbl.S]
length [MoreLabels.Hashtbl]
length [ListLabels]
Return the length (number of elements) of the given list.
length [List]
Return the length (number of elements) of the given list.
length [Hashtbl.SeededS]
length [Hashtbl.S]
length [Hashtbl]
Hashtbl.length tbl returns the number of bindings in tbl.
length [Buffer]
Return the number of characters currently contained in the buffer.
length [ArrayLabels]
Return the length (number of elements) of the given array.
length [Array]
Return the length (number of elements) of the given array.
lexeme [Lexing]
Lexing.lexeme lexbuf returns the string matched by the regular expression.
lexeme_char [Lexing]
Lexing.lexeme_char lexbuf i returns character number i in the matched string.
lexeme_end [Lexing]
Lexing.lexeme_end lexbuf returns the offset in the input stream of the character following the last character of the matched string.
lexeme_end_p [Lexing]
Like lexeme_end, but return a complete position instead of an offset.
lexeme_start [Lexing]
Lexing.lexeme_start lexbuf returns the offset in the input stream of the first character of the matched string.
lexeme_start_p [Lexing]
Like lexeme_start, but return a complete position instead of an offset.
lineto [Graphics]
Draw a line with endpoints the current point and the given point, and move the current point to the given point.
link [UnixLabels]
link source dest creates a hard link named dest to the file named source.
link [Unix]
link source dest creates a hard link named dest to the file named source.
list [Sort]
Sort a list in increasing order according to an ordering predicate.
listen [UnixLabels]
Set up a socket for receiving connection requests.
listen [Unix]
Set up a socket for receiving connection requests.
lnot [Pervasives]
Bitwise logical negation.
loadfile [Dynlink]
In bytecode: load the given bytecode object file (.cmo file) or bytecode library file (.cma file), and link it with the running program.
loadfile_private [Dynlink]
Same as loadfile, except that the compilation units just loaded are hidden (cannot be referenced) from other modules dynamically loaded afterwards.
localtime [UnixLabels]
Convert a time in seconds, as returned by UnixLabels.time, into a date and a time.
localtime [Unix]
Convert a time in seconds, as returned by Unix.time, into a date and a time.
lock [Mutex]
Lock the given mutex.
lockf [UnixLabels]
lockf fd cmd size puts a lock on a region of the file opened as fd.
lockf [Unix]
lockf fd cmd size puts a lock on a region of the file opened as fd.
log [Pervasives]
Natural logarithm.
log [Complex]
Natural logarithm (in base e).
log10 [Pervasives]
Base 10 logarithm.
log1p [Pervasives]
log1p x computes log(1.0 +. x) (natural logarithm), giving numerically-accurate results even if x is close to 0.0.
logand [Nativeint]
Bitwise logical and.
logand [Int64]
Bitwise logical and.
logand [Int32]
Bitwise logical and.
lognot [Nativeint]
Bitwise logical negation
lognot [Int64]
Bitwise logical negation
lognot [Int32]
Bitwise logical negation
logor [Nativeint]
Bitwise logical or.
logor [Int64]
Bitwise logical or.
logor [Int32]
Bitwise logical or.
logxor [Nativeint]
Bitwise logical exclusive or.
logxor [Int64]
Bitwise logical exclusive or.
logxor [Int32]
Bitwise logical exclusive or.
lookup_tables [CamlinternalOO]
loop_at_exit [Graphics]
Loop before exiting the program, the list given as argument is the list of handlers and the events on which these handlers are called.
lower_window [Tk]
Raise or lower the window associated to a widget.
lowercase [StringLabels]
Return a copy of the argument, with all uppercase letters translated to lowercase, including accented letters of the ISO Latin-1 (8859-1) character set.
lowercase [String]
Return a copy of the argument, with all uppercase letters translated to lowercase, including accented letters of the ISO Latin-1 (8859-1) character set.
lowercase [StdLabels.String]
lowercase [Char]
Convert the given character to its equivalent lowercase character.
lseek [UnixLabels.LargeFile]
lseek [UnixLabels]
Set the current position for a file descriptor, and return the resulting offset (from the beginning of the file).
lseek [Unix.LargeFile]
lseek [Unix]
Set the current position for a file descriptor, and return the resulting offset (from the beginning of the file).
lstat [UnixLabels.LargeFile]
lstat [UnixLabels]
Same as UnixLabels.stat, but in case the file is a symbolic link, return the information for the link itself.
lstat [Unix.LargeFile]
lstat [Unix]
Same as Unix.stat, but in case the file is a symbolic link, return the information for the link itself.
lt_big_int [Big_int]
lt_num [Num]

M
magenta [Graphics]
magic [Obj]
mainLoop [Tk]
Start the main event loop
major [Gc]
Do a minor collection and finish the current major collection cycle.
major_slice [Gc]
Do a minor collection and a slice of major collection.
make [StringLabels]
String.make n c returns a fresh string of length n, filled with the character c.
make [String]
String.make n c returns a fresh string of length n, filled with the character c.
make [StdLabels.String]
make [StdLabels.Array]
make [Random.State]
Create a new state and initialize it with the given seed.
make [ArrayLabels]
Array.make n x returns a fresh array of length n, initialized with x.
make [Array]
Array.make n x returns a fresh array of length n, initialized with x.
make_class [CamlinternalOO]
make_class_store [CamlinternalOO]
make_formatter [Format]
make_formatter out flush returns a new formatter that writes according to the output function out, and the flushing function flush.
make_image [Graphics]
Convert the given color matrix to an image.
make_lexer [Genlex]
Construct the lexer function.
make_matrix [StdLabels.Array]
make_matrix [ArrayLabels]
Array.make_matrix dimx dimy e returns a two-dimensional array (an array of arrays) with first dimension dimx and second dimension dimy.
make_matrix [Array]
Array.make_matrix dimx dimy e returns a two-dimensional array (an array of arrays) with first dimension dimx and second dimension dimy.
make_self_init [Random.State]
Create a new state and initialize it with a system-dependent low-entropy seed.
map [StringLabels]
String.map f s applies function f in turn to all the characters of s and stores the results in a new string that is returned.
map [String]
String.map f s applies function f in turn to all the characters of s and stores the results in a new string that is returned.
map [StdLabels.String]
map [StdLabels.List]
map [StdLabels.Array]
map [MoreLabels.Map.S]
map [Map.S]
map f m returns a map with same domain as m, where the associated value a of all bindings of m has been replaced by the result of the application of f to a.
map [ListLabels]
List.map f [a1; ...; an] applies function f to a1, ..., an, and builds the list [f a1; ...; f an] with the results returned by f.
map [List]
List.map f [a1; ...; an] applies function f to a1, ..., an, and builds the list [f a1; ...; f an] with the results returned by f.
map [ArrayLabels]
Array.map f a applies function f to all the elements of a, and builds an array with the results returned by f: [| f a.(0); f a.(1); ...; f a.(Array.length a - 1) |].
map [Array]
Array.map f a applies function f to all the elements of a, and builds an array with the results returned by f: [| f a.(0); f a.(1); ...; f a.(Array.length a - 1) |].
map2 [StdLabels.List]
map2 [ListLabels]
List.map2 f [a1; ...; an] [b1; ...; bn] is [f a1 b1; ...; f an bn].
map2 [List]
List.map2 f [a1; ...; an] [b1; ...; bn] is [f a1 b1; ...; f an bn].
map_file [Bigarray.Array3]
Memory mapping of a file as a three-dimensional big array.
map_file [Bigarray.Array2]
Memory mapping of a file as a two-dimensional big array.
map_file [Bigarray.Array1]
Memory mapping of a file as a one-dimensional big array.
map_file [Bigarray.Genarray]
Memory mapping of a file as a big array.
mapi [StdLabels.Array]
mapi [MoreLabels.Map.S]
mapi [Map.S]
Same as Map.S.map, but the function receives as arguments both the key and the associated value for each binding of the map.
mapi [ListLabels]
Same as List.map, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
mapi [List]
Same as List.map, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
mapi [ArrayLabels]
Same as ArrayLabels.map, but the function is applied to the index of the element as first argument, and the element itself as second argument.
mapi [Array]
Same as Array.map, but the function is applied to the index of the element as first argument, and the element itself as second argument.
marshal [Obj]
match_beginning [Str]
match_beginning() returns the position of the first character of the substring that was matched by the last call to a matching or searching function (see Str.matched_string for details).
match_end [Str]
match_end() returns the position of the character following the last character of the substring that was matched by the last call to a matching or searching function (see Str.matched_string for details).
matched_group [Str]
matched_group n s returns the substring of s that was matched by the nth group \(...\) of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details).
matched_string [Str]
matched_string s returns the substring of s that was matched by the last call to one of the following matching or searching functions: Str.string_match, Str.search_forward, Str.search_backward, Str.string_partial_match, Str.global_substitute, Str.substitute_first provided that none of the following functions was called inbetween:, Str.global_replace, Str.replace_first, Str.split, Str.bounded_split, Str.split_delim, Str.bounded_split_delim, Str.full_split, Str.bounded_full_split Note: in the case of global_substitute and substitute_first, a call to matched_string is only valid within the subst argument, not after global_substitute or substitute_first returns.
max [Pervasives]
Return the greater of the two arguments.
max_array_length [Sys]
Maximum length of a normal array.
max_big_int [Big_int]
Return the greater of its two arguments.
max_binding [MoreLabels.Map.S]
max_binding [Map.S]
Same as Map.S.min_binding, but returns the largest binding of the given map.
max_elt [Set.S]
Same as Set.S.min_elt, but returns the largest element of the given set.
max_elt [MoreLabels.Set.S]
max_float [Pervasives]
The largest positive finite value of type float.
max_int [Pervasives]
The greatest representable integer.
max_int [Nativeint]
The greatest representable native integer, either 231 - 1 on a 32-bit platform, or 263 - 1 on a 64-bit platform.
max_int [Int64]
The greatest representable 64-bit integer, 263 - 1.
max_int [Int32]
The greatest representable 32-bit integer, 231 - 1.
max_num [Num]
Return the greater of the two arguments.
max_string_length [Sys]
Maximum length of a string.
mem [Weak.S]
mem t x returns true if there is at least one instance of x in t, false otherwise.
mem [StdLabels.List]
mem [Set.S]
mem x s tests whether x belongs to the set s.
mem [MoreLabels.Set.S]
mem [MoreLabels.Map.S]
mem [MoreLabels.Hashtbl.SeededS]
mem [MoreLabels.Hashtbl.S]
mem [MoreLabels.Hashtbl]
mem [Map.S]
mem x m returns true if m contains a binding for x, and false otherwise.
mem [ListLabels]
mem a l is true if and only if a is equal to an element of l.
mem [List]
mem a l is true if and only if a is equal to an element of l.
mem [Hashtbl.SeededS]
mem [Hashtbl.S]
mem [Hashtbl]
Hashtbl.mem tbl x checks if x is bound in tbl.
mem_assoc [StdLabels.List]
mem_assoc [ListLabels]
Same as ListLabels.assoc, but simply return true if a binding exists, and false if no bindings exist for the given key.
mem_assoc [List]
Same as List.assoc, but simply return true if a binding exists, and false if no bindings exist for the given key.
mem_assq [StdLabels.List]
mem_assq [ListLabels]
Same as ListLabels.mem_assoc, but uses physical equality instead of structural equality to compare keys.
mem_assq [List]
Same as List.mem_assoc, but uses physical equality instead of structural equality to compare keys.
memq [StdLabels.List]
memq [ListLabels]
Same as ListLabels.mem, but uses physical equality instead of structural equality to compare list elements.
memq [List]
Same as List.mem, but uses physical equality instead of structural equality to compare list elements.
merge [Weak.S]
merge t x returns an instance of x found in t if any, or else adds x to t and return x.
merge [StdLabels.List]
merge [Sort]
Merge two lists according to the given predicate.
merge [MoreLabels.Map.S]
merge [Map.S]
merge f m1 m2 computes a map whose keys is a subset of keys of m1 and of m2.
merge [ListLabels]
Merge two lists: Assuming that l1 and l2 are sorted according to the comparison function cmp, merge cmp l1 l2 will return a sorted list containting all the elements of l1 and l2.
merge [List]
Merge two lists: Assuming that l1 and l2 are sorted according to the comparison function cmp, merge cmp l1 l2 will return a sorted list containting all the elements of l1 and l2.
min [Pervasives]
Return the smaller of the two arguments.
min_big_int [Big_int]
Return the smaller of its two arguments.
min_binding [MoreLabels.Map.S]
min_binding [Map.S]
Return the smallest binding of the given map (with respect to the Ord.compare ordering), or raise Not_found if the map is empty.
min_elt [Set.S]
Return the smallest element of the given set (with respect to the Ord.compare ordering), or raise Not_found if the set is empty.
min_elt [MoreLabels.Set.S]
min_float [Pervasives]
The smallest positive, non-zero, non-denormalized value of type float.
min_int [Pervasives]
The smallest representable integer.
min_int [Nativeint]
The greatest representable native integer, either -231 on a 32-bit platform, or -263 on a 64-bit platform.
min_int [Int64]
The smallest representable 64-bit integer, -263.
min_int [Int32]
The smallest representable 32-bit integer, -231.
min_num [Num]
Return the smaller of the two arguments.
minor [Gc]
Trigger a minor collection.
minus_big_int [Big_int]
Unary negation.
minus_num [Num]
Unary negation.
minus_one [Nativeint]
The native integer -1.
minus_one [Int64]
The 64-bit integer -1.
minus_one [Int32]
The 32-bit integer -1.
mkdir [UnixLabels]
Create a directory with the given permissions.
mkdir [Unix]
Create a directory with the given permissions (see Unix.umask).
mkfifo [UnixLabels]
Create a named pipe with the given permissions.
mkfifo [Unix]
Create a named pipe with the given permissions (see Unix.umask).
mktime [UnixLabels]
Convert a date and time, specified by the tm argument, into a time in seconds, as returned by UnixLabels.time.
mktime [Unix]
Convert a date and time, specified by the tm argument, into a time in seconds, as returned by Unix.time.
mod_big_int [Big_int]
Euclidean modulus of two big integers.
mod_float [Pervasives]
mod_float a b returns the remainder of a with respect to b.
mod_num [Num]
Euclidean division: remainder.
modf [Pervasives]
modf f returns the pair of the fractional and integral part of f.
mouse_pos [Graphics]
Return the position of the mouse cursor, relative to the graphics window.
moveto [Graphics]
Position the current point.
mul [Nativeint]
Multiplication.
mul [Int64]
Multiplication.
mul [Int32]
Multiplication.
mul [Complex]
Multiplication
mult_big_int [Big_int]
Multiplication of two big integers.
mult_int_big_int [Big_int]
Multiplication of a big integer by a small integer
mult_num [Num]
Multiplication

N
name_of_input [Scanf.Scanning]
Scanning.name_of_input ic returns the name of the character source for the formatted input channel ic.
nan [Pervasives]
A special floating-point value denoting the result of an undefined operation such as 0.0 /. 0.0.
narrow [CamlinternalOO]
nat_of_num [Num]
nativeint [Random.State]
nativeint [Random]
Random.nativeint bound returns a random integer between 0 (inclusive) and bound (exclusive).
nativeint [Bigarray]
See Bigarray.char.
nativeint_of_big_int [Big_int]
Convert a big integer to a native integer.
neg [Nativeint]
Unary negation.
neg [Int64]
Unary negation.
neg [Int32]
Unary negation.
neg [Complex]
Unary negation.
neg_infinity [Pervasives]
Negative infinity.
new_block [Obj]
new_channel [Event]
Return a new channel.
new_line [Lexing]
Update the lex_curr_p field of the lexbuf to reflect the start of a new line.
new_method [CamlinternalOO]
new_methods_variables [CamlinternalOO]
new_variable [CamlinternalOO]
next [Stream]
Return the first element of the stream and remove it from the stream.
nice [UnixLabels]
Change the process priority.
nice [Unix]
Change the process priority.
no_scan_tag [Obj]
norm [Complex]
Norm: given x + i.y, returns sqrt(x^2 + y^2).
norm2 [Complex]
Norm squared: given x + i.y, returns x^2 + y^2.
not [Pervasives]
The boolean negation.
npeek [Stream]
npeek n returns the list of the n first elements of the stream, or all its remaining elements if less than n elements are available.
nth [StdLabels.List]
nth [ListLabels]
Return the n-th element of the given list.
nth [List]
Return the n-th element of the given list.
nth [Buffer]
get the n-th character of the buffer.
nth_dim [Bigarray.Genarray]
Genarray.nth_dim a n returns the n-th dimension of the big array a.
num_digits_big_int [Big_int]
Return the number of machine words used to store the given big integer.
num_dims [Bigarray.Genarray]
Return the number of dimensions of the given big array.
num_of_big_int [Num]
num_of_int [Num]
num_of_nat [Num]
num_of_ratio [Num]
num_of_string [Num]
Convert a string to a number.

O
obj [Obj]
object_tag [Obj]
ocaml_version [Sys]
ocaml_version is the version of OCaml.
of_array [Bigarray.Array3]
Build a three-dimensional big array initialized from the given array of arrays of arrays.
of_array [Bigarray.Array2]
Build a two-dimensional big array initialized from the given array of arrays.
of_array [Bigarray.Array1]
Build a one-dimensional big array initialized from the given array.
of_channel [Stream]
Return the stream of the characters read from the input channel.
of_float [Nativeint]
Convert the given floating-point number to a native integer, discarding the fractional part (truncate towards 0).
of_float [Int64]
Convert the given floating-point number to a 64-bit integer, discarding the fractional part (truncate towards 0).
of_float [Int32]
Convert the given floating-point number to a 32-bit integer, discarding the fractional part (truncate towards 0).
of_int [Nativeint]
Convert the given integer (type int) to a native integer (type nativeint).
of_int [Int64]
Convert the given integer (type int) to a 64-bit integer (type int64).
of_int [Int32]
Convert the given integer (type int) to a 32-bit integer (type int32).
of_int32 [Nativeint]
Convert the given 32-bit integer (type int32) to a native integer.
of_int32 [Int64]
Convert the given 32-bit integer (type int32) to a 64-bit integer (type int64).
of_list [Stream]
Return the stream holding the elements of the list in the same order.
of_list [StdLabels.Array]
of_list [ArrayLabels]
Array.of_list l returns a fresh array containing the elements of l.
of_list [Array]
Array.of_list l returns a fresh array containing the elements of l.
of_nativeint [Int64]
Convert the given native integer (type nativeint) to a 64-bit integer (type int64).
of_string [Stream]
Return the stream of the characters of the string parameter.
of_string [Nativeint]
Convert the given string to a native integer.
of_string [Int64]
Convert the given string to a 64-bit integer.
of_string [Int32]
Convert the given string to a 32-bit integer.
one [Nativeint]
The native integer 1.
one [Int64]
The 64-bit integer 1.
one [Int32]
The 32-bit integer 1.
one [Complex]
The complex number 1.
openTk [Tk]
Initialize LablTk and open a toplevel window.
open_box [Format]
open_box d opens a new pretty-printing box with offset d.
open_connection [UnixLabels]
Connect to a server at the given address.
open_connection [Unix]
Connect to a server at the given address.
open_connection [ThreadUnix]
open_graph [Graphics]
Show the graphics window or switch the screen to graphic mode.
open_hbox [Format]
open_hbox () opens a new pretty-printing box.
open_hovbox [Format]
open_hovbox d opens a new pretty-printing box with offset d.
open_hvbox [Format]
open_hvbox d opens a new pretty-printing box with offset d.
open_in [Scanf.Scanning]
Scanning.open_in fname returns a formatted input channel for bufferized reading in text mode from file fname.
open_in [Pervasives]
Open the named file for reading, and return a new input channel on that file, positionned at the beginning of the file.
open_in_bin [Scanf.Scanning]
Scanning.open_in_bin fname returns a formatted input channel for bufferized reading in binary mode from file fname.
open_in_bin [Pervasives]
Same as open_in, but the file is opened in binary mode, so that no translation takes place during reads.
open_in_gen [Pervasives]
open_in_gen mode perm filename opens the named file for reading, as described above.
open_out [Pervasives]
Open the named file for writing, and return a new output channel on that file, positionned at the beginning of the file.
open_out_bin [Pervasives]
Same as open_out, but the file is opened in binary mode, so that no translation takes place during writes.
open_out_gen [Pervasives]
open_out_gen mode perm filename opens the named file for writing, as described above.
open_process [UnixLabels]
Same as UnixLabels.open_process_out, but redirects both the standard input and standard output of the command to pipes connected to the two returned channels.
open_process [Unix]
Same as Unix.open_process_out, but redirects both the standard input and standard output of the command to pipes connected to the two returned channels.
open_process [ThreadUnix]
open_process_full [UnixLabels]
Similar to UnixLabels.open_process, but the second argument specifies the environment passed to the command.
open_process_full [Unix]
Similar to Unix.open_process, but the second argument specifies the environment passed to the command.
open_process_in [UnixLabels]
High-level pipe and process management.
open_process_in [Unix]
High-level pipe and process management.
open_process_in [ThreadUnix]
open_process_out [UnixLabels]
Same as UnixLabels.open_process_in, but redirect the standard input of the command to a pipe.
open_process_out [Unix]
Same as Unix.open_process_in, but redirect the standard input of the command to a pipe.
open_process_out [ThreadUnix]
open_subwindow [GraphicsX11]
Create a sub-window of the current OCaml graphics window and return its identifier.
open_tag [Format]
open_tag t opens the tag named t; the print_open_tag function of the formatter is called with t as argument; the tag marker mark_open_tag t will be flushed into the output device of the formatter.
open_tbox [Format]
Opens a tabulation box.
open_temp_file [Filename]
Same as Filename.temp_file, but returns both the name of a fresh temporary file, and an output channel opened (atomically) on this file.
open_vbox [Format]
open_vbox d opens a new pretty-printing box with offset d.
opendir [UnixLabels]
Open a descriptor on a directory
opendir [Unix]
Open a descriptor on a directory
openfile [UnixLabels]
Open the named file with the given flags.
openfile [Unix]
Open the named file with the given flags.
or_big_int [Big_int]
Bitwise logical 'or'.
os_type [Sys]
Operating system currently executing the OCaml program.
out_channel_length [Pervasives.LargeFile]
out_channel_length [Pervasives]
Return the size (number of characters) of the regular file on which the given channel is opened.
out_channel_of_descr [UnixLabels]
Create an output channel writing on the given descriptor.
out_channel_of_descr [Unix]
Create an output channel writing on the given descriptor.
out_of_heap_tag [Obj]
output [Pervasives]
output oc buf pos len writes len characters from string buf, starting at offset pos, to the given output channel oc.
output [Digest]
Write a digest on the given output channel.
output_binary_int [Pervasives]
Write one integer in binary format (4 bytes, big-endian) on the given output channel.
output_buffer [Buffer]
output_buffer oc b writes the current contents of buffer b on the output channel oc.
output_byte [Pervasives]
Write one 8-bit integer (as the single character with that code) on the given output channel.
output_char [Pervasives]
Write the character on the given output channel.
output_string [Pervasives]
Write the string on the given output channel.
output_value [Pervasives]
Write the representation of a structured value of any type to a channel.
over_max_boxes [Format]
Tests if the maximum number of boxes allowed have already been opened.

P
pack [Tk]
Pack a widget inside its parent, using the standard layout engine.
params [CamlinternalOO]
parent_dir_name [Filename]
The conventional name for the parent of the current directory (e.g.
parse [Arg]
Arg.parse speclist anon_fun usage_msg parses the command line.
parse_argv [Arg]
Arg.parse_argv ~current args speclist anon_fun usage_msg parses the array args as if it were the command line.
parse_argv_dynamic [Arg]
Same as Arg.parse_argv, except that the speclist argument is a reference and may be updated during the parsing.
parse_dynamic [Arg]
Same as Arg.parse, except that the speclist argument is a reference and may be updated during the parsing.
partition [StdLabels.List]
partition [Set.S]
partition p s returns a pair of sets (s1, s2), where s1 is the set of all the elements of s that satisfy the predicate p, and s2 is the set of all the elements of s that do not satisfy p.
partition [MoreLabels.Set.S]
partition [MoreLabels.Map.S]
partition [Map.S]
partition p m returns a pair of maps (m1, m2), where m1 contains all the bindings of s that satisfy the predicate p, and m2 is the map with all the bindings of s that do not satisfy p.
partition [ListLabels]
partition p l returns a pair of lists (l1, l2), where l1 is the list of all the elements of l that satisfy the predicate p, and l2 is the list of all the elements of l that do not satisfy p.
partition [List]
partition p l returns a pair of lists (l1, l2), where l1 is the list of all the elements of l that satisfy the predicate p, and l2 is the list of all the elements of l that do not satisfy p.
pause [UnixLabels]
Wait until a non-ignored, non-blocked signal is delivered.
pause [Unix]
Wait until a non-ignored, non-blocked signal is delivered.
peek [Stream]
Return Some of "the first element" of the stream, or None if the stream is empty.
peek [Queue]
peek q returns the first element in queue q, without removing it from the queue, or raises Empty if the queue is empty.
pipe [UnixLabels]
Create a pipe.
pipe [Unix]
Create a pipe.
pipe [ThreadUnix]
pixels [Tk]
Converts various on-screen units to pixels, respective to the default display.
place [Tk]
Pack a widget inside its parent, at absolute coordinates.
plot [Graphics]
Plot the given point with the current drawing color.
plots [Graphics]
Plot the given points with the current drawing color.
point_color [Graphics]
Return the color of the given point in the backing store (see "Double buffering" below).
polar [Complex]
polar norm arg returns the complex having norm norm and argument arg.
poll [Event]
Non-blocking version of Event.sync: offer all the communication possibilities specified in the event to the outside world, and if one can take place immediately, perform it and return Some r where r is the result value of that communication.
pop [Stack]
pop s removes and returns the topmost element in stack s, or raises Empty if the stack is empty.
pop [Queue]
pop is a synonym for take.
pos_in [Pervasives.LargeFile]
pos_in [Pervasives]
Return the current reading position for the given channel.
pos_out [Pervasives.LargeFile]
pos_out [Pervasives]
Return the current writing position for the given channel.
pow [Complex]
Power function.
power_big_int_positive_big_int [Big_int]
Exponentiation functions.
power_big_int_positive_int [Big_int]
power_int_positive_big_int [Big_int]
power_int_positive_int [Big_int]
power_num [Num]
Exponentiation
pp_close_box [Format]
pp_close_tag [Format]
pp_close_tbox [Format]
pp_force_newline [Format]
pp_get_all_formatter_output_functions [Format]
Deprecated.
pp_get_ellipsis_text [Format]
pp_get_formatter_out_functions [Format]
These functions are the basic ones: usual functions operating on the standard formatter are defined via partial evaluation of these primitives.
pp_get_formatter_output_functions [Format]
pp_get_formatter_tag_functions [Format]
pp_get_margin [Format]
pp_get_mark_tags [Format]
pp_get_max_boxes [Format]
pp_get_max_indent [Format]
pp_get_print_tags [Format]
pp_open_box [Format]
pp_open_hbox [Format]
pp_open_hovbox [Format]
pp_open_hvbox [Format]
pp_open_tag [Format]
pp_open_tbox [Format]
pp_open_vbox [Format]
pp_over_max_boxes [Format]
pp_print_as [Format]
pp_print_bool [Format]
pp_print_break [Format]
pp_print_char [Format]
pp_print_cut [Format]
pp_print_float [Format]
pp_print_flush [Format]
pp_print_if_newline [Format]
pp_print_int [Format]
pp_print_newline [Format]
pp_print_space [Format]
pp_print_string [Format]
pp_print_tab [Format]
pp_print_tbreak [Format]
pp_set_all_formatter_output_functions [Format]
Deprecated.
pp_set_ellipsis_text [Format]
pp_set_formatter_out_channel [Format]
pp_set_formatter_out_functions [Format]
pp_set_formatter_output_functions [Format]
pp_set_formatter_tag_functions [Format]
pp_set_margin [Format]
pp_set_mark_tags [Format]
pp_set_max_boxes [Format]
pp_set_max_indent [Format]
pp_set_print_tags [Format]
pp_set_tab [Format]
pp_set_tags [Format]
pred [Pervasives]
pred x is x - 1.
pred [Nativeint]
Predecessor.
pred [Int64]
Predecessor.
pred [Int32]
Predecessor.
pred_big_int [Big_int]
Predecessor (subtract 1).
pred_num [Num]
pred n is n-1
prerr_char [Pervasives]
Print a character on standard error.
prerr_endline [Pervasives]
Print a string, followed by a newline character on standard error and flush standard error.
prerr_float [Pervasives]
Print a floating-point number, in decimal, on standard error.
prerr_int [Pervasives]
Print an integer, in decimal, on standard error.
prerr_newline [Pervasives]
Print a newline character on standard error, and flush standard error.
prerr_string [Pervasives]
Print a string on standard error.
print [Printexc]
Printexc.print fn x applies fn to x and returns the result.
print_as [Format]
print_as len str prints str in the current box.
print_backtrace [Printexc]
Printexc.print_backtrace oc prints an exception backtrace on the output channel oc.
print_bool [Format]
Prints a boolean in the current box.
print_break [Format]
Inserts a break hint in a pretty-printing box.
print_char [Pervasives]
Print a character on standard output.
print_char [Format]
Prints a character in the current box.
print_cut [Format]
print_cut () is used to mark a good break position.
print_endline [Pervasives]
Print a string, followed by a newline character, on standard output and flush standard output.
print_float [Pervasives]
Print a floating-point number, in decimal, on standard output.
print_float [Format]
Prints a floating point number in the current box.
print_flush [Format]
Flushes the pretty printer: all opened boxes are closed, and all pending text is displayed.
print_if_newline [Format]
Executes the next formatting command if the preceding line has just been split.
print_int [Pervasives]
Print an integer, in decimal, on standard output.
print_int [Format]
Prints an integer in the current box.
print_newline [Pervasives]
Print a newline character on standard output, and flush standard output.
print_newline [Format]
Equivalent to print_flush followed by a new line.
print_raw_backtrace [Printexc]
print_space [Format]
print_space () is used to separate items (typically to print a space between two words).
print_stat [Gc]
Print the current values of the memory management counters (in human-readable form) into the channel argument.
print_string [Pervasives]
Print a string on standard output.
print_string [Format]
print_string str prints str in the current box.
print_tab [Format]
print_tab () is equivalent to print_tbreak 0 0.
print_tbreak [Format]
Break hint in a tabulation box.
printf [Printf]
Same as Printf.fprintf, but output on stdout.
printf [Format]
Same as fprintf above, but output on std_formatter.
prohibit [Dynlink]
prohibit units prohibits dynamically-linked units from referencing the units named in list units.
public_method_label [CamlinternalOO]
push [Stack]
push x s adds the element x at the top of stack s.
push [Queue]
push is a synonym for add.
putenv [UnixLabels]
Unix.putenv name value sets the value associated to a variable in the process environment.
putenv [Unix]
Unix.putenv name value sets the value associated to a variable in the process environment.

Q
quick_stat [Gc]
Same as stat except that live_words, live_blocks, free_words, free_blocks, largest_free, and fragments are set to 0.
quo_num [Num]
Euclidean division: quotient.
quomod_big_int [Big_int]
Euclidean division of two big integers.
quote [Str]
Str.quote s returns a regexp string that matches exactly s and nothing else.
quote [Filename]
Return a quoted version of a file name, suitable for use as one argument in a command line, escaping all meta-characters.

R
raise [Pervasives]
Raise the given exception value
raise_window [Tk]
randomize [MoreLabels.Hashtbl]
randomize [Hashtbl]
After a call to Hashtbl.randomize(), hash tables are created in randomized mode by default: Hashtbl.create returns randomized hash tables, unless the ~random:false optional parameter is given.
ratio_of_num [Num]
raw_backtrace_to_string [Printexc]
rcontains_from [StringLabels]
String.rcontains_from s stop c tests if character c appears in the substring of s starting from the beginning of s to index stop.
rcontains_from [String]
String.rcontains_from s stop c tests if character c appears in s before position stop+1.
rcontains_from [StdLabels.String]
read [UnixLabels]
read fd buff ofs len reads len characters from descriptor fd, storing them in string buff, starting at position ofs in string buff.
read [Unix]
read fd buff ofs len reads len characters from descriptor fd, storing them in string buff, starting at position ofs in string buff.
read [ThreadUnix]
read_float [Pervasives]
Flush standard output, then read one line from standard input and convert it to a floating-point number.
read_int [Pervasives]
Flush standard output, then read one line from standard input and convert it to an integer.
read_key [Graphics]
Wait for a key to be pressed, and return the corresponding character.
read_line [Pervasives]
Flush standard output, then read characters from standard input until a newline character is encountered.
readdir [UnixLabels]
Return the next entry in a directory.
readdir [Unix]
Return the next entry in a directory.
readdir [Sys]
Return the names of all files present in the given directory.
readlink [UnixLabels]
Read the contents of a link.
readlink [Unix]
Read the contents of a link.
really_input [Pervasives]
really_input ic buf pos len reads len characters from channel ic, storing them in string buf, starting at character number pos.
receive [Event]
receive ch returns the event consisting in receiving a value from the channel ch.
record_backtrace [Printexc]
Printexc.record_backtrace b turns recording of exception backtraces on (if b = true) or off (if b = false).
recv [UnixLabels]
Receive data from a connected socket.
recv [Unix]
Receive data from a connected socket.
recv [ThreadUnix]
recvfrom [UnixLabels]
Receive data from an unconnected socket.
recvfrom [Unix]
Receive data from an unconnected socket.
recvfrom [ThreadUnix]
red [Graphics]
ref [Pervasives]
Return a fresh reference containing the given value.
regexp [Str]
Compile a regular expression.
regexp_case_fold [Str]
Same as regexp, but the compiled expression will match text in a case-insensitive way: uppercase and lowercase letters will be considered equivalent.
regexp_string [Str]
Str.regexp_string s returns a regular expression that matches exactly s and nothing else.
regexp_string_case_fold [Str]
Str.regexp_string_case_fold is similar to Str.regexp_string, but the regexp matches in a case-insensitive way.
register [Callback]
Callback.register n v registers the value v under the name n.
register_exception [Callback]
Callback.register_exception n exn registers the exception contained in the exception value exn under the name n.
register_printer [Printexc]
Printexc.register_printer fn registers fn as an exception printer.
rem [Nativeint]
Integer remainder.
rem [Int64]
Integer remainder.
rem [Int32]
Integer remainder.
remember_mode [Graphics]
Set remember mode on or off.
remove [Weak.S]
remove t x removes from t one instance of x.
remove [Sys]
Remove the given file name from the file system.
remove [Set.S]
remove x s returns a set containing all elements of s, except x.
remove [MoreLabels.Set.S]
remove [MoreLabels.Map.S]
remove [MoreLabels.Hashtbl.SeededS]
remove [MoreLabels.Hashtbl.S]
remove [MoreLabels.Hashtbl]
remove [Map.S]
remove x m returns a map containing the same bindings as m, except for x which is unbound in the returned map.
remove [Hashtbl.SeededS]
remove [Hashtbl.S]
remove [Hashtbl]
Hashtbl.remove tbl x removes the current binding of x in tbl, restoring the previous binding if it exists.
remove_assoc [StdLabels.List]
remove_assoc [ListLabels]
remove_assoc a l returns the list of pairs l without the first pair with key a, if any.
remove_assoc [List]
remove_assoc a l returns the list of pairs l without the first pair with key a, if any.
remove_assq [StdLabels.List]
remove_assq [ListLabels]
Same as ListLabels.remove_assoc, but uses physical equality instead of structural equality to compare keys.
remove_assq [List]
Same as List.remove_assoc, but uses physical equality instead of structural equality to compare keys.
rename [UnixLabels]
rename old new changes the name of a file from old to new.
rename [Unix]
rename old new changes the name of a file from old to new.
rename [Sys]
Rename a file.
replace [MoreLabels.Hashtbl.SeededS]
replace [MoreLabels.Hashtbl.S]
replace [MoreLabels.Hashtbl]
replace [Hashtbl.SeededS]
replace [Hashtbl.S]
replace [Hashtbl]
Hashtbl.replace tbl x y replaces the current binding of x in tbl by a binding of x to y.
replace_first [Str]
Same as Str.global_replace, except that only the first substring matching the regular expression is replaced.
replace_matched [Str]
replace_matched repl s returns the replacement text repl in which \1, \2, etc.
repr [Obj]
reset [MoreLabels.Hashtbl.SeededS]
reset [MoreLabels.Hashtbl.S]
reset [MoreLabels.Hashtbl]
reset [Hashtbl.SeededS]
reset [Hashtbl.S]
reset [Hashtbl]
Empty a hash table and shrink the size of the bucket table to its initial size.
reset [Buffer]
Empty the buffer and deallocate the internal string holding the buffer contents, replacing it with the initial internal string of length n that was allocated by Buffer.create n.
reshape [Bigarray]
reshape b [|d1;...;dN|] converts the big array b to a N-dimensional array of dimensions d1...
reshape_1 [Bigarray]
Specialized version of Bigarray.reshape for reshaping to one-dimensional arrays.
reshape_2 [Bigarray]
Specialized version of Bigarray.reshape for reshaping to two-dimensional arrays.
reshape_3 [Bigarray]
Specialized version of Bigarray.reshape for reshaping to three-dimensional arrays.
resize_window [Graphics]
Resize and erase the graphics window.
rev [StdLabels.List]
rev [ListLabels]
List reversal.
rev [List]
List reversal.
rev_append [StdLabels.List]
rev_append [ListLabels]
List.rev_append l1 l2 reverses l1 and concatenates it to l2.
rev_append [List]
List.rev_append l1 l2 reverses l1 and concatenates it to l2.
rev_map [StdLabels.List]
rev_map [ListLabels]
List.rev_map f l gives the same result as ListLabels.rev (ListLabels.map f l), but is tail-recursive and more efficient.
rev_map [List]
List.rev_map f l gives the same result as List.rev (List.map f l), but is tail-recursive and more efficient.
rev_map2 [StdLabels.List]
rev_map2 [ListLabels]
List.rev_map2 f l1 l2 gives the same result as ListLabels.rev (ListLabels.map2 f l1 l2), but is tail-recursive and more efficient.
rev_map2 [List]
List.rev_map2 f l1 l2 gives the same result as List.rev (List.map2 f l1 l2), but is tail-recursive and more efficient.
rewinddir [UnixLabels]
Reposition the descriptor to the beginning of the directory
rewinddir [Unix]
Reposition the descriptor to the beginning of the directory
rgb [Graphics]
rgb r g b returns the integer encoding the color with red component r, green component g, and blue component b.
rhs_end [Parsing]
See Parsing.rhs_start.
rhs_end_pos [Parsing]
Same as rhs_end, but return a position instead of an offset.
rhs_start [Parsing]
Same as Parsing.symbol_start and Parsing.symbol_end, but return the offset of the string matching the nth item on the right-hand side of the rule, where n is the integer parameter to rhs_start and rhs_end.
rhs_start_pos [Parsing]
Same as rhs_start, but return a position instead of an offset.
rindex [StringLabels]
String.rindex s c returns the position of the rightmost occurrence of character c in string s.
rindex [String]
String.rindex s c returns the character number of the last occurrence of character c in string s.
rindex [StdLabels.String]
rindex_from [StringLabels]
Same as StringLabels.rindex, but start searching at the character position given as second argument.
rindex_from [String]
String.rindex_from s i c returns the character number of the last occurrence of character c in string s before position i+1.
rindex_from [StdLabels.String]
rlineto [Graphics]
Draw a line with endpoints the current point and the current point translated of the given vector, and move the current point to this point.
rmdir [UnixLabels]
Remove an empty directory.
rmdir [Unix]
Remove an empty directory.
rmoveto [Graphics]
rmoveto dx dy translates the current point by the given vector.
round_num [Num]
round_num n returns the integer closest to n.
run_initializers [CamlinternalOO]
run_initializers_opt [CamlinternalOO]

S
scanf [Scanf]
Same as Scanf.bscanf, but reads from the predefined formatted input channel Scanf.Scanning.stdin that is connected to Pervasives.stdin.
search_backward [Str]
search_backward r s last searches the string s for a substring matching the regular expression r.
search_forward [Str]
search_forward r s start searches the string s for a substring matching the regular expression r.
seeded_hash [MoreLabels.Hashtbl]
seeded_hash [Hashtbl]
A variant of Hashtbl.hash that is further parameterized by an integer seed.
seeded_hash_param [MoreLabels.Hashtbl]
seeded_hash_param [Hashtbl]
A variant of Hashtbl.hash_param that is further parameterized by an integer seed.
seek_in [Pervasives.LargeFile]
seek_in [Pervasives]
seek_in chan pos sets the current reading position to pos for channel chan.
seek_out [Pervasives.LargeFile]
seek_out [Pervasives]
seek_out chan pos sets the current writing position to pos for channel chan.
select [UnixLabels]
Wait until some input/output operations become possible on some channels.
select [Unix]
Wait until some input/output operations become possible on some channels.
select [ThreadUnix]
select [Thread]
Suspend the execution of the calling thead until input/output becomes possible on the given Unix file descriptors.
select [Event]
'Synchronize' on an alternative of events.
self [Thread]
Return the thread currently executing.
self_init [Random]
Initialize the generator with a random seed chosen in a system-dependent way.
send [UnixLabels]
Send data over a connected socket.
send [Unix]
Send data over a connected socket.
send [ThreadUnix]
send [Event]
send ch v returns the event consisting in sending the value v over the channel ch.
send [CamlinternalOO]
sendcache [CamlinternalOO]
sendself [CamlinternalOO]
sendto [UnixLabels]
Send data over an unconnected socket.
sendto [Unix]
Send data over an unconnected socket.
sendto [ThreadUnix]
set [Weak]
Weak.set ar n (Some el) sets the nth cell of ar to be a (full) pointer to el; Weak.set ar n None sets the nth cell of ar to empty.
set [StringLabels]
String.set s n c modifies string s in place, replacing the character number n by c.
set [String]
String.set s n c modifies string s in place, replacing the character number n by c.
set [StdLabels.String]
set [StdLabels.Array]
set [Gc]
set r changes the GC parameters according to the control record r.
set [Bigarray.Array3]
Array3.set a x y v, or alternatively a.{x,y,z} <- v, stores the value v at coordinates (x, y, z) in a.
set [Bigarray.Array2]
Array2.set a x y v, or alternatively a.{x,y} <- v, stores the value v at coordinates (x, y) in a.
set [Bigarray.Array1]
Array1.set a x v, also written a.{x} <- v, stores the value v at index x in a.
set [Bigarray.Genarray]
Assign an element of a generic big array.
set [ArrayLabels]
Array.set a n x modifies array a in place, replacing element number n with x.
set [Array]
Array.set a n x modifies array a in place, replacing element number n with x.
set_all_formatter_output_functions [Format]
Deprecated.
set_approx_printing [Arith_status]
Get or set the flag approx_printing.
set_binary_mode_in [Pervasives]
set_binary_mode_in ic true sets the channel ic to binary mode: no translations take place during input.
set_binary_mode_out [Pervasives]
set_binary_mode_out oc true sets the channel oc to binary mode: no translations take place during output.
set_close_on_exec [UnixLabels]
Set the ``close-on-exec'' flag on the given descriptor.
set_close_on_exec [Unix]
Set the ``close-on-exec'' flag on the given descriptor.
set_color [Graphics]
Set the current drawing color.
set_double_field [Obj]
set_ellipsis_text [Format]
Set the text of the ellipsis printed when too many boxes are opened (a single dot, ., by default).
set_error_when_null_denominator [Arith_status]
Get or set the flag null_denominator.
set_field [Obj]
set_floating_precision [Arith_status]
Get or set the parameter floating_precision.
set_font [Graphics]
Set the font used for drawing text.
set_formatter_out_channel [Format]
Redirect the pretty-printer output to the given channel.
set_formatter_out_functions [Format]
set_formatter_out_functions out_funs Redirect the pretty-printer output to the functions out_funs.out_string and out_funs.out_flush as described in set_formatter_output_functions.
set_formatter_output_functions [Format]
set_formatter_output_functions out flush redirects the pretty-printer output functions to the functions out and flush.
set_formatter_tag_functions [Format]
set_formatter_tag_functions tag_funs changes the meaning of opening and closing tags to use the functions in tag_funs.
set_line_width [Graphics]
Set the width of points and lines drawn with the functions above.
set_margin [Format]
set_margin d sets the value of the right margin to d (in characters): this value is used to detect line overflows that leads to split lines.
set_mark_tags [Format]
set_print_tags b turns on or off the printing of tags, while set_mark_tags b turns on or off the output of tag markers.
set_max_boxes [Format]
set_max_boxes max sets the maximum number of boxes simultaneously opened.
set_max_indent [Format]
set_max_indent d sets the value of the maximum indentation limit to d (in characters): once this limit is reached, boxes are rejected to the left, if they do not fit on the current line.
set_method [CamlinternalOO]
set_methods [CamlinternalOO]
set_nonblock [UnixLabels]
Set the ``non-blocking'' flag on the given descriptor.
set_nonblock [Unix]
Set the ``non-blocking'' flag on the given descriptor.
set_normalize_ratio [Arith_status]
Get or set the flag normalize_ratio.
set_normalize_ratio_when_printing [Arith_status]
Get or set the flag normalize_ratio_when_printing.
set_print_tags [Format]
set_signal [Sys]
Same as Sys.signal but return value is ignored.
set_state [Random]
Set the state of the generator used by the basic functions.
set_tab [Format]
Sets a tabulation mark at the current insertion point.
set_tag [Obj]
set_tags [Format]
set_tags b turns on or off the treatment of tags (default is off).
set_temp_dir_name [Filename]
Change the temporary directory returned by Filename.get_temp_dir_name and used by Filename.temp_file and Filename.open_temp_file.
set_text_size [Graphics]
Set the character size used for drawing text.
set_trace [Parsing]
Control debugging support for ocamlyacc-generated parsers.
set_window_title [Graphics]
Set the title of the graphics window.
setgid [UnixLabels]
Set the real group id and effective group id for the process.
setgid [Unix]
Set the real group id and effective group id for the process.
setgroups [UnixLabels]
setgroups groups sets the supplementary group IDs for the calling process.
setgroups [Unix]
setgroups groups sets the supplementary group IDs for the calling process.
setitimer [UnixLabels]
setitimer t s sets the interval timer t and returns its previous status.
setitimer [Unix]
setitimer t s sets the interval timer t and returns its previous status.
setsid [UnixLabels]
Put the calling process in a new session and detach it from its controlling terminal.
setsid [Unix]
Put the calling process in a new session and detach it from its controlling terminal.
setsockopt [UnixLabels]
Set or clear a boolean-valued option in the given socket.
setsockopt [Unix]
Set or clear a boolean-valued option in the given socket.
setsockopt_float [UnixLabels]
Same as Unix.setsockopt for a socket option whose value is a floating-point number.
setsockopt_float [Unix]
Same as Unix.setsockopt for a socket option whose value is a floating-point number.
setsockopt_int [UnixLabels]
Same as Unix.setsockopt for an integer-valued socket option.
setsockopt_int [Unix]
Same as Unix.setsockopt for an integer-valued socket option.
setsockopt_optint [UnixLabels]
Same as Unix.setsockopt for a socket option whose value is an int option.
setsockopt_optint [Unix]
Same as Unix.setsockopt for a socket option whose value is an int option.
setuid [UnixLabels]
Set the real user id and effective user id for the process.
setuid [Unix]
Set the real user id and effective user id for the process.
shift_left [Nativeint]
Nativeint.shift_left x y shifts x to the left by y bits.
shift_left [Int64]
Int64.shift_left x y shifts x to the left by y bits.
shift_left [Int32]
Int32.shift_left x y shifts x to the left by y bits.
shift_left_big_int [Big_int]
shift_left_big_int b n returns b shifted left by n bits.
shift_right [Nativeint]
Nativeint.shift_right x y shifts x to the right by y bits.
shift_right [Int64]
Int64.shift_right x y shifts x to the right by y bits.
shift_right [Int32]
Int32.shift_right x y shifts x to the right by y bits.
shift_right_big_int [Big_int]
shift_right_big_int b n returns b shifted right by n bits.
shift_right_logical [Nativeint]
Nativeint.shift_right_logical x y shifts x to the right by y bits.
shift_right_logical [Int64]
Int64.shift_right_logical x y shifts x to the right by y bits.
shift_right_logical [Int32]
Int32.shift_right_logical x y shifts x to the right by y bits.
shift_right_towards_zero_big_int [Big_int]
shift_right_towards_zero_big_int b n returns b shifted right by n bits.
shutdown [UnixLabels]
Shutdown a socket connection.
shutdown [Unix]
Shutdown a socket connection.
shutdown_connection [UnixLabels]
``Shut down'' a connection established with UnixLabels.open_connection; that is, transmit an end-of-file condition to the server reading on the other side of the connection.
shutdown_connection [Unix]
``Shut down'' a connection established with Unix.open_connection; that is, transmit an end-of-file condition to the server reading on the other side of the connection.
sigabrt [Sys]
Abnormal termination
sigalrm [Sys]
Timeout
sigchld [Sys]
Child process terminated
sigcont [Sys]
Continue
sigfpe [Sys]
Arithmetic exception
sighup [Sys]
Hangup on controlling terminal
sigill [Sys]
Invalid hardware instruction
sigint [Sys]
Interactive interrupt (ctrl-C)
sigkill [Sys]
Termination (cannot be ignored)
sigmask [Thread]
sigmask cmd sigs changes the set of blocked signals for the calling thread.
sign_big_int [Big_int]
Return 0 if the given big integer is zero, 1 if it is positive, and -1 if it is negative.
sign_num [Num]
Return -1, 0 or 1 according to the sign of the argument.
signal [Sys]
Set the behavior of the system on receipt of a given signal.
signal [Condition]
signal c restarts one of the processes waiting on the condition variable c.
sigpending [UnixLabels]
Return the set of blocked signals that are currently pending.
sigpending [Unix]
Return the set of blocked signals that are currently pending.
sigpipe [Sys]
Broken pipe
sigprocmask [UnixLabels]
sigprocmask cmd sigs changes the set of blocked signals.
sigprocmask [Unix]
sigprocmask cmd sigs changes the set of blocked signals.
sigprof [Sys]
Profiling interrupt
sigquit [Sys]
Interactive termination
sigsegv [Sys]
Invalid memory reference
sigstop [Sys]
Stop
sigsuspend [UnixLabels]
sigsuspend sigs atomically sets the blocked signals to sigs and waits for a non-ignored, non-blocked signal to be delivered.
sigsuspend [Unix]
sigsuspend sigs atomically sets the blocked signals to sigs and waits for a non-ignored, non-blocked signal to be delivered.
sigterm [Sys]
Termination
sigtstp [Sys]
Interactive stop
sigttin [Sys]
Terminal read from background process
sigttou [Sys]
Terminal write from background process
sigusr1 [Sys]
Application-defined signal 1
sigusr2 [Sys]
Application-defined signal 2
sigvtalrm [Sys]
Timeout in virtual time
sin [Pervasives]
Sine.
single_write [UnixLabels]
Same as write, but attempts to write only once.
single_write [Unix]
Same as write, but attempts to write only once.
singleton [Set.S]
singleton x returns the one-element set containing only x.
singleton [MoreLabels.Set.S]
singleton [MoreLabels.Map.S]
singleton [Map.S]
singleton x y returns the one-element map that contains a binding y for x.
sinh [Pervasives]
Hyperbolic sine.
size [Obj]
size [Nativeint]
The size in bits of a native integer.
size_x [Graphics]
See Graphics.size_y.
size_y [Graphics]
Return the size of the graphics window.
sleep [UnixLabels]
Stop execution for the given number of seconds.
sleep [Unix]
Stop execution for the given number of seconds.
sleep [ThreadUnix]
slice_left [Bigarray.Array2]
Extract a row (one-dimensional slice) of the given two-dimensional big array.
slice_left [Bigarray.Genarray]
Extract a sub-array of lower dimension from the given big array by fixing one or several of the first (left-most) coordinates.
slice_left_1 [Bigarray.Array3]
Extract a one-dimensional slice of the given three-dimensional big array by fixing the first two coordinates.
slice_left_2 [Bigarray.Array3]
Extract a two-dimensional slice of the given three-dimensional big array by fixing the first coordinate.
slice_right [Bigarray.Array2]
Extract a column (one-dimensional slice) of the given two-dimensional big array.
slice_right [Bigarray.Genarray]
Extract a sub-array of lower dimension from the given big array by fixing one or several of the last (right-most) coordinates.
slice_right_1 [Bigarray.Array3]
Extract a one-dimensional slice of the given three-dimensional big array by fixing the last two coordinates.
slice_right_2 [Bigarray.Array3]
Extract a two-dimensional slice of the given three-dimensional big array by fixing the last coordinate.
snd [Pervasives]
Return the second component of a pair.
socket [UnixLabels]
Create a new socket in the given domain, and with the given kind.
socket [Unix]
Create a new socket in the given domain, and with the given kind.
socket [ThreadUnix]
socketpair [UnixLabels]
Create a pair of unnamed sockets, connected together.
socketpair [Unix]
Create a pair of unnamed sockets, connected together.
sort [StdLabels.List]
sort [StdLabels.Array]
sort [ListLabels]
Sort a list in increasing order according to a comparison function.
sort [List]
Sort a list in increasing order according to a comparison function.
sort [ArrayLabels]
Sort an array in increasing order according to a comparison function.
sort [Array]
Sort an array in increasing order according to a comparison function.
sound [Graphics]
sound freq dur plays a sound at frequency freq (in hertz) for a duration dur (in milliseconds).
split [Str]
split r s splits s into substrings, taking as delimiters the substrings that match r, and returns the list of substrings.
split [StdLabels.List]
split [Set.S]
split x s returns a triple (l, present, r), where l is the set of elements of s that are strictly less than x; r is the set of elements of s that are strictly greater than x; present is false if s contains no element equal to x, or true if s contains an element equal to x.
split [MoreLabels.Set.S]
split [MoreLabels.Map.S]
split [Map.S]
split x m returns a triple (l, data, r), where l is the map with all the bindings of m whose key is strictly less than x; r is the map with all the bindings of m whose key is strictly greater than x; data is None if m contains no binding for x, or Some v if m binds v to x.
split [ListLabels]
Transform a list of pairs into a pair of lists: split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]).
split [List]
Transform a list of pairs into a pair of lists: split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]).
split_delim [Str]
Same as Str.split but occurrences of the delimiter at the beginning and at the end of the string are recognized and returned as empty strings in the result.
sprintf [Printf]
Same as Printf.fprintf, but instead of printing on an output channel, return a string containing the result of formatting the arguments.
sprintf [Format]
Same as printf above, but instead of printing on a formatter, returns a string containing the result of formatting the arguments.
sqrt [Pervasives]
Square root.
sqrt [Complex]
Square root.
sqrt_big_int [Big_int]
sqrt_big_int a returns the integer square root of a, that is, the largest big integer r such that r * r <= a.
square_big_int [Big_int]
Return the square of the given big integer
square_num [Num]
Squaring
sscanf [Scanf]
Same as Scanf.bscanf, but reads from the given string.
sscanf_format [Scanf]
Same as Scanf.bscanf_format, but reads from the given string.
stable_sort [StdLabels.List]
stable_sort [StdLabels.Array]
stable_sort [ListLabels]
Same as ListLabels.sort, but the sorting algorithm is guaranteed to be stable (i.e.
stable_sort [List]
Same as List.sort, but the sorting algorithm is guaranteed to be stable (i.e.
stable_sort [ArrayLabels]
Same as ArrayLabels.sort, but the sorting algorithm is stable (i.e.
stable_sort [Array]
Same as Array.sort, but the sorting algorithm is stable (i.e.
stat [UnixLabels.LargeFile]
stat [UnixLabels]
Return the information for the named file.
stat [Unix.LargeFile]
stat [Unix]
Return the information for the named file.
stat [Gc]
Return the current values of the memory management counters in a stat record.
stats [Weak.S]
Return statistics on the table.
stats [MoreLabels.Hashtbl.SeededS]
stats [MoreLabels.Hashtbl.S]
stats [MoreLabels.Hashtbl]
stats [Hashtbl.SeededS]
stats [Hashtbl.S]
stats [Hashtbl]
Hashtbl.stats tbl returns statistics about the table tbl: number of buckets, size of the biggest bucket, distribution of buckets by size.
stats [CamlinternalOO]
std_formatter [Format]
The standard formatter used by the formatting functions above.
stdbuf [Format]
The string buffer in which str_formatter writes.
stderr [UnixLabels]
File descriptor for standard error.
stderr [Unix]
File descriptor for standard error.
stderr [Pervasives]
The standard error output for the process.
stdib [Scanf.Scanning]
A deprecated alias for Scanning.stdin, the scanning buffer reading from Pervasives.stdin.
stdin [UnixLabels]
File descriptor for standard input.
stdin [Unix]
File descriptor for standard input.
stdin [Scanf.Scanning]
The standard input notion for the Scanf module.
stdin [Pervasives]
The standard input for the process.
stdout [UnixLabels]
File descriptor for standard output.
stdout [Unix]
File descriptor for standard output.
stdout [Pervasives]
The standard output for the process.
str_formatter [Format]
A formatter to use with formatting functions below for output to the stdbuf string buffer.
string [Digest]
Return the digest of the given string.
string_after [Str]
string_after s n returns the substring of all characters of s that follow position n (including the character at position n).
string_before [Str]
string_before s n returns the substring of all characters of s that precede position n (excluding the character at position n).
string_match [Str]
string_match r s start tests whether a substring of s that starts at position start matches the regular expression r.
string_of_big_int [Big_int]
Return the string representation of the given big integer, in decimal (base 10).
string_of_bool [Pervasives]
Return the string representation of a boolean.
string_of_float [Pervasives]
Return the string representation of a floating-point number.
string_of_format [Pervasives]
Converts a format string into a string.
string_of_inet_addr [UnixLabels]
Return the printable representation of the given Internet address.
string_of_inet_addr [Unix]
Return the printable representation of the given Internet address.
string_of_int [Pervasives]
Return the string representation of an integer, in decimal.
string_of_num [Num]
Convert a number to a string, using fractional notation.
string_partial_match [Str]
Similar to Str.string_match, but also returns true if the argument string is a prefix of a string that matches.
string_tag [Obj]
sub [StringLabels]
String.sub s start len returns a fresh string of length len, containing the characters number start to start + len - 1 of string s.
sub [String]
String.sub s start len returns a fresh string of length len, containing the substring of s that starts at position start and has length len.
sub [StdLabels.String]
sub [StdLabels.Array]
sub [Nativeint]
Subtraction.
sub [Int64]
Subtraction.
sub [Int32]
Subtraction.
sub [Complex]
Subtraction
sub [Buffer]
Buffer.sub b off len returns (a copy of) the substring of the current contents of the buffer b starting at offset off of length len bytes.
sub [Bigarray.Array1]
Extract a sub-array of the given one-dimensional big array.
sub [ArrayLabels]
Array.sub a start len returns a fresh array of length len, containing the elements number start to start + len - 1 of array a.
sub [Array]
Array.sub a start len returns a fresh array of length len, containing the elements number start to start + len - 1 of array a.
sub_big_int [Big_int]
Subtraction.
sub_left [Bigarray.Array3]
Extract a three-dimensional sub-array of the given three-dimensional big array by restricting the first dimension.
sub_left [Bigarray.Array2]
Extract a two-dimensional sub-array of the given two-dimensional big array by restricting the first dimension.
sub_left [Bigarray.Genarray]
Extract a sub-array of the given big array by restricting the first (left-most) dimension.
sub_num [Num]
Subtraction
sub_right [Bigarray.Array3]
Extract a three-dimensional sub-array of the given three-dimensional big array by restricting the second dimension.
sub_right [Bigarray.Array2]
Extract a two-dimensional sub-array of the given two-dimensional big array by restricting the second dimension.
sub_right [Bigarray.Genarray]
Extract a sub-array of the given big array by restricting the last (right-most) dimension.
subset [Set.S]
subset s1 s2 tests whether the set s1 is a subset of the set s2.
subset [MoreLabels.Set.S]
substitute_first [Str]
Same as Str.global_substitute, except that only the first substring matching the regular expression is replaced.
substring [Digest]
Digest.substring s ofs len returns the digest of the substring of s starting at character number ofs and containing len characters.
succ [Pervasives]
succ x is x + 1.
succ [Nativeint]
Successor.
succ [Int64]
Successor.
succ [Int32]
Successor.
succ_big_int [Big_int]
Successor (add 1).
succ_num [Num]
succ n is n+1
symbol_end [Parsing]
See Parsing.symbol_start.
symbol_end_pos [Parsing]
Same as symbol_end, but return a position instead of an offset.
symbol_start [Parsing]
symbol_start and Parsing.symbol_end are to be called in the action part of a grammar rule only.
symbol_start_pos [Parsing]
Same as symbol_start, but return a position instead of an offset.
symlink [UnixLabels]
symlink source dest creates the file dest as a symbolic link to the file source.
symlink [Unix]
symlink source dest creates the file dest as a symbolic link to the file source.
sync [Event]
'Synchronize' on an event: offer all the communication possibilities specified in the event to the outside world, and block until one of the communications succeed.
synchronize [Graphics]
Synchronize the backing store and the on-screen window, by copying the contents of the backing store onto the graphics window.
system [UnixLabels]
Execute the given command, wait until it terminates, and return its termination status.
system [Unix]
Execute the given command, wait until it terminates, and return its termination status.
system [ThreadUnix]

T
tag [Obj]
take [Queue]
take q removes and returns the first element in queue q, or raises Empty if the queue is empty.
tan [Pervasives]
Tangent.
tanh [Pervasives]
Hyperbolic tangent.
tcdrain [UnixLabels]
Waits until all output written on the given file descriptor has been transmitted.
tcdrain [Unix]
Waits until all output written on the given file descriptor has been transmitted.
tcflow [UnixLabels]
Suspend or restart reception or transmission of data on the given file descriptor, depending on the second argument: TCOOFF suspends output, TCOON restarts output, TCIOFF transmits a STOP character to suspend input, and TCION transmits a START character to restart input.
tcflow [Unix]
Suspend or restart reception or transmission of data on the given file descriptor, depending on the second argument: TCOOFF suspends output, TCOON restarts output, TCIOFF transmits a STOP character to suspend input, and TCION transmits a START character to restart input.
tcflush [UnixLabels]
Discard data written on the given file descriptor but not yet transmitted, or data received but not yet read, depending on the second argument: TCIFLUSH flushes data received but not read, TCOFLUSH flushes data written but not transmitted, and TCIOFLUSH flushes both.
tcflush [Unix]
Discard data written on the given file descriptor but not yet transmitted, or data received but not yet read, depending on the second argument: TCIFLUSH flushes data received but not read, TCOFLUSH flushes data written but not transmitted, and TCIOFLUSH flushes both.
tcgetattr [UnixLabels]
Return the status of the terminal referred to by the given file descriptor.
tcgetattr [Unix]
Return the status of the terminal referred to by the given file descriptor.
tcsendbreak [UnixLabels]
Send a break condition on the given file descriptor.
tcsendbreak [Unix]
Send a break condition on the given file descriptor.
tcsetattr [UnixLabels]
Set the status of the terminal referred to by the given file descriptor.
tcsetattr [Unix]
Set the status of the terminal referred to by the given file descriptor.
temp_dir_name [Filename]
temp_file [Filename]
temp_file prefix suffix returns the name of a fresh temporary file in the temporary directory.
text_size [Graphics]
Return the dimensions of the given text, if it were drawn with the current font and size.
time [UnixLabels]
Return the current time since 00:00:00 GMT, Jan.
time [Unix]
Return the current time since 00:00:00 GMT, Jan.
time [Sys]
Return the processor time, in seconds, used by the program since the beginning of execution.
timed_read [ThreadUnix]
See ThreadUnix.timed_write.
timed_write [ThreadUnix]
Behave as ThreadUnix.read and ThreadUnix.write, except that Unix_error(ETIMEDOUT,_,_) is raised if no data is available for reading or ready for writing after d seconds.
times [UnixLabels]
Return the execution times of the process.
times [Unix]
Return the execution times of the process.
tl [StdLabels.List]
tl [ListLabels]
Return the given list without its first element.
tl [List]
Return the given list without its first element.
to_buffer [Marshal]
Marshal.to_buffer buff ofs len v flags marshals the value v, storing its byte representation in the string buff, starting at character number ofs, and writing at most len characters.
to_channel [Marshal]
Marshal.to_channel chan v flags writes the representation of v on channel chan.
to_float [Nativeint]
Convert the given native integer to a floating-point number.
to_float [Int64]
Convert the given 64-bit integer to a floating-point number.
to_float [Int32]
Convert the given 32-bit integer to a floating-point number.
to_hex [Digest]
Return the printable hexadecimal representation of the given digest.
to_int [Nativeint]
Convert the given native integer (type nativeint) to an integer (type int).
to_int [Int64]
Convert the given 64-bit integer (type int64) to an integer (type int).
to_int [Int32]
Convert the given 32-bit integer (type int32) to an integer (type int).
to_int32 [Nativeint]
Convert the given native integer to a 32-bit integer (type int32).
to_int32 [Int64]
Convert the given 64-bit integer (type int64) to a 32-bit integer (type int32).
to_list [StdLabels.Array]
to_list [ArrayLabels]
Array.to_list a returns the list of all the elements of a.
to_list [Array]
Array.to_list a returns the list of all the elements of a.
to_nativeint [Int64]
Convert the given 64-bit integer (type int64) to a native integer.
to_string [Printexc]
Printexc.to_string e returns a string representation of the exception e.
to_string [Nativeint]
Return the string representation of its argument, in decimal.
to_string [Marshal]
Marshal.to_string v flags returns a string containing the representation of v as a sequence of bytes.
to_string [Int64]
Return the string representation of its argument, in decimal.
to_string [Int32]
Return the string representation of its argument, in signed decimal.
top [Stack]
top s returns the topmost element in stack s, or raises Empty if the stack is empty.
top [Queue]
top is a synonym for peek.
total_size [Marshal]
See Marshal.header_size.
transfer [Queue]
transfer q1 q2 adds all of q1's elements at the end of the queue q2, then clears q1.
transp [Graphics]
In matrices of colors, this color represent a 'transparent' point: when drawing the corresponding image, all pixels on the screen corresponding to a transparent pixel in the image will not be modified, while other points will be set to the color of the corresponding point in the image.
trim [StringLabels]
Return a copy of the argument, without leading and trailing whitespace.
trim [String]
Return a copy of the argument, without leading and trailing whitespace.
trim [StdLabels.String]
truncate [UnixLabels.LargeFile]
truncate [UnixLabels]
Truncates the named file to the given size.
truncate [Unix.LargeFile]
truncate [Unix]
Truncates the named file to the given size.
truncate [Pervasives]
Same as int_of_float.
truncate [Obj]
try_lock [Mutex]
Same as Mutex.lock, but does not suspend the calling thread if the mutex is already locked: just return false immediately in that case.

U
umask [UnixLabels]
Set the process's file mode creation mask, and return the previous mask.
umask [Unix]
Set the process's file mode creation mask, and return the previous mask.
unaligned_tag [Obj]
uncapitalize [StringLabels]
Return a copy of the argument, with the first character set to lowercase.
uncapitalize [String]
Return a copy of the argument, with the first character set to lowercase.
uncapitalize [StdLabels.String]
unescaped [Scanf]
Return a copy of the argument with escape sequences, following the lexical conventions of OCaml, replaced by their corresponding special characters.
union [Set.S]
Set union.
union [MoreLabels.Set.S]
unit_big_int [Big_int]
The big integer 1.
unix [Sys]
True if Sys.os_type = "Unix".
unlink [UnixLabels]
Removes the named file
unlink [Unix]
Removes the named file
unlock [Mutex]
Unlock the given mutex.
unmarshal [Obj]
unsafe_blit [StdLabels.String]
unsafe_fill [StdLabels.String]
unsafe_get [StdLabels.String]
unsafe_get [StdLabels.Array]
unsafe_get [Bigarray.Array3]
Like Bigarray.Array3.get, but bounds checking is not always performed.
unsafe_get [Bigarray.Array2]
Like Bigarray.Array2.get, but bounds checking is not always performed.
unsafe_get [Bigarray.Array1]
Like Bigarray.Array1.get, but bounds checking is not always performed.
unsafe_set [StdLabels.String]
unsafe_set [StdLabels.Array]
unsafe_set [Bigarray.Array3]
Like Bigarray.Array3.set, but bounds checking is not always performed.
unsafe_set [Bigarray.Array2]
Like Bigarray.Array2.set, but bounds checking is not always performed.
unsafe_set [Bigarray.Array1]
Like Bigarray.Array1.set, but bounds checking is not always performed.
update [Tk]
Synchronize display with internal state.
update_mod [CamlinternalMod]
uppercase [StringLabels]
Return a copy of the argument, with all lowercase letters translated to uppercase, including accented letters of the ISO Latin-1 (8859-1) character set.
uppercase [String]
Return a copy of the argument, with all lowercase letters translated to uppercase, including accented letters of the ISO Latin-1 (8859-1) character set.
uppercase [StdLabels.String]
uppercase [Char]
Convert the given character to its equivalent uppercase character.
usage [Arg]
Arg.usage speclist usage_msg prints to standard error an error message that includes the list of valid options.
usage_string [Arg]
Returns the message that would have been printed by Arg.usage, if provided with the same parameters.
utimes [UnixLabels]
Set the last access time (second arg) and last modification time (third arg) for a file.
utimes [Unix]
Set the last access time (second arg) and last modification time (third arg) for a file.

W
wait [UnixLabels]
Wait until one of the children processes die, and return its pid and termination status.
wait [Unix]
Wait until one of the children processes die, and return its pid and termination status.
wait [ThreadUnix]
wait [Condition]
wait c m atomically unlocks the mutex m and suspends the calling process on the condition variable c.
wait_next_event [Graphics]
Wait until one of the events specified in the given event list occurs, and return the status of the mouse and keyboard at that time.
wait_pid [Thread]
wait_pid p suspends the execution of the calling thread until the process specified by the process identifier p terminates.
wait_read [Thread]
See Thread.wait_write.
wait_signal [Thread]
wait_signal sigs suspends the execution of the calling thread until the process receives one of the signals specified in the list sigs.
wait_timed_read [Thread]
See Thread.wait_timed_read.
wait_timed_write [Thread]
Suspend the execution of the calling thread until at least one character is available for reading (wait_read) or one character can be written without blocking (wait_write) on the given Unix file descriptor.
wait_write [Thread]
This function does nothing in this implementation.
waitpid [UnixLabels]
Same as UnixLabels.wait, but waits for the child process whose pid is given.
waitpid [Unix]
Same as Unix.wait, but waits for the child process whose pid is given.
waitpid [ThreadUnix]
white [Graphics]
widen [CamlinternalOO]
win32 [Sys]
True if Sys.os_type = "Win32".
window_id [GraphicsX11]
Return the unique identifier of the OCaml graphics window.
word_size [Sys]
Size of one word on the machine currently executing the OCaml program, in bits: 32 or 64.
wrap [Event]
wrap ev fn returns the event that performs the same communications as ev, then applies the post-processing function fn on the return value.
wrap_abort [Event]
wrap_abort ev fn returns the event that performs the same communications as ev, but if it is not selected the function fn is called after the synchronization.
write [UnixLabels]
write fd buff ofs len writes len characters to descriptor fd, taking them from string buff, starting at position ofs in string buff.
write [Unix]
write fd buff ofs len writes len characters to descriptor fd, taking them from string buff, starting at position ofs in string buff.
write [ThreadUnix]

X
xor_big_int [Big_int]
Bitwise logical 'exclusive or'.

Y
yellow [Graphics]
yield [Thread]
Re-schedule the calling thread without suspending it.

Z
zero [Nativeint]
The native integer 0.
zero [Int64]
The 64-bit integer 0.
zero [Int32]
The 32-bit integer 0.
zero [Complex]
The complex number 0.
zero_big_int [Big_int]
The big integer 0.
ocaml-doc-4.01/ocaml.html/libref/Sys.html0000644000175000017500000004610212214324166016511 0ustar i33173i33173 Sys
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Module Sys

module Sys: sig .. end
System interface.
val argv : string array
The command line arguments given to the process. The first element is the command name used to invoke the program. The following elements are the command-line arguments given to the program.
val executable_name : string
The name of the file containing the executable currently running.
val file_exists : string -> bool
Test if a file with the given name exists.
val is_directory : string -> bool
Returns true if the given name refers to a directory, false if it refers to another kind of file. Raise Sys_error if no file exists with the given name.
Since 3.10.0
val remove : string -> unit
Remove the given file name from the file system.
val rename : string -> string -> unit
Rename a file. The first argument is the old name and the second is the new name. If there is already another file under the new name, rename may replace it, or raise an exception, depending on your operating system.
val getenv : string -> string
Return the value associated to a variable in the process environment. Raise Not_found if the variable is unbound.
val command : string -> int
Execute the given shell command and return its exit code.
val time : unit -> float
Return the processor time, in seconds, used by the program since the beginning of execution.
val chdir : string -> unit
Change the current working directory of the process.
val getcwd : unit -> string
Return the current working directory of the process.
val readdir : string -> string array
Return the names of all files present in the given directory. Names denoting the current directory and the parent directory ("." and ".." in Unix) are not returned. Each string in the result is a file name rather than a complete path. There is no guarantee that the name strings in the resulting array will appear in any specific order; they are not, in particular, guaranteed to appear in alphabetical order.
val interactive : bool ref
This reference is initially set to false in standalone programs and to true if the code is being executed under the interactive toplevel system ocaml.
val os_type : string
Operating system currently executing the OCaml program. One of
  • "Unix" (for all Unix versions, including Linux and Mac OS X),
  • "Win32" (for MS-Windows, OCaml compiled with MSVC++ or Mingw),
  • "Cygwin" (for MS-Windows, OCaml compiled with Cygwin).

val unix : bool
True if Sys.os_type = "Unix".
Since 4.01.0
val win32 : bool
True if Sys.os_type = "Win32".
Since 4.01.0
val cygwin : bool
True if Sys.os_type = "Cygwin".
Since 4.01.0
val word_size : int
Size of one word on the machine currently executing the OCaml program, in bits: 32 or 64.
val big_endian : bool
Whether the machine currently executing the Caml program is big-endian.
Since 4.00.0
val max_string_length : int
Maximum length of a string.
val max_array_length : int
Maximum length of a normal array. The maximum length of a float array is max_array_length/2 on 32-bit machines and max_array_length on 64-bit machines.

Signal handling

type signal_behavior =
| Signal_default
| Signal_ignore
| Signal_handle of (int -> unit)
What to do when receiving a signal:
  • Signal_default: take the default behavior (usually: abort the program)
  • Signal_ignore: ignore the signal
  • Signal_handle f: call function f, giving it the signal number as argument.

val signal : int -> signal_behavior -> signal_behavior
Set the behavior of the system on receipt of a given signal. The first argument is the signal number. Return the behavior previously associated with the signal. If the signal number is invalid (or not available on your system), an Invalid_argument exception is raised.
val set_signal : int -> signal_behavior -> unit
Same as Sys.signal but return value is ignored.

Signal numbers for the standard POSIX signals.

val sigabrt : int
Abnormal termination
val sigalrm : int
Timeout
val sigfpe : int
Arithmetic exception
val sighup : int
Hangup on controlling terminal
val sigill : int
Invalid hardware instruction
val sigint : int
Interactive interrupt (ctrl-C)
val sigkill : int
Termination (cannot be ignored)
val sigpipe : int
Broken pipe
val sigquit : int
Interactive termination
val sigsegv : int
Invalid memory reference
val sigterm : int
Termination
val sigusr1 : int
Application-defined signal 1
val sigusr2 : int
Application-defined signal 2
val sigchld : int
Child process terminated
val sigcont : int
Continue
val sigstop : int
Stop
val sigtstp : int
Interactive stop
val sigttin : int
Terminal read from background process
val sigttou : int
Terminal write from background process
val sigvtalrm : int
Timeout in virtual time
val sigprof : int
Profiling interrupt
exception Break
Exception raised on interactive interrupt if Sys.catch_break is on.
val catch_break : bool -> unit
catch_break governs whether interactive interrupt (ctrl-C) terminates the program or raises the Break exception. Call catch_break true to enable raising Break, and catch_break false to let the system terminate the program on user interrupt.
val ocaml_version : string
ocaml_version is the version of OCaml. It is a string of the form "major.minor[.patchlevel][+additional-info]", where major, minor, and patchlevel are integers, and additional-info is an arbitrary string. The [.patchlevel] and [+additional-info] parts may be absent.
ocaml-doc-4.01/ocaml.html/libref/index_module_types.html0000644000175000017500000001756712214324176021651 0ustar i33173i33173 Index of module types
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Index of module types


H
HashedType [MoreLabels.Hashtbl]
HashedType [Hashtbl]
The input signature of the functor Hashtbl.Make.

O
OrderedType [Set]
Input signature of the functor Set.Make.
OrderedType [MoreLabels.Set]
OrderedType [MoreLabels.Map]
OrderedType [Map]
Input signature of the functor Map.Make.

S
S [Weak]
The output signature of the functor Weak.Make.
S [Set]
Output signature of the functor Set.Make.
S [MoreLabels.Set]
S [MoreLabels.Map]
S [MoreLabels.Hashtbl]
S [Map]
Output signature of the functor Map.Make.
S [Hashtbl]
The output signature of the functor Hashtbl.Make.
SeededHashedType [MoreLabels.Hashtbl]
SeededHashedType [Hashtbl]
The input signature of the functor Hashtbl.MakeSeeded.
SeededS [MoreLabels.Hashtbl]
SeededS [Hashtbl]
The output signature of the functor Hashtbl.MakeSeeded.
ocaml-doc-4.01/ocaml.html/libref/Str.html0000644000175000017500000007202312214324166016504 0ustar i33173i33173 Str
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Module Str

module Str: sig .. end
Regular expressions and high-level string processing

Regular expressions

type regexp
The type of compiled regular expressions.
val regexp : string -> regexp
Compile a regular expression. The following constructs are recognized:
  • . Matches any character except newline.
  • * (postfix) Matches the preceding expression zero, one or several times
  • + (postfix) Matches the preceding expression one or several times
  • ? (postfix) Matches the preceding expression once or not at all
  • [..] Character set. Ranges are denoted with -, as in [a-z]. An initial ^, as in [^0-9], complements the set. To include a ] character in a set, make it the first character of the set. To include a - character in a set, make it the first or the last character of the set.
  • ^ Matches at beginning of line (either at the beginning of the matched string, or just after a newline character).
  • $ Matches at end of line (either at the end of the matched string, or just before a newline character).
  • \| (infix) Alternative between two expressions.
  • \(..\) Grouping and naming of the enclosed expression.
  • \1 The text matched by the first \(...\) expression (\2 for the second expression, and so on up to \9).
  • \b Matches word boundaries.
  • \ Quotes special characters. The special characters are $^\.*+?[].
Note: the argument to regexp is usually a string literal. In this case, any backslash character in the regular expression must be doubled to make it past the OCaml string parser. For example, the following expression: 
 let r = Str.regexp "hello \\([A-Za-z]+\\)" in

      Str.replace_first r "\\1" "hello world" 
returns the string "world".

In particular, if you want a regular expression that matches a single backslash character, you need to quote it in the argument to regexp (according to the last item of the list above) by adding a second backslash. Then you need to quote both backslashes (according to the syntax of string constants in OCaml) by doubling them again, so you need to write four backslash characters: Str.regexp "\\\\".

val regexp_case_fold : string -> regexp
Same as regexp, but the compiled expression will match text in a case-insensitive way: uppercase and lowercase letters will be considered equivalent.
val quote : string -> string
Str.quote s returns a regexp string that matches exactly s and nothing else.
val regexp_string : string -> regexp
Str.regexp_string s returns a regular expression that matches exactly s and nothing else.
val regexp_string_case_fold : string -> regexp
Str.regexp_string_case_fold is similar to Str.regexp_string, but the regexp matches in a case-insensitive way.

String matching and searching

val string_match : regexp -> string -> int -> bool
string_match r s start tests whether a substring of s that starts at position start matches the regular expression r. The first character of a string has position 0, as usual.
val search_forward : regexp -> string -> int -> int
search_forward r s start searches the string s for a substring matching the regular expression r. The search starts at position start and proceeds towards the end of the string. Return the position of the first character of the matched substring.
Raises Not_found if no substring matches.
val search_backward : regexp -> string -> int -> int
search_backward r s last searches the string s for a substring matching the regular expression r. The search first considers substrings that start at position last and proceeds towards the beginning of string. Return the position of the first character of the matched substring.
Raises Not_found if no substring matches.
val string_partial_match : regexp -> string -> int -> bool
Similar to Str.string_match, but also returns true if the argument string is a prefix of a string that matches. This includes the case of a true complete match.
val matched_string : string -> string
matched_string s returns the substring of s that was matched by the last call to one of the following matching or searching functions: Note: in the case of global_substitute and substitute_first, a call to matched_string is only valid within the subst argument, not after global_substitute or substitute_first returns.

The user must make sure that the parameter s is the same string that was passed to the matching or searching function.

val match_beginning : unit -> int
match_beginning() returns the position of the first character of the substring that was matched by the last call to a matching or searching function (see Str.matched_string for details).
val match_end : unit -> int
match_end() returns the position of the character following the last character of the substring that was matched by the last call to a matching or searching function (see Str.matched_string for details).
val matched_group : int -> string -> string
matched_group n s returns the substring of s that was matched by the nth group \(...\) of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details). The user must make sure that the parameter s is the same string that was passed to the matching or searching function.
Raises Not_found if the nth group of the regular expression was not matched. This can happen with groups inside alternatives \|, options ? or repetitions *. For instance, the empty string will match \(a\)*, but matched_group 1 "" will raise Not_found because the first group itself was not matched.
val group_beginning : int -> int
group_beginning n returns the position of the first character of the substring that was matched by the nth group of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details).
Raises
  • Not_found if the nth group of the regular expression was not matched.
  • Invalid_argument if there are fewer than n groups in the regular expression.
val group_end : int -> int
group_end n returns the position of the character following the last character of substring that was matched by the nth group of the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details).
Raises
  • Not_found if the nth group of the regular expression was not matched.
  • Invalid_argument if there are fewer than n groups in the regular expression.

Replacement

val global_replace : regexp -> string -> string -> string
global_replace regexp templ s returns a string identical to s, except that all substrings of s that match regexp have been replaced by templ. The replacement template templ can contain \1, \2, etc; these sequences will be replaced by the text matched by the corresponding group in the regular expression. \0 stands for the text matched by the whole regular expression.
val replace_first : regexp -> string -> string -> string
Same as Str.global_replace, except that only the first substring matching the regular expression is replaced.
val global_substitute : regexp -> (string -> string) -> string -> string
global_substitute regexp subst s returns a string identical to s, except that all substrings of s that match regexp have been replaced by the result of function subst. The function subst is called once for each matching substring, and receives s (the whole text) as argument.
val substitute_first : regexp -> (string -> string) -> string -> string
Same as Str.global_substitute, except that only the first substring matching the regular expression is replaced.
val replace_matched : string -> string -> string
replace_matched repl s returns the replacement text repl in which \1, \2, etc. have been replaced by the text matched by the corresponding groups in the regular expression that was matched by the last call to a matching or searching function (see Str.matched_string for details). s must be the same string that was passed to the matching or searching function.

Splitting

val split : regexp -> string -> string list
split r s splits s into substrings, taking as delimiters the substrings that match r, and returns the list of substrings. For instance, split (regexp "[ \t]+") s splits s into blank-separated words. An occurrence of the delimiter at the beginning or at the end of the string is ignored.
val bounded_split : regexp -> string -> int -> string list
Same as Str.split, but splits into at most n substrings, where n is the extra integer parameter.
val split_delim : regexp -> string -> string list
Same as Str.split but occurrences of the delimiter at the beginning and at the end of the string are recognized and returned as empty strings in the result. For instance, split_delim (regexp " ") " abc " returns [""; "abc"; ""], while split with the same arguments returns ["abc"].
val bounded_split_delim : regexp -> string -> int -> string list
Same as Str.bounded_split, but occurrences of the delimiter at the beginning and at the end of the string are recognized and returned as empty strings in the result.
type split_result =
| Text of string
| Delim of string 
val full_split : regexp -> string -> split_result list
Same as Str.split_delim, but returns the delimiters as well as the substrings contained between delimiters. The former are tagged Delim in the result list; the latter are tagged Text. For instance, full_split (regexp "[{}]") "{ab}" returns [Delim "{"; Text "ab"; Delim "}"].
val bounded_full_split : regexp -> string -> int -> split_result list
Same as Str.bounded_split_delim, but returns the delimiters as well as the substrings contained between delimiters. The former are tagged Delim in the result list; the latter are tagged Text.

Extracting substrings

val string_before : string -> int -> string
string_before s n returns the substring of all characters of s that precede position n (excluding the character at position n).
val string_after : string -> int -> string
string_after s n returns the substring of all characters of s that follow position n (including the character at position n).
val first_chars : string -> int -> string
first_chars s n returns the first n characters of s. This is the same function as Str.string_before.
val last_chars : string -> int -> string
last_chars s n returns the last n characters of s.
ocaml-doc-4.01/ocaml.html/libref/index_modules.html0000644000175000017500000003723012214324176020575 0ustar i33173i33173 Index of modules
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Index of modules


A
Arg
Parsing of command line arguments.
Arith_status
Flags that control rational arithmetic.
Array [StdLabels]
Array
Array operations.
Array1 [Bigarray]
One-dimensional arrays.
Array2 [Bigarray]
Two-dimensional arrays.
Array3 [Bigarray]
Three-dimensional arrays.
ArrayLabels
Array operations.

B
Big_int
Operations on arbitrary-precision integers.
Bigarray
Large, multi-dimensional, numerical arrays.
Buffer
Extensible string buffers.

C
Callback
Registering OCaml values with the C runtime.
CamlinternalLazy
Run-time support for lazy values.
CamlinternalMod
Run-time support for recursive modules.
CamlinternalOO
Run-time support for objects and classes.
Char
Character operations.
Complex
Complex numbers.
Condition
Condition variables to synchronize between threads.

D
Digest
MD5 message digest.
Dynlink
Dynamic loading of object files.

E
Event
First-class synchronous communication.

F
Filename
Operations on file names.
Format
Pretty printing.

G
Gc
Memory management control and statistics; finalised values.
Genarray [Bigarray]
Genlex
A generic lexical analyzer.
Graphics
Machine-independent graphics primitives.
GraphicsX11
Additional graphics primitives for the X Windows system.

H
Hashtbl [MoreLabels]
Hashtbl
Hash tables and hash functions.

I
Int32
32-bit integers.
Int64
64-bit integers.

L
LargeFile [UnixLabels]
File operations on large files.
LargeFile [Unix]
File operations on large files.
LargeFile [Pervasives]
Operations on large files.
Lazy
Deferred computations.
Lexing
The run-time library for lexers generated by ocamllex.
List [StdLabels]
List
List operations.
ListLabels
List operations.

M
Make [Weak]
Functor building an implementation of the weak hash table structure.
Make [Set]
Functor building an implementation of the set structure given a totally ordered type.
Make [MoreLabels.Set]
Make [MoreLabels.Map]
Make [MoreLabels.Hashtbl]
Make [Map]
Functor building an implementation of the map structure given a totally ordered type.
Make [Hashtbl]
Functor building an implementation of the hashtable structure.
MakeSeeded [MoreLabels.Hashtbl]
MakeSeeded [Hashtbl]
Functor building an implementation of the hashtable structure.
Map [MoreLabels]
Map
Association tables over ordered types.
Marshal
Marshaling of data structures.
MoreLabels
Extra labeled libraries.
Mutex
Locks for mutual exclusion.

N
Nativeint
Processor-native integers.
Num
Operation on arbitrary-precision numbers.

O
Obj
Operations on internal representations of values.
Oo
Operations on objects

P
Parsing
The run-time library for parsers generated by ocamlyacc.
Pervasives
The initially opened module.
Printexc
Facilities for printing exceptions and inspecting current call stack.
Printf
Formatted output functions.

Q
Queue
First-in first-out queues.

R
Random
Pseudo-random number generators (PRNG).
Ratio
Operation on rational numbers.

S
Scanf
Formatted input functions.
Scanning [Scanf]
Set
Sets over ordered types.
Set [MoreLabels]
Sort
Sorting and merging lists.
Stack
Last-in first-out stacks.
State [Random]
StdLabels
Standard labeled libraries.
Str
Regular expressions and high-level string processing
Stream
Streams and parsers.
String
String operations.
String [StdLabels]
StringLabels
String operations.
Sys
System interface.

T
Thread
Lightweight threads for Posix 1003.1c and Win32.
ThreadUnix
Thread-compatible system calls.
Tk
Basic functions and types for LablTk

U
Unix
Interface to the Unix system
UnixLabels
Interface to the Unix system.

W
Weak
Arrays of weak pointers and hash tables of weak pointers.
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.S.html0000644000175000017500000002534412214324154022610 0ustar i33173i33173 MoreLabels.Hashtbl.S sig
  type key
  and 'a t
  val create : int -> 'MoreLabels.Hashtbl.S.t
  val clear : 'MoreLabels.Hashtbl.S.t -> unit
  val reset : 'MoreLabels.Hashtbl.S.t -> unit
  val copy : 'MoreLabels.Hashtbl.S.t -> 'MoreLabels.Hashtbl.S.t
  val add :
    'MoreLabels.Hashtbl.S.t ->
    key:MoreLabels.Hashtbl.S.key -> data:'-> unit
  val remove : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> unit
  val find : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a
  val find_all :
    'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> 'a list
  val replace :
    'MoreLabels.Hashtbl.S.t ->
    key:MoreLabels.Hashtbl.S.key -> data:'-> unit
  val mem : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.S.key -> bool
  val iter :
    f:(key:MoreLabels.Hashtbl.S.key -> data:'-> unit) ->
    'MoreLabels.Hashtbl.S.t -> unit
  val fold :
    f:(key:MoreLabels.Hashtbl.S.key -> data:'-> '-> 'b) ->
    'MoreLabels.Hashtbl.S.t -> init:'-> 'b
  val length : 'MoreLabels.Hashtbl.S.t -> int
  val stats : 'MoreLabels.Hashtbl.S.t -> MoreLabels.Hashtbl.statistics
endocaml-doc-4.01/ocaml.html/libref/StdLabels.Array.html0000644000175000017500000002051012214324164020656 0ustar i33173i33173 StdLabels.Array
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Module StdLabels.Array

module Array: sig .. end
val length : 'a array -> int
val get : 'a array -> int -> 'a
val set : 'a array -> int -> 'a -> unit
val make : int -> 'a -> 'a array
val create : int -> 'a -> 'a array
val init : int -> f:(int -> 'a) -> 'a array
val make_matrix : dimx:int -> dimy:int -> 'a -> 'a array array
val create_matrix : dimx:int -> dimy:int -> 'a -> 'a array array
val append : 'a array -> 'a array -> 'a array
val concat : 'a array list -> 'a array
val sub : 'a array -> pos:int -> len:int -> 'a array
val copy : 'a array -> 'a array
val fill : 'a array -> pos:int -> len:int -> 'a -> unit
val blit : src:'a array -> src_pos:int -> dst:'a array -> dst_pos:int -> len:int -> unit
val to_list : 'a array -> 'a list
val of_list : 'a list -> 'a array
val iter : f:('a -> unit) -> 'a array -> unit
val map : f:('a -> 'b) -> 'a array -> 'b array
val iteri : f:(int -> 'a -> unit) -> 'a array -> unit
val mapi : f:(int -> 'a -> 'b) -> 'a array -> 'b array
val fold_left : f:('a -> 'b -> 'a) -> init:'a -> 'b array -> 'a
val fold_right : f:('a -> 'b -> 'b) -> 'a array -> init:'b -> 'b
val sort : cmp:('a -> 'a -> int) -> 'a array -> unit
val stable_sort : cmp:('a -> 'a -> int) -> 'a array -> unit
val fast_sort : cmp:('a -> 'a -> int) -> 'a array -> unit
val unsafe_get : 'a array -> int -> 'a
val unsafe_set : 'a array -> int -> 'a -> unit
ocaml-doc-4.01/ocaml.html/libref/Gc.html0000644000175000017500000007243312214324150016263 0ustar i33173i33173 Gc
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Module Gc

module Gc: sig .. end
Memory management control and statistics; finalised values.
type stat = {
   minor_words : float; (*Number of words allocated in the minor heap since the program was started. This number is accurate in byte-code programs, but only an approximation in programs compiled to native code.*)
   promoted_words : float; (*Number of words allocated in the minor heap that survived a minor collection and were moved to the major heap since the program was started.*)
   major_words : float; (*Number of words allocated in the major heap, including the promoted words, since the program was started.*)
   minor_collections : int; (*Number of minor collections since the program was started.*)
   major_collections : int; (*Number of major collection cycles completed since the program was started.*)
   heap_words : int; (*Total size of the major heap, in words.*)
   heap_chunks : int; (*Number of contiguous pieces of memory that make up the major heap.*)
   live_words : int; (*Number of words of live data in the major heap, including the header words.*)
   live_blocks : int; (*Number of live blocks in the major heap.*)
   free_words : int; (*Number of words in the free list.*)
   free_blocks : int; (*Number of blocks in the free list.*)
   largest_free : int; (*Size (in words) of the largest block in the free list.*)
   fragments : int; (*Number of wasted words due to fragmentation. These are 1-words free blocks placed between two live blocks. They are not available for allocation.*)
   compactions : int; (*Number of heap compactions since the program was started.*)
   top_heap_words : int; (*Maximum size reached by the major heap, in words.*)
   stack_size : int; (*Current size of the stack, in words.*)
}
The memory management counters are returned in a stat record.

The total amount of memory allocated by the program since it was started is (in words) minor_words + major_words - promoted_words. Multiply by the word size (4 on a 32-bit machine, 8 on a 64-bit machine) to get the number of bytes.

type control = {
   mutable minor_heap_size : int; (*The size (in words) of the minor heap. Changing this parameter will trigger a minor collection. Default: 32k.*)
   mutable major_heap_increment : int; (*The minimum number of words to add to the major heap when increasing it. Default: 124k.*)
   mutable space_overhead : int; (*The major GC speed is computed from this parameter. This is the memory that will be "wasted" because the GC does not immediatly collect unreachable blocks. It is expressed as a percentage of the memory used for live data. The GC will work more (use more CPU time and collect blocks more eagerly) if space_overhead is smaller. Default: 80.*)
   mutable verbose : int; (*This value controls the GC messages on standard error output. It is a sum of some of the following flags, to print messages on the corresponding events:
  • 0x001 Start of major GC cycle.
  • 0x002 Minor collection and major GC slice.
  • 0x004 Growing and shrinking of the heap.
  • 0x008 Resizing of stacks and memory manager tables.
  • 0x010 Heap compaction.
  • 0x020 Change of GC parameters.
  • 0x040 Computation of major GC slice size.
  • 0x080 Calling of finalisation functions.
  • 0x100 Bytecode executable search at start-up.
  • 0x200 Computation of compaction triggering condition. Default: 0.
*)
   mutable max_overhead : int; (*Heap compaction is triggered when the estimated amount of "wasted" memory is more than max_overhead percent of the amount of live data. If max_overhead is set to 0, heap compaction is triggered at the end of each major GC cycle (this setting is intended for testing purposes only). If max_overhead >= 1000000, compaction is never triggered. If compaction is permanently disabled, it is strongly suggested to set allocation_policy to 1. Default: 500.*)
   mutable stack_limit : int; (*The maximum size of the stack (in words). This is only relevant to the byte-code runtime, as the native code runtime uses the operating system's stack. Default: 256k.*)
   mutable allocation_policy : int; (*The policy used for allocating in the heap. Possible values are 0 and 1. 0 is the next-fit policy, which is quite fast but can result in fragmentation. 1 is the first-fit policy, which can be slower in some cases but can be better for programs with fragmentation problems. Default: 0.*)
}
The GC parameters are given as a control record. Note that these parameters can also be initialised by setting the OCAMLRUNPARAM environment variable. See the documentation of ocamlrun.
val stat : unit -> stat
Return the current values of the memory management counters in a stat record. This function examines every heap block to get the statistics.
val quick_stat : unit -> stat
Same as stat except that live_words, live_blocks, free_words, free_blocks, largest_free, and fragments are set to 0. This function is much faster than stat because it does not need to go through the heap.
val counters : unit -> float * float * float
Return (minor_words, promoted_words, major_words). This function is as fast as quick_stat.
val get : unit -> control
Return the current values of the GC parameters in a control record.
val set : control -> unit
set r changes the GC parameters according to the control record r. The normal usage is: Gc.set { (Gc.get()) with Gc.verbose = 0x00d }
val minor : unit -> unit
Trigger a minor collection.
val major_slice : int -> int
Do a minor collection and a slice of major collection. The argument is the size of the slice, 0 to use the automatically-computed slice size. In all cases, the result is the computed slice size.
val major : unit -> unit
Do a minor collection and finish the current major collection cycle.
val full_major : unit -> unit
Do a minor collection, finish the current major collection cycle, and perform a complete new cycle. This will collect all currently unreachable blocks.
val compact : unit -> unit
Perform a full major collection and compact the heap. Note that heap compaction is a lengthy operation.
val print_stat : out_channel -> unit
Print the current values of the memory management counters (in human-readable form) into the channel argument.
val allocated_bytes : unit -> float
Return the total number of bytes allocated since the program was started. It is returned as a float to avoid overflow problems with int on 32-bit machines.
val finalise : ('a -> unit) -> 'a -> unit
finalise f v registers f as a finalisation function for v. v must be heap-allocated. f will be called with v as argument at some point between the first time v becomes unreachable and the time v is collected by the GC. Several functions can be registered for the same value, or even several instances of the same function. Each instance will be called once (or never, if the program terminates before v becomes unreachable).

The GC will call the finalisation functions in the order of deallocation. When several values become unreachable at the same time (i.e. during the same GC cycle), the finalisation functions will be called in the reverse order of the corresponding calls to finalise. If finalise is called in the same order as the values are allocated, that means each value is finalised before the values it depends upon. Of course, this becomes false if additional dependencies are introduced by assignments.

Anything reachable from the closure of finalisation functions is considered reachable, so the following code will not work as expected:

  • let v = ... in Gc.finalise (fun x -> ...) v
Instead you should write:
  • let f = fun x -> ... ;; let v = ... in Gc.finalise f v
The f function can use all features of OCaml, including assignments that make the value reachable again. It can also loop forever (in this case, the other finalisation functions will not be called during the execution of f, unless it calls finalise_release). It can call finalise on v or other values to register other functions or even itself. It can raise an exception; in this case the exception will interrupt whatever the program was doing when the function was called.

finalise will raise Invalid_argument if v is not heap-allocated. Some examples of values that are not heap-allocated are integers, constant constructors, booleans, the empty array, the empty list, the unit value. The exact list of what is heap-allocated or not is implementation-dependent. Some constant values can be heap-allocated but never deallocated during the lifetime of the program, for example a list of integer constants; this is also implementation-dependent. You should also be aware that compiler optimisations may duplicate some immutable values, for example floating-point numbers when stored into arrays, so they can be finalised and collected while another copy is still in use by the program.

The results of calling String.make, String.create, Array.make, and ref are guaranteed to be heap-allocated and non-constant except when the length argument is 0.

val finalise_release : unit -> unit
A finalisation function may call finalise_release to tell the GC that it can launch the next finalisation function without waiting for the current one to return.
type alarm
An alarm is a piece of data that calls a user function at the end of each major GC cycle. The following functions are provided to create and delete alarms.
val create_alarm : (unit -> unit) -> alarm
create_alarm f will arrange for f to be called at the end of each major GC cycle, starting with the current cycle or the next one. A value of type alarm is returned that you can use to call delete_alarm.
val delete_alarm : alarm -> unit
delete_alarm a will stop the calls to the function associated to a. Calling delete_alarm a again has no effect.
ocaml-doc-4.01/ocaml.html/libref/Bigarray.html0000644000175000017500000007037312214324144017476 0ustar i33173i33173 Bigarray
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Module Bigarray

module Bigarray: sig .. end
Large, multi-dimensional, numerical arrays.

This module implements multi-dimensional arrays of integers and floating-point numbers, thereafter referred to as 'big arrays'. The implementation allows efficient sharing of large numerical arrays between OCaml code and C or Fortran numerical libraries.

Concerning the naming conventions, users of this module are encouraged to do open Bigarray in their source, then refer to array types and operations via short dot notation, e.g. Array1.t or Array2.sub.

Big arrays support all the OCaml ad-hoc polymorphic operations:



Element kinds


Big arrays can contain elements of the following kinds: Each element kind is represented at the type level by one of the abstract types defined below.
type float32_elt 
type float64_elt 
type complex32_elt 
type complex64_elt 
type int8_signed_elt 
type int8_unsigned_elt 
type int16_signed_elt 
type int16_unsigned_elt 
type int_elt 
type int32_elt 
type int64_elt 
type nativeint_elt 
type ('a, 'b) kind
To each element kind is associated an OCaml type, which is the type of OCaml values that can be stored in the big array or read back from it. This type is not necessarily the same as the type of the array elements proper: for instance, a big array whose elements are of kind float32_elt contains 32-bit single precision floats, but reading or writing one of its elements from OCaml uses the OCaml type float, which is 64-bit double precision floats.

The abstract type ('a, 'b) kind captures this association of an OCaml type 'a for values read or written in the big array, and of an element kind 'b which represents the actual contents of the big array. The following predefined values of type kind list all possible associations of OCaml types with element kinds:

val float32 : (float, float32_elt) kind
See Bigarray.char.
val float64 : (float, float64_elt) kind
See Bigarray.char.
val complex32 : (Complex.t, complex32_elt) kind
See Bigarray.char.
val complex64 : (Complex.t, complex64_elt) kind
See Bigarray.char.
val int8_signed : (int, int8_signed_elt) kind
See Bigarray.char.
val int8_unsigned : (int, int8_unsigned_elt) kind
See Bigarray.char.
val int16_signed : (int, int16_signed_elt) kind
See Bigarray.char.
val int16_unsigned : (int, int16_unsigned_elt) kind
See Bigarray.char.
val int : (int, int_elt) kind
See Bigarray.char.
val int32 : (int32, int32_elt) kind
See Bigarray.char.
val int64 : (int64, int64_elt) kind
See Bigarray.char.
val nativeint : (nativeint, nativeint_elt) kind
See Bigarray.char.
val char : (char, int8_unsigned_elt) kind
As shown by the types of the values above, big arrays of kind float32_elt and float64_elt are accessed using the OCaml type float. Big arrays of complex kinds complex32_elt, complex64_elt are accessed with the OCaml type Complex.t. Big arrays of integer kinds are accessed using the smallest OCaml integer type large enough to represent the array elements: int for 8- and 16-bit integer bigarrays, as well as OCaml-integer bigarrays; int32 for 32-bit integer bigarrays; int64 for 64-bit integer bigarrays; and nativeint for platform-native integer bigarrays. Finally, big arrays of kind int8_unsigned_elt can also be accessed as arrays of characters instead of arrays of small integers, by using the kind value char instead of int8_unsigned.

Array layouts

type c_layout
See Bigarray.fortran_layout.
type fortran_layout
To facilitate interoperability with existing C and Fortran code, this library supports two different memory layouts for big arrays, one compatible with the C conventions, the other compatible with the Fortran conventions.

In the C-style layout, array indices start at 0, and multi-dimensional arrays are laid out in row-major format. That is, for a two-dimensional array, all elements of row 0 are contiguous in memory, followed by all elements of row 1, etc. In other terms, the array elements at (x,y) and (x, y+1) are adjacent in memory.

In the Fortran-style layout, array indices start at 1, and multi-dimensional arrays are laid out in column-major format. That is, for a two-dimensional array, all elements of column 0 are contiguous in memory, followed by all elements of column 1, etc. In other terms, the array elements at (x,y) and (x+1, y) are adjacent in memory.

Each layout style is identified at the type level by the abstract types Bigarray.c_layout and fortran_layout respectively.

type 'a layout
The type 'a layout represents one of the two supported memory layouts: C-style if 'a is Bigarray.c_layout, Fortran-style if 'a is Bigarray.fortran_layout.

Supported layouts

The abstract values c_layout and fortran_layout represent the two supported layouts at the level of values.

val c_layout : c_layout layout
val fortran_layout : fortran_layout layout

Generic arrays (of arbitrarily many dimensions)

module Genarray: sig .. end

One-dimensional arrays

module Array1: sig .. end
One-dimensional arrays.

Two-dimensional arrays

module Array2: sig .. end
Two-dimensional arrays.

Three-dimensional arrays

module Array3: sig .. end
Three-dimensional arrays.

Coercions between generic big arrays and fixed-dimension big arrays

val genarray_of_array1 : ('a, 'b, 'c) Array1.t -> ('a, 'b, 'c) Genarray.t
Return the generic big array corresponding to the given one-dimensional big array.
val genarray_of_array2 : ('a, 'b, 'c) Array2.t -> ('a, 'b, 'c) Genarray.t
Return the generic big array corresponding to the given two-dimensional big array.
val genarray_of_array3 : ('a, 'b, 'c) Array3.t -> ('a, 'b, 'c) Genarray.t
Return the generic big array corresponding to the given three-dimensional big array.
val array1_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array1.t
Return the one-dimensional big array corresponding to the given generic big array. Raise Invalid_argument if the generic big array does not have exactly one dimension.
val array2_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array2.t
Return the two-dimensional big array corresponding to the given generic big array. Raise Invalid_argument if the generic big array does not have exactly two dimensions.
val array3_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array3.t
Return the three-dimensional big array corresponding to the given generic big array. Raise Invalid_argument if the generic big array does not have exactly three dimensions.

Re-shaping big arrays

val reshape : ('a, 'b, 'c) Genarray.t ->
       int array -> ('a, 'b, 'c) Genarray.t
reshape b [|d1;...;dN|] converts the big array b to a N-dimensional array of dimensions d1...dN. The returned array and the original array b share their data and have the same layout. For instance, assuming that b is a one-dimensional array of dimension 12, reshape b [|3;4|] returns a two-dimensional array b' of dimensions 3 and 4. If b has C layout, the element (x,y) of b' corresponds to the element x * 3 + y of b. If b has Fortran layout, the element (x,y) of b' corresponds to the element x + (y - 1) * 4 of b. The returned big array must have exactly the same number of elements as the original big array b. That is, the product of the dimensions of b must be equal to i1 * ... * iN. Otherwise, Invalid_argument is raised.
val reshape_1 : ('a, 'b, 'c) Genarray.t -> int -> ('a, 'b, 'c) Array1.t
Specialized version of Bigarray.reshape for reshaping to one-dimensional arrays.
val reshape_2 : ('a, 'b, 'c) Genarray.t ->
       int -> int -> ('a, 'b, 'c) Array2.t
Specialized version of Bigarray.reshape for reshaping to two-dimensional arrays.
val reshape_3 : ('a, 'b, 'c) Genarray.t ->
       int -> int -> int -> ('a, 'b, 'c) Array3.t
Specialized version of Bigarray.reshape for reshaping to three-dimensional arrays.
ocaml-doc-4.01/ocaml.html/libref/StdLabels.List.html0000644000175000017500000002475612214324165020534 0ustar i33173i33173 StdLabels.List
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Module StdLabels.List

module List: sig .. end
val length : 'a list -> int
val hd : 'a list -> 'a
val tl : 'a list -> 'a list
val nth : 'a list -> int -> 'a
val rev : 'a list -> 'a list
val append : 'a list -> 'a list -> 'a list
val rev_append : 'a list -> 'a list -> 'a list
val concat : 'a list list -> 'a list
val flatten : 'a list list -> 'a list
val iter : f:('a -> unit) -> 'a list -> unit
val map : f:('a -> 'b) -> 'a list -> 'b list
val rev_map : f:('a -> 'b) -> 'a list -> 'b list
val fold_left : f:('a -> 'b -> 'a) -> init:'a -> 'b list -> 'a
val fold_right : f:('a -> 'b -> 'b) -> 'a list -> init:'b -> 'b
val iter2 : f:('a -> 'b -> unit) -> 'a list -> 'b list -> unit
val map2 : f:('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
val rev_map2 : f:('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
val fold_left2 : f:('a -> 'b -> 'c -> 'a) -> init:'a -> 'b list -> 'c list -> 'a
val fold_right2 : f:('a -> 'b -> 'c -> 'c) -> 'a list -> 'b list -> init:'c -> 'c
val for_all : f:('a -> bool) -> 'a list -> bool
val exists : f:('a -> bool) -> 'a list -> bool
val for_all2 : f:('a -> 'b -> bool) -> 'a list -> 'b list -> bool
val exists2 : f:('a -> 'b -> bool) -> 'a list -> 'b list -> bool
val mem : 'a -> set:'a list -> bool
val memq : 'a -> set:'a list -> bool
val find : f:('a -> bool) -> 'a list -> 'a
val filter : f:('a -> bool) -> 'a list -> 'a list
val find_all : f:('a -> bool) -> 'a list -> 'a list
val partition : f:('a -> bool) -> 'a list -> 'a list * 'a list
val assoc : 'a -> ('a * 'b) list -> 'b
val assq : 'a -> ('a * 'b) list -> 'b
val mem_assoc : 'a -> map:('a * 'b) list -> bool
val mem_assq : 'a -> map:('a * 'b) list -> bool
val remove_assoc : 'a -> ('a * 'b) list -> ('a * 'b) list
val remove_assq : 'a -> ('a * 'b) list -> ('a * 'b) list
val split : ('a * 'b) list -> 'a list * 'b list
val combine : 'a list -> 'b list -> ('a * 'b) list
val sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
val stable_sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
val fast_sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
val merge : cmp:('a -> 'a -> int) -> 'a list -> 'a list -> 'a list
ocaml-doc-4.01/ocaml.html/libref/type_UnixLabels.html0000644000175000017500000022616712214324172021052 0ustar i33173i33173 UnixLabels sig
  type error =
    Unix.error =
      E2BIG
    | EACCES
    | EAGAIN
    | EBADF
    | EBUSY
    | ECHILD
    | EDEADLK
    | EDOM
    | EEXIST
    | EFAULT
    | EFBIG
    | EINTR
    | EINVAL
    | EIO
    | EISDIR
    | EMFILE
    | EMLINK
    | ENAMETOOLONG
    | ENFILE
    | ENODEV
    | ENOENT
    | ENOEXEC
    | ENOLCK
    | ENOMEM
    | ENOSPC
    | ENOSYS
    | ENOTDIR
    | ENOTEMPTY
    | ENOTTY
    | ENXIO
    | EPERM
    | EPIPE
    | ERANGE
    | EROFS
    | ESPIPE
    | ESRCH
    | EXDEV
    | EWOULDBLOCK
    | EINPROGRESS
    | EALREADY
    | ENOTSOCK
    | EDESTADDRREQ
    | EMSGSIZE
    | EPROTOTYPE
    | ENOPROTOOPT
    | EPROTONOSUPPORT
    | ESOCKTNOSUPPORT
    | EOPNOTSUPP
    | EPFNOSUPPORT
    | EAFNOSUPPORT
    | EADDRINUSE
    | EADDRNOTAVAIL
    | ENETDOWN
    | ENETUNREACH
    | ENETRESET
    | ECONNABORTED
    | ECONNRESET
    | ENOBUFS
    | EISCONN
    | ENOTCONN
    | ESHUTDOWN
    | ETOOMANYREFS
    | ETIMEDOUT
    | ECONNREFUSED
    | EHOSTDOWN
    | EHOSTUNREACH
    | ELOOP
    | EOVERFLOW
    | EUNKNOWNERR of int
  exception Unix_error of UnixLabels.error * string * string
  val error_message : UnixLabels.error -> string
  val handle_unix_error : ('-> 'b) -> '-> 'b
  val environment : unit -> string array
  val getenv : string -> string
  val putenv : string -> string -> unit
  type process_status =
    Unix.process_status =
      WEXITED of int
    | WSIGNALED of int
    | WSTOPPED of int
  type wait_flag = Unix.wait_flag = WNOHANG | WUNTRACED
  val execv : prog:string -> args:string array -> 'a
  val execve : prog:string -> args:string array -> env:string array -> 'a
  val execvp : prog:string -> args:string array -> 'a
  val execvpe : prog:string -> args:string array -> env:string array -> 'a
  val fork : unit -> int
  val wait : unit -> int * UnixLabels.process_status
  val waitpid :
    mode:UnixLabels.wait_flag list -> int -> int * UnixLabels.process_status
  val system : string -> UnixLabels.process_status
  val getpid : unit -> int
  val getppid : unit -> int
  val nice : int -> int
  type file_descr = Unix.file_descr
  val stdin : UnixLabels.file_descr
  val stdout : UnixLabels.file_descr
  val stderr : UnixLabels.file_descr
  type open_flag =
    Unix.open_flag =
      O_RDONLY
    | O_WRONLY
    | O_RDWR
    | O_NONBLOCK
    | O_APPEND
    | O_CREAT
    | O_TRUNC
    | O_EXCL
    | O_NOCTTY
    | O_DSYNC
    | O_SYNC
    | O_RSYNC
    | O_SHARE_DELETE
    | O_CLOEXEC
  type file_perm = int
  val openfile :
    string ->
    mode:UnixLabels.open_flag list ->
    perm:UnixLabels.file_perm -> UnixLabels.file_descr
  val close : UnixLabels.file_descr -> unit
  val read : UnixLabels.file_descr -> buf:string -> pos:int -> len:int -> int
  val write :
    UnixLabels.file_descr -> buf:string -> pos:int -> len:int -> int
  val single_write :
    UnixLabels.file_descr -> buf:string -> pos:int -> len:int -> int
  val in_channel_of_descr : UnixLabels.file_descr -> Pervasives.in_channel
  val out_channel_of_descr : UnixLabels.file_descr -> Pervasives.out_channel
  val descr_of_in_channel : Pervasives.in_channel -> UnixLabels.file_descr
  val descr_of_out_channel : Pervasives.out_channel -> UnixLabels.file_descr
  type seek_command = Unix.seek_command = SEEK_SET | SEEK_CUR | SEEK_END
  val lseek :
    UnixLabels.file_descr -> int -> mode:UnixLabels.seek_command -> int
  val truncate : string -> len:int -> unit
  val ftruncate : UnixLabels.file_descr -> len:int -> unit
  type file_kind =
    Unix.file_kind =
      S_REG
    | S_DIR
    | S_CHR
    | S_BLK
    | S_LNK
    | S_FIFO
    | S_SOCK
  type stats =
    Unix.stats = {
    st_dev : int;
    st_ino : int;
    st_kind : UnixLabels.file_kind;
    st_perm : UnixLabels.file_perm;
    st_nlink : int;
    st_uid : int;
    st_gid : int;
    st_rdev : int;
    st_size : int;
    st_atime : float;
    st_mtime : float;
    st_ctime : float;
  }
  val stat : string -> UnixLabels.stats
  val lstat : string -> UnixLabels.stats
  val fstat : UnixLabels.file_descr -> UnixLabels.stats
  val isatty : UnixLabels.file_descr -> bool
  module LargeFile :
    sig
      val lseek :
        UnixLabels.file_descr ->
        int64 -> mode:UnixLabels.seek_command -> int64
      val truncate : string -> len:int64 -> unit
      val ftruncate : UnixLabels.file_descr -> len:int64 -> unit
      type stats =
        Unix.LargeFile.stats = {
        st_dev : int;
        st_ino : int;
        st_kind : UnixLabels.file_kind;
        st_perm : UnixLabels.file_perm;
        st_nlink : int;
        st_uid : int;
        st_gid : int;
        st_rdev : int;
        st_size : int64;
        st_atime : float;
        st_mtime : float;
        st_ctime : float;
      }
      val stat : string -> UnixLabels.LargeFile.stats
      val lstat : string -> UnixLabels.LargeFile.stats
      val fstat : UnixLabels.file_descr -> UnixLabels.LargeFile.stats
    end
  val unlink : string -> unit
  val rename : src:string -> dst:string -> unit
  val link : src:string -> dst:string -> unit
  type access_permission = Unix.access_permission = R_OK | W_OK | X_OK | F_OK
  val chmod : string -> perm:UnixLabels.file_perm -> unit
  val fchmod : UnixLabels.file_descr -> perm:UnixLabels.file_perm -> unit
  val chown : string -> uid:int -> gid:int -> unit
  val fchown : UnixLabels.file_descr -> uid:int -> gid:int -> unit
  val umask : int -> int
  val access : string -> perm:UnixLabels.access_permission list -> unit
  val dup : UnixLabels.file_descr -> UnixLabels.file_descr
  val dup2 : src:UnixLabels.file_descr -> dst:UnixLabels.file_descr -> unit
  val set_nonblock : UnixLabels.file_descr -> unit
  val clear_nonblock : UnixLabels.file_descr -> unit
  val set_close_on_exec : UnixLabels.file_descr -> unit
  val clear_close_on_exec : UnixLabels.file_descr -> unit
  val mkdir : string -> perm:UnixLabels.file_perm -> unit
  val rmdir : string -> unit
  val chdir : string -> unit
  val getcwd : unit -> string
  val chroot : string -> unit
  type dir_handle = Unix.dir_handle
  val opendir : string -> UnixLabels.dir_handle
  val readdir : UnixLabels.dir_handle -> string
  val rewinddir : UnixLabels.dir_handle -> unit
  val closedir : UnixLabels.dir_handle -> unit
  val pipe : unit -> UnixLabels.file_descr * UnixLabels.file_descr
  val mkfifo : string -> perm:UnixLabels.file_perm -> unit
  val create_process :
    prog:string ->
    args:string array ->
    stdin:UnixLabels.file_descr ->
    stdout:UnixLabels.file_descr -> stderr:UnixLabels.file_descr -> int
  val create_process_env :
    prog:string ->
    args:string array ->
    env:string array ->
    stdin:UnixLabels.file_descr ->
    stdout:UnixLabels.file_descr -> stderr:UnixLabels.file_descr -> int
  val open_process_in : string -> Pervasives.in_channel
  val open_process_out : string -> Pervasives.out_channel
  val open_process : string -> Pervasives.in_channel * Pervasives.out_channel
  val open_process_full :
    string ->
    env:string array ->
    Pervasives.in_channel * Pervasives.out_channel * Pervasives.in_channel
  val close_process_in : Pervasives.in_channel -> UnixLabels.process_status
  val close_process_out : Pervasives.out_channel -> UnixLabels.process_status
  val close_process :
    Pervasives.in_channel * Pervasives.out_channel ->
    UnixLabels.process_status
  val close_process_full :
    Pervasives.in_channel * Pervasives.out_channel * Pervasives.in_channel ->
    UnixLabels.process_status
  val symlink : src:string -> dst:string -> unit
  val readlink : string -> string
  val select :
    read:UnixLabels.file_descr list ->
    write:UnixLabels.file_descr list ->
    except:UnixLabels.file_descr list ->
    timeout:float ->
    UnixLabels.file_descr list * UnixLabels.file_descr list *
    UnixLabels.file_descr list
  type lock_command =
    Unix.lock_command =
      F_ULOCK
    | F_LOCK
    | F_TLOCK
    | F_TEST
    | F_RLOCK
    | F_TRLOCK
  val lockf :
    UnixLabels.file_descr -> mode:UnixLabels.lock_command -> len:int -> unit
  val kill : pid:int -> signal:int -> unit
  type sigprocmask_command =
    Unix.sigprocmask_command =
      SIG_SETMASK
    | SIG_BLOCK
    | SIG_UNBLOCK
  val sigprocmask :
    mode:UnixLabels.sigprocmask_command -> int list -> int list
  val sigpending : unit -> int list
  val sigsuspend : int list -> unit
  val pause : unit -> unit
  type process_times =
    Unix.process_times = {
    tms_utime : float;
    tms_stime : float;
    tms_cutime : float;
    tms_cstime : float;
  }
  type tm =
    Unix.tm = {
    tm_sec : int;
    tm_min : int;
    tm_hour : int;
    tm_mday : int;
    tm_mon : int;
    tm_year : int;
    tm_wday : int;
    tm_yday : int;
    tm_isdst : bool;
  }
  val time : unit -> float
  val gettimeofday : unit -> float
  val gmtime : float -> UnixLabels.tm
  val localtime : float -> UnixLabels.tm
  val mktime : UnixLabels.tm -> float * UnixLabels.tm
  val alarm : int -> int
  val sleep : int -> unit
  val times : unit -> UnixLabels.process_times
  val utimes : string -> access:float -> modif:float -> unit
  type interval_timer =
    Unix.interval_timer =
      ITIMER_REAL
    | ITIMER_VIRTUAL
    | ITIMER_PROF
  type interval_timer_status =
    Unix.interval_timer_status = {
    it_interval : float;
    it_value : float;
  }
  val getitimer :
    UnixLabels.interval_timer -> UnixLabels.interval_timer_status
  val setitimer :
    UnixLabels.interval_timer ->
    UnixLabels.interval_timer_status -> UnixLabels.interval_timer_status
  val getuid : unit -> int
  val geteuid : unit -> int
  val setuid : int -> unit
  val getgid : unit -> int
  val getegid : unit -> int
  val setgid : int -> unit
  val getgroups : unit -> int array
  val setgroups : int array -> unit
  val initgroups : string -> int -> unit
  type passwd_entry =
    Unix.passwd_entry = {
    pw_name : string;
    pw_passwd : string;
    pw_uid : int;
    pw_gid : int;
    pw_gecos : string;
    pw_dir : string;
    pw_shell : string;
  }
  type group_entry =
    Unix.group_entry = {
    gr_name : string;
    gr_passwd : string;
    gr_gid : int;
    gr_mem : string array;
  }
  val getlogin : unit -> string
  val getpwnam : string -> UnixLabels.passwd_entry
  val getgrnam : string -> UnixLabels.group_entry
  val getpwuid : int -> UnixLabels.passwd_entry
  val getgrgid : int -> UnixLabels.group_entry
  type inet_addr = Unix.inet_addr
  val inet_addr_of_string : string -> UnixLabels.inet_addr
  val string_of_inet_addr : UnixLabels.inet_addr -> string
  val inet_addr_any : UnixLabels.inet_addr
  val inet_addr_loopback : UnixLabels.inet_addr
  val inet6_addr_any : UnixLabels.inet_addr
  val inet6_addr_loopback : UnixLabels.inet_addr
  type socket_domain = Unix.socket_domain = PF_UNIX | PF_INET | PF_INET6
  type socket_type =
    Unix.socket_type =
      SOCK_STREAM
    | SOCK_DGRAM
    | SOCK_RAW
    | SOCK_SEQPACKET
  type sockaddr =
    Unix.sockaddr =
      ADDR_UNIX of string
    | ADDR_INET of UnixLabels.inet_addr * int
  val socket :
    domain:UnixLabels.socket_domain ->
    kind:UnixLabels.socket_type -> protocol:int -> UnixLabels.file_descr
  val domain_of_sockaddr : UnixLabels.sockaddr -> UnixLabels.socket_domain
  val socketpair :
    domain:UnixLabels.socket_domain ->
    kind:UnixLabels.socket_type ->
    protocol:int -> UnixLabels.file_descr * UnixLabels.file_descr
  val accept :
    UnixLabels.file_descr -> UnixLabels.file_descr * UnixLabels.sockaddr
  val bind : UnixLabels.file_descr -> addr:UnixLabels.sockaddr -> unit
  val connect : UnixLabels.file_descr -> addr:UnixLabels.sockaddr -> unit
  val listen : UnixLabels.file_descr -> max:int -> unit
  type shutdown_command =
    Unix.shutdown_command =
      SHUTDOWN_RECEIVE
    | SHUTDOWN_SEND
    | SHUTDOWN_ALL
  val shutdown :
    UnixLabels.file_descr -> mode:UnixLabels.shutdown_command -> unit
  val getsockname : UnixLabels.file_descr -> UnixLabels.sockaddr
  val getpeername : UnixLabels.file_descr -> UnixLabels.sockaddr
  type msg_flag = Unix.msg_flag = MSG_OOB | MSG_DONTROUTE | MSG_PEEK
  val recv :
    UnixLabels.file_descr ->
    buf:string -> pos:int -> len:int -> mode:UnixLabels.msg_flag list -> int
  val recvfrom :
    UnixLabels.file_descr ->
    buf:string ->
    pos:int ->
    len:int -> mode:UnixLabels.msg_flag list -> int * UnixLabels.sockaddr
  val send :
    UnixLabels.file_descr ->
    buf:string -> pos:int -> len:int -> mode:UnixLabels.msg_flag list -> int
  val sendto :
    UnixLabels.file_descr ->
    buf:string ->
    pos:int ->
    len:int ->
    mode:UnixLabels.msg_flag list -> addr:UnixLabels.sockaddr -> int
  type socket_bool_option =
      SO_DEBUG
    | SO_BROADCAST
    | SO_REUSEADDR
    | SO_KEEPALIVE
    | SO_DONTROUTE
    | SO_OOBINLINE
    | SO_ACCEPTCONN
    | TCP_NODELAY
    | IPV6_ONLY
  type socket_int_option =
      SO_SNDBUF
    | SO_RCVBUF
    | SO_ERROR
    | SO_TYPE
    | SO_RCVLOWAT
    | SO_SNDLOWAT
  type socket_optint_option = SO_LINGER
  type socket_float_option = SO_RCVTIMEO | SO_SNDTIMEO
  val getsockopt :
    UnixLabels.file_descr -> UnixLabels.socket_bool_option -> bool
  val setsockopt :
    UnixLabels.file_descr -> UnixLabels.socket_bool_option -> bool -> unit
  val getsockopt_int :
    UnixLabels.file_descr -> UnixLabels.socket_int_option -> int
  val setsockopt_int :
    UnixLabels.file_descr -> UnixLabels.socket_int_option -> int -> unit
  val getsockopt_optint :
    UnixLabels.file_descr -> UnixLabels.socket_optint_option -> int option
  val setsockopt_optint :
    UnixLabels.file_descr ->
    UnixLabels.socket_optint_option -> int option -> unit
  val getsockopt_float :
    UnixLabels.file_descr -> UnixLabels.socket_float_option -> float
  val setsockopt_float :
    UnixLabels.file_descr -> UnixLabels.socket_float_option -> float -> unit
  val getsockopt_error : UnixLabels.file_descr -> UnixLabels.error option
  val open_connection :
    UnixLabels.sockaddr -> Pervasives.in_channel * Pervasives.out_channel
  val shutdown_connection : Pervasives.in_channel -> unit
  val establish_server :
    (Pervasives.in_channel -> Pervasives.out_channel -> unit) ->
    addr:UnixLabels.sockaddr -> unit
  type host_entry =
    Unix.host_entry = {
    h_name : string;
    h_aliases : string array;
    h_addrtype : UnixLabels.socket_domain;
    h_addr_list : UnixLabels.inet_addr array;
  }
  type protocol_entry =
    Unix.protocol_entry = {
    p_name : string;
    p_aliases : string array;
    p_proto : int;
  }
  type service_entry =
    Unix.service_entry = {
    s_name : string;
    s_aliases : string array;
    s_port : int;
    s_proto : string;
  }
  val gethostname : unit -> string
  val gethostbyname : string -> UnixLabels.host_entry
  val gethostbyaddr : UnixLabels.inet_addr -> UnixLabels.host_entry
  val getprotobyname : string -> UnixLabels.protocol_entry
  val getprotobynumber : int -> UnixLabels.protocol_entry
  val getservbyname : string -> protocol:string -> UnixLabels.service_entry
  val getservbyport : int -> protocol:string -> UnixLabels.service_entry
  type addr_info = {
    ai_family : UnixLabels.socket_domain;
    ai_socktype : UnixLabels.socket_type;
    ai_protocol : int;
    ai_addr : UnixLabels.sockaddr;
    ai_canonname : string;
  }
  type getaddrinfo_option =
      AI_FAMILY of UnixLabels.socket_domain
    | AI_SOCKTYPE of UnixLabels.socket_type
    | AI_PROTOCOL of int
    | AI_NUMERICHOST
    | AI_CANONNAME
    | AI_PASSIVE
  val getaddrinfo :
    string ->
    string -> UnixLabels.getaddrinfo_option list -> UnixLabels.addr_info list
  type name_info = { ni_hostname : string; ni_service : string; }
  type getnameinfo_option =
      NI_NOFQDN
    | NI_NUMERICHOST
    | NI_NAMEREQD
    | NI_NUMERICSERV
    | NI_DGRAM
  val getnameinfo :
    UnixLabels.sockaddr ->
    UnixLabels.getnameinfo_option list -> UnixLabels.name_info
  type terminal_io =
    Unix.terminal_io = {
    mutable c_ignbrk : bool;
    mutable c_brkint : bool;
    mutable c_ignpar : bool;
    mutable c_parmrk : bool;
    mutable c_inpck : bool;
    mutable c_istrip : bool;
    mutable c_inlcr : bool;
    mutable c_igncr : bool;
    mutable c_icrnl : bool;
    mutable c_ixon : bool;
    mutable c_ixoff : bool;
    mutable c_opost : bool;
    mutable c_obaud : int;
    mutable c_ibaud : int;
    mutable c_csize : int;
    mutable c_cstopb : int;
    mutable c_cread : bool;
    mutable c_parenb : bool;
    mutable c_parodd : bool;
    mutable c_hupcl : bool;
    mutable c_clocal : bool;
    mutable c_isig : bool;
    mutable c_icanon : bool;
    mutable c_noflsh : bool;
    mutable c_echo : bool;
    mutable c_echoe : bool;
    mutable c_echok : bool;
    mutable c_echonl : bool;
    mutable c_vintr : char;
    mutable c_vquit : char;
    mutable c_verase : char;
    mutable c_vkill : char;
    mutable c_veof : char;
    mutable c_veol : char;
    mutable c_vmin : int;
    mutable c_vtime : int;
    mutable c_vstart : char;
    mutable c_vstop : char;
  }
  val tcgetattr : UnixLabels.file_descr -> UnixLabels.terminal_io
  type setattr_when = Unix.setattr_when = TCSANOW | TCSADRAIN | TCSAFLUSH
  val tcsetattr :
    UnixLabels.file_descr ->
    mode:UnixLabels.setattr_when -> UnixLabels.terminal_io -> unit
  val tcsendbreak : UnixLabels.file_descr -> duration:int -> unit
  val tcdrain : UnixLabels.file_descr -> unit
  type flush_queue = Unix.flush_queue = TCIFLUSH | TCOFLUSH | TCIOFLUSH
  val tcflush : UnixLabels.file_descr -> mode:UnixLabels.flush_queue -> unit
  type flow_action = Unix.flow_action = TCOOFF | TCOON | TCIOFF | TCION
  val tcflow : UnixLabels.file_descr -> mode:UnixLabels.flow_action -> unit
  val setsid : unit -> int
endocaml-doc-4.01/ocaml.html/libref/type_Arith_status.html0000644000175000017500000001321712214324143021442 0ustar i33173i33173 Arith_status sig
  val arith_status : unit -> unit
  val get_error_when_null_denominator : unit -> bool
  val set_error_when_null_denominator : bool -> unit
  val get_normalize_ratio : unit -> bool
  val set_normalize_ratio : bool -> unit
  val get_normalize_ratio_when_printing : unit -> bool
  val set_normalize_ratio_when_printing : bool -> unit
  val get_approx_printing : unit -> bool
  val set_approx_printing : bool -> unit
  val get_floating_precision : unit -> int
  val set_floating_precision : int -> unit
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.Make.html0000644000175000017500000002065012214324154022215 0ustar i33173i33173 MoreLabels.Hashtbl.Make
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Functor MoreLabels.Hashtbl.Make

module Make: 
functor (H : HashedType) -> S  with type key = H.t
Parameters:
H : HashedType 
type key 
type 'a t 
val create : int -> 'a t
val clear : 'a t -> unit
val reset : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key:key -> data:'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key:key -> data:'a -> unit
val mem : 'a t -> key -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val length : 'a t -> int
val stats : 'a t -> MoreLabels.Hashtbl.statistics
ocaml-doc-4.01/ocaml.html/libref/type_Parsing.html0000644000175000017500000002033112214324161020366 0ustar i33173i33173 Parsing sig
  val symbol_start : unit -> int
  val symbol_end : unit -> int
  val rhs_start : int -> int
  val rhs_end : int -> int
  val symbol_start_pos : unit -> Lexing.position
  val symbol_end_pos : unit -> Lexing.position
  val rhs_start_pos : int -> Lexing.position
  val rhs_end_pos : int -> Lexing.position
  val clear_parser : unit -> unit
  exception Parse_error
  val set_trace : bool -> bool
  type parser_env
  type parse_tables = {
    actions : (Parsing.parser_env -> Obj.t) array;
    transl_const : int array;
    transl_block : int array;
    lhs : string;
    len : string;
    defred : string;
    dgoto : string;
    sindex : string;
    rindex : string;
    gindex : string;
    tablesize : int;
    table : string;
    check : string;
    error_function : string -> unit;
    names_const : string;
    names_block : string;
  }
  exception YYexit of Obj.t
  val yyparse :
    Parsing.parse_tables ->
    int -> (Lexing.lexbuf -> 'a) -> Lexing.lexbuf -> 'b
  val peek_val : Parsing.parser_env -> int -> 'a
  val is_current_lookahead : '-> bool
  val parse_error : string -> unit
endocaml-doc-4.01/ocaml.html/libref/type_Genlex.html0000644000175000017500000001246412214324150020213 0ustar i33173i33173 Genlex sig
  type token =
      Kwd of string
    | Ident of string
    | Int of int
    | Float of float
    | String of string
    | Char of char
  val make_lexer : string list -> char Stream.t -> Genlex.token Stream.t
endocaml-doc-4.01/ocaml.html/libref/type_Set.html0000644000175000017500000005070612214324164017532 0ustar i33173i33173 Set sig
  module type OrderedType =
    sig
      type t
      val compare : Set.OrderedType.t -> Set.OrderedType.t -> int
    end
  module type S =
    sig
      type elt
      type t
      val empty : Set.S.t
      val is_empty : Set.S.t -> bool
      val mem : Set.S.elt -> Set.S.t -> bool
      val add : Set.S.elt -> Set.S.t -> Set.S.t
      val singleton : Set.S.elt -> Set.S.t
      val remove : Set.S.elt -> Set.S.t -> Set.S.t
      val union : Set.S.t -> Set.S.t -> Set.S.t
      val inter : Set.S.t -> Set.S.t -> Set.S.t
      val diff : Set.S.t -> Set.S.t -> Set.S.t
      val compare : Set.S.t -> Set.S.t -> int
      val equal : Set.S.t -> Set.S.t -> bool
      val subset : Set.S.t -> Set.S.t -> bool
      val iter : (Set.S.elt -> unit) -> Set.S.t -> unit
      val fold : (Set.S.elt -> '-> 'a) -> Set.S.t -> '-> 'a
      val for_all : (Set.S.elt -> bool) -> Set.S.t -> bool
      val exists : (Set.S.elt -> bool) -> Set.S.t -> bool
      val filter : (Set.S.elt -> bool) -> Set.S.t -> Set.S.t
      val partition : (Set.S.elt -> bool) -> Set.S.t -> Set.S.t * Set.S.t
      val cardinal : Set.S.t -> int
      val elements : Set.S.t -> Set.S.elt list
      val min_elt : Set.S.t -> Set.S.elt
      val max_elt : Set.S.t -> Set.S.elt
      val choose : Set.S.t -> Set.S.elt
      val split : Set.S.elt -> Set.S.t -> Set.S.t * bool * Set.S.t
      val find : Set.S.elt -> Set.S.t -> Set.S.elt
    end
  module Make :
    functor (Ord : OrderedType->
      sig
        type elt = Ord.t
        type t
        val empty : t
        val is_empty : t -> bool
        val mem : elt -> t -> bool
        val add : elt -> t -> t
        val singleton : elt -> t
        val remove : elt -> t -> t
        val union : t -> t -> t
        val inter : t -> t -> t
        val diff : t -> t -> t
        val compare : t -> t -> int
        val equal : t -> t -> bool
        val subset : t -> t -> bool
        val iter : (elt -> unit) -> t -> unit
        val fold : (elt -> '-> 'a) -> t -> '-> 'a
        val for_all : (elt -> bool) -> t -> bool
        val exists : (elt -> bool) -> t -> bool
        val filter : (elt -> bool) -> t -> t
        val partition : (elt -> bool) -> t -> t * t
        val cardinal : t -> int
        val elements : t -> elt list
        val min_elt : t -> elt
        val max_elt : t -> elt
        val choose : t -> elt
        val split : elt -> t -> t * bool * t
        val find : elt -> t -> elt
      end
endocaml-doc-4.01/ocaml.html/libref/Callback.html0000644000175000017500000001405612214324146017430 0ustar i33173i33173 Callback
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Module Callback

module Callback: sig .. end
Registering OCaml values with the C runtime.

This module allows OCaml values to be registered with the C runtime under a symbolic name, so that C code can later call back registered OCaml functions, or raise registered OCaml exceptions.

val register : string -> 'a -> unit
Callback.register n v registers the value v under the name n. C code can later retrieve a handle to v by calling caml_named_value(n).
val register_exception : string -> exn -> unit
Callback.register_exception n exn registers the exception contained in the exception value exn under the name n. C code can later retrieve a handle to the exception by calling caml_named_value(n). The exception value thus obtained is suitable for passing as first argument to raise_constant or raise_with_arg.
ocaml-doc-4.01/ocaml.html/libref/index_attributes.html0000644000175000017500000001014312214324176021305 0ustar i33173i33173 Index of class attributes
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Index of class attributes

ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Hashtbl.SeededHashedType.html0000644000175000017500000001011712214324154025546 0ustar i33173i33173 MoreLabels.Hashtbl.SeededHashedType Hashtbl.SeededHashedTypeocaml-doc-4.01/ocaml.html/libref/List.html0000644000175000017500000006240212214324152016642 0ustar i33173i33173 List
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Module List

module List: sig .. end
List operations.

Some functions are flagged as not tail-recursive. A tail-recursive function uses constant stack space, while a non-tail-recursive function uses stack space proportional to the length of its list argument, which can be a problem with very long lists. When the function takes several list arguments, an approximate formula giving stack usage (in some unspecified constant unit) is shown in parentheses.

The above considerations can usually be ignored if your lists are not longer than about 10000 elements.

val length : 'a list -> int
Return the length (number of elements) of the given list.
val hd : 'a list -> 'a
Return the first element of the given list. Raise Failure "hd" if the list is empty.
val tl : 'a list -> 'a list
Return the given list without its first element. Raise Failure "tl" if the list is empty.
val nth : 'a list -> int -> 'a
Return the n-th element of the given list. The first element (head of the list) is at position 0. Raise Failure "nth" if the list is too short. Raise Invalid_argument "List.nth" if n is negative.
val rev : 'a list -> 'a list
List reversal.
val append : 'a list -> 'a list -> 'a list
Catenate two lists. Same function as the infix operator @. Not tail-recursive (length of the first argument). The @ operator is not tail-recursive either.
val rev_append : 'a list -> 'a list -> 'a list
List.rev_append l1 l2 reverses l1 and concatenates it to l2. This is equivalent to List.rev l1 @ l2, but rev_append is tail-recursive and more efficient.
val concat : 'a list list -> 'a list
Concatenate a list of lists. The elements of the argument are all concatenated together (in the same order) to give the result. Not tail-recursive (length of the argument + length of the longest sub-list).
val flatten : 'a list list -> 'a list
Same as concat. Not tail-recursive (length of the argument + length of the longest sub-list).

Iterators

val iter : ('a -> unit) -> 'a list -> unit
List.iter f [a1; ...; an] applies function f in turn to a1; ...; an. It is equivalent to begin f a1; f a2; ...; f an; () end.
val iteri : (int -> 'a -> unit) -> 'a list -> unit
Same as List.iter, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
Since 4.00.0
val map : ('a -> 'b) -> 'a list -> 'b list
List.map f [a1; ...; an] applies function f to a1, ..., an, and builds the list [f a1; ...; f an] with the results returned by f. Not tail-recursive.
val mapi : (int -> 'a -> 'b) -> 'a list -> 'b list
Same as List.map, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument. Not tail-recursive.
Since 4.00.0
val rev_map : ('a -> 'b) -> 'a list -> 'b list
List.rev_map f l gives the same result as List.rev (List.map f l), but is tail-recursive and more efficient.
val fold_left : ('a -> 'b -> 'a) -> 'a -> 'b list -> 'a
List.fold_left f a [b1; ...; bn] is f (... (f (f a b1) b2) ...) bn.
val fold_right : ('a -> 'b -> 'b) -> 'a list -> 'b -> 'b
List.fold_right f [a1; ...; an] b is f a1 (f a2 (... (f an b) ...)). Not tail-recursive.

Iterators on two lists

val iter2 : ('a -> 'b -> unit) -> 'a list -> 'b list -> unit
List.iter2 f [a1; ...; an] [b1; ...; bn] calls in turn f a1 b1; ...; f an bn. Raise Invalid_argument if the two lists have different lengths.
val map2 : ('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
List.map2 f [a1; ...; an] [b1; ...; bn] is [f a1 b1; ...; f an bn]. Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.
val rev_map2 : ('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
List.rev_map2 f l1 l2 gives the same result as List.rev (List.map2 f l1 l2), but is tail-recursive and more efficient.
val fold_left2 : ('a -> 'b -> 'c -> 'a) -> 'a -> 'b list -> 'c list -> 'a
List.fold_left2 f a [b1; ...; bn] [c1; ...; cn] is f (... (f (f a b1 c1) b2 c2) ...) bn cn. Raise Invalid_argument if the two lists have different lengths.
val fold_right2 : ('a -> 'b -> 'c -> 'c) -> 'a list -> 'b list -> 'c -> 'c
List.fold_right2 f [a1; ...; an] [b1; ...; bn] c is f a1 b1 (f a2 b2 (... (f an bn c) ...)). Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.

List scanning

val for_all : ('a -> bool) -> 'a list -> bool
for_all p [a1; ...; an] checks if all elements of the list satisfy the predicate p. That is, it returns (p a1) && (p a2) && ... && (p an).
val exists : ('a -> bool) -> 'a list -> bool
exists p [a1; ...; an] checks if at least one element of the list satisfies the predicate p. That is, it returns (p a1) || (p a2) || ... || (p an).
val for_all2 : ('a -> 'b -> bool) -> 'a list -> 'b list -> bool
Same as List.for_all, but for a two-argument predicate. Raise Invalid_argument if the two lists have different lengths.
val exists2 : ('a -> 'b -> bool) -> 'a list -> 'b list -> bool
Same as List.exists, but for a two-argument predicate. Raise Invalid_argument if the two lists have different lengths.
val mem : 'a -> 'a list -> bool
mem a l is true if and only if a is equal to an element of l.
val memq : 'a -> 'a list -> bool
Same as List.mem, but uses physical equality instead of structural equality to compare list elements.

List searching

val find : ('a -> bool) -> 'a list -> 'a
find p l returns the first element of the list l that satisfies the predicate p. Raise Not_found if there is no value that satisfies p in the list l.
val filter : ('a -> bool) -> 'a list -> 'a list
filter p l returns all the elements of the list l that satisfy the predicate p. The order of the elements in the input list is preserved.
val find_all : ('a -> bool) -> 'a list -> 'a list
find_all is another name for List.filter.
val partition : ('a -> bool) -> 'a list -> 'a list * 'a list
partition p l returns a pair of lists (l1, l2), where l1 is the list of all the elements of l that satisfy the predicate p, and l2 is the list of all the elements of l that do not satisfy p. The order of the elements in the input list is preserved.

Association lists

val assoc : 'a -> ('a * 'b) list -> 'b
assoc a l returns the value associated with key a in the list of pairs l. That is, assoc a [ ...; (a,b); ...] = b if (a,b) is the leftmost binding of a in list l. Raise Not_found if there is no value associated with a in the list l.
val assq : 'a -> ('a * 'b) list -> 'b
Same as List.assoc, but uses physical equality instead of structural equality to compare keys.
val mem_assoc : 'a -> ('a * 'b) list -> bool
Same as List.assoc, but simply return true if a binding exists, and false if no bindings exist for the given key.
val mem_assq : 'a -> ('a * 'b) list -> bool
Same as List.mem_assoc, but uses physical equality instead of structural equality to compare keys.
val remove_assoc : 'a -> ('a * 'b) list -> ('a * 'b) list
remove_assoc a l returns the list of pairs l without the first pair with key a, if any. Not tail-recursive.
val remove_assq : 'a -> ('a * 'b) list -> ('a * 'b) list
Same as List.remove_assoc, but uses physical equality instead of structural equality to compare keys. Not tail-recursive.

Lists of pairs

val split : ('a * 'b) list -> 'a list * 'b list
Transform a list of pairs into a pair of lists: split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]). Not tail-recursive.
val combine : 'a list -> 'b list -> ('a * 'b) list
Transform a pair of lists into a list of pairs: combine [a1; ...; an] [b1; ...; bn] is [(a1,b1); ...; (an,bn)]. Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.

Sorting

val sort : ('a -> 'a -> int) -> 'a list -> 'a list
Sort a list in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see Array.sort for a complete specification). For example, compare is a suitable comparison function. The resulting list is sorted in increasing order. List.sort is guaranteed to run in constant heap space (in addition to the size of the result list) and logarithmic stack space.

The current implementation uses Merge Sort. It runs in constant heap space and logarithmic stack space.

val stable_sort : ('a -> 'a -> int) -> 'a list -> 'a list
Same as List.sort, but the sorting algorithm is guaranteed to be stable (i.e. elements that compare equal are kept in their original order) .

The current implementation uses Merge Sort. It runs in constant heap space and logarithmic stack space.

val fast_sort : ('a -> 'a -> int) -> 'a list -> 'a list
Same as List.sort or List.stable_sort, whichever is faster on typical input.
val merge : ('a -> 'a -> int) -> 'a list -> 'a list -> 'a list
Merge two lists: Assuming that l1 and l2 are sorted according to the comparison function cmp, merge cmp l1 l2 will return a sorted list containting all the elements of l1 and l2. If several elements compare equal, the elements of l1 will be before the elements of l2. Not tail-recursive (sum of the lengths of the arguments).
ocaml-doc-4.01/ocaml.html/libref/Hashtbl.html0000644000175000017500000006510512214324151017316 0ustar i33173i33173 Hashtbl
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Module Hashtbl

module Hashtbl: sig .. end
Hash tables and hash functions.

Hash tables are hashed association tables, with in-place modification.


Generic interface

type ('a, 'b) t
The type of hash tables from type 'a to type 'b.
val create : ?random:bool -> int -> ('a, 'b) t
Hashtbl.create n creates a new, empty hash table, with initial size n. For best results, n should be on the order of the expected number of elements that will be in the table. The table grows as needed, so n is just an initial guess.

The optional random parameter (a boolean) controls whether the internal organization of the hash table is randomized at each execution of Hashtbl.create or deterministic over all executions.

A hash table that is created with ~random:false uses a fixed hash function (Hashtbl.hash) to distribute keys among buckets. As a consequence, collisions between keys happen deterministically. In Web-facing applications or other security-sensitive applications, the deterministic collision patterns can be exploited by a malicious user to create a denial-of-service attack: the attacker sends input crafted to create many collisions in the table, slowing the application down.

A hash table that is created with ~random:true uses the seeded hash function Hashtbl.seeded_hash with a seed that is randomly chosen at hash table creation time. In effect, the hash function used is randomly selected among 2^{30} different hash functions. All these hash functions have different collision patterns, rendering ineffective the denial-of-service attack described above. However, because of randomization, enumerating all elements of the hash table using Hashtbl.fold or Hashtbl.iter is no longer deterministic: elements are enumerated in different orders at different runs of the program.

If no ~random parameter is given, hash tables are created in non-random mode by default. This default can be changed either programmatically by calling Hashtbl.randomize or by setting the R flag in the OCAMLRUNPARAM environment variable.
Before 4.00.0 the random parameter was not present and all hash tables were created in non-randomized mode.

val clear : ('a, 'b) t -> unit
Empty a hash table. Use reset instead of clear to shrink the size of the bucket table to its initial size.
val reset : ('a, 'b) t -> unit
Empty a hash table and shrink the size of the bucket table to its initial size.
val copy : ('a, 'b) t -> ('a, 'b) t
Return a copy of the given hashtable.
val add : ('a, 'b) t -> 'a -> 'b -> unit
Hashtbl.add tbl x y adds a binding of x to y in table tbl. Previous bindings for x are not removed, but simply hidden. That is, after performing Hashtbl.remove tbl x, the previous binding for x, if any, is restored. (Same behavior as with association lists.)
val find : ('a, 'b) t -> 'a -> 'b
Hashtbl.find tbl x returns the current binding of x in tbl, or raises Not_found if no such binding exists.
val find_all : ('a, 'b) t -> 'a -> 'b list
Hashtbl.find_all tbl x returns the list of all data associated with x in tbl. The current binding is returned first, then the previous bindings, in reverse order of introduction in the table.
val mem : ('a, 'b) t -> 'a -> bool
Hashtbl.mem tbl x checks if x is bound in tbl.
val remove : ('a, 'b) t -> 'a -> unit
Hashtbl.remove tbl x removes the current binding of x in tbl, restoring the previous binding if it exists. It does nothing if x is not bound in tbl.
val replace : ('a, 'b) t -> 'a -> 'b -> unit
Hashtbl.replace tbl x y replaces the current binding of x in tbl by a binding of x to y. If x is unbound in tbl, a binding of x to y is added to tbl. This is functionally equivalent to Hashtbl.remove tbl x followed by Hashtbl.add tbl x y.
val iter : ('a -> 'b -> unit) -> ('a, 'b) t -> unit
Hashtbl.iter f tbl applies f to all bindings in table tbl. f receives the key as first argument, and the associated value as second argument. Each binding is presented exactly once to f.

The order in which the bindings are passed to f is unspecified. However, if the table contains several bindings for the same key, they are passed to f in reverse order of introduction, that is, the most recent binding is passed first.

If the hash table was created in non-randomized mode, the order in which the bindings are enumerated is reproducible between successive runs of the program, and even between minor versions of OCaml. For randomized hash tables, the order of enumeration is entirely random.

val fold : ('a -> 'b -> 'c -> 'c) -> ('a, 'b) t -> 'c -> 'c
Hashtbl.fold f tbl init computes (f kN dN ... (f k1 d1 init)...), where k1 ... kN are the keys of all bindings in tbl, and d1 ... dN are the associated values. Each binding is presented exactly once to f.

The order in which the bindings are passed to f is unspecified. However, if the table contains several bindings for the same key, they are passed to f in reverse order of introduction, that is, the most recent binding is passed first.

If the hash table was created in non-randomized mode, the order in which the bindings are enumerated is reproducible between successive runs of the program, and even between minor versions of OCaml. For randomized hash tables, the order of enumeration is entirely random.

val length : ('a, 'b) t -> int
Hashtbl.length tbl returns the number of bindings in tbl. It takes constant time. Multiple bindings are counted once each, so Hashtbl.length gives the number of times Hashtbl.iter calls its first argument.
val randomize : unit -> unit
After a call to Hashtbl.randomize(), hash tables are created in randomized mode by default: Hashtbl.create returns randomized hash tables, unless the ~random:false optional parameter is given. The same effect can be achieved by setting the R parameter in the OCAMLRUNPARAM environment variable.

It is recommended that applications or Web frameworks that need to protect themselves against the denial-of-service attack described in Hashtbl.create call Hashtbl.randomize() at initialization time.

Note that once Hashtbl.randomize() was called, there is no way to revert to the non-randomized default behavior of Hashtbl.create. This is intentional. Non-randomized hash tables can still be created using Hashtbl.create ~random:false.
Since 4.00.0

type statistics = {
   num_bindings : int; (*Number of bindings present in the table. Same value as returned by Hashtbl.length.*)
   num_buckets : int; (*Number of buckets in the table.*)
   max_bucket_length : int; (*Maximal number of bindings per bucket.*)
   bucket_histogram : int array; (*Histogram of bucket sizes. This array histo has length max_bucket_length + 1. The value of histo.(i) is the number of buckets whose size is i.*)
} 
val stats : ('a, 'b) t -> statistics
Hashtbl.stats tbl returns statistics about the table tbl: number of buckets, size of the biggest bucket, distribution of buckets by size.
Since 4.00.0

Functorial interface

module type HashedType = sig .. end
The input signature of the functor Hashtbl.Make. 
module type S = sig .. end
The output signature of the functor Hashtbl.Make. 
module Make: 
functor (H : HashedType) -> S  with type key = H.t
Functor building an implementation of the hashtable structure. 
module type SeededHashedType = sig .. end
The input signature of the functor Hashtbl.MakeSeeded. 
module type SeededS = sig .. end
The output signature of the functor Hashtbl.MakeSeeded. 
module MakeSeeded: 
functor (H : SeededHashedType) -> SeededS  with type key = H.t
Functor building an implementation of the hashtable structure.

The polymorphic hash functions

val hash : 'a -> int
Hashtbl.hash x associates a nonnegative integer to any value of any type. It is guaranteed that if x = y or Pervasives.compare x y = 0, then hash x = hash y. Moreover, hash always terminates, even on cyclic structures.
val seeded_hash : int -> 'a -> int
A variant of Hashtbl.hash that is further parameterized by an integer seed.
Since 4.00.0
val hash_param : int -> int -> 'a -> int
Hashtbl.hash_param meaningful total x computes a hash value for x, with the same properties as for hash. The two extra integer parameters meaningful and total give more precise control over hashing. Hashing performs a breadth-first, left-to-right traversal of the structure x, stopping after meaningful meaningful nodes were encountered, or total nodes (meaningful or not) were encountered. Meaningful nodes are: integers; floating-point numbers; strings; characters; booleans; and constant constructors. Larger values of meaningful and total means that more nodes are taken into account to compute the final hash value, and therefore collisions are less likely to happen. However, hashing takes longer. The parameters meaningful and total govern the tradeoff between accuracy and speed. As default choices, Hashtbl.hash and Hashtbl.seeded_hash take meaningful = 10 and total = 100.
val seeded_hash_param : int -> int -> int -> 'a -> int
A variant of Hashtbl.hash_param that is further parameterized by an integer seed. Usage: Hashtbl.seeded_hash_param meaningful total seed x.
Since 4.00.0
ocaml-doc-4.01/ocaml.html/libref/Format.html0000644000175000017500000017507112214324147017172 0ustar i33173i33173 Format
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Module Format

module Format: sig .. end
Pretty printing.

This module implements a pretty-printing facility to format text within 'pretty-printing boxes'. The pretty-printer breaks lines at specified break hints, and indents lines according to the box structure.

For a gentle introduction to the basics of pretty-printing using Format, read http://caml.inria.fr/resources/doc/guides/format.en.html.

You may consider this module as providing an extension to the printf facility to provide automatic line breaking. The addition of pretty-printing annotations to your regular printf formats gives you fancy indentation and line breaks. Pretty-printing annotations are described below in the documentation of the function Format.fprintf.

You may also use the explicit box management and printing functions provided by this module. This style is more basic but more verbose than the fprintf concise formats.

For instance, the sequence open_box 0; print_string "x ="; print_space (); print_int 1; close_box (); print_newline () that prints x = 1 within a pretty-printing box, can be abbreviated as printf "@[%s@ %i@]@." "x =" 1, or even shorter printf "@[x =@ %i@]@." 1.

Rule of thumb for casual users of this library:

  • use simple boxes (as obtained by open_box 0);
  • use simple break hints (as obtained by print_cut () that outputs a simple break hint, or by print_space () that outputs a space indicating a break hint);
  • once a box is opened, display its material with basic printing functions (e. g. print_int and print_string);
  • when the material for a box has been printed, call close_box () to close the box;
  • at the end of your routine, flush the pretty-printer to display all the remaining material, e.g. evaluate print_newline ().
The behaviour of pretty-printing commands is unspecified if there is no opened pretty-printing box. Each box opened via one of the open_ functions below must be closed using close_box for proper formatting. Otherwise, some of the material printed in the boxes may not be output, or may be formatted incorrectly.

In case of interactive use, the system closes all opened boxes and flushes all pending text (as with the print_newline function) after each phrase. Each phrase is therefore executed in the initial state of the pretty-printer.

Warning: the material output by the following functions is delayed in the pretty-printer queue in order to compute the proper line breaking. Hence, you should not mix calls to the printing functions of the basic I/O system with calls to the functions of this module: this could result in some strange output seemingly unrelated with the evaluation order of printing commands.


Boxes

val open_box : int -> unit
open_box d opens a new pretty-printing box with offset d. This box is the general purpose pretty-printing box. Material in this box is displayed 'horizontal or vertical': break hints inside the box may lead to a new line, if there is no more room on the line to print the remainder of the box, or if a new line may lead to a new indentation (demonstrating the indentation of the box). When a new line is printed in the box, d is added to the current indentation.
val close_box : unit -> unit
Closes the most recently opened pretty-printing box.

Formatting functions

val print_string : string -> unit
print_string str prints str in the current box.
val print_as : int -> string -> unit
print_as len str prints str in the current box. The pretty-printer formats str as if it were of length len.
val print_int : int -> unit
Prints an integer in the current box.
val print_float : float -> unit
Prints a floating point number in the current box.
val print_char : char -> unit
Prints a character in the current box.
val print_bool : bool -> unit
Prints a boolean in the current box.

Break hints

val print_space : unit -> unit
print_space () is used to separate items (typically to print a space between two words). It indicates that the line may be split at this point. It either prints one space or splits the line. It is equivalent to print_break 1 0.
val print_cut : unit -> unit
print_cut () is used to mark a good break position. It indicates that the line may be split at this point. It either prints nothing or splits the line. This allows line splitting at the current point, without printing spaces or adding indentation. It is equivalent to print_break 0 0.
val print_break : int -> int -> unit
Inserts a break hint in a pretty-printing box. print_break nspaces offset indicates that the line may be split (a newline character is printed) at this point, if the contents of the current box does not fit on the current line. If the line is split at that point, offset is added to the current indentation. If the line is not split, nspaces spaces are printed.
val print_flush : unit -> unit
Flushes the pretty printer: all opened boxes are closed, and all pending text is displayed.
val print_newline : unit -> unit
Equivalent to print_flush followed by a new line.
val force_newline : unit -> unit
Forces a newline in the current box. Not the normal way of pretty-printing, you should prefer break hints.
val print_if_newline : unit -> unit
Executes the next formatting command if the preceding line has just been split. Otherwise, ignore the next formatting command.

Margin

val set_margin : int -> unit
set_margin d sets the value of the right margin to d (in characters): this value is used to detect line overflows that leads to split lines. Nothing happens if d is smaller than 2. If d is too large, the right margin is set to the maximum admissible value (which is greater than 10^9).
val get_margin : unit -> int
Returns the position of the right margin.

Maximum indentation limit

val set_max_indent : int -> unit
set_max_indent d sets the value of the maximum indentation limit to d (in characters): once this limit is reached, boxes are rejected to the left, if they do not fit on the current line. Nothing happens if d is smaller than 2. If d is too large, the limit is set to the maximum admissible value (which is greater than 10^9).
val get_max_indent : unit -> int
Return the value of the maximum indentation limit (in characters).

Formatting depth: maximum number of boxes allowed before ellipsis

val set_max_boxes : int -> unit
set_max_boxes max sets the maximum number of boxes simultaneously opened. Material inside boxes nested deeper is printed as an ellipsis (more precisely as the text returned by get_ellipsis_text ()). Nothing happens if max is smaller than 2.
val get_max_boxes : unit -> int
Returns the maximum number of boxes allowed before ellipsis.
val over_max_boxes : unit -> bool
Tests if the maximum number of boxes allowed have already been opened.

Advanced formatting

val open_hbox : unit -> unit
open_hbox () opens a new pretty-printing box. This box is 'horizontal': the line is not split in this box (new lines may still occur inside boxes nested deeper).
val open_vbox : int -> unit
open_vbox d opens a new pretty-printing box with offset d. This box is 'vertical': every break hint inside this box leads to a new line. When a new line is printed in the box, d is added to the current indentation.
val open_hvbox : int -> unit
open_hvbox d opens a new pretty-printing box with offset d. This box is 'horizontal-vertical': it behaves as an 'horizontal' box if it fits on a single line, otherwise it behaves as a 'vertical' box. When a new line is printed in the box, d is added to the current indentation.
val open_hovbox : int -> unit
open_hovbox d opens a new pretty-printing box with offset d. This box is 'horizontal or vertical': break hints inside this box may lead to a new line, if there is no more room on the line to print the remainder of the box. When a new line is printed in the box, d is added to the current indentation.

Tabulations

val open_tbox : unit -> unit
Opens a tabulation box.
val close_tbox : unit -> unit
Closes the most recently opened tabulation box.
val print_tbreak : int -> int -> unit
Break hint in a tabulation box. print_tbreak spaces offset moves the insertion point to the next tabulation (spaces being added to this position). Nothing occurs if insertion point is already on a tabulation mark. If there is no next tabulation on the line, then a newline is printed and the insertion point moves to the first tabulation of the box. If a new line is printed, offset is added to the current indentation.
val set_tab : unit -> unit
Sets a tabulation mark at the current insertion point.
val print_tab : unit -> unit
print_tab () is equivalent to print_tbreak 0 0.

Ellipsis

val set_ellipsis_text : string -> unit
Set the text of the ellipsis printed when too many boxes are opened (a single dot, ., by default).
val get_ellipsis_text : unit -> string
Return the text of the ellipsis.

Semantics Tags

type tag = string

Semantics tags (or simply tags) are used to decorate printed entities for user's defined purposes, e.g. setting font and giving size indications for a display device, or marking delimitation of semantics entities (e.g. HTML or TeX elements or terminal escape sequences).

By default, those tags do not influence line breaking calculation: the tag 'markers' are not considered as part of the printing material that drives line breaking (in other words, the length of those strings is considered as zero for line breaking).

Thus, tag handling is in some sense transparent to pretty-printing and does not interfere with usual indentation. Hence, a single pretty printing routine can output both simple 'verbatim' material or richer decorated output depending on the treatment of tags. By default, tags are not active, hence the output is not decorated with tag information. Once set_tags is set to true, the pretty printer engine honours tags and decorates the output accordingly.

When a tag has been opened (or closed), it is both and successively 'printed' and 'marked'. Printing a tag means calling a formatter specific function with the name of the tag as argument: that 'tag printing' function can then print any regular material to the formatter (so that this material is enqueued as usual in the formatter queue for further line-breaking computation). Marking a tag means to output an arbitrary string (the 'tag marker'), directly into the output device of the formatter. Hence, the formatter specific 'tag marking' function must return the tag marker string associated to its tag argument. Being flushed directly into the output device of the formatter, tag marker strings are not considered as part of the printing material that drives line breaking (in other words, the length of the strings corresponding to tag markers is considered as zero for line breaking). In addition, advanced users may take advantage of the specificity of tag markers to be precisely output when the pretty printer has already decided where to break the lines, and precisely when the queue is flushed into the output device.

In the spirit of HTML tags, the default tag marking functions output tags enclosed in "<" and ">": hence, the opening marker of tag t is "<t>" and the closing marker "</t>".

Default tag printing functions just do nothing.

Tag marking and tag printing functions are user definable and can be set by calling set_formatter_tag_functions.

val open_tag : tag -> unit
open_tag t opens the tag named t; the print_open_tag function of the formatter is called with t as argument; the tag marker mark_open_tag t will be flushed into the output device of the formatter.
val close_tag : unit -> unit
close_tag () closes the most recently opened tag t. In addition, the print_close_tag function of the formatter is called with t as argument. The marker mark_close_tag t will be flushed into the output device of the formatter.
val set_tags : bool -> unit
set_tags b turns on or off the treatment of tags (default is off).
val set_print_tags : bool -> unit
val set_mark_tags : bool -> unit
set_print_tags b turns on or off the printing of tags, while set_mark_tags b turns on or off the output of tag markers.
val get_print_tags : unit -> bool
val get_mark_tags : unit -> bool
Return the current status of tags printing and tags marking.

Redirecting the standard formatter output

val set_formatter_out_channel : out_channel -> unit
Redirect the pretty-printer output to the given channel. (All the output functions of the standard formatter are set to the default output functions printing to the given channel.)
val set_formatter_output_functions : (string -> int -> int -> unit) -> (unit -> unit) -> unit
set_formatter_output_functions out flush redirects the pretty-printer output functions to the functions out and flush.

The out function performs all the pretty-printer string output. It is called with a string s, a start position p, and a number of characters n; it is supposed to output characters p to p + n - 1 of s.

The flush function is called whenever the pretty-printer is flushed (via conversion %!, or pretty-printing indications @? or @., or using low level functions print_flush or print_newline).

val get_formatter_output_functions : unit -> (string -> int -> int -> unit) * (unit -> unit)
Return the current output functions of the pretty-printer.

Changing the meaning of standard formatter pretty printing


The Format module is versatile enough to let you completely redefine the meaning of pretty printing: you may provide your own functions to define how to handle indentation, line breaking, and even printing of all the characters that have to be printed!
type formatter_out_functions = {
   out_string : string -> int -> int -> unit;
   out_flush : unit -> unit;
   out_newline : unit -> unit;
   out_spaces : int -> unit;
} 
val set_formatter_out_functions : formatter_out_functions -> unit
set_formatter_out_functions out_funs Redirect the pretty-printer output to the functions out_funs.out_string and out_funs.out_flush as described in set_formatter_output_functions. In addition, the pretty-printer function that outputs a newline is set to the function out_funs.out_newline and the function that outputs indentation spaces is set to the function out_funs.out_spaces.

This way, you can change the meaning of indentation (which can be something else than just printing space characters) and the meaning of new lines opening (which can be connected to any other action needed by the application at hand). The two functions out_spaces and out_newline are normally connected to out_string and out_flush: respective default values for out_space and out_newline are out_string (String.make n ' ') 0 n and out_string "\n" 0 1.

val get_formatter_out_functions : unit -> formatter_out_functions
Return the current output functions of the pretty-printer, including line breaking and indentation functions. Useful to record the current setting and restore it afterwards.

Changing the meaning of printing semantics tags

type formatter_tag_functions = {
   mark_open_tag : tag -> string;
   mark_close_tag : tag -> string;
   print_open_tag : tag -> unit;
   print_close_tag : tag -> unit;
}
The tag handling functions specific to a formatter: mark versions are the 'tag marking' functions that associate a string marker to a tag in order for the pretty-printing engine to flush those markers as 0 length tokens in the output device of the formatter. print versions are the 'tag printing' functions that can perform regular printing when a tag is closed or opened.
val set_formatter_tag_functions : formatter_tag_functions -> unit
set_formatter_tag_functions tag_funs changes the meaning of opening and closing tags to use the functions in tag_funs.

When opening a tag name t, the string t is passed to the opening tag marking function (the mark_open_tag field of the record tag_funs), that must return the opening tag marker for that name. When the next call to close_tag () happens, the tag name t is sent back to the closing tag marking function (the mark_close_tag field of record tag_funs), that must return a closing tag marker for that name.

The print_ field of the record contains the functions that are called at tag opening and tag closing time, to output regular material in the pretty-printer queue.

val get_formatter_tag_functions : unit -> formatter_tag_functions
Return the current tag functions of the pretty-printer.

Multiple formatted output

type formatter
Abstract data corresponding to a pretty-printer (also called a formatter) and all its machinery.

Defining new pretty-printers permits unrelated output of material in parallel on several output channels. All the parameters of a pretty-printer are local to this pretty-printer: margin, maximum indentation limit, maximum number of boxes simultaneously opened, ellipsis, and so on, are specific to each pretty-printer and may be fixed independently. Given a Pervasives.out_channel output channel oc, a new formatter writing to that channel is simply obtained by calling formatter_of_out_channel oc. Alternatively, the make_formatter function allocates a new formatter with explicit output and flushing functions (convenient to output material to strings for instance).

val formatter_of_out_channel : out_channel -> formatter
formatter_of_out_channel oc returns a new formatter that writes to the corresponding channel oc.
val std_formatter : formatter
The standard formatter used by the formatting functions above. It is defined as formatter_of_out_channel stdout.
val err_formatter : formatter
A formatter to use with formatting functions below for output to standard error. It is defined as formatter_of_out_channel stderr.
val formatter_of_buffer : Buffer.t -> formatter
formatter_of_buffer b returns a new formatter writing to buffer b. As usual, the formatter has to be flushed at the end of pretty printing, using pp_print_flush or pp_print_newline, to display all the pending material.
val stdbuf : Buffer.t
The string buffer in which str_formatter writes.
val str_formatter : formatter
A formatter to use with formatting functions below for output to the stdbuf string buffer. str_formatter is defined as formatter_of_buffer stdbuf.
val flush_str_formatter : unit -> string
Returns the material printed with str_formatter, flushes the formatter and resets the corresponding buffer.
val make_formatter : (string -> int -> int -> unit) -> (unit -> unit) -> formatter
make_formatter out flush returns a new formatter that writes according to the output function out, and the flushing function flush. For instance, a formatter to the Pervasives.out_channel oc is returned by make_formatter (Pervasives.output oc) (fun () -> Pervasives.flush oc).

Basic functions to use with formatters

val pp_open_hbox : formatter -> unit -> unit
val pp_open_vbox : formatter -> int -> unit
val pp_open_hvbox : formatter -> int -> unit
val pp_open_hovbox : formatter -> int -> unit
val pp_open_box : formatter -> int -> unit
val pp_close_box : formatter -> unit -> unit
val pp_open_tag : formatter -> string -> unit
val pp_close_tag : formatter -> unit -> unit
val pp_print_string : formatter -> string -> unit
val pp_print_as : formatter -> int -> string -> unit
val pp_print_int : formatter -> int -> unit
val pp_print_float : formatter -> float -> unit
val pp_print_char : formatter -> char -> unit
val pp_print_bool : formatter -> bool -> unit
val pp_print_break : formatter -> int -> int -> unit
val pp_print_cut : formatter -> unit -> unit
val pp_print_space : formatter -> unit -> unit
val pp_force_newline : formatter -> unit -> unit
val pp_print_flush : formatter -> unit -> unit
val pp_print_newline : formatter -> unit -> unit
val pp_print_if_newline : formatter -> unit -> unit
val pp_open_tbox : formatter -> unit -> unit
val pp_close_tbox : formatter -> unit -> unit
val pp_print_tbreak : formatter -> int -> int -> unit
val pp_set_tab : formatter -> unit -> unit
val pp_print_tab : formatter -> unit -> unit
val pp_set_tags : formatter -> bool -> unit
val pp_set_print_tags : formatter -> bool -> unit
val pp_set_mark_tags : formatter -> bool -> unit
val pp_get_print_tags : formatter -> unit -> bool
val pp_get_mark_tags : formatter -> unit -> bool
val pp_set_margin : formatter -> int -> unit
val pp_get_margin : formatter -> unit -> int
val pp_set_max_indent : formatter -> int -> unit
val pp_get_max_indent : formatter -> unit -> int
val pp_set_max_boxes : formatter -> int -> unit
val pp_get_max_boxes : formatter -> unit -> int
val pp_over_max_boxes : formatter -> unit -> bool
val pp_set_ellipsis_text : formatter -> string -> unit
val pp_get_ellipsis_text : formatter -> unit -> string
val pp_set_formatter_out_channel : formatter -> out_channel -> unit
val pp_set_formatter_output_functions : formatter -> (string -> int -> int -> unit) -> (unit -> unit) -> unit
val pp_get_formatter_output_functions : formatter -> unit -> (string -> int -> int -> unit) * (unit -> unit)
val pp_set_formatter_tag_functions : formatter -> formatter_tag_functions -> unit
val pp_get_formatter_tag_functions : formatter -> unit -> formatter_tag_functions
val pp_set_formatter_out_functions : formatter -> formatter_out_functions -> unit
val pp_get_formatter_out_functions : formatter -> unit -> formatter_out_functions
These functions are the basic ones: usual functions operating on the standard formatter are defined via partial evaluation of these primitives. For instance, print_string is equal to pp_print_string std_formatter.

printf like functions for pretty-printing.

val fprintf : formatter -> ('a, formatter, unit) format -> 'a

fprintf ff fmt arg1 ... argN formats the arguments arg1 to argN according to the format string fmt, and outputs the resulting string on the formatter ff.

The format fmt is a character string which contains three types of objects: plain characters and conversion specifications as specified in the Printf module, and pretty-printing indications specific to the Format module.

The pretty-printing indication characters are introduced by a @ character, and their meanings are:

  • @[: open a pretty-printing box. The type and offset of the box may be optionally specified with the following syntax: the < character, followed by an optional box type indication, then an optional integer offset, and the closing > character. Box type is one of h, v, hv, b, or hov, which stand respectively for an horizontal box, a vertical box, an 'horizontal-vertical' box, or an 'horizontal or vertical' box (b standing for an 'horizontal or vertical' box demonstrating indentation and hov standing for a regular'horizontal or vertical' box). For instance, @[<hov 2> opens an 'horizontal or vertical' box with indentation 2 as obtained with open_hovbox 2. For more details about boxes, see the various box opening functions open_*box.
  • @]: close the most recently opened pretty-printing box.
  • @,: output a good break hint, as with print_cut ().
  • @ : output a good break space, as with print_space ().
  • @;: output a fully specified good break as with print_break. The nspaces and offset parameters of the break may be optionally specified with the following syntax: the < character, followed by an integer nspaces value, then an integer offset, and a closing > character. If no parameters are provided, the good break defaults to a good break space.
  • @.: flush the pretty printer and output a new line, as with print_newline ().
  • @<n>: print the following item as if it were of length n. Hence, printf "@<0>%s" arg prints arg as a zero length string. If @<n> is not followed by a conversion specification, then the following character of the format is printed as if it were of length n.
  • @{: open a tag. The name of the tag may be optionally specified with the following syntax: the < character, followed by an optional string specification, and the closing > character. The string specification is any character string that does not contain the closing character '>'. If omitted, the tag name defaults to the empty string. For more details about tags, see the functions open_tag and close_tag.
  • @}: close the most recently opened tag.
  • @?: flush the pretty printer as with print_flush (). This is equivalent to the conversion %!.
  • @\n: force a newline, as with force_newline ().
  • @@: print a single @ character.
Example: printf "@[%s@ %d@]@." "x =" 1 is equivalent to open_box (); print_string "x ="; print_space (); print_int 1; close_box (); print_newline (). It prints x = 1 within a pretty-printing box.

Note: If you need to prevent the interpretation of a @ character as a pretty-printing indication, escape it with a % character, as usual in format strings.

val printf : ('a, formatter, unit) format -> 'a
Same as fprintf above, but output on std_formatter.
val eprintf : ('a, formatter, unit) format -> 'a
Same as fprintf above, but output on err_formatter.
val sprintf : ('a, unit, string) format -> 'a
Same as printf above, but instead of printing on a formatter, returns a string containing the result of formatting the arguments. Note that the pretty-printer queue is flushed at the end of each call to sprintf.

In case of multiple and related calls to sprintf to output material on a single string, you should consider using fprintf with the predefined formatter str_formatter and call flush_str_formatter () to get the final result.

Alternatively, you can use Format.fprintf with a formatter writing to a buffer of your own: flushing the formatter and the buffer at the end of pretty-printing returns the desired string.

val asprintf : ('a, formatter, unit, string) format4 -> 'a
Same as printf above, but instead of printing on a formatter, returns a string containing the result of formatting the arguments. The type of asprintf is general enough to interact nicely with %a conversions.
Since 4.01.0
val ifprintf : formatter -> ('a, formatter, unit) format -> 'a
Same as fprintf above, but does not print anything. Useful to ignore some material when conditionally printing.
Since 3.10.0

Formatted output functions with continuations.
val kfprintf : (formatter -> 'a) ->
       formatter -> ('b, formatter, unit, 'a) format4 -> 'b
Same as fprintf above, but instead of returning immediately, passes the formatter to its first argument at the end of printing.
val ikfprintf : (formatter -> 'a) ->
       formatter -> ('b, formatter, unit, 'a) format4 -> 'b
Same as kfprintf above, but does not print anything. Useful to ignore some material when conditionally printing.
Since 3.12.0
val ksprintf : (string -> 'a) -> ('b, unit, string, 'a) format4 -> 'b
Same as sprintf above, but instead of returning the string, passes it to the first argument.

Deprecated

val bprintf : Buffer.t -> ('a, formatter, unit) format -> 'a
A deprecated and error prone function. Do not use it.

If you need to print to some buffer b, you must first define a formatter writing to b, using let to_b = formatter_of_buffer b; then use regular calls to Format.fprintf on formatter to_b.

val kprintf : (string -> 'a) -> ('b, unit, string, 'a) format4 -> 'b
A deprecated synonym for ksprintf.
val set_all_formatter_output_functions : out:(string -> int -> int -> unit) ->
       flush:(unit -> unit) ->
       newline:(unit -> unit) -> spaces:(int -> unit) -> unit
Deprecated. Subsumed by set_formatter_out_functions.
Since 4.00.0
val get_all_formatter_output_functions : unit ->
       (string -> int -> int -> unit) * (unit -> unit) * (unit -> unit) *
       (int -> unit)
Deprecated. Subsumed by get_formatter_out_functions.
Since 4.00.0
val pp_set_all_formatter_output_functions : formatter ->
       out:(string -> int -> int -> unit) ->
       flush:(unit -> unit) ->
       newline:(unit -> unit) -> spaces:(int -> unit) -> unit
Deprecated. Subsumed by pp_set_formatter_out_functions.
Since 4.01.0
val pp_get_all_formatter_output_functions : formatter ->
       unit ->
       (string -> int -> int -> unit) * (unit -> unit) * (unit -> unit) *
       (int -> unit)
Deprecated. Subsumed by pp_get_formatter_out_functions.
Since 4.01.0
ocaml-doc-4.01/ocaml.html/libref/type_Complex.html0000644000175000017500000001755512214324147020414 0ustar i33173i33173 Complex sig
  type t = { re : float; im : float; }
  val zero : Complex.t
  val one : Complex.t
  val i : Complex.t
  val neg : Complex.t -> Complex.t
  val conj : Complex.t -> Complex.t
  val add : Complex.t -> Complex.t -> Complex.t
  val sub : Complex.t -> Complex.t -> Complex.t
  val mul : Complex.t -> Complex.t -> Complex.t
  val inv : Complex.t -> Complex.t
  val div : Complex.t -> Complex.t -> Complex.t
  val sqrt : Complex.t -> Complex.t
  val norm2 : Complex.t -> float
  val norm : Complex.t -> float
  val arg : Complex.t -> float
  val polar : float -> float -> Complex.t
  val exp : Complex.t -> Complex.t
  val log : Complex.t -> Complex.t
  val pow : Complex.t -> Complex.t -> Complex.t
endocaml-doc-4.01/ocaml.html/libref/Thread.html0000644000175000017500000003331212214324167017142 0ustar i33173i33173 Thread
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Module Thread

module Thread: sig .. end
Lightweight threads for Posix 1003.1c and Win32.
type t
The type of thread handles.

Thread creation and termination

val create : ('a -> 'b) -> 'a -> t
Thread.create funct arg creates a new thread of control, in which the function application funct arg is executed concurrently with the other threads of the program. The application of Thread.create returns the handle of the newly created thread. The new thread terminates when the application funct arg returns, either normally or by raising an uncaught exception. In the latter case, the exception is printed on standard error, but not propagated back to the parent thread. Similarly, the result of the application funct arg is discarded and not directly accessible to the parent thread.
val self : unit -> t
Return the thread currently executing.
val id : t -> int
Return the identifier of the given thread. A thread identifier is an integer that identifies uniquely the thread. It can be used to build data structures indexed by threads.
val exit : unit -> unit
Terminate prematurely the currently executing thread.
val kill : t -> unit
Terminate prematurely the thread whose handle is given.

Suspending threads

val delay : float -> unit
delay d suspends the execution of the calling thread for d seconds. The other program threads continue to run during this time.
val join : t -> unit
join th suspends the execution of the calling thread until the thread th has terminated.
val wait_read : Unix.file_descr -> unit
See Thread.wait_write.
val wait_write : Unix.file_descr -> unit
This function does nothing in this implementation.
val wait_timed_read : Unix.file_descr -> float -> bool
See Thread.wait_timed_read.
val wait_timed_write : Unix.file_descr -> float -> bool
Suspend the execution of the calling thread until at least one character is available for reading (wait_read) or one character can be written without blocking (wait_write) on the given Unix file descriptor. Wait for at most the amount of time given as second argument (in seconds). Return true if the file descriptor is ready for input/output and false if the timeout expired.

These functions return immediately true in the Win32 implementation.

val select : Unix.file_descr list ->
       Unix.file_descr list ->
       Unix.file_descr list ->
       float -> Unix.file_descr list * Unix.file_descr list * Unix.file_descr list
Suspend the execution of the calling thead until input/output becomes possible on the given Unix file descriptors. The arguments and results have the same meaning as for Unix.select. This function is not implemented yet under Win32.
val wait_pid : int -> int * Unix.process_status
wait_pid p suspends the execution of the calling thread until the process specified by the process identifier p terminates. Returns the pid of the child caught and its termination status, as per Unix.wait. This function is not implemented under MacOS.
val yield : unit -> unit
Re-schedule the calling thread without suspending it. This function can be used to give scheduling hints, telling the scheduler that now is a good time to switch to other threads.

Management of signals


Signal handling follows the POSIX thread model: signals generated by a thread are delivered to that thread; signals generated externally are delivered to one of the threads that does not block it. Each thread possesses a set of blocked signals, which can be modified using Thread.sigmask. This set is inherited at thread creation time. Per-thread signal masks are supported only by the system thread library under Unix, but not under Win32, nor by the VM thread library.
val sigmask : Unix.sigprocmask_command -> int list -> int list
sigmask cmd sigs changes the set of blocked signals for the calling thread. If cmd is SIG_SETMASK, blocked signals are set to those in the list sigs. If cmd is SIG_BLOCK, the signals in sigs are added to the set of blocked signals. If cmd is SIG_UNBLOCK, the signals in sigs are removed from the set of blocked signals. sigmask returns the set of previously blocked signals for the thread.
val wait_signal : int list -> int
wait_signal sigs suspends the execution of the calling thread until the process receives one of the signals specified in the list sigs. It then returns the number of the signal received. Signal handlers attached to the signals in sigs will not be invoked. The signals sigs are expected to be blocked before calling wait_signal.
ocaml-doc-4.01/ocaml.html/libref/type_Set.OrderedType.html0000644000175000017500000001064212214324164021752 0ustar i33173i33173 Set.OrderedType sig type t val compare : Set.OrderedType.t -> Set.OrderedType.t -> int endocaml-doc-4.01/ocaml.html/libref/index_classes.html0000644000175000017500000001012112214324176020550 0ustar i33173i33173 Index of classes
 Up  

Index of classes

ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Set.S.html0000644000175000017500000003703012214324156021753 0ustar i33173i33173 MoreLabels.Set.S sig
  type elt
  and t
  val empty : MoreLabels.Set.S.t
  val is_empty : MoreLabels.Set.S.t -> bool
  val mem : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> bool
  val add : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val singleton : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t
  val remove :
    MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val union : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val inter : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val diff : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val compare : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> int
  val equal : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
  val subset : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
  val iter : f:(MoreLabels.Set.S.elt -> unit) -> MoreLabels.Set.S.t -> unit
  val fold :
    f:(MoreLabels.Set.S.elt -> '-> 'a) ->
    MoreLabels.Set.S.t -> init:'-> 'a
  val for_all :
    f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
  val exists : f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
  val filter :
    f:(MoreLabels.Set.S.elt -> bool) ->
    MoreLabels.Set.S.t -> MoreLabels.Set.S.t
  val partition :
    f:(MoreLabels.Set.S.elt -> bool) ->
    MoreLabels.Set.S.t -> MoreLabels.Set.S.t * MoreLabels.Set.S.t
  val cardinal : MoreLabels.Set.S.t -> int
  val elements : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt list
  val min_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
  val max_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
  val choose : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
  val split :
    MoreLabels.Set.S.elt ->
    MoreLabels.Set.S.t -> MoreLabels.Set.S.t * bool * MoreLabels.Set.S.t
  val find :
    MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
endocaml-doc-4.01/ocaml.html/libref/Parsing.html0000644000175000017500000002260412214324161017332 0ustar i33173i33173 Parsing
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Module Parsing

module Parsing: sig .. end
The run-time library for parsers generated by ocamlyacc.
val symbol_start : unit -> int
symbol_start and Parsing.symbol_end are to be called in the action part of a grammar rule only. They return the offset of the string that matches the left-hand side of the rule: symbol_start() returns the offset of the first character; symbol_end() returns the offset after the last character. The first character in a file is at offset 0.
val symbol_end : unit -> int
See Parsing.symbol_start.
val rhs_start : int -> int
Same as Parsing.symbol_start and Parsing.symbol_end, but return the offset of the string matching the nth item on the right-hand side of the rule, where n is the integer parameter to rhs_start and rhs_end. n is 1 for the leftmost item.
val rhs_end : int -> int
See Parsing.rhs_start.
val symbol_start_pos : unit -> Lexing.position
Same as symbol_start, but return a position instead of an offset.
val symbol_end_pos : unit -> Lexing.position
Same as symbol_end, but return a position instead of an offset.
val rhs_start_pos : int -> Lexing.position
Same as rhs_start, but return a position instead of an offset.
val rhs_end_pos : int -> Lexing.position
Same as rhs_end, but return a position instead of an offset.
val clear_parser : unit -> unit
Empty the parser stack. Call it just after a parsing function has returned, to remove all pointers from the parser stack to structures that were built by semantic actions during parsing. This is optional, but lowers the memory requirements of the programs.
exception Parse_error
Raised when a parser encounters a syntax error. Can also be raised from the action part of a grammar rule, to initiate error recovery.
val set_trace : bool -> bool
Control debugging support for ocamlyacc-generated parsers. After Parsing.set_trace true, the pushdown automaton that executes the parsers prints a trace of its actions (reading a token, shifting a state, reducing by a rule) on standard output. Parsing.set_trace false turns this debugging trace off. The boolean returned is the previous state of the trace flag.
Since 3.11.0
ocaml-doc-4.01/ocaml.html/libref/Dynlink.html0000644000175000017500000004002712214324147017342 0ustar i33173i33173 Dynlink
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Module Dynlink

module Dynlink: sig .. end
Dynamic loading of object files.
val is_native : bool
true if the program is native, false if the program is bytecode.

Dynamic loading of compiled files

val loadfile : string -> unit
In bytecode: load the given bytecode object file (.cmo file) or bytecode library file (.cma file), and link it with the running program. In native code: load the given OCaml plugin file (usually .cmxs), and link it with the running program. All toplevel expressions in the loaded compilation units are evaluated. No facilities are provided to access value names defined by the unit. Therefore, the unit must register itself its entry points with the main program, e.g. by modifying tables of functions.
val loadfile_private : string -> unit
Same as loadfile, except that the compilation units just loaded are hidden (cannot be referenced) from other modules dynamically loaded afterwards.
val adapt_filename : string -> string
In bytecode, the identity function. In native code, replace the last extension with .cmxs.

Access control

val allow_only : string list -> unit
allow_only units restricts the compilation units that dynamically-linked units can reference: it only allows references to the units named in list units. References to any other compilation unit will cause a Unavailable_unit error during loadfile or loadfile_private.

Initially (just after calling init), all compilation units composing the program currently running are available for reference from dynamically-linked units. allow_only can be used to grant access to some of them only, e.g. to the units that compose the API for dynamically-linked code, and prevent access to all other units, e.g. private, internal modules of the running program.

val prohibit : string list -> unit
prohibit units prohibits dynamically-linked units from referencing the units named in list units. This can be used to prevent access to selected units, e.g. private, internal modules of the running program.
val default_available_units : unit -> unit
Reset the set of units that can be referenced from dynamically-linked code to its default value, that is, all units composing the currently running program.
val allow_unsafe_modules : bool -> unit
Govern whether unsafe object files are allowed to be dynamically linked. A compilation unit is 'unsafe' if it contains declarations of external functions, which can break type safety. By default, dynamic linking of unsafe object files is not allowed. In native code, this function does nothing; object files with external functions are always allowed to be dynamically linked.

Deprecated, low-level API for access control

val add_interfaces : string list -> string list -> unit
add_interfaces units path grants dynamically-linked object files access to the compilation units named in list units. The interfaces (.cmi files) for these units are searched in path (a list of directory names).
val add_available_units : (string * Digest.t) list -> unit
Same as Dynlink.add_interfaces, but instead of searching .cmi files to find the unit interfaces, uses the interface digests given for each unit. This way, the .cmi interface files need not be available at run-time. The digests can be extracted from .cmi files using the extract_crc program installed in the OCaml standard library directory.
val clear_available_units : unit -> unit
Empty the list of compilation units accessible to dynamically-linked programs.

Deprecated, initialization

val init : unit -> unit
Deprecated.Initialize the Dynlink library. This function is called automatically when needed.

Error reporting

type linking_error =
| Undefined_global of string
| Unavailable_primitive of string
| Uninitialized_global of string 
type error =
| Not_a_bytecode_file of string
| Inconsistent_import of string
| Unavailable_unit of string
| Unsafe_file
| Linking_error of string * linking_error
| Corrupted_interface of string
| File_not_found of string
| Cannot_open_dll of string
| Inconsistent_implementation of string 
exception Error of error
Errors in dynamic linking are reported by raising the Error exception with a description of the error.
val error_message : error -> string
Convert an error description to a printable message.
ocaml-doc-4.01/ocaml.html/libref/Condition.html0000644000175000017500000001745712214324147017673 0ustar i33173i33173 Condition
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Module Condition

module Condition: sig .. end
Condition variables to synchronize between threads.

Condition variables are used when one thread wants to wait until another thread has finished doing something: the former thread 'waits' on the condition variable, the latter thread 'signals' the condition when it is done. Condition variables should always be protected by a mutex. The typical use is (if D is a shared data structure, m its mutex, and c is a condition variable): 

     Mutex.lock m;

     while (* some predicate P over D is not satisfied *) do

       Condition.wait c m

     done;

     (* Modify D *)

     if (* the predicate P over D is now satified *) then Condition.signal c;

     Mutex.unlock m

   

type t
The type of condition variables.
val create : unit -> t
Return a new condition variable.
val wait : t -> Mutex.t -> unit
wait c m atomically unlocks the mutex m and suspends the calling process on the condition variable c. The process will restart after the condition variable c has been signalled. The mutex m is locked again before wait returns.
val signal : t -> unit
signal c restarts one of the processes waiting on the condition variable c.
val broadcast : t -> unit
broadcast c restarts all processes waiting on the condition variable c.
ocaml-doc-4.01/ocaml.html/libref/Map.OrderedType.html0000644000175000017500000001350612214324153020673 0ustar i33173i33173 Map.OrderedType
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Module type Map.OrderedType

module type OrderedType = sig .. end
Input signature of the functor Map.Make.
type t
The type of the map keys.
val compare : t -> t -> int
A total ordering function over the keys. This is a two-argument function f such that f e1 e2 is zero if the keys e1 and e2 are equal, f e1 e2 is strictly negative if e1 is smaller than e2, and f e1 e2 is strictly positive if e1 is greater than e2. Example: a suitable ordering function is the generic structural comparison function compare.
ocaml-doc-4.01/ocaml.html/libref/Queue.html0000644000175000017500000002431312214324163017014 0ustar i33173i33173 Queue
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Module Queue

module Queue: sig .. end
First-in first-out queues.

This module implements queues (FIFOs), with in-place modification.

Warning This module is not thread-safe: each Queue.t value must be protected from concurrent access (e.g. with a Mutex.t). Failure to do so can lead to a crash.

type 'a t
The type of queues containing elements of type 'a.
exception Empty
Raised when Queue.take or Queue.peek is applied to an empty queue.
val create : unit -> 'a t
Return a new queue, initially empty.
val add : 'a -> 'a t -> unit
add x q adds the element x at the end of the queue q.
val push : 'a -> 'a t -> unit
push is a synonym for add.
val take : 'a t -> 'a
take q removes and returns the first element in queue q, or raises Empty if the queue is empty.
val pop : 'a t -> 'a
pop is a synonym for take.
val peek : 'a t -> 'a
peek q returns the first element in queue q, without removing it from the queue, or raises Empty if the queue is empty.
val top : 'a t -> 'a
top is a synonym for peek.
val clear : 'a t -> unit
Discard all elements from a queue.
val copy : 'a t -> 'a t
Return a copy of the given queue.
val is_empty : 'a t -> bool
Return true if the given queue is empty, false otherwise.
val length : 'a t -> int
Return the number of elements in a queue.
val iter : ('a -> unit) -> 'a t -> unit
iter f q applies f in turn to all elements of q, from the least recently entered to the most recently entered. The queue itself is unchanged.
val fold : ('b -> 'a -> 'b) -> 'b -> 'a t -> 'b
fold f accu q is equivalent to List.fold_left f accu l, where l is the list of q's elements. The queue remains unchanged.
val transfer : 'a t -> 'a t -> unit
transfer q1 q2 adds all of q1's elements at the end of the queue q2, then clears q1. It is equivalent to the sequence iter (fun x -> add x q2) q1; clear q1, but runs in constant time.
ocaml-doc-4.01/ocaml.html/libref/Num.html0000644000175000017500000005060512214324161016470 0ustar i33173i33173 Num
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Module Num

module Num: sig .. end
Operation on arbitrary-precision numbers.

Numbers (type num) are arbitrary-precision rational numbers, plus the special elements 1/0 (infinity) and 0/0 (undefined).

type num =
| Int of int
| Big_int of Big_int.big_int
| Ratio of Ratio.ratio
The type of numbers.

Arithmetic operations

val (+/) : num -> num -> num
Same as Num.add_num.
val add_num : num -> num -> num
Addition
val minus_num : num -> num
Unary negation.
val (-/) : num -> num -> num
Same as Num.sub_num.
val sub_num : num -> num -> num
Subtraction
val ( */ ) : num -> num -> num
Same as Num.mult_num.
val mult_num : num -> num -> num
Multiplication
val square_num : num -> num
Squaring
val (//) : num -> num -> num
Same as Num.div_num.
val div_num : num -> num -> num
Division
val quo_num : num -> num -> num
Euclidean division: quotient.
val mod_num : num -> num -> num
Euclidean division: remainder.
val ( **/ ) : num -> num -> num
Same as Num.power_num.
val power_num : num -> num -> num
Exponentiation
val abs_num : num -> num
Absolute value.
val succ_num : num -> num
succ n is n+1
val pred_num : num -> num
pred n is n-1
val incr_num : num ref -> unit
incr r is r:=!r+1, where r is a reference to a number.
val decr_num : num ref -> unit
decr r is r:=!r-1, where r is a reference to a number.
val is_integer_num : num -> bool
Test if a number is an integer

The four following functions approximate a number by an integer :
val integer_num : num -> num
integer_num n returns the integer closest to n. In case of ties, rounds towards zero.
val floor_num : num -> num
floor_num n returns the largest integer smaller or equal to n.
val round_num : num -> num
round_num n returns the integer closest to n. In case of ties, rounds off zero.
val ceiling_num : num -> num
ceiling_num n returns the smallest integer bigger or equal to n.
val sign_num : num -> int
Return -1, 0 or 1 according to the sign of the argument.

Comparisons between numbers

val (=/) : num -> num -> bool
val (</) : num -> num -> bool
val (>/) : num -> num -> bool
val (<=/) : num -> num -> bool
val (>=/) : num -> num -> bool
val (<>/) : num -> num -> bool
val eq_num : num -> num -> bool
val lt_num : num -> num -> bool
val le_num : num -> num -> bool
val gt_num : num -> num -> bool
val ge_num : num -> num -> bool
val compare_num : num -> num -> int
Return -1, 0 or 1 if the first argument is less than, equal to, or greater than the second argument.
val max_num : num -> num -> num
Return the greater of the two arguments.
val min_num : num -> num -> num
Return the smaller of the two arguments.

Coercions with strings

val string_of_num : num -> string
Convert a number to a string, using fractional notation.
val approx_num_fix : int -> num -> string
See Num.approx_num_exp.
val approx_num_exp : int -> num -> string
Approximate a number by a decimal. The first argument is the required precision. The second argument is the number to approximate. Num.approx_num_fix uses decimal notation; the first argument is the number of digits after the decimal point. approx_num_exp uses scientific (exponential) notation; the first argument is the number of digits in the mantissa.
val num_of_string : string -> num
Convert a string to a number. Raise Failure "num_of_string" if the given string is not a valid representation of an integer

Coercions between numerical types

val int_of_num : num -> int
val num_of_int : int -> num
val nat_of_num : num -> Nat.nat
val num_of_nat : Nat.nat -> num
val num_of_big_int : Big_int.big_int -> num
val big_int_of_num : num -> Big_int.big_int
val ratio_of_num : num -> Ratio.ratio
val num_of_ratio : Ratio.ratio -> num
val float_of_num : num -> float
ocaml-doc-4.01/ocaml.html/libref/type_Callback.html0000644000175000017500000001070312214324146020464 0ustar i33173i33173 Callback sig
  val register : string -> '-> unit
  val register_exception : string -> exn -> unit
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Map.S.html0000644000175000017500000002473612214324155020704 0ustar i33173i33173 MoreLabels.Map.S
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Module type MoreLabels.Map.S

module type S = sig .. end
type key 
type +'a t 
val empty : 'a t
val is_empty : 'a t -> bool
val mem : key -> 'a t -> bool
val add : key:key ->
       data:'a -> 'a t -> 'a t
val singleton : key -> 'a -> 'a t
val remove : key -> 'a t -> 'a t
val merge : f:(key -> 'a option -> 'b option -> 'c option) ->
       'a t -> 'b t -> 'c t
val compare : cmp:('a -> 'a -> int) ->
       'a t -> 'a t -> int
val equal : cmp:('a -> 'a -> bool) ->
       'a t -> 'a t -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val for_all : f:(key -> 'a -> bool) -> 'a t -> bool
val exists : f:(key -> 'a -> bool) -> 'a t -> bool
val filter : f:(key -> 'a -> bool) ->
       'a t -> 'a t
val partition : f:(key -> 'a -> bool) ->
       'a t -> 'a t * 'a t
val cardinal : 'a t -> int
val bindings : 'a t -> (key * 'a) list
val min_binding : 'a t -> key * 'a
val max_binding : 'a t -> key * 'a
val choose : 'a t -> key * 'a
val split : key ->
       'a t ->
       'a t * 'a option * 'a t
val find : key -> 'a t -> 'a
val map : f:('a -> 'b) -> 'a t -> 'b t
val mapi : f:(key -> 'a -> 'b) ->
       'a t -> 'b t
ocaml-doc-4.01/ocaml.html/libref/Complex.html0000644000175000017500000002544612214324147017351 0ustar i33173i33173 Complex
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Module Complex

module Complex: sig .. end
Complex numbers.

This module provides arithmetic operations on complex numbers. Complex numbers are represented by their real and imaginary parts (cartesian representation). Each part is represented by a double-precision floating-point number (type float).

type t = {
   re : float;
   im : float;
}
The type of complex numbers. re is the real part and im the imaginary part.
val zero : t
The complex number 0.
val one : t
The complex number 1.
val i : t
The complex number i.
val neg : t -> t
Unary negation.
val conj : t -> t
Conjugate: given the complex x + i.y, returns x - i.y.
val add : t -> t -> t
Addition
val sub : t -> t -> t
Subtraction
val mul : t -> t -> t
Multiplication
val inv : t -> t
Multiplicative inverse (1/z).
val div : t -> t -> t
Division
val sqrt : t -> t
Square root. The result x + i.y is such that x > 0 or x = 0 and y >= 0. This function has a discontinuity along the negative real axis.
val norm2 : t -> float
Norm squared: given x + i.y, returns x^2 + y^2.
val norm : t -> float
Norm: given x + i.y, returns sqrt(x^2 + y^2).
val arg : t -> float
Argument. The argument of a complex number is the angle in the complex plane between the positive real axis and a line passing through zero and the number. This angle ranges from -pi to pi. This function has a discontinuity along the negative real axis.
val polar : float -> float -> t
polar norm arg returns the complex having norm norm and argument arg.
val exp : t -> t
Exponentiation. exp z returns e to the z power.
val log : t -> t
Natural logarithm (in base e).
val pow : t -> t -> t
Power function. pow z1 z2 returns z1 to the z2 power.
ocaml-doc-4.01/ocaml.html/libref/ListLabels.html0000644000175000017500000006276412214324153020001 0ustar i33173i33173 ListLabels
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Module ListLabels

module ListLabels: sig .. end
List operations.

Some functions are flagged as not tail-recursive. A tail-recursive function uses constant stack space, while a non-tail-recursive function uses stack space proportional to the length of its list argument, which can be a problem with very long lists. When the function takes several list arguments, an approximate formula giving stack usage (in some unspecified constant unit) is shown in parentheses.

The above considerations can usually be ignored if your lists are not longer than about 10000 elements.

val length : 'a list -> int
Return the length (number of elements) of the given list.
val hd : 'a list -> 'a
Return the first element of the given list. Raise Failure "hd" if the list is empty.
val tl : 'a list -> 'a list
Return the given list without its first element. Raise Failure "tl" if the list is empty.
val nth : 'a list -> int -> 'a
Return the n-th element of the given list. The first element (head of the list) is at position 0. Raise Failure "nth" if the list is too short. Raise Invalid_argument "List.nth" if n is negative.
val rev : 'a list -> 'a list
List reversal.
val append : 'a list -> 'a list -> 'a list
Catenate two lists. Same function as the infix operator @. Not tail-recursive (length of the first argument). The @ operator is not tail-recursive either.
val rev_append : 'a list -> 'a list -> 'a list
List.rev_append l1 l2 reverses l1 and concatenates it to l2. This is equivalent to ListLabels.rev l1 @ l2, but rev_append is tail-recursive and more efficient.
val concat : 'a list list -> 'a list
Concatenate a list of lists. The elements of the argument are all concatenated together (in the same order) to give the result. Not tail-recursive (length of the argument + length of the longest sub-list).
val flatten : 'a list list -> 'a list
Same as concat. Not tail-recursive (length of the argument + length of the longest sub-list).

Iterators

val iter : f:('a -> unit) -> 'a list -> unit
List.iter f [a1; ...; an] applies function f in turn to a1; ...; an. It is equivalent to begin f a1; f a2; ...; f an; () end.
val iteri : f:(int -> 'a -> unit) -> 'a list -> unit
Same as List.iter, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
Since 4.00.0
val map : f:('a -> 'b) -> 'a list -> 'b list
List.map f [a1; ...; an] applies function f to a1, ..., an, and builds the list [f a1; ...; f an] with the results returned by f. Not tail-recursive.
val mapi : f:(int -> 'a -> 'b) -> 'a list -> 'b list
Same as List.map, but the function is applied to the index of the element as first argument (counting from 0), and the element itself as second argument.
Since 4.00.0
val rev_map : f:('a -> 'b) -> 'a list -> 'b list
List.rev_map f l gives the same result as ListLabels.rev (ListLabels.map f l), but is tail-recursive and more efficient.
val fold_left : f:('a -> 'b -> 'a) -> init:'a -> 'b list -> 'a
List.fold_left f a [b1; ...; bn] is f (... (f (f a b1) b2) ...) bn.
val fold_right : f:('a -> 'b -> 'b) -> 'a list -> init:'b -> 'b
List.fold_right f [a1; ...; an] b is f a1 (f a2 (... (f an b) ...)). Not tail-recursive.

Iterators on two lists

val iter2 : f:('a -> 'b -> unit) -> 'a list -> 'b list -> unit
List.iter2 f [a1; ...; an] [b1; ...; bn] calls in turn f a1 b1; ...; f an bn. Raise Invalid_argument if the two lists have different lengths.
val map2 : f:('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
List.map2 f [a1; ...; an] [b1; ...; bn] is [f a1 b1; ...; f an bn]. Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.
val rev_map2 : f:('a -> 'b -> 'c) -> 'a list -> 'b list -> 'c list
List.rev_map2 f l1 l2 gives the same result as ListLabels.rev (ListLabels.map2 f l1 l2), but is tail-recursive and more efficient.
val fold_left2 : f:('a -> 'b -> 'c -> 'a) -> init:'a -> 'b list -> 'c list -> 'a
List.fold_left2 f a [b1; ...; bn] [c1; ...; cn] is f (... (f (f a b1 c1) b2 c2) ...) bn cn. Raise Invalid_argument if the two lists have different lengths.
val fold_right2 : f:('a -> 'b -> 'c -> 'c) -> 'a list -> 'b list -> init:'c -> 'c
List.fold_right2 f [a1; ...; an] [b1; ...; bn] c is f a1 b1 (f a2 b2 (... (f an bn c) ...)). Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.

List scanning

val for_all : f:('a -> bool) -> 'a list -> bool
for_all p [a1; ...; an] checks if all elements of the list satisfy the predicate p. That is, it returns (p a1) && (p a2) && ... && (p an).
val exists : f:('a -> bool) -> 'a list -> bool
exists p [a1; ...; an] checks if at least one element of the list satisfies the predicate p. That is, it returns (p a1) || (p a2) || ... || (p an).
val for_all2 : f:('a -> 'b -> bool) -> 'a list -> 'b list -> bool
Same as ListLabels.for_all, but for a two-argument predicate. Raise Invalid_argument if the two lists have different lengths.
val exists2 : f:('a -> 'b -> bool) -> 'a list -> 'b list -> bool
Same as ListLabels.exists, but for a two-argument predicate. Raise Invalid_argument if the two lists have different lengths.
val mem : 'a -> set:'a list -> bool
mem a l is true if and only if a is equal to an element of l.
val memq : 'a -> set:'a list -> bool
Same as ListLabels.mem, but uses physical equality instead of structural equality to compare list elements.

List searching

val find : f:('a -> bool) -> 'a list -> 'a
find p l returns the first element of the list l that satisfies the predicate p. Raise Not_found if there is no value that satisfies p in the list l.
val filter : f:('a -> bool) -> 'a list -> 'a list
filter p l returns all the elements of the list l that satisfy the predicate p. The order of the elements in the input list is preserved.
val find_all : f:('a -> bool) -> 'a list -> 'a list
find_all is another name for ListLabels.filter.
val partition : f:('a -> bool) -> 'a list -> 'a list * 'a list
partition p l returns a pair of lists (l1, l2), where l1 is the list of all the elements of l that satisfy the predicate p, and l2 is the list of all the elements of l that do not satisfy p. The order of the elements in the input list is preserved.

Association lists

val assoc : 'a -> ('a * 'b) list -> 'b
assoc a l returns the value associated with key a in the list of pairs l. That is, assoc a [ ...; (a,b); ...] = b if (a,b) is the leftmost binding of a in list l. Raise Not_found if there is no value associated with a in the list l.
val assq : 'a -> ('a * 'b) list -> 'b
Same as ListLabels.assoc, but uses physical equality instead of structural equality to compare keys.
val mem_assoc : 'a -> map:('a * 'b) list -> bool
Same as ListLabels.assoc, but simply return true if a binding exists, and false if no bindings exist for the given key.
val mem_assq : 'a -> map:('a * 'b) list -> bool
Same as ListLabels.mem_assoc, but uses physical equality instead of structural equality to compare keys.
val remove_assoc : 'a -> ('a * 'b) list -> ('a * 'b) list
remove_assoc a l returns the list of pairs l without the first pair with key a, if any. Not tail-recursive.
val remove_assq : 'a -> ('a * 'b) list -> ('a * 'b) list
Same as ListLabels.remove_assoc, but uses physical equality instead of structural equality to compare keys. Not tail-recursive.

Lists of pairs

val split : ('a * 'b) list -> 'a list * 'b list
Transform a list of pairs into a pair of lists: split [(a1,b1); ...; (an,bn)] is ([a1; ...; an], [b1; ...; bn]). Not tail-recursive.
val combine : 'a list -> 'b list -> ('a * 'b) list
Transform a pair of lists into a list of pairs: combine [a1; ...; an] [b1; ...; bn] is [(a1,b1); ...; (an,bn)]. Raise Invalid_argument if the two lists have different lengths. Not tail-recursive.

Sorting

val sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
Sort a list in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see Array.sort for a complete specification). For example, compare is a suitable comparison function. The resulting list is sorted in increasing order. List.sort is guaranteed to run in constant heap space (in addition to the size of the result list) and logarithmic stack space.

The current implementation uses Merge Sort. It runs in constant heap space and logarithmic stack space.

val stable_sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
Same as ListLabels.sort, but the sorting algorithm is guaranteed to be stable (i.e. elements that compare equal are kept in their original order) .

The current implementation uses Merge Sort. It runs in constant heap space and logarithmic stack space.

val fast_sort : cmp:('a -> 'a -> int) -> 'a list -> 'a list
Same as List.sort or List.stable_sort, whichever is faster on typical input.
val merge : cmp:('a -> 'a -> int) -> 'a list -> 'a list -> 'a list
Merge two lists: Assuming that l1 and l2 are sorted according to the comparison function cmp, merge cmp l1 l2 will return a sorted list containting all the elements of l1 and l2. If several elements compare equal, the elements of l1 will be before the elements of l2. Not tail-recursive (sum of the lengths of the arguments).
ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Set.html0000644000175000017500000001301312214324156020504 0ustar i33173i33173 MoreLabels.Set
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Module MoreLabels.Set

module Set: sig .. end
module type OrderedType = Set.OrderedType
module type S = sig .. end
module Make: 
functor (Ord : OrderedType) -> S  with type elt = Ord.t
ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Hashtbl.HashedType.html0000644000175000017500000001476612214324154023411 0ustar i33173i33173 MoreLabels.Hashtbl.HashedType
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Module type MoreLabels.Hashtbl.HashedType

module type HashedType = Hashtbl.HashedType
type t
The type of the hashtable keys.
val equal : t -> t -> bool
The equality predicate used to compare keys.
val hash : t -> int
A hashing function on keys. It must be such that if two keys are equal according to equal, then they have identical hash values as computed by hash. Examples: suitable (equal, hash) pairs for arbitrary key types include
  • ((=), Hashtbl.hash) for comparing objects by structure (provided objects do not contain floats)
  • ((fun x y -> compare x y = 0), Hashtbl.hash) for comparing objects by structure and handling nan correctly
  • ((==), Hashtbl.hash) for comparing objects by physical equality (e.g. for mutable or cyclic objects).

ocaml-doc-4.01/ocaml.html/libref/Map.Make.html0000644000175000017500000004316312214324153017324 0ustar i33173i33173 Map.Make
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Functor Map.Make

module Make: 
functor (Ord : OrderedType) -> S  with type key = Ord.t
Functor building an implementation of the map structure given a totally ordered type.
Parameters:
Ord : OrderedType 
type key
The type of the map keys.
type +'a t
The type of maps from type key to type 'a.
val empty : 'a t
The empty map.
val is_empty : 'a t -> bool
Test whether a map is empty or not.
val mem : key -> 'a t -> bool
mem x m returns true if m contains a binding for x, and false otherwise.
val add : key -> 'a -> 'a t -> 'a t
add x y m returns a map containing the same bindings as m, plus a binding of x to y. If x was already bound in m, its previous binding disappears.
val singleton : key -> 'a -> 'a t
singleton x y returns the one-element map that contains a binding y for x.
Since 3.12.0
val remove : key -> 'a t -> 'a t
remove x m returns a map containing the same bindings as m, except for x which is unbound in the returned map.
val merge : (key -> 'a option -> 'b option -> 'c option) ->
       'a t -> 'b t -> 'c t
merge f m1 m2 computes a map whose keys is a subset of keys of m1 and of m2. The presence of each such binding, and the corresponding value, is determined with the function f.
Since 3.12.0
val compare : ('a -> 'a -> int) -> 'a t -> 'a t -> int
Total ordering between maps. The first argument is a total ordering used to compare data associated with equal keys in the two maps.
val equal : ('a -> 'a -> bool) -> 'a t -> 'a t -> bool
equal cmp m1 m2 tests whether the maps m1 and m2 are equal, that is, contain equal keys and associate them with equal data. cmp is the equality predicate used to compare the data associated with the keys.
val iter : (key -> 'a -> unit) -> 'a t -> unit
iter f m applies f to all bindings in map m. f receives the key as first argument, and the associated value as second argument. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys.
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
fold f m a computes (f kN dN ... (f k1 d1 a)...), where k1 ... kN are the keys of all bindings in m (in increasing order), and d1 ... dN are the associated data.
val for_all : (key -> 'a -> bool) -> 'a t -> bool
for_all p m checks if all the bindings of the map satisfy the predicate p.
Since 3.12.0
val exists : (key -> 'a -> bool) -> 'a t -> bool
exists p m checks if at least one binding of the map satisfy the predicate p.
Since 3.12.0
val filter : (key -> 'a -> bool) -> 'a t -> 'a t
filter p m returns the map with all the bindings in m that satisfy predicate p.
Since 3.12.0
val partition : (key -> 'a -> bool) -> 'a t -> 'a t * 'a t
partition p m returns a pair of maps (m1, m2), where m1 contains all the bindings of s that satisfy the predicate p, and m2 is the map with all the bindings of s that do not satisfy p.
Since 3.12.0
val cardinal : 'a t -> int
Return the number of bindings of a map.
Since 3.12.0
val bindings : 'a t -> (key * 'a) list
Return the list of all bindings of the given map. The returned list is sorted in increasing order with respect to the ordering Ord.compare, where Ord is the argument given to Map.Make.
Since 3.12.0
val min_binding : 'a t -> key * 'a
Return the smallest binding of the given map (with respect to the Ord.compare ordering), or raise Not_found if the map is empty.
Since 3.12.0
val max_binding : 'a t -> key * 'a
Same as Map.S.min_binding, but returns the largest binding of the given map.
Since 3.12.0
val choose : 'a t -> key * 'a
Return one binding of the given map, or raise Not_found if the map is empty. Which binding is chosen is unspecified, but equal bindings will be chosen for equal maps.
Since 3.12.0
val split : key -> 'a t -> 'a t * 'a option * 'a t
split x m returns a triple (l, data, r), where l is the map with all the bindings of m whose key is strictly less than x; r is the map with all the bindings of m whose key is strictly greater than x; data is None if m contains no binding for x, or Some v if m binds v to x.
Since 3.12.0
val find : key -> 'a t -> 'a
find x m returns the current binding of x in m, or raises Not_found if no such binding exists.
val map : ('a -> 'b) -> 'a t -> 'b t
map f m returns a map with same domain as m, where the associated value a of all bindings of m has been replaced by the result of the application of f to a. The bindings are passed to f in increasing order with respect to the ordering over the type of the keys.
val mapi : (key -> 'a -> 'b) -> 'a t -> 'b t
Same as Map.S.map, but the function receives as arguments both the key and the associated value for each binding of the map.
ocaml-doc-4.01/ocaml.html/libref/type_Map.Make.html0000644000175000017500000003117512214324153020365 0ustar i33173i33173 Map.Make functor (Ord : OrderedType->
  sig
    type key = Ord.t
    type +'a t
    val empty : 'a t
    val is_empty : 'a t -> bool
    val mem : key -> 'a t -> bool
    val add : key -> '-> 'a t -> 'a t
    val singleton : key -> '-> 'a t
    val remove : key -> 'a t -> 'a t
    val merge :
      (key -> 'a option -> 'b option -> 'c option) -> 'a t -> 'b t -> 'c t
    val compare : ('-> '-> int) -> 'a t -> 'a t -> int
    val equal : ('-> '-> bool) -> 'a t -> 'a t -> bool
    val iter : (key -> '-> unit) -> 'a t -> unit
    val fold : (key -> '-> '-> 'b) -> 'a t -> '-> 'b
    val for_all : (key -> '-> bool) -> 'a t -> bool
    val exists : (key -> '-> bool) -> 'a t -> bool
    val filter : (key -> '-> bool) -> 'a t -> 'a t
    val partition : (key -> '-> bool) -> 'a t -> 'a t * 'a t
    val cardinal : 'a t -> int
    val bindings : 'a t -> (key * 'a) list
    val min_binding : 'a t -> key * 'a
    val max_binding : 'a t -> key * 'a
    val choose : 'a t -> key * 'a
    val split : key -> 'a t -> 'a t * 'a option * 'a t
    val find : key -> 'a t -> 'a
    val map : ('-> 'b) -> 'a t -> 'b t
    val mapi : (key -> '-> 'b) -> 'a t -> 'b t
  endocaml-doc-4.01/ocaml.html/libref/type_Random.State.html0000644000175000017500000001527412214324163021276 0ustar i33173i33173 Random.State sig
  type t
  val make : int array -> Random.State.t
  val make_self_init : unit -> Random.State.t
  val copy : Random.State.t -> Random.State.t
  val bits : Random.State.t -> int
  val int : Random.State.t -> int -> int
  val int32 : Random.State.t -> Int32.t -> Int32.t
  val nativeint : Random.State.t -> Nativeint.t -> Nativeint.t
  val int64 : Random.State.t -> Int64.t -> Int64.t
  val float : Random.State.t -> float -> float
  val bool : Random.State.t -> bool
endocaml-doc-4.01/ocaml.html/libref/Pervasives.html0000644000175000017500000025065112214324161020063 0ustar i33173i33173 Pervasives
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Module Pervasives

module Pervasives: sig .. end
The initially opened module.

This module provides the basic operations over the built-in types (numbers, booleans, strings, exceptions, references, lists, arrays, input-output channels, ...).

This module is automatically opened at the beginning of each compilation. All components of this module can therefore be referred by their short name, without prefixing them by Pervasives.


Exceptions

val raise : exn -> 'a
Raise the given exception value
val invalid_arg : string -> 'a
Raise exception Invalid_argument with the given string.
val failwith : string -> 'a
Raise exception Failure with the given string.
exception Exit
The Exit exception is not raised by any library function. It is provided for use in your programs.

Comparisons

val (=) : 'a -> 'a -> bool
e1 = e2 tests for structural equality of e1 and e2. Mutable structures (e.g. references and arrays) are equal if and only if their current contents are structurally equal, even if the two mutable objects are not the same physical object. Equality between functional values raises Invalid_argument. Equality between cyclic data structures may not terminate.
val (<>) : 'a -> 'a -> bool
Negation of (=).
val (<) : 'a -> 'a -> bool
See (>=).
val (>) : 'a -> 'a -> bool
See (>=).
val (<=) : 'a -> 'a -> bool
See (>=).
val (>=) : 'a -> 'a -> bool
Structural ordering functions. These functions coincide with the usual orderings over integers, characters, strings and floating-point numbers, and extend them to a total ordering over all types. The ordering is compatible with ( = ). As in the case of ( = ), mutable structures are compared by contents. Comparison between functional values raises Invalid_argument. Comparison between cyclic structures may not terminate.
val compare : 'a -> 'a -> int
compare x y returns 0 if x is equal to y, a negative integer if x is less than y, and a positive integer if x is greater than y. The ordering implemented by compare is compatible with the comparison predicates =, < and > defined above, with one difference on the treatment of the float value nan. Namely, the comparison predicates treat nan as different from any other float value, including itself; while compare treats nan as equal to itself and less than any other float value. This treatment of nan ensures that compare defines a total ordering relation.

compare applied to functional values may raise Invalid_argument. compare applied to cyclic structures may not terminate.

The compare function can be used as the comparison function required by the Set.Make and Map.Make functors, as well as the List.sort and Array.sort functions.

val min : 'a -> 'a -> 'a
Return the smaller of the two arguments. The result is unspecified if one of the arguments contains the float value nan.
val max : 'a -> 'a -> 'a
Return the greater of the two arguments. The result is unspecified if one of the arguments contains the float value nan.
val (==) : 'a -> 'a -> bool
e1 == e2 tests for physical equality of e1 and e2. On mutable types such as references, arrays, strings, records with mutable fields and objects with mutable instance variables, e1 == e2 is true if and only if physical modification of e1 also affects e2. On non-mutable types, the behavior of ( == ) is implementation-dependent; however, it is guaranteed that e1 == e2 implies compare e1 e2 = 0.
val (!=) : 'a -> 'a -> bool
Negation of (==).

Boolean operations

val not : bool -> bool
The boolean negation.
val (&&) : bool -> bool -> bool
The boolean 'and'. Evaluation is sequential, left-to-right: in e1 && e2, e1 is evaluated first, and if it returns false, e2 is not evaluated at all.
val (&) : bool -> bool -> bool
Deprecated.(&&) should be used instead.
val (||) : bool -> bool -> bool
The boolean 'or'. Evaluation is sequential, left-to-right: in e1 || e2, e1 is evaluated first, and if it returns true, e2 is not evaluated at all.
val (or) : bool -> bool -> bool
Deprecated.(||) should be used instead.

Composition operators

val (|>) : 'a -> ('a -> 'b) -> 'b
Reverse-application operator: x |> f |> g is exactly equivalent to g (f (x)).
Since 4.01
val (@@) : ('a -> 'b) -> 'a -> 'b
Application operator: g @@ f @@ x is exactly equivalent to g (f (x)).
Since 4.01

Integer arithmetic


Integers are 31 bits wide (or 63 bits on 64-bit processors). All operations are taken modulo 231 (or 263). They do not fail on overflow.
val (~-) : int -> int
Unary negation. You can also write - e instead of ~- e.
val (~+) : int -> int
Unary addition. You can also write + e instead of ~+ e.
Since 3.12.0
val succ : int -> int
succ x is x + 1.
val pred : int -> int
pred x is x - 1.
val (+) : int -> int -> int
Integer addition.
val (-) : int -> int -> int
Integer subtraction.
val ( * ) : int -> int -> int
Integer multiplication.
val (/) : int -> int -> int
Integer division. Raise Division_by_zero if the second argument is 0. Integer division rounds the real quotient of its arguments towards zero. More precisely, if x >= 0 and y > 0, x / y is the greatest integer less than or equal to the real quotient of x by y. Moreover, (- x) / y = x / (- y) = - (x / y).
val (mod) : int -> int -> int
Integer remainder. If y is not zero, the result of x mod y satisfies the following properties: x = (x / y) * y + x mod y and abs(x mod y) <= abs(y) - 1. If y = 0, x mod y raises Division_by_zero. Note that x mod y is negative only if x < 0. Raise Division_by_zero if y is zero.
val abs : int -> int
Return the absolute value of the argument. Note that this may be negative if the argument is min_int.
val max_int : int
The greatest representable integer.
val min_int : int
The smallest representable integer.

Bitwise operations

val (land) : int -> int -> int
Bitwise logical and.
val (lor) : int -> int -> int
Bitwise logical or.
val (lxor) : int -> int -> int
Bitwise logical exclusive or.
val lnot : int -> int
Bitwise logical negation.
val (lsl) : int -> int -> int
n lsl m shifts n to the left by m bits. The result is unspecified if m < 0 or m >= bitsize, where bitsize is 32 on a 32-bit platform and 64 on a 64-bit platform.
val (lsr) : int -> int -> int
n lsr m shifts n to the right by m bits. This is a logical shift: zeroes are inserted regardless of the sign of n. The result is unspecified if m < 0 or m >= bitsize.
val (asr) : int -> int -> int
n asr m shifts n to the right by m bits. This is an arithmetic shift: the sign bit of n is replicated. The result is unspecified if m < 0 or m >= bitsize.

Floating-point arithmetic

OCaml's floating-point numbers follow the IEEE 754 standard, using double precision (64 bits) numbers. Floating-point operations never raise an exception on overflow, underflow, division by zero, etc. Instead, special IEEE numbers are returned as appropriate, such as infinity for 1.0 /. 0.0, neg_infinity for -1.0 /. 0.0, and nan ('not a number') for 0.0 /. 0.0. These special numbers then propagate through floating-point computations as expected: for instance, 1.0 /. infinity is 0.0, and any arithmetic operation with nan as argument returns nan as result.

val (~-.) : float -> float
Unary negation. You can also write -. e instead of ~-. e.
val (~+.) : float -> float
Unary addition. You can also write +. e instead of ~+. e.
Since 3.12.0
val (+.) : float -> float -> float
Floating-point addition
val (-.) : float -> float -> float
Floating-point subtraction
val ( *. ) : float -> float -> float
Floating-point multiplication
val (/.) : float -> float -> float
Floating-point division.
val ( ** ) : float -> float -> float
Exponentiation.
val sqrt : float -> float
Square root.
val exp : float -> float
Exponential.
val log : float -> float
Natural logarithm.
val log10 : float -> float
Base 10 logarithm.
val expm1 : float -> float
expm1 x computes exp x -. 1.0, giving numerically-accurate results even if x is close to 0.0.
Since 3.12.0
val log1p : float -> float
log1p x computes log(1.0 +. x) (natural logarithm), giving numerically-accurate results even if x is close to 0.0.
Since 3.12.0
val cos : float -> float
Cosine. Argument is in radians.
val sin : float -> float
Sine. Argument is in radians.
val tan : float -> float
Tangent. Argument is in radians.
val acos : float -> float
Arc cosine. The argument must fall within the range [-1.0, 1.0]. Result is in radians and is between 0.0 and pi.
val asin : float -> float
Arc sine. The argument must fall within the range [-1.0, 1.0]. Result is in radians and is between -pi/2 and pi/2.
val atan : float -> float
Arc tangent. Result is in radians and is between -pi/2 and pi/2.
val atan2 : float -> float -> float
atan2 y x returns the arc tangent of y /. x. The signs of x and y are used to determine the quadrant of the result. Result is in radians and is between -pi and pi.
val hypot : float -> float -> float
hypot x y returns sqrt(x *. x + y *. y), that is, the length of the hypotenuse of a right-angled triangle with sides of length x and y, or, equivalently, the distance of the point (x,y) to origin.
Since 4.00.0
val cosh : float -> float
Hyperbolic cosine. Argument is in radians.
val sinh : float -> float
Hyperbolic sine. Argument is in radians.
val tanh : float -> float
Hyperbolic tangent. Argument is in radians.
val ceil : float -> float
Round above to an integer value. ceil f returns the least integer value greater than or equal to f. The result is returned as a float.
val floor : float -> float
Round below to an integer value. floor f returns the greatest integer value less than or equal to f. The result is returned as a float.
val abs_float : float -> float
abs_float f returns the absolute value of f.
val copysign : float -> float -> float
copysign x y returns a float whose absolute value is that of x and whose sign is that of y. If x is nan, returns nan. If y is nan, returns either x or -. x, but it is not specified which.
Since 4.00.0
val mod_float : float -> float -> float
mod_float a b returns the remainder of a with respect to b. The returned value is a -. n *. b, where n is the quotient a /. b rounded towards zero to an integer.
val frexp : float -> float * int
frexp f returns the pair of the significant and the exponent of f. When f is zero, the significant x and the exponent n of f are equal to zero. When f is non-zero, they are defined by f = x *. 2 ** n and 0.5 <= x < 1.0.
val ldexp : float -> int -> float
ldexp x n returns x *. 2 ** n.
val modf : float -> float * float
modf f returns the pair of the fractional and integral part of f.
val float : int -> float
Same as float_of_int.
val float_of_int : int -> float
Convert an integer to floating-point.
val truncate : float -> int
Same as int_of_float.
val int_of_float : float -> int
Truncate the given floating-point number to an integer. The result is unspecified if the argument is nan or falls outside the range of representable integers.
val infinity : float
Positive infinity.
val neg_infinity : float
Negative infinity.
val nan : float
A special floating-point value denoting the result of an undefined operation such as 0.0 /. 0.0. Stands for 'not a number'. Any floating-point operation with nan as argument returns nan as result. As for floating-point comparisons, =, <, <=, > and >= return false and <> returns true if one or both of their arguments is nan.
val max_float : float
The largest positive finite value of type float.
val min_float : float
The smallest positive, non-zero, non-denormalized value of type float.
val epsilon_float : float
The difference between 1.0 and the smallest exactly representable floating-point number greater than 1.0.
type fpclass =
| FP_normal (*Normal number, none of the below*)
| FP_subnormal (*Number very close to 0.0, has reduced precision*)
| FP_zero (*Number is 0.0 or -0.0*)
| FP_infinite (*Number is positive or negative infinity*)
| FP_nan (*Not a number: result of an undefined operation*)
The five classes of floating-point numbers, as determined by the classify_float function.
val classify_float : float -> fpclass
Return the class of the given floating-point number: normal, subnormal, zero, infinite, or not a number.

String operations

More string operations are provided in module String.

val (^) : string -> string -> string
String concatenation.

Character operations

More character operations are provided in module Char.

val int_of_char : char -> int
Return the ASCII code of the argument.
val char_of_int : int -> char
Return the character with the given ASCII code. Raise Invalid_argument "char_of_int" if the argument is outside the range 0--255.

Unit operations

val ignore : 'a -> unit
Discard the value of its argument and return (). For instance, ignore(f x) discards the result of the side-effecting function f. It is equivalent to f x; (), except that the latter may generate a compiler warning; writing ignore(f x) instead avoids the warning.

String conversion functions

val string_of_bool : bool -> string
Return the string representation of a boolean. As the returned values may be shared, the user should not modify them directly.
val bool_of_string : string -> bool
Convert the given string to a boolean. Raise Invalid_argument "bool_of_string" if the string is not "true" or "false".
val string_of_int : int -> string
Return the string representation of an integer, in decimal.
val int_of_string : string -> int
Convert the given string to an integer. The string is read in decimal (by default) or in hexadecimal (if it begins with 0x or 0X), octal (if it begins with 0o or 0O), or binary (if it begins with 0b or 0B). Raise Failure "int_of_string" if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type int.
val string_of_float : float -> string
Return the string representation of a floating-point number.
val float_of_string : string -> float
Convert the given string to a float. Raise Failure "float_of_string" if the given string is not a valid representation of a float.

Pair operations

val fst : 'a * 'b -> 'a
Return the first component of a pair.
val snd : 'a * 'b -> 'b
Return the second component of a pair.

List operations

More list operations are provided in module List.

val (@) : 'a list -> 'a list -> 'a list
List concatenation.

Input/output
Note: all input/output functions can raise Sys_error when the system calls they invoke fail.
type in_channel
The type of input channel.
type out_channel
The type of output channel.
val stdin : in_channel
The standard input for the process.
val stdout : out_channel
The standard output for the process.
val stderr : out_channel
The standard error output for the process.

Output functions on standard output

val print_char : char -> unit
Print a character on standard output.
val print_string : string -> unit
Print a string on standard output.
val print_int : int -> unit
Print an integer, in decimal, on standard output.
val print_float : float -> unit
Print a floating-point number, in decimal, on standard output.
val print_endline : string -> unit
Print a string, followed by a newline character, on standard output and flush standard output.
val print_newline : unit -> unit
Print a newline character on standard output, and flush standard output. This can be used to simulate line buffering of standard output.

Output functions on standard error

val prerr_char : char -> unit
Print a character on standard error.
val prerr_string : string -> unit
Print a string on standard error.
val prerr_int : int -> unit
Print an integer, in decimal, on standard error.
val prerr_float : float -> unit
Print a floating-point number, in decimal, on standard error.
val prerr_endline : string -> unit
Print a string, followed by a newline character on standard error and flush standard error.
val prerr_newline : unit -> unit
Print a newline character on standard error, and flush standard error.

Input functions on standard input

val read_line : unit -> string
Flush standard output, then read characters from standard input until a newline character is encountered. Return the string of all characters read, without the newline character at the end.
val read_int : unit -> int
Flush standard output, then read one line from standard input and convert it to an integer. Raise Failure "int_of_string" if the line read is not a valid representation of an integer.
val read_float : unit -> float
Flush standard output, then read one line from standard input and convert it to a floating-point number. The result is unspecified if the line read is not a valid representation of a floating-point number.

General output functions

type open_flag =
| Open_rdonly (*open for reading.*)
| Open_wronly (*open for writing.*)
| Open_append (*open for appending: always write at end of file.*)
| Open_creat (*create the file if it does not exist.*)
| Open_trunc (*empty the file if it already exists.*)
| Open_excl (*fail if Open_creat and the file already exists.*)
| Open_binary (*open in binary mode (no conversion).*)
| Open_text (*open in text mode (may perform conversions).*)
| Open_nonblock (*open in non-blocking mode.*)
Opening modes for open_out_gen and open_in_gen.
val open_out : string -> out_channel
Open the named file for writing, and return a new output channel on that file, positionned at the beginning of the file. The file is truncated to zero length if it already exists. It is created if it does not already exists.
val open_out_bin : string -> out_channel
Same as open_out, but the file is opened in binary mode, so that no translation takes place during writes. On operating systems that do not distinguish between text mode and binary mode, this function behaves like open_out.
val open_out_gen : open_flag list -> int -> string -> out_channel
open_out_gen mode perm filename opens the named file for writing, as described above. The extra argument mode specify the opening mode. The extra argument perm specifies the file permissions, in case the file must be created. open_out and open_out_bin are special cases of this function.
val flush : out_channel -> unit
Flush the buffer associated with the given output channel, performing all pending writes on that channel. Interactive programs must be careful about flushing standard output and standard error at the right time.
val flush_all : unit -> unit
Flush all open output channels; ignore errors.
val output_char : out_channel -> char -> unit
Write the character on the given output channel.
val output_string : out_channel -> string -> unit
Write the string on the given output channel.
val output : out_channel -> string -> int -> int -> unit
output oc buf pos len writes len characters from string buf, starting at offset pos, to the given output channel oc. Raise Invalid_argument "output" if pos and len do not designate a valid substring of buf.
val output_byte : out_channel -> int -> unit
Write one 8-bit integer (as the single character with that code) on the given output channel. The given integer is taken modulo 256.
val output_binary_int : out_channel -> int -> unit
Write one integer in binary format (4 bytes, big-endian) on the given output channel. The given integer is taken modulo 232. The only reliable way to read it back is through the input_binary_int function. The format is compatible across all machines for a given version of OCaml.
val output_value : out_channel -> 'a -> unit
Write the representation of a structured value of any type to a channel. Circularities and sharing inside the value are detected and preserved. The object can be read back, by the function input_value. See the description of module Marshal for more information. output_value is equivalent to Marshal.to_channel with an empty list of flags.
val seek_out : out_channel -> int -> unit
seek_out chan pos sets the current writing position to pos for channel chan. This works only for regular files. On files of other kinds (such as terminals, pipes and sockets), the behavior is unspecified.
val pos_out : out_channel -> int
Return the current writing position for the given channel. Does not work on channels opened with the Open_append flag (returns unspecified results).
val out_channel_length : out_channel -> int
Return the size (number of characters) of the regular file on which the given channel is opened. If the channel is opened on a file that is not a regular file, the result is meaningless.
val close_out : out_channel -> unit
Close the given channel, flushing all buffered write operations. Output functions raise a Sys_error exception when they are applied to a closed output channel, except close_out and flush, which do nothing when applied to an already closed channel. Note that close_out may raise Sys_error if the operating system signals an error when flushing or closing.
val close_out_noerr : out_channel -> unit
Same as close_out, but ignore all errors.
val set_binary_mode_out : out_channel -> bool -> unit
set_binary_mode_out oc true sets the channel oc to binary mode: no translations take place during output. set_binary_mode_out oc false sets the channel oc to text mode: depending on the operating system, some translations may take place during output. For instance, under Windows, end-of-lines will be translated from \n to \r\n. This function has no effect under operating systems that do not distinguish between text mode and binary mode.

General input functions

val open_in : string -> in_channel
Open the named file for reading, and return a new input channel on that file, positionned at the beginning of the file.
val open_in_bin : string -> in_channel
Same as open_in, but the file is opened in binary mode, so that no translation takes place during reads. On operating systems that do not distinguish between text mode and binary mode, this function behaves like open_in.
val open_in_gen : open_flag list -> int -> string -> in_channel
open_in_gen mode perm filename opens the named file for reading, as described above. The extra arguments mode and perm specify the opening mode and file permissions. open_in and open_in_bin are special cases of this function.
val input_char : in_channel -> char
Read one character from the given input channel. Raise End_of_file if there are no more characters to read.
val input_line : in_channel -> string
Read characters from the given input channel, until a newline character is encountered. Return the string of all characters read, without the newline character at the end. Raise End_of_file if the end of the file is reached at the beginning of line.
val input : in_channel -> string -> int -> int -> int
input ic buf pos len reads up to len characters from the given channel ic, storing them in string buf, starting at character number pos. It returns the actual number of characters read, between 0 and len (inclusive). A return value of 0 means that the end of file was reached. A return value between 0 and len exclusive means that not all requested len characters were read, either because no more characters were available at that time, or because the implementation found it convenient to do a partial read; input must be called again to read the remaining characters, if desired. (See also really_input for reading exactly len characters.) Exception Invalid_argument "input" is raised if pos and len do not designate a valid substring of buf.
val really_input : in_channel -> string -> int -> int -> unit
really_input ic buf pos len reads len characters from channel ic, storing them in string buf, starting at character number pos. Raise End_of_file if the end of file is reached before len characters have been read. Raise Invalid_argument "really_input" if pos and len do not designate a valid substring of buf.
val input_byte : in_channel -> int
Same as input_char, but return the 8-bit integer representing the character. Raise End_of_file if an end of file was reached.
val input_binary_int : in_channel -> int
Read an integer encoded in binary format (4 bytes, big-endian) from the given input channel. See output_binary_int. Raise End_of_file if an end of file was reached while reading the integer.
val input_value : in_channel -> 'a
Read the representation of a structured value, as produced by output_value, and return the corresponding value. This function is identical to Marshal.from_channel; see the description of module Marshal for more information, in particular concerning the lack of type safety.
val seek_in : in_channel -> int -> unit
seek_in chan pos sets the current reading position to pos for channel chan. This works only for regular files. On files of other kinds, the behavior is unspecified.
val pos_in : in_channel -> int
Return the current reading position for the given channel.
val in_channel_length : in_channel -> int
Return the size (number of characters) of the regular file on which the given channel is opened. If the channel is opened on a file that is not a regular file, the result is meaningless. The returned size does not take into account the end-of-line translations that can be performed when reading from a channel opened in text mode.
val close_in : in_channel -> unit
Close the given channel. Input functions raise a Sys_error exception when they are applied to a closed input channel, except close_in, which does nothing when applied to an already closed channel.
val close_in_noerr : in_channel -> unit
Same as close_in, but ignore all errors.
val set_binary_mode_in : in_channel -> bool -> unit
set_binary_mode_in ic true sets the channel ic to binary mode: no translations take place during input. set_binary_mode_out ic false sets the channel ic to text mode: depending on the operating system, some translations may take place during input. For instance, under Windows, end-of-lines will be translated from \r\n to \n. This function has no effect under operating systems that do not distinguish between text mode and binary mode.

Operations on large files

module LargeFile: sig .. end
Operations on large files.

References

type 'a ref = {
   mutable contents : 'a;
}
The type of references (mutable indirection cells) containing a value of type 'a.
val ref : 'a -> 'a ref
Return a fresh reference containing the given value.
val (!) : 'a ref -> 'a
!r returns the current contents of reference r. Equivalent to fun r -> r.contents.
val (:=) : 'a ref -> 'a -> unit
r := a stores the value of a in reference r. Equivalent to fun r v -> r.contents <- v.
val incr : int ref -> unit
Increment the integer contained in the given reference. Equivalent to fun r -> r := succ !r.
val decr : int ref -> unit
Decrement the integer contained in the given reference. Equivalent to fun r -> r := pred !r.

Operations on format strings


Format strings are character strings with special lexical conventions that defines the functionality of formatted input/output functions. Format strings are used to read data with formatted input functions from module Scanf and to print data with formatted output functions from modules Printf and Format.

Format strings are made of three kinds of entities:

  • conversions specifications, introduced by the special character '%' followed by one or more characters specifying what kind of argument to read or print,
  • formatting indications, introduced by the special character '@' followed by one or more characters specifying how to read or print the argument,
  • plain characters that are regular characters with usual lexical conventions. Plain characters specify string literals to be read in the input or printed in the output.
There is an additional lexical rule to escape the special characters '%' and '@' in format strings: if a special character follows a '%' character, it is treated as a plain character. In other words, "%%" is considered as a plain '%' and "%@" as a plain '@'.

For more information about conversion specifications and formatting indications available, read the documentation of modules Scanf, Printf and Format.

type ('a, 'b, 'c, 'd) format4 = ('a, 'b, 'c, 'c, 'c, 'd) format6
Format strings have a general and highly polymorphic type ('a, 'b, 'c, 'd, 'e, 'f) format6. Type format6 is built in. The two simplified types, format and format4 below are included for backward compatibility with earlier releases of OCaml.

The meaning of format string type parameters is as follows:

  • 'a is the type of the parameters of the format for formatted output functions (printf-style functions); 'a is the type of the values read by the format for formatted input functions (scanf-style functions).
  • 'b is the type of input source for formatted input functions and the type of output target for formatted output functions. For printf-style functions from module Printf, 'b is typically out_channel; for printf-style functions from module Format, 'b is typically Format.formatter; for scanf-style functions from module Scanf, 'b is typically Scanf.Scanning.in_channel.
Type argument 'b is also the type of the first argument given to user's defined printing functions for %a and %t conversions, and user's defined reading functions for %r conversion.

  • 'c is the type of the result of the %a and %t printing functions, and also the type of the argument transmitted to the first argument of kprintf-style functions or to the kscanf-style functions.
  • 'd is the type of parameters for the scanf-style functions.
  • 'e is the type of the receiver function for the scanf-style functions.
  • 'f is the final result type of a formatted input/output function invocation: for the printf-style functions, it is typically unit; for the scanf-style functions, it is typically the result type of the receiver function.

type ('a, 'b, 'c) format = ('a, 'b, 'c, 'c) format4 
val string_of_format : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> string
Converts a format string into a string.
val format_of_string : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> ('a, 'b, 'c, 'd, 'e, 'f) format6
format_of_string s returns a format string read from the string literal s. Note: format_of_string can not convert a string argument that is not a literal. If you need this functionality, use the more general Scanf.format_from_string function.
val (^^) : ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
       ('f, 'b, 'c, 'e, 'g, 'h) format6 -> ('a, 'b, 'c, 'd, 'g, 'h) format6
f1 ^^ f2 catenates format strings f1 and f2. The result is a format string that behaves as the concatenation of format strings f1 and f2: in case of formatted output, it accepts arguments from f1, then arguments from f2; in case of formatted input, it returns results from f1, then results from f2.

Program termination

val exit : int -> 'a
Terminate the process, returning the given status code to the operating system: usually 0 to indicate no errors, and a small positive integer to indicate failure. All open output channels are flushed with flush_all. An implicit exit 0 is performed each time a program terminates normally. An implicit exit 2 is performed if the program terminates early because of an uncaught exception.
val at_exit : (unit -> unit) -> unit
Register the given function to be called at program termination time. The functions registered with at_exit will be called when the program executes exit, or terminates, either normally or because of an uncaught exception. The functions are called in 'last in, first out' order: the function most recently added with at_exit is called first.
ocaml-doc-4.01/ocaml.html/libref/type_Bigarray.Array2.html0000644000175000017500000003572112214324145021675 0ustar i33173i33173 Bigarray.Array2 sig
  type ('a, 'b, 'c) t
  val create :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
  external dim1 : ('a, 'b, 'c) Bigarray.Array2.t -> int = "%caml_ba_dim_1"
  external dim2 : ('a, 'b, 'c) Bigarray.Array2.t -> int = "%caml_ba_dim_2"
  external kind : ('a, 'b, 'c) Bigarray.Array2.t -> ('a, 'b) Bigarray.kind
    = "caml_ba_kind"
  external layout : ('a, 'b, 'c) Bigarray.Array2.t -> 'Bigarray.layout
    = "caml_ba_layout"
  external get : ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> 'a
    = "%caml_ba_ref_2"
  external set : ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> '-> unit
    = "%caml_ba_set_2"
  external sub_left :
    ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t ->
    int -> int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t
    = "caml_ba_sub"
  external sub_right :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t ->
    int -> int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t
    = "caml_ba_sub"
  val slice_left :
    ('a, 'b, Bigarray.c_layout) Bigarray.Array2.t ->
    int -> ('a, 'b, Bigarray.c_layout) Bigarray.Array1.t
  val slice_right :
    ('a, 'b, Bigarray.fortran_layout) Bigarray.Array2.t ->
    int -> ('a, 'b, Bigarray.fortran_layout) Bigarray.Array1.t
  external blit :
    ('a, 'b, 'c) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Array2.t -> unit
    = "caml_ba_blit"
  external fill : ('a, 'b, 'c) Bigarray.Array2.t -> '-> unit
    = "caml_ba_fill"
  val of_array :
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout -> 'a array array -> ('a, 'b, 'c) Bigarray.Array2.t
  val map_file :
    Unix.file_descr ->
    ?pos:int64 ->
    ('a, 'b) Bigarray.kind ->
    'Bigarray.layout ->
    bool -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
  external unsafe_get : ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> 'a
    = "%caml_ba_unsafe_ref_2"
  external unsafe_set :
    ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> '-> unit
    = "%caml_ba_unsafe_set_2"
endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Map.html0000644000175000017500000007474512214324156021552 0ustar i33173i33173 MoreLabels.Map sig
  module type OrderedType = Map.OrderedType
  module type S =
    sig
      type key
      and +'a t
      val empty : 'MoreLabels.Map.S.t
      val is_empty : 'MoreLabels.Map.S.t -> bool
      val mem : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> bool
      val add :
        key:MoreLabels.Map.S.key ->
        data:'-> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
      val singleton : MoreLabels.Map.S.key -> '-> 'MoreLabels.Map.S.t
      val remove :
        MoreLabels.Map.S.key ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
      val merge :
        f:(MoreLabels.Map.S.key -> 'a option -> 'b option -> 'c option) ->
        'MoreLabels.Map.S.t ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
      val compare :
        cmp:('-> '-> int) ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> int
      val equal :
        cmp:('-> '-> bool) ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t -> bool
      val iter :
        f:(key:MoreLabels.Map.S.key -> data:'-> unit) ->
        'MoreLabels.Map.S.t -> unit
      val fold :
        f:(key:MoreLabels.Map.S.key -> data:'-> '-> 'b) ->
        'MoreLabels.Map.S.t -> init:'-> 'b
      val for_all :
        f:(MoreLabels.Map.S.key -> '-> bool) ->
        'MoreLabels.Map.S.t -> bool
      val exists :
        f:(MoreLabels.Map.S.key -> '-> bool) ->
        'MoreLabels.Map.S.t -> bool
      val filter :
        f:(MoreLabels.Map.S.key -> '-> bool) ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
      val partition :
        f:(MoreLabels.Map.S.key -> '-> bool) ->
        'MoreLabels.Map.S.t ->
        'MoreLabels.Map.S.t * 'MoreLabels.Map.S.t
      val cardinal : 'MoreLabels.Map.S.t -> int
      val bindings :
        'MoreLabels.Map.S.t -> (MoreLabels.Map.S.key * 'a) list
      val min_binding : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
      val max_binding : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
      val choose : 'MoreLabels.Map.S.t -> MoreLabels.Map.S.key * 'a
      val split :
        MoreLabels.Map.S.key ->
        'MoreLabels.Map.S.t ->
        'MoreLabels.Map.S.t * 'a option * 'MoreLabels.Map.S.t
      val find : MoreLabels.Map.S.key -> 'MoreLabels.Map.S.t -> 'a
      val map :
        f:('-> 'b) -> 'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
      val mapi :
        f:(MoreLabels.Map.S.key -> '-> 'b) ->
        'MoreLabels.Map.S.t -> 'MoreLabels.Map.S.t
    end
  module Make :
    functor (Ord : OrderedType->
      sig
        type key = Ord.t
        and +'a t
        val empty : 'a t
        val is_empty : 'a t -> bool
        val mem : key -> 'a t -> bool
        val add : key:key -> data:'-> 'a t -> 'a t
        val singleton : key -> '-> 'a t
        val remove : key -> 'a t -> 'a t
        val merge :
          f:(key -> 'a option -> 'b option -> 'c option) ->
          'a t -> 'b t -> 'c t
        val compare : cmp:('-> '-> int) -> 'a t -> 'a t -> int
        val equal : cmp:('-> '-> bool) -> 'a t -> 'a t -> bool
        val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
        val fold :
          f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
        val for_all : f:(key -> '-> bool) -> 'a t -> bool
        val exists : f:(key -> '-> bool) -> 'a t -> bool
        val filter : f:(key -> '-> bool) -> 'a t -> 'a t
        val partition : f:(key -> '-> bool) -> 'a t -> 'a t * 'a t
        val cardinal : 'a t -> int
        val bindings : 'a t -> (key * 'a) list
        val min_binding : 'a t -> key * 'a
        val max_binding : 'a t -> key * 'a
        val choose : 'a t -> key * 'a
        val split : key -> 'a t -> 'a t * 'a option * 'a t
        val find : key -> 'a t -> 'a
        val map : f:('-> 'b) -> 'a t -> 'b t
        val mapi : f:(key -> '-> 'b) -> 'a t -> 'b t
      end
endocaml-doc-4.01/ocaml.html/libref/type_GraphicsX11.html0000644000175000017500000001156212214324151021022 0ustar i33173i33173 GraphicsX11 sig
  type window_id = string
  val window_id : unit -> GraphicsX11.window_id
  val open_subwindow :
    x:int -> y:int -> width:int -> height:int -> GraphicsX11.window_id
  val close_subwindow : GraphicsX11.window_id -> unit
endocaml-doc-4.01/ocaml.html/libref/Hashtbl.HashedType.html0000644000175000017500000001521112214324151021344 0ustar i33173i33173 Hashtbl.HashedType
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Module type Hashtbl.HashedType

module type HashedType = sig .. end
The input signature of the functor Hashtbl.Make.
type t
The type of the hashtable keys.
val equal : t -> t -> bool
The equality predicate used to compare keys.
val hash : t -> int
A hashing function on keys. It must be such that if two keys are equal according to equal, then they have identical hash values as computed by hash. Examples: suitable (equal, hash) pairs for arbitrary key types include
  • ((=), Hashtbl.hash) for comparing objects by structure (provided objects do not contain floats)
  • ((fun x y -> compare x y = 0), Hashtbl.hash) for comparing objects by structure and handling nan correctly
  • ((==), Hashtbl.hash) for comparing objects by physical equality (e.g. for mutable or cyclic objects).

ocaml-doc-4.01/ocaml.html/libref/type_Filename.html0000644000175000017500000001543512214324147020520 0ustar i33173i33173 Filename sig
  val current_dir_name : string
  val parent_dir_name : string
  val dir_sep : string
  val concat : string -> string -> string
  val is_relative : string -> bool
  val is_implicit : string -> bool
  val check_suffix : string -> string -> bool
  val chop_suffix : string -> string -> string
  val chop_extension : string -> string
  val basename : string -> string
  val dirname : string -> string
  val temp_file : ?temp_dir:string -> string -> string -> string
  val open_temp_file :
    ?mode:Pervasives.open_flag list ->
    ?temp_dir:string -> string -> string -> string * Pervasives.out_channel
  val get_temp_dir_name : unit -> string
  val set_temp_dir_name : string -> unit
  val temp_dir_name : string
  val quote : string -> string
endocaml-doc-4.01/ocaml.html/libref/ThreadUnix.html0000644000175000017500000003022312214324167020004 0ustar i33173i33173 ThreadUnix
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Module ThreadUnix

module ThreadUnix: sig .. end
Deprecated.The functionality of this module has been merged back into the Unix module. Threaded programs can now call the functions from module Unix directly, and still get the correct behavior (block the calling thread, if required, but do not block all threads in the process).
Thread-compatible system calls.

Process handling

val execv : string -> string array -> unit
val execve : string -> string array -> string array -> unit
val execvp : string -> string array -> unit
val wait : unit -> int * Unix.process_status
val waitpid : Unix.wait_flag list -> int -> int * Unix.process_status
val system : string -> Unix.process_status

Basic input/output

val read : Unix.file_descr -> string -> int -> int -> int
val write : Unix.file_descr -> string -> int -> int -> int

Input/output with timeout

val timed_read : Unix.file_descr -> string -> int -> int -> float -> int
See ThreadUnix.timed_write.
val timed_write : Unix.file_descr -> string -> int -> int -> float -> int
Behave as ThreadUnix.read and ThreadUnix.write, except that Unix_error(ETIMEDOUT,_,_) is raised if no data is available for reading or ready for writing after d seconds. The delay d is given in the fifth argument, in seconds.

Polling

val select : Unix.file_descr list ->
       Unix.file_descr list ->
       Unix.file_descr list ->
       float -> Unix.file_descr list * Unix.file_descr list * Unix.file_descr list

Pipes and redirections

val pipe : unit -> Unix.file_descr * Unix.file_descr
val open_process_in : string -> in_channel
val open_process_out : string -> out_channel
val open_process : string -> in_channel * out_channel

Time

val sleep : int -> unit

Sockets

val socket : Unix.socket_domain -> Unix.socket_type -> int -> Unix.file_descr
val accept : Unix.file_descr -> Unix.file_descr * Unix.sockaddr
val connect : Unix.file_descr -> Unix.sockaddr -> unit
val recv : Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
val recvfrom : Unix.file_descr ->
       string -> int -> int -> Unix.msg_flag list -> int * Unix.sockaddr
val send : Unix.file_descr -> string -> int -> int -> Unix.msg_flag list -> int
val sendto : Unix.file_descr ->
       string -> int -> int -> Unix.msg_flag list -> Unix.sockaddr -> int
val open_connection : Unix.sockaddr -> in_channel * out_channel
ocaml-doc-4.01/ocaml.html/libref/type_Buffer.html0000644000175000017500000001735512214324146020213 0ustar i33173i33173 Buffer sig
  type t
  val create : int -> Buffer.t
  val contents : Buffer.t -> string
  val sub : Buffer.t -> int -> int -> string
  val blit : Buffer.t -> int -> string -> int -> int -> unit
  val nth : Buffer.t -> int -> char
  val length : Buffer.t -> int
  val clear : Buffer.t -> unit
  val reset : Buffer.t -> unit
  val add_char : Buffer.t -> char -> unit
  val add_string : Buffer.t -> string -> unit
  val add_substring : Buffer.t -> string -> int -> int -> unit
  val add_substitute : Buffer.t -> (string -> string) -> string -> unit
  val add_buffer : Buffer.t -> Buffer.t -> unit
  val add_channel : Buffer.t -> Pervasives.in_channel -> int -> unit
  val output_buffer : Pervasives.out_channel -> Buffer.t -> unit
endocaml-doc-4.01/ocaml.html/libref/Printexc.html0000644000175000017500000003012412214324162017520 0ustar i33173i33173 Printexc
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Module Printexc

module Printexc: sig .. end
Facilities for printing exceptions and inspecting current call stack.
val to_string : exn -> string
Printexc.to_string e returns a string representation of the exception e.
val print : ('a -> 'b) -> 'a -> 'b
Printexc.print fn x applies fn to x and returns the result. If the evaluation of fn x raises any exception, the name of the exception is printed on standard error output, and the exception is raised again. The typical use is to catch and report exceptions that escape a function application.
val catch : ('a -> 'b) -> 'a -> 'b
Printexc.catch fn x is similar to Printexc.print, but aborts the program with exit code 2 after printing the uncaught exception. This function is deprecated: the runtime system is now able to print uncaught exceptions as precisely as Printexc.catch does. Moreover, calling Printexc.catch makes it harder to track the location of the exception using the debugger or the stack backtrace facility. So, do not use Printexc.catch in new code.
val print_backtrace : out_channel -> unit
Printexc.print_backtrace oc prints an exception backtrace on the output channel oc. The backtrace lists the program locations where the most-recently raised exception was raised and where it was propagated through function calls.
Since 3.11.0
val get_backtrace : unit -> string
Printexc.get_backtrace () returns a string containing the same exception backtrace that Printexc.print_backtrace would print.
Since 3.11.0
val record_backtrace : bool -> unit
Printexc.record_backtrace b turns recording of exception backtraces on (if b = true) or off (if b = false). Initially, backtraces are not recorded, unless the b flag is given to the program through the OCAMLRUNPARAM variable.
Since 3.11.0
val backtrace_status : unit -> bool
Printexc.backtrace_status() returns true if exception backtraces are currently recorded, false if not.
Since 3.11.0
val register_printer : (exn -> string option) -> unit
Printexc.register_printer fn registers fn as an exception printer. The printer should return None or raise an exception if it does not know how to convert the passed exception, and Some s with s the resulting string if it can convert the passed exception. Exceptions raised by the printer are ignored.

When converting an exception into a string, the printers will be invoked in the reverse order of their registrations, until a printer returns a Some s value (if no such printer exists, the runtime will use a generic printer).

When using this mechanism, one should be aware that an exception backtrace is attached to the thread that saw it raised, rather than to the exception itself. Practically, it means that the code related to fn should not use the backtrace if it has itself raised an exception before.
Since 3.11.2


Raw backtraces

type raw_backtrace

The abstract type backtrace stores exception backtraces in a low-level format, instead of directly exposing them as string as the get_backtrace() function does.

This allows to pay the performance overhead of representation conversion and formatting only at printing time, which is useful if you want to record more backtrace than you actually print.

val get_raw_backtrace : unit -> raw_backtrace
val print_raw_backtrace : out_channel -> raw_backtrace -> unit
val raw_backtrace_to_string : raw_backtrace -> string

Current call stack

val get_callstack : int -> raw_backtrace

Printexc.get_callstack n returns a description of the top of the call stack on the current program point (for the current thread), with at most n entries. (Note: this function is not related to exceptions at all, despite being part of the Printexc module.)
ocaml-doc-4.01/ocaml.html/libref/type_Str.html0000644000175000017500000002623612214324166017552 0ustar i33173i33173 Str sig
  type regexp
  val regexp : string -> Str.regexp
  val regexp_case_fold : string -> Str.regexp
  val quote : string -> string
  val regexp_string : string -> Str.regexp
  val regexp_string_case_fold : string -> Str.regexp
  val string_match : Str.regexp -> string -> int -> bool
  val search_forward : Str.regexp -> string -> int -> int
  val search_backward : Str.regexp -> string -> int -> int
  val string_partial_match : Str.regexp -> string -> int -> bool
  val matched_string : string -> string
  val match_beginning : unit -> int
  val match_end : unit -> int
  val matched_group : int -> string -> string
  val group_beginning : int -> int
  val group_end : int -> int
  val global_replace : Str.regexp -> string -> string -> string
  val replace_first : Str.regexp -> string -> string -> string
  val global_substitute :
    Str.regexp -> (string -> string) -> string -> string
  val substitute_first : Str.regexp -> (string -> string) -> string -> string
  val replace_matched : string -> string -> string
  val split : Str.regexp -> string -> string list
  val bounded_split : Str.regexp -> string -> int -> string list
  val split_delim : Str.regexp -> string -> string list
  val bounded_split_delim : Str.regexp -> string -> int -> string list
  type split_result = Text of string | Delim of string
  val full_split : Str.regexp -> string -> Str.split_result list
  val bounded_full_split :
    Str.regexp -> string -> int -> Str.split_result list
  val string_before : string -> int -> string
  val string_after : string -> int -> string
  val first_chars : string -> int -> string
  val last_chars : string -> int -> string
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Map.html0000644000175000017500000001321712214324155020473 0ustar i33173i33173 MoreLabels.Map
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Module MoreLabels.Map

module Map: sig .. end
module type OrderedType = Map.OrderedType
module type S = sig .. end
module Make: 
functor (Ord : OrderedType) -> S  with type key = Ord.t
ocaml-doc-4.01/ocaml.html/libref/type_Set.S.html0000644000175000017500000003141012214324164017722 0ustar i33173i33173 Set.S sig
  type elt
  type t
  val empty : Set.S.t
  val is_empty : Set.S.t -> bool
  val mem : Set.S.elt -> Set.S.t -> bool
  val add : Set.S.elt -> Set.S.t -> Set.S.t
  val singleton : Set.S.elt -> Set.S.t
  val remove : Set.S.elt -> Set.S.t -> Set.S.t
  val union : Set.S.t -> Set.S.t -> Set.S.t
  val inter : Set.S.t -> Set.S.t -> Set.S.t
  val diff : Set.S.t -> Set.S.t -> Set.S.t
  val compare : Set.S.t -> Set.S.t -> int
  val equal : Set.S.t -> Set.S.t -> bool
  val subset : Set.S.t -> Set.S.t -> bool
  val iter : (Set.S.elt -> unit) -> Set.S.t -> unit
  val fold : (Set.S.elt -> '-> 'a) -> Set.S.t -> '-> 'a
  val for_all : (Set.S.elt -> bool) -> Set.S.t -> bool
  val exists : (Set.S.elt -> bool) -> Set.S.t -> bool
  val filter : (Set.S.elt -> bool) -> Set.S.t -> Set.S.t
  val partition : (Set.S.elt -> bool) -> Set.S.t -> Set.S.t * Set.S.t
  val cardinal : Set.S.t -> int
  val elements : Set.S.t -> Set.S.elt list
  val min_elt : Set.S.t -> Set.S.elt
  val max_elt : Set.S.t -> Set.S.elt
  val choose : Set.S.t -> Set.S.elt
  val split : Set.S.elt -> Set.S.t -> Set.S.t * bool * Set.S.t
  val find : Set.S.elt -> Set.S.t -> Set.S.elt
endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Set.html0000644000175000017500000005644412214324157021565 0ustar i33173i33173 MoreLabels.Set sig
  module type OrderedType = Set.OrderedType
  module type S =
    sig
      type elt
      and t
      val empty : MoreLabels.Set.S.t
      val is_empty : MoreLabels.Set.S.t -> bool
      val mem : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> bool
      val add :
        MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val singleton : MoreLabels.Set.S.elt -> MoreLabels.Set.S.t
      val remove :
        MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val union :
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val inter :
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val diff :
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val compare : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> int
      val equal : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
      val subset : MoreLabels.Set.S.t -> MoreLabels.Set.S.t -> bool
      val iter :
        f:(MoreLabels.Set.S.elt -> unit) -> MoreLabels.Set.S.t -> unit
      val fold :
        f:(MoreLabels.Set.S.elt -> '-> 'a) ->
        MoreLabels.Set.S.t -> init:'-> 'a
      val for_all :
        f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
      val exists :
        f:(MoreLabels.Set.S.elt -> bool) -> MoreLabels.Set.S.t -> bool
      val filter :
        f:(MoreLabels.Set.S.elt -> bool) ->
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t
      val partition :
        f:(MoreLabels.Set.S.elt -> bool) ->
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t * MoreLabels.Set.S.t
      val cardinal : MoreLabels.Set.S.t -> int
      val elements : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt list
      val min_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
      val max_elt : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
      val choose : MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
      val split :
        MoreLabels.Set.S.elt ->
        MoreLabels.Set.S.t -> MoreLabels.Set.S.t * bool * MoreLabels.Set.S.t
      val find :
        MoreLabels.Set.S.elt -> MoreLabels.Set.S.t -> MoreLabels.Set.S.elt
    end
  module Make :
    functor (Ord : OrderedType->
      sig
        type elt = Ord.t
        and t
        val empty : t
        val is_empty : t -> bool
        val mem : elt -> t -> bool
        val add : elt -> t -> t
        val singleton : elt -> t
        val remove : elt -> t -> t
        val union : t -> t -> t
        val inter : t -> t -> t
        val diff : t -> t -> t
        val compare : t -> t -> int
        val equal : t -> t -> bool
        val subset : t -> t -> bool
        val iter : f:(elt -> unit) -> t -> unit
        val fold : f:(elt -> '-> 'a) -> t -> init:'-> 'a
        val for_all : f:(elt -> bool) -> t -> bool
        val exists : f:(elt -> bool) -> t -> bool
        val filter : f:(elt -> bool) -> t -> t
        val partition : f:(elt -> bool) -> t -> t * t
        val cardinal : t -> int
        val elements : t -> elt list
        val min_elt : t -> elt
        val max_elt : t -> elt
        val choose : t -> elt
        val split : elt -> t -> t * bool * t
        val find : elt -> t -> elt
      end
endocaml-doc-4.01/ocaml.html/libref/Nativeint.html0000644000175000017500000004140512214324160017667 0ustar i33173i33173 Nativeint
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Module Nativeint

module Nativeint: sig .. end
Processor-native integers.

This module provides operations on the type nativeint of signed 32-bit integers (on 32-bit platforms) or signed 64-bit integers (on 64-bit platforms). This integer type has exactly the same width as that of a long integer type in the C compiler. All arithmetic operations over nativeint are taken modulo 232 or 264 depending on the word size of the architecture.

Performance notice: values of type nativeint occupy more memory space than values of type int, and arithmetic operations on nativeint are generally slower than those on int. Use nativeint only when the application requires the extra bit of precision over the int type.

val zero : nativeint
The native integer 0.
val one : nativeint
The native integer 1.
val minus_one : nativeint
The native integer -1.
val neg : nativeint -> nativeint
Unary negation.
val add : nativeint -> nativeint -> nativeint
Addition.
val sub : nativeint -> nativeint -> nativeint
Subtraction.
val mul : nativeint -> nativeint -> nativeint
Multiplication.
val div : nativeint -> nativeint -> nativeint
Integer division. Raise Division_by_zero if the second argument is zero. This division rounds the real quotient of its arguments towards zero, as specified for (/).
val rem : nativeint -> nativeint -> nativeint
Integer remainder. If y is not zero, the result of Nativeint.rem x y satisfies the following properties: Nativeint.zero <= Nativeint.rem x y < Nativeint.abs y and x = Nativeint.add (Nativeint.mul (Nativeint.div x y) y) (Nativeint.rem x y). If y = 0, Nativeint.rem x y raises Division_by_zero.
val succ : nativeint -> nativeint
Successor. Nativeint.succ x is Nativeint.add x Nativeint.one.
val pred : nativeint -> nativeint
Predecessor. Nativeint.pred x is Nativeint.sub x Nativeint.one.
val abs : nativeint -> nativeint
Return the absolute value of its argument.
val size : int
The size in bits of a native integer. This is equal to 32 on a 32-bit platform and to 64 on a 64-bit platform.
val max_int : nativeint
The greatest representable native integer, either 231 - 1 on a 32-bit platform, or 263 - 1 on a 64-bit platform.
val min_int : nativeint
The greatest representable native integer, either -231 on a 32-bit platform, or -263 on a 64-bit platform.
val logand : nativeint -> nativeint -> nativeint
Bitwise logical and.
val logor : nativeint -> nativeint -> nativeint
Bitwise logical or.
val logxor : nativeint -> nativeint -> nativeint
Bitwise logical exclusive or.
val lognot : nativeint -> nativeint
Bitwise logical negation
val shift_left : nativeint -> int -> nativeint
Nativeint.shift_left x y shifts x to the left by y bits. The result is unspecified if y < 0 or y >= bitsize, where bitsize is 32 on a 32-bit platform and 64 on a 64-bit platform.
val shift_right : nativeint -> int -> nativeint
Nativeint.shift_right x y shifts x to the right by y bits. This is an arithmetic shift: the sign bit of x is replicated and inserted in the vacated bits. The result is unspecified if y < 0 or y >= bitsize.
val shift_right_logical : nativeint -> int -> nativeint
Nativeint.shift_right_logical x y shifts x to the right by y bits. This is a logical shift: zeroes are inserted in the vacated bits regardless of the sign of x. The result is unspecified if y < 0 or y >= bitsize.
val of_int : int -> nativeint
Convert the given integer (type int) to a native integer (type nativeint).
val to_int : nativeint -> int
Convert the given native integer (type nativeint) to an integer (type int). The high-order bit is lost during the conversion.
val of_float : float -> nativeint
Convert the given floating-point number to a native integer, discarding the fractional part (truncate towards 0). The result of the conversion is undefined if, after truncation, the number is outside the range [Nativeint.min_int, Nativeint.max_int].
val to_float : nativeint -> float
Convert the given native integer to a floating-point number.
val of_int32 : int32 -> nativeint
Convert the given 32-bit integer (type int32) to a native integer.
val to_int32 : nativeint -> int32
Convert the given native integer to a 32-bit integer (type int32). On 64-bit platforms, the 64-bit native integer is taken modulo 232, i.e. the top 32 bits are lost. On 32-bit platforms, the conversion is exact.
val of_string : string -> nativeint
Convert the given string to a native integer. The string is read in decimal (by default) or in hexadecimal, octal or binary if the string begins with 0x, 0o or 0b respectively. Raise Failure "int_of_string" if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type nativeint.
val to_string : nativeint -> string
Return the string representation of its argument, in decimal.
type t = nativeint
An alias for the type of native integers.
val compare : t -> t -> int
The comparison function for native integers, with the same specification as compare. Along with the type t, this function compare allows the module Nativeint to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Map.Make.html0000644000175000017500000003130112214324155022402 0ustar i33173i33173 MoreLabels.Map.Make functor (Ord : OrderedType->
  sig
    type key = Ord.t
    and +'a t
    val empty : 'a t
    val is_empty : 'a t -> bool
    val mem : key -> 'a t -> bool
    val add : key:key -> data:'-> 'a t -> 'a t
    val singleton : key -> '-> 'a t
    val remove : key -> 'a t -> 'a t
    val merge :
      f:(key -> 'a option -> 'b option -> 'c option) -> 'a t -> 'b t -> 'c t
    val compare : cmp:('-> '-> int) -> 'a t -> 'a t -> int
    val equal : cmp:('-> '-> bool) -> 'a t -> 'a t -> bool
    val iter : f:(key:key -> data:'-> unit) -> 'a t -> unit
    val fold : f:(key:key -> data:'-> '-> 'b) -> 'a t -> init:'-> 'b
    val for_all : f:(key -> '-> bool) -> 'a t -> bool
    val exists : f:(key -> '-> bool) -> 'a t -> bool
    val filter : f:(key -> '-> bool) -> 'a t -> 'a t
    val partition : f:(key -> '-> bool) -> 'a t -> 'a t * 'a t
    val cardinal : 'a t -> int
    val bindings : 'a t -> (key * 'a) list
    val min_binding : 'a t -> key * 'a
    val max_binding : 'a t -> key * 'a
    val choose : 'a t -> key * 'a
    val split : key -> 'a t -> 'a t * 'a option * 'a t
    val find : key -> 'a t -> 'a
    val map : f:('-> 'b) -> 'a t -> 'b t
    val mapi : f:(key -> '-> 'b) -> 'a t -> 'b t
  endocaml-doc-4.01/ocaml.html/libref/type_MoreLabels.Set.OrderedType.html0000644000175000017500000001007512214324156023777 0ustar i33173i33173 MoreLabels.Set.OrderedType Set.OrderedTypeocaml-doc-4.01/ocaml.html/libref/Random.State.html0000644000175000017500000001546312214324163020235 0ustar i33173i33173 Random.State
 Up  

Module Random.State

module State: sig .. end
type t
The type of PRNG states.
val make : int array -> t
Create a new state and initialize it with the given seed.
val make_self_init : unit -> t
Create a new state and initialize it with a system-dependent low-entropy seed.
val copy : t -> t
Return a copy of the given state.
val bits : t -> int
val int : t -> int -> int
val int32 : t -> Int32.t -> Int32.t
val nativeint : t -> Nativeint.t -> Nativeint.t
val int64 : t -> Int64.t -> Int64.t
val float : t -> float -> float
val bool : t -> bool
These functions are the same as the basic functions, except that they use (and update) the given PRNG state instead of the default one.
ocaml-doc-4.01/ocaml.html/libref/Scanf.Scanning.html0000644000175000017500000003126612214324163020526 0ustar i33173i33173 Scanf.Scanning
 Up  

Module Scanf.Scanning

module Scanning: sig .. end
type in_channel
The notion of input channel for the Scanf module: those channels provide all the machinery necessary to read from a given Pervasives.in_channel value. A Scanf.Scanning.in_channel value is also called a formatted input channel or equivalently a scanning buffer. The type scanbuf below is an alias for in_channel.
Since 3.12.0
type scanbuf = in_channel
The type of scanning buffers. A scanning buffer is the source from which a formatted input function gets characters. The scanning buffer holds the current state of the scan, plus a function to get the next char from the input, and a token buffer to store the string matched so far.

Note: a scanning action may often require to examine one character in advance; when this 'lookahead' character does not belong to the token read, it is stored back in the scanning buffer and becomes the next character yet to be read.

val stdin : in_channel
The standard input notion for the Scanf module. Scanning.stdin is the formatted input channel attached to Pervasives.stdin.

Note: in the interactive system, when input is read from stdin, the newline character that triggers the evaluation is incorporated in the input; thus, the scanning specifications must properly skip this additional newline character (for instance, simply add a '\n' as the last character of the format string).
Since 3.12.0

type file_name = string
A convenient alias to designate a file name.
Since 4.00.0
val open_in : file_name -> in_channel
Scanning.open_in fname returns a formatted input channel for bufferized reading in text mode from file fname.

Note: open_in returns a formatted input channel that efficiently reads characters in large chunks; in contrast, from_channel below returns formatted input channels that must read one character at a time, leading to a much slower scanning rate.
Since 3.12.0

val open_in_bin : file_name -> in_channel
Scanning.open_in_bin fname returns a formatted input channel for bufferized reading in binary mode from file fname.
Since 3.12.0
val close_in : in_channel -> unit
Closes the Pervasives.in_channel associated with the given Scanning.in_channel formatted input channel.
Since 3.12.0
val from_file : file_name -> in_channel
An alias for open_in above.
val from_file_bin : string -> in_channel
An alias for open_in_bin above.
val from_string : string -> in_channel
Scanning.from_string s returns a formatted input channel which reads from the given string. Reading starts from the first character in the string. The end-of-input condition is set when the end of the string is reached.
val from_function : (unit -> char) -> in_channel
Scanning.from_function f returns a formatted input channel with the given function as its reading method.

When scanning needs one more character, the given function is called.

When the function has no more character to provide, it must signal an end-of-input condition by raising the exception End_of_file.

val from_channel : in_channel -> in_channel
Scanning.from_channel ic returns a formatted input channel which reads from the regular input channel ic argument, starting at the current reading position.
val end_of_input : in_channel -> bool
Scanning.end_of_input ic tests the end-of-input condition of the given formatted input channel.
val beginning_of_input : in_channel -> bool
Scanning.beginning_of_input ic tests the beginning of input condition of the given formatted input channel.
val name_of_input : in_channel -> string
Scanning.name_of_input ic returns the name of the character source for the formatted input channel ic.
Since 3.09.0
val stdib : in_channel
A deprecated alias for Scanning.stdin, the scanning buffer reading from Pervasives.stdin.
ocaml-doc-4.01/ocaml.html/libref/type_StdLabels.String.html0000644000175000017500000002663612214324165022127 0ustar i33173i33173 StdLabels.String sig
  external length : string -> int = "%string_length"
  external get : string -> int -> char = "%string_safe_get"
  external set : string -> int -> char -> unit = "%string_safe_set"
  external create : int -> string = "caml_create_string"
  val make : int -> char -> string
  val copy : string -> string
  val sub : string -> pos:int -> len:int -> string
  val fill : string -> pos:int -> len:int -> char -> unit
  val blit :
    src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
  val concat : sep:string -> string list -> string
  val iter : f:(char -> unit) -> string -> unit
  val iteri : f:(int -> char -> unit) -> string -> unit
  val map : f:(char -> char) -> string -> string
  val trim : string -> string
  val escaped : string -> string
  val index : string -> char -> int
  val rindex : string -> char -> int
  val index_from : string -> int -> char -> int
  val rindex_from : string -> int -> char -> int
  val contains : string -> char -> bool
  val contains_from : string -> int -> char -> bool
  val rcontains_from : string -> int -> char -> bool
  val uppercase : string -> string
  val lowercase : string -> string
  val capitalize : string -> string
  val uncapitalize : string -> string
  type t = string
  val compare : StdLabels.String.t -> StdLabels.String.t -> int
  external unsafe_get : string -> int -> char = "%string_unsafe_get"
  external unsafe_set : string -> int -> char -> unit = "%string_unsafe_set"
  external unsafe_blit :
    src:string -> src_pos:int -> dst:string -> dst_pos:int -> len:int -> unit
    = "caml_blit_string" "noalloc"
  external unsafe_fill : string -> pos:int -> len:int -> char -> unit
    = "caml_fill_string" "noalloc"
endocaml-doc-4.01/ocaml.html/libref/type_Stack.html0000644000175000017500000001463312214324164020043 0ustar i33173i33173 Stack sig
  type 'a t
  exception Empty
  val create : unit -> 'Stack.t
  val push : '-> 'Stack.t -> unit
  val pop : 'Stack.t -> 'a
  val top : 'Stack.t -> 'a
  val clear : 'Stack.t -> unit
  val copy : 'Stack.t -> 'Stack.t
  val is_empty : 'Stack.t -> bool
  val length : 'Stack.t -> int
  val iter : ('-> unit) -> 'Stack.t -> unit
endocaml-doc-4.01/ocaml.html/libref/type_Digest.html0000644000175000017500000001420212214324147020206 0ustar i33173i33173 Digest sig
  type t = string
  val compare : Digest.t -> Digest.t -> int
  val string : string -> Digest.t
  val substring : string -> int -> int -> Digest.t
  external channel : Pervasives.in_channel -> int -> Digest.t
    = "caml_md5_chan"
  val file : string -> Digest.t
  val output : Pervasives.out_channel -> Digest.t -> unit
  val input : Pervasives.in_channel -> Digest.t
  val to_hex : Digest.t -> string
  val from_hex : string -> Digest.t
endocaml-doc-4.01/ocaml.html/libref/MoreLabels.Map.OrderedType.html0000644000175000017500000001321712214324155022720 0ustar i33173i33173 MoreLabels.Map.OrderedType
 Up  Next

Module type MoreLabels.Map.OrderedType

module type OrderedType = Map.OrderedType
type t
The type of the map keys.
val compare : t -> t -> int
A total ordering function over the keys. This is a two-argument function f such that f e1 e2 is zero if the keys e1 and e2 are equal, f e1 e2 is strictly negative if e1 is smaller than e2, and f e1 e2 is strictly positive if e1 is greater than e2. Example: a suitable ordering function is the generic structural comparison function compare.
ocaml-doc-4.01/ocaml.html/libref/Int64.html0000644000175000017500000004214612214324152016636 0ustar i33173i33173 Int64
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Module Int64

module Int64: sig .. end
64-bit integers.

This module provides operations on the type int64 of signed 64-bit integers. Unlike the built-in int type, the type int64 is guaranteed to be exactly 64-bit wide on all platforms. All arithmetic operations over int64 are taken modulo 264

Performance notice: values of type int64 occupy more memory space than values of type int, and arithmetic operations on int64 are generally slower than those on int. Use int64 only when the application requires exact 64-bit arithmetic.

val zero : int64
The 64-bit integer 0.
val one : int64
The 64-bit integer 1.
val minus_one : int64
The 64-bit integer -1.
val neg : int64 -> int64
Unary negation.
val add : int64 -> int64 -> int64
Addition.
val sub : int64 -> int64 -> int64
Subtraction.
val mul : int64 -> int64 -> int64
Multiplication.
val div : int64 -> int64 -> int64
Integer division. Raise Division_by_zero if the second argument is zero. This division rounds the real quotient of its arguments towards zero, as specified for (/).
val rem : int64 -> int64 -> int64
Integer remainder. If y is not zero, the result of Int64.rem x y satisfies the following property: x = Int64.add (Int64.mul (Int64.div x y) y) (Int64.rem x y). If y = 0, Int64.rem x y raises Division_by_zero.
val succ : int64 -> int64
Successor. Int64.succ x is Int64.add x Int64.one.
val pred : int64 -> int64
Predecessor. Int64.pred x is Int64.sub x Int64.one.
val abs : int64 -> int64
Return the absolute value of its argument.
val max_int : int64
The greatest representable 64-bit integer, 263 - 1.
val min_int : int64
The smallest representable 64-bit integer, -263.
val logand : int64 -> int64 -> int64
Bitwise logical and.
val logor : int64 -> int64 -> int64
Bitwise logical or.
val logxor : int64 -> int64 -> int64
Bitwise logical exclusive or.
val lognot : int64 -> int64
Bitwise logical negation
val shift_left : int64 -> int -> int64
Int64.shift_left x y shifts x to the left by y bits. The result is unspecified if y < 0 or y >= 64.
val shift_right : int64 -> int -> int64
Int64.shift_right x y shifts x to the right by y bits. This is an arithmetic shift: the sign bit of x is replicated and inserted in the vacated bits. The result is unspecified if y < 0 or y >= 64.
val shift_right_logical : int64 -> int -> int64
Int64.shift_right_logical x y shifts x to the right by y bits. This is a logical shift: zeroes are inserted in the vacated bits regardless of the sign of x. The result is unspecified if y < 0 or y >= 64.
val of_int : int -> int64
Convert the given integer (type int) to a 64-bit integer (type int64).
val to_int : int64 -> int
Convert the given 64-bit integer (type int64) to an integer (type int). On 64-bit platforms, the 64-bit integer is taken modulo 263, i.e. the high-order bit is lost during the conversion. On 32-bit platforms, the 64-bit integer is taken modulo 231, i.e. the top 33 bits are lost during the conversion.
val of_float : float -> int64
Convert the given floating-point number to a 64-bit integer, discarding the fractional part (truncate towards 0). The result of the conversion is undefined if, after truncation, the number is outside the range [Int64.min_int, Int64.max_int].
val to_float : int64 -> float
Convert the given 64-bit integer to a floating-point number.
val of_int32 : int32 -> int64
Convert the given 32-bit integer (type int32) to a 64-bit integer (type int64).
val to_int32 : int64 -> int32
Convert the given 64-bit integer (type int64) to a 32-bit integer (type int32). The 64-bit integer is taken modulo 232, i.e. the top 32 bits are lost during the conversion.
val of_nativeint : nativeint -> int64
Convert the given native integer (type nativeint) to a 64-bit integer (type int64).
val to_nativeint : int64 -> nativeint
Convert the given 64-bit integer (type int64) to a native integer. On 32-bit platforms, the 64-bit integer is taken modulo 232. On 64-bit platforms, the conversion is exact.
val of_string : string -> int64
Convert the given string to a 64-bit integer. The string is read in decimal (by default) or in hexadecimal, octal or binary if the string begins with 0x, 0o or 0b respectively. Raise Failure "int_of_string" if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type int64.
val to_string : int64 -> string
Return the string representation of its argument, in decimal.
val bits_of_float : float -> int64
Return the internal representation of the given float according to the IEEE 754 floating-point 'double format' bit layout. Bit 63 of the result represents the sign of the float; bits 62 to 52 represent the (biased) exponent; bits 51 to 0 represent the mantissa.
val float_of_bits : int64 -> float
Return the floating-point number whose internal representation, according to the IEEE 754 floating-point 'double format' bit layout, is the given int64.
type t = int64
An alias for the type of 64-bit integers.
val compare : t -> t -> int
The comparison function for 64-bit integers, with the same specification as compare. Along with the type t, this function compare allows the module Int64 to be passed as argument to the functors Set.Make and Map.Make.
ocaml-doc-4.01/ocaml.html/libref/MoreLabels.Map.Make.html0000644000175000017500000002573512214324155021357 0ustar i33173i33173 MoreLabels.Map.Make
 Up  

Functor MoreLabels.Map.Make

module Make: 
functor (Ord : OrderedType) -> S  with type key = Ord.t
Parameters:
Ord : OrderedType 
type key 
type +'a t 
val empty : 'a t
val is_empty : 'a t -> bool
val mem : key -> 'a t -> bool
val add : key:key ->
       data:'a -> 'a t -> 'a t
val singleton : key -> 'a -> 'a t
val remove : key -> 'a t -> 'a t
val merge : f:(key -> 'a option -> 'b option -> 'c option) ->
       'a t -> 'b t -> 'c t
val compare : cmp:('a -> 'a -> int) ->
       'a t -> 'a t -> int
val equal : cmp:('a -> 'a -> bool) ->
       'a t -> 'a t -> bool
val iter : f:(key:key -> data:'a -> unit) ->
       'a t -> unit
val fold : f:(key:key -> data:'a -> 'b -> 'b) ->
       'a t -> init:'b -> 'b
val for_all : f:(key -> 'a -> bool) -> 'a t -> bool
val exists : f:(key -> 'a -> bool) -> 'a t -> bool
val filter : f:(key -> 'a -> bool) ->
       'a t -> 'a t
val partition : f:(key -> 'a -> bool) ->
       'a t -> 'a t * 'a t
val cardinal : 'a t -> int
val bindings : 'a t -> (key * 'a) list
val min_binding : 'a t -> key * 'a
val max_binding : 'a t -> key * 'a
val choose : 'a t -> key * 'a
val split : key ->
       'a t ->
       'a t * 'a option * 'a t
val find : key -> 'a t -> 'a
val map : f:('a -> 'b) -> 'a t -> 'b t
val mapi : f:(key -> 'a -> 'b) ->
       'a t -> 'b t
ocaml-doc-4.01/ocaml.html/libref/type_UnixLabels.LargeFile.html0000644000175000017500000001473212214324171022673 0ustar i33173i33173 UnixLabels.LargeFile sig
  val lseek :
    UnixLabels.file_descr -> int64 -> mode:UnixLabels.seek_command -> int64
  val truncate : string -> len:int64 -> unit
  val ftruncate : UnixLabels.file_descr -> len:int64 -> unit
  type stats =
    Unix.LargeFile.stats = {
    st_dev : int;
    st_ino : int;
    st_kind : UnixLabels.file_kind;
    st_perm : UnixLabels.file_perm;
    st_nlink : int;
    st_uid : int;
    st_gid : int;
    st_rdev : int;
    st_size : int64;
    st_atime : float;
    st_mtime : float;
    st_ctime : float;
  }
  val stat : string -> UnixLabels.LargeFile.stats
  val lstat : string -> UnixLabels.LargeFile.stats
  val fstat : UnixLabels.file_descr -> UnixLabels.LargeFile.stats
endocaml-doc-4.01/ocaml.html/libref/type_Printf.html0000644000175000017500000006166712214324163020250 0ustar i33173i33173 Printf sig
  val fprintf :
    Pervasives.out_channel ->
    ('a, Pervasives.out_channel, unit) Pervasives.format -> 'a
  val printf : ('a, Pervasives.out_channel, unit) Pervasives.format -> 'a
  val eprintf : ('a, Pervasives.out_channel, unit) Pervasives.format -> 'a
  val sprintf : ('a, unit, string) Pervasives.format -> 'a
  val bprintf : Buffer.t -> ('a, Buffer.t, unit) Pervasives.format -> 'a
  val ifprintf : '-> ('b, 'a, unit) Pervasives.format -> 'b
  val kfprintf :
    (Pervasives.out_channel -> 'a) ->
    Pervasives.out_channel ->
    ('b, Pervasives.out_channel, unit, 'a) Pervasives.format4 -> 'b
  val ikfprintf :
    (Pervasives.out_channel -> 'a) ->
    Pervasives.out_channel ->
    ('b, Pervasives.out_channel, unit, 'a) Pervasives.format4 -> 'b
  val ksprintf :
    (string -> 'a) -> ('b, unit, string, 'a) Pervasives.format4 -> 'b
  val kbprintf :
    (Buffer.t -> 'a) ->
    Buffer.t -> ('b, Buffer.t, unit, 'a) Pervasives.format4 -> 'b
  val kprintf :
    (string -> 'a) -> ('b, unit, string, 'a) Pervasives.format4 -> 'b
  module CamlinternalPr :
    sig
      module Sformat :
        sig
          type index
          val index_of_int : int -> Printf.CamlinternalPr.Sformat.index
          external int_of_index : Printf.CamlinternalPr.Sformat.index -> int
            = "%identity"
          external unsafe_index_of_int :
            int -> Printf.CamlinternalPr.Sformat.index = "%identity"
          val succ_index :
            Printf.CamlinternalPr.Sformat.index ->
            Printf.CamlinternalPr.Sformat.index
          val add_int_index :
            int ->
            Printf.CamlinternalPr.Sformat.index ->
            Printf.CamlinternalPr.Sformat.index
          val sub :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
            Printf.CamlinternalPr.Sformat.index -> int -> string
          val to_string : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> string
          external length : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> int
            = "%string_length"
          external get : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> int -> char
            = "%string_safe_get"
          external unsafe_to_string :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 -> string = "%identity"
          external unsafe_get :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 -> int -> char
            = "%string_unsafe_get"
        end
      module Tformat :
        sig
          type ac = {
            mutable ac_rglr : int;
            mutable ac_skip : int;
            mutable ac_rdrs : int;
          }
          val ac_of_format :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
            Printf.CamlinternalPr.Tformat.ac
          val count_printing_arguments_of_format :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 -> int
          val sub_format :
            (('a, 'b, 'c, 'd, 'e, 'f) format6 -> int) ->
            (('a, 'b, 'c, 'd, 'e, 'f) format6 -> int -> char -> int) ->
            char -> ('a, 'b, 'c, 'd, 'e, 'f) format6 -> int -> int
          val summarize_format_type :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 -> string
          val scan_format :
            ('a, 'b, 'c, 'd, 'e, 'f) format6 ->
            'g array ->
            Printf.CamlinternalPr.Sformat.index ->
            int ->
            (Printf.CamlinternalPr.Sformat.index -> string -> int -> 'h) ->
            (Printf.CamlinternalPr.Sformat.index -> '-> '-> int -> 'h) ->
            (Printf.CamlinternalPr.Sformat.index -> '-> int -> 'h) ->
            (Printf.CamlinternalPr.Sformat.index -> int -> 'h) ->
            (Printf.CamlinternalPr.Sformat.index ->
             ('l, 'm, 'n, 'o, 'p, 'q) format6 -> int -> 'h) ->
            'h
          val kapr :
            (('a, 'b, 'c, 'd, 'e, 'f) format6 -> Obj.t array -> 'g) ->
            ('a, 'b, 'c, 'd, 'e, 'f) format6 -> 'g
        end
    end
endocaml-doc-4.01/ocaml.html/libref/Filename.html0000644000175000017500000003502712214324147017456 0ustar i33173i33173 Filename
Previous  Up  Next

Module Filename

module Filename: sig .. end
Operations on file names.
val current_dir_name : string
The conventional name for the current directory (e.g. . in Unix).
val parent_dir_name : string
The conventional name for the parent of the current directory (e.g. .. in Unix).
val dir_sep : string
The directory separator (e.g. / in Unix).
Since 3.11.2
val concat : string -> string -> string
concat dir file returns a file name that designates file file in directory dir.
val is_relative : string -> bool
Return true if the file name is relative to the current directory, false if it is absolute (i.e. in Unix, starts with /).
val is_implicit : string -> bool
Return true if the file name is relative and does not start with an explicit reference to the current directory (./ or ../ in Unix), false if it starts with an explicit reference to the root directory or the current directory.
val check_suffix : string -> string -> bool
check_suffix name suff returns true if the filename name ends with the suffix suff.
val chop_suffix : string -> string -> string
chop_suffix name suff removes the suffix suff from the filename name. The behavior is undefined if name does not end with the suffix suff.
val chop_extension : string -> string
Return the given file name without its extension. The extension is the shortest suffix starting with a period and not including a directory separator, .xyz for instance.

Raise Invalid_argument if the given name does not contain an extension.

val basename : string -> string
Split a file name into directory name / base file name. If name is a valid file name, then concat (dirname name) (basename name) returns a file name which is equivalent to name. Moreover, after setting the current directory to dirname name (with Sys.chdir), references to basename name (which is a relative file name) designate the same file as name before the call to Sys.chdir.

This function conforms to the specification of POSIX.1-2008 for the basename utility.

val dirname : string -> string
See Filename.basename. This function conforms to the specification of POSIX.1-2008 for the dirname utility.
val temp_file : ?temp_dir:string -> string -> string -> string
temp_file prefix suffix returns the name of a fresh temporary file in the temporary directory. The base name of the temporary file is formed by concatenating prefix, then a suitably chosen integer number, then suffix. The optional argument temp_dir indicates the temporary directory to use, defaulting to the current result of Filename.get_temp_dir_name. The temporary file is created empty, with permissions 0o600 (readable and writable only by the file owner). The file is guaranteed to be different from any other file that existed when temp_file was called. Raise Sys_error if the file could not be created.
Before 3.11.2 no ?temp_dir optional argument
val open_temp_file : ?mode:open_flag list ->
       ?temp_dir:string -> string -> string -> string * out_channel
Same as Filename.temp_file, but returns both the name of a fresh temporary file, and an output channel opened (atomically) on this file. This function is more secure than temp_file: there is no risk that the temporary file will be modified (e.g. replaced by a symbolic link) before the program opens it. The optional argument mode is a list of additional flags to control the opening of the file. It can contain one or several of Open_append, Open_binary, and Open_text. The default is [Open_text] (open in text mode). Raise Sys_error if the file could not be opened.
Before 3.11.2 no ?temp_dir optional argument
val get_temp_dir_name : unit -> string
The name of the temporary directory: Under Unix, the value of the TMPDIR environment variable, or "/tmp" if the variable is not set. Under Windows, the value of the TEMP environment variable, or "." if the variable is not set. The temporary directory can be changed with Filename.set_temp_dir_name.
Since 4.00.0
val set_temp_dir_name : string -> unit
Change the temporary directory returned by Filename.get_temp_dir_name and used by Filename.temp_file and Filename.open_temp_file.
Since 4.00.0
val temp_dir_name : string
Deprecated.The name of the initial temporary directory: Under Unix, the value of the TMPDIR environment variable, or "/tmp" if the variable is not set. Under Windows, the value of the TEMP environment variable, or "." if the variable is not set. This function is deprecated; Filename.get_temp_dir_name should be used instead.
Since 3.09.1
val quote : string -> string
Return a quoted version of a file name, suitable for use as one argument in a command line, escaping all meta-characters. Warning: under Windows, the output is only suitable for use with programs that follow the standard Windows quoting conventions.
ocaml-doc-4.01/ocaml.html/libref/type_Format.html0000644000175000017500000010503512214324150020216 0ustar i33173i33173 Format sig
  val open_box : int -> unit
  val close_box : unit -> unit
  val print_string : string -> unit
  val print_as : int -> string -> unit
  val print_int : int -> unit
  val print_float : float -> unit
  val print_char : char -> unit
  val print_bool : bool -> unit
  val print_space : unit -> unit
  val print_cut : unit -> unit
  val print_break : int -> int -> unit
  val print_flush : unit -> unit
  val print_newline : unit -> unit
  val force_newline : unit -> unit
  val print_if_newline : unit -> unit
  val set_margin : int -> unit
  val get_margin : unit -> int
  val set_max_indent : int -> unit
  val get_max_indent : unit -> int
  val set_max_boxes : int -> unit
  val get_max_boxes : unit -> int
  val over_max_boxes : unit -> bool
  val open_hbox : unit -> unit
  val open_vbox : int -> unit
  val open_hvbox : int -> unit
  val open_hovbox : int -> unit
  val open_tbox : unit -> unit
  val close_tbox : unit -> unit
  val print_tbreak : int -> int -> unit
  val set_tab : unit -> unit
  val print_tab : unit -> unit
  val set_ellipsis_text : string -> unit
  val get_ellipsis_text : unit -> string
  type tag = string
  val open_tag : Format.tag -> unit
  val close_tag : unit -> unit
  val set_tags : bool -> unit
  val set_print_tags : bool -> unit
  val set_mark_tags : bool -> unit
  val get_print_tags : unit -> bool
  val get_mark_tags : unit -> bool
  val set_formatter_out_channel : Pervasives.out_channel -> unit
  val set_formatter_output_functions :
    (string -> int -> int -> unit) -> (unit -> unit) -> unit
  val get_formatter_output_functions :
    unit -> (string -> int -> int -> unit) * (unit -> unit)
  type formatter_out_functions = {
    out_string : string -> int -> int -> unit;
    out_flush : unit -> unit;
    out_newline : unit -> unit;
    out_spaces : int -> unit;
  }
  val set_formatter_out_functions : Format.formatter_out_functions -> unit
  val get_formatter_out_functions : unit -> Format.formatter_out_functions
  type formatter_tag_functions = {
    mark_open_tag : Format.tag -> string;
    mark_close_tag : Format.tag -> string;
    print_open_tag : Format.tag -> unit;
    print_close_tag : Format.tag -> unit;
  }
  val set_formatter_tag_functions : Format.formatter_tag_functions -> unit
  val get_formatter_tag_functions : unit -> Format.formatter_tag_functions
  type formatter
  val formatter_of_out_channel : Pervasives.out_channel -> Format.formatter
  val std_formatter : Format.formatter
  val err_formatter : Format.formatter
  val formatter_of_buffer : Buffer.t -> Format.formatter
  val stdbuf : Buffer.t
  val str_formatter : Format.formatter
  val flush_str_formatter : unit -> string
  val make_formatter :
    (string -> int -> int -> unit) -> (unit -> unit) -> Format.formatter
  val pp_open_hbox : Format.formatter -> unit -> unit
  val pp_open_vbox : Format.formatter -> int -> unit
  val pp_open_hvbox : Format.formatter -> int -> unit
  val pp_open_hovbox : Format.formatter -> int -> unit
  val pp_open_box : Format.formatter -> int -> unit
  val pp_close_box : Format.formatter -> unit -> unit
  val pp_open_tag : Format.formatter -> string -> unit
  val pp_close_tag : Format.formatter -> unit -> unit
  val pp_print_string : Format.formatter -> string -> unit
  val pp_print_as : Format.formatter -> int -> string -> unit
  val pp_print_int : Format.formatter -> int -> unit
  val pp_print_float : Format.formatter -> float -> unit
  val pp_print_char : Format.formatter -> char -> unit
  val pp_print_bool : Format.formatter -> bool -> unit
  val pp_print_break : Format.formatter -> int -> int -> unit
  val pp_print_cut : Format.formatter -> unit -> unit
  val pp_print_space : Format.formatter -> unit -> unit
  val pp_force_newline : Format.formatter -> unit -> unit
  val pp_print_flush : Format.formatter -> unit -> unit
  val pp_print_newline : Format.formatter -> unit -> unit
  val pp_print_if_newline : Format.formatter -> unit -> unit
  val pp_open_tbox : Format.formatter -> unit -> unit
  val pp_close_tbox : Format.formatter -> unit -> unit
  val pp_print_tbreak : Format.formatter -> int -> int -> unit
  val pp_set_tab : Format.formatter -> unit -> unit
  val pp_print_tab : Format.formatter -> unit -> unit
  val pp_set_tags : Format.formatter -> bool -> unit
  val pp_set_print_tags : Format.formatter -> bool -> unit
  val pp_set_mark_tags : Format.formatter -> bool -> unit
  val pp_get_print_tags : Format.formatter -> unit -> bool
  val pp_get_mark_tags : Format.formatter -> unit -> bool
  val pp_set_margin : Format.formatter -> int -> unit
  val pp_get_margin : Format.formatter -> unit -> int
  val pp_set_max_indent : Format.formatter -> int -> unit
  val pp_get_max_indent : Format.formatter -> unit -> int
  val pp_set_max_boxes : Format.formatter -> int -> unit
  val pp_get_max_boxes : Format.formatter -> unit -> int
  val pp_over_max_boxes : Format.formatter -> unit -> bool
  val pp_set_ellipsis_text : Format.formatter -> string -> unit
  val pp_get_ellipsis_text : Format.formatter -> unit -> string
  val pp_set_formatter_out_channel :
    Format.formatter -> Pervasives.out_channel -> unit
  val pp_set_formatter_output_functions :
    Format.formatter ->
    (string -> int -> int -> unit) -> (unit -> unit) -> unit
  val pp_get_formatter_output_functions :
    Format.formatter ->
    unit -> (string -> int -> int -> unit) * (unit -> unit)
  val pp_set_formatter_tag_functions :
    Format.formatter -> Format.formatter_tag_functions -> unit
  val pp_get_formatter_tag_functions :
    Format.formatter -> unit -> Format.formatter_tag_functions
  val pp_set_formatter_out_functions :
    Format.formatter -> Format.formatter_out_functions -> unit
  val pp_get_formatter_out_functions :
    Format.formatter -> unit -> Format.formatter_out_functions
  val fprintf :
    Format.formatter -> ('a, Format.formatter, unit) Pervasives.format -> 'a
  val printf : ('a, Format.formatter, unit) Pervasives.format -> 'a
  val eprintf : ('a, Format.formatter, unit) Pervasives.format -> 'a
  val sprintf : ('a, unit, string) Pervasives.format -> 'a
  val asprintf :
    ('a, Format.formatter, unit, string) Pervasives.format4 -> 'a
  val ifprintf :
    Format.formatter -> ('a, Format.formatter, unit) Pervasives.format -> 'a
  val kfprintf :
    (Format.formatter -> 'a) ->
    Format.formatter ->
    ('b, Format.formatter, unit, 'a) Pervasives.format4 -> 'b
  val ikfprintf :
    (Format.formatter -> 'a) ->
    Format.formatter ->
    ('b, Format.formatter, unit, 'a) Pervasives.format4 -> 'b
  val ksprintf :
    (string -> 'a) -> ('b, unit, string, 'a) Pervasives.format4 -> 'b
  val bprintf :
    Buffer.t -> ('a, Format.formatter, unit) Pervasives.format -> 'a
  val kprintf :
    (string -> 'a) -> ('b, unit, string, 'a) Pervasives.format4 -> 'b
  val set_all_formatter_output_functions :
    out:(string -> int -> int -> unit) ->
    flush:(unit -> unit) ->
    newline:(unit -> unit) -> spaces:(int -> unit) -> unit
  val get_all_formatter_output_functions :
    unit ->
    (string -> int -> int -> unit) * (unit -> unit) * (unit -> unit) *
    (int -> unit)
  val pp_set_all_formatter_output_functions :
    Format.formatter ->
    out:(string -> int -> int -> unit) ->
    flush:(unit -> unit) ->
    newline:(unit -> unit) -> spaces:(int -> unit) -> unit
  val pp_get_all_formatter_output_functions :
    Format.formatter ->
    unit ->
    (string -> int -> int -> unit) * (unit -> unit) * (unit -> unit) *
    (int -> unit)
endocaml-doc-4.01/ocaml.html/libref/Weak.Make.html0000644000175000017500000002614412214324173017500 0ustar i33173i33173 Weak.Make
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Functor Weak.Make

module Make: 
functor (H : Hashtbl.HashedType) -> S  with type data = H.t
Functor building an implementation of the weak hash table structure.
Parameters:
H : Hashtbl.HashedType 
type data
The type of the elements stored in the table.
type t
The type of tables that contain elements of type data. Note that weak hash tables cannot be marshaled using output_value or the functions of the Marshal module.
val create : int -> t
create n creates a new empty weak hash table, of initial size n. The table will grow as needed.
val clear : t -> unit
Remove all elements from the table.
val merge : t -> data -> data
merge t x returns an instance of x found in t if any, or else adds x to t and return x.
val add : t -> data -> unit
add t x adds x to t. If there is already an instance of x in t, it is unspecified which one will be returned by subsequent calls to find and merge.
val remove : t -> data -> unit
remove t x removes from t one instance of x. Does nothing if there is no instance of x in t.
val find : t -> data -> data
find t x returns an instance of x found in t. Raise Not_found if there is no such element.
val find_all : t -> data -> data list
find_all t x returns a list of all the instances of x found in t.
val mem : t -> data -> bool
mem t x returns true if there is at least one instance of x in t, false otherwise.
val iter : (data -> unit) -> t -> unit
iter f t calls f on each element of t, in some unspecified order. It is not specified what happens if f tries to change t itself.
val fold : (data -> 'a -> 'a) -> t -> 'a -> 'a
fold f t init computes (f d1 (... (f dN init))) where d1 ... dN are the elements of t in some unspecified order. It is not specified what happens if f tries to change t itself.
val count : t -> int
Count the number of elements in the table. count t gives the same result as fold (fun _ n -> n+1) t 0 but does not delay the deallocation of the dead elements.
val stats : t -> int * int * int * int * int * int
Return statistics on the table. The numbers are, in order: table length, number of entries, sum of bucket lengths, smallest bucket length, median bucket length, biggest bucket length.
ocaml-doc-4.01/ocaml.html/libref/Lexing.html0000644000175000017500000004144112214324152017155 0ustar i33173i33173 Lexing
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Module Lexing

module Lexing: sig .. end
The run-time library for lexers generated by ocamllex.

Positions

type position = {
   pos_fname : string;
   pos_lnum : int;
   pos_bol : int;
   pos_cnum : int;
}
A value of type position describes a point in a source file. pos_fname is the file name; pos_lnum is the line number; pos_bol is the offset of the beginning of the line (number of characters between the beginning of the lexbuf and the beginning of the line); pos_cnum is the offset of the position (number of characters between the beginning of the lexbuf and the position). The difference between pos_cnum and pos_bol is the character offset within the line (i.e. the column number, assuming each character is one column wide).

See the documentation of type lexbuf for information about how the lexing engine will manage positions.

val dummy_pos : position
A value of type position, guaranteed to be different from any valid position.

Lexer buffers

type lexbuf = {
   refill_buff : lexbuf -> unit;
   mutable lex_buffer : string;
   mutable lex_buffer_len : int;
   mutable lex_abs_pos : int;
   mutable lex_start_pos : int;
   mutable lex_curr_pos : int;
   mutable lex_last_pos : int;
   mutable lex_last_action : int;
   mutable lex_eof_reached : bool;
   mutable lex_mem : int array;
   mutable lex_start_p : position;
   mutable lex_curr_p : position;
}
The type of lexer buffers. A lexer buffer is the argument passed to the scanning functions defined by the generated scanners. The lexer buffer holds the current state of the scanner, plus a function to refill the buffer from the input.

At each token, the lexing engine will copy lex_curr_p to lex_start_p, then change the pos_cnum field of lex_curr_p by updating it with the number of characters read since the start of the lexbuf. The other fields are left unchanged by the lexing engine. In order to keep them accurate, they must be initialised before the first use of the lexbuf, and updated by the relevant lexer actions (i.e. at each end of line -- see also new_line).

val from_channel : in_channel -> lexbuf
Create a lexer buffer on the given input channel. Lexing.from_channel inchan returns a lexer buffer which reads from the input channel inchan, at the current reading position.
val from_string : string -> lexbuf
Create a lexer buffer which reads from the given string. Reading starts from the first character in the string. An end-of-input condition is generated when the end of the string is reached.
val from_function : (string -> int -> int) -> lexbuf
Create a lexer buffer with the given function as its reading method. When the scanner needs more characters, it will call the given function, giving it a character string s and a character count n. The function should put n characters or less in s, starting at character number 0, and return the number of characters provided. A return value of 0 means end of input.

Functions for lexer semantic actions


The following functions can be called from the semantic actions of lexer definitions (the ML code enclosed in braces that computes the value returned by lexing functions). They give access to the character string matched by the regular expression associated with the semantic action. These functions must be applied to the argument lexbuf, which, in the code generated by ocamllex, is bound to the lexer buffer passed to the parsing function.
val lexeme : lexbuf -> string
Lexing.lexeme lexbuf returns the string matched by the regular expression.
val lexeme_char : lexbuf -> int -> char
Lexing.lexeme_char lexbuf i returns character number i in the matched string.
val lexeme_start : lexbuf -> int
Lexing.lexeme_start lexbuf returns the offset in the input stream of the first character of the matched string. The first character of the stream has offset 0.
val lexeme_end : lexbuf -> int
Lexing.lexeme_end lexbuf returns the offset in the input stream of the character following the last character of the matched string. The first character of the stream has offset 0.
val lexeme_start_p : lexbuf -> position
Like lexeme_start, but return a complete position instead of an offset.
val lexeme_end_p : lexbuf -> position
Like lexeme_end, but return a complete position instead of an offset.
val new_line : lexbuf -> unit
Update the lex_curr_p field of the lexbuf to reflect the start of a new line. You can call this function in the semantic action of the rule that matches the end-of-line character.
Since 3.11.0

Miscellaneous functions

val flush_input : lexbuf -> unit
Discard the contents of the buffer and reset the current position to 0. The next use of the lexbuf will trigger a refill.
ocaml-doc-4.01/ocaml.html/libref/CamlinternalOO.html0000644000175000017500000005617512214324146020613 0ustar i33173i33173 CamlinternalOO
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Module CamlinternalOO

module CamlinternalOO: sig .. end
Run-time support for objects and classes. All functions in this module are for system use only, not for the casual user.

Classes

type tag 
type label 
type table 
type meth 
type t 
type obj 
type closure 
val public_method_label : string -> tag
val new_method : table -> label
val new_variable : table -> string -> int
val new_methods_variables : table ->
       string array -> string array -> label array
val get_variable : table -> string -> int
val get_variables : table -> string array -> int array
val get_method_label : table -> string -> label
val get_method_labels : table -> string array -> label array
val get_method : table -> label -> meth
val set_method : table -> label -> meth -> unit
val set_methods : table -> label array -> unit
val narrow : table -> string array -> string array -> string array -> unit
val widen : table -> unit
val add_initializer : table -> (obj -> unit) -> unit
val dummy_table : table
val create_table : string array -> table
val init_class : table -> unit
val inherits : table ->
       string array ->
       string array ->
       string array ->
       t * (table -> obj -> Obj.t) *
       t * obj -> bool -> Obj.t array
val make_class : string array ->
       (table -> Obj.t -> t) ->
       t * (table -> Obj.t -> t) *
       (Obj.t -> t) * Obj.t
type init_table 
val make_class_store : string array ->
       (table -> t) ->
       init_table -> unit
val dummy_class : string * int * int ->
       t * (table -> Obj.t -> t) *
       (Obj.t -> t) * Obj.t

Objects

val copy : (< .. > as 'a) -> 'a
val create_object : table -> obj
val create_object_opt : obj -> table -> obj
val run_initializers : obj -> table -> unit
val run_initializers_opt : obj ->
       obj -> table -> obj
val create_object_and_run_initializers : obj -> table -> obj
val send : obj -> tag -> t
val sendcache : obj ->
       tag -> t -> int -> t
val sendself : obj -> label -> t
val get_public_method : obj -> tag -> closure

Table cache

type tables 
val lookup_tables : tables ->
       closure array -> tables

Builtins to reduce code size

type impl =
| GetConst
| GetVar
| GetEnv
| GetMeth
| SetVar
| AppConst
| AppVar
| AppEnv
| AppMeth
| AppConstConst
| AppConstVar
| AppConstEnv
| AppConstMeth
| AppVarConst
| AppEnvConst
| AppMethConst
| MethAppConst
| MethAppVar
| MethAppEnv
| MethAppMeth
| SendConst
| SendVar
| SendEnv
| SendMeth
| Closure of closure

Parameters

type params = {
   mutable compact_table : bool;
   mutable copy_parent : bool;
   mutable clean_when_copying : bool;
   mutable retry_count : int;
   mutable bucket_small_size : int;
} 
val params : params

Statistics

type stats = {
   classes : int;
   methods : int;
   inst_vars : int;
} 
val stats : unit -> stats
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Chapter 7  Language extensions

This chapter describes language extensions and convenience features that are implemented in OCaml, but not described in the OCaml reference manual.

7.1  Integer literals for types int32, int64 and nativeint

(Introduced in Objective Caml 3.07)

constant::= ...  
  int32-literal  
  int64-literal  
  nativeint-literal  
 
int32-literal::= integer-literal l  
 
int64-literal::= integer-literal L  
 
nativeint-literal::= integer-literal n

An integer literal can be followed by one of the letters l, L or n to indicate that this integer has type int32, int64 or nativeint respectively, instead of the default type int for integer literals. The library modules Int32[Int32], Int64[Int64] and Nativeint[Nativeint] provide operations on these integer types.

7.2  Streams and stream parsers

(Removed in Objective Caml 3.03)

The syntax for streams and stream parsers is no longer part of the OCaml language, but available through a Camlp4 syntax extension. See the Camlp4 reference manual for more information. Support for basic operations on streams is still available through the Stream[Stream] module of the standard library. OCaml programs that use the stream parser syntax should be compiled with the -pp camlp4o option to ocamlc and ocamlopt. For interactive use, run ocaml and issue the #load "dynlink.cma";; command, followed by the #load "camlp4o.cma";; command.

7.3  Recursive definitions of values

(Introduced in Objective Caml 1.00)

As mentioned in section 6.7.1, the let rec binding construct, in addition to the definition of recursive functions, also supports a certain class of recursive definitions of non-functional values, such as

let rec name1 = 1 ::  name2 and  name2 = 2 ::  name1 in  expr

which binds name1 to the cyclic list 1::2::1::2::…, and name2 to the cyclic list 2::1::2::1::…Informally, the class of accepted definitions consists of those definitions where the defined names occur only inside function bodies or as argument to a data constructor.

More precisely, consider the expression:

let rec name1 =  expr1 andand  namen =  exprn in  expr

It will be accepted if each one of expr1 …  exprn is statically constructive with respect to name1 …  namen, is not immediately linked to any of name1 …  namen, and is not an array constructor whose arguments have abstract type.

An expression e is said to be statically constructive with respect to the variables name1 …  namen if at least one of the following conditions is true:

  • e has no free occurrence of any of name1 …  namen
  • e is a variable
  • e has the form fun->
  • e has the form function->
  • e has the form lazy ()
  • e has one of the following forms, where each one of expr1 …  exprm is statically constructive with respect to name1 …  namen, and expr0 is statically constructive with respect to name1 …  namen,  xname1 …  xnamem:

An expression e is said to be immediately linked to the variable name in the following cases:

  • e is name
  • e has the form expr1;;  exprm where exprm is immediately linked to name
  • e has the form let [rec] xname1 =  expr1 andand  xnamem =  exprm in  expr0 where expr0 is immediately linked to name or to one of the xnamei such that expri is immediately linked to name.

7.4  Range patterns

(Introduced in Objective Caml 1.00)

pattern::= ...  
  char-literal ..  char-literal

In patterns, OCaml recognizes the form ' c ' .. ' d ' as shorthand for the pattern

' c ' | ' c1 ' | ' c2 ' || ' cn ' | ' d '

where c1, c2, …, cn are the characters that occur between c and d in the ASCII character set. For instance, the pattern '0'..'9' matches all characters that are digits.

7.5  Assertion checking

(Introduced in Objective Caml 1.06)

expr::= ...  
  assert expr

OCaml supports the assert construct to check debugging assertions. The expression assert expr evaluates the expression expr and returns () if expr evaluates to true. If it evaluates to false the exception Assert_failure is raised with the source file name and the location of expr as arguments. Assertion checking can be turned off with the -noassert compiler option. In this case, expr is not evaluated at all.

As a special case, assert false is reduced to raise (Assert_failure ...), which gives it a polymorphic type. This means that it can be used in place of any expression (for example as a branch of any pattern-matching). It also means that the assert false “assertions” cannot be turned off by the -noassert option.

7.6  Lazy evaluation

7.6.1  Lazy expressions

(Introduced in Objective Caml 1.06)

expr::= ...  
  lazy expr

The expression lazy expr returns a value v of type Lazy.t that encapsulates the computation of expr. The argument expr is not evaluated at this point in the program. Instead, its evaluation will be performed the first time the function Lazy.force is applied to the value v, returning the actual value of expr. Subsequent applications of Lazy.force to v do not evaluate expr again. Applications of Lazy.force may be implicit through pattern matching (see below).

7.6.2  Lazy patterns

(Introduced in Objective Caml 3.11)

pattern::= ...  
  lazy pattern

The pattern lazy pattern matches a value v of type Lazy.t, provided pattern matches the result of forcing v with Lazy.force. A successful match of a pattern containing lazy sub-patterns forces the corresponding parts of the value being matched, even those that imply no test such as lazy value-name or lazy _. Matching a value with a pattern-matching where some patterns contain lazy sub-patterns may imply forcing parts of the value, even when the pattern selected in the end has no lazy sub-pattern.

For more information, see the description of module Lazy in the standard library ( Module Lazy).

7.7  Local modules

(Introduced in Objective Caml 2.00)

expr::= ...  
  let module module-name  { ( module-name :  module-type ) }  [ : module-type ]  =  module-expr in  expr

The expression let module module-name =  module-expr in  expr locally binds the module expression module-expr to the identifier module-name during the evaluation of the expression expr. It then returns the value of expr. For example: 

        let remove_duplicates comparison_fun string_list =
          let module StringSet =
            Set.Make(struct type t = string
                            let compare = comparison_fun end) in
          StringSet.elements
            (List.fold_right StringSet.add string_list StringSet.empty)

7.8  Recursive modules

(Introduced in Objective Caml 3.07)

definition::= ...  
  module rec module-name :  module-type =  module-expr   { and module-name :  module-type =  module-expr }  
 
specification::= ...  
  module rec module-name :  module-type  { and module-name:  module-type }

Recursive module definitions, introduced by the module recand … construction, generalize regular module definitions module module-name =  module-expr and module specifications module module-name :  module-type by allowing the defining module-expr and the module-type to refer recursively to the module identifiers being defined. A typical example of a recursive module definition is: 

    module rec A : sig
                     type t = Leaf of string | Node of ASet.t
                     val compare: t -> t -> int
                   end
                 = struct
                     type t = Leaf of string | Node of ASet.t
                     let compare t1 t2 =
                       match (t1, t2) with
                         (Leaf s1, Leaf s2) -> Pervasives.compare s1 s2
                       | (Leaf _, Node _) -> 1
                       | (Node _, Leaf _) -> -1
                       | (Node n1, Node n2) -> ASet.compare n1 n2
                   end
        and ASet : Set.S with type elt = A.t
                 = Set.Make(A)

It can be given the following specification: 

    module rec A : sig
                     type t = Leaf of string | Node of ASet.t
                     val compare: t -> t -> int
                   end
        and ASet : Set.S with type elt = A.t

This is an experimental extension of OCaml: the class of recursive definitions accepted, as well as its dynamic semantics are not final and subject to change in future releases.

Currently, the compiler requires that all dependency cycles between the recursively-defined module identifiers go through at least one “safe” module. A module is “safe” if all value definitions that it contains have function types typexpr1 ->  typexpr2. Evaluation of a recursive module definition proceeds by building initial values for the safe modules involved, binding all (functional) values to fun _ -> raise Undefined_recursive_module. The defining module expressions are then evaluated, and the initial values for the safe modules are replaced by the values thus computed. If a function component of a safe module is applied during this computation (which corresponds to an ill-founded recursive definition), the Undefined_recursive_module exception is raised.

Note that, in the specification case, the module-types must be parenthesized if they use the with mod-constraint construct.

7.9  Private types

Private type declarations in module signatures, of the form type t = private ..., enable libraries to reveal some, but not all aspects of the implementation of a type to clients of the library. In this respect, they strike a middle ground between abstract type declarations, where no information is revealed on the type implementation, and data type definitions and type abbreviations, where all aspects of the type implementation are publicized. Private type declarations come in three flavors: for variant and record types (section 7.9.1), for type abbreviations (section 7.9.2), and for row types (section 7.9.3).

7.9.1  Private variant and record types

(Introduced in Objective Caml 3.07)

type-representation::= ...  
  = private [ | ] constr-decl  { | constr-decl }  
  = private { field-decl  { ; field-decl }  [ ; ] }

Values of a variant or record type declared private can be de-structured normally in pattern-matching or via the expr .  field notation for record accesses. However, values of these types cannot be constructed directly by constructor application or record construction. Moreover, assignment on a mutable field of a private record type is not allowed.

The typical use of private types is in the export signature of a module, to ensure that construction of values of the private type always go through the functions provided by the module, while still allowing pattern-matching outside the defining module. For example: 

        module M : sig
                     type t = private A | B of int
                     val a : t
                     val b : int -> t
                   end
                 = struct
                     type t = A | B of int
                     let a = A
                     let b n = assert (n > 0); B n
                   end

Here, the private declaration ensures that in any value of type M.t, the argument to the B constructor is always a positive integer.

With respect to the variance of their parameters, private types are handled like abstract types. That is, if a private type has parameters, their variance is the one explicitly given by prefixing the parameter by a ‘+’ or a ‘-’, it is invariant otherwise.

7.9.2  Private type abbreviations

(Introduced in Objective Caml 3.11)

type-equation::= ...  
  = private typexpr

Unlike a regular type abbreviation, a private type abbreviation declares a type that is distinct from its implementation type typexpr. However, coercions from the type to typexpr are permitted. Moreover, the compiler “knows” the implementation type and can take advantage of this knowledge to perform type-directed optimizations. For ambiguity reasons, typexpr cannot be an object or polymorphic variant type, but a similar behaviour can be obtained through private row types.

The following example uses a private type abbreviation to define a module of nonnegative integers: 

        module N : sig
                     type t = private int
                     val of_int: int -> t
                     val to_int: t -> int
                   end
                 = struct
                     type t = int
                     let of_int n = assert (n >= 0); n
                     let to_int n = n
                   end

The type N.t is incompatible with int, ensuring that nonnegative integers and regular integers are not confused. However, if x has type N.t, the coercion (x :> int) is legal and returns the underlying integer, just like N.to_int x. Deep coercions are also supported: if l has type N.t list, the coercion (l :> int list) returns the list of underlying integers, like List.map N.to_int l but without copying the list l.

Note that the coercion ( expr :>  typexpr ) is actually an abbreviated form, and will only work in presence of private abbreviations if neither the type of expr nor typexpr contain any type variables. If they do, you must use the full form ( expr :  typexpr1 :>  typexpr2 ) where typexpr1 is the expected type of expr. Concretely, this would be (x : N.t :> int) and (l : N.t list :> int list) for the above examples.

7.9.3  Private row types

(Introduced in Objective Caml 3.09)

type-equation::= ...  
  = private typexpr

Private row types are type abbreviations where part of the structure of the type is left abstract. Concretely typexpr in the above should denote either an object type or a polymorphic variant type, with some possibility of refinement left. If the private declaration is used in an interface, the corresponding implementation may either provide a ground instance, or a refined private type. 

   module M : sig type c = private < x : int; .. > val o : c end =
     struct
       class c = object method x = 3 method y = 2 end
       let o = new c
     end

This declaration does more than hiding the y method, it also makes the type c incompatible with any other closed object type, meaning that only o will be of type c. In that respect it behaves similarly to private record types. But private row types are more flexible with respect to incremental refinement. This feature can be used in combination with functors. 

   module F(X : sig type c = private < x : int; .. > end) =
     struct
       let get_x (o : X.c) = o#x
     end
   module G(X : sig type c = private < x : int; y : int; .. > end) =
     struct
       include F(X)
       let get_y (o : X.c) = o#y
     end

Polymorphic variant types can be refined in two ways, either to allow the addition of new constructors, or to allow the disparition of declared constructors. The second case corresponds to private variant types (one cannot create a value of the private type), while the first case requires default cases in pattern-matching to handle addition. 

   type t = [ `A of int | `B of bool ]
   type u = private [< t > `A ]
   type v = private [> t ]

With type u, it is possible to create values of the form (`A n), but not (`B b). With type v, construction is not restricted but pattern-matching must have a default case.

Similarly to abstract types, the variance of type parameters is not inferred, and must be given explicitly.

7.10  Local opens

(Introduced in OCaml 3.12)

expr::= ...  
  let open module-path in  expr  
  module-path .(  expr )

The expressions let open module-path in  expr and module-path.( expr) are strictly equivalent. They locally open the module referred to by the module path module-path in the scope of the expression expr.

Restricting opening to the scope of a single expression instead of a whole structure allows one to benefit from shorter syntax to refer to components of the opened module, without polluting the global scope. Also, this can make the code easier to read (the open statement is closer to where it is used) and to refactor (because the code fragment is more self-contained).

7.11  Record notations

(Introduced in OCaml 3.12)

pattern::= ...  
  { field  [= pattern]  { ; field  [= pattern] }  [; _ ] [;}  
 
expr::= ...  
  { field  [= expr]  { ; field  [= expr] }  [;}  
  { expr with  field  [= expr]  { ; field  [= expr] }  [;}

In a record pattern or a record construction expression, a single identifier id stands for id =  id, and a qualified identifier module-path .  id stands for module-path .  id =  id. For example, assuming the record type 

          type point = { x: float; y: float }

has been declared, the following expressions are equivalent: 

          let x = 1 and y = 2 in { x = x; y = y }
          let x = 1 and y = 2 in { x; y }
          let x = 1 and y = 2 in { x = x; y }

Likewise, the following functions are equivalent: 

          fun {x = x; y = y} -> x + y
          fun {x; y} -> x + y

Optionally, a record pattern can be terminated by ; _ to convey the fact that not all fields of the record type are listed in the record pattern and that it is intentional. By default, the compiler ignores the ; _ annotation. If warning 9 is turned on, the compiler will warn when a record pattern fails to list all fields of the corresponding record type and is not terminated by ; _. Continuing the point example above, 

          fun {x} -> x + 1

will warn if warning 9 is on, while 

          fun {x; _} -> x + 1

will not warn. This warning can help spot program points where record patterns may need to be modified after new fields are added to a record type.

7.12  Explicit polymorphic type annotations

(Introduced in OCaml 3.12)

let-binding::= ...  
  value-name :  poly-typexpr =  expr

Polymorphic type annotations in let-definitions behave in a way similar to polymorphic methods: they explicitly require the defined value to be polymorphic, and allow one to use this polymorphism in recursive occurences (when using let rec). Note however that this is a normal polymorphic type, unifiable with any instance of itself.

There are two possible applications of this feature. One is polymorphic recursion: 

        type 'a t = Leaf of 'a | Node of ('a * 'a) t
        let rec depth : 'a. 'a t -> 'b = function
            Leaf _ -> 1
          | Node x -> 1 + depth x

Note that 'b is not explicitly polymorphic here, and it will actually be unified with int.

The other application is to ensure that some definition is sufficiently polymorphic. 

# let id : 'a. 'a -> 'a = fun x -> x+1 ;;
Error: This definition has type int -> int which is less general than
         'a. 'a -> 'a

7.13  Locally abstract types

(Introduced in OCaml 3.12)

parameter::= ...  
  ( type typeconstr-name )

The expression fun ( type typeconstr-name ) ->  expr introduces a type constructor named typeconstr-name which is considered abstract in the scope of the sub-expression, but then replaced by a fresh type variable. Note that contrary to what the syntax could suggest, the expression fun ( type typeconstr-name ) ->  expr itself does not suspend the evaluation of expr as a regular abstraction would. The syntax has been chosen to fit nicely in the context of function declarations, where it is generally used. It is possible to freely mix regular function parameters with pseudo type parameters, as in: 

        let f = fun (type t) (foo : t list) -> ...

and even use the alternative syntax for declaring functions: 

        let f (type t) (foo : t list) = ...

This construction is useful because the type constructor it introduces can be used in places where a type variable is not allowed. For instance, one can use it to define an exception in a local module within a polymorphic function. 

        let f (type t) () =
          let module M = struct exception E of t end in
          (fun x -> M.E x), (function M.E x -> Some x | _ -> None)

Here is another example: 

        let sort_uniq (type s) (cmp : s -> s -> int) =
          let module S = Set.Make(struct type t = s let compare = cmp end) in
          fun l ->
            S.elements (List.fold_right S.add l S.empty)

It is also extremely useful for first-class modules and GADTs.

Polymorphic syntax

(Introduced in OCaml 4.00)

let-binding::= ...  
  value-name : type  { typeconstr-name }+ .  typexpr =  expr  
 
class-field::= ...  
  method [privatemethod-name : type  { typeconstr-name }+ .  typexpr =  expr  
  method! [privatemethod-name : type  { typeconstr-name }+ .  typexpr =  expr

The (type typeconstr-name) syntax construction by itself does not make polymorphic the type variable it introduces, but it can be combined with explicit polymorphic annotations where needed. The above rule is provided as syntactic sugar to make this easier: 

        let rec f : type t1 t2. t1 * t2 list -> t1 = ...

is automatically expanded into 

        let rec f : 't1 't2. 't1 * 't2 list -> 't1 =
          fun (type t1) (type t2) -> (... : t1 * t2 list -> t1)

The same feature is provided for method definitions. The method! form combines this extension with the “explicit overriding” extension described in section 7.17.

7.14  First-class modules

(Introduced in OCaml 3.12; pattern syntax and package type inference introduced in 4.00)

typexpr::= ...  
  (module package-type)  
 
module-expr::= ...  
  (val expr  [: package-type])  
 
expr::= ...  
  (module module-expr  [: package-type])  
 
pattern::= ...  
  (module module-name  [: package-type])  
 
package-type::= modtype-path  
  modtype-path with  package-constraint  { and package-constraint }  
 
package-constraint::= type typeconstr =  typexpr

Modules are typically thought of as static components. This extension makes it possible to pack a module as a first-class value, which can later be dynamically unpacked into a module.

The expression ( module module-expr :  package-type ) converts the module (structure or functor) denoted by module expression module-expr to a value of the core language that encapsulates this module. The type of this core language value is ( module package-type ). The package-type annotation can be omitted if it can be inferred from the context.

Conversely, the module expression ( val expr :  package-type ) evaluates the core language expression expr to a value, which must have type module package-type, and extracts the module that was encapsulated in this value. Again package-type can be omitted if the type of expr is known.

The pattern ( module module-name :  package-type ) matches a package with type package-type and binds it to module-name. It is not allowed in toplevel let bindings. Again package-type can be omitted if it can be inferred from the enclosing pattern.

The package-type syntactic class appearing in the ( module package-type ) type expression and in the annotated forms represents a subset of module types. This subset consists of named module types with optional constraints of a limited form: only non-parametrized types can be specified. For type-checking purposes, package types are compared by path equality on the module type name component, and normal type equality for constraints.

The module expression ( val expr :  package-type ) cannot be used in the body of a functor, because this can cause unsoundness in conjunction with applicative functors. On the other hand, it can be used anywhere in the context of a local module binding let module module-name = ( val  expr1 :  package-type ) in  expr2.

Basic example

A typical use of first-class modules is to select at run-time among several implementations of a signature. Each implementation is a structure that we can encapsulate as a first-class module, then store in a data structure such as a hash table: 

        module type DEVICE = sig ... end
        let devices : (string, (module DEVICE)) Hashtbl.t = Hashtbl.create 17

        module SVG = struct ... end
        let _ = Hashtbl.add devices "SVG" (module SVG : DEVICE)

        module PDF = struct ... end
        let _ = Hashtbl.add devices "PDF" (module PDF: DEVICE)

We can then select one implementation based on command-line arguments, for instance: 

        module Device =
          (val (try Hashtbl.find devices (parse_cmdline())
                with Not_found -> eprintf "Unknown device %s\n"; exit 2)
           : DEVICE)

Alternatively, the selection can be performed within a function: 

        let draw_using_device device_name picture =
          let module Device =
            (val (Hashtbl.find_devices device_name) : DEVICE)
          in
            Device.draw picture
Advanced examples

With first-class modules, it is possible to parametrize some code over the implementation of a module without using a functor.

        let sort (type s) (module Set : Set.S with type elt = s) l =
          Set.elements (List.fold_right Set.add l Set.empty)
        val sort : (module Set.S with type elt = 'a) -> 'a list -> 'a list

To use this function, one can wrap the Set.Make functor:

        let make_set (type s) cmp =
          let module S = Set.Make(struct
            type t = s
            let compare = cmp
          end) in
          (module S : Set.S with type elt = s)
        val make_set : ('a -> 'a -> int) -> (module Set.S with type elt = 'a)

7.15  Recovering the type of a module

(Introduced in OCaml 3.12)

module-type::= ...  
  module type of module-expr

The construction module type of module-expr expands to the module type (signature or functor type) inferred for the module expression module-expr.

A typical use, in conjunction with the signature-level include construct, is to extend the signature of an existing structure, as in the following example. 

        module type MYHASH = sig
          include module type of Hashtbl
          val replace: ('a, 'b) t -> 'a -> 'b -> unit
        end

The signature MYHASH then contains all the fields of the signature of the module Hashtbl, plus the new field replace. An implementation of this signature can be obtained easily by using the include construct again, but this time at the structure level: 

        module MyHash : MYHASH = struct
          include Hashtbl
          let replace t k v = remove t k; add t k v
        end

7.16  Substituting inside a signature

(Introduced in OCaml 3.12)

mod-constraint::= ...  
  type [type-params]  typeconstr-name :=  typexpr  
  module module-name :=  extended-module-path

“Destructive” substitution (with ... := ...) behaves essentially like normal signature constraints (with ... = ...), but it additionally removes the redefined type or module from the signature. There are a number of restrictions: one can only remove types and modules at the outermost level (not inside submodules), and in the case of with type the definition must be another type constructor with the same type parameters.

A natural application of destructive substitution is merging two signatures sharing a type name. 

        module type Printable = sig
          type t
          val print : Format.formatter -> t -> unit
        end
        module type Comparable = sig
          type t
          val compare : t -> t -> int
        end
        module type PrintableComparable = sig
          include Printable
          include Comparable with type t := t
        end

One can also use this to completely remove a field: 

# module type S = Comparable with type t := int;;
module type S = sig val compare : int -> int -> int end

or to rename one: 

# module type S = sig
    type u
    include Comparable with type t := u
  end;;
module type S = sig type u val compare : u -> u -> int end

Note that you can also remove manifest types, by substituting with the same type. 

# module type ComparableInt = Comparable with type t = int ;;
module type ComparableInt = sig type t = int val compare : t -> t -> int end
# module type CompareInt = ComparableInt with type t := int ;;
module type CompareInt = sig val compare : int -> int -> int end

7.17  Explicit overriding in class definitions

(Introduced in OCaml 3.12)

class-field::= ...  
   inherit! class-expr  [as lowercase-ident]  
   val! [mutableinst-var-name  [: typexpr=  expr  
   method! [privatemethod-name  {parameter}  [: typexpr=  expr  
   method! [privatemethod-name :  poly-typexpr =  expr

The keywords inherit!, val! and method! have the same semantics as inherit, val and method, but they additionally require the definition they introduce to be an overriding. Namely, method! requires method-name to be already defined in this class, val! requires inst-var-name to be already defined in this class, and inherit! requires class-expr to override some definitions. If no such overriding occurs, an error is signaled.

As a side-effect, these 3 keywords avoid the warnings 7 (method override) and 13 (instance variable override). Note that warning 7 is disabled by default.

7.18  Overriding in open statements

(Introduced in OCaml 4.01)

definition::= ...  
   open! module-path  
 
specification::= ...  
   open! module-path  
 
expr::= ...  
  let open! module-path in  expr

Since OCaml 4.01, open statements shadowing an existing identifier (which is later used) trigger the warning 44. Adding a ! character after the open keyword indicates that such a shadowing is intentional and should not trigger the warning.

7.19  Generalized algebraic datatypes

(Introduced in OCaml 4.00)

constr-decl::= ...  
  constr-name :  [ typexpr  { * typexpr } -> ]  typexpr  
 
type-param::= ...  
  [variance_

Generalized algebraic datatypes, or GADTs, extend usual sum types in two ways: constraints on type parameters may change depending on the value constructor, and some type variables may be existentially quantified. Adding constraints is done by giving an explicit return type (the rightmost typexpr in the above syntax), where type parameters are instantiated. This return type must use the same type constructor as the type being defined, and have the same number of parameters. Variables are made existential when they appear inside a constructor’s argument, but not in its return type.

Since the use of a return type often eliminates the need to name type parameters in the left-hand side of a type definition, one can replace them with anonymous types _ in that case.

The constraints associated to each constructor can be recovered through pattern-matching. Namely, if the type of the scrutinee of a pattern-matching contains a locally abstract type, this type can be refined according to the constructor used. These extra constraints are only valid inside the corresponding branch of the pattern-matching. If a constructor has some existential variables, fresh locally abstract types are generated, and they must not escape the scope of this branch.

Here is a concrete example: 

        type _ term =
          | Int : int -> int term
          | Add : (int -> int -> int) term
          | App : ('b -> 'a) term * 'b term -> 'a term

        let rec eval : type a. a term -> a = function
          | Int n    -> n                 (* a = int *)
          | Add      -> (fun x y -> x+y)  (* a = int -> int -> int *)
          | App(f,x) -> (eval f) (eval x)
                  (* eval called at types (b->a) and b for fresh b *)

        let two = eval (App (App (Add, Int 1), Int 1))
        val two : int = 2

Type inference for GADTs is notoriously hard. This is due to the fact some types may become ambiguous when escaping from a branch. For instance, in the Int case above, n could have either type int or a, and they are not equivalent outside of that branch. As a first approximation, type inference will always work if a pattern-matching is annotated with types containing no free type variables (both on the scrutinee and the return type). This is the case in the above example, thanks to the type annotation containing only locally abstract types.

In practice, type inference is a bit more clever than that: type annotations do not need to be immediately on the pattern-matching, and the types do not have to be always closed. As a result, it is usually enough to only annotate functions, as in the example above. Type annotations are propagated in two ways: for the scrutinee, they follow the flow of type inference, in a way similar to polymorphic methods; for the return type, they follow the structure of the program, they are split on functions, propagated to all branches of a pattern matching, and go through tuples, records, and sum types. Moreover, the notion of ambiguity used is stronger: a type is only seen as ambiguous if it was mixed with incompatible types (equated by constraints), without type annotations between them. For instance, the following program types correctly. 

        let rec sum : type a. a term -> _ = fun x ->
          let y =
            match x with
            | Int n -> n
            | Add   -> 0
            | App(f,x) -> sum f + sum x
          in y + 1
        val sum : 'a term -> int = <fun>

Here the return type int is never mixed with a, so it is seen as non-ambiguous, and can be inferred. When using such partial type annotations we strongly suggest specifying the -principal mode, to check that inference is principal.

The exhaustiveness check is aware of GADT constraints, and can automatically infer that some cases cannot happen. For instance, the following pattern matching is correctly seen as exhaustive (the Add case cannot happen). 

        let get_int : int term -> int = function
          | Int n    -> n
          | App(_,_) -> 0
Advanced examples

The term type we have defined above is an indexed type, where a type parameter reflects a property of the value contents. Another use of GADTs is singleton types, where a GADT value represents exactly one type. This value can be used as runtime representation for this type, and a function receiving it can have a polytypic behavior.

Here is an example of a polymorphic function that takes the runtime representation of some type t and a value of the same type, then pretty-prints the value as a string: 

        type _ typ =
          | Int : int typ
          | String : string typ
          | Pair : 'a typ * 'b typ -> ('a * 'b) typ

        let rec to_string: type t. t typ -> t -> string =
          fun t x ->
          match t with
          | Int -> string_of_int x
          | String -> Printf.sprintf "%S" x
          | Pair(t1,t2) ->
              let (x1, x2) = x in
              Printf.sprintf "(%s,%s)" (to_string t1 x1) (to_string t2 x2)

Another frequent application of GADTs is equality witnesses. 

        type (_,_) eq = Eq : ('a,'a) eq

        let cast : type a b. (a,b) eq -> a -> b = fun Eq x -> x

Here type eq has only one constructor, and by matching on it one adds a local constraint allowing the conversion between a and b. By building such equality witnesses, one can make equal types which are syntactically different.

Here is an example using both singleton types and equality witnesses to implement dynamic types. 

        let rec eq_type : type a b. a typ -> b typ -> (a,b) eq option =
          fun a b ->
          match a, b with
          | Int, Int -> Some Eq
          | String, String -> Some Eq
          | Pair(a1,a2), Pair(b1,b2) ->
              begin match eq_type a1 b1, eq_type a2 b2 with
              | Some Eq, Some Eq -> Some Eq
              | _ -> None
              end
          | _ -> None

        type dyn = Dyn : 'a typ * 'a -> dyn

        let get_dyn : type a. a typ -> dyn -> a option =
          fun a (Dyn(b,x)) ->
          match eq_type a b with
          | None -> None
          | Some Eq -> Some x

7.20  Syntax for Bigarray access

(Introduced in Objective Caml 3.00)

expr::= ...  
  expr .{  expr  { , expr } }  
  expr .{  expr  { , expr } } <-  expr

This extension provides syntactic sugar for getting and setting elements in the arrays provided by the Bigarray[Bigarray] library.

The short expressions are translated into calls to functions of the Bigarray module as described in the following table.

expressiontranslation
expr0.{ expr1}Bigarray.Array1.get expr0  expr1
expr0.{ expr1} <- exprBigarray.Array1.set expr0  expr1  expr
expr0.{ expr1,  expr2}Bigarray.Array2.get expr0  expr1  expr2
expr0.{ expr1,  expr2} <- exprBigarray.Array2.set expr0  expr1  expr2  expr
expr0.{ expr1,  expr2,  expr3}Bigarray.Array3.get expr0  expr1  expr2  expr3
expr0.{ expr1,  expr2,  expr3} <- exprBigarray.Array3.set expr0  expr1  expr2  expr3  expr
expr0.{ expr1,,  exprn}Bigarray.Genarray.get expr0 [|  expr1,,  exprn |]
expr0.{ expr1,,  exprn} <- exprBigarray.Genarray.set expr0 [|  expr1,,  exprn |]  expr

The last two entries are valid for any n > 3.

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Chapter 18  The ocamlbuild compilation manager

(Chapter written by Berke Durak and Nicolas Pouillard)



ocamlbuild is a tool automating the compilation of most OCaml projects with minimal user input. Its use is not restricted to projects having a simple structure – the extra effort needed to make it work with the more complex projects is in reasonable proportion with their added complexity. In practice, one will use a set of small text files, and, if needed, an OCaml compilation module that can fine-tune the behaviour and define custom rules.

18.1  Features of ocamlbuild

This section is intended to read like a sales brochure or a datasheet.

  • Built-in compilation rules for OCaml projects handle all the nasty cases: native and byte-code, missing .mli files, preprocessor rules, libraries, package (-pack) debugging and profiling flags, C stubs.
  • Plugin mechanism for writing compilation rules and actions in a real programming language, OCaml itself.
  • Automatic inference of dependencies.
  • Correct handling of dynamically discovered dependencies.
  • Object files and other temporary files are created in a specific directory, leaving your main directory uncluttered.
  • Sanity checks ensure that object files are where they are supposed to be: in the build directory.
  • Regular projects are built using a single command with no extra files.
  • Parallel compilation to speed up things on multi-core systems.
  • Sophisticated display mode to keep your screen free of boring and repetitive compilation message while giving you important progress information in a glimpse, and correctly multiplexing the error messages.
  • Tags and flags provide a concise and convenient mechanism for automatic selection of compilation, preprocessing and other options.
  • Extended shell-like glob patterns, that can be combined using boolean operators, allow you to concisely define the tags that apply to a given file.
  • Mechanisms for defining the mutual visibility of subdirectories.
  • Cache mechanism avoiding unnecessary compilations where reasonably computable.

18.2  Limitations

Not perfect nor complete yet, but already pretty damn useful.

We were not expecting to write the ultimate compilation tool in a few man-months, however we believe we have a tool that solves many compilation problems, especially our own, in a satisfactory way. Hence there are a lot of missing features, incomplete options and hideous bugs lurking in ocamlbuild, and we hope that the OCaml community will find our first try at ocamlbuild useful and hopefully help it grow into a tool that satisfies most needs of most users by providing feedback, bug reports and patches.

The plugin API maybe somewhat lacking in maturity, as it has only been tested by a few people. We believe a good API can only evolve under pressure from many peers and the courage to rewrite things cleanly when time is ripe by the developers. Most of the important functions a user will need are encapsulated in the plugin API, which is the Ocamlbuild_plugin module pack. We intend to keep that API backwards compatible. It may happen that intricate projects need features not available in that module – you may then use functions or values directly from the core ocamlbuild modules. We ask you to report such usage to the authors so that we may make the necessary changes to the API; you may also want to isolate calls to the non-API parts of the ocamlbuild library from the rest of your plugin to be able to keep the later when incompatible changes arise.

The way that ocamlbuild handles the command-line options, the _tags file, the target names, names of the tags, and so on, are not expected to change in incompatible ways. We intend to keep a project that compiles without a plugin compilable without modifications in the future.

18.3  Using ocamlbuild

Learn how to use ocamlbuild with short, specific, straight-to-the-point examples.

The amount of time and effort spent on the compilation process of a project should be proportionate to that spent on the project itself. It should be easy to set up a small project, maybe a little harder for a medium-sized project, and it may take some more time, but not too much, for a big project. Ideally setting up a big project would be as easy as setting up a small project. However, as projects grow, modularization techniques start to be used, and the probability of using meta programming or multiple programming languages increases, thus making the compilation process more delicate.

ocamlbuild is intended to be very easy to use for projects, large or small, with a simple compilation process: typing ocamlbuild foo.native should be enough to compile the native version of a program whose top module is foo.ml and whose dependencies are in the same directory. As your project gets more complex, you will gradually start to use command-line options to specify libraries to link with, then configuration files, ultimately culminating in a custom OCaml plugin for complex projects with arbitrary dependencies and actions.

18.3.1  Hygiene & where is my code ?

Your code is in the _build directory, but ocamlbuild automatically creates a symbolic link to the executables it produces in the current directory. ocamlbuild copies the source files and compiles them in a separate directory which is _build by default.

For ocamlbuild, any file that is not in the build directory is a source file. It is not unreasonable to think that some users may have bought binary object files they keep in their project directory. Usually binary files cluttering the project directory are due to previous builds using other systems. ocamlbuild has so-called “hygiene” rules that state that object files (.cmo, .cmi, or .o files, for instance) must not appear outside of the build directory. These rules are enforced at startup; any violations will be reported and ocamlbuild will exit. You must then remove these files by hand or run, with caution, the script sanitize.sh, which is generated in your source directory. This script will contain commands to remove them for you.

To disable these checks, you can use the -no-hygiene flag. If you have files that must elude the hygiene squad, just tag them with precious or not_hygienic.

18.3.2  Hello, world !

Assuming we are in a directory named example1 containing one file hello.ml whose contents are 

let _ =
  Printf.printf "Hello, %s ! My name is %s\n"
    (if Array.length Sys.argv > 1 then Sys.argv.(1) else "stranger")
    Sys.argv.(0)
;;

we can compile and link it into a native executable by invoking ocamlbuild hello.native. Here, hello is the basename of the top-level module and native is an extension used by ocamlbuild to denote native code executables. 

% ls
hello.ml
% ocamlbuild hello.native
Finished, 4 targets (0 cached) in 00:00:00.
% ls -l
total 12
drwxrwx--- 2 linus gallium 4096 2007-01-17 16:24 _build/
-rw-rw---- 1 linus gallium   43 2007-01-17 16:23 hello.ml
lrwxrwxrwx 1 linus gallium   19 2007-01-17 16:24 hello.native -> _build/hello.native*

What’s this funny _build directory ? Well that’s where ocamlbuild does its dirty work of compiling. You usually won’t have to look very often into this directory. Source files are copied into _build and this is where the compilers will be run. Various cache files are also stored there. Its contents may look like this: 

% ls -l _build
total 208
-rw-rw---- 1 linus gallium    337 2007-01-17 16:24 _digests
-rw-rw---- 1 linus gallium    191 2007-01-17 16:24 hello.cmi
-rw-rw---- 1 linus gallium    262 2007-01-17 16:24 hello.cmo
-rw-rw---- 1 linus gallium    225 2007-01-17 16:24 hello.cmx
-rw-rw---- 1 linus gallium     43 2007-01-17 16:23 hello.ml
-rw-rw---- 1 linus gallium     17 2007-01-17 16:24 hello.ml.depends
-rwxrwx--- 1 linus gallium 173528 2007-01-17 16:24 hello.native*
-rw-rw---- 1 linus gallium    936 2007-01-17 16:24 hello.o
-rw-rw---- 1 linus gallium     22 2007-01-17 16:24 ocamlc.where

18.3.3  Executing my code

You can execute your code the old-fashioned way (./hello.native). You may also type 

ocamlbuild hello.native -- Caesar

and it will compile and then run hello.native with the arguments following --, which should display: 

% ocamlbuild hello.native -- Caesar
Finished, 4 targets (0 cached) in 00:00:00.
Hello, Caesar ! My name is _build/hello.native

18.3.4  The log file, verbosity and debugging

By default, if you run ocamlbuild on a terminal, it will use some ANSI escape sequences to display a nice, one-line progress indicator. To see what commands ocamlbuild has actually run, you can check the contents of the _build/_log file. To change the name of the log file or to disable logging, use the -log <file> or -no-log options. Note that the log file is truncated at each execution of ocamlbuild.

The log file contains all the external commands that ocamlbuild ran or intended to run along with the target name and the computed tags. With the -verbose <level> option, ocamlbuild will also write more or less useful debugging information; a verbosity level of 1 (which can also be specified using the -verbose switch) prints generally useful information; higher levels produce much more output.

18.3.5  Cleaning

ocamlbuild may leave a _build directory and symbolic links to executables in that directory (unless when using -no-links). All of these can be removed safely by hand, or by invoking ocamlbuild with the -clean flag.

18.3.6  Where and how to run ocamlbuild?

An important point is that ocamlbuild must be invoked from the root of the project, even if this project has multiple, nested subdirectories. This is because ocamlbuild likes to store the object files in a single _build directory. You can change the name of that directory with the -build-dir option.

ocamlbuild can be either invoked manually from the UNIX or Windows shell, or automatically from a build script or a Makefile. Unless run with the -no-hygiene option, there is the possibility that ocamlbuild will prompt the user for a response. By default, on UNIX systems, if ocamlbuild senses that the standard output is a terminal, it will use a nice progress indicator using ANSI codes, instrumenting the output of the processes it spawns to have a consistent display. Under non-UNIX systems, or if the standard output is not a terminal, it will run in classic mode where it will echo the executed commands on its standard output. This selection can be overridden with the -classic-display option.

18.3.7  Dependencies

Dependencies are automatically discovered.

Most of the value of ocamlbuild lies in the fact that it often needs no extra information to compile a project besides the name of the top-level module. ocamlbuild calls ocamldep to automatically find the dependencies of any modules it wants to compile. These dependencies are dynamically incorporated in the dependency graph, something make cannot do. For instance, let’s add a module Greet that implements various ways of greeting people. 

% cat greet.ml
type how = Nicely | Badly;;

let greet how who =
  match how with Nicely -> Printf.printf "Hello, %s !\n" who
               | Badly  -> Printf.printf "Oh, here is that %s again.\n" who
;;
% cat hello.ml
open Greet

let _ =
  let name =
    if Array.length Sys.argv > 1 then
      Sys.argv.(1)
    else
      "stranger"
  in
  greet
    (if name = "Caesar" then Nicely else Badly)
    name;
  Printf.printf "My name is %s\n" Sys.argv.(0)
;;

Then the module Hello depends on the module Greet and ocamlbuild can figure this out for himself – we still only have to invoke ocamlbuild hello.native. Needless to say, this works for any number of modules.

18.3.8  Native and byte-code

If we want to compile byte-code instead of native, we just a target name of hello.byte instead of hello.native, i.e., we type ocamlbuild hello.byte.

18.3.9  Compile flags

To pass a flag to the compiler, such as the -rectypes option, use the -cflag option as in: 

ocamlbuild -cflag -rectypes hello.native

You can put multiple -cflag options, they will be passed to the compiler in the same order. You can also give them in a comma-separated list with the -cflags option (notice the plural): 

ocamlbuild -cflags -I,+lablgtk,-rectypes hello.native

These flags apply when compiling, that is, when producing .cmi, .cmo,.cmx and .o files from .ml or .mli files.

18.3.10  Link flags

Link flags apply when the various object files are collected and linked into one executable. These will typically be include directories for libraries. They are given using the -lflag and -lflags options, which work in the same way as the -cflag and -cflags options.

18.3.11  Linking with external libraries

In our third example, we use one Unix system call and functions from the num library: 

% cat epoch.ml
let _ =
  let s = Num.num_of_string (Printf.sprintf "%.0f" (Unix.gettimeofday ())) in
  let ps = Num.mult_num (Num.num_of_string "1000000000000") s in
  Printf.printf "%s picoseconds have passed since January 1st, 1970.\n"
    (Num.string_of_num ps)
;;

This requires linking with the unix and num modules, which is accomplished by using the -lib unix and -lib num flags, or, alternatively, -libs unix,num: 

% ocamlbuild -libs nums,unix epoch.native --
Finished, 4 targets (4 cached) in 00:00:00.
1169051647000000000000 picoseconds have passed since January 1st, 1970.

You may need to add options such as -cflags -I,/usr/local/lib/ocaml/ and -lflags -I,/usr/local/lib/ocaml/ if the libraries you wish to link with are not in OCaml’s default search path.

18.3.12  The _tags files

Finer control over the compiler flags applied to each source file, such as preprocessing, debugging, profiling and linking options, can be gained using ocamlbuild’s tagging mechanism.

Every source file has a set of tags which tells ocamlbuild what kind of file it is and what to do with it. A tag is simply a string, usually lowercase, for example ocaml or native. The set of tags attached to a file is computed by applying the tagging rules to the filename. Tagging rules are defined in _tags files in any parent directory of a file, up to the main project directory.

Each line in the _tags file is made of a glob pattern (see subsection 18.3.13) and a list of tags. More than one rule can apply to a file and rules are applied in the order in which they appear in a file. By preceding a tag with a minus sign, one may remove tags from one or more files.

Example: the built-in _tags file

     <**/*.ml> or <**/*.mli> or <**/*.mlpack> or <**/*.ml.depends>: ocaml
     <**/*.byte>: ocaml, byte, program
     <**/*.odoc>: ocaml, doc
     <**/*.native>: ocaml, native, program
     <**/*.cma>: ocaml, byte, library
     <**/*.cmxa>: ocaml, native, library
     <**/*.cmo>: ocaml, byte
     <**/*.cmi>: ocaml, byte, native
     <**/*.cmx>: ocaml, native

Two special tags made from the path name of the file relative to the toplevel of the project are automatically defined for each file. For a file foo/bar.ml those tags will be file:foo/bar.ml, and extension:ml.

If you do not have subdirectories, you can put *.ml instead of **/*.ml.

18.3.13  Glob patterns and expressions

Glob patterns have a syntax similar to those used by UNIX shells to select path names (like foo_*.ba?). They are used in ocamlbuild to define the files and directories to which tags apply. Glob expressions are glob patterns enclosed in brackets < and > combined using the standard boolean operators and, or, not. This allows one to describe sets of path names in more concise and more readable ways.

Please note that file and directory names are supposed to be made of the following characters: a, …, z, A, …, Z, 0, …, 9, _, - and .. This is called the pathname alphabet P.

Formal syntax ExampleMatchesDoes not match Meaning (formal meaning)
u
A string of pathname characters		 foo.ml foo.ml fo.ml, bar/foo.ml The exact string u ({ u }, where uP*)
*
The wild-card star		 * ε, foo, bar foo/bar, /bar Any string not containing a slash (P*)
?
The joker		 ? a, b, z /, bar Any one-letter string, excluding the slash
**/
The prefix inter-directory star		 **/foo.ml foo.ml, bar/foo.ml, bar/baz/foo.ml foo/bar, /bar The empty string, or any string ending with a slash (ε ∪ P*/)
/**
The suffix inter-directory star		 foo/** foo, foo/bar bar/foo Any string starting with a slash, or the empty string (ε ∪ /P*)
/**/
The infix inter-directory star		 bar/**/foo.ml bar/foo.ml, bar/baz/foo.ml foo.ml Any string starting and ending with a slash (ε ∪ /P*/)
[ r1 r2rk ] where ri is either c or c1c2 (1 ≤ ik)
The positive character class		 [a-fA-F0-9_.] 3, F, . z, bar Any one-letter string made of characters from one of the ranges ri (1 ≤ in). (L(r1) ∪ ⋯ ∪ L(rn))
[^r1 r2rk ] where ri is either c or c1c2 (1 ≤ ik)
The negative character class		 [^a-fA-F0-9_.] z, bar 3, F, . Any one-letter string NOT made of characters from one of the ranges ri (1 ≤ in). (Σ* ∖ (L(r1) ∪ ⋯ ∪ L(rn)))
p1 p2
A concatenation of patterns		 foo* foo, foob, foobar fo, bar Any string with a prefix matching p1 and the corresponding suffix matching p2, ({ uvuL(p1), vL(p2) })
{ p1 , p2 ,, pk }
A union of patterns		 toto.{ml,mli} toto.ml, toto.mli toto. Any string matching one of the patterns pi for 1 ≤ ik. (L(p1) ∪ ⋯ ∪ L(pk))
Table 18.1: Syntax and semantics of glob patterns.
Formal syntax Example Meaning (formal meaning)
<p> <foo.ml> Pathnames matching the pattern p
e1   or   e2 <*.ml> or <foo/bar.ml> Pathnames matching at least one of the expressions e1 and e2
e1   and   e2 <*.ml> and <foo_*> Pathnames matching both expressions e1 and e2
not   e not <*.mli> Pathnames not matching the expression e
true true All pathnames
false false No pathnames
Table 18.2: Syntax and semantics of glob expressions.

18.3.14  Subdirectories

If the files of your project are held in one or more subdirectories, ocamlbuild must be made aware of that fact using the -I or -Is options or by adding an include tag. For instance, assume your project is made of three subdirectories, foo, bar and baz containing various .ml files, the main file being foo/main.ml. Then you can either type: 

% ocamlbuild -Is foo,bar,baz foo/main.native

or add the following line in the _tags file 

<foo> or <bar> or <baz>: include

and call 

% ocamlbuild foo/main.native

There are then two cases. If no other modules named Bar or Baz exist elsewhere in the project, then you are done. Just use Foo, Foo.Bar and Foo.Baz in your code. Otherwise, you will need to use the plugin mechanism and define the mutual visibility of the subdirectories using the Pathname.define_context function.

Note on subdirectory traversal

ocamlbuild used to traverse by default any subdirectory not explicitly excluded. This is no longer the case. Note that you can still have a fine grained control using your _tags file and the traverse tag.

There is no longer the true: traverse tag declaration by default. To make ocamlbuild recursive use one of these:

  1. Give the -r flag to ocamlbuild.
  2. Have a _tags or myocamlbuild.ml file in your top directory.

18.3.15  Grouping targets with .itarget

You can create a file named foo.itarget containing a list of targets, one per line, such as 

main.native
main.byte
stuff.docdir/index.html

Requesting the target foo.otarget will then build every target listed in the file foo.itarget. Blank lines and lines starting with a sharp (#) are ignored.

18.3.16  Packing subdirectories into modules

OCaml’s -pack option allows you to structure the contents of a module in a subdirectory. For instance, assume you have a directory foo containing two modules bar.ml and baz.ml. You want from these to build a module Foo containing Bar and Baz as submodules. In the case where no modules named Bar or Baz exist outside of Foo, to do this you must write a file foo.mlpack, preferably sitting in the same directory as the directory Foo and containing the list of modules (one per line) it must contain: 

Bar
Baz

Then when you will request for building foo.cmo the package will be made from bar.cmo and baz.cmo.

18.3.17  Making an OCaml library

In a similar way than for packaged modules you can make a library by putting it’s contents in a file (with the mllib extension). For instance, assume you have a two modules bar.ml and baz.ml. You want from these to build a library foo.cmx?a containing Bar and Baz modules. To do this you must write a file foo.mllib containing the list of modules (one per line) it must contain: 

Bar
Baz

Then when you will request for building foo.cma the library will be made from bar.cmo and baz.cmo.

18.3.18  Making an OCaml toplevel

Making a toplevel is almost the same thing than making a packaged module or a library. Just write a file with the mltop extension (like foo.mltop) and request for building the toplevel using the top extension (foo.top in this example).

18.3.19  Preprocessor options and tags

You can specify preprocessor options with -pp followed by the preprocessor string, for instance ocamlbuild -pp camlp4o.opt -unsafe would run your sources through CamlP4 with the -unsafe option. Another way is to use the tags file.

TagPreprocessor commandRemark
pp(cmd...)cmd...Arbitrary preprocessor command1
camlp4ocamlp4oOriginal OCaml syntax
camlp4rcamlp4rRevised OCaml syntax
camlp4ofcamlp4ofOriginal OCaml syntax with extensions
camlp4rfcamlp4rfRevised OCaml syntax with extensions

18.3.20  Debugging byte code and profiling native code

The preferred way of compiling code suitable for debugging with ocamldebug or profiling native code with ocamlprof is to use the appropriate target extensions, .d.byte for debugging or .p.native.

Another way is to add use the debug or profile tags. Note that these tags must be applied at the compilation and linking stages. Hence you must either use -tag debug or -tag profile on the command line, or add a 

true: debug

line to your _tags file. Please note that the byte-code profiler works in a wholly different way and is not supported by ocamlbuild.

18.3.21  Generating documentation using ocamldoc

Write the names of the modules whose interfaces will be documented in a file whose extension is .odocl, for example foo.odocl, then invoke ocamlbuild on the target foo.docdir/index.html. This will collect all the documentation from the interfaces (which will be build, if necessary) using ocamldoc and generate a set of HTML files under the directory foo.docdir/, which is actually a link to _build/foo.docdir/. As for packing subdirectories into modules, the module names must be written one per line, without extensions and correctly capitalized. Note that generating documentation in formats other than HTML or from implementations is not supported.

18.3.22  The display line

Provided ocamlbuild runs in a terminal under a POSIX environment, it will display a sophisticated progress-indicator line that graciously interacts with the output of subcommands. This line looks like this: 

00:00:02 210  (180 ) main.cmx                             ONbp--il /

Here, 00:00:02 is the elapsed time in hour:minute:second format since ocamlbuild has been invoked; 210 is the number of external commands, typically calls to the compiler or the like, that may or may not have been invoked; 180 is the number of external commands that have not been invoked since their result is already in the build directory; main.cmx is the name of the last target built; ONbp--il is a short string that describes the tags that have been encountered and the slash at the end is a frame from a rotating ticker. Hence, the display line has the following structure: 

HH:MM:SS JOBS (CACHED) PATHNAME                           TAGS TICKER

The tag string is made of 8 indicators which each monitor a tag. These tags are ocaml, native, byte, program, pp, debug, interf and link. Initially, each indicator displays a dash -. If the current target has the monitored tag, then the indicator displays the corresponding character (see table 18.3) in uppercase. Otherwise, it displays that character in lowercase. This allows you to see the set of tags that have been applied to files in your project during the current invocation of ocamlbuild.

Hence the tag string ONbp--il means that the current target main.cmx has the tags ocaml and native, and that the tags ocaml, native, byte, program, interf and link have already been seen.

TagDisplay character
ocamlO
nativeN
byteB
programP
ppR
debugD
interfI
linkL
Table 18.3: Relation between the characters displayed in the tag string and the tags.

18.3.23  ocamllex, ocamlyacc and menhir

ocamlbuild knows how to run the standard lexer and parser generator tools ocamllex and ocamlyacc when your files have the standard .mll and .mly extensions. If you want to use menhir instead of ocamlyacc, you can either launch ocamlbuild with the -use-menhir option or add a 

true: use_menhir

line to your _tags file. Note that there is currently no way of using menhir and ocamlyacc in the same execution of ocamlbuild.

18.3.24  Changing the compilers or tools

As ocamlbuild is part of your OCaml distribution, it knows if it can call the native compilers and tools (ocamlc.opt, ocamlopt.opt...) or not. However you may want ocamlbuild to use another ocaml compiler for different reasons (such as cross-compiling or using a wrapper such as ocamlfind). Here is the list of relevant options:

  • -ocamlc <command>
  • -ocamlopt <command>
  • -ocamldep <command>
  • -ocamlyacc <command>
  • -menhir <command>
  • -ocamllex <command>
  • -ocamlmktop <command>
  • -ocamlrun <command>

18.3.25  Interaction with version control systems

Here are tips for configuring your version control system to ignore the files and directories generated by ocamlbuild.

The directory _build and any symbolic links pointing into _build should be ignored. To do this, you must add the following ignore patterns to your version control system’s ignore set: 

_build
*.native
*.byte
*.d.native
*.p.byte

For CVS, add the above lines to the .cvsignore file. For Subversion (SVN), type svn propedit svn:ignore . and add the above lines.

18.3.26  A shell script for driving it all?

To shell or to make ? Traditionally, makefiles have two major functions. The first one is the dependency-ordering, rule-matching logic used for compiling. The second one is as a dispatcher for various actions defined using phony targets with shell script actions. These actions include cleaning, cleaning really well, archiving, uploading and so on. Their characteristic is that they rely little or not on the building process – they either need the building to have been completed, or they don’t need anything. As /bin/sh scripts have been here for three to four decades and are not going anywhere, why not replace that functionality of makefiles with a shell script ? We have thought of three bad reasons:

  • Typing make to compile is now an automatism,
  • We need to share variable definitions between rules and actions,
  • Escaping already way too special-character-sensitive shell code with invisible tabs and backslashes is a dangerously fun game.

We also have bad reasons for not using an OCaml script to drive everything:

  • Sys.command calls the /bin/sh anyway,
  • Shell scripts can execute partial commands or commands with badly formed arguments.
  • Shell scripts are more concise for expressing... shell scripts.

Anyway you are of course free to use a makefile or an OCaml script to call ocamlbuild. Here is an example shell driver script: 

#!/bin/sh

set -e

TARGET=epoch
FLAGS="-libs unix,nums"
OCAMLBUILD=ocamlbuild

ocb()
{
  $OCAMLBUILD $FLAGS $*
}

rule() {
  case $1 in
    clean)  ocb -clean;;
    native) ocb $TARGET.native;;
    byte)   ocb $TARGET.byte;;
    all)    ocb $TARGET.native $TARGET.byte;;
    depend) echo "Not needed.";;
    *)      echo "Unknown action $1";;
  esac;
}

if [ $# -eq 0 ]; then
  rule all
else
  while [ $# -gt 0 ]; do
    rule $1;
    shift
  done
fi

18.4  Appendix: Motivations

This inflammatory appendix describes the frustration that led us to write ocamlbuild.

Many people have painfully found that the utilities of the make family, namely GNU Make, BSD Make, and their derivatives, fail to scale to large projects, especially when using multi-stage compilation rules, such as custom pre-processors, unless dependencies are hand-defined. But as your project gets larger, more modular, and uses more diverse pre-processing tools, it becomes increasingly difficult to correctly define dependencies by hand. Hence people tend to use language-specific tools that attempt to extract dependencies. However another problem then appears: make was designed with the idea of a static dependency graph. Dependency extracting tools, however, are typically run by a rule in make itself; this means that make has to reload the dependency information. This is the origin of the make clean; make depend; make mantra. This approach tends to work quite well as long as all the files sit in a single directory and there is only one stage of pre-processing. If there are two or more stages, then dependency extracting tools must be run two or more times - and this means multiple invocations of make. Also, if one distributes the modules of a large project into multiple subdirectories, it becomes difficult to distribute the makefiles themselves, because the language of make was not conceived to be modular; the only two mechanisms permitted, inclusion of makefile fragments, and invocation of other make instances, must be skillfully coordinated with phony target names (depend1, depend2...) to insure inclusion of generated dependencies with multi-stage programming; changes in the structure of the project must be reflected by hand and the order of variable definitions must be well-thought ahead to avoid long afternoons spent combinatorially fiddling makefiles until it works but no one understands why.

These problems become especially apparent with OCaml: to ensure type safety and to allow a small amount of cross-unit optimization when compiling native code, interface and object files include cryptographical digests of interfaces they are to be linked with. This means that linking is safer, but that makefile sloppiness leads to messages such as: 

Files foo.cmo and bar.cmo
make inconsistent assumptions over interface Bar

The typical reaction is then to issue the mantra make clean; make depend; make and everything compiles just fine... from the beginning. Hence on medium projects, the programmer often has to wait for minutes instead of the few seconds that would be taken if make could correctly guess the small number of files that really had to be recompiled.

It is not surprising that hacking a build tool such as make to include a programming language while retaining the original syntax and semantics gives an improvised and cumbersome macro language of dubious expressive power. For example, using GNU make, suppose you have a list of .mls that you want to convert into a list including both .cmos and .cmis, that is you want to transform a.ml b.ml c.ml into a.cmi a.cmo b.cmi b.cmo c.cmi c.cmo while preserving the dependency order which must be hand specified for linking 2. Unfortunately $patsubst %.ml, %.cmi %.cmo, a.ml b.ml c.ml won’t work since the %-sign in the right-hand of a patsubst gets substituted only once. You then have to delve into something that is hardly lambda calculus: an intricate network of foreach, eval, call and defines may get you the job done, unless you chicken out and opt for an external awk, sed or perl call. People who at this point have not lost their temper or sanity usually resort to metaprogramming by writing Makefile generators using a mixture of shell and m4. One such an attempt gave something that is the nightmare of wannabe package maintainers: it’s called autotools.

Note that it is also difficult to write Makefiles to build object files in a separate directory. It is not impossible since the language of make is Turing-complete, a proof of which is left as an exercise. Note that building things in a separate directory is not necessarily a young enthusiast’s way of giving a different look and feel to his projects – it may be a good way of telling the computer that foo.mli is generated by ocamlyacc using foo.mly and can thus be removed.

18.5  Appendix: Summary of default rules

The contents of this table give a summary of the most important default rules. To get the most accurate and up-to-date information, launch ocamlbuild with the -documentation option.

TagsDependenciesTargets
 %.itarget%.otarget
ocaml%.mli %.mli.depends%.cmi
byte, debug, ocaml%.mlpack %.cmi%.d.cmo
byte, ocaml%.mlpack%.cmo %.cmi
byte, ocaml%.mli %.ml %.ml.depends %.cmi%.d.cmo
byte, ocaml%.mli %.ml %.ml.depends %.cmi%.cmo
native, ocaml, profile%.mlpack %.cmi%.p.cmx %.p.o
native, ocaml%.mlpack %.cmi%.cmx %.o
native, ocaml, profile%.ml %.ml.depends %.cmi%.p.cmx %.p.o
native, ocaml%.ml %.ml.depends %.cmi%.cmx %.o
debug, ocaml%.ml %.ml.depends %.cmi%.d.cmo
ocaml%.ml %.ml.depends%.cmo %.cmi
byte, debug, ocaml, program%.d.cmo%.d.byte
byte, ocaml, program%.cmo%.byte
native, ocaml, profile, program%.p.cmx %.p.o%.p.native
native, ocaml, program%.cmx %.o%.native
byte, debug, library, ocaml%.mllib%.d.cma
byte, library, ocaml%.mllib%.cma
byte, debug, library, ocaml%.d.cmo%.d.cma
byte, library, ocaml%.cmo%.cma
 lib%(libname).cliblib%(libname).a dll%(libname).so
 %(path)/lib%(libname).clib%(path)/lib%(libname).a %(path)/dll%(libname).so
library, native, ocaml, profile%.mllib%.p.cmxa %.p.a
library, native, ocaml%.mllib%.cmxa %.a
library, native, ocaml, profile%.p.cmx %.p.o%.p.cmxa %.p.a
library, native, ocaml%.cmx %.o%.cmxa %.a
 %.ml%.ml.depends
 %.mli%.mli.depends
ocaml%.mll%.ml
doc, ocaml%.mli %.mli.depends%.odoc
 %.odocl%.docdir/index.html
ocaml%.mly%.ml %.mli
 %.c%.o
 %.ml %.ml.depends%.inferred.mli
1
The command must not contain newlines or parentheses.
2
By the way, what’s the point of having a declarative language if make can’t sort the dependencies in topological order for giving them to gcc or whatever ?
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Chapter 19  Interfacing C with OCaml

This chapter describes how user-defined primitives, written in C, can be linked with OCaml code and called from OCaml functions.

19.1  Overview and compilation information

19.1.1  Declaring primitives

definition::= ...  
  external value-name :  typexpr =  external-declaration  
 
external-declaration::= string-literal  [ string-literal  [ string-literal ] ]

User primitives are declared in an implementation file or structend module expression using the external keyword: 

        external name : type = C-function-name

This defines the value name name as a function with type type that executes by calling the given C function. For instance, here is how the input primitive is declared in the standard library module Pervasives: 

        external input : in_channel -> string -> int -> int -> int
                       = "input"

Primitives with several arguments are always curried. The C function does not necessarily have the same name as the ML function.

External functions thus defined can be specified in interface files or sigend signatures either as regular values 

        val name : type

thus hiding their implementation as a C function, or explicitly as “manifest” external functions 

        external name : type = C-function-name

The latter is slightly more efficient, as it allows clients of the module to call directly the C function instead of going through the corresponding OCaml function.

The arity (number of arguments) of a primitive is automatically determined from its OCaml type in the external declaration, by counting the number of function arrows in the type. For instance, input above has arity 4, and the input C function is called with four arguments. Similarly, 

    external input2 : in_channel * string * int * int -> int = "input2"

has arity 1, and the input2 C function receives one argument (which is a quadruple of OCaml values).

Type abbreviations are not expanded when determining the arity of a primitive. For instance, 

        type int_endo = int -> int
        external f : int_endo -> int_endo = "f"
        external g : (int -> int) -> (int -> int) = "f"

f has arity 1, but g has arity 2. This allows a primitive to return a functional value (as in the f example above): just remember to name the functional return type in a type abbreviation.

Note that the language accepts external declarations with one or two flag strings in addition to the C function’s name. These flags are reserved for the implementation of the standard library.

19.1.2  Implementing primitives

User primitives with arity n ≤ 5 are implemented by C functions that take n arguments of type value, and return a result of type value. The type value is the type of the representations for OCaml values. It encodes objects of several base types (integers, floating-point numbers, strings, …), as well as OCaml data structures. The type value and the associated conversion functions and macros are described in details below. For instance, here is the declaration for the C function implementing the input primitive: 

CAMLprim value input(value channel, value buffer, value offset, value length)
{
  ...
}

When the primitive function is applied in an OCaml program, the C function is called with the values of the expressions to which the primitive is applied as arguments. The value returned by the function is passed back to the OCaml program as the result of the function application.

User primitives with arity greater than 5 should be implemented by two C functions. The first function, to be used in conjunction with the bytecode compiler ocamlc, receives two arguments: a pointer to an array of OCaml values (the values for the arguments), and an integer which is the number of arguments provided. The other function, to be used in conjunction with the native-code compiler ocamlopt, takes its arguments directly. For instance, here are the two C functions for the 7-argument primitive Nat.add_nat: 

CAMLprim value add_nat_native(value nat1, value ofs1, value len1,
                              value nat2, value ofs2, value len2,
                              value carry_in)
{
  ...
}
CAMLprim value add_nat_bytecode(value * argv, int argn)
{
  return add_nat_native(argv[0], argv[1], argv[2], argv[3],
                        argv[4], argv[5], argv[6]);
}

The names of the two C functions must be given in the primitive declaration, as follows: 

        external name : type =
                 bytecode-C-function-name native-code-C-function-name

For instance, in the case of add_nat, the declaration is: 

        external add_nat: nat -> int -> int -> nat -> int -> int -> int -> int
                        = "add_nat_bytecode" "add_nat_native"

Implementing a user primitive is actually two separate tasks: on the one hand, decoding the arguments to extract C values from the given OCaml values, and encoding the return value as an OCaml value; on the other hand, actually computing the result from the arguments. Except for very simple primitives, it is often preferable to have two distinct C functions to implement these two tasks. The first function actually implements the primitive, taking native C values as arguments and returning a native C value. The second function, often called the “stub code”, is a simple wrapper around the first function that converts its arguments from OCaml values to C values, call the first function, and convert the returned C value to OCaml value. For instance, here is the stub code for the input primitive: 

CAMLprim value input(value channel, value buffer, value offset, value length)
{
  return Val_long(getblock((struct channel *) channel,
                           &Byte(buffer, Long_val(offset)),
                           Long_val(length)));
}

(Here, Val_long, Long_val and so on are conversion macros for the type value, that will be described later. The CAMLprim macro expands to the required compiler directives to ensure that the function following it is exported and accessible from OCaml.) The hard work is performed by the function getblock, which is declared as: 

long getblock(struct channel * channel, char * p, long n)
{
  ...
}

To write C code that operates on OCaml values, the following include files are provided:

Include fileProvides
caml/mlvalues.hdefinition of the value type, and conversion macros
caml/alloc.hallocation functions (to create structured OCaml objects)
caml/memory.hmiscellaneous memory-related functions and macros (for GC interface, in-place modification of structures, etc).
caml/fail.hfunctions for raising exceptions (see section 19.4.5)
caml/callback.hcallback from C to OCaml (see section 19.7).
caml/custom.hoperations on custom blocks (see section 19.9).
caml/intext.hoperations for writing user-defined serialization and deserialization functions for custom blocks (see section 19.9).
caml/threads.hoperations for interfacing in the presence of multiple threads (see section 19.10).

These files reside in the caml/ subdirectory of the OCaml standard library directory (usually /usr/local/lib/ocaml).

Note: It is recommended to define the macro CAML_NAME_SPACE before including these header files. If you do not define it, the header files will also define short names (without the caml_ prefix) for most functions, which usually produce clashes with names defined by other C libraries that you might use. Including the header files without CAML_NAME_SPACE is only supported for backward compatibility.

19.1.3  Statically linking C code with OCaml code

The OCaml runtime system comprises three main parts: the bytecode interpreter, the memory manager, and a set of C functions that implement the primitive operations. Some bytecode instructions are provided to call these C functions, designated by their offset in a table of functions (the table of primitives).

In the default mode, the OCaml linker produces bytecode for the standard runtime system, with a standard set of primitives. References to primitives that are not in this standard set result in the “unavailable C primitive” error. (Unless dynamic loading of C libraries is supported – see section 19.1.4 below.)

In the “custom runtime” mode, the OCaml linker scans the object files and determines the set of required primitives. Then, it builds a suitable runtime system, by calling the native code linker with:

  • the table of the required primitives;
  • a library that provides the bytecode interpreter, the memory manager, and the standard primitives;
  • libraries and object code files (.o files) mentioned on the command line for the OCaml linker, that provide implementations for the user’s primitives.

This builds a runtime system with the required primitives. The OCaml linker generates bytecode for this custom runtime system. The bytecode is appended to the end of the custom runtime system, so that it will be automatically executed when the output file (custom runtime + bytecode) is launched.

To link in “custom runtime” mode, execute the ocamlc command with:

  • the -custom option;
  • the names of the desired OCaml object files (.cmo and .cma files) ;
  • the names of the C object files and libraries (.o and .a files) that implement the required primitives. Under Unix and Windows, a library named libname.a (respectively, .lib) residing in one of the standard library directories can also be specified as -cclib -lname.

If you are using the native-code compiler ocamlopt, the -custom flag is not needed, as the final linking phase of ocamlopt always builds a standalone executable. To build a mixed OCaml/C executable, execute the ocamlopt command with:

  • the names of the desired OCaml native object files (.cmx and .cmxa files);
  • the names of the C object files and libraries (.o, .a, .so or .dll files) that implement the required primitives.

Starting with Objective Caml 3.00, it is possible to record the -custom option as well as the names of C libraries in an OCaml library file .cma or .cmxa. For instance, consider an OCaml library mylib.cma, built from the OCaml object files a.cmo and b.cmo, which reference C code in libmylib.a. If the library is built as follows: 

        ocamlc -a -o mylib.cma -custom a.cmo b.cmo -cclib -lmylib

users of the library can simply link with mylib.cma: 

        ocamlc -o myprog mylib.cma ...

and the system will automatically add the -custom and -cclib -lmylib options, achieving the same effect as 

        ocamlc -o myprog -custom a.cmo b.cmo ... -cclib -lmylib

The alternative, of course, is to build the library without extra options: 

        ocamlc -a -o mylib.cma a.cmo b.cmo

and then ask users to provide the -custom and -cclib -lmylib options themselves at link-time: 

        ocamlc -o myprog -custom mylib.cma ... -cclib -lmylib

The former alternative is more convenient for the final users of the library, however.

19.1.4  Dynamically linking C code with OCaml code

Starting with Objective Caml 3.03, an alternative to static linking of C code using the -custom code is provided. In this mode, the OCaml linker generates a pure bytecode executable (no embedded custom runtime system) that simply records the names of dynamically-loaded libraries containing the C code. The standard OCaml runtime system ocamlrun then loads dynamically these libraries, and resolves references to the required primitives, before executing the bytecode.

This facility is currently supported and known to work well under Linux, MacOS X, and Windows. It is supported, but not fully tested yet, under FreeBSD, Tru64, Solaris and Irix. It is not supported yet under other Unixes.

To dynamically link C code with OCaml code, the C code must first be compiled into a shared library (under Unix) or DLL (under Windows). This involves 1- compiling the C files with appropriate C compiler flags for producing position-independent code (when required by the operating system), and 2- building a shared library from the resulting object files. The resulting shared library or DLL file must be installed in a place where ocamlrun can find it later at program start-up time (see section 10.3). Finally (step 3), execute the ocamlc command with

  • the names of the desired OCaml object files (.cmo and .cma files) ;
  • the names of the C shared libraries (.so or .dll files) that implement the required primitives. Under Unix and Windows, a library named dllname.so (respectively, .dll) residing in one of the standard library directories can also be specified as -dllib -lname.

Do not set the -custom flag, otherwise you’re back to static linking as described in section 19.1.3. The ocamlmklib tool (see section 19.11) automates steps 2 and 3.

As in the case of static linking, it is possible (and recommended) to record the names of C libraries in an OCaml .cma library archive. Consider again an OCaml library mylib.cma, built from the OCaml object files a.cmo and b.cmo, which reference C code in dllmylib.so. If the library is built as follows: 

        ocamlc -a -o mylib.cma a.cmo b.cmo -dllib -lmylib

users of the library can simply link with mylib.cma: 

        ocamlc -o myprog mylib.cma ...

and the system will automatically add the -dllib -lmylib option, achieving the same effect as 

        ocamlc -o myprog a.cmo b.cmo ... -dllib -lmylib

Using this mechanism, users of the library mylib.cma do not need to known that it references C code, nor whether this C code must be statically linked (using -custom) or dynamically linked.

19.1.5  Choosing between static linking and dynamic linking

After having described two different ways of linking C code with OCaml code, we now review the pros and cons of each, to help developers of mixed OCaml/C libraries decide.

The main advantage of dynamic linking is that it preserves the platform-independence of bytecode executables. That is, the bytecode executable contains no machine code, and can therefore be compiled on platform A and executed on other platforms B, C, …, as long as the required shared libraries are available on all these platforms. In contrast, executables generated by ocamlc -custom run only on the platform on which they were created, because they embark a custom-tailored runtime system specific to that platform. In addition, dynamic linking results in smaller executables.

Another advantage of dynamic linking is that the final users of the library do not need to have a C compiler, C linker, and C runtime libraries installed on their machines. This is no big deal under Unix and Cygwin, but many Windows users are reluctant to install Microsoft Visual C just to be able to do ocamlc -custom.

There are two drawbacks to dynamic linking. The first is that the resulting executable is not stand-alone: it requires the shared libraries, as well as ocamlrun, to be installed on the machine executing the code. If you wish to distribute a stand-alone executable, it is better to link it statically, using ocamlc -custom -ccopt -static or ocamlopt -ccopt -static. Dynamic linking also raises the “DLL hell” problem: some care must be taken to ensure that the right versions of the shared libraries are found at start-up time.

The second drawback of dynamic linking is that it complicates the construction of the library. The C compiler and linker flags to compile to position-independent code and build a shared library vary wildly between different Unix systems. Also, dynamic linking is not supported on all Unix systems, requiring a fall-back case to static linking in the Makefile for the library. The ocamlmklib command (see section 19.11) tries to hide some of these system dependencies.

In conclusion: dynamic linking is highly recommended under the native Windows port, because there are no portability problems and it is much more convenient for the end users. Under Unix, dynamic linking should be considered for mature, frequently used libraries because it enhances platform-independence of bytecode executables. For new or rarely-used libraries, static linking is much simpler to set up in a portable way.

19.1.6  Building standalone custom runtime systems

It is sometimes inconvenient to build a custom runtime system each time OCaml code is linked with C libraries, like ocamlc -custom does. For one thing, the building of the runtime system is slow on some systems (that have bad linkers or slow remote file systems); for another thing, the platform-independence of bytecode files is lost, forcing to perform one ocamlc -custom link per platform of interest.

An alternative to ocamlc -custom is to build separately a custom runtime system integrating the desired C libraries, then generate “pure” bytecode executables (not containing their own runtime system) that can run on this custom runtime. This is achieved by the -make-runtime and -use-runtime flags to ocamlc. For example, to build a custom runtime system integrating the C parts of the “Unix” and “Threads” libraries, do: 

        ocamlc -make-runtime -o /home/me/ocamlunixrun unix.cma threads.cma

To generate a bytecode executable that runs on this runtime system, do: 

        ocamlc -use-runtime /home/me/ocamlunixrun -o myprog \
                unix.cma threads.cma your .cmo and .cma files

The bytecode executable myprog can then be launched as usual: myprog args or /home/me/ocamlunixrun myprog args.

Notice that the bytecode libraries unix.cma and threads.cma must be given twice: when building the runtime system (so that ocamlc knows which C primitives are required) and also when building the bytecode executable (so that the bytecode from unix.cma and threads.cma is actually linked in).

19.2  The value type

All OCaml objects are represented by the C type value, defined in the include file caml/mlvalues.h, along with macros to manipulate values of that type. An object of type value is either:

  • an unboxed integer;
  • a pointer to a block inside the heap (such as the blocks allocated through one of the caml_alloc_* functions below);
  • a pointer to an object outside the heap (e.g., a pointer to a block allocated by malloc, or to a C variable).

19.2.1  Integer values

Integer values encode 31-bit signed integers (63-bit on 64-bit architectures). They are unboxed (unallocated).

19.2.2  Blocks

Blocks in the heap are garbage-collected, and therefore have strict structure constraints. Each block includes a header containing the size of the block (in words), and the tag of the block. The tag governs how the contents of the blocks are structured. A tag lower than No_scan_tag indicates a structured block, containing well-formed values, which is recursively traversed by the garbage collector. A tag greater than or equal to No_scan_tag indicates a raw block, whose contents are not scanned by the garbage collector. For the benefit of ad-hoc polymorphic primitives such as equality and structured input-output, structured and raw blocks are further classified according to their tags as follows:

TagContents of the block
0 to No_scan_tag−1A structured block (an array of OCaml objects). Each field is a value.
Closure_tagA closure representing a functional value. The first word is a pointer to a piece of code, the remaining words are value containing the environment.
String_tagA character string.
Double_tagA double-precision floating-point number.
Double_array_tagAn array or record of double-precision floating-point numbers.
Abstract_tagA block representing an abstract datatype.
Custom_tagA block representing an abstract datatype with user-defined finalization, comparison, hashing, serialization and deserialization functions atttached.

19.2.3  Pointers outside the heap

Any word-aligned pointer to an address outside the heap can be safely cast to and from the type value. This includes pointers returned by malloc, and pointers to C variables (of size at least one word) obtained with the & operator.

Caution: if a pointer returned by malloc is cast to the type value and returned to OCaml, explicit deallocation of the pointer using free is potentially dangerous, because the pointer may still be accessible from the OCaml world. Worse, the memory space deallocated by free can later be reallocated as part of the OCaml heap; the pointer, formerly pointing outside the OCaml heap, now points inside the OCaml heap, and this can confuse the garbage collector. To avoid these problems, it is preferable to wrap the pointer in a OCaml block with tag Abstract_tag or Custom_tag.

19.3  Representation of OCaml data types

This section describes how OCaml data types are encoded in the value type.

19.3.1  Atomic types

OCaml typeEncoding
intUnboxed integer values.
charUnboxed integer values (ASCII code).
floatBlocks with tag Double_tag.
stringBlocks with tag String_tag.
int32Blocks with tag Custom_tag.
int64Blocks with tag Custom_tag.
nativeintBlocks with tag Custom_tag.

19.3.2  Tuples and records

Tuples are represented by pointers to blocks, with tag 0.

Records are also represented by zero-tagged blocks. The ordering of labels in the record type declaration determines the layout of the record fields: the value associated to the label declared first is stored in field 0 of the block, the value associated to the label declared next goes in field 1, and so on.

As an optimization, records whose fields all have static type float are represented as arrays of floating-point numbers, with tag Double_array_tag. (See the section below on arrays.)

19.3.3  Arrays

Arrays of integers and pointers are represented like tuples, that is, as pointers to blocks tagged 0. They are accessed with the Field macro for reading and the caml_modify function for writing.

Arrays of floating-point numbers (type float array) have a special, unboxed, more efficient representation. These arrays are represented by pointers to blocks with tag Double_array_tag. They should be accessed with the Double_field and Store_double_field macros.

19.3.4  Concrete data types

Constructed terms are represented either by unboxed integers (for constant constructors) or by blocks whose tag encode the constructor (for non-constant constructors). The constant constructors and the non-constant constructors for a given concrete type are numbered separately, starting from 0, in the order in which they appear in the concrete type declaration. Constant constructors are represented by unboxed integers equal to the constructor number. A non-constant constructors declared with n arguments is represented by a block of size n, tagged with the constructor number; the n fields contain its arguments. Example:

Constructed termRepresentation
()Val_int(0)
falseVal_int(0)
trueVal_int(1)
[]Val_int(0)
h::tBlock with size = 2 and tag = 0; first field contains h, second field t.

As a convenience, caml/mlvalues.h defines the macros Val_unit, Val_false and Val_true to refer to (), false and true.

The following artificial example illustrates the assignment of integers and block tags to constructors: 

type t =
  | A             (* First constant constructor -> integer "Val_int(0)" *)
  | B of string   (* First non-constant constructor -> block with tag 0 *)
  | C             (* Second constant constructor -> integer "Val_int(1)" *)
  | D of bool     (* Second non-constant constructor -> block with tag 1 *)
  | E of t * t    (* Third non-constant constructor -> block with tag 2 *)

19.3.5  Objects

Objects are represented as blocks with tag Object_tag. The first field of the block refers to the object class and associated method suite, in a format that cannot easily be exploited from C. The second field contains a unique object ID, used for comparisons. The remaining fields of the object contain the values of the instance variables of the object. It is unsafe to access directly instance variables, as the type system provides no guaranteee about the instance variables contained by an object.

One may extract a public method from an object using the C function caml_get_public_method (declared in <caml/mlvalues.h>.) Since public method tags are hashed in the same way as variant tags, and methods are functions taking self as first argument, if you want to do the method call foo#bar from the C side, you should call: 

  callback(caml_get_public_method(foo, hash_variant("bar")), foo);

19.3.6  Polymorphic variants

Like constructed terms, polymorphic variant values are represented either as integers (for polymorphic variants without arguments), or as blocks (for polymorphic variants with an argument). Unlike constructed terms, variant constructors are not numbered starting from 0, but identified by a hash value (an OCaml integer), as computed by the C function hash_variant (declared in <caml/mlvalues.h>): the hash value for a variant constructor named, say, VConstr is hash_variant("VConstr").

The variant value `VConstr is represented by hash_variant("VConstr"). The variant value `VConstr(v) is represented by a block of size 2 and tag 0, with field number 0 containing hash_variant("VConstr") and field number 1 containing v.

Unlike constructed values, polymorphic variant values taking several arguments are not flattened. That is, `VConstr(v, w) is represented by a block of size 2, whose field number 1 contains the representation of the pair (v, w), rather than a block of size 3 containing v and w in fields 1 and 2.

19.4  Operations on values

19.4.1  Kind tests

  • Is_long(v) is true if value v is an immediate integer, false otherwise
  • Is_block(v) is true if value v is a pointer to a block, and false if it is an immediate integer.

19.4.2  Operations on integers

  • Val_long(l) returns the value encoding the long int l.
  • Long_val(v) returns the long int encoded in value v.
  • Val_int(i) returns the value encoding the int i.
  • Int_val(v) returns the int encoded in value v.
  • Val_bool(x) returns the OCaml boolean representing the truth value of the C integer x.
  • Bool_val(v) returns 0 if v is the OCaml boolean false, 1 if v is true.
  • Val_true, Val_false represent the OCaml booleans true and false.

19.4.3  Accessing blocks

  • Wosize_val(v) returns the size of the block v, in words, excluding the header.
  • Tag_val(v) returns the tag of the block v.
  • Field(v, n) returns the value contained in the nth field of the structured block v. Fields are numbered from 0 to Wosize_val(v)−1.
  • Store_field(b, n, v) stores the value v in the field number n of value b, which must be a structured block.
  • Code_val(v) returns the code part of the closure v.
  • caml_string_length(v) returns the length (number of bytes) of the string v.
  • Byte(v, n) returns the nth byte of the string v, with type char. Characters are numbered from 0 to string_length(v)−1.
  • Byte_u(v, n) returns the nth byte of the string v, with type unsigned char. Characters are numbered from 0 to string_length(v)−1.
  • String_val(v) returns a pointer to the first byte of the string v, with type char *. This pointer is a valid C string: there is a null byte after the last byte in the string. However, OCaml strings can contain embedded null bytes, which will confuse the usual C functions over strings.
  • Double_val(v) returns the floating-point number contained in value v, with type double.
  • Double_field(v, n) returns the nth element of the array of floating-point numbers v (a block tagged Double_array_tag).
  • Store_double_field(v, n, d) stores the double precision floating-point number d in the nth element of the array of floating-point numbers v.
  • Data_custom_val(v) returns a pointer to the data part of the custom block v. This pointer has type void * and must be cast to the type of the data contained in the custom block.
  • Int32_val(v) returns the 32-bit integer contained in the int32 v.
  • Int64_val(v) returns the 64-bit integer contained in the int64 v.
  • Nativeint_val(v) returns the long integer contained in the nativeint v.

The expressions Field(v, n), Byte(v, n) and Byte_u(v, n) are valid l-values. Hence, they can be assigned to, resulting in an in-place modification of value v. Assigning directly to Field(v, n) must be done with care to avoid confusing the garbage collector (see below).

19.4.4  Allocating blocks

Simple interface

  • Atom(t) returns an “atom” (zero-sized block) with tag t. Zero-sized blocks are preallocated outside of the heap. It is incorrect to try and allocate a zero-sized block using the functions below. For instance, Atom(0) represents the empty array.
  • caml_alloc(n, t) returns a fresh block of size n with tag t. If t is less than No_scan_tag, then the fields of the block are initialized with a valid value in order to satisfy the GC constraints.
  • caml_alloc_tuple(n) returns a fresh block of size n words, with tag 0.
  • caml_alloc_string(n) returns a string value of length n bytes. The string initially contains garbage.
  • caml_copy_string(s) returns a string value containing a copy of the null-terminated C string s (a char *).
  • caml_copy_double(d) returns a floating-point value initialized with the double d.
  • caml_copy_int32(i), caml_copy_int64(i) and caml_copy_nativeint(i) return a value of OCaml type int32, int64 and nativeint, respectively, initialized with the integer i.
  • caml_alloc_array(f, a) allocates an array of values, calling function f over each element of the input array a to transform it into a value. The array a is an array of pointers terminated by the null pointer. The function f receives each pointer as argument, and returns a value. The zero-tagged block returned by alloc_array(f, a) is filled with the values returned by the successive calls to f. (This function must not be used to build an array of floating-point numbers.)
  • caml_copy_string_array(p) allocates an array of strings, copied from the pointer to a string array p (a char **). p must be NULL-terminated.

Low-level interface

The following functions are slightly more efficient than caml_alloc, but also much more difficult to use.

From the standpoint of the allocation functions, blocks are divided according to their size as zero-sized blocks, small blocks (with size less than or equal to Max_young_wosize), and large blocks (with size greater than Max_young_wosize). The constant Max_young_wosize is declared in the include file mlvalues.h. It is guaranteed to be at least 64 (words), so that any block with constant size less than or equal to 64 can be assumed to be small. For blocks whose size is computed at run-time, the size must be compared against Max_young_wosize to determine the correct allocation procedure.

  • caml_alloc_small(n, t) returns a fresh small block of size nMax_young_wosize words, with tag t. If this block is a structured block (i.e. if t < No_scan_tag), then the fields of the block (initially containing garbage) must be initialized with legal values (using direct assignment to the fields of the block) before the next allocation.
  • caml_alloc_shr(n, t) returns a fresh block of size n, with tag t. The size of the block can be greater than Max_young_wosize. (It can also be smaller, but in this case it is more efficient to call caml_alloc_small instead of caml_alloc_shr.) If this block is a structured block (i.e. if t < No_scan_tag), then the fields of the block (initially containing garbage) must be initialized with legal values (using the caml_initialize function described below) before the next allocation.

19.4.5  Raising exceptions

Two functions are provided to raise two standard exceptions:

  • caml_failwith(s), where s is a null-terminated C string (with type char *), raises exception Failure with argument s.
  • caml_invalid_argument(s), where s is a null-terminated C string (with type char *), raises exception Invalid_argument with argument s.

Raising arbitrary exceptions from C is more delicate: the exception identifier is dynamically allocated by the OCaml program, and therefore must be communicated to the C function using the registration facility described below in section 19.7.3. Once the exception identifier is recovered in C, the following functions actually raise the exception:

  • caml_raise_constant(id) raises the exception id with no argument;
  • caml_raise_with_arg(id, v) raises the exception id with the OCaml value v as argument;
  • caml_raise_with_args(id, n, v) raises the exception id with the OCaml values v[0], …, v[n-1] as arguments;
  • caml_raise_with_string(id, s), where s is a null-terminated C string, raises the exception id with a copy of the C string s as argument.

19.5  Living in harmony with the garbage collector

Unused blocks in the heap are automatically reclaimed by the garbage collector. This requires some cooperation from C code that manipulates heap-allocated blocks.

19.5.1  Simple interface

All the macros described in this section are declared in the memory.h header file.

Rule 1   A function that has parameters or local variables of type value must begin with a call to one of the CAMLparam macros and return with CAMLreturn, CAMLreturn0, or CAMLreturnT.

There are six CAMLparam macros: CAMLparam0 to CAMLparam5, which take zero to five arguments respectively. If your function has fewer than 5 parameters of type value, use the corresponding macros with these parameters as arguments. If your function has more than 5 parameters of type value, use CAMLparam5 with five of these parameters, and use one or more calls to the CAMLxparam macros for the remaining parameters (CAMLxparam1 to CAMLxparam5).

The macros CAMLreturn, CAMLreturn0, and CAMLreturnT are used to replace the C keyword return. Every occurence of return x must be replaced by CAMLreturn (x) if x has type value, or CAMLreturnT (t, x) (where t is the type of x); every occurence of return without argument must be replaced by CAMLreturn0. If your C function is a procedure (i.e. if it returns void), you must insert CAMLreturn0 at the end (to replace C’s implicit return).

Note:

some C compilers give bogus warnings about unused variables caml__dummy_xxx at each use of CAMLparam and CAMLlocal. You should ignore them.


Example: 

void foo (value v1, value v2, value v3)
{
  CAMLparam3 (v1, v2, v3);
  ...
  CAMLreturn0;
}
Note:

if your function is a primitive with more than 5 arguments for use with the byte-code runtime, its arguments are not values and must not be declared (they have types value * and int).

Rule 2   Local variables of type value must be declared with one of the CAMLlocal macros. Arrays of values are declared with CAMLlocalN. These macros must be used at the beginning of the function, not in a nested block.

The macros CAMLlocal1 to CAMLlocal5 declare and initialize one to five local variables of type value. The variable names are given as arguments to the macros. CAMLlocalN(x, n) declares and initializes a local variable of type value [n]. You can use several calls to these macros if you have more than 5 local variables.

Example: 

value bar (value v1, value v2, value v3)
{
  CAMLparam3 (v1, v2, v3);
  CAMLlocal1 (result);
  result = caml_alloc (3, 0);
  ...
  CAMLreturn (result);
}
Rule 3   Assignments to the fields of structured blocks must be done with the Store_field macro (for normal blocks) or Store_double_field macro (for arrays and records of floating-point numbers). Other assignments must not use Store_field nor Store_double_field.

Store_field (b, n, v) stores the value v in the field number n of value b, which must be a block (i.e. Is_block(b) must be true).

Example: 

value bar (value v1, value v2, value v3)
{
  CAMLparam3 (v1, v2, v3);
  CAMLlocal1 (result);
  result = caml_alloc (3, 0);
  Store_field (result, 0, v1);
  Store_field (result, 1, v2);
  Store_field (result, 2, v3);
  CAMLreturn (result);
}
Warning:

The first argument of Store_field and Store_double_field must be a variable declared by CAMLparam* or a parameter declared by CAMLlocal* to ensure that a garbage collection triggered by the evaluation of the other arguments will not invalidate the first argument after it is computed.

Rule 4   Global variables containing values must be registered with the garbage collector using the caml_register_global_root function.

Registration of a global variable v is achieved by calling caml_register_global_root(&v) just before or just after a valid value is stored in v for the first time. You must not call any of the OCaml runtime functions or macros between registering and storing the value.

A registered global variable v can be un-registered by calling caml_remove_global_root(&v).

If the contents of the global variable v are seldom modified after registration, better performance can be achieved by calling caml_register_generational_global_root(&v) to register v (after its initialization with a valid value, but before any allocation or call to the GC functions), and caml_remove_generational_global_root(&v) to un-register it. In this case, you must not modify the value of v directly, but you must use caml_modify_generational_global_root(&v,x) to set it to x. The garbage collector takes advantage of the guarantee that v is not modified between calls to caml_modify_generational_global_root to scan it less often. This improves performance if the modifications of v happen less often than minor collections.

Note:

The CAML macros use identifiers (local variables, type identifiers, structure tags) that start with caml__. Do not use any identifier starting with caml__ in your programs.

19.5.2  Low-level interface

We now give the GC rules corresponding to the low-level allocation functions caml_alloc_small and caml_alloc_shr. You can ignore those rules if you stick to the simplified allocation function caml_alloc.

Rule 5   After a structured block (a block with tag less than No_scan_tag) is allocated with the low-level functions, all fields of this block must be filled with well-formed values before the next allocation operation. If the block has been allocated with caml_alloc_small, filling is performed by direct assignment to the fields of the block: 

        Field(v, n) = vn;
If the block has been allocated with caml_alloc_shr, filling is performed through the caml_initialize function: 

        caml_initialize(&Field(v, n), vn);

The next allocation can trigger a garbage collection. The garbage collector assumes that all structured blocks contain well-formed values. Newly created blocks contain random data, which generally do not represent well-formed values.

If you really need to allocate before the fields can receive their final value, first initialize with a constant value (e.g. Val_unit), then allocate, then modify the fields with the correct value (see rule 6).

Rule 6   Direct assignment to a field of a block, as in 

        Field(v, n) = w;
is safe only if v is a block newly allocated by caml_alloc_small; that is, if no allocation took place between the allocation of v and the assignment to the field. In all other cases, never assign directly. If the block has just been allocated by caml_alloc_shr, use caml_initialize to assign a value to a field for the first time: 

        caml_initialize(&Field(v, n), w);
Otherwise, you are updating a field that previously contained a well-formed value; then, call the caml_modify function: 

        caml_modify(&Field(v, n), w);

To illustrate the rules above, here is a C function that builds and returns a list containing the two integers given as parameters. First, we write it using the simplified allocation functions: 

value alloc_list_int(int i1, int i2)
{
  CAMLparam0 ();
  CAMLlocal2 (result, r);

  r = caml_alloc(2, 0);                   /* Allocate a cons cell */
  Store_field(r, 0, Val_int(i2));         /* car = the integer i2 */
  Store_field(r, 1, Val_int(0));          /* cdr = the empty list [] */
  result = caml_alloc(2, 0);              /* Allocate the other cons cell */
  Store_field(result, 0, Val_int(i1));    /* car = the integer i1 */
  Store_field(result, 1, r);              /* cdr = the first cons cell */
  CAMLreturn (result);
}

Here, the registering of result is not strictly needed, because no allocation takes place after it gets its value, but it’s easier and safer to simply register all the local variables that have type value.

Here is the same function written using the low-level allocation functions. We notice that the cons cells are small blocks and can be allocated with caml_alloc_small, and filled by direct assignments on their fields. 

value alloc_list_int(int i1, int i2)
{
  CAMLparam0 ();
  CAMLlocal2 (result, r);

  r = caml_alloc_small(2, 0);             /* Allocate a cons cell */
  Field(r, 0) = Val_int(i2);              /* car = the integer i2 */
  Field(r, 1) = Val_int(0);               /* cdr = the empty list [] */
  result = caml_alloc_small(2, 0);        /* Allocate the other cons cell */
  Field(result, 0) = Val_int(i1);         /* car = the integer i1 */
  Field(result, 1) = r;                   /* cdr = the first cons cell */
  CAMLreturn (result);
}

In the two examples above, the list is built bottom-up. Here is an alternate way, that proceeds top-down. It is less efficient, but illustrates the use of caml_modify. 

value alloc_list_int(int i1, int i2)
{
  CAMLparam0 ();
  CAMLlocal2 (tail, r);

  r = caml_alloc_small(2, 0);             /* Allocate a cons cell */
  Field(r, 0) = Val_int(i1);              /* car = the integer i1 */
  Field(r, 1) = Val_int(0);               /* A dummy value
  tail = caml_alloc_small(2, 0);          /* Allocate the other cons cell */
  Field(tail, 0) = Val_int(i2);           /* car = the integer i2 */
  Field(tail, 1) = Val_int(0);            /* cdr = the empty list [] */
  caml_modify(&Field(r, 1), tail);        /* cdr of the result = tail */
  CAMLreturn (r);
}

It would be incorrect to perform Field(r, 1) = tail directly, because the allocation of tail has taken place since r was allocated.

19.6  A complete example

This section outlines how the functions from the Unix curses library can be made available to OCaml programs. First of all, here is the interface curses.mli that declares the curses primitives and data types: 

type window                   (* The type "window" remains abstract *)
external initscr: unit -> window = "curses_initscr"
external endwin: unit -> unit = "curses_endwin"
external refresh: unit -> unit = "curses_refresh"
external wrefresh : window -> unit = "curses_wrefresh"
external newwin: int -> int -> int -> int -> window = "curses_newwin"
external addch: char -> unit = "curses_addch"
external mvwaddch: window -> int -> int -> char -> unit = "curses_mvwaddch"
external addstr: string -> unit = "curses_addstr"
external mvwaddstr: window -> int -> int -> string -> unit = "curses_mvwaddstr"
(* lots more omitted *)

To compile this interface: 

        ocamlc -c curses.mli

To implement these functions, we just have to provide the stub code; the core functions are already implemented in the curses library. The stub code file, curses_stubs.c, looks like this: 

#include <curses.h>
#include <caml/mlvalues.h>
#include <caml/memory.h>
#include <caml/alloc.h>
#include <caml/custom.h>

/* Encapsulation of opaque window handles (of type WINDOW *)
   as OCaml custom blocks. */

static struct custom_operations curses_window_ops = {
  "fr.inria.caml.curses_windows",
  custom_finalize_default,
  custom_compare_default,
  custom_hash_default,
  custom_serialize_default,
  custom_deserialize_default
};

/* Accessing the WINDOW * part of an OCaml custom block */
#define Window_val(v) (*((WINDOW **) Data_custom_val(v)))

/* Allocating an OCaml custom block to hold the given WINDOW * */
static value alloc_window(WINDOW * w)
{
  value v = alloc_custom(&curses_window_ops, sizeof(WINDOW *), 0, 1);
  Window_val(v) = w;
  return v;
}

value caml_curses_initscr(value unit)
{
  CAMLparam1 (unit);
  CAMLreturn (alloc_window(initscr()));
}

value caml_curses_endwin(value unit)
{
  CAMLparam1 (unit);
  endwin();
  CAMLreturn (Val_unit);
}

value caml_curses_refresh(value unit)
{
  CAMLparam1 (unit);
  refresh();
  CAMLreturn (Val_unit);
}

value caml_curses_wrefresh(value win)
{
  CAMLparam1 (win);
  wrefresh(Window_val(win));
  CAMLreturn (Val_unit);
}

value caml_curses_newwin(value nlines, value ncols, value x0, value y0)
{
  CAMLparam4 (nlines, ncols, x0, y0);
  CAMLreturn (alloc_window(newwin(Int_val(nlines), Int_val(ncols),
                                  Int_val(x0), Int_val(y0))));
}

value caml_curses_addch(value c)
{
  CAMLparam1 (c);
  addch(Int_val(c));            /* Characters are encoded like integers */
  CAMLreturn (Val_unit);
}

value caml_curses_mvwaddch(value win, value x, value y, value c)
{
  CAMLparam4 (win, x, y, c);
  mvwaddch(Window_val(win), Int_val(x), Int_val(y), Int_val(c));
  CAMLreturn (Val_unit);
}

value caml_curses_addstr(value s)
{
  CAMLparam1 (s);
  addstr(String_val(s));
  CAMLreturn (Val_unit);
}

value caml_curses_mvwaddstr(value win, value x, value y, value s)
{
  CAMLparam4 (win, x, y, s);
  mvwaddstr(Window_val(win), Int_val(x), Int_val(y), String_val(s));
  CAMLreturn (Val_unit);
}

/* This goes on for pages. */

The file curses_stubs.c can be compiled with: 

        cc -c -I`ocamlc -where` curses.c

or, even simpler, 

        ocamlc -c curses.c

(When passed a .c file, the ocamlc command simply calls the C compiler on that file, with the right -I option.)

Now, here is a sample OCaml program test.ml that uses the curses module: 

open Curses
let main_window = initscr () in
let small_window = newwin 10 5 20 10 in
  mvwaddstr main_window 10 2 "Hello";
  mvwaddstr small_window 4 3 "world";
  refresh();
  Unix.sleep 5;
  endwin()

To compile and link this program, run: 

        ocamlc -custom -o test unix.cma test.ml curses_stubs.o -cclib -lcurses

(On some machines, you may need to put -cclib -lcurses -cclib -ltermcap or -cclib -ltermcap instead of -cclib -lcurses.)

19.7  Advanced topic: callbacks from C to OCaml

So far, we have described how to call C functions from OCaml. In this section, we show how C functions can call OCaml functions, either as callbacks (OCaml calls C which calls OCaml), or because the main program is written in C.

19.7.1  Applying OCaml closures from C

C functions can apply OCaml function values (closures) to OCaml values. The following functions are provided to perform the applications:

  • caml_callback(f, a) applies the functional value f to the value a and returns the value returned by f.
  • caml_callback2(f, a, b) applies the functional value f (which is assumed to be a curried OCaml function with two arguments) to a and b.
  • caml_callback3(f, a, b, c) applies the functional value f (a curried OCaml function with three arguments) to a, b and c.
  • caml_callbackN(f, n, args) applies the functional value f to the n arguments contained in the array of values args.

If the function f does not return, but raises an exception that escapes the scope of the application, then this exception is propagated to the next enclosing OCaml code, skipping over the C code. That is, if an OCaml function f calls a C function g that calls back an OCaml function h that raises a stray exception, then the execution of g is interrupted and the exception is propagated back into f.

If the C code wishes to catch exceptions escaping the OCaml function, it can use the functions caml_callback_exn, caml_callback2_exn, caml_callback3_exn, caml_callbackN_exn. These functions take the same arguments as their non-_exn counterparts, but catch escaping exceptions and return them to the C code. The return value v of the caml_callback*_exn functions must be tested with the macro Is_exception_result(v). If the macro returns “false”, no exception occured, and v is the value returned by the OCaml function. If Is_exception_result(v) returns “true”, an exception escaped, and its value (the exception descriptor) can be recovered using Extract_exception(v).

Warning:

If the OCaml function returned with an exception, Extract_exception should be applied to the exception result prior to calling a function that may trigger garbage collection. Otherwise, if v is reachable during garbage collection, the runtime can crash since v does not contain a valid value.

Example: 

    value call_caml_f_ex(value closure, value arg)
    {
      CAMLparam2(closure, arg);
      CAMLlocal2(res, tmp);
      res = caml_callback_exn(closure, arg);
      if(Is_exception_result(res)) {
        res = Extract_exception(res);
        tmp = caml_alloc(3, 0); /* Safe to allocate: res contains valid value. */
        ...
      }
      CAMLreturn (res);
    }

19.7.2  Obtaining or registering OCaml closures for use in C functions

There are two ways to obtain OCaml function values (closures) to be passed to the callback functions described above. One way is to pass the OCaml function as an argument to a primitive function. For example, if the OCaml code contains the declaration 

    external apply : ('a -> 'b) -> 'a -> 'b = "caml_apply"

the corresponding C stub can be written as follows: 

    CAMLprim value caml_apply(value vf, value vx)
    {
      CAMLparam2(vf, vx);
      CAMLlocal1(vy);
      vy = caml_callback(vf, vx);
      CAMLreturn(vy);
    }

Another possibility is to use the registration mechanism provided by OCaml. This registration mechanism enables OCaml code to register OCaml functions under some global name, and C code to retrieve the corresponding closure by this global name.

On the OCaml side, registration is performed by evaluating Callback.register n v. Here, n is the global name (an arbitrary string) and v the OCaml value. For instance: 

    let f x = print_string "f is applied to "; print_int x; print_newline()
    let _ = Callback.register "test function" f

On the C side, a pointer to the value registered under name n is obtained by calling caml_named_value(n). The returned pointer must then be dereferenced to recover the actual OCaml value. If no value is registered under the name n, the null pointer is returned. For example, here is a C wrapper that calls the OCaml function f above: 

    void call_caml_f(int arg)
    {
        caml_callback(*caml_named_value("test function"), Val_int(arg));
    }

The pointer returned by caml_named_value is constant and can safely be cached in a C variable to avoid repeated name lookups. On the other hand, the value pointed to can change during garbage collection and must always be recomputed at the point of use. Here is a more efficient variant of call_caml_f above that calls caml_named_value only once: 

    void call_caml_f(int arg)
    {
        static value * closure_f = NULL;
        if (closure_f == NULL) {
            /* First time around, look up by name */
            closure_f = caml_named_value("test function");
        }
        caml_callback(*closure_f, Val_int(arg));
    }

19.7.3  Registering OCaml exceptions for use in C functions

The registration mechanism described above can also be used to communicate exception identifiers from OCaml to C. The OCaml code registers the exception by evaluating Callback.register_exception n exn, where n is an arbitrary name and exn is an exception value of the exception to register. For example: 

    exception Error of string
    let _ = Callback.register_exception "test exception" (Error "any string")

The C code can then recover the exception identifier using caml_named_value and pass it as first argument to the functions raise_constant, raise_with_arg, and raise_with_string (described in section 19.4.5) to actually raise the exception. For example, here is a C function that raises the Error exception with the given argument: 

    void raise_error(char * msg)
    {
        caml_raise_with_string(*caml_named_value("test exception"), msg);
    }

19.7.4  Main program in C

In normal operation, a mixed OCaml/C program starts by executing the OCaml initialization code, which then may proceed to call C functions. We say that the main program is the OCaml code. In some applications, it is desirable that the C code plays the role of the main program, calling OCaml functions when needed. This can be achieved as follows:

  • The C part of the program must provide a main function, which will override the default main function provided by the OCaml runtime system. Execution will start in the user-defined main function just like for a regular C program.
  • At some point, the C code must call caml_main(argv) to initialize the OCaml code. The argv argument is a C array of strings (type char **), terminated with a NULL pointer, which represents the command-line arguments, as passed as second argument to main. The OCaml array Sys.argv will be initialized from this parameter. For the bytecode compiler, argv[0] and argv[1] are also consulted to find the file containing the bytecode.
  • The call to caml_main initializes the OCaml runtime system, loads the bytecode (in the case of the bytecode compiler), and executes the initialization code of the OCaml program. Typically, this initialization code registers callback functions using Callback.register. Once the OCaml initialization code is complete, control returns to the C code that called caml_main.
  • The C code can then invoke OCaml functions using the callback mechanism (see section 19.7.1).

19.7.5  Embedding the OCaml code in the C code

The bytecode compiler in custom runtime mode (ocamlc -custom) normally appends the bytecode to the executable file containing the custom runtime. This has two consequences. First, the final linking step must be performed by ocamlc. Second, the OCaml runtime library must be able to find the name of the executable file from the command-line arguments. When using caml_main(argv) as in section 19.7.4, this means that argv[0] or argv[1] must contain the executable file name.

An alternative is to embed the bytecode in the C code. The -output-obj option to ocamlc is provided for this purpose. It causes the ocamlc compiler to output a C object file (.o file, .obj under Windows) containing the bytecode for the OCaml part of the program, as well as a caml_startup function. The C object file produced by ocamlc -output-obj can then be linked with C code using the standard C compiler, or stored in a C library.

The caml_startup function must be called from the main C program in order to initialize the OCaml runtime and execute the OCaml initialization code. Just like caml_main, it takes one argv parameter containing the command-line parameters. Unlike caml_main, this argv parameter is used only to initialize Sys.argv, but not for finding the name of the executable file.

The -output-obj option can also be used to obtain the C source file. More interestingly, the same option can also produce directly a shared library (.so file, .dll under Windows) that contains the OCaml code, the OCaml runtime system and any other static C code given to ocamlc (.o, .a, respectively, .obj, .lib). This use of -output-obj is very similar to a normal linking step, but instead of producing a main program that automatically runs the OCaml code, it produces a shared library that can run the OCaml code on demand. The three possible behaviors of -output-obj are selected according to the extension of the resulting file (given with -o).

The native-code compiler ocamlopt also supports the -output-obj option, causing it to output a C object file or a shared library containing the native code for all OCaml modules on the command-line, as well as the OCaml startup code. Initialization is performed by calling caml_startup as in the case of the bytecode compiler.

For the final linking phase, in addition to the object file produced by -output-obj, you will have to provide the OCaml runtime library (libcamlrun.a for bytecode, libasmrun.a for native-code), as well as all C libraries that are required by the OCaml libraries used. For instance, assume the OCaml part of your program uses the Unix library. With ocamlc, you should do: 

        ocamlc -output-obj -o camlcode.o unix.cma other .cmo and .cma files
        cc -o myprog C objects and libraries \
           camlcode.o -L/usr/local/lib/ocaml -lunix -lcamlrun

With ocamlopt, you should do: 

        ocamlopt -output-obj -o camlcode.o unix.cmxa other .cmx and .cmxa files
        cc -o myprog C objects and libraries \
           camlcode.o -L/usr/local/lib/ocaml -lunix -lasmrun
Warning:

On some ports, special options are required on the final linking phase that links together the object file produced by the -output-obj option and the remainder of the program. Those options are shown in the configuration file config/Makefile generated during compilation of OCaml, as the variables BYTECCLINKOPTS (for object files produced by ocamlc -output-obj) and NATIVECCLINKOPTS (for object files produced by ocamlopt -output-obj).

  • Windows with the MSVC compiler: the object file produced by OCaml have been compiled with the /MD flag, and therefore all other object files linked with it should also be compiled with /MD.
  • other systems: you may have to add one or more of -lcurses, -lm, -ldl, depending on your OS and C compiler.
Stack backtraces.

When OCaml bytecode produced by ocamlc -g is embedded in a C program, no debugging information is included, and therefore it is impossible to print stack backtraces on uncaught exceptions. This is not the case when native code produced by ocamlopt -g is embedded in a C program: stack backtrace information is available, but the backtrace mechanism needs to be turned on programmatically. This can be achieved from the OCaml side by calling Printexc.record_backtrace true in the initialization of one of the OCaml modules. This can also be achieved from the C side by calling caml_record_backtrace(Val_int(1)); in the OCaml-C glue code.

19.8  Advanced example with callbacks

This section illustrates the callback facilities described in section 19.7. We are going to package some OCaml functions in such a way that they can be linked with C code and called from C just like any C functions. The OCaml functions are defined in the following mod.ml OCaml source:

(* File mod.ml -- some "useful" OCaml functions *)

let rec fib n = if n < 2 then 1 else fib(n-1) + fib(n-2)

let format_result n = Printf.sprintf "Result is: %d\n" n

(* Export those two functions to C *)

let _ = Callback.register "fib" fib
let _ = Callback.register "format_result" format_result

Here is the C stub code for calling these functions from C:

/* File modwrap.c -- wrappers around the OCaml functions */

#include <stdio.h>
#include <string.h>
#include <caml/mlvalues.h>
#include <caml/callback.h>

int fib(int n)
{
  static value * fib_closure = NULL;
  if (fib_closure == NULL) fib_closure = caml_named_value("fib");
  return Int_val(caml_callback(*fib_closure, Val_int(n)));
}

char * format_result(int n)
{
  static value * format_result_closure = NULL;
  if (format_result_closure == NULL)
    format_result_closure = caml_named_value("format_result");
  return strdup(String_val(caml_callback(*format_result_closure, Val_int(n))));
  /* We copy the C string returned by String_val to the C heap
     so that it remains valid after garbage collection. */
}

We now compile the OCaml code to a C object file and put it in a C library along with the stub code in modwrap.c and the OCaml runtime system: 

        ocamlc -custom -output-obj -o modcaml.o mod.ml
        ocamlc -c modwrap.c
        cp /usr/local/lib/ocaml/libcamlrun.a mod.a
        ar r mod.a modcaml.o modwrap.o

(One can also use ocamlopt -output-obj instead of ocamlc -custom -output-obj. In this case, replace libcamlrun.a (the bytecode runtime library) by libasmrun.a (the native-code runtime library).)

Now, we can use the two functions fib and format_result in any C program, just like regular C functions. Just remember to call caml_startup once before.

/* File main.c -- a sample client for the OCaml functions */

#include <stdio.h>

int main(int argc, char ** argv)
{
  int result;

  /* Initialize OCaml code */
  caml_startup(argv);
  /* Do some computation */
  result = fib(10);
  printf("fib(10) = %s\n", format_result(result));
  return 0;
}

To build the whole program, just invoke the C compiler as follows: 

        cc -o prog main.c mod.a -lcurses

(On some machines, you may need to put -ltermcap or -lcurses -ltermcap instead of -lcurses.)

19.9  Advanced topic: custom blocks

Blocks with tag Custom_tag contain both arbitrary user data and a pointer to a C struct, with type struct custom_operations, that associates user-provided finalization, comparison, hashing, serialization and deserialization functions to this block.

19.9.1  The struct custom_operations

The struct custom_operations is defined in <caml/custom.h> and contains the following fields:

  • char *identifier
    A zero-terminated character string serving as an identifier for serialization and deserialization operations.
  • void (*finalize)(value v)
    The finalize field contains a pointer to a C function that is called when the block becomes unreachable and is about to be reclaimed. The block is passed as first argument to the function. The finalize field can also be custom_finalize_default to indicate that no finalization function is associated with the block.
  • int (*compare)(value v1, value v2)
    The compare field contains a pointer to a C function that is called whenever two custom blocks are compared using OCaml’s generic comparison operators (=, <>, <=, >=, <, > and compare). The C function should return 0 if the data contained in the two blocks are structurally equal, a negative integer if the data from the first block is less than the data from the second block, and a positive integer if the data from the first block is greater than the data from the second block.

    The compare field can be set to custom_compare_default; this default comparison function simply raises Failure.

  • int (*compare_ext)(value v1, value v2)
    (Since 3.12.1) The compare_ext field contains a pointer to a C function that is called whenever one custom block and one unboxed integer are compared using OCaml’s generic comparison operators (=, <>, <=, >=, <, > and compare). As in the case of the compare field, the C function should return 0 if the two arguments are structurally equal, a negative integer if the first argument compares less than the second argument, and a positive integer if the first argument compares greater than the second argument.

    The compare_ext field can be set to custom_compare_ext_default; this default comparison function simply raises Failure.

  • long (*hash)(value v)
    The hash field contains a pointer to a C function that is called whenever OCaml’s generic hash operator (see module Hashtbl) is applied to a custom block. The C function can return an arbitrary long integer representing the hash value of the data contained in the given custom block. The hash value must be compatible with the compare function, in the sense that two structurally equal data (that is, two custom blocks for which compare returns 0) must have the same hash value.

    The hash field can be set to custom_hash_default, in which case the custom block is ignored during hash computation.

  • void (*serialize)(value v, unsigned long * wsize_32, unsigned long * wsize_64)
    The serialize field contains a pointer to a C function that is called whenever the custom block needs to be serialized (marshaled) using the OCaml functions output_value or Marshal.to_.... For a custom block, those functions first write the identifier of the block (as given by the identifier field) to the output stream, then call the user-provided serialize function. That function is responsible for writing the data contained in the custom block, using the serialize_... functions defined in <caml/intext.h> and listed below. The user-provided serialize function must then store in its wsize_32 and wsize_64 parameters the sizes in bytes of the data part of the custom block on a 32-bit architecture and on a 64-bit architecture, respectively.

    The serialize field can be set to custom_serialize_default, in which case the Failure exception is raised when attempting to serialize the custom block.

  • unsigned long (*deserialize)(void * dst)
    The deserialize field contains a pointer to a C function that is called whenever a custom block with identifier identifier needs to be deserialized (un-marshaled) using the OCaml functions input_value or Marshal.from_.... This user-provided function is responsible for reading back the data written by the serialize operation, using the deserialize_... functions defined in <caml/intext.h> and listed below. It must then rebuild the data part of the custom block and store it at the pointer given as the dst argument. Finally, it returns the size in bytes of the data part of the custom block. This size must be identical to the wsize_32 result of the serialize operation if the architecture is 32 bits, or wsize_64 if the architecture is 64 bits.

    The deserialize field can be set to custom_deserialize_default to indicate that deserialization is not supported. In this case, do not register the struct custom_operations with the deserializer using register_custom_operations (see below).

Note: the finalize, compare, hash, serialize and deserialize functions attached to custom block descriptors must never trigger a garbage collection. Within these functions, do not call any of the OCaml allocation functions, and do not perform a callback into OCaml code. Do not use CAMLparam to register the parameters to these functions, and do not use CAMLreturn to return the result.

19.9.2  Allocating custom blocks

Custom blocks must be allocated via the caml_alloc_custom function:

caml_alloc_custom(ops, size, used, max)

returns a fresh custom block, with room for size bytes of user data, and whose associated operations are given by ops (a pointer to a struct custom_operations, usually statically allocated as a C global variable).

The two parameters used and max are used to control the speed of garbage collection when the finalized object contains pointers to out-of-heap resources. Generally speaking, the OCaml incremental major collector adjusts its speed relative to the allocation rate of the program. The faster the program allocates, the harder the GC works in order to reclaim quickly unreachable blocks and avoid having large amount of “floating garbage” (unreferenced objects that the GC has not yet collected).

Normally, the allocation rate is measured by counting the in-heap size of allocated blocks. However, it often happens that finalized objects contain pointers to out-of-heap memory blocks and other resources (such as file descriptors, X Windows bitmaps, etc.). For those blocks, the in-heap size of blocks is not a good measure of the quantity of resources allocated by the program.

The two arguments used and max give the GC an idea of how much out-of-heap resources are consumed by the finalized block being allocated: you give the amount of resources allocated to this object as parameter used, and the maximum amount that you want to see in floating garbage as parameter max. The units are arbitrary: the GC cares only about the ratio used / max.

For instance, if you are allocating a finalized block holding an X Windows bitmap of w by h pixels, and you’d rather not have more than 1 mega-pixels of unreclaimed bitmaps, specify used = w * h and max = 1000000.

Another way to describe the effect of the used and max parameters is in terms of full GC cycles. If you allocate many custom blocks with used / max = 1 / N, the GC will then do one full cycle (examining every object in the heap and calling finalization functions on those that are unreachable) every N allocations. For instance, if used = 1 and max = 1000, the GC will do one full cycle at least every 1000 allocations of custom blocks.

If your finalized blocks contain no pointers to out-of-heap resources, or if the previous discussion made little sense to you, just take used = 0 and max = 1. But if you later find that the finalization functions are not called “often enough”, consider increasing the used / max ratio.

19.9.3  Accessing custom blocks

The data part of a custom block v can be accessed via the pointer Data_custom_val(v). This pointer has type void * and should be cast to the actual type of the data stored in the custom block.

The contents of custom blocks are not scanned by the garbage collector, and must therefore not contain any pointer inside the OCaml heap. In other terms, never store an OCaml value in a custom block, and do not use Field, Store_field nor caml_modify to access the data part of a custom block. Conversely, any C data structure (not containing heap pointers) can be stored in a custom block.

19.9.4  Writing custom serialization and deserialization functions

The following functions, defined in <caml/intext.h>, are provided to write and read back the contents of custom blocks in a portable way. Those functions handle endianness conversions when e.g. data is written on a little-endian machine and read back on a big-endian machine.

FunctionAction
caml_serialize_int_1Write a 1-byte integer
caml_serialize_int_2Write a 2-byte integer
caml_serialize_int_4Write a 4-byte integer
caml_serialize_int_8Write a 8-byte integer
caml_serialize_float_4Write a 4-byte float
caml_serialize_float_8Write a 8-byte float
caml_serialize_block_1Write an array of 1-byte quantities
caml_serialize_block_2Write an array of 2-byte quantities
caml_serialize_block_4Write an array of 4-byte quantities
caml_serialize_block_8Write an array of 8-byte quantities
caml_deserialize_uint_1Read an unsigned 1-byte integer
caml_deserialize_sint_1Read a signed 1-byte integer
caml_deserialize_uint_2Read an unsigned 2-byte integer
caml_deserialize_sint_2Read a signed 2-byte integer
caml_deserialize_uint_4Read an unsigned 4-byte integer
caml_deserialize_sint_4Read a signed 4-byte integer
caml_deserialize_uint_8Read an unsigned 8-byte integer
caml_deserialize_sint_8Read a signed 8-byte integer
caml_deserialize_float_4Read a 4-byte float
caml_deserialize_float_8Read an 8-byte float
caml_deserialize_block_1Read an array of 1-byte quantities
caml_deserialize_block_2Read an array of 2-byte quantities
caml_deserialize_block_4Read an array of 4-byte quantities
caml_deserialize_block_8Read an array of 8-byte quantities
caml_deserialize_errorSignal an error during deserialization; input_value or Marshal.from_... raise a Failure exception after cleaning up their internal data structures

Serialization functions are attached to the custom blocks to which they apply. Obviously, deserialization functions cannot be attached this way, since the custom block does not exist yet when deserialization begins! Thus, the struct custom_operations that contain deserialization functions must be registered with the deserializer in advance, using the register_custom_operations function declared in <caml/custom.h>. Deserialization proceeds by reading the identifier off the input stream, allocating a custom block of the size specified in the input stream, searching the registered struct custom_operation blocks for one with the same identifier, and calling its deserialize function to fill the data part of the custom block.

19.9.5  Choosing identifiers

Identifiers in struct custom_operations must be chosen carefully, since they must identify uniquely the data structure for serialization and deserialization operations. In particular, consider including a version number in the identifier; this way, the format of the data can be changed later, yet backward-compatible deserialisation functions can be provided.

Identifiers starting with _ (an underscore character) are reserved for the OCaml runtime system; do not use them for your custom data. We recommend to use a URL (http://mymachine.mydomain.com/mylibrary/version-number) or a Java-style package name (com.mydomain.mymachine.mylibrary.version-number) as identifiers, to minimize the risk of identifier collision.

19.9.6  Finalized blocks

Custom blocks generalize the finalized blocks that were present in OCaml prior to version 3.00. For backward compatibility, the format of custom blocks is compatible with that of finalized blocks, and the alloc_final function is still available to allocate a custom block with a given finalization function, but default comparison, hashing and serialization functions. caml_alloc_final(n, f, used, max) returns a fresh custom block of size n words, with finalization function f. The first word is reserved for storing the custom operations; the other n-1 words are available for your data. The two parameters used and max are used to control the speed of garbage collection, as described for caml_alloc_custom.

19.10  Advanced topic: multithreading

Using multiple threads (shared-memory concurrency) in a mixed OCaml/C application requires special precautions, which are described in this section.

19.10.1  Registering threads created from C

Callbacks from C to OCaml are possible only if the calling thread is known to the OCaml run-time system. Threads created from OCaml (through the Thread.create function of the system threads library) are automatically known to the run-time system. If the application creates additional threads from C and wishes to callback into OCaml code from these threads, it must first register them with the run-time system. The following functions are declared in the include file <caml/threads.h>.

  • caml_c_thread_register() registers the calling thread with the OCaml run-time system. Returns 1 on success, 0 on error. Registering an already-register thread does nothing and returns 0.
  • caml_c_thread_unregister() must be called before the thread terminates, to unregister it from the OCaml run-time system. Returns 1 on success, 0 on error. If the calling thread was not previously registered, does nothing and returns 0.

19.10.2  Parallel execution of long-running C code

The OCaml run-time system is not reentrant: at any time, at most one thread can be executing OCaml code or C code that uses the OCaml run-time system. Technically, this is enforced by a “master lock” that any thread must hold while executing such code.

When OCaml calls the C code implementing a primitive, the master lock is held, therefore the C code has full access to the facilities of the run-time system. However, no other thread can execute OCaml code concurrently with the C code of the primitive.

If a C primitive runs for a long time or performs potentially blocking input-output operations, it can explicitly release the master lock, enabling other OCaml threads to run concurrently with its operations. The C code must re-acquire the master lock before returning to OCaml. This is achieved with the following functions, declared in the include file <caml/threads.h>.

  • caml_release_runtime_system() The calling thread releases the master lock and other OCaml resources, enabling other threads to run OCaml code in parallel with the execution of the calling thread.
  • caml_acquire_runtime_system() The calling thread re-acquires the master lock and other OCaml resources. It may block until no other thread uses the OCaml run-time system.

After caml_release_runtime_system() was called and until caml_acquire_runtime_system() is called, the C code must not access any OCaml data, nor call any function of the run-time system, nor call back into OCaml code. Consequently, arguments provided by OCaml to the C primitive must be copied into C data structures before calling caml_release_runtime_system(), and results to be returned to OCaml must be encoded as OCaml values after caml_acquire_runtime_system() returns.

Example: the following C primitive invokes gethostbyname to find the IP address of a host name. The gethostbyname function can block for a long time, so we choose to release the OCaml run-time system while it is running. 

CAMLprim stub_gethostbyname(value vname)
{
  CAMLparam1 (vname);
  CAMLlocal1 (vres);
  struct hostent * h;

  /* Copy the string argument to a C string, allocated outside the
     OCaml heap. */
  name = stat_alloc(caml_string_length(vname) + 1);
  strcpy(name, String_val(vname));
  /* Release the OCaml run-time system */
  caml_release_runtime_system();
  /* Resolve the name */
  h = gethostbyname(name);
  /* Re-acquire the OCaml run-time system */
  caml_acquire_runtime_system();
  /* Encode the relevant fields of h as the OCaml value vres */
  ... /* Omitted */
  /* Return to OCaml */
  CAMLreturn (vres);
}

Callbacks from C to OCaml must be performed while holding the master lock to the OCaml run-time system. This is naturally the case if the callback is performed by a C primitive that did not release the run-time system. If the C primitive released the run-time system previously, or the callback is performed from other C code that was not invoked from OCaml (e.g. an event loop in a GUI application), the run-time system must be acquired before the callback and released after: 

  caml_acquire_runtime_system();
  /* Resolve OCaml function vfun to be invoked */
  /* Build OCaml argument varg to the callback */
  vres = callback(vfun, varg);
  /* Copy relevant parts of result vres to C data structures */
  caml_release_runtime_system();

Note: the acquire and release functions described above were introduced in OCaml 3.12. Older code uses the following historical names, declared in <caml/signals.h>:

  • caml_enter_blocking_section as an alias for caml_release_runtime_system
  • caml_leave_blocking_section as an alias for caml_acquire_runtime_system

Intuition: a “blocking section” is a piece of C code that does not use the OCaml run-time system, typically a blocking input/output operation.

19.11  Building mixed C/OCaml libraries: ocamlmklib

The ocamlmklib command facilitates the construction of libraries containing both OCaml code and C code, and usable both in static linking and dynamic linking modes. This command is available under Windows since Objective Caml 3.11 and under other operating systems since Objective Caml 3.03.

The ocamlmklib command takes three kinds of arguments:

  • OCaml source files and object files (.cmo, .cmx, .ml) comprising the OCaml part of the library;
  • C object files (.o, .a, respectively, .obj, .lib) comprising the C part of the library;
  • Support libraries for the C part (-llib).

It generates the following outputs:

  • An OCaml bytecode library .cma incorporating the .cmo and .ml OCaml files given as arguments, and automatically referencing the C library generated with the C object files.
  • An OCaml native-code library .cmxa incorporating the .cmx and .ml OCaml files given as arguments, and automatically referencing the C library generated with the C object files.
  • If dynamic linking is supported on the target platform, a .so (respectively, .dll) shared library built from the C object files given as arguments, and automatically referencing the support libraries.
  • A C static library .a(respectively, .lib) built from the C object files.

In addition, the following options are recognized:

-cclib, -ccopt, -I, -linkall
These options are passed as is to ocamlc or ocamlopt. See the documentation of these commands.
-rpath, -R, -Wl,-rpath, -Wl,-R
These options are passed as is to the C compiler. Refer to the documentation of the C compiler.
-custom
Force the construction of a statically linked library only, even if dynamic linking is supported.
-failsafe
Fall back to building a statically linked library if a problem occurs while building the shared library (e.g. some of the support libraries are not available as shared libraries).
-Ldir
Add dir to the search path for support libraries (-llib).
-ocamlc cmd
Use cmd instead of ocamlc to call the bytecode compiler.
-ocamlopt cmd
Use cmd instead of ocamlopt to call the native-code compiler.
-o output
Set the name of the generated OCaml library. ocamlmklib will generate output.cma and/or output.cmxa. If not specified, defaults to a.
-oc outputc
Set the name of the generated C library. ocamlmklib will generate liboutputc.so (if shared libraries are supported) and liboutputc.a. If not specified, defaults to the output name given with -o.
Example

Consider an OCaml interface to the standard libz C library for reading and writing compressed files. Assume this library resides in /usr/local/zlib. This interface is composed of an OCaml part zip.cmo/zip.cmx and a C part zipstubs.o containing the stub code around the libz entry points. The following command builds the OCaml libraries zip.cma and zip.cmxa, as well as the companion C libraries dllzip.so and libzip.a: 

ocamlmklib -o zip zip.cmo zip.cmx zipstubs.o -lz -L/usr/local/zlib

If shared libraries are supported, this performs the following commands: 

ocamlc -a -o zip.cma zip.cmo -dllib -lzip \
        -cclib -lzip -cclib -lz -ccopt -L/usr/local/zlib
ocamlopt -a -o zip.cmxa zip.cmx -cclib -lzip \
        -cclib -lzip -cclib -lz -ccopt -L/usr/local/zlib
gcc -shared -o dllzip.so zipstubs.o -lz -L/usr/local/zlib
ar rc libzip.a zipstubs.o

If shared libraries are not supported, the following commands are performed instead: 

ocamlc -a -custom -o zip.cma zip.cmo -cclib -lzip \
        -cclib -lz -ccopt -L/usr/local/zlib
ocamlopt -a -o zip.cmxa zip.cmx -lzip \
        -cclib -lz -ccopt -L/usr/local/zlib
ar rc libzip.a zipstubs.o

Instead of building simultaneously the bytecode library, the native-code library and the C libraries, ocamlmklib can be called three times to build each separately. Thus, 

ocamlmklib -o zip zip.cmo -lz -L/usr/local/zlib

builds the bytecode library zip.cma, and 

ocamlmklib -o zip zip.cmx -lz -L/usr/local/zlib

builds the native-code library zip.cmxa, and 

ocamlmklib -o zip zipstubs.o -lz -L/usr/local/zlib

builds the C libraries dllzip.so and libzip.a. Notice that the support libraries (-lz) and the corresponding options (-L/usr/local/zlib) must be given on all three invocations of ocamlmklib, because they are needed at different times depending on whether shared libraries are supported.

Previous Up Next ocaml-doc-4.01/ocaml.html/modtypes.html0000644000175000017500000006421612214324200016327 0ustar i33173i33173 Module types (module specifications) Previous Up Next

6.10  Module types (module specifications)

Module types are the module-level equivalent of type expressions: they specify the general shape and type properties of modules.

module-type::= modtype-path  
  sig { specification  [;;] } end  
  functor ( module-name :  module-type ) ->  module-type  
  module-type with  mod-constraint  { and mod-constraint }  
  ( module-type )  
 
mod-constraint::= type [type-params]  typeconstr  type-equation  
  module module-path =  extended-module-path  
 
specification::= val value-name :  typexpr  
  external value-name :  typexpr =  external-declaration  
  type-definition  
  exception constr-decl  
  class-specification  
  classtype-definition  
  module module-name :  module-type  
  module module-name  { ( module-name :  module-type ) } :  module-type  
  module type modtype-name  
  module type modtype-name =  module-type  
  open module-path  
  include module-type

6.10.1  Simple module types

The expression modtype-path is equivalent to the module type bound to the name modtype-path. The expression ( module-type ) denotes the same type as module-type.

6.10.2  Signatures

Signatures are type specifications for structures. Signatures sigend are collections of type specifications for value names, type names, exceptions, module names and module type names. A structure will match a signature if the structure provides definitions (implementations) for all the names specified in the signature (and possibly more), and these definitions meet the type requirements given in the signature.

An optional ;; is allowed after each specification in a signature. It serves as a syntactic separator with no semantic meaning.

Value specifications

A specification of a value component in a signature is written val value-name :  typexpr, where value-name is the name of the value and typexpr its expected type.

The form external value-name :  typexpr =  external-declaration is similar, except that it requires in addition the name to be implemented as the external function specified in external-declaration (see chapter 19).

Type specifications

A specification of one or several type components in a signature is written type typedef  { and typedef } and consists of a sequence of mutually recursive definitions of type names.

Each type definition in the signature specifies an optional type equation = typexpr and an optional type representation = constr-decl … or = { field-decl}. The implementation of the type name in a matching structure must be compatible with the type expression specified in the equation (if given), and have the specified representation (if given). Conversely, users of that signature will be able to rely on the type equation or type representation, if given. More precisely, we have the following four situations:

Abstract type: no equation, no representation.
 
Names that are defined as abstract types in a signature can be implemented in a matching structure by any kind of type definition (provided it has the same number of type parameters). The exact implementation of the type will be hidden to the users of the structure. In particular, if the type is implemented as a variant type or record type, the associated constructors and fields will not be accessible to the users; if the type is implemented as an abbreviation, the type equality between the type name and the right-hand side of the abbreviation will be hidden from the users of the structure. Users of the structure consider that type as incompatible with any other type: a fresh type has been generated.
Type abbreviation: an equation = typexpr, no representation.
 
The type name must be implemented by a type compatible with typexpr. All users of the structure know that the type name is compatible with typexpr.
New variant type or record type: no equation, a representation.
 
The type name must be implemented by a variant type or record type with exactly the constructors or fields specified. All users of the structure have access to the constructors or fields, and can use them to create or inspect values of that type. However, users of the structure consider that type as incompatible with any other type: a fresh type has been generated.
Re-exported variant type or record type: an equation, a representation.
 
This case combines the previous two: the representation of the type is made visible to all users, and no fresh type is generated.

Exception specification

The specification exception constr-decl in a signature requires the matching structure to provide an exception with the name and arguments specified in the definition, and makes the exception available to all users of the structure.

Class specifications

A specification of one or several classes in a signature is written class class-spec  { and class-spec } and consists of a sequence of mutually recursive definitions of class names.

Class specifications are described more precisely in section 6.9.4.

Class type specifications

A specification of one or several classe types in a signature is written class type classtype-def { and classtype-def } and consists of a sequence of mutually recursive definitions of class type names. Class type specifications are described more precisely in section 6.9.5.

Module specifications

A specification of a module component in a signature is written module module-name :  module-type, where module-name is the name of the module component and module-type its expected type. Modules can be nested arbitrarily; in particular, functors can appear as components of structures and functor types as components of signatures.

For specifying a module component that is a functor, one may write

module module-name (  name1 :  module-type1 )(  namen :  module-typen ) :  module-type

instead of

module module-name : functor (  name1 :  module-type1 ) ->->  module-type

Module type specifications

A module type component of a signature can be specified either as a manifest module type or as an abstract module type.

An abstract module type specification module type modtype-name allows the name modtype-name to be implemented by any module type in a matching signature, but hides the implementation of the module type to all users of the signature.

A manifest module type specification module type modtype-name =  module-type requires the name modtype-name to be implemented by the module type module-type in a matching signature, but makes the equality between modtype-name and module-type apparent to all users of the signature.

Opening a module path

The expression open module-path in a signature does not specify any components. It simply affects the parsing of the following items of the signature, allowing components of the module denoted by module-path to be referred to by their simple names name instead of path accesses module-path .  name. The scope of the open stops at the end of the signature expression.

Including a signature

The expression include module-type in a signature performs textual inclusion of the components of the signature denoted by module-type. It behaves as if the components of the included signature were copied at the location of the include. The module-type argument must refer to a module type that is a signature, not a functor type.

6.10.3  Functor types

The module type expression functor ( module-name :  module-type1 ) ->  module-type2 is the type of functors (functions from modules to modules) that take as argument a module of type module-type1 and return as result a module of type module-type2. The module type module-type2 can use the name module-name to refer to type components of the actual argument of the functor. No restrictions are placed on the type of the functor argument; in particular, a functor may take another functor as argument (“higher-order” functor).

6.10.4  The with operator

Assuming module-type denotes a signature, the expression module-type with  mod-constraint { and mod-constraint } denotes the same signature where type equations have been added to some of the type specifications, as described by the constraints following the with keyword. The constraint type [type-parameters]  typeconstr =  typexpr adds the type equation = typexpr to the specification of the type component named typeconstr of the constrained signature. The constraint module module-path =  extended-module-path adds type equations to all type components of the sub-structure denoted by module-path, making them equivalent to the corresponding type components of the structure denoted by extended-module-path.

For instance, if the module type name S is bound to the signature 

        sig type t module M: (sig type u end) end

then S with type t=int denotes the signature 

        sig type t=int module M: (sig type u end) end

and S with module M = N denotes the signature 

        sig type t module M: (sig type u=N.u end) end

A functor taking two arguments of type S that share their t component is written 

        functor (A: S) (B: S with type t = A.t) ...

Constraints are added left to right. After each constraint has been applied, the resulting signature must be a subtype of the signature before the constraint was applied. Thus, the with operator can only add information on the type components of a signature, but never remove information.

Previous Up Next ocaml-doc-4.01/ocaml.html/libdynlink.html0000644000175000017500000000413112214324200016610 0ustar i33173i33173 The dynlink library: dynamic loading and linking of object files Previous Up Next

Chapter 27  The dynlink library: dynamic loading and linking of object files

The dynlink library supports type-safe dynamic loading and linking of bytecode object files (.cmo and .cma files) in a running bytecode program, or of native plugins (usually .cmxs files) in a running native program. Type safety is ensured by limiting the set of modules from the running program that the loaded object file can access, and checking that the running program and the loaded object file have been compiled against the same interfaces for these modules. In native code, there are also some compatibility checks on the implementations (to avoid errors with cross-module optimizations); it might be useful to hide .cmx files when building native plugins so that they remain independent of the implementation of modules in the main program.

Programs that use the dynlink library simply need to link dynlink.cma or dynlink.cmxa with their object files and other libraries.

Previous Up Next ocaml-doc-4.01/ocaml.html/runtime.html0000644000175000017500000004345012214324200016143 0ustar i33173i33173 The runtime system (ocamlrun) Previous Up Next

Chapter 10  The runtime system (ocamlrun)

The ocamlrun command executes bytecode files produced by the linking phase of the ocamlc command.

10.1  Overview

The ocamlrun command comprises three main parts: the bytecode interpreter, that actually executes bytecode files; the memory allocator and garbage collector; and a set of C functions that implement primitive operations such as input/output.

The usage for ocamlrun is: 

        ocamlrun options bytecode-executable arg1 ... argn

The first non-option argument is taken to be the name of the file containing the executable bytecode. (That file is searched in the executable path as well as in the current directory.) The remaining arguments are passed to the OCaml program, in the string array Sys.argv. Element 0 of this array is the name of the bytecode executable file; elements 1 to n are the remaining arguments arg1 to argn.

As mentioned in chapter 8, the bytecode executable files produced by the ocamlc command are self-executable, and manage to launch the ocamlrun command on themselves automatically. That is, assuming a.out is a bytecode executable file, 

        a.out arg1 ... argn

works exactly as 

        ocamlrun a.out arg1 ... argn

Notice that it is not possible to pass options to ocamlrun when invoking a.out directly.

Windows:   Under several versions of Windows, bytecode executable files are self-executable only if their name ends in .exe. It is recommended to always give .exe names to bytecode executables, e.g. compile with ocamlc -o myprog.exe ... rather than ocamlc -o myprog ....

10.2  Options

The following command-line options are recognized by ocamlrun.

-b
When the program aborts due to an uncaught exception, print a detailed “back trace” of the execution, showing where the exception was raised and which function calls were outstanding at this point. The back trace is printed only if the bytecode executable contains debugging information, i.e. was compiled and linked with the -g option to ocamlc set. This is equivalent to setting the b flag in the OCAMLRUNPARAM environment variable (see below).
-I dir
Search the directory dir for dynamically-loaded libraries, in addition to the standard search path (see section 10.3).
-p
Print the names of the primitives known to this version of ocamlrun and exit.
-v
Direct the memory manager to print some progress messages on standard error. This is equivalent to setting v=63 in the OCAMLRUNPARAM environment variable (see below).
-version
Print version string and exit.
-vnum
Print short version number and exit.

The following environment variables are also consulted:

CAML_LD_LIBRARY_PATH
Additional directories to search for dynamically-loaded libraries (see section 10.3).
OCAMLLIB
The directory containing the OCaml standard library. (If OCAMLLIB is not set, CAMLLIB will be used instead.) Used to locate the ld.conf configuration file for dynamic loading (see section 10.3). If not set, default to the library directory specified when compiling OCaml.
OCAMLRUNPARAM
Set the runtime system options and garbage collection parameters. (If OCAMLRUNPARAM is not set, CAMLRUNPARAM will be used instead.) This variable must be a sequence of parameter specifications. A parameter specification is an option letter followed by an = sign, a decimal number (or an hexadecimal number prefixed by 0x), and an optional multiplier. The options are documented below; the last six correspond to the fields of the control record documented in Module Gc.
b
(backtrace) Trigger the printing of a stack backtrace when an uncaught exception aborts the program. This option takes no argument.
p
(parser trace) Turn on debugging support for ocamlyacc-generated parsers. When this option is on, the pushdown automaton that executes the parsers prints a trace of its actions. This option takes no argument.
R
(randomize) Turn on randomization of all hash tables by default (see Module Hashtbl). This option takes no argument.
h
The initial size of the major heap (in words).
s
(minor_heap_size) Size of the minor heap. (in words)
i
(major_heap_increment) Default size increment for the major heap. (in words)
o
(space_overhead) The major GC speed setting.
O
(max_overhead) The heap compaction trigger setting.
v
(verbose) What GC messages to print to stderr. This is a sum of values selected from the following:
1 (= 0x001)
Start of major GC cycle.
2 (= 0x002)
Minor collection and major GC slice.
4 (= 0x004)
Growing and shrinking of the heap.
8 (= 0x008)
Resizing of stacks and memory manager tables.
16 (= 0x010)
Heap compaction.
32 (= 0x020)
Change of GC parameters.
64 (= 0x040)
Computation of major GC slice size.
128 (= 0x080)
Calling of finalisation functions
256 (= 0x100)
Startup messages (loading the bytecode executable file, resolving shared libraries).
l
(stack_limit) The limit (in words) of the stack size.
The multiplier is k, M, or G, for multiplication by 210, 220, and 230 respectively. For example, on a 32-bit machine, under bash the command 
        export OCAMLRUNPARAM='b,s=256k,v=0x015'
tells a subsequent ocamlrun to print backtraces for uncaught exceptions, set its initial minor heap size to 1 megabyte and print a message at the start of each major GC cycle, when the heap size changes, and when compaction is triggered.
CAMLRUNPARAM
If OCAMLRUNPARAM is not found in the environment, then CAMLRUNPARAM will be used instead. If CAMLRUNPARAM is not found, then the default values will be used.
PATH
List of directories searched to find the bytecode executable file.

10.3  Dynamic loading of shared libraries

On platforms that support dynamic loading, ocamlrun can link dynamically with C shared libraries (DLLs) providing additional C primitives beyond those provided by the standard runtime system. The names for these libraries are provided at link time as described in section 19.1.4), and recorded in the bytecode executable file; ocamlrun, then, locates these libraries and resolves references to their primitives when the bytecode executable program starts.

The ocamlrun command searches shared libraries in the following directories, in the order indicated:

  1. Directories specified on the ocamlrun command line with the -I option.
  2. Directories specified in the CAML_LD_LIBRARY_PATH environment variable.
  3. Directories specified at link-time via the -dllpath option to ocamlc. (These directories are recorded in the bytecode executable file.)
  4. Directories specified in the file ld.conf. This file resides in the OCaml standard library directory, and lists directory names (one per line) to be searched. Typically, it contains only one line naming the stublibs subdirectory of the OCaml standard library directory. Users can add there the names of other directories containing frequently-used shared libraries; however, for consistency of installation, we recommend that shared libraries are installed directly in the system stublibs directory, rather than adding lines to the ld.conf file.
  5. Default directories searched by the system dynamic loader. Under Unix, these generally include /lib and /usr/lib, plus the directories listed in the file /etc/ld.so.conf and the environment variable LD_LIBRARY_PATH. Under Windows, these include the Windows system directories, plus the directories listed in the PATH environment variable.

10.4  Common errors

This section describes and explains the most frequently encountered error messages.

filename: no such file or directory
If filename is the name of a self-executable bytecode file, this means that either that file does not exist, or that it failed to run the ocamlrun bytecode interpreter on itself. The second possibility indicates that OCaml has not been properly installed on your system.
Cannot exec ocamlrun
(When launching a self-executable bytecode file.) The ocamlrun could not be found in the executable path. Check that OCaml has been properly installed on your system.
Cannot find the bytecode file
The file that ocamlrun is trying to execute (e.g. the file given as first non-option argument to ocamlrun) either does not exist, or is not a valid executable bytecode file.
Truncated bytecode file
The file that ocamlrun is trying to execute is not a valid executable bytecode file. Probably it has been truncated or mangled since created. Erase and rebuild it.
Uncaught exception
The program being executed contains a “stray” exception. That is, it raises an exception at some point, and this exception is never caught. This causes immediate termination of the program. The name of the exception is printed, along with its string and integer arguments (arguments of more complex types are not correctly printed). To locate the context of the uncaught exception, compile the program with the -g option and either run it again under the ocamldebug debugger (see chapter 16), or run it with ocamlrun -b or with the OCAMLRUNPARAM environment variable set to b=1.
Out of memory
The program being executed requires more memory than available. Either the program builds excessively large data structures; or the program contains too many nested function calls, and the stack overflows. In some cases, your program is perfectly correct, it just requires more memory than your machine provides. In other cases, the “out of memory” message reveals an error in your program: non-terminating recursive function, allocation of an excessively large array or string, attempts to build an infinite list or other data structure, …

To help you diagnose this error, run your program with the -v option to ocamlrun, or with the OCAMLRUNPARAM environment variable set to v=63. If it displays lots of “Growing stack…” messages, this is probably a looping recursive function. If it displays lots of “Growing heap…” messages, with the heap size growing slowly, this is probably an attempt to construct a data structure with too many (infinitely many?) cells. If it displays few “Growing heap…” messages, but with a huge increment in the heap size, this is probably an attempt to build an excessively large array or string.

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6.9  Classes

Classes are defined using a small language, similar to the module language.

6.9.1  Class types

Class types are the class-level equivalent of type expressions: they specify the general shape and type properties of classes.

class-type::= {[[?]label-name:]  typexpr ->}  class-body-type  
 
class-body-type::= object [( typexpr )]  {class-field-specend  
   [[ typexpr  {, typexpr]]  classtype-path  
 
class-field-spec::= inherit class-body-type  
   val [mutable] [virtualinst-var-name :  typexpr  
   val virtual mutable inst-var-name :  typexpr  
   method [private] [virtualmethod-name :  poly-typexpr  
   method virtual private method-name :  poly-typexpr  
   constraint typexpr =  typexpr

Simple class expressions

The expression classtype-path is equivalent to the class type bound to the name classtype-path. Similarly, the expression [ typexpr1 , …  typexprn ]  classtype-path is equivalent to the parametric class type bound to the name classtype-path, in which type parameters have been instantiated to respectively typexpr1, …typexprn.

Class function type

The class type expression typexpr ->  class-type is the type of class functions (functions from values to classes) that take as argument a value of type typexpr and return as result a class of type class-type.

Class body type

The class type expression object [( typexpr )]  {class-field-spec} end is the type of a class body. It specifies its instance variables and methods. In this type, typexpr is matched against the self type, therefore providing a name for the self type.

A class body will match a class body type if it provides definitions for all the components specified in the class body type, and these definitions meet the type requirements given in the class body type. Furthermore, all methods either virtual or public present in the class body must also be present in the class body type (on the other hand, some instance variables and concrete private methods may be omitted). A virtual method will match a concrete method, which makes it possible to forget its implementation. An immutable instance variable will match a mutable instance variable.

Inheritance

The inheritance construct inherit class-body-type provides for inclusion of methods and instance variables from other class types. The instance variable and method types from class-body-type are added into the current class type.

Instance variable specification

A specification of an instance variable is written val [mutable] [virtual] inst-var-name :  typexpr, where inst-var-name is the name of the instance variable and typexpr its expected type. The flag mutable indicates whether this instance variable can be physically modified. The flag virtual indicates that this instance variable is not initialized. It can be initialized later through inheritance.

An instance variable specification will hide any previous specification of an instance variable of the same name.

Method specification

The specification of a method is written method [private] method-name :  poly-typexpr, where method-name is the name of the method and poly-typexpr its expected type, possibly polymorphic. The flag private indicates that the method cannot be accessed from outside the object.

The polymorphism may be left implicit in public method specifications: any type variable which is not bound to a class parameter and does not appear elsewhere inside the class specification will be assumed to be universal, and made polymorphic in the resulting method type. Writing an explicit polymorphic type will disable this behaviour.

If several specifications are present for the same method, they must have compatible types. Any non-private specification of a method forces it to be public.

Virtual method specification

A virtual method specification is written method [private] virtual method-name :  poly-typexpr, where method-name is the name of the method and poly-typexpr its expected type.

Constraints on type parameters

The construct constraint typexpr1 =  typexpr2 forces the two type expressions to be equal. This is typically used to specify type parameters: in this way, they can be bound to specific type expressions.

6.9.2  Class expressions

Class expressions are the class-level equivalent of value expressions: they evaluate to classes, thus providing implementations for the specifications expressed in class types.

class-expr::= class-path  
   [ typexpr  {, typexpr]  class-path  
   ( class-expr )  
   ( class-expr :  class-type )  
   class-expr  {argument}+  
   fun {parameter}+ ->  class-expr  
   let [reclet-binding  {and let-bindingin  class-expr  
   object class-body end  
 
class-field::= inherit class-expr  [as lowercase-ident]  
   val [mutableinst-var-name  [: typexpr=  expr  
   val [mutablevirtual inst-var-name :  typexpr  
   val virtual mutable inst-var-name :  typexpr  
   method [privatemethod-name  {parameter}  [: typexpr=  expr  
   method [privatemethod-name :  poly-typexpr =  expr  
   method [privatevirtual method-name :  poly-typexpr  
   method virtual private method-name :  poly-typexpr  
   constraint typexpr =  typexpr  
   initializer expr

Simple class expressions

The expression class-path evaluates to the class bound to the name class-path. Similarly, the expression [ typexpr1 , …  typexprn ]  class-path evaluates to the parametric class bound to the name class-path, in which type parameters have been instantiated respectively to typexpr1, …typexprn.

The expression ( class-expr ) evaluates to the same module as class-expr.

The expression ( class-expr :  class-type ) checks that class-type matches the type of class-expr (that is, that the implementation class-expr meets the type specification class-type). The whole expression evaluates to the same class as class-expr, except that all components not specified in class-type are hidden and can no longer be accessed.

Class application

Class application is denoted by juxtaposition of (possibly labeled) expressions. It denotes the class whose constructor is the first expression applied to the given arguments. The arguments are evaluated as for expression application, but the constructor itself will only be evaluated when objects are created. In particular, side-effects caused by the application of the constructor will only occur at object creation time.

Class function

The expression fun [[?]label-name:pattern ->  class-expr evaluates to a function from values to classes. When this function is applied to a value v, this value is matched against the pattern pattern and the result is the result of the evaluation of class-expr in the extended environment.

Conversion from functions with default values to functions with patterns only works identically for class functions as for normal functions.

The expression

fun parameter1 …  parametern ->  class-expr

is a short form for

fun parameter1 ->fun  parametern ->  expr

Local definitions

The let and let rec constructs bind value names locally, as for the core language expressions.

If a local definition occurs at the very beginning of a class definition, it will be evaluated when the class is created (just as if the definition was outside of the class). Otherwise, it will be evaluated when the object constructor is called.

Class body

class-body::=  [( pattern  [: typexpr)]  { class-field }

The expression object class-body end denotes a class body. This is the prototype for an object : it lists the instance variables and methods of an objet of this class.

A class body is a class value: it is not evaluated at once. Rather, its components are evaluated each time an object is created.

In a class body, the pattern ( pattern  [: typexpr] ) is matched against self, therefore providing a binding for self and self type. Self can only be used in method and initializers.

Self type cannot be a closed object type, so that the class remains extensible.

Since OCaml 4.01, it is an error if the same method or instance variable name is defined several times in the same class body.

Inheritance

The inheritance construct inherit class-expr allows reusing methods and instance variables from other classes. The class expression class-expr must evaluate to a class body. The instance variables, methods and initializers from this class body are added into the current class. The addition of a method will override any previously defined method of the same name.

An ancestor can be bound by appending as lowercase-ident to the inheritance construct. lowercase-ident is not a true variable and can only be used to select a method, i.e. in an expression lowercase-ident #  method-name. This gives access to the method method-name as it was defined in the parent class even if it is redefined in the current class. The scope of this ancestor binding is limited to the current class. The ancestor method may be called from a subclass but only indirectly.

Instance variable definition

The definition val [mutable] inst-var-name =  expr adds an instance variable inst-var-name whose initial value is the value of expression expr. The flag mutable allows physical modification of this variable by methods.

An instance variable can only be used in the methods and initializers that follow its definition.

Since version 3.10, redefinitions of a visible instance variable with the same name do not create a new variable, but are merged, using the last value for initialization. They must have identical types and mutability. However, if an instance variable is hidden by omitting it from an interface, it will be kept distinct from other instance variables with the same name.

Virtual instance variable definition

A variable specification is written val [mutable] virtual inst-var-name :  typexpr. It specifies whether the variable is modifiable, and gives its type.

Virtual instance variables were added in version 3.10.

Method definition

A method definition is written method method-name =  expr. The definition of a method overrides any previous definition of this method. The method will be public (that is, not private) if any of the definition states so.

A private method, method private method-name =  expr, is a method that can only be invoked on self (from other methods of the same object, defined in this class or one of its subclasses). This invocation is performed using the expression value-name #  method-name, where value-name is directly bound to self at the beginning of the class definition. Private methods do not appear in object types. A method may have both public and private definitions, but as soon as there is a public one, all subsequent definitions will be made public.

Methods may have an explicitly polymorphic type, allowing them to be used polymorphically in programs (even for the same object). The explicit declaration may be done in one of three ways: (1) by giving an explicit polymorphic type in the method definition, immediately after the method name, i.e. method [private] method-name :  {' ident}+ .  typexpr =  expr; (2) by a forward declaration of the explicit polymorphic type through a virtual method definition; (3) by importing such a declaration through inheritance and/or constraining the type of self.

Some special expressions are available in method bodies for manipulating instance variables and duplicating self:

expr::= …  
  inst-var-name <-  expr  
  {< [ inst-var-name =  expr  { ; inst-var-name =  expr }  [;] ] >}

The expression inst-var-name <-  expr modifies in-place the current object by replacing the value associated to inst-var-name by the value of expr. Of course, this instance variable must have been declared mutable.

The expression {< inst-var-name1 =  expr1 ;;  inst-var-namen =  exprn >} evaluates to a copy of the current object in which the values of instance variables inst-var-name1, …,  inst-var-namen have been replaced by the values of the corresponding expressions expr1, …,  exprn.

Virtual method definition

A method specification is written method [private] virtual method-name :  poly-typexpr. It specifies whether the method is public or private, and gives its type. If the method is intended to be polymorphic, the type must be explicitly polymorphic.

Constraints on type parameters

The construct constraint typexpr1 =  typexpr2 forces the two type expressions to be equals. This is typically used to specify type parameters: in that way they can be bound to specific type expressions.

Initializers

A class initializer initializer expr specifies an expression that will be evaluated whenever an object is created from the class, once all its instance variables have been initialized.

6.9.3  Class definitions

class-definition::= class class-binding  { and class-binding }  
 
class-binding::= [virtual] [[ type-parameters ]]  class-name  {parameter}  [: class-type]  =  class-expr  
 
type-parameters::= ' ident  { , ' ident }

A class definition class class-binding  { and class-binding } is recursive. Each class-binding defines a class-name that can be used in the whole expression except for inheritance. It can also be used for inheritance, but only in the definitions that follow its own.

A class binding binds the class name class-name to the value of expression class-expr. It also binds the class type class-name to the type of the class, and defines two type abbreviations : class-name and # class-name. The first one is the type of objects of this class, while the second is more general as it unifies with the type of any object belonging to a subclass (see section 6.4).

Virtual class

A class must be flagged virtual if one of its methods is virtual (that is, appears in the class type, but is not actually defined). Objects cannot be created from a virtual class.

Type parameters

The class type parameters correspond to the ones of the class type and of the two type abbreviations defined by the class binding. They must be bound to actual types in the class definition using type constraints. So that the abbreviations are well-formed, type variables of the inferred type of the class must either be type parameters or be bound in the constraint clause.

6.9.4  Class specifications

class-specification::= class class-spec  { and class-spec }  
 
class-spec::= [virtual] [[ type-parameters ]]  class-name :  class-type

This is the counterpart in signatures of class definitions. A class specification matches a class definition if they have the same type parameters and their types match.

6.9.5  Class type definitions

classtype-definition::= class type classtype-def  { and classtype-def }  
 
classtype-def::= [virtual] [[ type-parameters ]]  class-name =  class-body-type

A class type definition class class-name =  class-body-type defines an abbreviation class-name for the class body type class-body-type. As for class definitions, two type abbreviations class-name and # class-name are also defined. The definition can be parameterized by some type parameters. If any method in the class type body is virtual, the definition must be flagged virtual.

Two class type definitions match if they have the same type parameters and they expand to matching types.

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6.5  Constants

constant::= integer-literal  
  float-literal  
  char-literal  
  string-literal  
  constr  
  false  
  true  
  ()  
  begin end  
  []  
  [||]  
  `tag-name

The syntactic class of constants comprises literals from the four base types (integers, floating-point numbers, characters, character strings), and constant constructors from both normal and polymorphic variants, as well as the special constants false, true, (), [], and [||], which behave like constant constructors, and begin end, which is equivalent to ().

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Foreword

This manual documents the release 4.01 of the OCaml system. It is organized as follows.

  • Part I, “An introduction to OCaml”, gives an overview of the language.
  • Part II, “The OCaml language”, is the reference description of the language.
  • Part III, “The OCaml tools”, documents the compilers, toplevel system, and programming utilities.
  • Part IV, “The OCaml library”, describes the modules provided in the standard library.

Conventions

OCaml runs on several operating systems. The parts of this manual that are specific to one operating system are presented as shown below:

Unix:   This is material specific to the Unix family of operating systems, including Linux and MacOS X.
Windows:   This is material specific to Microsoft Windows (2000, XP, Vista, Seven).

License

The OCaml system is copyright © 1996–2013 Institut National de Recherche en Informatique et en Automatique (INRIA). INRIA holds all ownership rights to the OCaml system.

The OCaml system is open source and can be freely redistributed. See the file LICENSE in the distribution for licensing information.

The present documentation is copyright © 2013 Institut National de Recherche en Informatique et en Automatique (INRIA). The OCaml documentation and user’s manual may be reproduced and distributed in whole or in part, subject to the following conditions:

  • The copyright notice above and this permission notice must be preserved complete on all complete or partial copies.
  • Any translation or derivative work of the OCaml documentation and user’s manual must be approved by the authors in writing before distribution.
  • If you distribute the OCaml documentation and user’s manual in part, instructions for obtaining the complete version of this manual must be included, and a means for obtaining a complete version provided.
  • Small portions may be reproduced as illustrations for reviews or quotes in other works without this permission notice if proper citation is given.

Availability

The complete OCaml distribution can be accessed via the Caml Web site. The Caml Web site contains a lot of additional information on OCaml.

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Chapter 12  Lexer and parser generators (ocamllex, ocamlyacc)

This chapter describes two program generators: ocamllex, that produces a lexical analyzer from a set of regular expressions with associated semantic actions, and ocamlyacc, that produces a parser from a grammar with associated semantic actions.

These program generators are very close to the well-known lex and yacc commands that can be found in most C programming environments. This chapter assumes a working knowledge of lex and yacc: while it describes the input syntax for ocamllex and ocamlyacc and the main differences with lex and yacc, it does not explain the basics of writing a lexer or parser description in lex and yacc. Readers unfamiliar with lex and yacc are referred to “Compilers: principles, techniques, and tools” by Aho, Sethi and Ullman (Addison-Wesley, 1986), or “Lex & Yacc”, by Levine, Mason and Brown (O’Reilly, 1992).

12.1  Overview of ocamllex

The ocamllex command produces a lexical analyzer from a set of regular expressions with attached semantic actions, in the style of lex. Assuming the input file is lexer.mll, executing 

        ocamllex lexer.mll

produces OCaml code for a lexical analyzer in file lexer.ml. This file defines one lexing function per entry point in the lexer definition. These functions have the same names as the entry points. Lexing functions take as argument a lexer buffer, and return the semantic attribute of the corresponding entry point.

Lexer buffers are an abstract data type implemented in the standard library module Lexing. The functions Lexing.from_channel, Lexing.from_string and Lexing.from_function create lexer buffers that read from an input channel, a character string, or any reading function, respectively. (See the description of module Lexing in chapter 21.)

When used in conjunction with a parser generated by ocamlyacc, the semantic actions compute a value belonging to the type token defined by the generated parsing module. (See the description of ocamlyacc below.)

12.1.1  Options

The following command-line options are recognized by ocamllex.

-ml
Output code that does not use OCaml’s built-in automata interpreter. Instead, the automaton is encoded by OCaml functions. This option mainly is useful for debugging ocamllex, using it for production lexers is not recommended.
-o output-file
Specify the name of the output file produced by ocamllex. The default is the input file name with its extension replaced by .ml.
-q
Quiet mode. ocamllex normally outputs informational messages to standard output. They are suppressed if option -q is used.
-v or -version
Print version string and exit.
-vnum
Print short version number and exit.
-help or --help
Display a short usage summary and exit.

12.2  Syntax of lexer definitions

The format of lexer definitions is as follows: 

{ header }
let ident = regexp …
rule entrypoint [arg1argn] =
  parse regexp { action }
      | …
      | regexp { action }
and entrypoint [arg1argn] =
  parse …
and …
{ trailer }

Comments are delimited by (* and *), as in OCaml. The parse keyword, can be replaced by the shortest keyword, with the semantic consequences explained below.

12.2.1  Header and trailer

The header and trailer sections are arbitrary OCaml text enclosed in curly braces. Either or both can be omitted. If present, the header text is copied as is at the beginning of the output file and the trailer text at the end. Typically, the header section contains the open directives required by the actions, and possibly some auxiliary functions used in the actions.

12.2.2  Naming regular expressions

Between the header and the entry points, one can give names to frequently-occurring regular expressions. This is written let ident =  regexp. In regular expressions that follow this declaration, the identifier ident can be used as shorthand for regexp.

12.2.3  Entry points

The names of the entry points must be valid identifiers for OCaml values (starting with a lowercase letter). Similarily, the arguments arg1argn must be valid identifiers for OCaml. Each entry point becomes an OCaml function that takes n+1 arguments, the extra implicit last argument being of type Lexing.lexbuf. Characters are read from the Lexing.lexbuf argument and matched against the regular expressions provided in the rule, until a prefix of the input matches one of the rule. The corresponding action is then evaluated and returned as the result of the function.

If several regular expressions match a prefix of the input, the “longest match” rule applies: the regular expression that matches the longest prefix of the input is selected. In case of tie, the regular expression that occurs earlier in the rule is selected.

However, if lexer rules are introduced with the shortest keyword in place of the parse keyword, then the “shortest match” rule applies: the shortest prefix of the input is selected. In case of tie, the regular expression that occurs earlier in the rule is still selected. This feature is not intended for use in ordinary lexical analyzers, it may facilitate the use of ocamllex as a simple text processing tool.

12.2.4  Regular expressions

The regular expressions are in the style of lex, with a more OCaml-like syntax.

regexp::=
' regular-charescape-sequence '
A character constant, with the same syntax as OCaml character constants. Match the denoted character.
_
(underscore) Match any character.
eof
Match the end of the lexer input.
Note: On some systems, with interactive input, an end-of-file may be followed by more characters. However, ocamllex will not correctly handle regular expressions that contain eof followed by something else.
" { string-character } "
A string constant, with the same syntax as OCaml string constants. Match the corresponding sequence of characters.
[ character-set ]
Match any single character belonging to the given character set. Valid character sets are: single character constants ' c '; ranges of characters ' c1 ' - ' c2 ' (all characters between c1 and c2, inclusive); and the union of two or more character sets, denoted by concatenation.
[ ^ character-set ]
Match any single character not belonging to the given character set.
regexp1 #  regexp2
(difference of character sets) Regular expressions regexp1 and regexp2 must be character sets defined with [] (or a a single character expression or underscore _). Match the difference of the two specified character sets.
regexp *
(repetition) Match the concatenation of zero or more strings that match regexp.
regexp +
(strict repetition) Match the concatenation of one or more strings that match regexp.
regexp ?
(option) Match the empty string, or a string matching regexp.
regexp1 |  regexp2
(alternative) Match any string that matches regexp1 or regexp2
regexp1  regexp2
(concatenation) Match the concatenation of two strings, the first matching regexp1, the second matching regexp2.
( regexp )
Match the same strings as regexp.
ident
Reference the regular expression bound to ident by an earlier let ident =  regexp definition.
regexp as  ident
Bind the substring matched by regexp to identifier ident.

Concerning the precedences of operators, # has the highest precedence, followed by *, + and ?, then concatenation, then | (alternation), then as.

12.2.5  Actions

The actions are arbitrary OCaml expressions. They are evaluated in a context where the identifiers defined by using the as construct are bound to subparts of the matched string. Additionally, lexbuf is bound to the current lexer buffer. Some typical uses for lexbuf, in conjunction with the operations on lexer buffers provided by the Lexing standard library module, are listed below.

Lexing.lexeme lexbuf
Return the matched string.
Lexing.lexeme_char lexbuf n
Return the nth character in the matched string. The first character corresponds to n = 0.
Lexing.lexeme_start lexbuf
Return the absolute position in the input text of the beginning of the matched string (i.e. the offset of the first character of the matched string). The first character read from the input text has offset 0.
Lexing.lexeme_end lexbuf
Return the absolute position in the input text of the end of the matched string (i.e. the offset of the first character after the matched string). The first character read from the input text has offset 0.
entrypoint [exp1expn] lexbuf
(Where entrypoint is the name of another entry point in the same lexer definition.) Recursively call the lexer on the given entry point. Notice that lexbuf is the last argument. Useful for lexing nested comments, for example.

12.2.6  Variables in regular expressions

The as construct is similar to “groups” as provided by numerous regular expression packages. The type of these variables can be string, char, string option or char option.

We first consider the case of linear patterns, that is the case when all as bound variables are distinct. In regexp as  ident, the type of ident normally is string (or string option) except when regexp is a character constant, an underscore, a string constant of length one, a character set specification, or an alternation of those. Then, the type of ident is char (or char option). Option types are introduced when overall rule matching does not imply matching of the bound sub-pattern. This is in particular the case of ( regexp as  ident ) ? and of regexp1 | (  regexp2 as  ident ).

There is no linearity restriction over as bound variables. When a variable is bound more than once, the previous rules are to be extended as follows:

  • A variable is a char variable when all its occurrences bind char occurrences in the previous sense.
  • A variable is an option variable when the overall expression can be matched without binding this variable.

For instance, in ('a' as x) | ( 'a' (_ as x) ) the variable x is of type char, whereas in ("ab" as x) | ( 'a' (_ as x) ? ) the variable x is of type string option.

In some cases, a sucessful match may not yield a unique set of bindings. For instance the matching of aba by the regular expression (('a'|"ab") as x) (("ba"|'a') as y) may result in binding either x to "ab" and y to "a", or x to "a" and y to "ba". The automata produced ocamllex on such ambiguous regular expressions will select one of the possible resulting sets of bindings. The selected set of bindings is purposely left unspecified.

12.2.7  Reserved identifiers

All identifiers starting with __ocaml_lex are reserved for use by ocamllex; do not use any such identifier in your programs.

12.3  Overview of ocamlyacc

The ocamlyacc command produces a parser from a context-free grammar specification with attached semantic actions, in the style of yacc. Assuming the input file is grammar.mly, executing 

        ocamlyacc options grammar.mly

produces OCaml code for a parser in the file grammar.ml, and its interface in file grammar.mli.

The generated module defines one parsing function per entry point in the grammar. These functions have the same names as the entry points. Parsing functions take as arguments a lexical analyzer (a function from lexer buffers to tokens) and a lexer buffer, and return the semantic attribute of the corresponding entry point. Lexical analyzer functions are usually generated from a lexer specification by the ocamllex program. Lexer buffers are an abstract data type implemented in the standard library module Lexing. Tokens are values from the concrete type token, defined in the interface file grammar.mli produced by ocamlyacc.

12.4  Syntax of grammar definitions

Grammar definitions have the following format: 

%{
  header
%}
  declarations
%%
  rules
%%
  trailer

Comments are enclosed between /* and */ (as in C) in the “declarations” and “rules” sections, and between (* and *) (as in OCaml) in the “header” and “trailer” sections.

12.4.1  Header and trailer

The header and the trailer sections are OCaml code that is copied as is into file grammar.ml. Both sections are optional. The header goes at the beginning of the output file; it usually contains open directives and auxiliary functions required by the semantic actions of the rules. The trailer goes at the end of the output file.

12.4.2  Declarations

Declarations are given one per line. They all start with a % sign.

%token constr …  constr
Declare the given symbols constr …  constr as tokens (terminal symbols). These symbols are added as constant constructors for the token concrete type.
%token < typexpr >  constr …  constr
Declare the given symbols constr …  constr as tokens with an attached attribute of the given type. These symbols are added as constructors with arguments of the given type for the token concrete type. The typexpr part is an arbitrary OCaml type expression, except that all type constructor names must be fully qualified (e.g. Modname.typename) for all types except standard built-in types, even if the proper open directives (e.g. open Modname) were given in the header section. That’s because the header is copied only to the .ml output file, but not to the .mli output file, while the typexpr part of a %token declaration is copied to both.
%start symbol …  symbol
Declare the given symbols as entry points for the grammar. For each entry point, a parsing function with the same name is defined in the output module. Non-terminals that are not declared as entry points have no such parsing function. Start symbols must be given a type with the %type directive below.
%type < typexpr >  symbol …  symbol
Specify the type of the semantic attributes for the given symbols. This is mandatory for start symbols only. Other nonterminal symbols need not be given types by hand: these types will be inferred when running the output files through the OCaml compiler (unless the -s option is in effect). The typexpr part is an arbitrary OCaml type expression, except that all type constructor names must be fully qualified, as explained above for %token.
%left symbol …  symbol
%right symbol …  symbol
%nonassoc symbol …  symbol

Associate precedences and associativities to the given symbols. All symbols on the same line are given the same precedence. They have higher precedence than symbols declared before in a %left, %right or %nonassoc line. They have lower precedence than symbols declared after in a %left, %right or %nonassoc line. The symbols are declared to associate to the left (%left), to the right (%right), or to be non-associative (%nonassoc). The symbols are usually tokens. They can also be dummy nonterminals, for use with the %prec directive inside the rules.

The precedence declarations are used in the following way to resolve reduce/reduce and shift/reduce conflicts:

  • Tokens and rules have precedences. By default, the precedence of a rule is the precedence of its rightmost terminal. You can override this default by using the %prec directive in the rule.
  • A reduce/reduce conflict is resolved in favor of the first rule (in the order given by the source file), and ocamlyacc outputs a warning.
  • A shift/reduce conflict is resolved by comparing the precedence of the rule to be reduced with the precedence of the token to be shifted. If the precedence of the rule is higher, then the rule will be reduced; if the precedence of the token is higher, then the token will be shifted.
  • A shift/reduce conflict between a rule and a token with the same precedence will be resolved using the associativity: if the token is left-associative, then the parser will reduce; if the token is right-associative, then the parser will shift. If the token is non-associative, then the parser will declare a syntax error.
  • When a shift/reduce conflict cannot be resolved using the above method, then ocamlyacc will output a warning and the parser will always shift.

12.4.3  Rules

The syntax for rules is as usual: 

nonterminal :
    symbolsymbol { semantic-action }
  | …
  | symbolsymbol { semantic-action }
;

Rules can also contain the %prec symbol directive in the right-hand side part, to override the default precedence and associativity of the rule with the precedence and associativity of the given symbol.

Semantic actions are arbitrary OCaml expressions, that are evaluated to produce the semantic attribute attached to the defined nonterminal. The semantic actions can access the semantic attributes of the symbols in the right-hand side of the rule with the $ notation: $1 is the attribute for the first (leftmost) symbol, $2 is the attribute for the second symbol, etc.

The rules may contain the special symbol error to indicate resynchronization points, as in yacc.

Actions occurring in the middle of rules are not supported.

Nonterminal symbols are like regular OCaml symbols, except that they cannot end with ' (single quote).

12.4.4  Error handling

Error recovery is supported as follows: when the parser reaches an error state (no grammar rules can apply), it calls a function named parse_error with the string "syntax error" as argument. The default parse_error function does nothing and returns, thus initiating error recovery (see below). The user can define a customized parse_error function in the header section of the grammar file.

The parser also enters error recovery mode if one of the grammar actions raises the Parsing.Parse_error exception.

In error recovery mode, the parser discards states from the stack until it reaches a place where the error token can be shifted. It then discards tokens from the input until it finds three successive tokens that can be accepted, and starts processing with the first of these. If no state can be uncovered where the error token can be shifted, then the parser aborts by raising the Parsing.Parse_error exception.

Refer to documentation on yacc for more details and guidance in how to use error recovery.

12.5  Options

The ocamlyacc command recognizes the following options:

-bprefix
Name the output files prefix.ml, prefix.mli, prefix.output, instead of the default naming convention.
-q
This option has no effect.
-v
Generate a description of the parsing tables and a report on conflicts resulting from ambiguities in the grammar. The description is put in file grammar.output.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-
Read the grammar specification from standard input. The default output file names are stdin.ml and stdin.mli.
-- file
Process file as the grammar specification, even if its name starts with a dash (-) character. This option must be the last on the command line.

At run-time, the ocamlyacc-generated parser can be debugged by setting the p option in the OCAMLRUNPARAM environment variable (see section 10.2). This causes the pushdown automaton executing the parser to print a trace of its action (tokens shifted, rules reduced, etc). The trace mentions rule numbers and state numbers that can be interpreted by looking at the file grammar.output generated by ocamlyacc -v.

12.6  A complete example

The all-time favorite: a desk calculator. This program reads arithmetic expressions on standard input, one per line, and prints their values. Here is the grammar definition: 

        /* File parser.mly */
        %token <int> INT
        %token PLUS MINUS TIMES DIV
        %token LPAREN RPAREN
        %token EOL
        %left PLUS MINUS        /* lowest precedence */
        %left TIMES DIV         /* medium precedence */
        %nonassoc UMINUS        /* highest precedence */
        %start main             /* the entry point */
        %type <int> main
        %%
        main:
            expr EOL                { $1 }
        ;
        expr:
            INT                     { $1 }
          | LPAREN expr RPAREN      { $2 }
          | expr PLUS expr          { $1 + $3 }
          | expr MINUS expr         { $1 - $3 }
          | expr TIMES expr         { $1 * $3 }
          | expr DIV expr           { $1 / $3 }
          | MINUS expr %prec UMINUS { - $2 }
        ;

Here is the definition for the corresponding lexer: 

        (* File lexer.mll *)
        {
        open Parser        (* The type token is defined in parser.mli *)
        exception Eof
        }
        rule token = parse
            [' ' '\t']     { token lexbuf }     (* skip blanks *)
          | ['\n' ]        { EOL }
          | ['0'-'9']+ as lxm { INT(int_of_string lxm) }
          | '+'            { PLUS }
          | '-'            { MINUS }
          | '*'            { TIMES }
          | '/'            { DIV }
          | '('            { LPAREN }
          | ')'            { RPAREN }
          | eof            { raise Eof }

Here is the main program, that combines the parser with the lexer: 

        (* File calc.ml *)
        let _ =
          try
            let lexbuf = Lexing.from_channel stdin in
            while true do
              let result = Parser.main Lexer.token lexbuf in
                print_int result; print_newline(); flush stdout
            done
          with Lexer.Eof ->
            exit 0

To compile everything, execute: 

        ocamllex lexer.mll       # generates lexer.ml
        ocamlyacc parser.mly     # generates parser.ml and parser.mli
        ocamlc -c parser.mli
        ocamlc -c lexer.ml
        ocamlc -c parser.ml
        ocamlc -c calc.ml
        ocamlc -o calc lexer.cmo parser.cmo calc.cmo

12.7  Common errors

ocamllex: transition table overflow, automaton is too big

The deterministic automata generated by ocamllex are limited to at most 32767 transitions. The message above indicates that your lexer definition is too complex and overflows this limit. This is commonly caused by lexer definitions that have separate rules for each of the alphabetic keywords of the language, as in the following example. 

rule token = parse
  "keyword1"   { KWD1 }
| "keyword2"   { KWD2 }
| ...
| "keyword100" { KWD100 }
| ['A'-'Z' 'a'-'z'] ['A'-'Z' 'a'-'z' '0'-'9' '_'] * as id
               { IDENT id}

To keep the generated automata small, rewrite those definitions with only one general “identifier” rule, followed by a hashtable lookup to separate keywords from identifiers: 

{ let keyword_table = Hashtbl.create 53
  let _ =
    List.iter (fun (kwd, tok) -> Hashtbl.add keyword_table kwd tok)
              [ "keyword1", KWD1;
                "keyword2", KWD2; ...
                "keyword100", KWD100 ]
}
rule token = parse
  ['A'-'Z' 'a'-'z'] ['A'-'Z' 'a'-'z' '0'-'9' '_'] * as id
               { try
                   Hashtbl.find keyword_table id
                 with Not_found ->
                   IDENT id }
ocamllex: Position memory overflow, too many bindings
The deterministic automata generated by ocamllex maintain a table of positions inside the scanned lexer buffer. The size of this table is limited to at most 255 cells. This error should not show up in normal situations.
Previous Up Next ocaml-doc-4.01/ocaml.html/libthreads.html0000644000175000017500000000762612214324200016606 0ustar i33173i33173 The threads library Previous Up Next

Chapter 25  The threads library

The threads library allows concurrent programming in OCaml. It provides multiple threads of control (also called lightweight processes) that execute concurrently in the same memory space. Threads communicate by in-place modification of shared data structures, or by sending and receiving data on communication channels.

The threads library is implemented by time-sharing on a single processor. It will not take advantage of multi-processor machines. Using this library will therefore never make programs run faster. However, many programs are easier to write when structured as several communicating processes.

Two implementations of the threads library are available, depending on the capabilities of the operating system:

  • System threads. This implementation builds on the OS-provided threads facilities: POSIX 1003.1c threads for Unix, and Win32 threads for Windows. When available, system threads support both bytecode and native-code programs.
  • VM-level threads. This implementation performs time-sharing and context switching at the level of the OCaml virtual machine (bytecode interpreter). It is available on Unix systems, and supports only bytecode programs. It cannot be used with native-code programs.

Programs that use system threads must be linked as follows: 

        ocamlc -thread other options unix.cma threads.cma other files
        ocamlopt -thread other options unix.cmxa threads.cmxa other files

Compilation units that use the threads library must also be compiled with the -thread option (see chapter 8).

Programs that use VM-level threads must be compiled with the -vmthread option to ocamlc (see chapter 8), and be linked as follows: 

        ocamlc -vmthread other options threads.cma other files

Compilation units that use threads library must also be compiled with the -vmthread option (see chapter 8).

Previous Up Next ocaml-doc-4.01/ocaml.html/profil.html0000644000175000017500000002647512214324200015763 0ustar i33173i33173 Profiling (ocamlprof) Previous Up Next

Chapter 17  Profiling (ocamlprof)

This chapter describes how the execution of OCaml programs can be profiled, by recording how many times functions are called, branches of conditionals are taken, …

17.1  Compiling for profiling

Before profiling an execution, the program must be compiled in profiling mode, using the ocamlcp front-end to the ocamlc compiler (see chapter 8) or the ocamloptp front-end to the ocamlopt compiler (see chapter 11). When compiling modules separately, ocamlcp or ocamloptp must be used when compiling the modules (production of .cmo or .cmx files), and can also be used (though this is not strictly necessary) when linking them together.

Note

If a module (.ml file) doesn’t have a corresponding interface (.mli file), then compiling it with ocamlcp will produce object files (.cmi and .cmo) that are not compatible with the ones produced by ocamlc, which may lead to problems (if the .cmi or .cmo is still around) when switching between profiling and non-profiling compilations. To avoid this problem, you should always have a .mli file for each .ml file. The same problem exists with ocamloptp.

Note

To make sure your programs can be compiled in profiling mode, avoid using any identifier that begins with __ocaml_prof.

The amount of profiling information can be controlled through the -P option to ocamlcp or ocamloptp, followed by one or several letters indicating which parts of the program should be profiled:

a
all options
f
function calls : a count point is set at the beginning of each function body
i
if …then …else … : count points are set in both then branch and else branch
l
while, for loops: a count point is set at the beginning of the loop body
m
match branches: a count point is set at the beginning of the body of each branch
t
try …with … branches: a count point is set at the beginning of the body of each branch

For instance, compiling with ocamlcp -P film profiles function calls, if…then…else…, loops and pattern matching.

Calling ocamlcp or ocamloptp without the -P option defaults to -P fm, meaning that only function calls and pattern matching are profiled.

Note

For compatibility with previous releases, ocamlcp also accepts the -p option, with the same arguments and behaviour as -P.

The ocamlcp and ocamloptp commands also accept all the options of the corresponding ocamlc or ocamlopt compiler, except the -pp (preprocessing) option.

17.2  Profiling an execution

Running an executable that has been compiled with ocamlcp or ocamloptp records the execution counts for the specified parts of the program and saves them in a file called ocamlprof.dump in the current directory.

If the environment variable OCAMLPROF_DUMP is set when the program exits, its value is used as the file name instead of ocamlprof.dump.

The dump file is written only if the program terminates normally (by calling exit or by falling through). It is not written if the program terminates with an uncaught exception.

If a compatible dump file already exists in the current directory, then the profiling information is accumulated in this dump file. This allows, for instance, the profiling of several executions of a program on different inputs. Note that dump files produced by byte-code executables (compiled with ocamlcp) are compatible with the dump files produced by native executables (compiled with ocamloptp).

17.3  Printing profiling information

The ocamlprof command produces a source listing of the program modules where execution counts have been inserted as comments. For instance, 

        ocamlprof foo.ml

prints the source code for the foo module, with comments indicating how many times the functions in this module have been called. Naturally, this information is accurate only if the source file has not been modified after it was compiled.

The following options are recognized by ocamlprof:

-f dumpfile
Specifies an alternate dump file of profiling information to be read.
-F string
Specifies an additional string to be output with profiling information. By default, ocamlprof will annotate programs with comments of the form (* n *) where n is the counter value for a profiling point. With option -F s, the annotation will be (* sn *).
-impl filename
Process the file filename as an implementation file, even if its extension is not .ml.
-intf filename
Process the file filename as an interface file, even if its extension is not .mli.
-version
Print version string and exit.
-vnum
Print short version number and exit.
-help or --help
Display a short usage summary and exit.

17.4  Time profiling

Profiling with ocamlprof only records execution counts, not the actual time spent within each function. There is currently no way to perform time profiling on bytecode programs generated by ocamlc.

Native-code programs generated by ocamlopt can be profiled for time and execution counts using the -p option and the standard Unix profiler gprof. Just add the -p option when compiling and linking the program: 

        ocamlopt -o myprog -p other-options files
        ./myprog
        gprof myprog

OCaml function names in the output of gprof have the following format: 

        Module-name_function-name_unique-number

Other functions shown are either parts of the OCaml run-time system or external C functions linked with the program.

The output of gprof is described in the Unix manual page for gprof(1). It generally consists of two parts: a “flat” profile showing the time spent in each function and the number of invocation of each function, and a “hierarchical” profile based on the call graph. Currently, only the Intel x86 ports of ocamlopt under Linux, BSD and MacOS X support the two profiles. On other platforms, gprof will report only the “flat” profile with just time information. When reading the output of gprof, keep in mind that the accumulated times computed by gprof are based on heuristics and may not be exact.

Note

The ocamloptp command also accepts the -p option. In that case, both kinds of profiling are performed by the program, and you can display the results with the gprof and ocamlprof commands, respectively.

Previous Up Next ocaml-doc-4.01/ocaml.html/liblabltk.html0000644000175000017500000001151012214324200016410 0ustar i33173i33173 The LablTk library: Tcl/Tk GUI interface Previous Up Next

Chapter 28  The LablTk library: Tcl/Tk GUI interface

The labltk library provides access to the Tcl/Tk GUI from OCaml programs. This interface is generated in an automated way, and you should refer to Tcl/Tk books and man pages for detailed information on the behavior of the numerous functions. We also suggest to use ocamlbrowser to see the types of the various functions, that are the best documentation for the library itself.


Programs that use the labltk library must be linked as follows: 

        ocamlc other options -I +labltk labltk.cma other files
        ocamlopt other options -I +labltk labltk.cmxa other files
Unix:   The labltk library is available for any system with Tcl/Tk installed, starting from Tcl 7.5/Tk 4.1 up to Tcl/Tk 8.4. Beware that some beta versions may have compatibility problems.

If the library was not compiled correctly, try to run again the configure script with the option -tkdefs switches, where switches is a list of C-style inclusion paths leading to the right tcl.h and tk.h, for instance "-I/usr/local/include/tcl8.4 -I/usr/local/include/tk8.4".

A script is installed, to make easier the use of the labltk library as toplevel.

labltk
This is a toplevel including the labltk library, and the path is already set as to allow the use of the various modules. It also includes code for the Unix and Str libraries. You can use it in place of ocaml.
Windows:   The labltk library has been precompiled for use with Tcl/Tk 8.4. You must first have it installed on your system. It can be downloaded from
http://www.activestate.com/products/ActiveTcl/. After installing it, you must put the dynamically loaded libraries tcl84.dll and tk84.dll (from the bin directory of the Tcl installation) in a directory included in you path.

No toplevel is available, but you can load the library from the standard toplevel with the following commands. 

# #directory "+labltk";;
# #load "labltk.cma";;

You can also load it directly from the command line. 

C:\ocaml\bin> ocaml -I +labltk labltk.cma

The labltk library is composed of a large number of modules. 

Bell                Imagebitmap         Place
Button              Imagephoto          Radiobutton
Canvas              Label               Scale
Checkbutton         Listbox             Scrollbar
Clipboard           Menu                Selection
Dialog              Menubutton          Text
Entry               Message             Tk
Focus               Option              Tkwait
Frame               Optionmenu          Toplevel
Grab                Pack                Winfo
Grid                Palette             Wm

Giving a detailed account of each of these module would be impractical here. We will just present some of the basic functions in the module Tk. Note that for most other modules information can be found in the Tcl man page of their name.

Previous Up Next ocaml-doc-4.01/ocaml.html/coreexamples.html0000644000175000017500000010747412214324200017156 0ustar i33173i33173 The core language Previous Up Next

Chapter 1  The core language

This part of the manual is a tutorial introduction to the OCaml language. A good familiarity with programming in a conventional languages (say, Pascal or C) is assumed, but no prior exposure to functional languages is required. The present chapter introduces the core language. Chapter 2 deals with the module system, chapter 3 with the object-oriented features, chapter 4 with extensions to the core language (labeled arguments and polymorphic variants), and chapter 5 gives some advanced examples.

1.1  Basics

For this overview of OCaml, we use the interactive system, which is started by running ocaml from the Unix shell, or by launching the OCamlwin.exe application under Windows. This tutorial is presented as the transcript of a session with the interactive system: lines starting with # represent user input; the system responses are printed below, without a leading #.

Under the interactive system, the user types OCaml phrases terminated by ;; in response to the # prompt, and the system compiles them on the fly, executes them, and prints the outcome of evaluation. Phrases are either simple expressions, or let definitions of identifiers (either values or functions). 

# 1+2*3;;
- : int = 7

# let pi = 4.0 *. atan 1.0;;
val pi : float = 3.14159265358979312

# let square x = x *. x;;
val square : float -> float = <fun>

# square (sin pi) +. square (cos pi);;
- : float = 1.

The OCaml system computes both the value and the type for each phrase. Even function parameters need no explicit type declaration: the system infers their types from their usage in the function. Notice also that integers and floating-point numbers are distinct types, with distinct operators: + and * operate on integers, but +. and *. operate on floats. 

# 1.0 * 2;;
Error: This expression has type float but an expression was expected of type
         int

Recursive functions are defined with the let rec binding: 

# let rec fib n =
    if n < 2 then n else fib (n-1) + fib (n-2);;
val fib : int -> int = <fun>

# fib 10;;
- : int = 55

1.2  Data types

In addition to integers and floating-point numbers, OCaml offers the usual basic data types: booleans, characters, and character strings. 

# (1 < 2) = false;;
- : bool = false

# 'a';;
- : char = 'a'

# "Hello world";;
- : string = "Hello world"

Predefined data structures include tuples, arrays, and lists. General mechanisms for defining your own data structures are also provided. They will be covered in more details later; for now, we concentrate on lists. Lists are either given in extension as a bracketed list of semicolon-separated elements, or built from the empty list [] (pronounce “nil”) by adding elements in front using the :: (“cons”) operator. 

# let l = ["is"; "a"; "tale"; "told"; "etc."];;
val l : string list = ["is"; "a"; "tale"; "told"; "etc."]

# "Life" :: l;;
- : string list = ["Life"; "is"; "a"; "tale"; "told"; "etc."]

As with all other OCaml data structures, lists do not need to be explicitly allocated and deallocated from memory: all memory management is entirely automatic in OCaml. Similarly, there is no explicit handling of pointers: the OCaml compiler silently introduces pointers where necessary.

As with most OCaml data structures, inspecting and destructuring lists is performed by pattern-matching. List patterns have the exact same shape as list expressions, with identifier representing unspecified parts of the list. As an example, here is insertion sort on a list: 

# let rec sort lst =
    match lst with
      [] -> []
    | head :: tail -> insert head (sort tail)
  and insert elt lst =
    match lst with
      [] -> [elt]
    | head :: tail -> if elt <= head then elt :: lst else head :: insert elt tail
  ;;
val sort : 'a list -> 'a list = <fun>
val insert : 'a -> 'a list -> 'a list = <fun>

# sort l;;
- : string list = ["a"; "etc."; "is"; "tale"; "told"]

The type inferred for sort, 'a list -> 'a list, means that sort can actually apply to lists of any type, and returns a list of the same type. The type 'a is a type variable, and stands for any given type. The reason why sort can apply to lists of any type is that the comparisons (=, <=, etc.) are polymorphic in OCaml: they operate between any two values of the same type. This makes sort itself polymorphic over all list types. 

# sort [6;2;5;3];;
- : int list = [2; 3; 5; 6]

# sort [3.14; 2.718];;
- : float list = [2.718; 3.14]

The sort function above does not modify its input list: it builds and returns a new list containing the same elements as the input list, in ascending order. There is actually no way in OCaml to modify in-place a list once it is built: we say that lists are immutable data structures. Most OCaml data structures are immutable, but a few (most notably arrays) are mutable, meaning that they can be modified in-place at any time.

1.3  Functions as values

OCaml is a functional language: functions in the full mathematical sense are supported and can be passed around freely just as any other piece of data. For instance, here is a deriv function that takes any float function as argument and returns an approximation of its derivative function: 

# let deriv f dx = function x -> (f (x +. dx) -. f x) /. dx;;
val deriv : (float -> float) -> float -> float -> float = <fun>

# let sin' = deriv sin 1e-6;;
val sin' : float -> float = <fun>

# sin' pi;;
- : float = -1.00000000013961143

Even function composition is definable: 

# let compose f g = function x -> f (g x);;
val compose : ('a -> 'b) -> ('c -> 'a) -> 'c -> 'b = <fun>

# let cos2 = compose square cos;;
val cos2 : float -> float = <fun>

Functions that take other functions as arguments are called “functionals”, or “higher-order functions”. Functionals are especially useful to provide iterators or similar generic operations over a data structure. For instance, the standard OCaml library provides a List.map functional that applies a given function to each element of a list, and returns the list of the results: 

# List.map (function n -> n * 2 + 1) [0;1;2;3;4];;
- : int list = [1; 3; 5; 7; 9]

This functional, along with a number of other list and array functionals, is predefined because it is often useful, but there is nothing magic with it: it can easily be defined as follows. 

# let rec map f l =
    match l with
      [] -> []
    | hd :: tl -> f hd :: map f tl;;
val map : ('a -> 'b) -> 'a list -> 'b list = <fun>

1.4  Records and variants

User-defined data structures include records and variants. Both are defined with the type declaration. Here, we declare a record type to represent rational numbers. 

# type ratio = {num: int; denom: int};;
type ratio = { num : int; denom : int; }

# let add_ratio r1 r2 =
    {num = r1.num * r2.denom + r2.num * r1.denom;
     denom = r1.denom * r2.denom};;
val add_ratio : ratio -> ratio -> ratio = <fun>

# add_ratio {num=1; denom=3} {num=2; denom=5};;
- : ratio = {num = 11; denom = 15}

The declaration of a variant type lists all possible shapes for values of that type. Each case is identified by a name, called a constructor, which serves both for constructing values of the variant type and inspecting them by pattern-matching. Constructor names are capitalized to distinguish them from variable names (which must start with a lowercase letter). For instance, here is a variant type for doing mixed arithmetic (integers and floats): 

# type number = Int of int | Float of float | Error;;
type number = Int of int | Float of float | Error

This declaration expresses that a value of type number is either an integer, a floating-point number, or the constant Error representing the result of an invalid operation (e.g. a division by zero).

Enumerated types are a special case of variant types, where all alternatives are constants: 

# type sign = Positive | Negative;;
type sign = Positive | Negative

# let sign_int n = if n >= 0 then Positive else Negative;;
val sign_int : int -> sign = <fun>

To define arithmetic operations for the number type, we use pattern-matching on the two numbers involved: 

# let add_num n1 n2 =
    match (n1, n2) with
      (Int i1, Int i2) ->
        (* Check for overflow of integer addition *)
        if sign_int i1 = sign_int i2 && sign_int (i1 + i2) <> sign_int i1
        then Float(float i1 +. float i2)
        else Int(i1 + i2)
    | (Int i1, Float f2) -> Float(float i1 +. f2)
    | (Float f1, Int i2) -> Float(f1 +. float i2)
    | (Float f1, Float f2) -> Float(f1 +. f2)
    | (Error, _) -> Error
    | (_, Error) -> Error;;
val add_num : number -> number -> number = <fun>

# add_num (Int 123) (Float 3.14159);;
- : number = Float 126.14159

The most common usage of variant types is to describe recursive data structures. Consider for example the type of binary trees: 

# type 'a btree = Empty | Node of 'a * 'a btree * 'a btree;;
type 'a btree = Empty | Node of 'a * 'a btree * 'a btree

This definition reads as follow: a binary tree containing values of type 'a (an arbitrary type) is either empty, or is a node containing one value of type 'a and two subtrees containing also values of type 'a, that is, two 'a btree.

Operations on binary trees are naturally expressed as recursive functions following the same structure as the type definition itself. For instance, here are functions performing lookup and insertion in ordered binary trees (elements increase from left to right): 

# let rec member x btree =
    match btree with
      Empty -> false
    | Node(y, left, right) ->
        if x = y then true else
        if x < y then member x left else member x right;;
val member : 'a -> 'a btree -> bool = <fun>

# let rec insert x btree =
    match btree with
      Empty -> Node(x, Empty, Empty)
    | Node(y, left, right) ->
        if x <= y then Node(y, insert x left, right)
                  else Node(y, left, insert x right);;
val insert : 'a -> 'a btree -> 'a btree = <fun>

1.5  Imperative features

Though all examples so far were written in purely applicative style, OCaml is also equipped with full imperative features. This includes the usual while and for loops, as well as mutable data structures such as arrays. Arrays are either given in extension between [| and |] brackets, or allocated and initialized with the Array.create function, then filled up later by assignments. For instance, the function below sums two vectors (represented as float arrays) componentwise. 

# let add_vect v1 v2 =
    let len = min (Array.length v1) (Array.length v2) in
    let res = Array.create len 0.0 in
    for i = 0 to len - 1 do
      res.(i) <- v1.(i) +. v2.(i)
    done;
    res;;
val add_vect : float array -> float array -> float array = <fun>

# add_vect [| 1.0; 2.0 |] [| 3.0; 4.0 |];;
- : float array = [|4.; 6.|]

Record fields can also be modified by assignment, provided they are declared mutable in the definition of the record type: 

# type mutable_point = { mutable x: float; mutable y: float };;
type mutable_point = { mutable x : float; mutable y : float; }

# let translate p dx dy =
    p.x <- p.x +. dx; p.y <- p.y +. dy;;
val translate : mutable_point -> float -> float -> unit = <fun>

# let mypoint = { x = 0.0; y = 0.0 };;
val mypoint : mutable_point = {x = 0.; y = 0.}

# translate mypoint 1.0 2.0;;
- : unit = ()

# mypoint;;
- : mutable_point = {x = 1.; y = 2.}

OCaml has no built-in notion of variable – identifiers whose current value can be changed by assignment. (The let binding is not an assignment, it introduces a new identifier with a new scope.) However, the standard library provides references, which are mutable indirection cells (or one-element arrays), with operators ! to fetch the current contents of the reference and := to assign the contents. Variables can then be emulated by let-binding a reference. For instance, here is an in-place insertion sort over arrays: 

# let insertion_sort a =
    for i = 1 to Array.length a - 1 do
      let val_i = a.(i) in
      let j = ref i in
      while !j > 0 && val_i < a.(!j - 1) do
        a.(!j) <- a.(!j - 1);
        j := !j - 1
      done;
      a.(!j) <- val_i
    done;;
val insertion_sort : 'a array -> unit = <fun>

References are also useful to write functions that maintain a current state between two calls to the function. For instance, the following pseudo-random number generator keeps the last returned number in a reference: 

# let current_rand = ref 0;;
val current_rand : int ref = {contents = 0}

# let random () =
    current_rand := !current_rand * 25713 + 1345;
    !current_rand;;
val random : unit -> int = <fun>

Again, there is nothing magical with references: they are implemented as a single-field mutable record, as follows. 

# type 'a ref = { mutable contents: 'a };;
type 'a ref = { mutable contents : 'a; }

# let ( ! ) r = r.contents;;
val ( ! ) : 'a ref -> 'a = <fun>

# let ( := ) r newval = r.contents <- newval;;
val ( := ) : 'a ref -> 'a -> unit = <fun>

In some special cases, you may need to store a polymorphic function in a data structure, keeping its polymorphism. Without user-provided type annotations, this is not allowed, as polymorphism is only introduced on a global level. However, you can give explicitly polymorphic types to record fields. 

# type idref = { mutable id: 'a. 'a -> 'a };;
type idref = { mutable id : 'a. 'a -> 'a; }

# let r = {id = fun x -> x};;
val r : idref = {id = <fun>}

# let g s = (s.id 1, s.id true);;
val g : idref -> int * bool = <fun>

# r.id <- (fun x -> print_string "called id\n"; x);;
- : unit = ()

# g r;;
called id
called id
- : int * bool = (1, true)

1.6  Exceptions

OCaml provides exceptions for signalling and handling exceptional conditions. Exceptions can also be used as a general-purpose non-local control structure. Exceptions are declared with the exception construct, and signalled with the raise operator. For instance, the function below for taking the head of a list uses an exception to signal the case where an empty list is given. 

# exception Empty_list;;
exception Empty_list

# let head l =
    match l with
      [] -> raise Empty_list
    | hd :: tl -> hd;;
val head : 'a list -> 'a = <fun>

# head [1;2];;
- : int = 1

# head [];;
Exception: Empty_list.

Exceptions are used throughout the standard library to signal cases where the library functions cannot complete normally. For instance, the List.assoc function, which returns the data associated with a given key in a list of (key, data) pairs, raises the predefined exception Not_found when the key does not appear in the list: 

# List.assoc 1 [(0, "zero"); (1, "one")];;
- : string = "one"

# List.assoc 2 [(0, "zero"); (1, "one")];;
Exception: Not_found.

Exceptions can be trapped with the trywith construct: 

# let name_of_binary_digit digit =
    try
      List.assoc digit [0, "zero"; 1, "one"]
    with Not_found ->
      "not a binary digit";;
val name_of_binary_digit : int -> string = <fun>

# name_of_binary_digit 0;;
- : string = "zero"

# name_of_binary_digit (-1);;
- : string = "not a binary digit"

The with part is actually a regular pattern-matching on the exception value. Thus, several exceptions can be caught by one trywith construct. Also, finalization can be performed by trapping all exceptions, performing the finalization, then raising again the exception: 

# let temporarily_set_reference ref newval funct =
    let oldval = !ref in
    try
      ref := newval;
      let res = funct () in
      ref := oldval;
      res
    with x ->
      ref := oldval;
      raise x;;
val temporarily_set_reference : 'a ref -> 'a -> (unit -> 'b) -> 'b = <fun>

1.7  Symbolic processing of expressions

We finish this introduction with a more complete example representative of the use of OCaml for symbolic processing: formal manipulations of arithmetic expressions containing variables. The following variant type describes the expressions we shall manipulate: 

# type expression =
      Const of float
    | Var of string
    | Sum of expression * expression    (* e1 + e2 *)
    | Diff of expression * expression   (* e1 - e2 *)
    | Prod of expression * expression   (* e1 * e2 *)
    | Quot of expression * expression   (* e1 / e2 *)
  ;;
type expression =
    Const of float
  | Var of string
  | Sum of expression * expression
  | Diff of expression * expression
  | Prod of expression * expression
  | Quot of expression * expression

We first define a function to evaluate an expression given an environment that maps variable names to their values. For simplicity, the environment is represented as an association list. 

# exception Unbound_variable of string;;
exception Unbound_variable of string

# let rec eval env exp =
    match exp with
      Const c -> c
    | Var v ->
        (try List.assoc v env with Not_found -> raise (Unbound_variable v))
    | Sum(f, g) -> eval env f +. eval env g
    | Diff(f, g) -> eval env f -. eval env g
    | Prod(f, g) -> eval env f *. eval env g
    | Quot(f, g) -> eval env f /. eval env g;;
val eval : (string * float) list -> expression -> float = <fun>

# eval [("x", 1.0); ("y", 3.14)] (Prod(Sum(Var "x", Const 2.0), Var "y"));;
- : float = 9.42

Now for a real symbolic processing, we define the derivative of an expression with respect to a variable dv: 

# let rec deriv exp dv =
    match exp with
      Const c -> Const 0.0
    | Var v -> if v = dv then Const 1.0 else Const 0.0
    | Sum(f, g) -> Sum(deriv f dv, deriv g dv)
    | Diff(f, g) -> Diff(deriv f dv, deriv g dv)
    | Prod(f, g) -> Sum(Prod(f, deriv g dv), Prod(deriv f dv, g))
    | Quot(f, g) -> Quot(Diff(Prod(deriv f dv, g), Prod(f, deriv g dv)),
                         Prod(g, g))
  ;;
val deriv : expression -> string -> expression = <fun>

# deriv (Quot(Const 1.0, Var "x")) "x";;
- : expression =
Quot (Diff (Prod (Const 0., Var "x"), Prod (Const 1., Const 1.)),
 Prod (Var "x", Var "x"))

1.8  Pretty-printing and parsing

As shown in the examples above, the internal representation (also called abstract syntax) of expressions quickly becomes hard to read and write as the expressions get larger. We need a printer and a parser to go back and forth between the abstract syntax and the concrete syntax, which in the case of expressions is the familiar algebraic notation (e.g. 2*x+1).

For the printing function, we take into account the usual precedence rules (i.e. * binds tighter than +) to avoid printing unnecessary parentheses. To this end, we maintain the current operator precedence and print parentheses around an operator only if its precedence is less than the current precedence. 

# let print_expr exp =
    (* Local function definitions *)
    let open_paren prec op_prec =
      if prec > op_prec then print_string "(" in
    let close_paren prec op_prec =
      if prec > op_prec then print_string ")" in
    let rec print prec exp =     (* prec is the current precedence *)
      match exp with
        Const c -> print_float c
      | Var v -> print_string v
      | Sum(f, g) ->
          open_paren prec 0;
          print 0 f; print_string " + "; print 0 g;
          close_paren prec 0
      | Diff(f, g) ->
          open_paren prec 0;
          print 0 f; print_string " - "; print 1 g;
          close_paren prec 0
      | Prod(f, g) ->
          open_paren prec 2;
          print 2 f; print_string " * "; print 2 g;
          close_paren prec 2
      | Quot(f, g) ->
          open_paren prec 2;
          print 2 f; print_string " / "; print 3 g;
          close_paren prec 2
    in print 0 exp;;
val print_expr : expression -> unit = <fun>

# let e = Sum(Prod(Const 2.0, Var "x"), Const 1.0);;
val e : expression = Sum (Prod (Const 2., Var "x"), Const 1.)

# print_expr e; print_newline ();;
2. * x + 1.
- : unit = ()

# print_expr (deriv e "x"); print_newline ();;
2. * 1. + 0. * x + 0.
- : unit = ()

Parsing (transforming concrete syntax into abstract syntax) is usually more delicate. OCaml offers several tools to help write parsers: on the one hand, OCaml versions of the lexer generator Lex and the parser generator Yacc (see chapter 12), which handle LALR(1) languages using push-down automata; on the other hand, a predefined type of streams (of characters or tokens) and pattern-matching over streams, which facilitate the writing of recursive-descent parsers for LL(1) languages. An example using ocamllex and ocamlyacc is given in chapter 12. Here, we will use stream parsers. The syntactic support for stream parsers is provided by the Camlp4 preprocessor, which can be loaded into the interactive toplevel via the #load directives below.

# #load "dynlink.cma";;

  #load "camlp4o.cma";;
	Camlp4 Parsing version 4.01.0+dev26-2013-09-06


# open Genlex;;

  let lexer = make_lexer ["("; ")"; "+"; "-"; "*"; "/"];;
val lexer : char Stream.t -> Genlex.token Stream.t = <fun>

For the lexical analysis phase (transformation of the input text into a stream of tokens), we use a “generic” lexer provided in the standard library module Genlex. The make_lexer function takes a list of keywords and returns a lexing function that “tokenizes” an input stream of characters. Tokens are either identifiers, keywords, or literals (integer, floats, characters, strings). Whitespace and comments are skipped. 

# let token_stream = lexer (Stream.of_string "1.0 +x");;
val token_stream : Genlex.token Stream.t = <abstr>

# Stream.next token_stream;;
- : Genlex.token = Float 1.

# Stream.next token_stream;;
- : Genlex.token = Kwd "+"

# Stream.next token_stream;;
- : Genlex.token = Ident "x"

The parser itself operates by pattern-matching on the stream of tokens. As usual with recursive descent parsers, we use several intermediate parsing functions to reflect the precedence and associativity of operators. Pattern-matching over streams is more powerful than on regular data structures, as it allows recursive calls to parsing functions inside the patterns, for matching sub-components of the input stream. See the Camlp4 documentation for more details.

# let rec parse_expr = parser
      [< e1 = parse_mult; e = parse_more_adds e1 >] -> e
  and parse_more_adds e1 = parser
      [< 'Kwd "+"; e2 = parse_mult; e = parse_more_adds (Sum(e1, e2)) >] -> e
    | [< 'Kwd "-"; e2 = parse_mult; e = parse_more_adds (Diff(e1, e2)) >] -> e
    | [< >] -> e1
  and parse_mult = parser
      [< e1 = parse_simple; e = parse_more_mults e1 >] -> e
  and parse_more_mults e1 = parser
      [< 'Kwd "*"; e2 = parse_simple; e = parse_more_mults (Prod(e1, e2)) >] -> e
    | [< 'Kwd "/"; e2 = parse_simple; e = parse_more_mults (Quot(e1, e2)) >] -> e
    | [< >] -> e1
  and parse_simple = parser
      [< 'Ident s >] -> Var s
    | [< 'Int i >] -> Const(float i)
    | [< 'Float f >] -> Const f
    | [< 'Kwd "("; e = parse_expr; 'Kwd ")" >] -> e;;
val parse_expr : Genlex.token Stream.t -> expression = <fun>
val parse_more_adds : expression -> Genlex.token Stream.t -> expression =
  <fun>
val parse_mult : Genlex.token Stream.t -> expression = <fun>
val parse_more_mults : expression -> Genlex.token Stream.t -> expression =
  <fun>
val parse_simple : Genlex.token Stream.t -> expression = <fun>

# let parse_expression = parser [< e = parse_expr; _ = Stream.empty >] -> e;;
val parse_expression : Genlex.token Stream.t -> expression = <fun>

Composing the lexer and parser, we finally obtain a function to read an expression from a character string: 

# let read_expression s = parse_expression (lexer (Stream.of_string s));;
val read_expression : string -> expression = <fun>

# read_expression "2*(x+y)";;
- : expression = Prod (Const 2., Sum (Var "x", Var "y"))

A small puzzle: why do we get different results in the following two examples? 

# read_expression "x - 1";;
- : expression = Diff (Var "x", Const 1.)

# read_expression "x-1";;
Exception: Stream.Error "".

Answer: the generic lexer provided by Genlex recognizes negative integer literals as one integer token. Hence, x-1 is read as the token Ident "x" followed by the token Int(-1); this sequence does not match any of the parser rules. On the other hand, the second space in x - 1 causes the lexer to return the three expected tokens: Ident "x", then Kwd "-", then Int(1).

1.9  Standalone OCaml programs

All examples given so far were executed under the interactive system. OCaml code can also be compiled separately and executed non-interactively using the batch compilers ocamlc and ocamlopt. The source code must be put in a file with extension .ml. It consists of a sequence of phrases, which will be evaluated at runtime in their order of appearance in the source file. Unlike in interactive mode, types and values are not printed automatically; the program must call printing functions explicitly to produce some output. Here is a sample standalone program to print Fibonacci numbers: 

(* File fib.ml *)
let rec fib n =
  if n < 2 then 1 else fib (n-1) + fib (n-2);;
let main () =
  let arg = int_of_string Sys.argv.(1) in
  print_int (fib arg);
  print_newline ();
  exit 0;;
main ();;

Sys.argv is an array of strings containing the command-line parameters. Sys.argv.(1) is thus the first command-line parameter. The program above is compiled and executed with the following shell commands: 

$ ocamlc -o fib fib.ml
$ ./fib 10
89
$ ./fib 20
10946

More complex standalone OCaml programs are typically composed of multiple source files, and can link with precompiled libraries. Chapters 8 and 11 explain how to use the batch compilers ocamlc and ocamlopt. Recompilation of multi-file OCaml projects can be automated using the ocamlbuild compilation manager, documented in chapter 18.

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Chapter 11  Native-code compilation (ocamlopt)

This chapter describes the OCaml high-performance native-code compiler ocamlopt, which compiles OCaml source files to native code object files and link these object files to produce standalone executables.

The native-code compiler is only available on certain platforms. It produces code that runs faster than the bytecode produced by ocamlc, at the cost of increased compilation time and executable code size. Compatibility with the bytecode compiler is extremely high: the same source code should run identically when compiled with ocamlc and ocamlopt.

It is not possible to mix native-code object files produced by ocamlopt with bytecode object files produced by ocamlc: a program must be compiled entirely with ocamlopt or entirely with ocamlc. Native-code object files produced by ocamlopt cannot be loaded in the toplevel system ocaml.

11.1  Overview of the compiler

The ocamlopt command has a command-line interface very close to that of ocamlc. It accepts the same types of arguments, and processes them sequentially:

  • Arguments ending in .mli are taken to be source files for compilation unit interfaces. Interfaces specify the names exported by compilation units: they declare value names with their types, define public data types, declare abstract data types, and so on. From the file x.mli, the ocamlopt compiler produces a compiled interface in the file x.cmi. The interface produced is identical to that produced by the bytecode compiler ocamlc.
  • Arguments ending in .ml are taken to be source files for compilation unit implementations. Implementations provide definitions for the names exported by the unit, and also contain expressions to be evaluated for their side-effects. From the file x.ml, the ocamlopt compiler produces two files: x.o, containing native object code, and x.cmx, containing extra information for linking and optimization of the clients of the unit. The compiled implementation should always be referred to under the name x.cmx (when given a .o or .obj file, ocamlopt assumes that it contains code compiled from C, not from OCaml).

    The implementation is checked against the interface file x.mli (if it exists) as described in the manual for ocamlc (chapter 8).

  • Arguments ending in .cmx are taken to be compiled object code. These files are linked together, along with the object files obtained by compiling .ml arguments (if any), and the OCaml standard library, to produce a native-code executable program. The order in which .cmx and .ml arguments are presented on the command line is relevant: compilation units are initialized in that order at run-time, and it is a link-time error to use a component of a unit before having initialized it. Hence, a given x.cmx file must come before all .cmx files that refer to the unit x.
  • Arguments ending in .cmxa are taken to be libraries of object code. Such a library packs in two files (lib.cmxa and lib.a/.lib) a set of object files (.cmx and .o/.obj files). Libraries are build with ocamlopt -a (see the description of the -a option below). The object files contained in the library are linked as regular .cmx files (see above), in the order specified when the library was built. The only difference is that if an object file contained in a library is not referenced anywhere in the program, then it is not linked in.
  • Arguments ending in .c are passed to the C compiler, which generates a .o/.obj object file. This object file is linked with the program.
  • Arguments ending in .o, .a or .so (.obj, .lib and .dll under Windows) are assumed to be C object files and libraries. They are linked with the program.

The output of the linking phase is a regular Unix or Windows executable file. It does not need ocamlrun to run.

11.2  Options

The following command-line options are recognized by ocamlopt. The options -pack, -a, -shared, -c and -output-obj are mutually exclusive.

-a
Build a library (.cmxa and .a/.lib files) with the object files (.cmx and .o/.obj files) given on the command line, instead of linking them into an executable file. The name of the library must be set with the -o option.

If -cclib or -ccopt options are passed on the command line, these options are stored in the resulting .cmxa library. Then, linking with this library automatically adds back the -cclib and -ccopt options as if they had been provided on the command line, unless the -noautolink option is given.

-absname
Force error messages to show absolute paths for file names.
-annot
Dump detailed information about the compilation (types, bindings, tail-calls, etc). The information for file src.ml is put into file src.annot. In case of a type error, dump all the information inferred by the type-checker before the error. The src.annot file can be used with the emacs commands given in emacs/caml-types.el to display types and other annotations interactively.
-bin-annot
Dump detailed information about the compilation (types, bindings, tail-calls, etc) in binary format. The information for file src.ml is put into file src.cmt. In case of a type error, dump all the information inferred by the type-checker before the error. The *.cmt files produced by -bin-annot contain more information and are much more compact than the files produced by -annot.
-c
Compile only. Suppress the linking phase of the compilation. Source code files are turned into compiled files, but no executable file is produced. This option is useful to compile modules separately.
-cc ccomp
Use ccomp as the C linker called to build the final executable and as the C compiler for compiling .c source files.
-cclib -llibname
Pass the -llibname option to the linker. This causes the given C library to be linked with the program.
-ccopt option
Pass the given option to the C compiler and linker. For instance, -ccopt -Ldir causes the C linker to search for C libraries in directory dir.
-compact
Optimize the produced code for space rather than for time. This results in slightly smaller but slightly slower programs. The default is to optimize for speed.
-config
Print the version number of ocamlopt and a detailed summary of its configuration, then exit.
-for-pack module-path
Generate an object file (.cmx and .o/.obj files) that can later be included as a sub-module (with the given access path) of a compilation unit constructed with -pack. For instance, ocamlopt -for-pack P -c A.ml will generate a.cmx and a.o files that can later be used with ocamlopt -pack -o P.cmx a.cmx.
-g
Add debugging information while compiling and linking. This option is required in order to produce stack backtraces when the program terminates on an uncaught exception (see section 10.2).
-i
Cause the compiler to print all defined names (with their inferred types or their definitions) when compiling an implementation (.ml file). No compiled files (.cmo and .cmi files) are produced. This can be useful to check the types inferred by the compiler. Also, since the output follows the syntax of interfaces, it can help in writing an explicit interface (.mli file) for a file: just redirect the standard output of the compiler to a .mli file, and edit that file to remove all declarations of unexported names.
-I directory
Add the given directory to the list of directories searched for compiled interface files (.cmi), compiled object code files (.cmx), and libraries (.cmxa). By default, the current directory is searched first, then the standard library directory. Directories added with -I are searched after the current directory, in the order in which they were given on the command line, but before the standard library directory.

If the given directory starts with +, it is taken relative to the standard library directory. For instance, -I +labltk adds the subdirectory labltk of the standard library to the search path.

-impl filename
Compile the file filename as an implementation file, even if its extension is not .ml.
-inline n
Set aggressiveness of inlining to n, where n is a positive integer. Specifying -inline 0 prevents all functions from being inlined, except those whose body is smaller than the call site. Thus, inlining causes no expansion in code size. The default aggressiveness, -inline 1, allows slightly larger functions to be inlined, resulting in a slight expansion in code size. Higher values for the -inline option cause larger and larger functions to become candidate for inlining, but can result in a serious increase in code size.
-intf filename
Compile the file filename as an interface file, even if its extension is not .mli.
-intf-suffix string
Recognize file names ending with string as interface files (instead of the default .mli).
-labels
Labels are not ignored in types, labels may be used in applications, and labelled parameters can be given in any order. This is the default.
-linkall
Force all modules contained in libraries to be linked in. If this flag is not given, unreferenced modules are not linked in. When building a library (-a flag), setting the -linkall flag forces all subsequent links of programs involving that library to link all the modules contained in the library.
-no-app-funct
Deactivates the applicative behaviour of functors. With this option, each functor application generates new types in its result and applying the same functor twice to the same argument yields two incompatible structures.
-noassert
Do not compile assertion checks. Note that the special form assert false is always compiled because it is typed specially. This flag has no effect when linking already-compiled files.
-noautolink
When linking .cmxa libraries, ignore -cclib and -ccopt options potentially contained in the libraries (if these options were given when building the libraries). This can be useful if a library contains incorrect specifications of C libraries or C options; in this case, during linking, set -noautolink and pass the correct C libraries and options on the command line.
-nodynlink
Allow the compiler to use some optimizations that are valid only for code that is never dynlinked.
-nolabels
Ignore non-optional labels in types. Labels cannot be used in applications, and parameter order becomes strict.
-o exec-file
Specify the name of the output file produced by the linker. The default output name is a.out under Unix and camlprog.exe under Windows. If the -a option is given, specify the name of the library produced. If the -pack option is given, specify the name of the packed object file produced. If the -output-obj option is given, specify the name of the output file produced. If the -shared option is given, specify the name of plugin file produced.
-output-obj
Cause the linker to produce a C object file instead of an executable file. This is useful to wrap OCaml code as a C library, callable from any C program. See chapter 19, section 19.7.5. The name of the output object file must be set with the -o option. This option can also be used to produce a compiled shared/dynamic library (.so extension, .dll under Windows).
-p
Generate extra code to write profile information when the program is executed. The profile information can then be examined with the analysis program gprof. (See chapter 17 for more information on profiling.) The -p option must be given both at compile-time and at link-time. Linking object files not compiled with -p is possible, but results in less precise profiling.
Unix:   See the Unix manual page for gprof(1) for more information about the profiles.

Full support for gprof is only available for certain platforms (currently: Intel x86 32 and 64 bits under Linux, BSD and MacOS X). On other platforms, the -p option will result in a less precise profile (no call graph information, only a time profile).

Windows:   The -p option does not work under Windows.
-pack
Build an object file (.cmx and .o/.obj files) and its associated compiled interface (.cmi) that combines the .cmx object files given on the command line, making them appear as sub-modules of the output .cmx file. The name of the output .cmx file must be given with the -o option. For instance, 
        ocamlopt -pack -o P.cmx A.cmx B.cmx C.cmx
generates compiled files P.cmx, P.o and P.cmi describing a compilation unit having three sub-modules A, B and C, corresponding to the contents of the object files A.cmx, B.cmx and C.cmx. These contents can be referenced as P.A, P.B and P.C in the remainder of the program.

The .cmx object files being combined must have been compiled with the appropriate -for-pack option. In the example above, A.cmx, B.cmx and C.cmx must have been compiled with ocamlopt -for-pack P.

Multiple levels of packing can be achieved by combining -pack with -for-pack. Consider the following example: 

        ocamlopt -for-pack P.Q -c A.ml
        ocamlopt -pack -o Q.cmx -for-pack P A.cmx
        ocamlopt -for-pack P -c B.ml
        ocamlopt -pack -o P.cmx Q.cmx B.cmx

The resulting P.cmx object file has sub-modules P.Q, P.Q.A and P.B.

-pp command
Cause the compiler to call the given command as a preprocessor for each source file. The output of command is redirected to an intermediate file, which is compiled. If there are no compilation errors, the intermediate file is deleted afterwards.
-ppx command
After parsing, pipe the abstract syntax tree through the preprocessor command. The format of the input and ouput of the preprocessor are not yet documented.
-principal
Check information path during type-checking, to make sure that all types are derived in a principal way. All programs accepted in -principal mode are also accepted in default mode with equivalent types, but different binary signatures.
-rectypes
Allow arbitrary recursive types during type-checking. By default, only recursive types where the recursion goes through an object type are supported. Note that once you have created an interface using this flag, you must use it again for all dependencies.
-runtime-variant suffix
Add the suffix string to the name of the runtime library used by the program. Currently, only one such suffix is supported: d, and only if the OCaml compiler was configured with option -with-debug-runtime. This suffix gives the debug version of the runtime, which is useful for debugging pointer problems in low-level code such as C stubs.
-S
Keep the assembly code produced during the compilation. The assembly code for the source file x.ml is saved in the file x.s.
-shared
Build a plugin (usually .cmxs) that can be dynamically loaded with the Dynlink module. The name of the plugin must be set with the -o option. A plugin can include a number of OCaml modules and libraries, and extra native objects (.o, .obj, .a, .lib files). Building native plugins is only supported for some operating system. Under some systems (currently, only Linux AMD 64), all the OCaml code linked in a plugin must have been compiled without the -nodynlink flag. Some constraints might also apply to the way the extra native objects have been compiled (under Linux AMD 64, they must contain only position-independent code).
-short-paths
When a type is visible under several module-paths, use the shortest one when printing the type’s name in inferred interfaces and error and warning messages.
-strict-sequence
Force the left-hand part of each sequence to have type unit.
-thread
Compile or link multithreaded programs, in combination with the system threads library described in chapter 25.
-unsafe
Turn bound checking off for array and string accesses (the v.(i) and s.[i] constructs). Programs compiled with -unsafe are therefore faster, but unsafe: anything can happen if the program accesses an array or string outside of its bounds. Additionally, turn off the check for zero divisor in integer division and modulus operations. With -unsafe, an integer division (or modulus) by zero can halt the program or continue with an unspecified result instead of raising a Division_by_zero exception.
-v
Print the version number of the compiler and the location of the standard library directory, then exit.
-verbose
Print all external commands before they are executed, in particular invocations of the assembler, C compiler, and linker.
-vnum or -version
Print the version number of the compiler in short form (e.g. 3.11.0), then exit.
-w warning-list
Enable, disable, or mark as fatal the warnings specified by the argument warning-list. Each warning can be enabled or disabled, and each warning can be fatal or non-fatal. If a warning is disabled, it isn’t displayed and doesn’t affect compilation in any way (even if it is fatal). If a warning is enabled, it is displayed normally by the compiler whenever the source code triggers it. If it is enabled and fatal, the compiler will also stop with an error after displaying it.

The warning-list argument is a sequence of warning specifiers, with no separators between them. A warning specifier is one of the following:

+num
Enable warning number num.
-num
Disable warning number num.
@num
Enable and mark as fatal warning number num.
+num1..num2
Enable warnings in the given range.
-num1..num2
Disable warnings in the given range.
@num1..num2
Enable and mark as fatal warnings in the given range.
+letter
Enable the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
-letter
Disable the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
@letter
Enable and mark as fatal the set of warnings corresponding to letter. The letter may be uppercase or lowercase.
uppercase-letter
Enable the set of warnings corresponding to uppercase-letter.
lowercase-letter
Disable the set of warnings corresponding to lowercase-letter.

Warning numbers and letters which are out of the range of warnings that are currently defined are ignored. The warning are as follows.

1
Suspicious-looking start-of-comment mark.
2
Suspicious-looking end-of-comment mark.
3
Deprecated feature.
4
Fragile pattern matching: matching that will remain complete even if additional constructors are added to one of the variant types matched.
5
Partially applied function: expression whose result has function type and is ignored.
6
Label omitted in function application.
7
Method overridden.
8
Partial match: missing cases in pattern-matching.
9
Missing fields in a record pattern.
10
Expression on the left-hand side of a sequence that doesn’t have type unit (and that is not a function, see warning number 5).
11
Redundant case in a pattern matching (unused match case).
12
Redundant sub-pattern in a pattern-matching.
13
Instance variable overridden.
14
Illegal backslash escape in a string constant.
15
Private method made public implicitly.
16
Unerasable optional argument.
17
Undeclared virtual method.
18
Non-principal type.
19
Type without principality.
20
Unused function argument.
21
Non-returning statement.
22
Camlp4 warning.
23
Useless record with clause.
24
Bad module name: the source file name is not a valid OCaml module name.
25
Pattern-matching with all clauses guarded. Exhaustiveness cannot be checked.
26
Suspicious unused variable: unused variable that is bound with let or as, and doesn’t start with an underscore (_) character.
27
Innocuous unused variable: unused variable that is not bound with let nor as, and doesn’t start with an underscore (_) character.
28
Wildcard pattern given as argument to a constant constructor.
29
Unescaped end-of-line in a string constant (non-portable code).
30
Two labels or constructors of the same name are defined in two mutually recursive types.
31
A module is linked twice in the same executable.
32
Unused value declaration.
33
Unused open statement.
34
Unused type declaration.
35
Unused for-loop index.
36
Unused ancestor variable.
37
Unused constructor.
38
Unused exception constructor.
39
Unused rec flag.
40
Constructor or label name used out of scope.
41
Ambiguous constructor or label name.
42
Disambiguated constructor or label name.
43
Nonoptional label applied as optional.
44
Open statement shadows an already defined identifier.
45
Open statement shadows an already defined label or constructor.
A
All warnings.
C
Set of warnings 1, 2.
D
Synonym for warning 3.
E
Synonym for warning 4.
F
Synonym for warning 5.
K
Set of warnings 32, 33, 34, 35, 36, 37, 38, 39.
L
Synonym for warning 6.
M
Synonym for warning 7.
P
Synonym for warning 8.
R
Synonym for warning 9.
S
Synonym for warning 10.
U
Set of warnings 11, 12.
V
Synonym for warning 13.
X
Set of warnings 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30.
Y
Synonym for warning 26.
Z
Synonym for warning 27.

The default setting is -w +a-4-6-7-9-27-29-32..39-41..42-44-45. It is displayed by ocamlopt -help. Note that warnings 5 and 10 are not always triggered, depending on the internals of the type checker.

-warn-error warning-list
Mark as fatal the warnings specified in the argument warning-list. The compiler will stop with an error when one of these warnings is emitted. The warning-list has the same meaning as for the -w option: a + sign (or an uppercase letter) marks the corresponding warnings as fatal, a - sign (or a lowercase letter) turns them back into non-fatal warnings, and a @ sign both enables and marks as fatal the corresponding warnings.

Note: it is not recommended to use warning sets (i.e. letters) as arguments to -warn-error in production code, because this can break your build when future versions of OCaml add some new warnings.

The default setting is -warn-error -a (all warnings are non-fatal).

-warn-help
Show the description of all available warning numbers.
-where
Print the location of the standard library, then exit.
- file
Process file as a file name, even if it starts with a dash (-) character.
-help or --help
Display a short usage summary and exit.
Options for the IA32 architecture

The IA32 code generator (Intel Pentium, AMD Athlon) supports the following additional option:

-ffast-math
Use the IA32 instructions to compute trigonometric and exponential functions, instead of calling the corresponding library routines. The functions affected are: atan, atan2, cos, log, log10, sin, sqrt and tan. The resulting code runs faster, but the range of supported arguments and the precision of the result can be reduced. In particular, trigonometric operations cos, sin, tan have their range reduced to [−264, 264].
Options for the AMD64 architecture

The AMD64 code generator (64-bit versions of Intel Pentium and AMD Athlon) supports the following additional options:

-fPIC
Generate position-independent machine code. This is the default.
-fno-PIC
Generate position-dependent machine code.
Options for the Sparc architecture

The Sparc code generator supports the following additional options:

-march=v8
Generate SPARC version 8 code.
-march=v9
Generate SPARC version 9 code.

The default is to generate code for SPARC version 7, which runs on all SPARC processors.

11.3  Common errors

The error messages are almost identical to those of ocamlc. See section 8.4.

11.4  Running executables produced by ocamlopt

Executables generated by ocamlopt are native, stand-alone executable files that can be invoked directly. They do not depend on the ocamlrun bytecode runtime system nor on dynamically-loaded C/OCaml stub libraries.

During execution of an ocamlopt-generated executable, the following environment variables are also consulted:

OCAMLRUNPARAM
Same usage as in ocamlrun (see section 10.2), except that option l is ignored (the operating system’s stack size limit is used instead).
CAMLRUNPARAM
If OCAMLRUNPARAM is not found in the environment, then CAMLRUNPARAM will be used instead. If CAMLRUNPARAM is not found, then the default values will be used.

11.5  Compatibility with the bytecode compiler

This section lists the known incompatibilities between the bytecode compiler and the native-code compiler. Except on those points, the two compilers should generate code that behave identically.

  • Signals are detected only when the program performs an allocation in the heap. That is, if a signal is delivered while in a piece of code that does not allocate, its handler will not be called until the next heap allocation.
  • Stack overflow, typically caused by excessively deep recursion, is handled in one of the following ways, depending on the platform used:
    • By raising a Stack_overflow exception, like the bytecode compiler does. (IA32/Linux, AMD64/Linux, PowerPC/MacOSX, MS Windows 32-bit ports).
    • By aborting the program on a “segmentation fault” signal. (All other Unix systems.)
    • By terminating the program silently. (MS Windows 64 bits).
  • On IA32 processors only (Intel and AMD x86 processors in 32-bit mode), some intermediate results in floating-point computations are kept in extended precision rather than being rounded to double precision like the bytecode compiler always does. Floating-point results can therefore differ slightly between bytecode and native code.
Previous Up Next ocaml-doc-4.01/ocaml.html/moduleexamples.html0000644000175000017500000005154012214324200017503 0ustar i33173i33173 The module system Previous Up Next

Chapter 2  The module system

This chapter introduces the module system of OCaml.

2.1  Structures

A primary motivation for modules is to package together related definitions (such as the definitions of a data type and associated operations over that type) and enforce a consistent naming scheme for these definitions. This avoids running out of names or accidentally confusing names. Such a package is called a structure and is introduced by the structend construct, which contains an arbitrary sequence of definitions. The structure is usually given a name with the module binding. Here is for instance a structure packaging together a type of priority queues and their operations: 

# module PrioQueue =
    struct
      type priority = int
      type 'a queue = Empty | Node of priority * 'a * 'a queue * 'a queue
      let empty = Empty
      let rec insert queue prio elt =
        match queue with
          Empty -> Node(prio, elt, Empty, Empty)
        | Node(p, e, left, right) ->
            if prio <= p
            then Node(prio, elt, insert right p e, left)
            else Node(p, e, insert right prio elt, left)
      exception Queue_is_empty
      let rec remove_top = function
          Empty -> raise Queue_is_empty
        | Node(prio, elt, left, Empty) -> left
        | Node(prio, elt, Empty, right) -> right
        | Node(prio, elt, (Node(lprio, lelt, _, _) as left),
                          (Node(rprio, relt, _, _) as right)) ->
            if lprio <= rprio
            then Node(lprio, lelt, remove_top left, right)
            else Node(rprio, relt, left, remove_top right)
      let extract = function
          Empty -> raise Queue_is_empty
        | Node(prio, elt, _, _) as queue -> (prio, elt, remove_top queue)
    end;;
module PrioQueue :
  sig
    type priority = int
    type 'a queue = Empty | Node of priority * 'a * 'a queue * 'a queue
    val empty : 'a queue
    val insert : 'a queue -> priority -> 'a -> 'a queue
    exception Queue_is_empty
    val remove_top : 'a queue -> 'a queue
    val extract : 'a queue -> priority * 'a * 'a queue
  end

Outside the structure, its components can be referred to using the “dot notation”, that is, identifiers qualified by a structure name. For instance, PrioQueue.insert is the function insert defined inside the structure PrioQueue and PrioQueue.queue is the type queue defined in PrioQueue. 

# PrioQueue.insert PrioQueue.empty 1 "hello";;
- : string PrioQueue.queue =
PrioQueue.Node (1, "hello", PrioQueue.Empty, PrioQueue.Empty)

2.2  Signatures

Signatures are interfaces for structures. A signature specifies which components of a structure are accessible from the outside, and with which type. It can be used to hide some components of a structure (e.g. local function definitions) or export some components with a restricted type. For instance, the signature below specifies the three priority queue operations empty, insert and extract, but not the auxiliary function remove_top. Similarly, it makes the queue type abstract (by not providing its actual representation as a concrete type). 

# module type PRIOQUEUE =
    sig
      type priority = int         (* still concrete *)
      type 'a queue               (* now abstract *)
      val empty : 'a queue
      val insert : 'a queue -> int -> 'a -> 'a queue
      val extract : 'a queue -> int * 'a * 'a queue
      exception Queue_is_empty
    end;;
module type PRIOQUEUE =
  sig
    type priority = int
    type 'a queue
    val empty : 'a queue
    val insert : 'a queue -> int -> 'a -> 'a queue
    val extract : 'a queue -> int * 'a * 'a queue
    exception Queue_is_empty
  end

Restricting the PrioQueue structure by this signature results in another view of the PrioQueue structure where the remove_top function is not accessible and the actual representation of priority queues is hidden: 

# module AbstractPrioQueue = (PrioQueue : PRIOQUEUE);;
module AbstractPrioQueue : PRIOQUEUE

# AbstractPrioQueue.remove_top;;
Error: Unbound value AbstractPrioQueue.remove_top

# AbstractPrioQueue.insert AbstractPrioQueue.empty 1 "hello";;
- : string AbstractPrioQueue.queue = <abstr>

The restriction can also be performed during the definition of the structure, as in 

module PrioQueue = (struct ... end : PRIOQUEUE);;

An alternate syntax is provided for the above: 

module PrioQueue : PRIOQUEUE = struct ... end;;

2.3  Functors

Functors are “functions” from structures to structures. They are used to express parameterized structures: a structure A parameterized by a structure B is simply a functor F with a formal parameter B (along with the expected signature for B) which returns the actual structure A itself. The functor F can then be applied to one or several implementations B1Bn of B, yielding the corresponding structures A1An.

For instance, here is a structure implementing sets as sorted lists, parameterized by a structure providing the type of the set elements and an ordering function over this type (used to keep the sets sorted): 

# type comparison = Less | Equal | Greater;;
type comparison = Less | Equal | Greater

# module type ORDERED_TYPE =
    sig
      type t
      val compare: t -> t -> comparison
    end;;
module type ORDERED_TYPE = sig type t val compare : t -> t -> comparison end

# module Set =
    functor (Elt: ORDERED_TYPE) ->
      struct
        type element = Elt.t
        type set = element list
        let empty = []
        let rec add x s =
          match s with
            [] -> [x]
          | hd::tl ->
             match Elt.compare x hd with
               Equal   -> s         (* x is already in s *)
             | Less    -> x :: s    (* x is smaller than all elements of s *)
             | Greater -> hd :: add x tl
        let rec member x s =
          match s with
            [] -> false
          | hd::tl ->
              match Elt.compare x hd with
                Equal   -> true     (* x belongs to s *)
              | Less    -> false    (* x is smaller than all elements of s *)
              | Greater -> member x tl
      end;;
module Set :
  functor (Elt : ORDERED_TYPE) ->
    sig
      type element = Elt.t
      type set = element list
      val empty : 'a list
      val add : Elt.t -> Elt.t list -> Elt.t list
      val member : Elt.t -> Elt.t list -> bool
    end

By applying the Set functor to a structure implementing an ordered type, we obtain set operations for this type: 

# module OrderedString =
    struct
      type t = string
      let compare x y = if x = y then Equal else if x < y then Less else Greater
    end;;
module OrderedString :
  sig type t = string val compare : 'a -> 'a -> comparison end

# module StringSet = Set(OrderedString);;
module StringSet :
  sig
    type element = OrderedString.t
    type set = element list
    val empty : 'a list
    val add : OrderedString.t -> OrderedString.t list -> OrderedString.t list
    val member : OrderedString.t -> OrderedString.t list -> bool
  end

# StringSet.member "bar" (StringSet.add "foo" StringSet.empty);;
- : bool = false

2.4  Functors and type abstraction

As in the PrioQueue example, it would be good style to hide the actual implementation of the type set, so that users of the structure will not rely on sets being lists, and we can switch later to another, more efficient representation of sets without breaking their code. This can be achieved by restricting Set by a suitable functor signature: 

# module type SETFUNCTOR =
    functor (Elt: ORDERED_TYPE) ->
      sig
        type element = Elt.t      (* concrete *)
        type set                  (* abstract *)
        val empty : set
        val add : element -> set -> set
        val member : element -> set -> bool
      end;;
module type SETFUNCTOR =
  functor (Elt : ORDERED_TYPE) ->
    sig
      type element = Elt.t
      type set
      val empty : set
      val add : element -> set -> set
      val member : element -> set -> bool
    end

# module AbstractSet = (Set : SETFUNCTOR);;
module AbstractSet : SETFUNCTOR

# module AbstractStringSet = AbstractSet(OrderedString);;
module AbstractStringSet :
  sig
    type element = OrderedString.t
    type set = AbstractSet(OrderedString).set
    val empty : set
    val add : element -> set -> set
    val member : element -> set -> bool
  end

# AbstractStringSet.add "gee" AbstractStringSet.empty;;
- : AbstractStringSet.set = <abstr>

In an attempt to write the type constraint above more elegantly, one may wish to name the signature of the structure returned by the functor, then use that signature in the constraint: 

# module type SET =
    sig
      type element
      type set
      val empty : set
      val add : element -> set -> set
      val member : element -> set -> bool
    end;;
module type SET =
  sig
    type element
    type set
    val empty : set
    val add : element -> set -> set
    val member : element -> set -> bool
  end

# module WrongSet = (Set : functor(Elt: ORDERED_TYPE) -> SET);;
module WrongSet : functor (Elt : ORDERED_TYPE) -> SET

# module WrongStringSet = WrongSet(OrderedString);;
module WrongStringSet :
  sig
    type element = WrongSet(OrderedString).element
    type set = WrongSet(OrderedString).set
    val empty : set
    val add : element -> set -> set
    val member : element -> set -> bool
  end

# WrongStringSet.add "gee" WrongStringSet.empty;;
Error: This expression has type string but an expression was expected of type
         WrongStringSet.element = WrongSet(OrderedString).element

The problem here is that SET specifies the type element abstractly, so that the type equality between element in the result of the functor and t in its argument is forgotten. Consequently, WrongStringSet.element is not the same type as string, and the operations of WrongStringSet cannot be applied to strings. As demonstrated above, it is important that the type element in the signature SET be declared equal to Elt.t; unfortunately, this is impossible above since SET is defined in a context where Elt does not exist. To overcome this difficulty, OCaml provides a with type construct over signatures that allows enriching a signature with extra type equalities: 

# module AbstractSet2 =
    (Set : functor(Elt: ORDERED_TYPE) -> (SET with type element = Elt.t));;
module AbstractSet2 :
  functor (Elt : ORDERED_TYPE) ->
    sig
      type element = Elt.t
      type set
      val empty : set
      val add : element -> set -> set
      val member : element -> set -> bool
    end

As in the case of simple structures, an alternate syntax is provided for defining functors and restricting their result: 

module AbstractSet2(Elt: ORDERED_TYPE) : (SET with type element = Elt.t) =
  struct ... end;;

Abstracting a type component in a functor result is a powerful technique that provides a high degree of type safety, as we now illustrate. Consider an ordering over character strings that is different from the standard ordering implemented in the OrderedString structure. For instance, we compare strings without distinguishing upper and lower case. 

# module NoCaseString =
    struct
      type t = string
      let compare s1 s2 =
        OrderedString.compare (String.lowercase s1) (String.lowercase s2)
    end;;
module NoCaseString :
  sig type t = string val compare : string -> string -> comparison end

# module NoCaseStringSet = AbstractSet(NoCaseString);;
module NoCaseStringSet :
  sig
    type element = NoCaseString.t
    type set = AbstractSet(NoCaseString).set
    val empty : set
    val add : element -> set -> set
    val member : element -> set -> bool
  end

# NoCaseStringSet.add "FOO" AbstractStringSet.empty;;
Error: This expression has type
         AbstractStringSet.set = AbstractSet(OrderedString).set
       but an expression was expected of type
         NoCaseStringSet.set = AbstractSet(NoCaseString).set

Note that the two types AbstractStringSet.set and NoCaseStringSet.set are not compatible, and values of these two types do not match. This is the correct behavior: even though both set types contain elements of the same type (strings), they are built upon different orderings of that type, and different invariants need to be maintained by the operations (being strictly increasing for the standard ordering and for the case-insensitive ordering). Applying operations from AbstractStringSet to values of type NoCaseStringSet.set could give incorrect results, or build lists that violate the invariants of NoCaseStringSet.

2.5  Modules and separate compilation

All examples of modules so far have been given in the context of the interactive system. However, modules are most useful for large, batch-compiled programs. For these programs, it is a practical necessity to split the source into several files, called compilation units, that can be compiled separately, thus minimizing recompilation after changes.

In OCaml, compilation units are special cases of structures and signatures, and the relationship between the units can be explained easily in terms of the module system. A compilation unit A comprises two files:

  • the implementation file A.ml, which contains a sequence of definitions, analogous to the inside of a structend construct;
  • the interface file A.mli, which contains a sequence of specifications, analogous to the inside of a sigend construct.

These two files together define a structure named A as if the following definition was entered at top-level: 

module A: sig (* contents of file A.mli *) end
        = struct (* contents of file A.ml *) end;;

The files that define the compilation units can be compiled separately using the ocamlc -c command (the -c option means “compile only, do not try to link”); this produces compiled interface files (with extension .cmi) and compiled object code files (with extension .cmo). When all units have been compiled, their .cmo files are linked together using the ocamlc command. For instance, the following commands compile and link a program composed of two compilation units Aux and Main: 

$ ocamlc -c Aux.mli                     # produces aux.cmi
$ ocamlc -c Aux.ml                      # produces aux.cmo
$ ocamlc -c Main.mli                    # produces main.cmi
$ ocamlc -c Main.ml                     # produces main.cmo
$ ocamlc -o theprogram Aux.cmo Main.cmo

The program behaves exactly as if the following phrases were entered at top-level: 

module Aux: sig (* contents of Aux.mli *) end
          = struct (* contents of Aux.ml *) end;;
module Main: sig (* contents of Main.mli *) end
           = struct (* contents of Main.ml *) end;;

In particular, Main can refer to Aux: the definitions and declarations contained in Main.ml and Main.mli can refer to definition in Aux.ml, using the Aux.ident notation, provided these definitions are exported in Aux.mli.

The order in which the .cmo files are given to ocamlc during the linking phase determines the order in which the module definitions occur. Hence, in the example above, Aux appears first and Main can refer to it, but Aux cannot refer to Main.

Note that only top-level structures can be mapped to separately-compiled files, but neither functors nor module types. However, all module-class objects can appear as components of a structure, so the solution is to put the functor or module type inside a structure, which can then be mapped to a file.

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