kbproto-1.0.7/config.sub000075501431060000012000001062231252061123300154420ustar00alancstaff00002660200006#! /bin/sh # Configuration validation subroutine script. # Copyright 1992-2014 Free Software Foundation, Inc. timestamp='2014-12-03' # This file is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, see . # # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that # program. This Exception is an additional permission under section 7 # of the GNU General Public License, version 3 ("GPLv3"). # Please send patches to . # # Configuration subroutine to validate and canonicalize a configuration type. # Supply the specified configuration type as an argument. # If it is invalid, we print an error message on stderr and exit with code 1. # Otherwise, we print the canonical config type on stdout and succeed. # You can get the latest version of this script from: # http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.sub;hb=HEAD # This file is supposed to be the same for all GNU packages # and recognize all the CPU types, system types and aliases # that are meaningful with *any* GNU software. # Each package is responsible for reporting which valid configurations # it does not support. The user should be able to distinguish # a failure to support a valid configuration from a meaningless # configuration. # The goal of this file is to map all the various variations of a given # machine specification into a single specification in the form: # CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM # or in some cases, the newer four-part form: # CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM # It is wrong to echo any other type of specification. me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] CPU-MFR-OPSYS $0 [OPTION] ALIAS Canonicalize a configuration name. Operation modes: -h, --help print this help, then exit -t, --time-stamp print date of last modification, then exit -v, --version print version number, then exit Report bugs and patches to ." version="\ GNU config.sub ($timestamp) Copyright 1992-2014 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." help=" Try \`$me --help' for more information." # Parse command line while test $# -gt 0 ; do case $1 in --time-stamp | --time* | -t ) echo "$timestamp" ; exit ;; --version | -v ) echo "$version" ; exit ;; --help | --h* | -h ) echo "$usage"; exit ;; -- ) # Stop option processing shift; break ;; - ) # Use stdin as input. break ;; -* ) echo "$me: invalid option $1$help" exit 1 ;; *local*) # First pass through any local machine types. echo $1 exit ;; * ) break ;; esac done case $# in 0) echo "$me: missing argument$help" >&2 exit 1;; 1) ;; *) echo "$me: too many arguments$help" >&2 exit 1;; esac # Separate what the user gave into CPU-COMPANY and OS or KERNEL-OS (if any). # Here we must recognize all the valid KERNEL-OS combinations. maybe_os=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\2/'` case $maybe_os in nto-qnx* | linux-gnu* | linux-android* | linux-dietlibc | linux-newlib* | \ linux-musl* | linux-uclibc* | uclinux-uclibc* | uclinux-gnu* | kfreebsd*-gnu* | \ knetbsd*-gnu* | netbsd*-gnu* | \ kopensolaris*-gnu* | \ storm-chaos* | os2-emx* | rtmk-nova*) os=-$maybe_os basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'` ;; android-linux) os=-linux-android basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'`-unknown ;; *) basic_machine=`echo $1 | sed 's/-[^-]*$//'` if [ $basic_machine != $1 ] then os=`echo $1 | sed 's/.*-/-/'` else os=; fi ;; esac ### Let's recognize common machines as not being operating systems so ### that things like config.sub decstation-3100 work. We also ### recognize some manufacturers as not being operating systems, so we ### can provide default operating systems below. case $os in -sun*os*) # Prevent following clause from handling this invalid input. ;; -dec* | -mips* | -sequent* | -encore* | -pc532* | -sgi* | -sony* | \ -att* | -7300* | -3300* | -delta* | -motorola* | -sun[234]* | \ -unicom* | -ibm* | -next | -hp | -isi* | -apollo | -altos* | \ -convergent* | -ncr* | -news | -32* | -3600* | -3100* | -hitachi* |\ -c[123]* | -convex* | -sun | -crds | -omron* | -dg | -ultra | -tti* | \ -harris | -dolphin | -highlevel | -gould | -cbm | -ns | -masscomp | \ -apple | -axis | -knuth | -cray | -microblaze*) os= basic_machine=$1 ;; -bluegene*) os=-cnk ;; -sim | -cisco | -oki | -wec | -winbond) os= basic_machine=$1 ;; -scout) ;; -wrs) os=-vxworks basic_machine=$1 ;; -chorusos*) os=-chorusos basic_machine=$1 ;; -chorusrdb) os=-chorusrdb basic_machine=$1 ;; -hiux*) os=-hiuxwe2 ;; -sco6) os=-sco5v6 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5) os=-sco3.2v5 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco4) os=-sco3.2v4 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2.[4-9]*) os=`echo $os | sed -e 's/sco3.2./sco3.2v/'` basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2v[4-9]*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5v6*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco*) os=-sco3.2v2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -udk*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -isc) os=-isc2.2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -clix*) basic_machine=clipper-intergraph ;; -isc*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -lynx*178) os=-lynxos178 ;; -lynx*5) os=-lynxos5 ;; -lynx*) os=-lynxos ;; -ptx*) basic_machine=`echo $1 | sed -e 's/86-.*/86-sequent/'` ;; -windowsnt*) os=`echo $os | sed -e 's/windowsnt/winnt/'` ;; -psos*) os=-psos ;; -mint | -mint[0-9]*) basic_machine=m68k-atari os=-mint ;; esac # Decode aliases for certain CPU-COMPANY combinations. case $basic_machine in # Recognize the basic CPU types without company name. # Some are omitted here because they have special meanings below. 1750a | 580 \ | a29k \ | aarch64 | aarch64_be \ | alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \ | alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \ | am33_2.0 \ | arc | arceb \ | arm | arm[bl]e | arme[lb] | armv[2-8] | armv[3-8][lb] | armv7[arm] \ | avr | avr32 \ | be32 | be64 \ | bfin \ | c4x | c8051 | clipper \ | d10v | d30v | dlx | dsp16xx \ | epiphany \ | fido | fr30 | frv \ | h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \ | hexagon \ | i370 | i860 | i960 | ia64 \ | ip2k | iq2000 \ | k1om \ | le32 | le64 \ | lm32 \ | m32c | m32r | m32rle | m68000 | m68k | m88k \ | maxq | mb | microblaze | microblazeel | mcore | mep | metag \ | mips | mipsbe | mipseb | mipsel | mipsle \ | mips16 \ | mips64 | mips64el \ | mips64octeon | mips64octeonel \ | mips64orion | mips64orionel \ | mips64r5900 | mips64r5900el \ | mips64vr | mips64vrel \ | mips64vr4100 | mips64vr4100el \ | mips64vr4300 | mips64vr4300el \ | mips64vr5000 | mips64vr5000el \ | mips64vr5900 | mips64vr5900el \ | mipsisa32 | mipsisa32el \ | mipsisa32r2 | mipsisa32r2el \ | mipsisa32r6 | mipsisa32r6el \ | mipsisa64 | mipsisa64el \ | mipsisa64r2 | mipsisa64r2el \ | mipsisa64r6 | mipsisa64r6el \ | mipsisa64sb1 | mipsisa64sb1el \ | mipsisa64sr71k | mipsisa64sr71kel \ | mipsr5900 | mipsr5900el \ | mipstx39 | mipstx39el \ | mn10200 | mn10300 \ | moxie \ | mt \ | msp430 \ | nds32 | nds32le | nds32be \ | nios | nios2 | nios2eb | nios2el \ | ns16k | ns32k \ | open8 | or1k | or1knd | or32 \ | pdp10 | pdp11 | pj | pjl \ | powerpc | powerpc64 | powerpc64le | powerpcle \ | pyramid \ | riscv32 | riscv64 \ | rl78 | rx \ | score \ | sh | sh[1234] | sh[24]a | sh[24]aeb | sh[23]e | sh[34]eb | sheb | shbe | shle | sh[1234]le | sh3ele \ | sh64 | sh64le \ | sparc | sparc64 | sparc64b | sparc64v | sparc86x | sparclet | sparclite \ | sparcv8 | sparcv9 | sparcv9b | sparcv9v \ | spu \ | tahoe | tic4x | tic54x | tic55x | tic6x | tic80 | tron \ | ubicom32 \ | v850 | v850e | v850e1 | v850e2 | v850es | v850e2v3 \ | visium \ | we32k \ | x86 | xc16x | xstormy16 | xtensa \ | z8k | z80) basic_machine=$basic_machine-unknown ;; c54x) basic_machine=tic54x-unknown ;; c55x) basic_machine=tic55x-unknown ;; c6x) basic_machine=tic6x-unknown ;; leon|leon[3-9]) basic_machine=sparc-$basic_machine ;; m6811 | m68hc11 | m6812 | m68hc12 | m68hcs12x | nvptx | picochip) basic_machine=$basic_machine-unknown os=-none ;; m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k) ;; ms1) basic_machine=mt-unknown ;; strongarm | thumb | xscale) basic_machine=arm-unknown ;; xgate) basic_machine=$basic_machine-unknown os=-none ;; xscaleeb) basic_machine=armeb-unknown ;; xscaleel) basic_machine=armel-unknown ;; # We use `pc' rather than `unknown' # because (1) that's what they normally are, and # (2) the word "unknown" tends to confuse beginning users. i*86 | x86_64) basic_machine=$basic_machine-pc ;; # Object if more than one company name word. *-*-*) echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2 exit 1 ;; # Recognize the basic CPU types with company name. 580-* \ | a29k-* \ | aarch64-* | aarch64_be-* \ | alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \ | alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \ | alphapca5[67]-* | alpha64pca5[67]-* | arc-* | arceb-* \ | arm-* | armbe-* | armle-* | armeb-* | armv*-* \ | avr-* | avr32-* \ | be32-* | be64-* \ | bfin-* | bs2000-* \ | c[123]* | c30-* | [cjt]90-* | c4x-* \ | c8051-* | clipper-* | craynv-* | cydra-* \ | d10v-* | d30v-* | dlx-* \ | elxsi-* \ | f30[01]-* | f700-* | fido-* | fr30-* | frv-* | fx80-* \ | h8300-* | h8500-* \ | hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \ | hexagon-* \ | i*86-* | i860-* | i960-* | ia64-* \ | ip2k-* | iq2000-* \ | k1om-* \ | le32-* | le64-* \ | lm32-* \ | m32c-* | m32r-* | m32rle-* \ | m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \ | m88110-* | m88k-* | maxq-* | mcore-* | metag-* \ | microblaze-* | microblazeel-* \ | mips-* | mipsbe-* | mipseb-* | mipsel-* | mipsle-* \ | mips16-* \ | mips64-* | mips64el-* \ | mips64octeon-* | mips64octeonel-* \ | mips64orion-* | mips64orionel-* \ | mips64r5900-* | mips64r5900el-* \ | mips64vr-* | mips64vrel-* \ | mips64vr4100-* | mips64vr4100el-* \ | mips64vr4300-* | mips64vr4300el-* \ | mips64vr5000-* | mips64vr5000el-* \ | mips64vr5900-* | mips64vr5900el-* \ | mipsisa32-* | mipsisa32el-* \ | mipsisa32r2-* | mipsisa32r2el-* \ | mipsisa32r6-* | mipsisa32r6el-* \ | mipsisa64-* | mipsisa64el-* \ | mipsisa64r2-* | mipsisa64r2el-* \ | mipsisa64r6-* | mipsisa64r6el-* \ | mipsisa64sb1-* | mipsisa64sb1el-* \ | mipsisa64sr71k-* | mipsisa64sr71kel-* \ | mipsr5900-* | mipsr5900el-* \ | mipstx39-* | mipstx39el-* \ | mmix-* \ | mt-* \ | msp430-* \ | nds32-* | nds32le-* | nds32be-* \ | nios-* | nios2-* | nios2eb-* | nios2el-* \ | none-* | np1-* | ns16k-* | ns32k-* \ | open8-* \ | or1k*-* \ | orion-* \ | pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \ | powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* \ | pyramid-* \ | rl78-* | romp-* | rs6000-* | rx-* \ | sh-* | sh[1234]-* | sh[24]a-* | sh[24]aeb-* | sh[23]e-* | sh[34]eb-* | sheb-* | shbe-* \ | shle-* | sh[1234]le-* | sh3ele-* | sh64-* | sh64le-* \ | sparc-* | sparc64-* | sparc64b-* | sparc64v-* | sparc86x-* | sparclet-* \ | sparclite-* \ | sparcv8-* | sparcv9-* | sparcv9b-* | sparcv9v-* | sv1-* | sx?-* \ | tahoe-* \ | tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* \ | tile*-* \ | tron-* \ | ubicom32-* \ | v850-* | v850e-* | v850e1-* | v850es-* | v850e2-* | v850e2v3-* \ | vax-* \ | visium-* \ | we32k-* \ | x86-* | x86_64-* | xc16x-* | xps100-* \ | xstormy16-* | xtensa*-* \ | ymp-* \ | z8k-* | z80-*) ;; # Recognize the basic CPU types without company name, with glob match. xtensa*) basic_machine=$basic_machine-unknown ;; # Recognize the various machine names and aliases which stand # for a CPU type and a company and sometimes even an OS. 386bsd) basic_machine=i386-unknown os=-bsd ;; 3b1 | 7300 | 7300-att | att-7300 | pc7300 | safari | unixpc) basic_machine=m68000-att ;; 3b*) basic_machine=we32k-att ;; a29khif) basic_machine=a29k-amd os=-udi ;; abacus) basic_machine=abacus-unknown ;; adobe68k) basic_machine=m68010-adobe os=-scout ;; alliant | fx80) basic_machine=fx80-alliant ;; altos | altos3068) basic_machine=m68k-altos ;; am29k) basic_machine=a29k-none os=-bsd ;; amd64) basic_machine=x86_64-pc ;; amd64-*) basic_machine=x86_64-`echo $basic_machine | sed 's/^[^-]*-//'` ;; amdahl) basic_machine=580-amdahl os=-sysv ;; amiga | amiga-*) basic_machine=m68k-unknown ;; amigaos | amigados) basic_machine=m68k-unknown os=-amigaos ;; amigaunix | amix) basic_machine=m68k-unknown os=-sysv4 ;; apollo68) basic_machine=m68k-apollo os=-sysv ;; apollo68bsd) basic_machine=m68k-apollo os=-bsd ;; aros) basic_machine=i386-pc os=-aros ;; aux) basic_machine=m68k-apple os=-aux ;; balance) basic_machine=ns32k-sequent os=-dynix ;; blackfin) basic_machine=bfin-unknown os=-linux ;; blackfin-*) basic_machine=bfin-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; bluegene*) basic_machine=powerpc-ibm os=-cnk ;; c54x-*) basic_machine=tic54x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; c55x-*) basic_machine=tic55x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; c6x-*) basic_machine=tic6x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; c90) basic_machine=c90-cray os=-unicos ;; cegcc) basic_machine=arm-unknown os=-cegcc ;; convex-c1) basic_machine=c1-convex os=-bsd ;; convex-c2) basic_machine=c2-convex os=-bsd ;; convex-c32) basic_machine=c32-convex os=-bsd ;; convex-c34) basic_machine=c34-convex os=-bsd ;; convex-c38) basic_machine=c38-convex os=-bsd ;; cray | j90) basic_machine=j90-cray os=-unicos ;; craynv) basic_machine=craynv-cray os=-unicosmp ;; cr16 | cr16-*) basic_machine=cr16-unknown os=-elf ;; crds | unos) basic_machine=m68k-crds ;; crisv32 | crisv32-* | etraxfs*) basic_machine=crisv32-axis ;; cris | cris-* | etrax*) basic_machine=cris-axis ;; crx) basic_machine=crx-unknown os=-elf ;; da30 | da30-*) basic_machine=m68k-da30 ;; decstation | decstation-3100 | pmax | pmax-* | pmin | dec3100 | decstatn) basic_machine=mips-dec ;; decsystem10* | dec10*) basic_machine=pdp10-dec os=-tops10 ;; decsystem20* | dec20*) basic_machine=pdp10-dec os=-tops20 ;; delta | 3300 | motorola-3300 | motorola-delta \ | 3300-motorola | delta-motorola) basic_machine=m68k-motorola ;; delta88) basic_machine=m88k-motorola os=-sysv3 ;; dicos) basic_machine=i686-pc os=-dicos ;; djgpp) basic_machine=i586-pc os=-msdosdjgpp ;; dpx20 | dpx20-*) basic_machine=rs6000-bull os=-bosx ;; dpx2* | dpx2*-bull) basic_machine=m68k-bull os=-sysv3 ;; ebmon29k) basic_machine=a29k-amd os=-ebmon ;; elxsi) basic_machine=elxsi-elxsi os=-bsd ;; encore | umax | mmax) basic_machine=ns32k-encore ;; es1800 | OSE68k | ose68k | ose | OSE) basic_machine=m68k-ericsson os=-ose ;; fx2800) basic_machine=i860-alliant ;; genix) basic_machine=ns32k-ns ;; gmicro) basic_machine=tron-gmicro os=-sysv ;; go32) basic_machine=i386-pc os=-go32 ;; h3050r* | hiux*) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; h8300hms) basic_machine=h8300-hitachi os=-hms ;; h8300xray) basic_machine=h8300-hitachi os=-xray ;; h8500hms) basic_machine=h8500-hitachi os=-hms ;; harris) basic_machine=m88k-harris os=-sysv3 ;; hp300-*) basic_machine=m68k-hp ;; hp300bsd) basic_machine=m68k-hp os=-bsd ;; hp300hpux) basic_machine=m68k-hp os=-hpux ;; hp3k9[0-9][0-9] | hp9[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k2[0-9][0-9] | hp9k31[0-9]) basic_machine=m68000-hp ;; hp9k3[2-9][0-9]) basic_machine=m68k-hp ;; hp9k6[0-9][0-9] | hp6[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k7[0-79][0-9] | hp7[0-79][0-9]) basic_machine=hppa1.1-hp ;; hp9k78[0-9] | hp78[0-9]) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[67]1 | hp8[67]1 | hp9k80[24] | hp80[24] | hp9k8[78]9 | hp8[78]9 | hp9k893 | hp893) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[0-9][13679] | hp8[0-9][13679]) basic_machine=hppa1.1-hp ;; hp9k8[0-9][0-9] | hp8[0-9][0-9]) basic_machine=hppa1.0-hp ;; hppa-next) os=-nextstep3 ;; hppaosf) basic_machine=hppa1.1-hp os=-osf ;; hppro) basic_machine=hppa1.1-hp os=-proelf ;; i370-ibm* | ibm*) basic_machine=i370-ibm ;; i*86v32) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv32 ;; i*86v4*) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv4 ;; i*86v) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv ;; i*86sol2) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-solaris2 ;; i386mach) basic_machine=i386-mach os=-mach ;; i386-vsta | vsta) basic_machine=i386-unknown os=-vsta ;; iris | iris4d) basic_machine=mips-sgi case $os in -irix*) ;; *) os=-irix4 ;; esac ;; isi68 | isi) basic_machine=m68k-isi os=-sysv ;; leon-*|leon[3-9]-*) basic_machine=sparc-`echo $basic_machine | sed 's/-.*//'` ;; m68knommu) basic_machine=m68k-unknown os=-linux ;; m68knommu-*) basic_machine=m68k-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; m88k-omron*) basic_machine=m88k-omron ;; magnum | m3230) basic_machine=mips-mips os=-sysv ;; merlin) basic_machine=ns32k-utek os=-sysv ;; microblaze*) basic_machine=microblaze-xilinx ;; mingw64) basic_machine=x86_64-pc os=-mingw64 ;; mingw32) basic_machine=i686-pc os=-mingw32 ;; mingw32ce) basic_machine=arm-unknown os=-mingw32ce ;; miniframe) basic_machine=m68000-convergent ;; *mint | -mint[0-9]* | *MiNT | *MiNT[0-9]*) basic_machine=m68k-atari os=-mint ;; mips3*-*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'` ;; mips3*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`-unknown ;; monitor) basic_machine=m68k-rom68k os=-coff ;; morphos) basic_machine=powerpc-unknown os=-morphos ;; moxiebox) basic_machine=moxie-unknown os=-moxiebox ;; msdos) basic_machine=i386-pc os=-msdos ;; ms1-*) basic_machine=`echo $basic_machine | sed -e 's/ms1-/mt-/'` ;; msys) basic_machine=i686-pc os=-msys ;; mvs) basic_machine=i370-ibm os=-mvs ;; nacl) basic_machine=le32-unknown os=-nacl ;; ncr3000) basic_machine=i486-ncr os=-sysv4 ;; netbsd386) basic_machine=i386-unknown os=-netbsd ;; netwinder) basic_machine=armv4l-rebel os=-linux ;; news | news700 | news800 | news900) basic_machine=m68k-sony os=-newsos ;; news1000) basic_machine=m68030-sony os=-newsos ;; news-3600 | risc-news) basic_machine=mips-sony os=-newsos ;; necv70) basic_machine=v70-nec os=-sysv ;; next | m*-next ) basic_machine=m68k-next case $os in -nextstep* ) ;; -ns2*) os=-nextstep2 ;; *) os=-nextstep3 ;; esac ;; nh3000) basic_machine=m68k-harris os=-cxux ;; nh[45]000) basic_machine=m88k-harris os=-cxux ;; nindy960) basic_machine=i960-intel os=-nindy ;; mon960) basic_machine=i960-intel os=-mon960 ;; nonstopux) basic_machine=mips-compaq os=-nonstopux ;; np1) basic_machine=np1-gould ;; neo-tandem) basic_machine=neo-tandem ;; nse-tandem) basic_machine=nse-tandem ;; nsr-tandem) basic_machine=nsr-tandem ;; op50n-* | op60c-*) basic_machine=hppa1.1-oki os=-proelf ;; openrisc | openrisc-*) basic_machine=or32-unknown ;; os400) basic_machine=powerpc-ibm os=-os400 ;; OSE68000 | ose68000) basic_machine=m68000-ericsson os=-ose ;; os68k) basic_machine=m68k-none os=-os68k ;; pa-hitachi) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; paragon) basic_machine=i860-intel os=-osf ;; parisc) basic_machine=hppa-unknown os=-linux ;; parisc-*) basic_machine=hppa-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; pbd) basic_machine=sparc-tti ;; pbb) basic_machine=m68k-tti ;; pc532 | pc532-*) basic_machine=ns32k-pc532 ;; pc98) basic_machine=i386-pc ;; pc98-*) basic_machine=i386-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentium | p5 | k5 | k6 | nexgen | viac3) basic_machine=i586-pc ;; pentiumpro | p6 | 6x86 | athlon | athlon_*) basic_machine=i686-pc ;; pentiumii | pentium2 | pentiumiii | pentium3) basic_machine=i686-pc ;; pentium4) basic_machine=i786-pc ;; pentium-* | p5-* | k5-* | k6-* | nexgen-* | viac3-*) basic_machine=i586-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentiumpro-* | p6-* | 6x86-* | athlon-*) basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'` ;; 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-qnx*) case $basic_machine in x86-* | i*86-*) ;; *) os=-nto$os ;; esac ;; -nto-qnx*) ;; -nto*) os=`echo $os | sed -e 's|nto|nto-qnx|'` ;; -sim | -es1800* | -hms* | -xray | -os68k* | -none* | -v88r* \ | -windows* | -osx | -abug | -netware* | -os9* | -beos* | -haiku* \ | -macos* | -mpw* | -magic* | -mmixware* | -mon960* | -lnews*) ;; -mac*) os=`echo $os | sed -e 's|mac|macos|'` ;; -linux-dietlibc) os=-linux-dietlibc ;; -linux*) os=`echo $os | sed -e 's|linux|linux-gnu|'` ;; -sunos5*) os=`echo $os | sed -e 's|sunos5|solaris2|'` ;; -sunos6*) os=`echo $os | sed -e 's|sunos6|solaris3|'` ;; -opened*) os=-openedition ;; -os400*) os=-os400 ;; -wince*) os=-wince ;; -osfrose*) os=-osfrose ;; -osf*) os=-osf ;; -utek*) os=-bsd ;; -dynix*) os=-bsd ;; -acis*) os=-aos ;; -atheos*) os=-atheos ;; -syllable*) os=-syllable ;; -386bsd) os=-bsd ;; -ctix* | -uts*) os=-sysv ;; -nova*) os=-rtmk-nova ;; -ns2 ) os=-nextstep2 ;; -nsk*) os=-nsk ;; # Preserve the version number of sinix5. -sinix5.*) os=`echo $os | sed -e 's|sinix|sysv|'` ;; 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We pick the logical manufacturer. vendor=unknown case $basic_machine in *-unknown) case $os in -riscix*) vendor=acorn ;; -sunos*) vendor=sun ;; -cnk*|-aix*) vendor=ibm ;; -beos*) vendor=be ;; -hpux*) vendor=hp ;; -mpeix*) vendor=hp ;; -hiux*) vendor=hitachi ;; -unos*) vendor=crds ;; -dgux*) vendor=dg ;; -luna*) vendor=omron ;; -genix*) vendor=ns ;; -mvs* | -opened*) vendor=ibm ;; -os400*) vendor=ibm ;; -ptx*) vendor=sequent ;; -tpf*) vendor=ibm ;; -vxsim* | -vxworks* | -windiss*) vendor=wrs ;; -aux*) vendor=apple ;; -hms*) vendor=hitachi ;; -mpw* | -macos*) vendor=apple ;; -*mint | -mint[0-9]* | -*MiNT | -MiNT[0-9]*) vendor=atari ;; -vos*) vendor=stratus ;; esac basic_machine=`echo $basic_machine | sed "s/unknown/$vendor/"` ;; esac echo $basic_machine$os exit # Local variables: # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "timestamp='" # time-stamp-format: "%:y-%02m-%02d" # time-stamp-end: "'" # End: v810) basic_machine=v810-nec os=-none ;; vaxv) basic_machine=vax-dec os=-sysv ;; vms) basic_machine=vax-dec os=-vms ;; vpp*|vx|vx-*) basic_machine=f301-fujitsu ;; vxworks960) basic_machine=i960-wrs os=-vxworks ;; vxworks68) basic_machine=m68k-wrs os=-vxworks ;; vxworks29k) basic_machine=a29k-wrs os=-vxworks ;; w65*) kbproto-1.0.7/XKBsrv.h000064401431060000012000000665751252061122500150270ustar00alancstaff00002660200006/************************************************************ Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #ifndef _XKBSRV_H_ #define _XKBSRV_H_ #ifdef XKB_IN_SERVER #define XkbAllocClientMap SrvXkbAllocClientMap #define XkbAllocServerMap SrvXkbAllocServerMap #define XkbChangeTypesOfKey SrvXkbChangeTypesOfKey #define XkbAddKeyType SrvXkbAddKeyType #define XkbCopyKeyType SrvXkbCopyKeyType #define XkbCopyKeyTypes SrvXkbCopyKeyTypes #define XkbFreeClientMap SrvXkbFreeClientMap #define XkbFreeServerMap SrvXkbFreeServerMap #define XkbInitCanonicalKeyTypes SrvXkbInitCanonicalKeyTypes #define XkbKeyTypesForCoreSymbols SrvXkbKeyTypesForCoreSymbols #define XkbApplyCompatMapToKey SrvXkbApplyCompatMapToKey #define XkbUpdateMapFromCore SrvXkbUpdateMapFromCore #define XkbResizeKeyActions SrvXkbResizeKeyActions #define XkbResizeKeySyms SrvXkbResizeKeySyms #define XkbResizeKeyType SrvXkbResizeKeyType #define XkbAllocCompatMap SrvXkbAllocCompatMap #define XkbAllocControls SrvXkbAllocControls #define XkbAllocIndicatorMaps SrvXkbAllocIndicatorMaps #define XkbAllocKeyboard SrvXkbAllocKeyboard #define XkbAllocNames SrvXkbAllocNames #define XkbFreeCompatMap SrvXkbFreeCompatMap #define XkbFreeControls SrvXkbFreeControls #define XkbFreeIndicatorMaps SrvXkbFreeIndicatorMaps #define XkbFreeKeyboard SrvXkbFreeKeyboard #define XkbFreeNames SrvXkbFreeNames #define XkbAddDeviceLedInfo SrvXkbAddDeviceLedInfo #define XkbAllocDeviceInfo SrvXkbAllocDeviceInfo #define XkbFreeDeviceInfo SrvXkbFreeDeviceInfo #define XkbResizeDeviceButtonActions SrvXkbResizeDeviceButtonActions #define XkbLatchModifiers SrvXkbLatchModifiers #define XkbLatchGroup SrvXkbLatchGroup #define XkbVirtualModsToReal SrvXkbVirtualModsToReal #define XkbChangeKeycodeRange SrvXkbChangeKeycodeRange #define XkbApplyVirtualModChanges SrvXkbApplyVirtualModChanges #define XkbUpdateActionVirtualMods SrvXkbUpdateActionVirtualMods #define XkbUpdateKeyTypeVirtualMods SrvXkbUpdateKeyTypeVirtualMods #endif #include #include #include "inputstr.h" typedef struct _XkbInterest { DeviceIntPtr dev; ClientPtr client; XID resource; struct _XkbInterest * next; CARD16 extDevNotifyMask; CARD16 stateNotifyMask; CARD16 namesNotifyMask; CARD32 ctrlsNotifyMask; CARD8 compatNotifyMask; BOOL bellNotifyMask; BOOL actionMessageMask; CARD16 accessXNotifyMask; CARD32 iStateNotifyMask; CARD32 iMapNotifyMask; CARD16 altSymsNotifyMask; CARD32 autoCtrls; CARD32 autoCtrlValues; } XkbInterestRec,*XkbInterestPtr; typedef struct _XkbRadioGroup { CARD8 flags; CARD8 nMembers; CARD8 dfltDown; CARD8 currentDown; CARD8 members[XkbRGMaxMembers]; } XkbRadioGroupRec, *XkbRadioGroupPtr; typedef struct _XkbEventCause { CARD8 kc; CARD8 event; CARD8 mjr; CARD8 mnr; ClientPtr client; } XkbEventCauseRec,*XkbEventCausePtr; #define XkbSetCauseKey(c,k,e) { (c)->kc= (k),(c)->event= (e),\ (c)->mjr= (c)->mnr= 0; \ (c)->client= NULL; } #define XkbSetCauseReq(c,j,n,cl) { (c)->kc= (c)->event= 0,\ (c)->mjr= (j),(c)->mnr= (n);\ (c)->client= (cl); } #define XkbSetCauseCoreReq(c,e,cl) XkbSetCauseReq(c,e,0,cl) #define XkbSetCauseXkbReq(c,e,cl) XkbSetCauseReq(c,XkbReqCode,e,cl) #define XkbSetCauseUnknown(c) XkbSetCauseKey(c,0,0) #define _OFF_TIMER 0 #define _KRG_WARN_TIMER 1 #define _KRG_TIMER 2 #define _SK_TIMEOUT_TIMER 3 #define _ALL_TIMEOUT_TIMER 4 #define _BEEP_NONE 0 #define _BEEP_FEATURE_ON 1 #define _BEEP_FEATURE_OFF 2 #define _BEEP_FEATURE_CHANGE 3 #define _BEEP_SLOW_WARN 4 #define _BEEP_SLOW_PRESS 5 #define _BEEP_SLOW_ACCEPT 6 #define _BEEP_SLOW_REJECT 7 #define _BEEP_SLOW_RELEASE 8 #define _BEEP_STICKY_LATCH 9 #define _BEEP_STICKY_LOCK 10 #define _BEEP_STICKY_UNLOCK 11 #define _BEEP_LED_ON 12 #define _BEEP_LED_OFF 13 #define _BEEP_LED_CHANGE 14 #define _BEEP_BOUNCE_REJECT 15 typedef struct _XkbSrvInfo { XkbStateRec prev_state; XkbStateRec state; XkbDescPtr desc; DeviceIntPtr device; KbdCtrlProcPtr kbdProc; XkbRadioGroupPtr radioGroups; CARD8 nRadioGroups; CARD8 clearMods; CARD8 setMods; INT16 groupChange; CARD16 dfltPtrDelta; double mouseKeysCurve; double mouseKeysCurveFactor; INT16 mouseKeysDX; INT16 mouseKeysDY; CARD8 mouseKeysFlags; Bool mouseKeysAccel; CARD8 mouseKeysCounter; CARD8 lockedPtrButtons; CARD8 shiftKeyCount; KeyCode mouseKey; KeyCode inactiveKey; KeyCode slowKey; KeyCode repeatKey; CARD8 krgTimerActive; CARD8 beepType; CARD8 beepCount; CARD32 flags; CARD32 lastPtrEventTime; CARD32 lastShiftEventTime; OsTimerPtr beepTimer; OsTimerPtr mouseKeyTimer; OsTimerPtr slowKeysTimer; OsTimerPtr bounceKeysTimer; OsTimerPtr repeatKeyTimer; OsTimerPtr krgTimer; } XkbSrvInfoRec, *XkbSrvInfoPtr; #define XkbSLI_IsDefault (1L<<0) #define XkbSLI_HasOwnState (1L<<1) typedef struct _XkbSrvLedInfo { CARD16 flags; CARD16 class; CARD16 id; union { KbdFeedbackPtr kf; LedFeedbackPtr lf; } fb; CARD32 physIndicators; CARD32 autoState; CARD32 explicitState; CARD32 effectiveState; CARD32 mapsPresent; CARD32 namesPresent; XkbIndicatorMapPtr maps; Atom * names; CARD32 usesBase; CARD32 usesLatched; CARD32 usesLocked; CARD32 usesEffective; CARD32 usesCompat; CARD32 usesControls; CARD32 usedComponents; } XkbSrvLedInfoRec, *XkbSrvLedInfoPtr; /* * Settings for xkbClientFlags field (used by DIX) * These flags _must_ not overlap with XkbPCF_* */ #define _XkbClientInitialized (1<<15) #define _XkbWantsDetectableAutoRepeat(c)\ ((c)->xkbClientFlags&XkbPCF_DetectableAutoRepeatMask) /* * Settings for flags field */ #define _XkbStateNotifyInProgress (1<<0) typedef struct { ProcessInputProc processInputProc; ProcessInputProc realInputProc; DeviceUnwrapProc unwrapProc; } xkbDeviceInfoRec, *xkbDeviceInfoPtr; #define WRAP_PROCESS_INPUT_PROC(device, oldprocs, proc, unwrapproc) \ device->public.processInputProc = proc; \ oldprocs->processInputProc = \ oldprocs->realInputProc = device->public.realInputProc; \ device->public.realInputProc = proc; \ oldprocs->unwrapProc = device->unwrapProc; \ device->unwrapProc = unwrapproc; #define COND_WRAP_PROCESS_INPUT_PROC(device, oldprocs, proc, unwrapproc) \ if (device->public.processInputProc == device->public.realInputProc)\ device->public.processInputProc = proc; \ oldprocs->processInputProc = \ oldprocs->realInputProc = device->public.realInputProc; \ device->public.realInputProc = proc; \ oldprocs->unwrapProc = device->unwrapProc; \ device->unwrapProc = unwrapproc; #define UNWRAP_PROCESS_INPUT_PROC(device, oldprocs) \ device->public.processInputProc = oldprocs->processInputProc; \ device->public.realInputProc = oldprocs->realInputProc; \ device->unwrapProc = oldprocs->unwrapProc; #define XKBDEVICEINFO(dev) ((xkbDeviceInfoPtr) (dev)->devPrivates[xkbDevicePrivateIndex].ptr) /***====================================================================***/ /***====================================================================***/ #define XkbAX_KRGMask (XkbSlowKeysMask|XkbBounceKeysMask) #define XkbAllFilteredEventsMask \ (XkbAccessXKeysMask|XkbRepeatKeysMask|XkbMouseKeysAccelMask|XkbAX_KRGMask) /***====================================================================***/ extern int XkbReqCode; extern int XkbEventBase; extern int XkbKeyboardErrorCode; extern int XkbDisableLockActions; extern char * XkbBaseDirectory; extern char * XkbBinDirectory; extern char * XkbInitialMap; extern int _XkbClientMajor; extern int _XkbClientMinor; extern unsigned int XkbXIUnsupported; extern char * XkbModelUsed,*XkbLayoutUsed,*XkbVariantUsed,*XkbOptionsUsed; extern Bool noXkbExtension; extern Bool XkbWantRulesProp; extern pointer XkbLastRepeatEvent; extern CARD32 xkbDebugFlags; extern CARD32 xkbDebugCtrls; #define _XkbAlloc(s) xalloc((s)) #define _XkbCalloc(n,s) Xcalloc((n)*(s)) #define _XkbRealloc(o,s) Xrealloc((o),(s)) #define _XkbTypedAlloc(t) ((t *)xalloc(sizeof(t))) #define _XkbTypedCalloc(n,t) ((t *)Xcalloc((n)*sizeof(t))) #define _XkbTypedRealloc(o,n,t) \ ((o)?(t *)Xrealloc((o),(n)*sizeof(t)):_XkbTypedCalloc(n,t)) #define _XkbClearElems(a,f,l,t) bzero(&(a)[f],((l)-(f)+1)*sizeof(t)) #define _XkbFree(p) Xfree(p) #define _XkbLibError(c,l,d) \ { _XkbErrCode= (c); _XkbErrLocation= (l); _XkbErrData= (d); } #define _XkbErrCode2(a,b) ((XID)((((unsigned int)(a))<<24)|((b)&0xffffff))) #define _XkbErrCode3(a,b,c) _XkbErrCode2(a,(((unsigned int)(b))<<16)|(c)) #define _XkbErrCode4(a,b,c,d) _XkbErrCode3(a,b,((((unsigned int)(c))<<8)|(d))) extern int DeviceKeyPress,DeviceKeyRelease; extern int DeviceButtonPress,DeviceButtonRelease; #ifdef XINPUT #define _XkbIsPressEvent(t) (((t)==KeyPress)||((t)==DeviceKeyPress)) #define _XkbIsReleaseEvent(t) (((t)==KeyRelease)||((t)==DeviceKeyRelease)) #else #define _XkbIsPressEvent(t) ((t)==KeyPress) #define _XkbIsReleaseEvent(t) ((t)==KeyRelease) #endif #define _XkbCoreKeycodeInRange(c,k) (((k)>=(c)->curKeySyms.minKeyCode)&&\ ((k)<=(c)->curKeySyms.maxKeyCode)) #define _XkbCoreNumKeys(c) ((c)->curKeySyms.maxKeyCode-\ (c)->curKeySyms.minKeyCode+1) #define XConvertCase(s,l,u) XkbConvertCase(s,l,u) #undef IsKeypadKey #define IsKeypadKey(s) XkbKSIsKeypad(s) typedef int Status; typedef pointer XPointer; typedef struct _XDisplay Display; #ifndef True #define True 1 #define False 0 #endif #ifndef PATH_MAX #ifdef MAXPATHLEN #define PATH_MAX MAXPATHLEN #else #define PATH_MAX 1024 #endif #endif _XFUNCPROTOBEGIN extern void XkbUseMsg( void ); extern int XkbProcessArguments( int /* argc */, char ** /* argv */, int /* i */ ); extern void XkbSetExtension(DeviceIntPtr device, ProcessInputProc proc); extern void XkbFreeCompatMap( XkbDescPtr /* xkb */, unsigned int /* which */, Bool /* freeMap */ ); extern void XkbFreeNames( XkbDescPtr /* xkb */, unsigned int /* which */, Bool /* freeMap */ ); extern DeviceIntPtr _XkbLookupAnyDevice( int /* id */, int * /* why_rtrn */ ); extern DeviceIntPtr _XkbLookupKeyboard( int /* id */, int * /* why_rtrn */ ); extern DeviceIntPtr _XkbLookupBellDevice( int /* id */, int * /* why_rtrn */ ); extern DeviceIntPtr _XkbLookupLedDevice( int /* id */, int * /* why_rtrn */ ); extern DeviceIntPtr _XkbLookupButtonDevice( int /* id */, int * /* why_rtrn */ ); extern XkbDescPtr XkbAllocKeyboard( void ); extern Status XkbAllocClientMap( XkbDescPtr /* xkb */, unsigned int /* which */, unsigned int /* nTypes */ ); extern Status XkbAllocServerMap( XkbDescPtr /* xkb */, unsigned int /* which */, unsigned int /* nNewActions */ ); extern void XkbFreeClientMap( XkbDescPtr /* xkb */, unsigned int /* what */, Bool /* freeMap */ ); extern void XkbFreeServerMap( XkbDescPtr /* xkb */, unsigned int /* what */, Bool /* freeMap */ ); extern Status XkbAllocIndicatorMaps( XkbDescPtr /* xkb */ ); extern Status XkbAllocCompatMap( XkbDescPtr /* xkb */, unsigned int /* which */, unsigned int /* nInterpret */ ); extern Status XkbAllocNames( XkbDescPtr /* xkb */, unsigned int /* which */, int /* nTotalRG */, int /* nTotalAliases */ ); extern Status XkbAllocControls( XkbDescPtr /* xkb */, unsigned int /* which*/ ); extern Status XkbCopyKeyType( XkbKeyTypePtr /* from */, XkbKeyTypePtr /* into */ ); extern Status XkbCopyKeyTypes( XkbKeyTypePtr /* from */, XkbKeyTypePtr /* into */, int /* num_types */ ); extern Status XkbResizeKeyType( XkbDescPtr /* xkb */, int /* type_ndx */, int /* map_count */, Bool /* want_preserve */, int /* new_num_lvls */ ); extern void XkbFreeKeyboard( XkbDescPtr /* xkb */, unsigned int /* which */, Bool /* freeDesc */ ); extern void XkbSetActionKeyMods( XkbDescPtr /* xkb */, XkbAction * /* act */, unsigned int /* mods */ ); extern Bool XkbCheckActionVMods( XkbDescPtr /* xkb */, XkbAction * /* act */, unsigned int /* changed */ ); extern Bool XkbApplyVModChanges( XkbSrvInfoPtr /* xkbi */, unsigned int /* changed */, XkbChangesPtr /* pChanges */, unsigned int * /* needChecksRtrn */, XkbEventCausePtr /* cause */ ); extern void XkbApplyVModChangesToAllDevices( DeviceIntPtr /* dev */, XkbDescPtr /* xkb */, unsigned int /* changed */, XkbEventCausePtr /* cause */ ); extern unsigned int XkbMaskForVMask( XkbDescPtr /* xkb */, unsigned int /* vmask */ ); extern Bool XkbVirtualModsToReal( XkbDescPtr /* xkb */, unsigned int /* virtua_mask */, unsigned int * /* mask_rtrn */ ); extern unsigned int XkbAdjustGroup( int /* group */, XkbControlsPtr /* ctrls */ ); extern KeySym *XkbResizeKeySyms( XkbDescPtr /* xkb */, int /* key */, int /* needed */ ); extern XkbAction *XkbResizeKeyActions( XkbDescPtr /* xkb */, int /* key */, int /* needed */ ); extern void XkbUpdateKeyTypesFromCore( DeviceIntPtr /* pXDev */, KeyCode /* first */, CARD8 /* num */, XkbChangesPtr /* pChanges */ ); extern void XkbUpdateDescActions( XkbDescPtr /* xkb */, KeyCode /* first */, CARD8 /* num */, XkbChangesPtr /* changes */ ); extern void XkbUpdateActions( DeviceIntPtr /* pXDev */, KeyCode /* first */, CARD8 /* num */, XkbChangesPtr /* pChanges */, unsigned int * /* needChecksRtrn */, XkbEventCausePtr /* cause */ ); extern void XkbUpdateCoreDescription( DeviceIntPtr /* keybd */, Bool /* resize */ ); extern void XkbApplyMappingChange( DeviceIntPtr /* pXDev */, CARD8 /* request */, KeyCode /* firstKey */, CARD8 /* num */, ClientPtr /* client */ ); extern void XkbSetIndicators( DeviceIntPtr /* pXDev */, CARD32 /* affect */, CARD32 /* values */, XkbEventCausePtr /* cause */ ); extern void XkbUpdateIndicators( DeviceIntPtr /* keybd */, CARD32 /* changed */, Bool /* check_edevs */, XkbChangesPtr /* pChanges */, XkbEventCausePtr /* cause */ ); extern XkbSrvLedInfoPtr XkbAllocSrvLedInfo( DeviceIntPtr /* dev */, KbdFeedbackPtr /* kf */, LedFeedbackPtr /* lf */, unsigned int /* needed_parts */ ); extern XkbSrvLedInfoPtr XkbFindSrvLedInfo( DeviceIntPtr /* dev */, unsigned int /* class */, unsigned int /* id */, unsigned int /* needed_parts */ ); extern void XkbApplyLedNameChanges( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, unsigned int /* changed_names */, xkbExtensionDeviceNotify * /* ed */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbApplyLedMapChanges( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, unsigned int /* changed_maps */, xkbExtensionDeviceNotify * /* ed */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbApplyLedStateChanges( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, unsigned int /* changed_leds */, xkbExtensionDeviceNotify * /* ed */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbUpdateLedAutoState( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, unsigned int /* maps_to_check */, xkbExtensionDeviceNotify * /* ed */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbFlushLedEvents( DeviceIntPtr /* dev */, DeviceIntPtr /* kbd */, XkbSrvLedInfoPtr /* sli */, xkbExtensionDeviceNotify * /* ed */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbUpdateAllDeviceIndicators( XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern unsigned int XkbIndicatorsToUpdate( DeviceIntPtr /* dev */, unsigned long /* state_changes */, Bool /* enabled_ctrl_changes */ ); extern void XkbComputeDerivedState( XkbSrvInfoPtr /* xkbi */ ); extern void XkbCheckSecondaryEffects( XkbSrvInfoPtr /* xkbi */, unsigned int /* which */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void XkbCheckIndicatorMaps( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, unsigned int /* which */ ); extern unsigned int XkbStateChangedFlags( XkbStatePtr /* old */, XkbStatePtr /* new */ ); extern void XkbSendStateNotify( DeviceIntPtr /* kbd */, xkbStateNotify * /* pSN */ ); extern void XkbSendMapNotify( DeviceIntPtr /* kbd */, xkbMapNotify * /* ev */ ); extern int XkbComputeControlsNotify( DeviceIntPtr /* kbd */, XkbControlsPtr /* old */, XkbControlsPtr /* new */, xkbControlsNotify * /* pCN */, Bool /* forceCtrlProc */ ); extern void XkbSendControlsNotify( DeviceIntPtr /* kbd */, xkbControlsNotify * /* ev */ ); extern void XkbSendCompatMapNotify( DeviceIntPtr /* kbd */, xkbCompatMapNotify * /* ev */ ); extern void XkbSendIndicatorNotify( DeviceIntPtr /* kbd */, int /* xkbType */, xkbIndicatorNotify * /* ev */ ); extern void XkbHandleBell( BOOL /* force */, BOOL /* eventOnly */, DeviceIntPtr /* kbd */, CARD8 /* percent */, pointer /* ctrl */, CARD8 /* class */, Atom /* name */, WindowPtr /* pWin */, ClientPtr /* pClient */ ); extern void XkbSendAccessXNotify( DeviceIntPtr /* kbd */, xkbAccessXNotify * /* pEv */ ); extern void XkbSendNamesNotify( DeviceIntPtr /* kbd */, xkbNamesNotify * /* ev */ ); extern void XkbSendCompatNotify( DeviceIntPtr /* kbd */, xkbCompatMapNotify * /* ev */ ); extern void XkbSendActionMessage( DeviceIntPtr /* kbd */, xkbActionMessage * /* ev */ ); extern void XkbSendExtensionDeviceNotify( DeviceIntPtr /* kbd */, ClientPtr /* client */, xkbExtensionDeviceNotify * /* ev */ ); extern void XkbSendNotification( DeviceIntPtr /* kbd */, XkbChangesPtr /* pChanges */, XkbEventCausePtr /* cause */ ); extern void XkbProcessKeyboardEvent( struct _xEvent * /* xE */, DeviceIntPtr /* keybd */, int /* count */ ); extern void XkbProcessOtherEvent( struct _xEvent * /* xE */, DeviceIntPtr /* keybd */, int /* count */ ); extern void XkbHandleActions( DeviceIntPtr /* dev */, DeviceIntPtr /* kbd */, struct _xEvent * /* xE */, int /* count */ ); extern Bool XkbEnableDisableControls( XkbSrvInfoPtr /* xkbi */, unsigned long /* change */, unsigned long /* newValues */, XkbChangesPtr /* changes */, XkbEventCausePtr /* cause */ ); extern void AccessXInit( DeviceIntPtr /* dev */ ); extern Bool AccessXFilterPressEvent( register struct _xEvent * /* xE */, register DeviceIntPtr /* keybd */, int /* count */ ); extern Bool AccessXFilterReleaseEvent( register struct _xEvent * /* xE */, register DeviceIntPtr /* keybd */, int /* count */ ); extern void AccessXCancelRepeatKey( XkbSrvInfoPtr /* xkbi */, KeyCode /* key */ ); extern void AccessXComputeCurveFactor( XkbSrvInfoPtr /* xkbi */, XkbControlsPtr /* ctrls */ ); extern XkbDeviceLedInfoPtr XkbAddDeviceLedInfo( XkbDeviceInfoPtr /* devi */, unsigned int /* ledClass */, unsigned int /* ledId */ ); extern XkbDeviceInfoPtr XkbAllocDeviceInfo( unsigned int /* deviceSpec */, unsigned int /* nButtons */, unsigned int /* szLeds */ ); extern void XkbFreeDeviceInfo( XkbDeviceInfoPtr /* devi */, unsigned int /* which */, Bool /* freeDevI */ ); extern Status XkbResizeDeviceButtonActions( XkbDeviceInfoPtr /* devi */, unsigned int /* newTotal */ ); extern XkbInterestPtr XkbFindClientResource( DevicePtr /* inDev */, ClientPtr /* client */ ); extern XkbInterestPtr XkbAddClientResource( DevicePtr /* inDev */, ClientPtr /* client */, XID /* id */ ); extern int XkbRemoveClient( DevicePtr /* inDev */, ClientPtr /* client */ ); extern int XkbRemoveResourceClient( DevicePtr /* inDev */, XID /* id */ ); extern int XkbDDXInitDevice( DeviceIntPtr /* dev */ ); extern int XkbDDXAccessXBeep( DeviceIntPtr /* dev */, unsigned int /* what */, unsigned int /* which */ ); extern void XkbDDXKeyClick( DeviceIntPtr /* dev */, int /* keycode */, int /* synthetic */ ); extern int XkbDDXUsesSoftRepeat( DeviceIntPtr /* dev */ ); extern void XkbDDXKeybdCtrlProc( DeviceIntPtr /* dev */, KeybdCtrl * /* ctrl */ ); extern void XkbDDXChangeControls( DeviceIntPtr /* dev */, XkbControlsPtr /* old */, XkbControlsPtr /* new */ ); extern void XkbDDXUpdateIndicators( DeviceIntPtr /* keybd */, CARD32 /* newState */ ); extern void XkbDDXUpdateDeviceIndicators( DeviceIntPtr /* dev */, XkbSrvLedInfoPtr /* sli */, CARD32 /* newState */ ); extern void XkbDDXFakePointerButton( int /* event */, int /* button */ ); extern void XkbDDXFakePointerMotion( unsigned int /* flags */, int /* x */, int /* y */ ); extern void XkbDDXFakeDeviceButton( DeviceIntPtr /* dev */, Bool /* press */, int /* button */ ); extern int XkbDDXTerminateServer( DeviceIntPtr /* dev */, KeyCode /* key */, XkbAction * /* act */ ); extern int XkbDDXSwitchScreen( DeviceIntPtr /* dev */, KeyCode /* key */, XkbAction * /* act */ ); extern int XkbDDXPrivate( DeviceIntPtr /* dev */, KeyCode /* key */, XkbAction * /* act */ ); extern void XkbDisableComputedAutoRepeats( DeviceIntPtr /* pXDev */, unsigned int /* key */ ); extern void XkbSetRepeatKeys( DeviceIntPtr /* pXDev */, int /* key */, int /* onoff */ ); extern int XkbLatchModifiers( DeviceIntPtr /* pXDev */, CARD8 /* mask */, CARD8 /* latches */ ); extern int XkbLatchGroup( DeviceIntPtr /* pXDev */, int /* group */ ); extern void XkbClearAllLatchesAndLocks( DeviceIntPtr /* dev */, XkbSrvInfoPtr /* xkbi */, Bool /* genEv */, XkbEventCausePtr /* cause */ ); extern void XkbSetRulesDflts( char * /* rulesFile */, char * /* model */, char * /* layout */, char * /* variant */, char * /* options */ ); extern void XkbInitDevice( DeviceIntPtr /* pXDev */ ); extern Bool XkbInitKeyboardDeviceStruct( DeviceIntPtr /* pXDev */, XkbComponentNamesPtr /* pNames */, KeySymsPtr /* pSyms */, CARD8 /* pMods */[], BellProcPtr /* bellProc */, KbdCtrlProcPtr /* ctrlProc */ ); extern int SProcXkbDispatch( ClientPtr /* client */ ); extern XkbGeometryPtr XkbLookupNamedGeometry( DeviceIntPtr /* dev */, Atom /* name */, Bool * /* shouldFree */ ); extern char * _XkbDupString( char * /* str */ ); extern void XkbConvertCase( KeySym /* sym */, KeySym * /* lower */, KeySym * /* upper */ ); extern Status XkbChangeKeycodeRange( XkbDescPtr /* xkb */, int /* minKC */, int /* maxKC */, XkbChangesPtr /* changes */ ); extern int XkbFinishDeviceInit( DeviceIntPtr /* pXDev */ ); extern void XkbFreeSrvLedInfo( XkbSrvLedInfoPtr /* sli */ ); extern void XkbFreeInfo( XkbSrvInfoPtr /* xkbi */ ); extern Status XkbChangeTypesOfKey( XkbDescPtr /* xkb */, int /* key */, int /* nGroups */, unsigned int /* groups */, int * /* newTypesIn */, XkbMapChangesPtr /* changes */ ); extern XkbKeyTypePtr XkbAddKeyType( XkbDescPtr /* xkb */, Atom /* name */, int /* map_count */, Bool /* want_preserve */, int /* num_lvls */ ); extern Status XkbInitCanonicalKeyTypes( XkbDescPtr /* xkb */, unsigned int /* which */, int /* keypadVMod */ ); extern int XkbKeyTypesForCoreSymbols( XkbDescPtr /* xkb */, int /* map_width */, KeySym * /* core_syms */, unsigned int /* protected */, int * /* types_inout */, KeySym * /* xkb_syms_rtrn */ ); extern Bool XkbApplyCompatMapToKey( XkbDescPtr /* xkb */, KeyCode /* key */, XkbChangesPtr /* changes */ ); extern Bool XkbUpdateMapFromCore( XkbDescPtr /* xkb */, KeyCode /* first_key */, int /* num_keys */, int /* map_width */, KeySym * /* core_keysyms */, XkbChangesPtr /* changes */ ); extern void XkbFreeControls( XkbDescPtr /* xkb */, unsigned int /* which */, Bool /* freeMap */ ); extern void XkbFreeIndicatorMaps( XkbDescPtr /* xkb */ ); extern Bool XkbApplyVirtualModChanges( XkbDescPtr /* xkb */, unsigned int /* changed */, XkbChangesPtr /* changes */ ); extern Bool XkbUpdateActionVirtualMods( XkbDescPtr /* xkb */, XkbAction * /* act */, unsigned int /* changed */ ); extern void XkbUpdateKeyTypeVirtualMods( XkbDescPtr /* xkb */, XkbKeyTypePtr /* type */, unsigned int /* changed */, XkbChangesPtr /* changes */ ); extern void XkbSendNewKeyboardNotify( DeviceIntPtr /* kbd */, xkbNewKeyboardNotify * /* pNKN */ ); #ifdef XKBSRV_NEED_FILE_FUNCS #include #include #include #define _XkbListKeymaps 0 #define _XkbListKeycodes 1 #define _XkbListTypes 2 #define _XkbListCompat 3 #define _XkbListSymbols 4 #define _XkbListGeometry 5 #define _XkbListNumComponents 6 typedef struct _XkbSrvListInfo { int szPool; int nPool; char * pool; int maxRtrn; int nTotal; char * pattern[_XkbListNumComponents]; int nFound[_XkbListNumComponents]; } XkbSrvListInfoRec,*XkbSrvListInfoPtr; char * XkbGetRulesDflts( XkbRF_VarDefsPtr /* defs */ ); extern void XkbSetRulesUsed( XkbRF_VarDefsPtr /* defs */ ); extern Status XkbDDXList( DeviceIntPtr /* dev */, XkbSrvListInfoPtr /* listing */, ClientPtr /* client */ ); extern unsigned int XkbDDXLoadKeymapByNames( DeviceIntPtr /* keybd */, XkbComponentNamesPtr /* names */, unsigned int /* want */, unsigned int /* need */, XkbFileInfoPtr /* finfoRtrn */, char * /* keymapNameRtrn */, int /* keymapNameRtrnLen */ ); extern Bool XkbDDXNamesFromRules( DeviceIntPtr /* keybd */, char * /* rules */, XkbRF_VarDefsPtr /* defs */, XkbComponentNamesPtr /* names */ ); extern FILE *XkbDDXOpenConfigFile( char * /* mapName */, char * /* fileNameRtrn */, int /* fileNameRtrnLen */ ); extern Bool XkbDDXApplyConfig( XPointer /* cfg_in */, XkbSrvInfoPtr /* xkbi */ ); extern XPointer XkbDDXPreloadConfig( char ** /* rulesFileRtrn */, XkbRF_VarDefsPtr /* defs */, XkbComponentNamesPtr /* names */, DeviceIntPtr /* dev */ ); extern int _XkbStrCaseCmp( char * /* str1 */, char * /* str2 */ ); #endif /* XKBSRV_NEED_FILE_FUNCS */ _XFUNCPROTOEND #define XkbAtomGetString(d,s) NameForAtom(s) #endif /* _XKBSRV_H_ */ ( DeviceIntPtr /* kbd */, xkbStateNotify * /* pSN */ ); extern void XkbSendMapNotify( DeviceIntPtr /* kbd */,kbproto-1.0.7/configure.ac000064401431060000012000000011171252061122500157420ustar00alancstaff00002660200006AC_PREREQ([2.60]) AC_INIT([KBProto], [1.0.7], [https://bugs.freedesktop.org/enter_bug.cgi?product=xorg]) AM_INIT_AUTOMAKE([foreign dist-bzip2]) # Require xorg-macros minimum of 1.12 for DocBook external references m4_ifndef([XORG_MACROS_VERSION], [m4_fatal([must install xorg-macros 1.12 or later before running autoconf/autogen])]) XORG_MACROS_VERSION(1.12) XORG_DEFAULT_OPTIONS XORG_ENABLE_SPECS XORG_WITH_XMLTO(0.0.22) XORG_WITH_FOP XORG_WITH_XSLTPROC XORG_CHECK_SGML_DOCTOOLS(1.8) AC_CONFIG_FILES([Makefile specs/Makefile kbproto.pc]) AC_OUTPUT kbproto-1.0.7/INSTALL000064401431060000012000000366001252061204700145150ustar00alancstaff00002660200006Installation Instructions ************************* Copyright (C) 1994-1996, 1999-2002, 2004-2011 Free Software Foundation, Inc. Copying and distribution of this file, with or without modification, are permitted in any medium without royalty provided the copyright notice and this notice are preserved. This file is offered as-is, without warranty of any kind. Basic Installation ================== Briefly, the shell commands `./configure; make; make install' should configure, build, and install this package. The following more-detailed instructions are generic; see the `README' file for instructions specific to this package. Some packages provide this `INSTALL' file but do not implement all of the features documented below. The lack of an optional feature in a given package is not necessarily a bug. More recommendations for GNU packages can be found in *note Makefile Conventions: (standards)Makefile Conventions. The `configure' shell script attempts to guess correct values for various system-dependent variables used during compilation. It uses those values to create a `Makefile' in each directory of the package. It may also create one or more `.h' files containing system-dependent definitions. Finally, it creates a shell script `config.status' that you can run in the future to recreate the current configuration, and a file `config.log' containing compiler output (useful mainly for debugging `configure'). It can also use an optional file (typically called `config.cache' and enabled with `--cache-file=config.cache' or simply `-C') that saves the results of its tests to speed up reconfiguring. Caching is disabled by default to prevent problems with accidental use of stale cache files. If you need to do unusual things to compile the package, please try to figure out how `configure' could check whether to do them, and mail diffs or instructions to the address given in the `README' so they can be considered for the next release. If you are using the cache, and at some point `config.cache' contains results you don't want to keep, you may remove or edit it. 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Compiling For Multiple Architectures ==================================== You can compile the package for more than one kind of computer at the same time, by placing the object files for each architecture in their own directory. To do this, you can use GNU `make'. `cd' to the directory where you want the object files and executables to go and run the `configure' script. `configure' automatically checks for the source code in the directory that `configure' is in and in `..'. This is known as a "VPATH" build. With a non-GNU `make', it is safer to compile the package for one architecture at a time in the source code directory. After you have installed the package for one architecture, use `make distclean' before reconfiguring for another architecture. On MacOS X 10.5 and later systems, you can create libraries and executables that work on multiple system types--known as "fat" or "universal" binaries--by specifying multiple `-arch' options to the compiler but only a single `-arch' option to the preprocessor. Like this: ./configure CC="gcc -arch i386 -arch x86_64 -arch ppc -arch ppc64" \ CXX="g++ -arch i386 -arch x86_64 -arch ppc -arch ppc64" \ CPP="gcc -E" CXXCPP="g++ -E" This is not guaranteed to produce working output in all cases, you may have to build one architecture at a time and combine the results using the `lipo' tool if you have problems. Installation Names ================== By default, `make install' installs the package's commands under `/usr/local/bin', include files under `/usr/local/include', etc. You can specify an installation prefix other than `/usr/local' by giving `configure' the option `--prefix=PREFIX', where PREFIX must be an absolute file name. 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Until the bug is fixed you can use this workaround: CONFIG_SHELL=/bin/bash /bin/bash ./configure CONFIG_SHELL=/bin/bash `configure' Invocation ====================== `configure' recognizes the following options to control how it operates. `--help' `-h' Print a summary of all of the options to `configure', and exit. `--help=short' `--help=recursive' Print a summary of the options unique to this package's `configure', and exit. The `short' variant lists options used only in the top level, while the `recursive' variant lists options also present in any nested packages. `--version' `-V' Print the version of Autoconf used to generate the `configure' script, and exit. `--cache-file=FILE' Enable the cache: use and save the results of the tests in FILE, traditionally `config.cache'. FILE defaults to `/dev/null' to disable caching. `--config-cache' `-C' Alias for `--cache-file=config.cache'. `--quiet' `--silent' `-q' Do not print messages saying which checks are being made. To suppress all normal output, redirect it to `/dev/null' (any error messages will still be shown). `--srcdir=DIR' Look for the package's source code in directory DIR. Usually `configure' can determine that directory automatically. `--prefix=DIR' Use DIR as the installation prefix. *note Installation Names:: for more details, including other options available for fine-tuning the installation locations. `--no-create' `-n' Run the configure checks, but stop before creating any output files. `configure' also accepts some other, not widely useful, options. Run `configure --help' for more details. nd in `..'. This is known as a "VPATH" build. With a non-GNU `make', it is safer to compile the package for one architecturkbproto-1.0.7/README000064401431060000012000000014321252061122500143340ustar00alancstaff00002660200006 X Keyboard Extension This extension defines a protcol to provide a number of new capabilities and controls for text keyboards. 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Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #ifndef _XKBSTR_H_ #define _XKBSTR_H_ #include #define XkbCharToInt(v) ((v)&0x80?(int)((v)|(~0xff)):(int)((v)&0x7f)) #define XkbIntTo2Chars(i,h,l) (((h)=((i>>8)&0xff)),((l)=((i)&0xff))) #define Xkb2CharsToInt(h,l) ((short)(((h)<<8)|(l))) /* * The Xkb structs are full of implicit padding to properly align members. * We can't clean that up without breaking ABI, so tell clang not to bother * complaining about it. */ #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wpadded" #endif /* * Common data structures and access macros */ typedef struct _XkbStateRec { unsigned char group; unsigned char locked_group; unsigned short base_group; unsigned short latched_group; unsigned char mods; unsigned char base_mods; unsigned char latched_mods; unsigned char locked_mods; unsigned char compat_state; unsigned char grab_mods; unsigned char compat_grab_mods; unsigned char lookup_mods; unsigned char compat_lookup_mods; unsigned short ptr_buttons; } XkbStateRec,*XkbStatePtr; #define XkbModLocks(s) ((s)->locked_mods) #define XkbStateMods(s) ((s)->base_mods|(s)->latched_mods|XkbModLocks(s)) #define XkbGroupLock(s) ((s)->locked_group) #define XkbStateGroup(s) ((s)->base_group+(s)->latched_group+XkbGroupLock(s)) #define XkbStateFieldFromRec(s) XkbBuildCoreState((s)->lookup_mods,(s)->group) #define XkbGrabStateFromRec(s) XkbBuildCoreState((s)->grab_mods,(s)->group) typedef struct _XkbMods { unsigned char mask; /* effective mods */ unsigned char real_mods; unsigned short vmods; } XkbModsRec,*XkbModsPtr; typedef struct _XkbKTMapEntry { Bool active; unsigned char level; XkbModsRec mods; } XkbKTMapEntryRec,*XkbKTMapEntryPtr; typedef struct _XkbKeyType { XkbModsRec mods; unsigned char num_levels; unsigned char map_count; /* map is an array of map_count XkbKTMapEntryRec structs */ XkbKTMapEntryPtr map; /* preserve is an array of map_count XkbModsRec structs */ XkbModsPtr preserve; Atom name; /* level_names is an array of num_levels Atoms */ Atom * level_names; } XkbKeyTypeRec, *XkbKeyTypePtr; #define XkbNumGroups(g) ((g)&0x0f) #define XkbOutOfRangeGroupInfo(g) ((g)&0xf0) #define XkbOutOfRangeGroupAction(g) ((g)&0xc0) #define XkbOutOfRangeGroupNumber(g) (((g)&0x30)>>4) #define XkbSetGroupInfo(g,w,n) (((w)&0xc0)|(((n)&3)<<4)|((g)&0x0f)) #define XkbSetNumGroups(g,n) (((g)&0xf0)|((n)&0x0f)) /* * Structures and access macros used primarily by the server */ typedef struct _XkbBehavior { unsigned char type; unsigned char data; } XkbBehavior; #define XkbAnyActionDataSize 7 typedef struct _XkbAnyAction { unsigned char type; unsigned char data[XkbAnyActionDataSize]; } XkbAnyAction; typedef struct _XkbModAction { unsigned char type; unsigned char flags; unsigned char mask; unsigned char real_mods; unsigned char vmods1; unsigned char vmods2; } XkbModAction; #define XkbModActionVMods(a) \ ((short)(((a)->vmods1<<8)|((a)->vmods2))) #define XkbSetModActionVMods(a,v) \ (((a)->vmods1=(((v)>>8)&0xff)),(a)->vmods2=((v)&0xff)) typedef struct _XkbGroupAction { unsigned char type; unsigned char flags; char group_XXX; } XkbGroupAction; #define XkbSAGroup(a) (XkbCharToInt((a)->group_XXX)) #define XkbSASetGroup(a,g) ((a)->group_XXX=(g)) typedef struct _XkbISOAction { unsigned char type; unsigned char flags; unsigned char mask; unsigned char real_mods; char group_XXX; unsigned char affect; unsigned char vmods1; unsigned char vmods2; } XkbISOAction; typedef struct _XkbPtrAction { unsigned char type; unsigned char flags; unsigned char high_XXX; unsigned char low_XXX; unsigned char high_YYY; unsigned char low_YYY; } XkbPtrAction; #define XkbPtrActionX(a) (Xkb2CharsToInt((a)->high_XXX,(a)->low_XXX)) #define XkbPtrActionY(a) (Xkb2CharsToInt((a)->high_YYY,(a)->low_YYY)) #define XkbSetPtrActionX(a,x) (XkbIntTo2Chars(x,(a)->high_XXX,(a)->low_XXX)) #define XkbSetPtrActionY(a,y) (XkbIntTo2Chars(y,(a)->high_YYY,(a)->low_YYY)) typedef struct _XkbPtrBtnAction { unsigned char type; unsigned char flags; unsigned char count; unsigned char button; } XkbPtrBtnAction; typedef struct _XkbPtrDfltAction { unsigned char type; unsigned char flags; unsigned char affect; char valueXXX; } XkbPtrDfltAction; #define XkbSAPtrDfltValue(a) (XkbCharToInt((a)->valueXXX)) #define XkbSASetPtrDfltValue(a,c) ((a)->valueXXX= ((c)&0xff)) typedef struct _XkbSwitchScreenAction { unsigned char type; unsigned char flags; char screenXXX; } XkbSwitchScreenAction; #define XkbSAScreen(a) (XkbCharToInt((a)->screenXXX)) #define XkbSASetScreen(a,s) ((a)->screenXXX= ((s)&0xff)) typedef struct _XkbCtrlsAction { unsigned char type; unsigned char flags; unsigned char ctrls3; unsigned char ctrls2; unsigned char ctrls1; unsigned char ctrls0; } XkbCtrlsAction; #define XkbActionSetCtrls(a,c) (((a)->ctrls3=(((c)>>24)&0xff)),\ ((a)->ctrls2=(((c)>>16)&0xff)),\ ((a)->ctrls1=(((c)>>8)&0xff)),\ ((a)->ctrls0=((c)&0xff))) #define XkbActionCtrls(a) ((((unsigned int)(a)->ctrls3)<<24)|\ (((unsigned int)(a)->ctrls2)<<16)|\ (((unsigned int)(a)->ctrls1)<<8)|\ ((unsigned int)((a)->ctrls0))) typedef struct _XkbMessageAction { unsigned char type; unsigned char flags; unsigned char message[6]; } XkbMessageAction; typedef struct _XkbRedirectKeyAction { unsigned char type; unsigned char new_key; unsigned char mods_mask; unsigned char mods; unsigned char vmods_mask0; unsigned char vmods_mask1; unsigned char vmods0; unsigned char vmods1; } XkbRedirectKeyAction; #define XkbSARedirectVMods(a) ((((unsigned int)(a)->vmods1)<<8)|\ ((unsigned int)(a)->vmods0)) #define XkbSARedirectSetVMods(a,m) (((a)->vmods1=(((m)>>8)&0xff)),\ ((a)->vmods0=((m)&0xff))) #define XkbSARedirectVModsMask(a) ((((unsigned int)(a)->vmods_mask1)<<8)|\ ((unsigned int)(a)->vmods_mask0)) #define XkbSARedirectSetVModsMask(a,m) (((a)->vmods_mask1=(((m)>>8)&0xff)),\ ((a)->vmods_mask0=((m)&0xff))) typedef struct _XkbDeviceBtnAction { unsigned char type; unsigned char flags; unsigned char count; unsigned char button; unsigned char device; } XkbDeviceBtnAction; typedef struct _XkbDeviceValuatorAction { unsigned char type; unsigned char device; unsigned char v1_what; unsigned char v1_ndx; unsigned char v1_value; unsigned char v2_what; unsigned char v2_ndx; unsigned char v2_value; } XkbDeviceValuatorAction; typedef union _XkbAction { XkbAnyAction any; XkbModAction mods; XkbGroupAction group; XkbISOAction iso; XkbPtrAction ptr; XkbPtrBtnAction btn; XkbPtrDfltAction dflt; XkbSwitchScreenAction screen; XkbCtrlsAction ctrls; XkbMessageAction msg; XkbRedirectKeyAction redirect; XkbDeviceBtnAction devbtn; XkbDeviceValuatorAction devval; unsigned char type; } XkbAction; typedef struct _XkbControls { unsigned char mk_dflt_btn; unsigned char num_groups; unsigned char groups_wrap; XkbModsRec internal; XkbModsRec ignore_lock; unsigned int enabled_ctrls; unsigned short repeat_delay; unsigned short repeat_interval; unsigned short slow_keys_delay; unsigned short debounce_delay; unsigned short mk_delay; unsigned short mk_interval; unsigned short mk_time_to_max; unsigned short mk_max_speed; short mk_curve; unsigned short ax_options; unsigned short ax_timeout; unsigned short axt_opts_mask; unsigned short axt_opts_values; unsigned int axt_ctrls_mask; unsigned int axt_ctrls_values; unsigned char per_key_repeat[XkbPerKeyBitArraySize]; } XkbControlsRec, *XkbControlsPtr; #define XkbAX_AnyFeedback(c) ((c)->enabled_ctrls&XkbAccessXFeedbackMask) #define XkbAX_NeedOption(c,w) ((c)->ax_options&(w)) #define XkbAX_NeedFeedback(c,w) (XkbAX_AnyFeedback(c)&&XkbAX_NeedOption(c,w)) typedef struct _XkbServerMapRec { /* acts is an array of XkbActions structs, with size_acts entries allocated, and num_acts entries used. */ unsigned short num_acts; unsigned short size_acts; XkbAction *acts; /* behaviors, key_acts, explicit, & vmodmap are all arrays with (xkb->max_key_code + 1) entries allocated for each. */ XkbBehavior *behaviors; unsigned short *key_acts; #if defined(__cplusplus) || defined(c_plusplus) /* explicit is a C++ reserved word */ unsigned char *c_explicit; #else unsigned char *explicit; #endif unsigned char vmods[XkbNumVirtualMods]; unsigned short *vmodmap; } XkbServerMapRec, *XkbServerMapPtr; #define XkbSMKeyActionsPtr(m,k) (&(m)->acts[(m)->key_acts[k]]) /* * Structures and access macros used primarily by clients */ typedef struct _XkbSymMapRec { unsigned char kt_index[XkbNumKbdGroups]; unsigned char group_info; unsigned char width; unsigned short offset; } XkbSymMapRec, *XkbSymMapPtr; typedef struct _XkbClientMapRec { /* types is an array of XkbKeyTypeRec structs, with size_types entries allocated, and num_types entries used. */ unsigned char size_types; unsigned char num_types; XkbKeyTypePtr types; /* syms is an array of size_syms KeySyms, in which num_syms are used */ unsigned short size_syms; unsigned short num_syms; KeySym *syms; /* key_sym_map is an array of (max_key_code + 1) XkbSymMapRec structs */ XkbSymMapPtr key_sym_map; /* modmap is an array of (max_key_code + 1) unsigned chars */ unsigned char *modmap; } XkbClientMapRec, *XkbClientMapPtr; #define XkbCMKeyGroupInfo(m,k) ((m)->key_sym_map[k].group_info) #define XkbCMKeyNumGroups(m,k) (XkbNumGroups((m)->key_sym_map[k].group_info)) #define XkbCMKeyGroupWidth(m,k,g) (XkbCMKeyType(m,k,g)->num_levels) #define XkbCMKeyGroupsWidth(m,k) ((m)->key_sym_map[k].width) #define XkbCMKeyTypeIndex(m,k,g) ((m)->key_sym_map[k].kt_index[g&0x3]) #define XkbCMKeyType(m,k,g) (&(m)->types[XkbCMKeyTypeIndex(m,k,g)]) #define XkbCMKeyNumSyms(m,k) (XkbCMKeyGroupsWidth(m,k)*XkbCMKeyNumGroups(m,k)) #define XkbCMKeySymsOffset(m,k) ((m)->key_sym_map[k].offset) #define XkbCMKeySymsPtr(m,k) (&(m)->syms[XkbCMKeySymsOffset(m,k)]) /* * Compatibility structures and access macros */ typedef struct _XkbSymInterpretRec { KeySym sym; unsigned char flags; unsigned char match; unsigned char mods; unsigned char virtual_mod; XkbAnyAction act; } XkbSymInterpretRec,*XkbSymInterpretPtr; typedef struct _XkbCompatMapRec { /* sym_interpret is an array of XkbSymInterpretRec structs, in which size_si are allocated & num_si are used. */ XkbSymInterpretPtr sym_interpret; XkbModsRec groups[XkbNumKbdGroups]; unsigned short num_si; unsigned short size_si; } XkbCompatMapRec, *XkbCompatMapPtr; typedef struct _XkbIndicatorMapRec { unsigned char flags; unsigned char which_groups; unsigned char groups; unsigned char which_mods; XkbModsRec mods; unsigned int ctrls; } XkbIndicatorMapRec, *XkbIndicatorMapPtr; #define XkbIM_IsAuto(i) ((((i)->flags&XkbIM_NoAutomatic)==0)&&\ (((i)->which_groups&&(i)->groups)||\ ((i)->which_mods&&(i)->mods.mask)||\ ((i)->ctrls))) #define XkbIM_InUse(i) (((i)->flags)||((i)->which_groups)||\ ((i)->which_mods)||((i)->ctrls)) typedef struct _XkbIndicatorRec { unsigned long phys_indicators; XkbIndicatorMapRec maps[XkbNumIndicators]; } XkbIndicatorRec,*XkbIndicatorPtr; typedef struct _XkbKeyNameRec { char name[XkbKeyNameLength]; } XkbKeyNameRec,*XkbKeyNamePtr; typedef struct _XkbKeyAliasRec { char real[XkbKeyNameLength]; char alias[XkbKeyNameLength]; } XkbKeyAliasRec,*XkbKeyAliasPtr; /* * Names for everything */ typedef struct _XkbNamesRec { Atom keycodes; Atom geometry; Atom symbols; Atom types; Atom compat; Atom vmods[XkbNumVirtualMods]; Atom indicators[XkbNumIndicators]; Atom groups[XkbNumKbdGroups]; /* keys is an array of (xkb->max_key_code + 1) XkbKeyNameRec entries */ XkbKeyNamePtr keys; /* key_aliases is an array of num_key_aliases XkbKeyAliasRec entries */ XkbKeyAliasPtr key_aliases; /* radio_groups is an array of num_rg Atoms */ Atom *radio_groups; Atom phys_symbols; /* num_keys seems to be unused in libX11 */ unsigned char num_keys; unsigned char num_key_aliases; unsigned short num_rg; } XkbNamesRec,*XkbNamesPtr; typedef struct _XkbGeometry *XkbGeometryPtr; /* * Tie it all together into one big keyboard description */ typedef struct _XkbDesc { struct _XDisplay * dpy; unsigned short flags; unsigned short device_spec; KeyCode min_key_code; KeyCode max_key_code; XkbControlsPtr ctrls; XkbServerMapPtr server; XkbClientMapPtr map; XkbIndicatorPtr indicators; XkbNamesPtr names; XkbCompatMapPtr compat; XkbGeometryPtr geom; } XkbDescRec, *XkbDescPtr; #define XkbKeyKeyTypeIndex(d,k,g) (XkbCMKeyTypeIndex((d)->map,k,g)) #define XkbKeyKeyType(d,k,g) (XkbCMKeyType((d)->map,k,g)) #define XkbKeyGroupWidth(d,k,g) (XkbCMKeyGroupWidth((d)->map,k,g)) #define XkbKeyGroupsWidth(d,k) (XkbCMKeyGroupsWidth((d)->map,k)) #define XkbKeyGroupInfo(d,k) (XkbCMKeyGroupInfo((d)->map,(k))) #define XkbKeyNumGroups(d,k) (XkbCMKeyNumGroups((d)->map,(k))) #define XkbKeyNumSyms(d,k) (XkbCMKeyNumSyms((d)->map,(k))) #define XkbKeySymsPtr(d,k) (XkbCMKeySymsPtr((d)->map,(k))) #define XkbKeySym(d,k,n) (XkbKeySymsPtr(d,k)[n]) #define XkbKeySymEntry(d,k,sl,g) \ (XkbKeySym(d,k,((XkbKeyGroupsWidth(d,k)*(g))+(sl)))) #define XkbKeyAction(d,k,n) \ (XkbKeyHasActions(d,k)?&XkbKeyActionsPtr(d,k)[n]:NULL) #define XkbKeyActionEntry(d,k,sl,g) \ (XkbKeyHasActions(d,k)?\ XkbKeyAction(d,k,((XkbKeyGroupsWidth(d,k)*(g))+(sl))):NULL) #define XkbKeyHasActions(d,k) ((d)->server->key_acts[k]!=0) #define XkbKeyNumActions(d,k) (XkbKeyHasActions(d,k)?XkbKeyNumSyms(d,k):1) #define XkbKeyActionsPtr(d,k) (XkbSMKeyActionsPtr((d)->server,k)) #define XkbKeycodeInRange(d,k) (((k)>=(d)->min_key_code)&&\ ((k)<=(d)->max_key_code)) #define XkbNumKeys(d) ((d)->max_key_code-(d)->min_key_code+1) /* * The following structures can be used to track changes * to a keyboard device */ typedef struct _XkbMapChanges { unsigned short changed; KeyCode min_key_code; KeyCode max_key_code; unsigned char first_type; unsigned char num_types; KeyCode first_key_sym; unsigned char num_key_syms; KeyCode first_key_act; unsigned char num_key_acts; KeyCode first_key_behavior; unsigned char num_key_behaviors; KeyCode first_key_explicit; unsigned char num_key_explicit; KeyCode first_modmap_key; unsigned char num_modmap_keys; KeyCode first_vmodmap_key; unsigned char num_vmodmap_keys; unsigned char pad; unsigned short vmods; } XkbMapChangesRec,*XkbMapChangesPtr; typedef struct _XkbControlsChanges { unsigned int changed_ctrls; unsigned int enabled_ctrls_changes; Bool num_groups_changed; } XkbControlsChangesRec,*XkbControlsChangesPtr; typedef struct _XkbIndicatorChanges { unsigned int state_changes; unsigned int map_changes; } XkbIndicatorChangesRec,*XkbIndicatorChangesPtr; typedef struct _XkbNameChanges { unsigned int changed; unsigned char first_type; unsigned char num_types; unsigned char first_lvl; unsigned char num_lvls; unsigned char num_aliases; unsigned char num_rg; unsigned char first_key; unsigned char num_keys; unsigned short changed_vmods; unsigned long changed_indicators; unsigned char changed_groups; } XkbNameChangesRec,*XkbNameChangesPtr; typedef struct _XkbCompatChanges { unsigned char changed_groups; unsigned short first_si; unsigned short num_si; } XkbCompatChangesRec,*XkbCompatChangesPtr; typedef struct _XkbChanges { unsigned short device_spec; unsigned short state_changes; XkbMapChangesRec map; XkbControlsChangesRec ctrls; XkbIndicatorChangesRec indicators; XkbNameChangesRec names; XkbCompatChangesRec compat; } XkbChangesRec, *XkbChangesPtr; /* * These data structures are used to construct a keymap from * a set of components or to list components in the server * database. */ typedef struct _XkbComponentNames { char * keymap; char * keycodes; char * types; char * compat; char * symbols; char * geometry; } XkbComponentNamesRec, *XkbComponentNamesPtr; typedef struct _XkbComponentName { unsigned short flags; char * name; } XkbComponentNameRec,*XkbComponentNamePtr; typedef struct _XkbComponentList { int num_keymaps; int num_keycodes; int num_types; int num_compat; int num_symbols; int num_geometry; XkbComponentNamePtr keymaps; XkbComponentNamePtr keycodes; XkbComponentNamePtr types; XkbComponentNamePtr compat; XkbComponentNamePtr symbols; XkbComponentNamePtr geometry; } XkbComponentListRec, *XkbComponentListPtr; /* * The following data structures describe and track changes to a * non-keyboard extension device */ typedef struct _XkbDeviceLedInfo { unsigned short led_class; unsigned short led_id; unsigned int phys_indicators; unsigned int maps_present; unsigned int names_present; unsigned int state; Atom names[XkbNumIndicators]; XkbIndicatorMapRec maps[XkbNumIndicators]; } XkbDeviceLedInfoRec,*XkbDeviceLedInfoPtr; typedef struct _XkbDeviceInfo { char * name; Atom type; unsigned short device_spec; Bool has_own_state; unsigned short supported; unsigned short unsupported; /* btn_acts is an array of num_btn XkbAction entries */ unsigned short num_btns; XkbAction * btn_acts; unsigned short sz_leds; unsigned short num_leds; unsigned short dflt_kbd_fb; unsigned short dflt_led_fb; /* leds is an array of XkbDeviceLedInfoRec in which sz_leds entries are allocated and num_leds entries are used */ XkbDeviceLedInfoPtr leds; } XkbDeviceInfoRec,*XkbDeviceInfoPtr; #define XkbXI_DevHasBtnActs(d) (((d)->num_btns>0)&&((d)->btn_acts!=NULL)) #define XkbXI_LegalDevBtn(d,b) (XkbXI_DevHasBtnActs(d)&&((b)<(d)->num_btns)) #define XkbXI_DevHasLeds(d) (((d)->num_leds>0)&&((d)->leds!=NULL)) typedef struct _XkbDeviceLedChanges { unsigned short led_class; unsigned short led_id; unsigned int defined; /* names or maps changed */ struct _XkbDeviceLedChanges *next; } XkbDeviceLedChangesRec,*XkbDeviceLedChangesPtr; typedef struct _XkbDeviceChanges { unsigned int changed; unsigned short first_btn; unsigned short num_btns; XkbDeviceLedChangesRec leds; } XkbDeviceChangesRec,*XkbDeviceChangesPtr; #ifdef __clang__ #pragma clang diagnostic pop #endif #endif /* _XKBSTR_H_ */ XkbBehavior *behaviors; 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AC_MSG_CHECKING([if $RAWCPP requires -undef]) AC_LANG_CONFTEST([AC_LANG_SOURCE([[Does cpp redefine unix ?]])]) if test `${RAWCPP} < conftest.$ac_ext | grep -c 'unix'` -eq 1 ; then AC_MSG_RESULT([no]) else if test `${RAWCPP} -undef < conftest.$ac_ext | grep -c 'unix'` -eq 1 ; then RAWCPPFLAGS=-undef AC_MSG_RESULT([yes]) # under Cygwin unix is still defined even with -undef elif test `${RAWCPP} -undef -ansi < conftest.$ac_ext | grep -c 'unix'` -eq 1 ; then RAWCPPFLAGS="-undef -ansi" AC_MSG_RESULT([yes, with -ansi]) else AC_MSG_ERROR([${RAWCPP} defines unix with or without -undef. 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I don't know what to do.]) fi fi rm -f conftest.$ac_ext AC_SUBST(RAWCPPFLAGS) AC_SUBST(TRADITIONALCPPFLAGS) ]) # XORG_PROG_RAWCPP # XORG_MANPAGE_SECTIONS() # ----------------------- # Minimum version: 1.0.0 # # Determine which sections man pages go in for the different man page types # on this OS - replaces *ManSuffix settings in old Imake *.cf per-os files. # Not sure if there's any better way than just hardcoding by OS name. # Override default settings by setting environment variables # Added MAN_SUBSTS in version 1.8 # Added AC_PROG_SED in version 1.8 AC_DEFUN([XORG_MANPAGE_SECTIONS],[ AC_REQUIRE([AC_CANONICAL_HOST]) AC_REQUIRE([AC_PROG_SED]) if test x$APP_MAN_SUFFIX = x ; then APP_MAN_SUFFIX=1 fi if test x$APP_MAN_DIR = x ; then APP_MAN_DIR='$(mandir)/man$(APP_MAN_SUFFIX)' fi if test x$LIB_MAN_SUFFIX = x ; then LIB_MAN_SUFFIX=3 fi if test x$LIB_MAN_DIR = x ; then LIB_MAN_DIR='$(mandir)/man$(LIB_MAN_SUFFIX)' fi if test x$FILE_MAN_SUFFIX = x ; then case $host_os in solaris*) FILE_MAN_SUFFIX=4 ;; *) FILE_MAN_SUFFIX=5 ;; esac fi if test x$FILE_MAN_DIR = x ; then FILE_MAN_DIR='$(mandir)/man$(FILE_MAN_SUFFIX)' fi if test x$MISC_MAN_SUFFIX = x ; then case $host_os in solaris*) MISC_MAN_SUFFIX=5 ;; *) MISC_MAN_SUFFIX=7 ;; esac fi if test x$MISC_MAN_DIR = x ; then MISC_MAN_DIR='$(mandir)/man$(MISC_MAN_SUFFIX)' fi if test x$DRIVER_MAN_SUFFIX = x ; then case $host_os in solaris*) DRIVER_MAN_SUFFIX=7 ;; *) DRIVER_MAN_SUFFIX=4 ;; esac fi if test x$DRIVER_MAN_DIR = x ; then DRIVER_MAN_DIR='$(mandir)/man$(DRIVER_MAN_SUFFIX)' fi if test x$ADMIN_MAN_SUFFIX = x ; then case $host_os in solaris*) ADMIN_MAN_SUFFIX=1m ;; *) ADMIN_MAN_SUFFIX=8 ;; esac fi if test x$ADMIN_MAN_DIR = x ; then ADMIN_MAN_DIR='$(mandir)/man$(ADMIN_MAN_SUFFIX)' fi AC_SUBST([APP_MAN_SUFFIX]) AC_SUBST([LIB_MAN_SUFFIX]) AC_SUBST([FILE_MAN_SUFFIX]) AC_SUBST([MISC_MAN_SUFFIX]) AC_SUBST([DRIVER_MAN_SUFFIX]) AC_SUBST([ADMIN_MAN_SUFFIX]) AC_SUBST([APP_MAN_DIR]) AC_SUBST([LIB_MAN_DIR]) AC_SUBST([FILE_MAN_DIR]) AC_SUBST([MISC_MAN_DIR]) AC_SUBST([DRIVER_MAN_DIR]) AC_SUBST([ADMIN_MAN_DIR]) XORG_MAN_PAGE="X Version 11" AC_SUBST([XORG_MAN_PAGE]) MAN_SUBSTS="\ -e 's|__vendorversion__|\"\$(PACKAGE_STRING)\" \"\$(XORG_MAN_PAGE)\"|' \ -e 's|__xorgversion__|\"\$(PACKAGE_STRING)\" \"\$(XORG_MAN_PAGE)\"|' \ -e 's|__xservername__|Xorg|g' \ -e 's|__xconfigfile__|xorg.conf|g' \ -e 's|__projectroot__|\$(prefix)|g' \ -e 's|__apploaddir__|\$(appdefaultdir)|g' \ -e 's|__appmansuffix__|\$(APP_MAN_SUFFIX)|g' \ -e 's|__drivermansuffix__|\$(DRIVER_MAN_SUFFIX)|g' \ -e 's|__adminmansuffix__|\$(ADMIN_MAN_SUFFIX)|g' \ -e 's|__libmansuffix__|\$(LIB_MAN_SUFFIX)|g' \ -e 's|__miscmansuffix__|\$(MISC_MAN_SUFFIX)|g' \ -e 's|__filemansuffix__|\$(FILE_MAN_SUFFIX)|g'" AC_SUBST([MAN_SUBSTS]) ]) # XORG_MANPAGE_SECTIONS # XORG_CHECK_SGML_DOCTOOLS([MIN-VERSION]) # ------------------------ # Minimum version: 1.7.0 # # Defines the variable XORG_SGML_PATH containing the location of X11/defs.ent # provided by xorg-sgml-doctools, if installed. AC_DEFUN([XORG_CHECK_SGML_DOCTOOLS],[ AC_MSG_CHECKING([for X.Org SGML entities m4_ifval([$1],[>= $1])]) XORG_SGML_PATH= PKG_CHECK_EXISTS([xorg-sgml-doctools m4_ifval([$1],[>= $1])], [XORG_SGML_PATH=`$PKG_CONFIG --variable=sgmlrootdir xorg-sgml-doctools`], [m4_ifval([$1],[:], [if test x"$cross_compiling" != x"yes" ; then AC_CHECK_FILE([$prefix/share/sgml/X11/defs.ent], [XORG_SGML_PATH=$prefix/share/sgml]) fi]) ]) # Define variables STYLESHEET_SRCDIR and XSL_STYLESHEET containing # the path and the name of the doc stylesheet if test "x$XORG_SGML_PATH" != "x" ; then AC_MSG_RESULT([$XORG_SGML_PATH]) STYLESHEET_SRCDIR=$XORG_SGML_PATH/X11 XSL_STYLESHEET=$STYLESHEET_SRCDIR/xorg.xsl else AC_MSG_RESULT([no]) fi AC_SUBST(XORG_SGML_PATH) AC_SUBST(STYLESHEET_SRCDIR) AC_SUBST(XSL_STYLESHEET) AM_CONDITIONAL([HAVE_STYLESHEETS], [test "x$XSL_STYLESHEET" != "x"]) ]) # XORG_CHECK_SGML_DOCTOOLS # XORG_CHECK_LINUXDOC # ------------------- # Minimum version: 1.0.0 # # Defines the variable MAKE_TEXT if the necessary tools and # files are found. $(MAKE_TEXT) blah.sgml will then produce blah.txt. # Whether or not the necessary tools and files are found can be checked # with the AM_CONDITIONAL "BUILD_LINUXDOC" AC_DEFUN([XORG_CHECK_LINUXDOC],[ AC_REQUIRE([XORG_CHECK_SGML_DOCTOOLS]) AC_REQUIRE([XORG_WITH_PS2PDF]) AC_PATH_PROG(LINUXDOC, linuxdoc) AC_MSG_CHECKING([whether to build documentation]) if test x$XORG_SGML_PATH != x && test x$LINUXDOC != x ; then BUILDDOC=yes else BUILDDOC=no fi AM_CONDITIONAL(BUILD_LINUXDOC, [test x$BUILDDOC = xyes]) AC_MSG_RESULT([$BUILDDOC]) AC_MSG_CHECKING([whether to build pdf documentation]) if test x$have_ps2pdf != xno && test x$BUILD_PDFDOC != xno; then BUILDPDFDOC=yes else BUILDPDFDOC=no fi AM_CONDITIONAL(BUILD_PDFDOC, [test x$BUILDPDFDOC = xyes]) AC_MSG_RESULT([$BUILDPDFDOC]) MAKE_TEXT="SGML_SEARCH_PATH=$XORG_SGML_PATH GROFF_NO_SGR=y $LINUXDOC -B txt -f" MAKE_PS="SGML_SEARCH_PATH=$XORG_SGML_PATH $LINUXDOC -B latex --papersize=letter --output=ps" MAKE_PDF="$PS2PDF" MAKE_HTML="SGML_SEARCH_PATH=$XORG_SGML_PATH $LINUXDOC -B html --split=0" AC_SUBST(MAKE_TEXT) AC_SUBST(MAKE_PS) AC_SUBST(MAKE_PDF) AC_SUBST(MAKE_HTML) ]) # XORG_CHECK_LINUXDOC # XORG_CHECK_DOCBOOK # ------------------- # Minimum version: 1.0.0 # # Checks for the ability to build output formats from SGML DocBook source. # For XXX in {TXT, PDF, PS, HTML}, the AM_CONDITIONAL "BUILD_XXXDOC" # indicates whether the necessary tools and files are found and, if set, # $(MAKE_XXX) blah.sgml will produce blah.xxx. AC_DEFUN([XORG_CHECK_DOCBOOK],[ AC_REQUIRE([XORG_CHECK_SGML_DOCTOOLS]) BUILDTXTDOC=no BUILDPDFDOC=no BUILDPSDOC=no BUILDHTMLDOC=no AC_PATH_PROG(DOCBOOKPS, docbook2ps) AC_PATH_PROG(DOCBOOKPDF, docbook2pdf) AC_PATH_PROG(DOCBOOKHTML, docbook2html) AC_PATH_PROG(DOCBOOKTXT, docbook2txt) AC_MSG_CHECKING([whether to build text documentation]) if test x$XORG_SGML_PATH != x && test x$DOCBOOKTXT != x && test x$BUILD_TXTDOC != xno; then BUILDTXTDOC=yes fi AM_CONDITIONAL(BUILD_TXTDOC, [test x$BUILDTXTDOC = xyes]) AC_MSG_RESULT([$BUILDTXTDOC]) AC_MSG_CHECKING([whether to build PDF documentation]) if test x$XORG_SGML_PATH != x && test x$DOCBOOKPDF != x && test x$BUILD_PDFDOC != xno; then BUILDPDFDOC=yes fi AM_CONDITIONAL(BUILD_PDFDOC, [test x$BUILDPDFDOC = xyes]) AC_MSG_RESULT([$BUILDPDFDOC]) AC_MSG_CHECKING([whether to build PostScript documentation]) if test x$XORG_SGML_PATH != x && test x$DOCBOOKPS != x && test x$BUILD_PSDOC != xno; then BUILDPSDOC=yes fi AM_CONDITIONAL(BUILD_PSDOC, [test x$BUILDPSDOC = xyes]) AC_MSG_RESULT([$BUILDPSDOC]) AC_MSG_CHECKING([whether to build HTML documentation]) if test x$XORG_SGML_PATH != x && test x$DOCBOOKHTML != x && test x$BUILD_HTMLDOC != xno; then BUILDHTMLDOC=yes fi AM_CONDITIONAL(BUILD_HTMLDOC, [test x$BUILDHTMLDOC = xyes]) AC_MSG_RESULT([$BUILDHTMLDOC]) MAKE_TEXT="SGML_SEARCH_PATH=$XORG_SGML_PATH $DOCBOOKTXT" MAKE_PS="SGML_SEARCH_PATH=$XORG_SGML_PATH $DOCBOOKPS" MAKE_PDF="SGML_SEARCH_PATH=$XORG_SGML_PATH $DOCBOOKPDF" MAKE_HTML="SGML_SEARCH_PATH=$XORG_SGML_PATH $DOCBOOKHTML" AC_SUBST(MAKE_TEXT) AC_SUBST(MAKE_PS) AC_SUBST(MAKE_PDF) AC_SUBST(MAKE_HTML) ]) # XORG_CHECK_DOCBOOK # XORG_WITH_XMLTO([MIN-VERSION], [DEFAULT]) # ---------------- # Minimum version: 1.5.0 # Minimum version for optional DEFAULT argument: 1.11.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-xmlto option, it allows maximum flexibilty in making decisions # as whether or not to use the xmlto package. When DEFAULT is not specified, # --with-xmlto assumes 'auto'. # # Interface to module: # HAVE_XMLTO: used in makefiles to conditionally generate documentation # XMLTO: returns the path of the xmlto program found # returns the path set by the user in the environment # --with-xmlto: 'yes' user instructs the module to use xmlto # 'no' user instructs the module not to use xmlto # # Added in version 1.10.0 # HAVE_XMLTO_TEXT: used in makefiles to conditionally generate text documentation # xmlto for text output requires either lynx, links, or w3m browsers # # If the user sets the value of XMLTO, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_XMLTO],[ AC_ARG_VAR([XMLTO], [Path to xmlto command]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(xmlto, AS_HELP_STRING([--with-xmlto], [Use xmlto to regenerate documentation (default: ]_defopt[)]), [use_xmlto=$withval], [use_xmlto=]_defopt) m4_undefine([_defopt]) if test "x$use_xmlto" = x"auto"; then AC_PATH_PROG([XMLTO], [xmlto]) if test "x$XMLTO" = "x"; then AC_MSG_WARN([xmlto not found - documentation targets will be skipped]) have_xmlto=no else have_xmlto=yes fi elif test "x$use_xmlto" = x"yes" ; then AC_PATH_PROG([XMLTO], [xmlto]) if test "x$XMLTO" = "x"; then AC_MSG_ERROR([--with-xmlto=yes specified but xmlto not found in PATH]) fi have_xmlto=yes elif test "x$use_xmlto" = x"no" ; then if test "x$XMLTO" != "x"; then AC_MSG_WARN([ignoring XMLTO environment variable since --with-xmlto=no was specified]) fi have_xmlto=no else AC_MSG_ERROR([--with-xmlto expects 'yes' or 'no']) fi # Test for a minimum version of xmlto, if provided. m4_ifval([$1], [if test "$have_xmlto" = yes; then # scrape the xmlto version AC_MSG_CHECKING([the xmlto version]) xmlto_version=`$XMLTO --version 2>/dev/null | cut -d' ' -f3` AC_MSG_RESULT([$xmlto_version]) AS_VERSION_COMPARE([$xmlto_version], [$1], [if test "x$use_xmlto" = xauto; then AC_MSG_WARN([xmlto version $xmlto_version found, but $1 needed]) have_xmlto=no else AC_MSG_ERROR([xmlto version $xmlto_version found, but $1 needed]) fi]) fi]) # Test for the ability of xmlto to generate a text target have_xmlto_text=no cat > conftest.xml << "EOF" EOF AS_IF([test "$have_xmlto" = yes], [AS_IF([$XMLTO --skip-validation txt conftest.xml >/dev/null 2>&1], [have_xmlto_text=yes], [AC_MSG_WARN([xmlto cannot generate text format, this format skipped])])]) rm -f conftest.xml AM_CONDITIONAL([HAVE_XMLTO_TEXT], [test $have_xmlto_text = yes]) AM_CONDITIONAL([HAVE_XMLTO], [test "$have_xmlto" = yes]) ]) # XORG_WITH_XMLTO # XORG_WITH_XSLTPROC([MIN-VERSION], [DEFAULT]) # -------------------------------------------- # Minimum version: 1.12.0 # Minimum version for optional DEFAULT argument: 1.12.0 # # XSLT (Extensible Stylesheet Language Transformations) is a declarative, # XML-based language used for the transformation of XML documents. # The xsltproc command line tool is for applying XSLT stylesheets to XML documents. # It is used under the cover by xmlto to generate html files from DocBook/XML. # The XSLT processor is often used as a standalone tool for transformations. # It should not be assumed that this tool is used only to work with documnetation. # When DEFAULT is not specified, --with-xsltproc assumes 'auto'. # # Interface to module: # HAVE_XSLTPROC: used in makefiles to conditionally generate documentation # XSLTPROC: returns the path of the xsltproc program found # returns the path set by the user in the environment # --with-xsltproc: 'yes' user instructs the module to use xsltproc # 'no' user instructs the module not to use xsltproc # have_xsltproc: returns yes if xsltproc found in PATH or no # # If the user sets the value of XSLTPROC, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_XSLTPROC],[ AC_ARG_VAR([XSLTPROC], [Path to xsltproc command]) # Preserves the interface, should it be implemented later m4_ifval([$1], [m4_warn([syntax], [Checking for xsltproc MIN-VERSION is not implemented])]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(xsltproc, AS_HELP_STRING([--with-xsltproc], [Use xsltproc for the transformation of XML documents (default: ]_defopt[)]), [use_xsltproc=$withval], [use_xsltproc=]_defopt) m4_undefine([_defopt]) if test "x$use_xsltproc" = x"auto"; then AC_PATH_PROG([XSLTPROC], [xsltproc]) if test "x$XSLTPROC" = "x"; then AC_MSG_WARN([xsltproc not found - cannot transform XML documents]) have_xsltproc=no else have_xsltproc=yes fi elif test "x$use_xsltproc" = x"yes" ; then AC_PATH_PROG([XSLTPROC], [xsltproc]) if test "x$XSLTPROC" = "x"; then AC_MSG_ERROR([--with-xsltproc=yes specified but xsltproc not found in PATH]) fi have_xsltproc=yes elif test "x$use_xsltproc" = x"no" ; then if test "x$XSLTPROC" != "x"; then AC_MSG_WARN([ignoring XSLTPROC environment variable since --with-xsltproc=no was specified]) fi have_xsltproc=no else AC_MSG_ERROR([--with-xsltproc expects 'yes' or 'no']) fi AM_CONDITIONAL([HAVE_XSLTPROC], [test "$have_xsltproc" = yes]) ]) # XORG_WITH_XSLTPROC # XORG_WITH_PERL([MIN-VERSION], [DEFAULT]) # ---------------------------------------- # Minimum version: 1.15.0 # # PERL (Practical Extraction and Report Language) is a language optimized for # scanning arbitrary text files, extracting information from those text files, # and printing reports based on that information. # # When DEFAULT is not specified, --with-perl assumes 'auto'. # # Interface to module: # HAVE_PERL: used in makefiles to conditionally scan text files # PERL: returns the path of the perl program found # returns the path set by the user in the environment # --with-perl: 'yes' user instructs the module to use perl # 'no' user instructs the module not to use perl # have_perl: returns yes if perl found in PATH or no # # If the user sets the value of PERL, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_PERL],[ AC_ARG_VAR([PERL], [Path to perl command]) # Preserves the interface, should it be implemented later m4_ifval([$1], [m4_warn([syntax], [Checking for perl MIN-VERSION is not implemented])]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(perl, AS_HELP_STRING([--with-perl], [Use perl for extracting information from files (default: ]_defopt[)]), [use_perl=$withval], [use_perl=]_defopt) m4_undefine([_defopt]) if test "x$use_perl" = x"auto"; then AC_PATH_PROG([PERL], [perl]) if test "x$PERL" = "x"; then AC_MSG_WARN([perl not found - cannot extract information and report]) have_perl=no else have_perl=yes fi elif test "x$use_perl" = x"yes" ; then AC_PATH_PROG([PERL], [perl]) if test "x$PERL" = "x"; then AC_MSG_ERROR([--with-perl=yes specified but perl not found in PATH]) fi have_perl=yes elif test "x$use_perl" = x"no" ; then if test "x$PERL" != "x"; then AC_MSG_WARN([ignoring PERL environment variable since --with-perl=no was specified]) fi have_perl=no else AC_MSG_ERROR([--with-perl expects 'yes' or 'no']) fi AM_CONDITIONAL([HAVE_PERL], [test "$have_perl" = yes]) ]) # XORG_WITH_PERL # XORG_WITH_ASCIIDOC([MIN-VERSION], [DEFAULT]) # ---------------- # Minimum version: 1.5.0 # Minimum version for optional DEFAULT argument: 1.11.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-asciidoc option, it allows maximum flexibilty in making decisions # as whether or not to use the asciidoc package. When DEFAULT is not specified, # --with-asciidoc assumes 'auto'. # # Interface to module: # HAVE_ASCIIDOC: used in makefiles to conditionally generate documentation # ASCIIDOC: returns the path of the asciidoc program found # returns the path set by the user in the environment # --with-asciidoc: 'yes' user instructs the module to use asciidoc # 'no' user instructs the module not to use asciidoc # # If the user sets the value of ASCIIDOC, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_ASCIIDOC],[ AC_ARG_VAR([ASCIIDOC], [Path to asciidoc command]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(asciidoc, AS_HELP_STRING([--with-asciidoc], [Use asciidoc to regenerate documentation (default: ]_defopt[)]), [use_asciidoc=$withval], [use_asciidoc=]_defopt) m4_undefine([_defopt]) if test "x$use_asciidoc" = x"auto"; then AC_PATH_PROG([ASCIIDOC], [asciidoc]) if test "x$ASCIIDOC" = "x"; then AC_MSG_WARN([asciidoc not found - documentation targets will be skipped]) have_asciidoc=no else have_asciidoc=yes fi elif test "x$use_asciidoc" = x"yes" ; then AC_PATH_PROG([ASCIIDOC], [asciidoc]) if test "x$ASCIIDOC" = "x"; then AC_MSG_ERROR([--with-asciidoc=yes specified but asciidoc not found in PATH]) fi have_asciidoc=yes elif test "x$use_asciidoc" = x"no" ; then if test "x$ASCIIDOC" != "x"; then AC_MSG_WARN([ignoring ASCIIDOC environment variable since --with-asciidoc=no was specified]) fi have_asciidoc=no else AC_MSG_ERROR([--with-asciidoc expects 'yes' or 'no']) fi m4_ifval([$1], [if test "$have_asciidoc" = yes; then # scrape the asciidoc version AC_MSG_CHECKING([the asciidoc version]) asciidoc_version=`$ASCIIDOC --version 2>/dev/null | cut -d' ' -f2` AC_MSG_RESULT([$asciidoc_version]) AS_VERSION_COMPARE([$asciidoc_version], [$1], [if test "x$use_asciidoc" = xauto; then AC_MSG_WARN([asciidoc version $asciidoc_version found, but $1 needed]) have_asciidoc=no else AC_MSG_ERROR([asciidoc version $asciidoc_version found, but $1 needed]) fi]) fi]) AM_CONDITIONAL([HAVE_ASCIIDOC], [test "$have_asciidoc" = yes]) ]) # XORG_WITH_ASCIIDOC # XORG_WITH_DOXYGEN([MIN-VERSION], [DEFAULT]) # ------------------------------------------- # Minimum version: 1.5.0 # Minimum version for optional DEFAULT argument: 1.11.0 # Minimum version for optional DOT checking: 1.18.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-doxygen option, it allows maximum flexibilty in making decisions # as whether or not to use the doxygen package. When DEFAULT is not specified, # --with-doxygen assumes 'auto'. # # Interface to module: # HAVE_DOXYGEN: used in makefiles to conditionally generate documentation # DOXYGEN: returns the path of the doxygen program found # returns the path set by the user in the environment # --with-doxygen: 'yes' user instructs the module to use doxygen # 'no' user instructs the module not to use doxygen # # If the user sets the value of DOXYGEN, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_DOXYGEN],[ AC_ARG_VAR([DOXYGEN], [Path to doxygen command]) AC_ARG_VAR([DOT], [Path to the dot graphics utility]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(doxygen, AS_HELP_STRING([--with-doxygen], [Use doxygen to regenerate documentation (default: ]_defopt[)]), [use_doxygen=$withval], [use_doxygen=]_defopt) m4_undefine([_defopt]) if test "x$use_doxygen" = x"auto"; then AC_PATH_PROG([DOXYGEN], [doxygen]) if test "x$DOXYGEN" = "x"; then AC_MSG_WARN([doxygen not found - documentation targets will be skipped]) have_doxygen=no else have_doxygen=yes fi elif test "x$use_doxygen" = x"yes" ; then AC_PATH_PROG([DOXYGEN], [doxygen]) if test "x$DOXYGEN" = "x"; then AC_MSG_ERROR([--with-doxygen=yes specified but doxygen not found in PATH]) fi have_doxygen=yes elif test "x$use_doxygen" = x"no" ; then if test "x$DOXYGEN" != "x"; then AC_MSG_WARN([ignoring DOXYGEN environment variable since --with-doxygen=no was specified]) fi have_doxygen=no else AC_MSG_ERROR([--with-doxygen expects 'yes' or 'no']) fi m4_ifval([$1], [if test "$have_doxygen" = yes; then # scrape the doxygen version AC_MSG_CHECKING([the doxygen version]) doxygen_version=`$DOXYGEN --version 2>/dev/null` AC_MSG_RESULT([$doxygen_version]) AS_VERSION_COMPARE([$doxygen_version], [$1], [if test "x$use_doxygen" = xauto; then AC_MSG_WARN([doxygen version $doxygen_version found, but $1 needed]) have_doxygen=no else AC_MSG_ERROR([doxygen version $doxygen_version found, but $1 needed]) fi]) fi]) dnl Check for DOT if we have doxygen. The caller decides if it is mandatory dnl HAVE_DOT is a variable that can be used in your doxygen.in config file: dnl HAVE_DOT = @HAVE_DOT@ HAVE_DOT=no if test "x$have_doxygen" = "xyes"; then AC_PATH_PROG([DOT], [dot]) if test "x$DOT" != "x"; then HAVE_DOT=yes fi fi AC_SUBST([HAVE_DOT]) AM_CONDITIONAL([HAVE_DOT], [test "$HAVE_DOT" = "yes"]) AM_CONDITIONAL([HAVE_DOXYGEN], [test "$have_doxygen" = yes]) ]) # XORG_WITH_DOXYGEN # XORG_WITH_GROFF([DEFAULT]) # ---------------- # Minimum version: 1.6.0 # Minimum version for optional DEFAULT argument: 1.11.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-groff option, it allows maximum flexibilty in making decisions # as whether or not to use the groff package. When DEFAULT is not specified, # --with-groff assumes 'auto'. # # Interface to module: # HAVE_GROFF: used in makefiles to conditionally generate documentation # HAVE_GROFF_MM: the memorandum macros (-mm) package # HAVE_GROFF_MS: the -ms macros package # GROFF: returns the path of the groff program found # returns the path set by the user in the environment # --with-groff: 'yes' user instructs the module to use groff # 'no' user instructs the module not to use groff # # Added in version 1.9.0: # HAVE_GROFF_HTML: groff has dependencies to output HTML format: # pnmcut pnmcrop pnmtopng pnmtops from the netpbm package. # psselect from the psutils package. # the ghostcript package. Refer to the grohtml man pages # # If the user sets the value of GROFF, AC_PATH_PROG skips testing the path. # # OS and distros often splits groff in a basic and full package, the former # having the groff program and the later having devices, fonts and macros # Checking for the groff executable is not enough. # # If macros are missing, we cannot assume that groff is useless, so we don't # unset HAVE_GROFF or GROFF env variables. # HAVE_GROFF_?? can never be true while HAVE_GROFF is false. # AC_DEFUN([XORG_WITH_GROFF],[ AC_ARG_VAR([GROFF], [Path to groff command]) m4_define([_defopt], m4_default([$1], [auto])) AC_ARG_WITH(groff, AS_HELP_STRING([--with-groff], [Use groff to regenerate documentation (default: ]_defopt[)]), [use_groff=$withval], [use_groff=]_defopt) m4_undefine([_defopt]) if test "x$use_groff" = x"auto"; then AC_PATH_PROG([GROFF], [groff]) if test "x$GROFF" = "x"; then AC_MSG_WARN([groff not found - documentation targets will be skipped]) have_groff=no else have_groff=yes fi elif test "x$use_groff" = x"yes" ; then AC_PATH_PROG([GROFF], [groff]) if test "x$GROFF" = "x"; then AC_MSG_ERROR([--with-groff=yes specified but groff not found in PATH]) fi have_groff=yes elif test "x$use_groff" = x"no" ; then if test "x$GROFF" != "x"; then AC_MSG_WARN([ignoring GROFF environment variable since --with-groff=no was specified]) fi have_groff=no else AC_MSG_ERROR([--with-groff expects 'yes' or 'no']) fi # We have groff, test for the presence of the macro packages if test "x$have_groff" = x"yes"; then AC_MSG_CHECKING([for ${GROFF} -ms macros]) if ${GROFF} -ms -I. /dev/null >/dev/null 2>&1 ; then groff_ms_works=yes else groff_ms_works=no fi AC_MSG_RESULT([$groff_ms_works]) AC_MSG_CHECKING([for ${GROFF} -mm macros]) if ${GROFF} -mm -I. /dev/null >/dev/null 2>&1 ; then groff_mm_works=yes else groff_mm_works=no fi AC_MSG_RESULT([$groff_mm_works]) fi # We have groff, test for HTML dependencies, one command per package if test "x$have_groff" = x"yes"; then AC_PATH_PROGS(GS_PATH, [gs gswin32c]) AC_PATH_PROG(PNMTOPNG_PATH, [pnmtopng]) AC_PATH_PROG(PSSELECT_PATH, [psselect]) if test "x$GS_PATH" != "x" -a "x$PNMTOPNG_PATH" != "x" -a "x$PSSELECT_PATH" != "x"; then have_groff_html=yes else have_groff_html=no AC_MSG_WARN([grohtml dependencies not found - HTML Documentation skipped. Refer to grohtml man pages]) fi fi # Set Automake conditionals for Makefiles AM_CONDITIONAL([HAVE_GROFF], [test "$have_groff" = yes]) AM_CONDITIONAL([HAVE_GROFF_MS], [test "$groff_ms_works" = yes]) AM_CONDITIONAL([HAVE_GROFF_MM], [test "$groff_mm_works" = yes]) AM_CONDITIONAL([HAVE_GROFF_HTML], [test "$have_groff_html" = yes]) ]) # XORG_WITH_GROFF # XORG_WITH_FOP([MIN-VERSION], [DEFAULT]) # --------------------------------------- # Minimum version: 1.6.0 # Minimum version for optional DEFAULT argument: 1.11.0 # Minimum version for optional MIN-VERSION argument: 1.15.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-fop option, it allows maximum flexibilty in making decisions # as whether or not to use the fop package. When DEFAULT is not specified, # --with-fop assumes 'auto'. # # Interface to module: # HAVE_FOP: used in makefiles to conditionally generate documentation # FOP: returns the path of the fop program found # returns the path set by the user in the environment # --with-fop: 'yes' user instructs the module to use fop # 'no' user instructs the module not to use fop # # If the user sets the value of FOP, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_FOP],[ AC_ARG_VAR([FOP], [Path to fop command]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(fop, AS_HELP_STRING([--with-fop], [Use fop to regenerate documentation (default: ]_defopt[)]), [use_fop=$withval], [use_fop=]_defopt) m4_undefine([_defopt]) if test "x$use_fop" = x"auto"; then AC_PATH_PROG([FOP], [fop]) if test "x$FOP" = "x"; then AC_MSG_WARN([fop not found - documentation targets will be skipped]) have_fop=no else have_fop=yes fi elif test "x$use_fop" = x"yes" ; then AC_PATH_PROG([FOP], [fop]) if test "x$FOP" = "x"; then AC_MSG_ERROR([--with-fop=yes specified but fop not found in PATH]) fi have_fop=yes elif test "x$use_fop" = x"no" ; then if test "x$FOP" != "x"; then AC_MSG_WARN([ignoring FOP environment variable since --with-fop=no was specified]) fi have_fop=no else AC_MSG_ERROR([--with-fop expects 'yes' or 'no']) fi # Test for a minimum version of fop, if provided. m4_ifval([$1], [if test "$have_fop" = yes; then # scrape the fop version AC_MSG_CHECKING([for fop minimum version]) fop_version=`$FOP -version 2>/dev/null | cut -d' ' -f3` AC_MSG_RESULT([$fop_version]) AS_VERSION_COMPARE([$fop_version], [$1], [if test "x$use_fop" = xauto; then AC_MSG_WARN([fop version $fop_version found, but $1 needed]) have_fop=no else AC_MSG_ERROR([fop version $fop_version found, but $1 needed]) fi]) fi]) AM_CONDITIONAL([HAVE_FOP], [test "$have_fop" = yes]) ]) # XORG_WITH_FOP # XORG_WITH_M4([MIN-VERSION]) # --------------------------- # Minimum version: 1.19.0 # # This macro attempts to locate an m4 macro processor which supports # -I option and is only useful for modules relying on M4 in order to # expand macros in source code files. # # Interface to module: # M4: returns the path of the m4 program found # returns the path set by the user in the environment # AC_DEFUN([XORG_WITH_M4], [ AC_CACHE_CHECK([for m4 that supports -I option], [ac_cv_path_M4], [AC_PATH_PROGS_FEATURE_CHECK([M4], [m4 gm4], [[$ac_path_M4 -I. /dev/null > /dev/null 2>&1 && \ ac_cv_path_M4=$ac_path_M4 ac_path_M4_found=:]], [AC_MSG_ERROR([could not find m4 that supports -I option])], [$PATH:/usr/gnu/bin])]) AC_SUBST([M4], [$ac_cv_path_M4]) ]) # XORG_WITH_M4 # XORG_WITH_PS2PDF([DEFAULT]) # ---------------- # Minimum version: 1.6.0 # Minimum version for optional DEFAULT argument: 1.11.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a module to test for the # presence of the tool and obtain it's path in separate variables. Coupled with # the --with-ps2pdf option, it allows maximum flexibilty in making decisions # as whether or not to use the ps2pdf package. When DEFAULT is not specified, # --with-ps2pdf assumes 'auto'. # # Interface to module: # HAVE_PS2PDF: used in makefiles to conditionally generate documentation # PS2PDF: returns the path of the ps2pdf program found # returns the path set by the user in the environment # --with-ps2pdf: 'yes' user instructs the module to use ps2pdf # 'no' user instructs the module not to use ps2pdf # # If the user sets the value of PS2PDF, AC_PATH_PROG skips testing the path. # AC_DEFUN([XORG_WITH_PS2PDF],[ AC_ARG_VAR([PS2PDF], [Path to ps2pdf command]) m4_define([_defopt], m4_default([$1], [auto])) AC_ARG_WITH(ps2pdf, AS_HELP_STRING([--with-ps2pdf], [Use ps2pdf to regenerate documentation (default: ]_defopt[)]), [use_ps2pdf=$withval], [use_ps2pdf=]_defopt) m4_undefine([_defopt]) if test "x$use_ps2pdf" = x"auto"; then AC_PATH_PROG([PS2PDF], [ps2pdf]) if test "x$PS2PDF" = "x"; then AC_MSG_WARN([ps2pdf not found - documentation targets will be skipped]) have_ps2pdf=no else have_ps2pdf=yes fi elif test "x$use_ps2pdf" = x"yes" ; then AC_PATH_PROG([PS2PDF], [ps2pdf]) if test "x$PS2PDF" = "x"; then AC_MSG_ERROR([--with-ps2pdf=yes specified but ps2pdf not found in PATH]) fi have_ps2pdf=yes elif test "x$use_ps2pdf" = x"no" ; then if test "x$PS2PDF" != "x"; then AC_MSG_WARN([ignoring PS2PDF environment variable since --with-ps2pdf=no was specified]) fi have_ps2pdf=no else AC_MSG_ERROR([--with-ps2pdf expects 'yes' or 'no']) fi AM_CONDITIONAL([HAVE_PS2PDF], [test "$have_ps2pdf" = yes]) ]) # XORG_WITH_PS2PDF # XORG_ENABLE_DOCS (enable_docs=yes) # ---------------- # Minimum version: 1.6.0 # # Documentation tools are not always available on all platforms and sometimes # not at the appropriate level. This macro enables a builder to skip all # documentation targets except traditional man pages. # Combined with the specific tool checking macros XORG_WITH_*, it provides # maximum flexibilty in controlling documentation building. # Refer to: # XORG_WITH_XMLTO --with-xmlto # XORG_WITH_ASCIIDOC --with-asciidoc # XORG_WITH_DOXYGEN --with-doxygen # XORG_WITH_FOP --with-fop # XORG_WITH_GROFF --with-groff # XORG_WITH_PS2PDF --with-ps2pdf # # Interface to module: # ENABLE_DOCS: used in makefiles to conditionally generate documentation # --enable-docs: 'yes' user instructs the module to generate docs # 'no' user instructs the module not to generate docs # parm1: specify the default value, yes or no. # AC_DEFUN([XORG_ENABLE_DOCS],[ m4_define([docs_default], m4_default([$1], [yes])) AC_ARG_ENABLE(docs, AS_HELP_STRING([--enable-docs], [Enable building the documentation (default: ]docs_default[)]), [build_docs=$enableval], [build_docs=]docs_default) m4_undefine([docs_default]) AM_CONDITIONAL(ENABLE_DOCS, [test x$build_docs = xyes]) AC_MSG_CHECKING([whether to build documentation]) AC_MSG_RESULT([$build_docs]) ]) # XORG_ENABLE_DOCS # XORG_ENABLE_DEVEL_DOCS (enable_devel_docs=yes) # ---------------- # Minimum version: 1.6.0 # # This macro enables a builder to skip all developer documentation. # Combined with the specific tool checking macros XORG_WITH_*, it provides # maximum flexibilty in controlling documentation building. # Refer to: # XORG_WITH_XMLTO --with-xmlto # XORG_WITH_ASCIIDOC --with-asciidoc # XORG_WITH_DOXYGEN --with-doxygen # XORG_WITH_FOP --with-fop # XORG_WITH_GROFF --with-groff # XORG_WITH_PS2PDF --with-ps2pdf # # Interface to module: # ENABLE_DEVEL_DOCS: used in makefiles to conditionally generate developer docs # --enable-devel-docs: 'yes' user instructs the module to generate developer docs # 'no' user instructs the module not to generate developer docs # parm1: specify the default value, yes or no. # AC_DEFUN([XORG_ENABLE_DEVEL_DOCS],[ m4_define([devel_default], m4_default([$1], [yes])) AC_ARG_ENABLE(devel-docs, AS_HELP_STRING([--enable-devel-docs], [Enable building the developer documentation (default: ]devel_default[)]), [build_devel_docs=$enableval], [build_devel_docs=]devel_default) m4_undefine([devel_default]) AM_CONDITIONAL(ENABLE_DEVEL_DOCS, [test x$build_devel_docs = xyes]) AC_MSG_CHECKING([whether to build developer documentation]) AC_MSG_RESULT([$build_devel_docs]) ]) # XORG_ENABLE_DEVEL_DOCS # XORG_ENABLE_SPECS (enable_specs=yes) # ---------------- # Minimum version: 1.6.0 # # This macro enables a builder to skip all functional specification targets. # Combined with the specific tool checking macros XORG_WITH_*, it provides # maximum flexibilty in controlling documentation building. # Refer to: # XORG_WITH_XMLTO --with-xmlto # XORG_WITH_ASCIIDOC --with-asciidoc # XORG_WITH_DOXYGEN --with-doxygen # XORG_WITH_FOP --with-fop # XORG_WITH_GROFF --with-groff # XORG_WITH_PS2PDF --with-ps2pdf # # Interface to module: # ENABLE_SPECS: used in makefiles to conditionally generate specs # --enable-specs: 'yes' user instructs the module to generate specs # 'no' user instructs the module not to generate specs # parm1: specify the default value, yes or no. # AC_DEFUN([XORG_ENABLE_SPECS],[ m4_define([spec_default], m4_default([$1], [yes])) AC_ARG_ENABLE(specs, AS_HELP_STRING([--enable-specs], [Enable building the specs (default: ]spec_default[)]), [build_specs=$enableval], [build_specs=]spec_default) m4_undefine([spec_default]) AM_CONDITIONAL(ENABLE_SPECS, [test x$build_specs = xyes]) AC_MSG_CHECKING([whether to build functional specifications]) AC_MSG_RESULT([$build_specs]) ]) # XORG_ENABLE_SPECS # XORG_ENABLE_UNIT_TESTS (enable_unit_tests=auto) # ---------------------------------------------- # Minimum version: 1.13.0 # # This macro enables a builder to enable/disable unit testing # It makes no assumption about the test cases implementation # Test cases may or may not use Automake "Support for test suites" # They may or may not use the software utility library GLib # # When used in conjunction with XORG_WITH_GLIB, use both AM_CONDITIONAL # ENABLE_UNIT_TESTS and HAVE_GLIB. Not all unit tests may use glib. # The variable enable_unit_tests is used by other macros in this file. # # Interface to module: # ENABLE_UNIT_TESTS: used in makefiles to conditionally build tests # enable_unit_tests: used in configure.ac for additional configuration # --enable-unit-tests: 'yes' user instructs the module to build tests # 'no' user instructs the module not to build tests # parm1: specify the default value, yes or no. # AC_DEFUN([XORG_ENABLE_UNIT_TESTS],[ AC_BEFORE([$0], [XORG_WITH_GLIB]) AC_BEFORE([$0], [XORG_LD_WRAP]) AC_REQUIRE([XORG_MEMORY_CHECK_FLAGS]) m4_define([_defopt], m4_default([$1], [auto])) AC_ARG_ENABLE(unit-tests, AS_HELP_STRING([--enable-unit-tests], [Enable building unit test cases (default: ]_defopt[)]), [enable_unit_tests=$enableval], [enable_unit_tests=]_defopt) m4_undefine([_defopt]) AM_CONDITIONAL(ENABLE_UNIT_TESTS, [test "x$enable_unit_tests" != xno]) AC_MSG_CHECKING([whether to build unit test cases]) AC_MSG_RESULT([$enable_unit_tests]) ]) # XORG_ENABLE_UNIT_TESTS # XORG_ENABLE_INTEGRATION_TESTS (enable_unit_tests=auto) # ------------------------------------------------------ # Minimum version: 1.17.0 # # This macro enables a builder to enable/disable integration testing # It makes no assumption about the test cases' implementation # Test cases may or may not use Automake "Support for test suites" # # Please see XORG_ENABLE_UNIT_TESTS for unit test support. Unit test support # usually requires less dependencies and may be built and run under less # stringent environments than integration tests. # # Interface to module: # ENABLE_INTEGRATION_TESTS: used in makefiles to conditionally build tests # enable_integration_tests: used in configure.ac for additional configuration # --enable-integration-tests: 'yes' user instructs the module to build tests # 'no' user instructs the module not to build tests # parm1: specify the default value, yes or no. # AC_DEFUN([XORG_ENABLE_INTEGRATION_TESTS],[ AC_REQUIRE([XORG_MEMORY_CHECK_FLAGS]) m4_define([_defopt], m4_default([$1], [auto])) AC_ARG_ENABLE(integration-tests, AS_HELP_STRING([--enable-integration-tests], [Enable building integration test cases (default: ]_defopt[)]), [enable_integration_tests=$enableval], [enable_integration_tests=]_defopt) m4_undefine([_defopt]) AM_CONDITIONAL([ENABLE_INTEGRATION_TESTS], [test "x$enable_integration_tests" != xno]) AC_MSG_CHECKING([whether to build unit test cases]) AC_MSG_RESULT([$enable_integration_tests]) ]) # XORG_ENABLE_INTEGRATION_TESTS # XORG_WITH_GLIB([MIN-VERSION], [DEFAULT]) # ---------------------------------------- # Minimum version: 1.13.0 # # GLib is a library which provides advanced data structures and functions. # This macro enables a module to test for the presence of Glib. # # When used with ENABLE_UNIT_TESTS, it is assumed GLib is used for unit testing. # Otherwise the value of $enable_unit_tests is blank. # # Please see XORG_ENABLE_INTEGRATION_TESTS for integration test support. Unit # test support usually requires less dependencies and may be built and run under # less stringent environments than integration tests. # # Interface to module: # HAVE_GLIB: used in makefiles to conditionally build targets # with_glib: used in configure.ac to know if GLib has been found # --with-glib: 'yes' user instructs the module to use glib # 'no' user instructs the module not to use glib # AC_DEFUN([XORG_WITH_GLIB],[ AC_REQUIRE([PKG_PROG_PKG_CONFIG]) m4_define([_defopt], m4_default([$2], [auto])) AC_ARG_WITH(glib, AS_HELP_STRING([--with-glib], [Use GLib library for unit testing (default: ]_defopt[)]), [with_glib=$withval], [with_glib=]_defopt) m4_undefine([_defopt]) have_glib=no # Do not probe GLib if user explicitly disabled unit testing if test "x$enable_unit_tests" != x"no"; then # Do not probe GLib if user explicitly disabled it if test "x$with_glib" != x"no"; then m4_ifval( [$1], [PKG_CHECK_MODULES([GLIB], [glib-2.0 >= $1], [have_glib=yes], [have_glib=no])], [PKG_CHECK_MODULES([GLIB], [glib-2.0], [have_glib=yes], [have_glib=no])] ) fi fi # Not having GLib when unit testing has been explicitly requested is an error if test "x$enable_unit_tests" = x"yes"; then if test "x$have_glib" = x"no"; then AC_MSG_ERROR([--enable-unit-tests=yes specified but glib-2.0 not found]) fi fi # Having unit testing disabled when GLib has been explicitly requested is an error if test "x$enable_unit_tests" = x"no"; then if test "x$with_glib" = x"yes"; then AC_MSG_ERROR([--enable-unit-tests=yes specified but glib-2.0 not found]) fi fi # Not having GLib when it has been explicitly requested is an error if test "x$with_glib" = x"yes"; then if test "x$have_glib" = x"no"; then AC_MSG_ERROR([--with-glib=yes specified but glib-2.0 not found]) fi fi AM_CONDITIONAL([HAVE_GLIB], [test "$have_glib" = yes]) ]) # XORG_WITH_GLIB # XORG_LD_WRAP([required|optional]) # --------------------------------- # Minimum version: 1.13.0 # # Check if linker supports -wrap, passed via compiler flags # # When used with ENABLE_UNIT_TESTS, it is assumed -wrap is used for unit testing. # Otherwise the value of $enable_unit_tests is blank. # # Argument added in 1.16.0 - default is "required", to match existing behavior # of returning an error if enable_unit_tests is yes, and ld -wrap is not # available, an argument of "optional" allows use when some unit tests require # ld -wrap and others do not. # AC_DEFUN([XORG_LD_WRAP],[ XORG_CHECK_LINKER_FLAGS([-Wl,-wrap,exit],[have_ld_wrap=yes],[have_ld_wrap=no], [AC_LANG_PROGRAM([#include void __wrap_exit(int status) { return; }], [exit(0);])]) # Not having ld wrap when unit testing has been explicitly requested is an error if test "x$enable_unit_tests" = x"yes" -a "x$1" != "xoptional"; then if test "x$have_ld_wrap" = x"no"; then AC_MSG_ERROR([--enable-unit-tests=yes specified but ld -wrap support is not available]) fi fi AM_CONDITIONAL([HAVE_LD_WRAP], [test "$have_ld_wrap" = yes]) # ]) # XORG_LD_WRAP # XORG_CHECK_LINKER_FLAGS # ----------------------- # SYNOPSIS # # XORG_CHECK_LINKER_FLAGS(FLAGS, [ACTION-SUCCESS], [ACTION-FAILURE], [PROGRAM-SOURCE]) # # DESCRIPTION # # Check whether the given linker FLAGS work with the current language's # linker, or whether they give an error. # # ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on # success/failure. # # PROGRAM-SOURCE is the program source to link with, if needed # # NOTE: Based on AX_CHECK_COMPILER_FLAGS. # # LICENSE # # Copyright (c) 2009 Mike Frysinger # Copyright (c) 2009 Steven G. Johnson # Copyright (c) 2009 Matteo Frigo # # This program is free software: you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the # Free Software Foundation, either version 3 of the License, or (at your # option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General # Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program. If not, see . # # As a special exception, the respective Autoconf Macro's copyright owner # gives unlimited permission to copy, distribute and modify the configure # scripts that are the output of Autoconf when processing the Macro. You # need not follow the terms of the GNU General Public License when using # or distributing such scripts, even though portions of the text of the # Macro appear in them. The GNU General Public License (GPL) does govern # all other use of the material that constitutes the Autoconf Macro. # # This special exception to the GPL applies to versions of the Autoconf # Macro released by the Autoconf Archive. When you make and distribute a # modified version of the Autoconf Macro, you may extend this special # exception to the GPL to apply to your modified version as well.# AC_DEFUN([XORG_CHECK_LINKER_FLAGS], [AC_MSG_CHECKING([whether the linker accepts $1]) dnl Some hackery here since AC_CACHE_VAL can't handle a non-literal varname: AS_LITERAL_IF([$1], [AC_CACHE_VAL(AS_TR_SH(xorg_cv_linker_flags_[$1]), [ ax_save_FLAGS=$LDFLAGS LDFLAGS="$1" AC_LINK_IFELSE([m4_default([$4],[AC_LANG_PROGRAM()])], AS_TR_SH(xorg_cv_linker_flags_[$1])=yes, AS_TR_SH(xorg_cv_linker_flags_[$1])=no) LDFLAGS=$ax_save_FLAGS])], [ax_save_FLAGS=$LDFLAGS LDFLAGS="$1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], eval AS_TR_SH(xorg_cv_linker_flags_[$1])=yes, eval AS_TR_SH(xorg_cv_linker_flags_[$1])=no) LDFLAGS=$ax_save_FLAGS]) eval xorg_check_linker_flags=$AS_TR_SH(xorg_cv_linker_flags_[$1]) AC_MSG_RESULT($xorg_check_linker_flags) if test "x$xorg_check_linker_flags" = xyes; then m4_default([$2], :) else m4_default([$3], :) fi ]) # XORG_CHECK_LINKER_FLAGS # XORG_MEMORY_CHECK_FLAGS # ----------------------- # Minimum version: 1.16.0 # # This macro attempts to find appropriate memory checking functionality # for various platforms which unit testing code may use to catch various # forms of memory allocation and access errors in testing. # # Interface to module: # XORG_MALLOC_DEBUG_ENV - environment variables to set to enable debugging # Usually added to TESTS_ENVIRONMENT in Makefile.am # # If the user sets the value of XORG_MALLOC_DEBUG_ENV, it is used verbatim. # AC_DEFUN([XORG_MEMORY_CHECK_FLAGS],[ AC_REQUIRE([AC_CANONICAL_HOST]) AC_ARG_VAR([XORG_MALLOC_DEBUG_ENV], [Environment variables to enable memory checking in tests]) # Check for different types of support on different platforms case $host_os in solaris*) AC_CHECK_LIB([umem], [umem_alloc], [malloc_debug_env='LD_PRELOAD=libumem.so UMEM_DEBUG=default']) ;; *-gnu*) # GNU libc - Value is used as a single byte bit pattern, # both directly and inverted, so should not be 0 or 255. malloc_debug_env='MALLOC_PERTURB_=15' ;; darwin*) malloc_debug_env='MallocPreScribble=1 MallocScribble=1 DYLD_INSERT_LIBRARIES=/usr/lib/libgmalloc.dylib' ;; *bsd*) malloc_debug_env='MallocPreScribble=1 MallocScribble=1' ;; esac # User supplied flags override default flags if test "x$XORG_MALLOC_DEBUG_ENV" != "x"; then malloc_debug_env="$XORG_MALLOC_DEBUG_ENV" fi AC_SUBST([XORG_MALLOC_DEBUG_ENV],[$malloc_debug_env]) ]) # XORG_WITH_LINT # XORG_CHECK_MALLOC_ZERO # ---------------------- # Minimum version: 1.0.0 # # Defines {MALLOC,XMALLOC,XTMALLOC}_ZERO_CFLAGS appropriately if # malloc(0) returns NULL. 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For now, I don't want them to drown out the other warnings. # XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Wparentheses]) # XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Wcast-align]) # XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Wcast-qual]) # Turn some warnings into errors, so we don't accidently get successful builds # when there are problems that should be fixed. if test "x$SELECTIVE_WERROR" = "xyes" ; then XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=implicit], [-errwarn=E_NO_EXPLICIT_TYPE_GIVEN -errwarn=E_NO_IMPLICIT_DECL_ALLOWED]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=nonnull]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=init-self]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=main]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=missing-braces]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=sequence-point]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=return-type], [-errwarn=E_FUNC_HAS_NO_RETURN_STMT]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=trigraphs]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=array-bounds]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=write-strings]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=address]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=int-to-pointer-cast], [-errwarn=E_BAD_PTR_INT_COMBINATION]) XORG_TESTSET_CFLAG([[BASE_]PREFIX[FLAGS]], [-Werror=pointer-to-int-cast]) # Also -errwarn=E_BAD_PTR_INT_COMBINATION else AC_MSG_WARN([You have chosen not to turn some select compiler warnings into errors. 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If -fno-strict-aliasing # is needed, then it should be added explicitly in the module when # it is updated to use BASE_CFLAGS. # AC_DEFUN([XORG_CWARNFLAGS], [ AC_REQUIRE([XORG_COMPILER_FLAGS]) AC_REQUIRE([XORG_COMPILER_BRAND]) AC_LANG_CASE( [C], [ CWARNFLAGS="$BASE_CFLAGS" if test "x$GCC" = xyes ; then CWARNFLAGS="$CWARNFLAGS -fno-strict-aliasing" fi AC_SUBST(CWARNFLAGS) ] ) ]) # XORG_CWARNFLAGS # XORG_STRICT_OPTION # ----------------------- # Minimum version: 1.3.0 # # Add configure option to enable strict compilation flags, such as treating # warnings as fatal errors. # If --enable-strict-compilation is passed to configure, adds strict flags to # $BASE_CFLAGS or $BASE_CXXFLAGS and the deprecated $CWARNFLAGS. # # Starting in 1.14.0 also exports $STRICT_CFLAGS for use in other tests or # when strict compilation is unconditionally desired. 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XORG_TESTSET_CFLAG([[STRICT_]PREFIX[FLAGS]], [-Werror=attributes]) if test "x$STRICT_COMPILE" = "xyes"; then [BASE_]PREFIX[FLAGS]="$[BASE_]PREFIX[FLAGS] $[STRICT_]PREFIX[FLAGS]" AC_LANG_CASE([C], [CWARNFLAGS="$CWARNFLAGS $STRICT_CFLAGS"]) fi AC_SUBST([STRICT_]PREFIX[FLAGS]) AC_SUBST([BASE_]PREFIX[FLAGS]) AC_LANG_CASE([C], AC_SUBST([CWARNFLAGS])) ]) # XORG_STRICT_OPTION # XORG_DEFAULT_OPTIONS # -------------------- # Minimum version: 1.3.0 # # Defines default options for X.Org modules. # AC_DEFUN([XORG_DEFAULT_OPTIONS], [ AC_REQUIRE([AC_PROG_INSTALL]) XORG_COMPILER_FLAGS XORG_CWARNFLAGS XORG_STRICT_OPTION XORG_RELEASE_VERSION XORG_CHANGELOG XORG_INSTALL XORG_MANPAGE_SECTIONS m4_ifdef([AM_SILENT_RULES], [AM_SILENT_RULES([yes])], [AC_SUBST([AM_DEFAULT_VERBOSITY], [1])]) ]) # XORG_DEFAULT_OPTIONS # XORG_INSTALL() # ---------------- # Minimum version: 1.4.0 # # Defines the variable INSTALL_CMD as the command to copy # INSTALL from $prefix/share/util-macros. # AC_DEFUN([XORG_INSTALL], [ AC_REQUIRE([PKG_PROG_PKG_CONFIG]) macros_datadir=`$PKG_CONFIG --print-errors --variable=pkgdatadir xorg-macros` INSTALL_CMD="(cp -f "$macros_datadir/INSTALL" \$(top_srcdir)/.INSTALL.tmp && \ mv \$(top_srcdir)/.INSTALL.tmp \$(top_srcdir)/INSTALL) \ || (rm -f \$(top_srcdir)/.INSTALL.tmp; touch \$(top_srcdir)/INSTALL; \ echo 'util-macros \"pkgdatadir\" from xorg-macros.pc not found: installing possibly empty INSTALL.' >&2)" AC_SUBST([INSTALL_CMD]) ]) # XORG_INSTALL dnl Copyright 2005 Red Hat, Inc dnl dnl Permission to use, copy, modify, distribute, and sell this software and its dnl documentation for any purpose is hereby granted without fee, provided that dnl the above copyright notice appear in all copies and that both that dnl copyright notice and this permission notice appear in supporting dnl documentation. dnl dnl The above copyright notice and this permission notice shall be included dnl in all copies or substantial portions of the Software. dnl dnl THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS dnl OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF dnl MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. dnl IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR dnl OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, dnl ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR dnl OTHER DEALINGS IN THE SOFTWARE. dnl dnl Except as contained in this notice, the name of the copyright holders shall dnl not be used in advertising or otherwise to promote the sale, use or dnl other dealings in this Software without prior written authorization dnl from the copyright holders. dnl # XORG_RELEASE_VERSION # -------------------- # Defines PACKAGE_VERSION_{MAJOR,MINOR,PATCHLEVEL} for modules to use. AC_DEFUN([XORG_RELEASE_VERSION],[ AC_DEFINE_UNQUOTED([PACKAGE_VERSION_MAJOR], [`echo $PACKAGE_VERSION | cut -d . -f 1`], [Major version of this package]) PVM=`echo $PACKAGE_VERSION | cut -d . -f 2 | cut -d - -f 1` if test "x$PVM" = "x"; then PVM="0" fi AC_DEFINE_UNQUOTED([PACKAGE_VERSION_MINOR], [$PVM], [Minor version of this package]) PVP=`echo $PACKAGE_VERSION | cut -d . -f 3 | cut -d - -f 1` if test "x$PVP" = "x"; then PVP="0" fi AC_DEFINE_UNQUOTED([PACKAGE_VERSION_PATCHLEVEL], [$PVP], [Patch version of this package]) ]) # XORG_CHANGELOG() # ---------------- # Minimum version: 1.2.0 # # Defines the variable CHANGELOG_CMD as the command to generate # ChangeLog from git. # # AC_DEFUN([XORG_CHANGELOG], [ CHANGELOG_CMD="(GIT_DIR=\$(top_srcdir)/.git git log > \$(top_srcdir)/.changelog.tmp && \ mv \$(top_srcdir)/.changelog.tmp \$(top_srcdir)/ChangeLog) \ || (rm -f \$(top_srcdir)/.changelog.tmp; touch \$(top_srcdir)/ChangeLog; \ echo 'git directory not found: installing possibly empty changelog.' >&2)" AC_SUBST([CHANGELOG_CMD]) ]) # XORG_CHANGELOG selective compiler errors. (default: enabled)]), [SELECTIVE_WERROR=$enableval], [SELECTIVE_WEkbproto-1.0.7/ChangeLog000064401431060000012000000554031252061204700152400ustar00alancstaff00002660200006commit ec54606682aa395517bde1e01dd9bb8a1033e707 Author: Alan Coopersmith Date: Thu Apr 30 22:43:41 2015 -0700 kbproto 1.0.7 Signed-off-by: Alan Coopersmith commit fe38312ff65b87a03d21ac5d10618080da296145 Author: wettstae@gmail.com Date: Mon Mar 9 20:13:21 2015 +0100 kbproto: Fix typo in XkbSARedirectSetVMods An apparent copy/paste bug in the macro XkbSARedirectSetVMods, which breaks using RedirectKey actions with virtual modifiers. Signed-off-by: Andreas Wettstein Reviewed-by: Daniel Stone Signed-off-by: Peter Hutterer commit 5e40da736ffc87f5cafaaa67d745e20ef67a9f4a Author: Gaetan Nadon Date: Sat Oct 26 09:42:05 2013 -0400 config: replace deprecated use of AC_OUTPUT with AC_CONFIG_FILES Fix Automake warning: AC_OUTPUT should be used without arguments. www.gnu.org/software/autoconf/manual/autoconf.html#Configuration-Files Signed-off-by: Gaetan Nadon commit 7cc231b806b1cf6c0c7a71efe335efad892860f0 Author: Alan Coopersmith Date: Fri Aug 16 22:00:18 2013 -0700 Drop WORD64 (Cray) support Signed-off-by: Alan Coopersmith commit 95ee49d90c28b15a3c3be54a233368fc69f3531a Author: Alan Coopersmith Date: Fri Aug 16 21:55:27 2013 -0700 Add comments about sizes of dynamically allocated arrays Many arrays have sz_* or size_* fields to list the number of entries allocated, and num_* fields to record the number of entries used. Others use num_* for the number allocated, or size based on max_key_code. And a few are just plain trying to mess with your head. (I'm looking at you XkbNamesRec & XkbKeyTypeRec.) It sure would have been nice if all the XKB authors could have picked a single convention and stuck to it, but we're 20 years too late for that now, so just document it so I can stop reverse engineering from the code every time I need to see if we got a bounds check right or not. Signed-off-by: Alan Coopersmith commit db07706cb268d5fe1bc38ef5c0a9f49309068b2c Author: Daniel Martin Date: Sun Jul 28 21:25:33 2013 +0200 specs: Change XkbSA_DfltBtnAbsolute to 4 Adopt the value from XKB.h: #define XkbSA_DfltBtnAbsolute (1L << 2) Found-by: Ran Benita Signed-off-by: Daniel Martin Signed-off-by: Peter Hutterer commit a404bec53f6fff71fc7d47f41eca2ef488d16937 Author: Alan Coopersmith Date: Sat Mar 2 10:43:45 2013 -0800 Tell clang not to report -Wpadded warnings on public headers we can't fix Better to silence the compiler warning than break ABI. Signed-off-by: Alan Coopersmith commit f7022f5775350dce3348b7151845a32390e98791 Author: Colin Walters Date: Wed Jan 4 17:37:06 2012 -0500 autogen.sh: Implement GNOME Build API http://people.gnome.org/~walters/docs/build-api.txt Signed-off-by: Adam Jackson commit 50828064b114a26d35b5b75d45068755d0d260c3 Author: Adam Jackson Date: Tue Jan 15 14:01:10 2013 -0500 configure: Remove AM_MAINTAINER_MODE Signed-off-by: Adam Jackson commit 391a1f6de6315fc0196d407d800597488315cccb Author: Alan Coopersmith Date: Thu Mar 22 20:43:02 2012 -0700 kbproto 1.0.6 Signed-off-by: Alan Coopersmith commit b0f7912512091ea58dfaf8dffb2a658a6afeb96d Author: Matt Dew Date: Mon Jan 16 15:38:49 2012 -0700 informaltable cleanup On certain tables, add top and bottom borders to table header and a bottom border to the table. This matches what those tables in the old pdfs looked like. the prevents tables from splitting across pages. Useful for tiny tables. Converting the colwidth to a floating point, IE, 1* -> 1.0* cleans up these build errors: WARNING: table-layout="fixed" and column-width unspecified => falling back to proportional-column-width(1) Signed-off-by: Matt Dew commit cb49f95af605bd5019e194eeb656d8789d57756a Author: Matt Dew Date: Mon Oct 3 18:06:16 2011 -0600 1 - fix the capitolization of the ID attriutes to match either the or <funcdef> string it goes with. 2 - fix any <linkend>'s that were affected by 1. 3 - any <function> in the docs that has an actual funcdef, will become an olink. Signed-off-by: Matt Dew <marcoz@osource.org> commit f1980f205e5bc417ad799aa8389ebdd807b7ca58 Author: Gaetan Nadon <memsize@videotron.ca> Date: Wed Sep 21 15:54:18 2011 -0400 specs: fix copyright markup Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit 8ce1f616524c610463340922fdc529b4c7f6b26d Author: Gaetan Nadon <memsize@videotron.ca> Date: Mon Sep 12 16:54:45 2011 -0400 docs: use the &fullrelvers; entity to set X11 release information Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit acc3fe66be976f3b6f1716041104699aefc24c36 Author: Gaetan Nadon <memsize@videotron.ca> Date: Fri Sep 9 21:48:21 2011 -0400 xkbproto doc: remove empty revision history and set specs version Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit f24b077892e037fb45b40a7fd055087dc5ce464a Author: Gaetan Nadon <memsize@videotron.ca> Date: Thu Sep 8 20:00:00 2011 -0400 docbook.am: embed css styles inside the HTML HEAD element Rather than referring to the external xorg.css stylesheet, embed the content of the file in the html output produced. This is accomplished by using version 1.10 of xorg-xhtml.xsl. This makes the whole html docs tree much more relocatable. In addition, it eliminates xorg.css as a runtime file which makes xorg-sgml-doctools a build time only package. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit c707a202a497bf8cab6a89b5807269e0a4b51f3d Author: Gaetan Nadon <memsize@videotron.ca> Date: Wed Sep 7 10:31:04 2011 -0400 docbook.am: global maintenance update - entities, images and olinking Adding support in libX11 for html chunking caused a reorg of docbook.am as well as the xorg-sgml-doctools masterdb for olinking. The parameter img.src.path is added for pdf images. A searchpath to the root builddir is added for local entities, if present. The docbook.am makefile hides all the details and is identical for all 22 modules having DocBook documentation. It is included by a thin Makefile.am which requires no docbook knowledge. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit 5a286420a2356d611929b700e5338ab4649d707f Author: Gaetan Nadon <memsize@videotron.ca> Date: Tue Aug 23 20:37:08 2011 -0400 docbook pdf: add xsl parameter to locate images Unlike html, pdf/ps requires a full path name to find images, but only needs it to make an internal copy of it at build time. The image can later be removed and the image still shows up in the pdf doc. This allows us to use the absolute builddir. This parameter must not be used for html which loads the image from disk at user read time. The image is removed from builddir after build is done, and we do not know where the image will be installed by the distro. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit 8233aa66e9ae9bbc887a8004da8a7d692aabfa3b Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Jun 12 17:54:50 2011 -0400 Install xml versions of specs even if HAVE_XMLTO is false DocBook/XML input source is also a usefull output format that can be viewed with an XML viewer or editor and by some O/S help system. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit 3ccaaf460f1e130e919cf027b8d1ccfd75ad1150 Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Jun 5 16:27:37 2011 -0400 Install target dbs alongside generated documents This matches a change in xorg-sgml-docs whereby the masterdb will look for the target dbs into the same location as the generated documents. The target dbs are now installed alongside the generated documents. Previously they are installed in $prefix/sgml/X11/dbs alongside masterdb which has the potential of installing outside the package prefix and cause distcheck to fail when user does not have write permission in this package. Requires XORG_CHECK_SGML_DOCTOOLS(1.8) which was released 2011-06-11 commit a9cc5051ea8daf3b56964751db5bc5f257aa2c7e Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Feb 27 15:06:18 2011 -0500 Documentation: add Docbook external references support When writing technical documentation, it is often necessary to cross reference to other information. When that other information is not in the current document, additional support is needed, namely <olink>. A new feature with version 1.7 of xorg-sgml-doctools adds references to other documents within or outside this package. This patch adds technical support for this feature but does not change the content of the documentation as seen by the end user. Each book or article must generate a database containing the href of sections that can be referred to from another document. This database is installed in DATAROOTDIR/sgml/X11/dbs. There is a requirement that the value of DATAROOTDIR for xorg-sgml-doctools and for the package documentation is the same. This forms a virtual document tree. This database is consulted by other documents while they are being generated in order to fulfill the missing information for linking. Refer to the xorg-sgml-doctools for further technical information. Co-authored-by: Matt Dew <marcoz@osource.org> Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit b82c9b3f752c89d3328c0257d8a386024c9023ee Author: Matt Dew <marcoz@osource.org> Date: Tue Mar 15 23:30:15 2011 -0600 Remove duplicate 'See see' text in docs - take 2 commit c336374f3bf34ce875b29001548470f8d824141e Author: Matt Dew <marcoz@osource.org> Date: Wed Mar 2 17:11:05 2011 -0700 Fix bad link anchors. Fix broken links in kxproto. The old links hardcoded the output filename 'XKBproto.htm' and used anchors that didn't convert correctly. The new anchors are strings that use the same convention as other anchors in other docs. Fix links like: <ulink url="XKBproto.htm#50332257_45660">Compute State Field</ulink> to be: <link linkend='computing_a_state_field_from_an_xkb_state'>Compute State Field</link> Signed-off-by: Matt Dew <marcoz@osource.org> Reviewed-by: Gaetan Nadon <memsize@videotron.ca> Reviewed-by: Alan Coopersmith <alan.coopersmith@oracle.com> commit 72ae502f833db82fa3ceb0146332d6885d5b86fa Author: Alan Coopersmith <alan.coopersmith@oracle.com> Date: Sat Feb 19 12:44:29 2011 -0800 specs: Fix formatting of last item in KEYPAD key type list Reported-by: Jens Elkner Signed-off-by: Alan Coopersmith <alan.coopersmith@oracle.com> commit 4adfcde42846d19ad49557880978247dc4ea2f0f Author: Gaetan Nadon <memsize@videotron.ca> Date: Tue Dec 28 17:21:11 2010 -0500 specs: convert images from gif to svg format. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit fb71cc93f4e5931e166e98ea228760ef5934897f Author: Alan Coopersmith <alan.coopersmith@oracle.com> Date: Mon Dec 20 00:10:13 2010 -0800 Add spec images to dist_spec_DATA for distribution & installation Signed-off-by: Alan Coopersmith <alan.coopersmith@oracle.com> Reviewed-by: Gaetan Nadon <memsize@videotron.ca> commit ed89b140a1359dc97f420255813599954b5d334b Author: Matt Dew <matt@osource.org> Date: Tue Nov 30 09:49:41 2010 -0500 specs: convert xkbproto from Framemaker to DocBook/XML Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit 6080b1839d556899ad456e60c46a925fcc285cb5 Author: Jesse Adkins <jesserayadkins@gmail.com> Date: Tue Sep 28 13:30:04 2010 -0700 Purge cvs tags. Signed-off-by: Jesse Adkins <jesserayadkins@gmail.com> Signed-off-by: Alan Coopersmith <alan.coopersmith@oracle.com> commit f1a9902167607b32ce34adac4a62a07ac43a4041 Author: Adam Jackson <ajax@redhat.com> Date: Tue Aug 10 10:04:15 2010 -0400 kbproto 1.0.5 Signed-off-by: Adam Jackson <ajax@redhat.com> commit 2306fcd4c511d41ae4b31b9cbd9f79cf69287730 Author: Dirk Wallenstein <halsmit@t-online.de> Date: Fri Feb 5 20:42:43 2010 +0100 Use the correct value for XkbAllAccessXEventsMask Signed-off-by: Dirk Wallenstein <halsmit@t-online.de> Signed-off-by: Alan Coopersmith <alan.coopersmith@oracle.com> commit 875e6f80e9ddcac010f6871214a92e4d50e8ee5e Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Mar 28 19:25:52 2010 -0400 config: update AC_PREREQ statement to 2.60 Unrelated to the previous patches, the new value simply reflects the reality that the minimum level for autoconf to configure all x.org modules is 2.60 dated June 2006. ftp://ftp.gnu.org/gnu/autoconf/autoconf-2.60.tar.gz Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit f6b32127be4c800f73bf68c6ac7d79c630cae1fa Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Mar 28 19:00:31 2010 -0400 config: remove the pkgconfig pc.in file from EXTRA_DIST Automake always includes it in the tarball. Signed-off-by: Gaetan Nadon <memsize@videotron.ca> commit cb489d131adb1d454e9f6196d7d766c0acde12e6 Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Nov 22 19:24:48 2009 -0500 Makefile.am: add ChangeLog and INSTALL on MAINTAINERCLEANFILES Now that the INSTALL file is generated. Allows running make maintainer-clean. commit 9a83b903ba2586f16e770d4911c4d7e42957abb7 Author: Gaetan Nadon <memsize@videotron.ca> Date: Mon Nov 16 11:13:30 2009 -0500 README: file created or updated #24206 Contains a set of URLs to freedesktop.org. commit 0a358e01f7fcb903077137c4d3ab51ce9eeabcce Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Nov 15 19:45:27 2009 -0500 Makefile.am: ChangeLog not required: EXTRA_DIST or *CLEANFILES #24432 ChangeLog filename is known to Automake and requires no further coding in the makefile. commit c8078878abaa2d2489a3778c89af043901582eac Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Nov 15 18:31:28 2009 -0500 Makefile.am: INSTALL file is missing or incorrect #24206 The standard GNU file on building/installing tarball is copied using the XORG_INSTALL macro contained in XORG_DEFAULT_OPTIONS Add INSTALL target commit ab57a912460acb83302152bd91c6336d500bb9cd Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Nov 15 18:11:36 2009 -0500 configure.ac: deploy the new XORG_DEFAULT_OPTIONS #24242 This macro aggregate a number of existing macros that sets commmon X.Org components configuration options. It shields the configuration file from future changes. commit 4ddefc3a86050e06056d79b78ae0a1be119c4131 Author: Gaetan Nadon <memsize@videotron.ca> Date: Sun Nov 15 13:55:25 2009 -0500 configure.ac: AM_MAINTAINER_MODE missing #24238 This turns off maintainer mode build rules in tarballs. Works in conjunction with autogen.sh --enable-maintainer-mode commit eb3d96018f4c2e20c23b837aa42f71ebb36661b1 Author: Gaetan Nadon <memsize@videotron.ca> Date: Sat Nov 14 18:26:47 2009 -0500 .gitignore: use common defaults with custom section # 24239 Using common defaults will reduce errors and maintenance. Only the very small or inexistent custom section need periodic maintenance when the structure of the component changes. Do not edit defaults. commit 4e3ccd5b2144005af1d5d2f9b96275a01156aec5 Author: Alan Coopersmith <alan.coopersmith@sun.com> Date: Mon Oct 12 22:39:05 2009 -0700 kbproto 1.0.4 Signed-off-by: Alan Coopersmith <alan.coopersmith@sun.com> commit 6472994ea38a8416214b5ce12a34437541e6d15e Author: Alan Coopersmith <alan.coopersmith@sun.com> Date: Mon Oct 12 22:38:03 2009 -0700 Migrate to xorg macros 1.3 & XORG_DEFAULT_OPTIONS Signed-off-by: Alan Coopersmith <alan.coopersmith@sun.com> commit 5273e7bc22cc7f11f2461ba1f5f30cbdecda1289 Author: Jeremy Huddleston <jeremyhu@freedesktop.org> Date: Mon Apr 6 17:54:12 2009 -0700 Made some defines typedefs for better compatability commit 3baa0be057f2bf2e2f0f049c0dded4a93c68819e Author: Paulo Cesar Pereira de Andrade <pcpa@mandriva.com.br> Date: Tue Jan 27 20:06:28 2009 -0200 Janitor: Correct make distcheck and dont distribute autogen.sh commit 0396fb99f96ff15e1000a6e4b5ccdca119319a8a Author: James Cloos <cloos@jhcloos.com> Date: Thu Dec 6 16:39:02 2007 -0500 Replace static ChangeLog with dist-hook to generate from git log commit 1a41bb4ff63d0fa27238be2af6a8b59941c0f7db Author: James Cloos <cloos@jhcloos.com> Date: Mon Sep 3 05:54:08 2007 -0400 Add *~ to .gitignore to skip patch/emacs droppings commit c4f5dac457e13d2cd5a1d8a1e28e56dd5d3be856 Author: Daniel Stone <daniel@fooishbar.org> Date: Tue Jul 18 15:21:43 2006 -0400 Bump to 1.0.3. commit b23c0835504887f460deeac55b8be94d07336745 Author: Daniel Stone <daniel@fooishbar.org> Date: Tue Jul 18 15:21:28 2006 -0400 unconditionally declare XFree86Private This could probably be moved to generic DDX private. commit 85c889c725de1a0233c845c75ad62b39940b120a Author: Alan Coopersmith <alan.coopersmith@sun.com> Date: Fri Jul 14 18:56:20 2006 -0700 renamed: .cvsignore -> .gitignore commit d15dc14c2fb8996e1da9daaef748ff35f7844809 Author: Kevin E Martin <kem@kem.org> Date: Thu Dec 15 00:24:38 2005 +0000 Update package version number for final X11R7 release candidate. commit 9d625ab848eee9a7488e6ee3d4cfbeea5198f61b Author: Kevin E Martin <kem@kem.org> Date: Wed Oct 19 02:48:14 2005 +0000 Update package version number for RC1 release. commit b9a70202a5d2edc2d62cbe2776635e994f07bb2d Author: Kristian Høgsberg <krh@redhat.com> Date: Thu Sep 1 19:56:14 2005 +0000 Teach xkb how to optionally run xkbcomp from $bindir instead of $datadir/xkb. commit ac13227d0007b6fac32af6281ae2e49f5e8fa90c Author: Eric Anholt <anholt@freebsd.org> Date: Tue Aug 2 19:19:39 2005 +0000 Add basic .cvsignore files for proto modules. commit 81b6633f6509e0d8053a40cc9fe4025202991112 Author: Kevin E Martin <kem@kem.org> Date: Fri Jul 29 21:22:55 2005 +0000 Various changes preparing packages for RC0: - Verify and update package version numbers as needed - Implement versioning scheme - Change bug address to point to bugzilla bug entry form - Disable loadable i18n in libX11 by default (use --enable-loadable-i18n to reenable it) - Fix makedepend to use pkgconfig and pass distcheck - Update build script to build macros first - Update modular Xorg version commit 234e6351e159ec892c0f9878663819c32a88fabd Author: Alan Coopersmith <Alan.Coopersmith@sun.com> Date: Thu Jul 7 19:07:28 2005 +0000 More compiler warning fixes for missing prototypes: Add prototype for XkbSetExtension() Add #include <ctype.h> for isspace() & isdigit() Add #include <grp.h> (for initgroups()) and remove extra * Add prototype for xorgGetVersion() commit 4a9390f0bfc464967151b670179998d375e28d75 Author: Alan Coopersmith <Alan.Coopersmith@sun.com> Date: Sun May 22 01:12:49 2005 +0000 Bugzilla #2800 <https://bugs.freedesktop.org/show_bug.cgi?id=2800> Xevie extension crash with signal 11 on keyboard Bugzilla #1205 <https://bugs.freedesktop.org/show_bug.cgi?id=1205> Xevie client receives two KeyPress events on consumed keys when XKB is enabled Patch #2223 <https://bugs.freedesktop.org/attachment.cgi?id=2223> Fixes for both of these and some other Xevie bugs (Derek Wang - Sun Microsystems) commit 3c68899e6798045e60d3c99900ab73825a612237 Author: Daniel Stone <daniel@fooishbar.org> Date: Sat May 21 04:12:09 2005 +0000 Set version to 1.0. commit d346d81559dc1c8ca0d52c98c667a1afec40ce71 Author: Adam Jackson <ajax@nwnk.net> Date: Thu May 19 00:22:39 2005 +0000 revert last change, didn't do right thing at all, sorry for the noise commit 6882836c45e5a5e1caef49aa33b6fc1db0b48e27 Author: Adam Jackson <ajax@nwnk.net> Date: Thu May 19 00:10:18 2005 +0000 Require automake 1.7 in AM_INIT_AUTOMAKE commit d4a17c55d88d4a373fb1ade20001be80c5a956db Author: Josh Triplett <josh@speakeasy.net> Date: Mon May 16 03:53:47 2005 +0000 Add COPYING file for KB. commit 19bc22d68a990a2498934695f4d938519345a1b0 Author: Søren Sandmann Pedersen <sandmann@daimi.au.dk> Date: Mon May 9 18:20:05 2005 +0000 Change all the protonames from <extension>Ext to <extension>Proto. commit aaef7b5591cfaaa08ca1d03b113e04dd726059a1 Author: Kevin E Martin <kem@kem.org> Date: Fri May 6 01:46:31 2005 +0000 Initial build system files for proto module. commit b5bacc5786658560870cc24975d29d582e9a335c Author: Egbert Eich <eich@suse.de> Date: Fri Apr 23 18:43:06 2004 +0000 Merging XORG-CURRENT into trunk commit 50b5d3dd26018cec029d04413bc8deabb83a3845 Author: Egbert Eich <eich@suse.de> Date: Sun Mar 14 08:31:35 2004 +0000 Importing vendor version xf86-4_4_99_1 on Sun Mar 14 00:26:39 PST 2004 commit f121988370dcc8b5dbdc5b77c49e3c2fb2558fb2 Author: Egbert Eich <eich@suse.de> Date: Wed Mar 3 12:10:54 2004 +0000 Importing vendor version xf86-4_4_0 on Wed Mar 3 04:09:24 PST 2004 commit 85a3d5bced3a1907fe42bbd25b77b3d2e35b1935 Author: Egbert Eich <eich@suse.de> Date: Thu Feb 26 13:35:11 2004 +0000 readding XFree86's cvs IDs commit 27095f92dfad92436113534f850098810d067fb0 Author: Egbert Eich <eich@suse.de> Date: Thu Feb 26 09:22:27 2004 +0000 Importing vendor version xf86-4_3_99_903 on Wed Feb 26 01:21:00 PST 2004 commit 532eebc568179adf69317855e2c3c9cf305ef81c Author: Egbert Eich <eich@suse.de> Date: Thu Jan 29 08:07:56 2004 +0000 Importing vendor version xf86-012804-2330 on Thu Jan 29 00:06:33 PST 2004 commit 66aafd71e17dbaeb0ba7fa4bf72f17e57d9022e5 Author: Kaleb Keithley <kaleb@freedesktop.org> Date: Tue Nov 25 19:28:02 2003 +0000 XFree86 4.3.99.16 Bring the tree up to date for the Cygwin folks commit bae998431a7285432eb5d1f519246e41832754d0 Author: Kaleb Keithley <kaleb@freedesktop.org> Date: Fri Nov 14 16:48:42 2003 +0000 XFree86 4.3.0.1 commit 209ae2d4c9cd739e91f8c00184dc6f2f48e21100 Author: Kaleb Keithley <kaleb@freedesktop.org> Date: Fri Nov 14 15:54:35 2003 +0000 R6.6 is the Xorg base-line 30 Author: Dirk Wallenstein <halsmit@t-online.de> Date: Fri Feb 5 20:42:43 2010 +0100 Use the correct value for XkbAllAccessXEventsMask Signed-off-by: Dirk Wallenstein <halsmit@t-online.de> Signed-off-by: Alan Coopersmith <alan.coopekbproto-1.0.7/install-sh����������������������������������������������������������������������������0000755�0143106�0000012�00000034523�12520611233�0015466�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������#!/bin/sh # install - install a program, script, or datafile scriptversion=2013-12-25.23; # UTC # This originates from X11R5 (mit/util/scripts/install.sh), which was # later released in X11R6 (xc/config/util/install.sh) with the # following copyright and license. # # Copyright (C) 1994 X Consortium # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to # deal in the Software without restriction, including without limitation the # rights to use, copy, modify, merge, publish, distribute, sublicense, and/or # sell copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN # AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNEC- # TION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # Except as contained in this notice, the name of the X Consortium shall not # be used in advertising or otherwise to promote the sale, use or other deal- # ings in this Software without prior written authorization from the X Consor- # tium. # # # FSF changes to this file are in the public domain. # # Calling this script install-sh is preferred over install.sh, to prevent # 'make' implicit rules from creating a file called install from it # when there is no Makefile. # # This script is compatible with the BSD install script, but was written # from scratch. tab=' ' nl=' ' IFS=" $tab$nl" # Set DOITPROG to "echo" to test this script. doit=${DOITPROG-} doit_exec=${doit:-exec} # Put in absolute file names if you don't have them in your path; # or use environment vars. chgrpprog=${CHGRPPROG-chgrp} chmodprog=${CHMODPROG-chmod} chownprog=${CHOWNPROG-chown} cmpprog=${CMPPROG-cmp} cpprog=${CPPROG-cp} mkdirprog=${MKDIRPROG-mkdir} mvprog=${MVPROG-mv} rmprog=${RMPROG-rm} stripprog=${STRIPPROG-strip} posix_mkdir= # Desired mode of installed file. mode=0755 chgrpcmd= chmodcmd=$chmodprog chowncmd= mvcmd=$mvprog rmcmd="$rmprog -f" stripcmd= src= dst= dir_arg= dst_arg= copy_on_change=false is_target_a_directory=possibly usage="\ Usage: $0 [OPTION]... [-T] SRCFILE DSTFILE or: $0 [OPTION]... SRCFILES... DIRECTORY or: $0 [OPTION]... -t DIRECTORY SRCFILES... or: $0 [OPTION]... -d DIRECTORIES... In the 1st form, copy SRCFILE to DSTFILE. In the 2nd and 3rd, copy all SRCFILES to DIRECTORY. In the 4th, create DIRECTORIES. Options: --help display this help and exit. --version display version info and exit. -c (ignored) -C install only if different (preserve the last data modification time) -d create directories instead of installing files. -g GROUP $chgrpprog installed files to GROUP. -m MODE $chmodprog installed files to MODE. -o USER $chownprog installed files to USER. -s $stripprog installed files. -t DIRECTORY install into DIRECTORY. -T report an error if DSTFILE is a directory. Environment variables override the default commands: CHGRPPROG CHMODPROG CHOWNPROG CMPPROG CPPROG MKDIRPROG MVPROG RMPROG STRIPPROG " while test $# -ne 0; do case $1 in -c) ;; -C) copy_on_change=true;; -d) dir_arg=true;; -g) chgrpcmd="$chgrpprog $2" shift;; --help) echo "$usage"; exit $?;; -m) mode=$2 case $mode in *' '* | *"$tab"* | *"$nl"* | *'*'* | *'?'* | *'['*) echo "$0: invalid mode: $mode" >&2 exit 1;; esac shift;; -o) chowncmd="$chownprog $2" shift;; -s) stripcmd=$stripprog;; -t) is_target_a_directory=always dst_arg=$2 # Protect names problematic for 'test' and other utilities. case $dst_arg in -* | [=\(\)!]) dst_arg=./$dst_arg;; esac shift;; -T) is_target_a_directory=never;; --version) echo "$0 $scriptversion"; exit $?;; --) shift break;; -*) echo "$0: invalid option: $1" >&2 exit 1;; *) break;; esac shift done # We allow the use of options -d and -T together, by making -d # take the precedence; this is for compatibility with GNU install. if test -n "$dir_arg"; then if test -n "$dst_arg"; then echo "$0: target directory not allowed when installing a directory." >&2 exit 1 fi fi if test $# -ne 0 && test -z "$dir_arg$dst_arg"; then # When -d is used, all remaining arguments are directories to create. # When -t is used, the destination is already specified. # Otherwise, the last argument is the destination. 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(umask $mkdir_umask && eval "\$doit_exec \$mkdirprog $prefixes") || test -d "$dstdir" || exit 1 obsolete_mkdir_used=true fi fi fi if test -n "$dir_arg"; then { test -z "$chowncmd" || $doit $chowncmd "$dst"; } && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dst"; } && { test "$obsolete_mkdir_used$chowncmd$chgrpcmd" = false || test -z "$chmodcmd" || $doit $chmodcmd $mode "$dst"; } || exit 1 else # Make a couple of temp file names in the proper directory. dsttmp=$dstdir/_inst.$$_ rmtmp=$dstdir/_rm.$$_ # Trap to clean up those temp files at exit. trap 'ret=$?; rm -f "$dsttmp" "$rmtmp" && exit $ret' 0 # Copy the file name to the temp name. (umask $cp_umask && $doit_exec $cpprog "$src" "$dsttmp") && # and set any options; do chmod last to preserve setuid bits. # # If any of these fail, we abort the whole thing. If we want to # ignore errors from any of these, just make sure not to ignore # errors from the above "$doit $cpprog $src $dsttmp" command. # { test -z "$chowncmd" || $doit $chowncmd "$dsttmp"; } && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dsttmp"; } && { test -z "$stripcmd" || $doit $stripcmd "$dsttmp"; } && { test -z "$chmodcmd" || $doit $chmodcmd $mode "$dsttmp"; } && # If -C, don't bother to copy if it wouldn't change the file. if $copy_on_change && old=`LC_ALL=C ls -dlL "$dst" 2>/dev/null` && new=`LC_ALL=C ls -dlL "$dsttmp" 2>/dev/null` && set -f && set X $old && old=:$2:$4:$5:$6 && set X $new && new=:$2:$4:$5:$6 && set +f && test "$old" = "$new" && $cmpprog "$dst" "$dsttmp" >/dev/null 2>&1 then rm -f "$dsttmp" else # Rename the file to the real destination. $doit $mvcmd -f "$dsttmp" "$dst" 2>/dev/null || # The rename failed, perhaps because mv can't rename something else # to itself, or perhaps because mv is so ancient that it does not # support -f. { # Now remove or move aside any old file at destination location. # We try this two ways since rm can't unlink itself on some # systems and the destination file might be busy for other # reasons. In this case, the final cleanup might fail but the new # file should still install successfully. { test ! -f "$dst" || $doit $rmcmd -f "$dst" 2>/dev/null || { $doit $mvcmd -f "$dst" "$rmtmp" 2>/dev/null && { $doit $rmcmd -f "$rmtmp" 2>/dev/null; :; } } || { echo "$0: cannot unlink or rename $dst" >&2 (exit 1); exit 1 } } && # Now rename the file to the real destination. $doit $mvcmd "$dsttmp" "$dst" } fi || exit 1 trap '' 0 fi done # Local variables: # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "scriptversion=" # time-stamp-format: "%:y-%02m-%02d.%02H" # time-stamp-time-zone: "UTC" # time-stamp-end: "; # UTC" # End: -*) echo "$0: invalid option: $1" >&2 exit 1;; *) break;; esac shift done # We allow the use of options -d and -T together, by making -d # take the precekbproto-1.0.7/XKBproto.h����������������������������������������������������������������������������0000644�0143106�0000012�00000074252�12520611225�0015347�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������/************************************************************ Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #ifndef _XKBPROTO_H_ #define _XKBPROTO_H_ #include <X11/Xmd.h> #include <X11/extensions/XKB.h> #define Window CARD32 #define Atom CARD32 #define Time CARD32 #define KeyCode CARD8 #define KeySym CARD32 #define XkbPaddedSize(n) ((((unsigned int)(n)+3) >> 2) << 2) typedef struct _xkbUseExtension { CARD8 reqType; CARD8 xkbReqType; /* always X_KBUseExtension */ CARD16 length B16; CARD16 wantedMajor B16; CARD16 wantedMinor B16; } xkbUseExtensionReq; #define sz_xkbUseExtensionReq 8 typedef struct _xkbUseExtensionReply { BYTE type; /* X_Reply */ BOOL supported; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 serverMajor B16; CARD16 serverMinor B16; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xkbUseExtensionReply; #define sz_xkbUseExtensionReply 32 typedef struct _xkbSelectEvents { CARD8 reqType; CARD8 xkbReqType; /* X_KBSelectEvents */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 affectWhich B16; CARD16 clear B16; CARD16 selectAll B16; CARD16 affectMap B16; CARD16 map B16; } xkbSelectEventsReq; #define sz_xkbSelectEventsReq 16 typedef struct _xkbBell { CARD8 reqType; CARD8 xkbReqType; /* X_KBBell */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 bellClass B16; CARD16 bellID B16; INT8 percent; BOOL forceSound; BOOL eventOnly; CARD8 pad1; INT16 pitch B16; INT16 duration B16; CARD16 pad2 B16; Atom name B32; Window window B32; } xkbBellReq; #define sz_xkbBellReq 28 typedef struct _xkbGetState { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetState */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad B16; } xkbGetStateReq; #define sz_xkbGetStateReq 8 typedef struct _xkbGetStateReply { BYTE type; BYTE deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD8 mods; CARD8 baseMods; CARD8 latchedMods; CARD8 lockedMods; CARD8 group; CARD8 lockedGroup; INT16 baseGroup B16; INT16 latchedGroup B16; CARD8 compatState; CARD8 grabMods; CARD8 compatGrabMods; CARD8 lookupMods; CARD8 compatLookupMods; CARD8 pad1; CARD16 ptrBtnState B16; CARD16 pad2 B16; CARD32 pad3 B32; } xkbGetStateReply; #define sz_xkbGetStateReply 32 typedef struct _xkbLatchLockState { CARD8 reqType; CARD8 xkbReqType; /* always X_KBLatchLockState */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 affectModLocks; CARD8 modLocks; BOOL lockGroup; CARD8 groupLock; CARD8 affectModLatches; CARD8 modLatches; CARD8 pad; BOOL latchGroup; INT16 groupLatch B16; } xkbLatchLockStateReq; #define sz_xkbLatchLockStateReq 16 typedef struct _xkbGetControls { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetControls */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad B16; } xkbGetControlsReq; #define sz_xkbGetControlsReq 8 typedef struct _xkbGetControlsReply { BYTE type; /* X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD8 mkDfltBtn; CARD8 numGroups; CARD8 groupsWrap; CARD8 internalMods; CARD8 ignoreLockMods; CARD8 internalRealMods; CARD8 ignoreLockRealMods; CARD8 pad1; CARD16 internalVMods B16; CARD16 ignoreLockVMods B16; CARD16 repeatDelay B16; CARD16 repeatInterval B16; CARD16 slowKeysDelay B16; CARD16 debounceDelay B16; CARD16 mkDelay B16; CARD16 mkInterval B16; CARD16 mkTimeToMax B16; CARD16 mkMaxSpeed B16; INT16 mkCurve B16; CARD16 axOptions B16; CARD16 axTimeout B16; CARD16 axtOptsMask B16; CARD16 axtOptsValues B16; CARD16 pad2 B16; CARD32 axtCtrlsMask B32; CARD32 axtCtrlsValues B32; CARD32 enabledCtrls B32; BYTE perKeyRepeat[XkbPerKeyBitArraySize]; } xkbGetControlsReply; #define sz_xkbGetControlsReply 92 typedef struct _xkbSetControls { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetControls */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 affectInternalMods; CARD8 internalMods; CARD8 affectIgnoreLockMods; CARD8 ignoreLockMods; CARD16 affectInternalVMods B16; CARD16 internalVMods B16; CARD16 affectIgnoreLockVMods B16; CARD16 ignoreLockVMods B16; CARD8 mkDfltBtn; CARD8 groupsWrap; CARD16 axOptions B16; CARD16 pad1 B16; CARD32 affectEnabledCtrls B32; CARD32 enabledCtrls B32; CARD32 changeCtrls B32; CARD16 repeatDelay B16; CARD16 repeatInterval B16; CARD16 slowKeysDelay B16; CARD16 debounceDelay B16; CARD16 mkDelay B16; CARD16 mkInterval B16; CARD16 mkTimeToMax B16; CARD16 mkMaxSpeed B16; INT16 mkCurve B16; CARD16 axTimeout B16; CARD32 axtCtrlsMask B32; CARD32 axtCtrlsValues B32; CARD16 axtOptsMask B16; CARD16 axtOptsValues B16; BYTE perKeyRepeat[XkbPerKeyBitArraySize]; } xkbSetControlsReq; #define sz_xkbSetControlsReq 100 typedef struct _xkbKTMapEntryWireDesc { BOOL active; CARD8 mask; CARD8 level; CARD8 realMods; CARD16 virtualMods B16; CARD16 pad B16; } xkbKTMapEntryWireDesc; #define sz_xkbKTMapEntryWireDesc 8 typedef struct _xkbKTSetMapEntryWireDesc { CARD8 level; CARD8 realMods; CARD16 virtualMods B16; } xkbKTSetMapEntryWireDesc; #define sz_xkbKTSetMapEntryWireDesc 4 typedef struct _xkbModsWireDesc { CARD8 mask; /* GetMap only */ CARD8 realMods; CARD16 virtualMods B16; } xkbModsWireDesc; #define sz_xkbModsWireDesc 4 typedef struct _xkbKeyTypeWireDesc { CARD8 mask; CARD8 realMods; CARD16 virtualMods B16; CARD8 numLevels; CARD8 nMapEntries; BOOL preserve; CARD8 pad; } xkbKeyTypeWireDesc; #define sz_xkbKeyTypeWireDesc 8 typedef struct _xkbSymMapWireDesc { CARD8 ktIndex[XkbNumKbdGroups]; CARD8 groupInfo; CARD8 width; CARD16 nSyms B16; } xkbSymMapWireDesc; #define sz_xkbSymMapWireDesc 8 typedef struct _xkbVModMapWireDesc { KeyCode key; CARD8 pad; CARD16 vmods B16; } xkbVModMapWireDesc; #define sz_xkbVModMapWireDesc 4 typedef struct _xkbBehaviorWireDesc { CARD8 key; CARD8 type; CARD8 data; CARD8 pad; } xkbBehaviorWireDesc; #define sz_xkbBehaviorWireDesc 4 typedef struct _xkbActionWireDesc { CARD8 type; CARD8 data[7]; } xkbActionWireDesc; #define sz_xkbActionWireDesc 8 typedef struct _xkbGetMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 full B16; CARD16 partial B16; CARD8 firstType; CARD8 nTypes; KeyCode firstKeySym; CARD8 nKeySyms; KeyCode firstKeyAct; CARD8 nKeyActs; KeyCode firstKeyBehavior; CARD8 nKeyBehaviors; CARD16 virtualMods B16; KeyCode firstKeyExplicit; CARD8 nKeyExplicit; KeyCode firstModMapKey; CARD8 nModMapKeys; KeyCode firstVModMapKey; CARD8 nVModMapKeys; CARD16 pad1 B16; } xkbGetMapReq; #define sz_xkbGetMapReq 28 typedef struct _xkbGetMapReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 pad1 B16; KeyCode minKeyCode; KeyCode maxKeyCode; CARD16 present B16; CARD8 firstType; CARD8 nTypes; CARD8 totalTypes; KeyCode firstKeySym; CARD16 totalSyms B16; CARD8 nKeySyms; KeyCode firstKeyAct; CARD16 totalActs B16; CARD8 nKeyActs; KeyCode firstKeyBehavior; CARD8 nKeyBehaviors; CARD8 totalKeyBehaviors; KeyCode firstKeyExplicit; CARD8 nKeyExplicit; CARD8 totalKeyExplicit; KeyCode firstModMapKey; CARD8 nModMapKeys; CARD8 totalModMapKeys; KeyCode firstVModMapKey; CARD8 nVModMapKeys; CARD8 totalVModMapKeys; CARD8 pad2; CARD16 virtualMods B16; } xkbGetMapReply; #define sz_xkbGetMapReply 40 #define XkbSetMapResizeTypes (1L<<0) #define XkbSetMapRecomputeActions (1L<<1) #define XkbSetMapAllFlags (0x3) typedef struct _xkbSetMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 present B16; CARD16 flags B16; KeyCode minKeyCode; KeyCode maxKeyCode; CARD8 firstType; CARD8 nTypes; KeyCode firstKeySym; CARD8 nKeySyms; CARD16 totalSyms B16; KeyCode firstKeyAct; CARD8 nKeyActs; CARD16 totalActs B16; KeyCode firstKeyBehavior; CARD8 nKeyBehaviors; CARD8 totalKeyBehaviors; KeyCode firstKeyExplicit; CARD8 nKeyExplicit; CARD8 totalKeyExplicit; KeyCode firstModMapKey; CARD8 nModMapKeys; CARD8 totalModMapKeys; KeyCode firstVModMapKey; CARD8 nVModMapKeys; CARD8 totalVModMapKeys; CARD16 virtualMods B16; } xkbSetMapReq; #define sz_xkbSetMapReq 36 typedef struct _xkbSymInterpretWireDesc { CARD32 sym B32; CARD8 mods; CARD8 match; CARD8 virtualMod; CARD8 flags; xkbActionWireDesc act; } xkbSymInterpretWireDesc; #define sz_xkbSymInterpretWireDesc 16 typedef struct _xkbGetCompatMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetCompatMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 groups; BOOL getAllSI; CARD16 firstSI B16; CARD16 nSI B16; } xkbGetCompatMapReq; #define sz_xkbGetCompatMapReq 12 typedef struct _xkbGetCompatMapReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD8 groups; CARD8 pad1; CARD16 firstSI B16; CARD16 nSI B16; CARD16 nTotalSI B16; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xkbGetCompatMapReply; #define sz_xkbGetCompatMapReply 32 typedef struct _xkbSetCompatMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetCompatMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 pad1; BOOL recomputeActions; BOOL truncateSI; CARD8 groups; CARD16 firstSI B16; CARD16 nSI B16; CARD16 pad2 B16; } xkbSetCompatMapReq; #define sz_xkbSetCompatMapReq 16 typedef struct _xkbGetIndicatorState { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetIndicatorState */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad1 B16; } xkbGetIndicatorStateReq; #define sz_xkbGetIndicatorStateReq 8 typedef struct _xkbGetIndicatorStateReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 state B32; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xkbGetIndicatorStateReply; #define sz_xkbGetIndicatorStateReply 32 typedef struct _xkbGetIndicatorMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetIndicatorMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad B16; CARD32 which B32; } xkbGetIndicatorMapReq; #define sz_xkbGetIndicatorMapReq 12 typedef struct _xkbGetIndicatorMapReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 which B32; CARD32 realIndicators B32; CARD8 nIndicators; CARD8 pad1; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xkbGetIndicatorMapReply; #define sz_xkbGetIndicatorMapReply 32 typedef struct _xkbIndicatorMapWireDesc { CARD8 flags; CARD8 whichGroups; CARD8 groups; CARD8 whichMods; CARD8 mods; CARD8 realMods; CARD16 virtualMods B16; CARD32 ctrls B32; } xkbIndicatorMapWireDesc; #define sz_xkbIndicatorMapWireDesc 12 typedef struct _xkbSetIndicatorMap { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetIndicatorMap */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad1 B16; CARD32 which B32; } xkbSetIndicatorMapReq; #define sz_xkbSetIndicatorMapReq 12 typedef struct _xkbGetNamedIndicator { CARD8 reqType; CARD8 xkbReqType; /* X_KBGetNamedIndicator */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 ledClass B16; CARD16 ledID B16; CARD16 pad1 B16; Atom indicator B32; } xkbGetNamedIndicatorReq; #define sz_xkbGetNamedIndicatorReq 16 typedef struct _xkbGetNamedIndicatorReply { BYTE type; BYTE deviceID; CARD16 sequenceNumber B16; CARD32 length B32; Atom indicator B32; BOOL found; BOOL on; BOOL realIndicator; CARD8 ndx; CARD8 flags; CARD8 whichGroups; CARD8 groups; CARD8 whichMods; CARD8 mods; CARD8 realMods; CARD16 virtualMods B16; CARD32 ctrls B32; BOOL supported; CARD8 pad1; CARD16 pad2 B16; } xkbGetNamedIndicatorReply; #define sz_xkbGetNamedIndicatorReply 32 typedef struct _xkbSetNamedIndicator { CARD8 reqType; CARD8 xkbReqType; /* X_KBSetNamedIndicator */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 ledClass B16; CARD16 ledID B16; CARD16 pad1 B16; Atom indicator B32; BOOL setState; BOOL on; BOOL setMap; BOOL createMap; CARD8 pad2; CARD8 flags; CARD8 whichGroups; CARD8 groups; CARD8 whichMods; CARD8 realMods; CARD16 virtualMods B16; CARD32 ctrls B32; } xkbSetNamedIndicatorReq; #define sz_xkbSetNamedIndicatorReq 32 typedef struct _xkbGetNames { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetNames */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad B16; CARD32 which B32; } xkbGetNamesReq; #define sz_xkbGetNamesReq 12 typedef struct _xkbGetNamesReply { BYTE type; BYTE deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 which B32; KeyCode minKeyCode; KeyCode maxKeyCode; CARD8 nTypes; CARD8 groupNames; CARD16 virtualMods B16; KeyCode firstKey; CARD8 nKeys; CARD32 indicators B32; CARD8 nRadioGroups; CARD8 nKeyAliases; CARD16 nKTLevels B16; CARD32 pad3 B32; } xkbGetNamesReply; #define sz_xkbGetNamesReply 32 typedef struct _xkbSetNames { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetNames */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 virtualMods B16; CARD32 which B32; CARD8 firstType; CARD8 nTypes; CARD8 firstKTLevel; CARD8 nKTLevels; CARD32 indicators B32; CARD8 groupNames; CARD8 nRadioGroups; KeyCode firstKey; CARD8 nKeys; CARD8 nKeyAliases; CARD8 pad1; CARD16 totalKTLevelNames B16; } xkbSetNamesReq; #define sz_xkbSetNamesReq 28 typedef struct _xkbPointWireDesc { INT16 x B16; INT16 y B16; } xkbPointWireDesc; #define sz_xkbPointWireDesc 4 typedef struct _xkbOutlineWireDesc { CARD8 nPoints; CARD8 cornerRadius; CARD16 pad B16; } xkbOutlineWireDesc; #define sz_xkbOutlineWireDesc 4 typedef struct _xkbShapeWireDesc { Atom name B32; CARD8 nOutlines; CARD8 primaryNdx; CARD8 approxNdx; CARD8 pad; } xkbShapeWireDesc; #define sz_xkbShapeWireDesc 8 typedef struct _xkbSectionWireDesc { Atom name B32; INT16 top B16; INT16 left B16; CARD16 width B16; CARD16 height B16; INT16 angle B16; CARD8 priority; CARD8 nRows; CARD8 nDoodads; CARD8 nOverlays; CARD16 pad B16; } xkbSectionWireDesc; #define sz_xkbSectionWireDesc 20 typedef struct _xkbRowWireDesc { INT16 top B16; INT16 left B16; CARD8 nKeys; BOOL vertical; CARD16 pad B16; } xkbRowWireDesc; #define sz_xkbRowWireDesc 8 typedef struct _xkbKeyWireDesc { CARD8 name[XkbKeyNameLength]; INT16 gap B16; CARD8 shapeNdx; CARD8 colorNdx; } xkbKeyWireDesc; #define sz_xkbKeyWireDesc 8 typedef struct _xkbOverlayWireDesc { Atom name B32; CARD8 nRows; CARD8 pad1; CARD16 pad2 B16; } xkbOverlayWireDesc; #define sz_xkbOverlayWireDesc 8 typedef struct _xkbOverlayRowWireDesc { CARD8 rowUnder; CARD8 nKeys; CARD16 pad1 B16; } xkbOverlayRowWireDesc; #define sz_xkbOverlayRowWireDesc 4 typedef struct _xkbOverlayKeyWireDesc { CARD8 over[XkbKeyNameLength]; CARD8 under[XkbKeyNameLength]; } xkbOverlayKeyWireDesc; #define sz_xkbOverlayKeyWireDesc 8 typedef struct _xkbShapeDoodadWireDesc { Atom name B32; CARD8 type; CARD8 priority; INT16 top B16; INT16 left B16; INT16 angle B16; CARD8 colorNdx; CARD8 shapeNdx; CARD16 pad1 B16; CARD32 pad2 B32; } xkbShapeDoodadWireDesc; #define sz_xkbShapeDoodadWireDesc 20 typedef struct _xkbTextDoodadWireDesc { Atom name B32; CARD8 type; CARD8 priority; INT16 top B16; INT16 left B16; INT16 angle B16; CARD16 width B16; CARD16 height B16; CARD8 colorNdx; CARD8 pad1; CARD16 pad2 B16; } xkbTextDoodadWireDesc; #define sz_xkbTextDoodadWireDesc 20 typedef struct _xkbIndicatorDoodadWireDesc { Atom name B32; CARD8 type; CARD8 priority; INT16 top B16; INT16 left B16; INT16 angle B16; CARD8 shapeNdx; CARD8 onColorNdx; CARD8 offColorNdx; CARD8 pad1; CARD32 pad2 B32; } xkbIndicatorDoodadWireDesc; #define sz_xkbIndicatorDoodadWireDesc 20 typedef struct _xkbLogoDoodadWireDesc { Atom name B32; CARD8 type; CARD8 priority; INT16 top B16; INT16 left B16; INT16 angle B16; CARD8 colorNdx; CARD8 shapeNdx; CARD16 pad1 B16; CARD32 pad2 B32; } xkbLogoDoodadWireDesc; #define sz_xkbLogoDoodadWireDesc 20 typedef struct _xkbAnyDoodadWireDesc { Atom name B32; CARD8 type; CARD8 priority; INT16 top B16; INT16 left B16; INT16 angle B16; CARD32 pad2 B32; CARD32 pad3 B32; } xkbAnyDoodadWireDesc; #define sz_xkbAnyDoodadWireDesc 20 typedef union _xkbDoodadWireDesc { xkbAnyDoodadWireDesc any; xkbShapeDoodadWireDesc shape; xkbTextDoodadWireDesc text; xkbIndicatorDoodadWireDesc indicator; xkbLogoDoodadWireDesc logo; } xkbDoodadWireDesc; #define sz_xkbDoodadWireDesc 20 typedef struct _xkbGetGeometry { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetGeometry */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad B16; Atom name B32; } xkbGetGeometryReq; #define sz_xkbGetGeometryReq 12 typedef struct _xkbGetGeometryReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; Atom name B32; BOOL found; CARD8 pad; CARD16 widthMM B16; CARD16 heightMM B16; CARD16 nProperties B16; CARD16 nColors B16; CARD16 nShapes B16; CARD16 nSections B16; CARD16 nDoodads B16; CARD16 nKeyAliases B16; CARD8 baseColorNdx; CARD8 labelColorNdx; } xkbGetGeometryReply; #define sz_xkbGetGeometryReply 32 typedef struct _xkbSetGeometry { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetGeometry */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 nShapes; CARD8 nSections; Atom name B32; CARD16 widthMM B16; CARD16 heightMM B16; CARD16 nProperties B16; CARD16 nColors B16; CARD16 nDoodads B16; CARD16 nKeyAliases B16; CARD8 baseColorNdx; CARD8 labelColorNdx; CARD16 pad B16; } xkbSetGeometryReq; #define sz_xkbSetGeometryReq 28 typedef struct _xkbPerClientFlags { CARD8 reqType; CARD8 xkbReqType;/* always X_KBPerClientFlags */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 pad1 B16; CARD32 change B32; CARD32 value B32; CARD32 ctrlsToChange B32; CARD32 autoCtrls B32; CARD32 autoCtrlValues B32; } xkbPerClientFlagsReq; #define sz_xkbPerClientFlagsReq 28 typedef struct _xkbPerClientFlagsReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 supported B32; CARD32 value B32; CARD32 autoCtrls B32; CARD32 autoCtrlValues B32; CARD32 pad1 B32; CARD32 pad2 B32; } xkbPerClientFlagsReply; #define sz_xkbPerClientFlagsReply 32 typedef struct _xkbListComponents { CARD8 reqType; CARD8 xkbReqType; /* always X_KBListComponents */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 maxNames B16; } xkbListComponentsReq; #define sz_xkbListComponentsReq 8 typedef struct _xkbListComponentsReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 nKeymaps B16; CARD16 nKeycodes B16; CARD16 nTypes B16; CARD16 nCompatMaps B16; CARD16 nSymbols B16; CARD16 nGeometries B16; CARD16 extra B16; CARD16 pad1 B16; CARD32 pad2 B32; CARD32 pad3 B32; } xkbListComponentsReply; #define sz_xkbListComponentsReply 32 typedef struct _xkbGetKbdByName { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetKbdByName */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 need B16; /* combination of XkbGBN_* */ CARD16 want B16; /* combination of XkbGBN_* */ BOOL load; CARD8 pad; } xkbGetKbdByNameReq; #define sz_xkbGetKbdByNameReq 12 typedef struct _xkbGetKbdByNameReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; KeyCode minKeyCode; KeyCode maxKeyCode; BOOL loaded; BOOL newKeyboard; CARD16 found B16; /* combination of XkbGBN_* */ CARD16 reported B16; /* combination of XkbAllComponents */ CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; } xkbGetKbdByNameReply; #define sz_xkbGetKbdByNameReply 32 typedef struct _xkbDeviceLedsWireDesc { CARD16 ledClass B16; CARD16 ledID B16; CARD32 namesPresent B32; CARD32 mapsPresent B32; CARD32 physIndicators B32; CARD32 state B32; } xkbDeviceLedsWireDesc; #define sz_xkbDeviceLedsWireDesc 20 typedef struct _xkbGetDeviceInfo { CARD8 reqType; CARD8 xkbReqType; /* always X_KBGetDeviceInfo */ CARD16 length B16; CARD16 deviceSpec B16; CARD16 wanted B16; BOOL allBtns; CARD8 firstBtn; CARD8 nBtns; CARD8 pad; CARD16 ledClass B16; CARD16 ledID B16; } xkbGetDeviceInfoReq; #define sz_xkbGetDeviceInfoReq 16 typedef struct _xkbGetDeviceInfoReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARD16 present B16; CARD16 supported B16; CARD16 unsupported B16; CARD16 nDeviceLedFBs B16; CARD8 firstBtnWanted; CARD8 nBtnsWanted; CARD8 firstBtnRtrn; CARD8 nBtnsRtrn; CARD8 totalBtns; BOOL hasOwnState; CARD16 dfltKbdFB B16; CARD16 dfltLedFB B16; CARD16 pad B16; Atom devType B32; } xkbGetDeviceInfoReply; #define sz_xkbGetDeviceInfoReply 32 typedef struct _xkbSetDeviceInfo { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetDeviceInfo */ CARD16 length B16; CARD16 deviceSpec B16; CARD8 firstBtn; CARD8 nBtns; CARD16 change B16; CARD16 nDeviceLedFBs B16; } xkbSetDeviceInfoReq; #define sz_xkbSetDeviceInfoReq 12 typedef struct _xkbSetDebuggingFlags { CARD8 reqType; CARD8 xkbReqType; /* always X_KBSetDebuggingFlags */ CARD16 length B16; CARD16 msgLength B16; CARD16 pad B16; CARD32 affectFlags B32; CARD32 flags B32; CARD32 affectCtrls B32; CARD32 ctrls B32; } xkbSetDebuggingFlagsReq; #define sz_xkbSetDebuggingFlagsReq 24 typedef struct _xkbSetDebuggingFlagsReply { BYTE type; /* X_Reply */ CARD8 pad0; CARD16 sequenceNumber B16; CARD32 length B32; CARD32 currentFlags B32; CARD32 currentCtrls B32; CARD32 supportedFlags B32; CARD32 supportedCtrls B32; CARD32 pad1 B32; CARD32 pad2 B32; } xkbSetDebuggingFlagsReply; #define sz_xkbSetDebuggingFlagsReply 32 /* * X KEYBOARD EXTENSION EVENT STRUCTURES */ typedef struct _xkbAnyEvent { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 pad1; CARD16 pad2 B16; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; CARD32 pad6 B32; CARD32 pad7 B32; } xkbAnyEvent; #define sz_xkbAnyEvent 32 typedef struct _xkbNewKeyboardNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 oldDeviceID; KeyCode minKeyCode; KeyCode maxKeyCode; KeyCode oldMinKeyCode; KeyCode oldMaxKeyCode; CARD8 requestMajor; CARD8 requestMinor; CARD16 changed B16; CARD8 detail; CARD8 pad1; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; } xkbNewKeyboardNotify; #define sz_xkbNewKeyboardNotify 32 typedef struct _xkbMapNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 ptrBtnActions; CARD16 changed B16; KeyCode minKeyCode; KeyCode maxKeyCode; CARD8 firstType; CARD8 nTypes; KeyCode firstKeySym; CARD8 nKeySyms; KeyCode firstKeyAct; CARD8 nKeyActs; KeyCode firstKeyBehavior; CARD8 nKeyBehaviors; KeyCode firstKeyExplicit; CARD8 nKeyExplicit; KeyCode firstModMapKey; CARD8 nModMapKeys; KeyCode firstVModMapKey; CARD8 nVModMapKeys; CARD16 virtualMods B16; CARD16 pad1 B16; } xkbMapNotify; #define sz_xkbMapNotify 32 typedef struct _xkbStateNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 mods; CARD8 baseMods; CARD8 latchedMods; CARD8 lockedMods; CARD8 group; INT16 baseGroup B16; INT16 latchedGroup B16; CARD8 lockedGroup; CARD8 compatState; CARD8 grabMods; CARD8 compatGrabMods; CARD8 lookupMods; CARD8 compatLookupMods; CARD16 ptrBtnState B16; CARD16 changed B16; KeyCode keycode; CARD8 eventType; CARD8 requestMajor; CARD8 requestMinor; } xkbStateNotify; #define sz_xkbStateNotify 32 typedef struct _xkbControlsNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 numGroups; CARD16 pad1 B16; CARD32 changedControls B32; CARD32 enabledControls B32; CARD32 enabledControlChanges B32; KeyCode keycode; CARD8 eventType; CARD8 requestMajor; CARD8 requestMinor; CARD32 pad2 B32; } xkbControlsNotify; #define sz_xkbControlsNotify 32 typedef struct _xkbIndicatorNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 pad1; CARD16 pad2 B16; CARD32 state B32; CARD32 changed B32; CARD32 pad3 B32; CARD32 pad4 B32; CARD32 pad5 B32; } xkbIndicatorNotify; #define sz_xkbIndicatorNotify 32 typedef struct _xkbNamesNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 pad1; CARD16 changed B16; CARD8 firstType; CARD8 nTypes; CARD8 firstLevelName; CARD8 nLevelNames; CARD8 pad2; CARD8 nRadioGroups; CARD8 nAliases; CARD8 changedGroupNames; CARD16 changedVirtualMods B16; CARD8 firstKey; CARD8 nKeys; CARD32 changedIndicators B32; CARD32 pad3 B32; } xkbNamesNotify; #define sz_xkbNamesNotify 32 typedef struct _xkbCompatMapNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 changedGroups; CARD16 firstSI B16; CARD16 nSI B16; CARD16 nTotalSI B16; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; } xkbCompatMapNotify; #define sz_xkbCompatMapNotify 32 typedef struct _xkbBellNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 bellClass; CARD8 bellID; CARD8 percent; CARD16 pitch B16; CARD16 duration B16; Atom name B32; Window window B32; BOOL eventOnly; CARD8 pad1; CARD16 pad2 B16; CARD32 pad3 B32; } xkbBellNotify; #define sz_xkbBellNotify 32 typedef struct _xkbActionMessage { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; KeyCode keycode; BOOL press; BOOL keyEventFollows; CARD8 mods; CARD8 group; CARD8 message[8]; CARD16 pad1 B16; CARD32 pad2 B32; CARD32 pad3 B32; } xkbActionMessage; #define sz_xkbActionMessage 32 typedef struct _xkbAccessXNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; KeyCode keycode; CARD16 detail B16; CARD16 slowKeysDelay B16; CARD16 debounceDelay B16; CARD32 pad1 B32; CARD32 pad2 B32; CARD32 pad3 B32; CARD32 pad4 B32; } xkbAccessXNotify; #define sz_xkbAccessXNotify 32 typedef struct _xkbExtensionDeviceNotify { BYTE type; BYTE xkbType; CARD16 sequenceNumber B16; Time time B32; CARD8 deviceID; CARD8 pad1; CARD16 reason B16; CARD16 ledClass B16; CARD16 ledID B16; CARD32 ledsDefined B32; CARD32 ledState B32; CARD8 firstBtn; CARD8 nBtns; CARD16 supported B16; CARD16 unsupported B16; CARD16 pad3 B16; } xkbExtensionDeviceNotify; #define sz_xkbExtensionDeviceNotify 32 typedef struct _xkbEvent { union { xkbAnyEvent any; xkbNewKeyboardNotify new_kbd; xkbMapNotify map; xkbStateNotify state; xkbControlsNotify ctrls; xkbIndicatorNotify indicators; xkbNamesNotify names; xkbCompatMapNotify compat; xkbBellNotify bell; xkbActionMessage message; xkbAccessXNotify accessx; xkbExtensionDeviceNotify device; } u; } xkbEvent; #define sz_xkbEvent 32 #undef Window #undef Atom #undef Time #undef KeyCode #undef KeySym #endif /* _XKBPROTO_H_ */ change B32; CARD32 value B32; CARD32 ctrlsToChange B32; CARD32 autoCtrls B32; CARD32 autoCtrlValues B32; } xkbPerClientFlagsReq; #define sz_xkbPerClientFlagsReq 28 typedef struct _xkbPerClientFlagsReply { CARD8 type; /* always X_Reply */ CARD8 deviceID; CARD16 sequenceNumber B16; CARD32 length B32; CARkbproto-1.0.7/docbook.am����������������������������������������������������������������������������0000644�0143106�0000012�00000006231�12520611225�0015415�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������# # Generate output formats for a single DocBook/XML with/without chapters # # Variables set by the calling Makefile: # shelfdir: the location where the docs/specs are installed. Typically $(docdir) # docbook: the main DocBook/XML file, no chapters, appendix or image files # chapters: all files pulled in by an XInclude statement and images. # # # This makefile is intended for Users Documentation and Functional Specifications. # Do not use for Developer Documentation which is not installed and does not require olink. # Refer to http://www.x.org/releases/X11R7.6/doc/xorg-docs/ReleaseNotes.html#id2584393 # for an explanation on documents classification. # # DocBook/XML generated output formats to be installed shelf_DATA = # DocBook/XML file with chapters, appendix and images it includes dist_shelf_DATA = $(docbook) $(chapters) if HAVE_XMLTO if HAVE_STYLESHEETS XMLTO_SEARCHPATH_FLAGS = \ --searchpath "$(XORG_SGML_PATH)/X11" \ --searchpath "$(abs_top_builddir)" XMLTO_HTML_OLINK_FLAGS = \ --stringparam target.database.document=$(XORG_SGML_PATH)/X11/dbs/masterdb.html.xml \ --stringparam current.docid="$(<:.xml=)" XMLTO_HTML_STYLESHEET_FLAGS = -x $(STYLESHEET_SRCDIR)/xorg-xhtml.xsl XMLTO_HTML_FLAGS = \ $(XMLTO_SEARCHPATH_FLAGS) \ $(XMLTO_HTML_STYLESHEET_FLAGS) \ $(XMLTO_HTML_OLINK_FLAGS) shelf_DATA += $(docbook:.xml=.html) %.html: %.xml $(chapters) $(AM_V_GEN)$(XMLTO) $(XMLTO_HTML_FLAGS) xhtml-nochunks $< if HAVE_XMLTO_TEXT shelf_DATA += $(docbook:.xml=.txt) %.txt: %.xml $(chapters) $(AM_V_GEN)$(XMLTO) $(XMLTO_HTML_FLAGS) txt $< endif HAVE_XMLTO_TEXT if HAVE_FOP XMLTO_FO_IMAGEPATH_FLAGS = --stringparam img.src.path=$(abs_builddir)/ XMLTO_PDF_OLINK_FLAGS = \ --stringparam target.database.document=$(XORG_SGML_PATH)/X11/dbs/masterdb.pdf.xml \ --stringparam current.docid="$(<:.xml=)" XMLTO_FO_STYLESHEET_FLAGS = -x $(STYLESHEET_SRCDIR)/xorg-fo.xsl XMLTO_FO_FLAGS = \ $(XMLTO_SEARCHPATH_FLAGS) \ $(XMLTO_FO_STYLESHEET_FLAGS) \ $(XMLTO_FO_IMAGEPATH_FLAGS) \ $(XMLTO_PDF_OLINK_FLAGS) shelf_DATA += $(docbook:.xml=.pdf) %.pdf: %.xml $(chapters) $(AM_V_GEN)$(XMLTO) $(XMLTO_FO_FLAGS) --with-fop pdf $< shelf_DATA += $(docbook:.xml=.ps) %.ps: %.xml $(chapters) $(AM_V_GEN)$(XMLTO) $(XMLTO_FO_FLAGS) --with-fop ps $< endif HAVE_FOP # Generate documents cross-reference target databases if HAVE_XSLTPROC XSLT_SEARCHPATH_FLAGS = \ --path "$(XORG_SGML_PATH)/X11" \ --path "$(abs_top_builddir)" XSLT_OLINK_FLAGS = \ --stringparam targets.filename "$@" \ --stringparam collect.xref.targets "only" \ --stringparam olink.base.uri "$(@:.db=)" XSLT_HTML_FLAGS = \ $(XSLT_SEARCHPATH_FLAGS) \ $(XSLT_OLINK_FLAGS) \ --nonet --xinclude \ $(STYLESHEET_SRCDIR)/xorg-xhtml.xsl XSLT_PDF_FLAGS = \ $(XSLT_SEARCHPATH_FLAGS) \ $(XSLT_OLINK_FLAGS) \ --nonet --xinclude \ $(STYLESHEET_SRCDIR)/xorg-fo.xsl shelf_DATA += $(docbook:.xml=.html.db) %.html.db: %.xml $(chapters) $(AM_V_GEN)$(XSLTPROC) $(XSLT_HTML_FLAGS) $< shelf_DATA += $(docbook:.xml=.pdf.db) %.pdf.db: %.xml $(chapters) $(AM_V_GEN)$(XSLTPROC) $(XSLT_PDF_FLAGS) $< endif HAVE_XSLTPROC endif HAVE_STYLESHEETS endif HAVE_XMLTO CLEANFILES = $(shelf_DATA) �����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������kbproto-1.0.7/config.guess��������������������������������������������������������������������������0000755�0143106�0000012�00000123672�12520611233�0016006�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������#! /bin/sh # Attempt to guess a canonical system name. # Copyright 1992-2014 Free Software Foundation, Inc. timestamp='2014-11-04' # This file is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, see <http://www.gnu.org/licenses/>. # # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that # program. This Exception is an additional permission under section 7 # of the GNU General Public License, version 3 ("GPLv3"). # # Originally written by Per Bothner; maintained since 2000 by Ben Elliston. # # You can get the latest version of this script from: # http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.guess;hb=HEAD # # Please send patches to <config-patches@gnu.org>. me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] Output the configuration name of the system \`$me' is run on. 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But MiNT is downward compatible to TOS, so this should # be no problem. atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; atari*:*MiNT:*:* | atari*:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; *falcon*:*MiNT:*:* | *falcon*:*mint:*:* | *falcon*:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; milan*:*MiNT:*:* | milan*:*mint:*:* | *milan*:*TOS:*:*) echo m68k-milan-mint${UNAME_RELEASE} exit ;; hades*:*MiNT:*:* | hades*:*mint:*:* | *hades*:*TOS:*:*) echo m68k-hades-mint${UNAME_RELEASE} exit ;; *:*MiNT:*:* | *:*mint:*:* | *:*TOS:*:*) echo m68k-unknown-mint${UNAME_RELEASE} exit ;; m68k:machten:*:*) echo m68k-apple-machten${UNAME_RELEASE} exit ;; powerpc:machten:*:*) echo powerpc-apple-machten${UNAME_RELEASE} exit ;; RISC*:Mach:*:*) echo mips-dec-mach_bsd4.3 exit ;; RISC*:ULTRIX:*:*) echo mips-dec-ultrix${UNAME_RELEASE} exit ;; VAX*:ULTRIX*:*:*) echo vax-dec-ultrix${UNAME_RELEASE} exit ;; 2020:CLIX:*:* | 2430:CLIX:*:*) echo clipper-intergraph-clix${UNAME_RELEASE} exit ;; mips:*:*:UMIPS | mips:*:*:RISCos) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #ifdef __cplusplus #include <stdio.h> /* for printf() prototype */ int main (int argc, char *argv[]) { #else int main (argc, argv) int argc; char *argv[]; { #endif #if defined (host_mips) && defined (MIPSEB) #if defined (SYSTYPE_SYSV) printf ("mips-mips-riscos%ssysv\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_SVR4) printf ("mips-mips-riscos%ssvr4\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_BSD43) || defined(SYSTYPE_BSD) printf ("mips-mips-riscos%sbsd\n", argv[1]); exit (0); #endif #endif exit (-1); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && dummyarg=`echo "${UNAME_RELEASE}" | sed -n 's/\([0-9]*\).*/\1/p'` && SYSTEM_NAME=`$dummy $dummyarg` && { echo "$SYSTEM_NAME"; exit; } echo mips-mips-riscos${UNAME_RELEASE} exit ;; Motorola:PowerMAX_OS:*:*) echo powerpc-motorola-powermax exit ;; Motorola:*:4.3:PL8-*) echo powerpc-harris-powermax exit ;; Night_Hawk:*:*:PowerMAX_OS | Synergy:PowerMAX_OS:*:*) echo powerpc-harris-powermax exit ;; Night_Hawk:Power_UNIX:*:*) echo powerpc-harris-powerunix exit ;; m88k:CX/UX:7*:*) echo m88k-harris-cxux7 exit ;; m88k:*:4*:R4*) echo m88k-motorola-sysv4 exit ;; m88k:*:3*:R3*) echo m88k-motorola-sysv3 exit ;; AViiON:dgux:*:*) # DG/UX returns AViiON for all architectures UNAME_PROCESSOR=`/usr/bin/uname -p` if [ $UNAME_PROCESSOR = mc88100 ] || [ $UNAME_PROCESSOR = mc88110 ] then if [ ${TARGET_BINARY_INTERFACE}x = m88kdguxelfx ] || \ [ ${TARGET_BINARY_INTERFACE}x = x ] then echo m88k-dg-dgux${UNAME_RELEASE} else echo m88k-dg-dguxbcs${UNAME_RELEASE} fi else echo i586-dg-dgux${UNAME_RELEASE} fi exit ;; M88*:DolphinOS:*:*) # DolphinOS (SVR3) echo m88k-dolphin-sysv3 exit ;; M88*:*:R3*:*) # Delta 88k system running SVR3 echo m88k-motorola-sysv3 exit ;; XD88*:*:*:*) # Tektronix XD88 system running UTekV (SVR3) echo m88k-tektronix-sysv3 exit ;; Tek43[0-9][0-9]:UTek:*:*) # Tektronix 4300 system running UTek (BSD) echo m68k-tektronix-bsd exit ;; *:IRIX*:*:*) echo mips-sgi-irix`echo ${UNAME_RELEASE}|sed -e 's/-/_/g'` exit ;; ????????:AIX?:[12].1:2) # AIX 2.2.1 or AIX 2.1.1 is RT/PC AIX. echo romp-ibm-aix # uname -m gives an 8 hex-code CPU id exit ;; # Note that: echo "'`uname -s`'" gives 'AIX ' i*86:AIX:*:*) echo i386-ibm-aix exit ;; ia64:AIX:*:*) if [ -x /usr/bin/oslevel ] ; then IBM_REV=`/usr/bin/oslevel` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${UNAME_MACHINE}-ibm-aix${IBM_REV} exit ;; *:AIX:2:3) if grep bos325 /usr/include/stdio.h >/dev/null 2>&1; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include <sys/systemcfg.h> main() { if (!__power_pc()) exit(1); puts("powerpc-ibm-aix3.2.5"); exit(0); } EOF if $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` then echo "$SYSTEM_NAME" else echo rs6000-ibm-aix3.2.5 fi elif grep bos324 /usr/include/stdio.h >/dev/null 2>&1; then echo rs6000-ibm-aix3.2.4 else echo rs6000-ibm-aix3.2 fi exit ;; *:AIX:*:[4567]) IBM_CPU_ID=`/usr/sbin/lsdev -C -c processor -S available | sed 1q | awk '{ print $1 }'` if /usr/sbin/lsattr -El ${IBM_CPU_ID} | grep ' POWER' >/dev/null 2>&1; then IBM_ARCH=rs6000 else IBM_ARCH=powerpc fi if [ -x /usr/bin/lslpp ] ; then IBM_REV=`/usr/bin/lslpp -Lqc bos.rte.libc | awk -F: '{ print $3 }' | sed s/[0-9]*$/0/` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${IBM_ARCH}-ibm-aix${IBM_REV} exit ;; *:AIX:*:*) echo rs6000-ibm-aix exit ;; ibmrt:4.4BSD:*|romp-ibm:BSD:*) echo romp-ibm-bsd4.4 exit ;; ibmrt:*BSD:*|romp-ibm:BSD:*) # covers RT/PC BSD and echo romp-ibm-bsd${UNAME_RELEASE} # 4.3 with uname added to exit ;; # report: romp-ibm BSD 4.3 *:BOSX:*:*) echo rs6000-bull-bosx exit ;; DPX/2?00:B.O.S.:*:*) echo m68k-bull-sysv3 exit ;; 9000/[34]??:4.3bsd:1.*:*) echo m68k-hp-bsd exit ;; hp300:4.4BSD:*:* | 9000/[34]??:4.3bsd:2.*:*) echo m68k-hp-bsd4.4 exit ;; 9000/[34678]??:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` case "${UNAME_MACHINE}" in 9000/31? ) HP_ARCH=m68000 ;; 9000/[34]?? ) HP_ARCH=m68k ;; 9000/[678][0-9][0-9]) if [ -x /usr/bin/getconf ]; then sc_cpu_version=`/usr/bin/getconf SC_CPU_VERSION 2>/dev/null` sc_kernel_bits=`/usr/bin/getconf SC_KERNEL_BITS 2>/dev/null` case "${sc_cpu_version}" in 523) HP_ARCH="hppa1.0" ;; # CPU_PA_RISC1_0 528) HP_ARCH="hppa1.1" ;; # CPU_PA_RISC1_1 532) # CPU_PA_RISC2_0 case "${sc_kernel_bits}" in 32) HP_ARCH="hppa2.0n" ;; 64) HP_ARCH="hppa2.0w" ;; '') HP_ARCH="hppa2.0" ;; # HP-UX 10.20 esac ;; esac fi if [ "${HP_ARCH}" = "" ]; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #define _HPUX_SOURCE #include <stdlib.h> #include <unistd.h> int main () { #if defined(_SC_KERNEL_BITS) long bits = sysconf(_SC_KERNEL_BITS); #endif long cpu = sysconf (_SC_CPU_VERSION); switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0"); break; case CPU_PA_RISC1_1: puts ("hppa1.1"); break; case CPU_PA_RISC2_0: #if defined(_SC_KERNEL_BITS) switch (bits) { case 64: puts ("hppa2.0w"); break; case 32: puts ("hppa2.0n"); break; default: puts ("hppa2.0"); break; } break; #else /* !defined(_SC_KERNEL_BITS) */ puts ("hppa2.0"); break; #endif default: puts ("hppa1.0"); break; } exit (0); } EOF (CCOPTS= $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null) && HP_ARCH=`$dummy` test -z "$HP_ARCH" && HP_ARCH=hppa fi ;; esac if [ ${HP_ARCH} = "hppa2.0w" ] then eval $set_cc_for_build # hppa2.0w-hp-hpux* has a 64-bit kernel and a compiler generating # 32-bit code. hppa64-hp-hpux* has the same kernel and a compiler # generating 64-bit code. GNU and HP use different nomenclature: # # $ CC_FOR_BUILD=cc ./config.guess # => hppa2.0w-hp-hpux11.23 # $ CC_FOR_BUILD="cc +DA2.0w" ./config.guess # => hppa64-hp-hpux11.23 if echo __LP64__ | (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | grep -q __LP64__ then HP_ARCH="hppa2.0w" else HP_ARCH="hppa64" fi fi echo ${HP_ARCH}-hp-hpux${HPUX_REV} exit ;; ia64:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` echo ia64-hp-hpux${HPUX_REV} exit ;; 3050*:HI-UX:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include <unistd.h> int main () { long cpu = sysconf (_SC_CPU_VERSION); /* The order matters, because CPU_IS_HP_MC68K erroneously returns true for CPU_PA_RISC1_0. CPU_IS_PA_RISC returns correct results, however. */ if (CPU_IS_PA_RISC (cpu)) { switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0-hitachi-hiuxwe2"); break; case CPU_PA_RISC1_1: puts ("hppa1.1-hitachi-hiuxwe2"); break; case CPU_PA_RISC2_0: puts ("hppa2.0-hitachi-hiuxwe2"); break; default: puts ("hppa-hitachi-hiuxwe2"); break; } } else if (CPU_IS_HP_MC68K (cpu)) puts ("m68k-hitachi-hiuxwe2"); else puts ("unknown-hitachi-hiuxwe2"); exit (0); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` && { echo "$SYSTEM_NAME"; exit; } echo unknown-hitachi-hiuxwe2 exit ;; 9000/7??:4.3bsd:*:* | 9000/8?[79]:4.3bsd:*:* ) echo hppa1.1-hp-bsd exit ;; 9000/8??:4.3bsd:*:*) echo hppa1.0-hp-bsd exit ;; *9??*:MPE/iX:*:* | *3000*:MPE/iX:*:*) echo hppa1.0-hp-mpeix exit ;; hp7??:OSF1:*:* | hp8?[79]:OSF1:*:* ) echo hppa1.1-hp-osf exit ;; hp8??:OSF1:*:*) echo hppa1.0-hp-osf exit ;; i*86:OSF1:*:*) if [ -x /usr/sbin/sysversion ] ; then echo ${UNAME_MACHINE}-unknown-osf1mk else echo ${UNAME_MACHINE}-unknown-osf1 fi exit ;; parisc*:Lites*:*:*) echo hppa1.1-hp-lites exit ;; C1*:ConvexOS:*:* | convex:ConvexOS:C1*:*) echo c1-convex-bsd exit ;; C2*:ConvexOS:*:* | convex:ConvexOS:C2*:*) if getsysinfo -f scalar_acc then echo c32-convex-bsd else echo c2-convex-bsd fi exit ;; C34*:ConvexOS:*:* | convex:ConvexOS:C34*:*) echo c34-convex-bsd exit ;; C38*:ConvexOS:*:* | convex:ConvexOS:C38*:*) echo c38-convex-bsd exit ;; C4*:ConvexOS:*:* | convex:ConvexOS:C4*:*) echo c4-convex-bsd exit ;; CRAY*Y-MP:*:*:*) echo ymp-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*[A-Z]90:*:*:*) echo ${UNAME_MACHINE}-cray-unicos${UNAME_RELEASE} \ | sed -e 's/CRAY.*\([A-Z]90\)/\1/' \ -e y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/ \ -e 's/\.[^.]*$/.X/' exit ;; CRAY*TS:*:*:*) echo t90-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*T3E:*:*:*) echo alphaev5-cray-unicosmk${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*SV1:*:*:*) echo sv1-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; *:UNICOS/mp:*:*) echo craynv-cray-unicosmp${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; F30[01]:UNIX_System_V:*:* | F700:UNIX_System_V:*:*) FUJITSU_PROC=`uname -m | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'` FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | sed -e 's/ /_/'` echo "${FUJITSU_PROC}-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; 5000:UNIX_System_V:4.*:*) FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/ /_/'` echo "sparc-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; i*86:BSD/386:*:* | i*86:BSD/OS:*:* | *:Ascend\ Embedded/OS:*:*) echo ${UNAME_MACHINE}-pc-bsdi${UNAME_RELEASE} exit ;; sparc*:BSD/OS:*:*) echo sparc-unknown-bsdi${UNAME_RELEASE} exit ;; *:BSD/OS:*:*) echo ${UNAME_MACHINE}-unknown-bsdi${UNAME_RELEASE} exit ;; *:FreeBSD:*:*) UNAME_PROCESSOR=`/usr/bin/uname -p` case ${UNAME_PROCESSOR} in amd64) echo x86_64-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; *) echo ${UNAME_PROCESSOR}-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; esac exit ;; i*:CYGWIN*:*) echo ${UNAME_MACHINE}-pc-cygwin exit ;; *:MINGW64*:*) echo ${UNAME_MACHINE}-pc-mingw64 exit ;; *:MINGW*:*) echo ${UNAME_MACHINE}-pc-mingw32 exit ;; *:MSYS*:*) echo ${UNAME_MACHINE}-pc-msys exit ;; i*:windows32*:*) # uname -m includes "-pc" on this system. echo ${UNAME_MACHINE}-mingw32 exit ;; i*:PW*:*) echo ${UNAME_MACHINE}-pc-pw32 exit ;; *:Interix*:*) case ${UNAME_MACHINE} in x86) echo i586-pc-interix${UNAME_RELEASE} exit ;; authenticamd | genuineintel | EM64T) echo x86_64-unknown-interix${UNAME_RELEASE} exit ;; IA64) echo ia64-unknown-interix${UNAME_RELEASE} exit ;; esac ;; [345]86:Windows_95:* | [345]86:Windows_98:* | [345]86:Windows_NT:*) echo i${UNAME_MACHINE}-pc-mks exit ;; 8664:Windows_NT:*) echo x86_64-pc-mks exit ;; i*:Windows_NT*:* | Pentium*:Windows_NT*:*) # How do we know it's Interix rather than the generic POSIX subsystem? # It also conflicts with pre-2.0 versions of AT&T UWIN. Should we # UNAME_MACHINE based on the output of uname instead of i386? echo i586-pc-interix exit ;; i*:UWIN*:*) echo ${UNAME_MACHINE}-pc-uwin exit ;; amd64:CYGWIN*:*:* | x86_64:CYGWIN*:*:*) echo x86_64-unknown-cygwin exit ;; p*:CYGWIN*:*) echo powerpcle-unknown-cygwin exit ;; prep*:SunOS:5.*:*) echo powerpcle-unknown-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; *:GNU:*:*) # the GNU system echo `echo ${UNAME_MACHINE}|sed -e 's,[-/].*$,,'`-unknown-${LIBC}`echo ${UNAME_RELEASE}|sed -e 's,/.*$,,'` exit ;; *:GNU/*:*:*) # other systems with GNU libc and userland echo ${UNAME_MACHINE}-unknown-`echo ${UNAME_SYSTEM} | sed 's,^[^/]*/,,' | tr '[A-Z]' '[a-z]'``echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`-${LIBC} exit ;; i*86:Minix:*:*) echo ${UNAME_MACHINE}-pc-minix exit ;; aarch64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; aarch64_be:Linux:*:*) UNAME_MACHINE=aarch64_be echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; alpha:Linux:*:*) case `sed -n '/^cpu model/s/^.*: \(.*\)/\1/p' < /proc/cpuinfo` in EV5) UNAME_MACHINE=alphaev5 ;; EV56) UNAME_MACHINE=alphaev56 ;; PCA56) UNAME_MACHINE=alphapca56 ;; PCA57) UNAME_MACHINE=alphapca56 ;; EV6) UNAME_MACHINE=alphaev6 ;; EV67) UNAME_MACHINE=alphaev67 ;; EV68*) UNAME_MACHINE=alphaev68 ;; esac objdump --private-headers /bin/sh | grep -q ld.so.1 if test "$?" = 0 ; then LIBC="gnulibc1" ; fi echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; arc:Linux:*:* | arceb:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; arm*:Linux:*:*) eval $set_cc_for_build if echo __ARM_EABI__ | $CC_FOR_BUILD -E - 2>/dev/null \ | grep -q __ARM_EABI__ then echo ${UNAME_MACHINE}-unknown-linux-${LIBC} else if echo __ARM_PCS_VFP | $CC_FOR_BUILD -E - 2>/dev/null \ | grep -q __ARM_PCS_VFP then echo ${UNAME_MACHINE}-unknown-linux-${LIBC}eabi else echo ${UNAME_MACHINE}-unknown-linux-${LIBC}eabihf fi fi exit ;; avr32*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; cris:Linux:*:*) echo ${UNAME_MACHINE}-axis-linux-${LIBC} exit ;; crisv32:Linux:*:*) echo ${UNAME_MACHINE}-axis-linux-${LIBC} exit ;; frv:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; hexagon:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; i*86:Linux:*:*) echo ${UNAME_MACHINE}-pc-linux-${LIBC} exit ;; ia64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; m32r*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; m68*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; mips:Linux:*:* | mips64:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef ${UNAME_MACHINE} #undef ${UNAME_MACHINE}el #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=${UNAME_MACHINE}el #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=${UNAME_MACHINE} #else CPU= #endif #endif EOF eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep '^CPU'` test x"${CPU}" != x && { echo "${CPU}-unknown-linux-${LIBC}"; exit; } ;; openrisc*:Linux:*:*) echo or1k-unknown-linux-${LIBC} exit ;; or32:Linux:*:* | or1k*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; padre:Linux:*:*) echo sparc-unknown-linux-${LIBC} exit ;; parisc64:Linux:*:* | hppa64:Linux:*:*) echo hppa64-unknown-linux-${LIBC} exit ;; parisc:Linux:*:* | hppa:Linux:*:*) # Look for CPU level case `grep '^cpu[^a-z]*:' /proc/cpuinfo 2>/dev/null | cut -d' ' -f2` in PA7*) echo hppa1.1-unknown-linux-${LIBC} ;; PA8*) echo hppa2.0-unknown-linux-${LIBC} ;; *) echo hppa-unknown-linux-${LIBC} ;; esac exit ;; ppc64:Linux:*:*) echo powerpc64-unknown-linux-${LIBC} exit ;; ppc:Linux:*:*) echo powerpc-unknown-linux-${LIBC} exit ;; ppc64le:Linux:*:*) echo powerpc64le-unknown-linux-${LIBC} exit ;; ppcle:Linux:*:*) echo powerpcle-unknown-linux-${LIBC} exit ;; s390:Linux:*:* | s390x:Linux:*:*) echo ${UNAME_MACHINE}-ibm-linux-${LIBC} exit ;; sh64*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; sh*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; sparc:Linux:*:* | sparc64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; tile*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; vax:Linux:*:*) echo ${UNAME_MACHINE}-dec-linux-${LIBC} exit ;; x86_64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; xtensa*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; i*86:DYNIX/ptx:4*:*) # ptx 4.0 does uname -s correctly, with DYNIX/ptx in there. # earlier versions are messed up and put the nodename in both # sysname and nodename. echo i386-sequent-sysv4 exit ;; i*86:UNIX_SV:4.2MP:2.*) # Unixware is an offshoot of SVR4, but it has its own version # number series starting with 2... # I am not positive that other SVR4 systems won't match this, # I just have to hope. -- rms. # Use sysv4.2uw... so that sysv4* matches it. echo ${UNAME_MACHINE}-pc-sysv4.2uw${UNAME_VERSION} exit ;; i*86:OS/2:*:*) # If we were able to find `uname', then EMX Unix compatibility # is probably installed. echo ${UNAME_MACHINE}-pc-os2-emx exit ;; i*86:XTS-300:*:STOP) echo ${UNAME_MACHINE}-unknown-stop exit ;; i*86:atheos:*:*) echo ${UNAME_MACHINE}-unknown-atheos exit ;; i*86:syllable:*:*) echo ${UNAME_MACHINE}-pc-syllable exit ;; i*86:LynxOS:2.*:* | i*86:LynxOS:3.[01]*:* | i*86:LynxOS:4.[02]*:*) echo i386-unknown-lynxos${UNAME_RELEASE} exit ;; i*86:*DOS:*:*) echo ${UNAME_MACHINE}-pc-msdosdjgpp exit ;; i*86:*:4.*:* | i*86:SYSTEM_V:4.*:*) UNAME_REL=`echo ${UNAME_RELEASE} | sed 's/\/MP$//'` if grep Novell /usr/include/link.h >/dev/null 2>/dev/null; then echo ${UNAME_MACHINE}-univel-sysv${UNAME_REL} else echo ${UNAME_MACHINE}-pc-sysv${UNAME_REL} fi exit ;; i*86:*:5:[678]*) # UnixWare 7.x, OpenUNIX and OpenServer 6. case `/bin/uname -X | grep "^Machine"` in *486*) UNAME_MACHINE=i486 ;; *Pentium) UNAME_MACHINE=i586 ;; *Pent*|*Celeron) UNAME_MACHINE=i686 ;; esac echo ${UNAME_MACHINE}-unknown-sysv${UNAME_RELEASE}${UNAME_SYSTEM}${UNAME_VERSION} exit ;; i*86:*:3.2:*) if test -f /usr/options/cb.name; then UNAME_REL=`sed -n 's/.*Version //p' </usr/options/cb.name` echo ${UNAME_MACHINE}-pc-isc$UNAME_REL elif /bin/uname -X 2>/dev/null >/dev/null ; then UNAME_REL=`(/bin/uname -X|grep Release|sed -e 's/.*= //')` (/bin/uname -X|grep i80486 >/dev/null) && UNAME_MACHINE=i486 (/bin/uname -X|grep '^Machine.*Pentium' >/dev/null) \ && UNAME_MACHINE=i586 (/bin/uname -X|grep '^Machine.*Pent *II' >/dev/null) \ && UNAME_MACHINE=i686 (/bin/uname -X|grep '^Machine.*Pentium Pro' >/dev/null) \ && UNAME_MACHINE=i686 echo ${UNAME_MACHINE}-pc-sco$UNAME_REL else echo ${UNAME_MACHINE}-pc-sysv32 fi exit ;; 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exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; 3[34]??:*:4.0:* | 3[34]??,*:*:4.0:*) /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4; exit; } ;; NCR*:*:4.2:* | MPRAS*:*:4.2:*) OS_REL='.3' test -r /etc/.relid \ && OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid` /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep pteron >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; m68*:LynxOS:2.*:* | m68*:LynxOS:3.0*:*) echo m68k-unknown-lynxos${UNAME_RELEASE} exit ;; mc68030:UNIX_System_V:4.*:*) echo m68k-atari-sysv4 exit ;; TSUNAMI:LynxOS:2.*:*) echo sparc-unknown-lynxos${UNAME_RELEASE} exit ;; rs6000:LynxOS:2.*:*) echo rs6000-unknown-lynxos${UNAME_RELEASE} exit ;; PowerPC:LynxOS:2.*:* | PowerPC:LynxOS:3.[01]*:* | PowerPC:LynxOS:4.[02]*:*) echo powerpc-unknown-lynxos${UNAME_RELEASE} exit ;; 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then echo mips-nec-sysv${UNAME_RELEASE} else echo mips-unknown-sysv${UNAME_RELEASE} fi exit ;; BeBox:BeOS:*:*) # BeOS running on hardware made by Be, PPC only. echo powerpc-be-beos exit ;; BeMac:BeOS:*:*) # BeOS running on Mac or Mac clone, PPC only. echo powerpc-apple-beos exit ;; BePC:BeOS:*:*) # BeOS running on Intel PC compatible. echo i586-pc-beos exit ;; BePC:Haiku:*:*) # Haiku running on Intel PC compatible. echo i586-pc-haiku exit ;; x86_64:Haiku:*:*) echo x86_64-unknown-haiku exit ;; SX-4:SUPER-UX:*:*) echo sx4-nec-superux${UNAME_RELEASE} exit ;; SX-5:SUPER-UX:*:*) echo sx5-nec-superux${UNAME_RELEASE} exit ;; SX-6:SUPER-UX:*:*) echo sx6-nec-superux${UNAME_RELEASE} exit ;; SX-7:SUPER-UX:*:*) echo sx7-nec-superux${UNAME_RELEASE} exit ;; SX-8:SUPER-UX:*:*) echo sx8-nec-superux${UNAME_RELEASE} exit ;; SX-8R:SUPER-UX:*:*) echo sx8r-nec-superux${UNAME_RELEASE} exit ;; Power*:Rhapsody:*:*) echo powerpc-apple-rhapsody${UNAME_RELEASE} exit ;; *:Rhapsody:*:*) echo ${UNAME_MACHINE}-apple-rhapsody${UNAME_RELEASE} exit ;; *:Darwin:*:*) UNAME_PROCESSOR=`uname -p` || UNAME_PROCESSOR=unknown eval $set_cc_for_build if test "$UNAME_PROCESSOR" = unknown ; then UNAME_PROCESSOR=powerpc fi if test `echo "$UNAME_RELEASE" | sed -e 's/\..*//'` -le 10 ; then if [ "$CC_FOR_BUILD" != 'no_compiler_found' ]; then if (echo '#ifdef __LP64__'; echo IS_64BIT_ARCH; echo '#endif') | \ (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | \ grep IS_64BIT_ARCH >/dev/null then case $UNAME_PROCESSOR in i386) UNAME_PROCESSOR=x86_64 ;; powerpc) UNAME_PROCESSOR=powerpc64 ;; esac fi fi elif test "$UNAME_PROCESSOR" = i386 ; then # Avoid executing cc on OS X 10.9, as it ships with a stub # that puts up a graphical alert prompting to install # developer tools. Any system running Mac OS X 10.7 or # later (Darwin 11 and later) is required to have a 64-bit # processor. This is not true of the ARM version of Darwin # that Apple uses in portable devices. UNAME_PROCESSOR=x86_64 fi echo ${UNAME_PROCESSOR}-apple-darwin${UNAME_RELEASE} exit ;; *:procnto*:*:* | *:QNX:[0123456789]*:*) UNAME_PROCESSOR=`uname -p` if test "$UNAME_PROCESSOR" = "x86"; then UNAME_PROCESSOR=i386 UNAME_MACHINE=pc fi echo ${UNAME_PROCESSOR}-${UNAME_MACHINE}-nto-qnx${UNAME_RELEASE} exit ;; *:QNX:*:4*) echo i386-pc-qnx exit ;; NEO-?:NONSTOP_KERNEL:*:*) echo neo-tandem-nsk${UNAME_RELEASE} exit ;; NSE-*:NONSTOP_KERNEL:*:*) echo nse-tandem-nsk${UNAME_RELEASE} exit ;; NSR-?:NONSTOP_KERNEL:*:*) echo nsr-tandem-nsk${UNAME_RELEASE} exit ;; *:NonStop-UX:*:*) echo mips-compaq-nonstopux exit ;; BS2000:POSIX*:*:*) echo bs2000-siemens-sysv exit ;; DS/*:UNIX_System_V:*:*) echo ${UNAME_MACHINE}-${UNAME_SYSTEM}-${UNAME_RELEASE} exit ;; *:Plan9:*:*) # "uname -m" is not consistent, so use $cputype instead. 386 # is converted to i386 for consistency with other x86 # operating systems. if test "$cputype" = "386"; then UNAME_MACHINE=i386 else UNAME_MACHINE="$cputype" fi echo ${UNAME_MACHINE}-unknown-plan9 exit ;; *:TOPS-10:*:*) echo pdp10-unknown-tops10 exit ;; *:TENEX:*:*) echo pdp10-unknown-tenex exit ;; KS10:TOPS-20:*:* | KL10:TOPS-20:*:* | TYPE4:TOPS-20:*:*) echo pdp10-dec-tops20 exit ;; XKL-1:TOPS-20:*:* | TYPE5:TOPS-20:*:*) echo pdp10-xkl-tops20 exit ;; *:TOPS-20:*:*) echo pdp10-unknown-tops20 exit ;; *:ITS:*:*) echo pdp10-unknown-its exit ;; SEI:*:*:SEIUX) echo mips-sei-seiux${UNAME_RELEASE} exit ;; *:DragonFly:*:*) echo ${UNAME_MACHINE}-unknown-dragonfly`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` exit ;; *:*VMS:*:*) UNAME_MACHINE=`(uname -p) 2>/dev/null` case "${UNAME_MACHINE}" in A*) echo alpha-dec-vms ; exit ;; I*) echo ia64-dec-vms ; exit ;; V*) echo vax-dec-vms ; exit ;; esac ;; *:XENIX:*:SysV) echo i386-pc-xenix exit ;; i*86:skyos:*:*) echo ${UNAME_MACHINE}-pc-skyos`echo ${UNAME_RELEASE}` | sed -e 's/ .*$//' exit ;; i*86:rdos:*:*) echo ${UNAME_MACHINE}-pc-rdos exit ;; i*86:AROS:*:*) echo ${UNAME_MACHINE}-pc-aros exit ;; x86_64:VMkernel:*:*) echo ${UNAME_MACHINE}-unknown-esx exit ;; esac cat >&2 <<EOF $0: unable to guess system type This script, last modified $timestamp, has failed to recognize the operating system you are using. It is advised that you download the most up to date version of the config scripts from http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.guess;hb=HEAD and http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.sub;hb=HEAD If the version you run ($0) is already up to date, please send the following data and any information you think might be pertinent to <config-patches@gnu.org> in order to provide the needed information to handle your system. config.guess timestamp = $timestamp uname -m = `(uname -m) 2>/dev/null || echo unknown` uname -r = `(uname -r) 2>/dev/null || echo unknown` uname -s = `(uname -s) 2>/dev/null || echo unknown` uname -v = `(uname -v) 2>/dev/null || echo unknown` /usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null` /bin/uname -X = `(/bin/uname -X) 2>/dev/null` hostinfo = `(hostinfo) 2>/dev/null` /bin/universe = `(/bin/universe) 2>/dev/null` /usr/bin/arch -k = `(/usr/bin/arch -k) 2>/dev/null` /bin/arch = `(/bin/arch) 2>/dev/null` /usr/bin/oslevel = `(/usr/bin/oslevel) 2>/dev/null` /usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null` UNAME_MACHINE = ${UNAME_MACHINE} UNAME_RELEASE = ${UNAME_RELEASE} UNAME_SYSTEM = ${UNAME_SYSTEM} UNAME_VERSION = ${UNAME_VERSION} EOF exit 1 # Local variables: # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "timestamp='" # time-stamp-format: "%:y-%02m-%02d" # time-stamp-end: "'" # End: me -X 2>/dev/null >/dev/null ; then UNAME_REL=`(/bin/uname -X|grep Rkbproto-1.0.7/Makefile.am���������������������������������������������������������������������������0000644�0143106�0000012�00000000533�12520611225�0015511�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������SUBDIRS = specs kbdir = $(includedir)/X11/extensions kb_HEADERS = \ XKBgeom.h \ XKB.h \ XKBproto.h \ XKBsrv.h \ XKBstr.h pkgconfigdir = $(libdir)/pkgconfig pkgconfig_DATA = kbproto.pc MAINTAINERCLEANFILES = ChangeLog INSTALL .PHONY: ChangeLog INSTALL INSTALL: $(INSTALL_CMD) ChangeLog: $(CHANGELOG_CMD) dist-hook: ChangeLog INSTALL ���������������������������������������������������������������������������������������������������������������������������������������������������������������������kbproto-1.0.7/XKB.h���������������������������������������������������������������������������������0000644�0143106�0000012�00000067121�12520611225�0014260�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������/************************************************************ Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #ifndef _XKB_H_ #define _XKB_H_ /* * XKB request codes, used in: * - xkbReqType field of all requests * - requestMinor field of some events */ #define X_kbUseExtension 0 #define X_kbSelectEvents 1 #define X_kbBell 3 #define X_kbGetState 4 #define X_kbLatchLockState 5 #define X_kbGetControls 6 #define X_kbSetControls 7 #define X_kbGetMap 8 #define X_kbSetMap 9 #define X_kbGetCompatMap 10 #define X_kbSetCompatMap 11 #define X_kbGetIndicatorState 12 #define X_kbGetIndicatorMap 13 #define X_kbSetIndicatorMap 14 #define X_kbGetNamedIndicator 15 #define X_kbSetNamedIndicator 16 #define X_kbGetNames 17 #define X_kbSetNames 18 #define X_kbGetGeometry 19 #define X_kbSetGeometry 20 #define X_kbPerClientFlags 21 #define X_kbListComponents 22 #define X_kbGetKbdByName 23 #define X_kbGetDeviceInfo 24 #define X_kbSetDeviceInfo 25 #define X_kbSetDebuggingFlags 101 /* * In the X sense, XKB reports only one event. * The type field of all XKB events is XkbEventCode */ #define XkbEventCode 0 #define XkbNumberEvents (XkbEventCode+1) /* * XKB has a minor event code so it can use one X event code for * multiple purposes. * - reported in the xkbType field of all XKB events. * - XkbSelectEventDetails: Indicates the event for which event details * are being changed */ #define XkbNewKeyboardNotify 0 #define XkbMapNotify 1 #define XkbStateNotify 2 #define XkbControlsNotify 3 #define XkbIndicatorStateNotify 4 #define XkbIndicatorMapNotify 5 #define XkbNamesNotify 6 #define XkbCompatMapNotify 7 #define XkbBellNotify 8 #define XkbActionMessage 9 #define XkbAccessXNotify 10 #define XkbExtensionDeviceNotify 11 /* * Event Mask: * - XkbSelectEvents: Specifies event interest. */ #define XkbNewKeyboardNotifyMask (1L << 0) #define XkbMapNotifyMask (1L << 1) #define XkbStateNotifyMask (1L << 2) #define XkbControlsNotifyMask (1L << 3) #define XkbIndicatorStateNotifyMask (1L << 4) #define XkbIndicatorMapNotifyMask (1L << 5) #define XkbNamesNotifyMask (1L << 6) #define XkbCompatMapNotifyMask (1L << 7) #define XkbBellNotifyMask (1L << 8) #define XkbActionMessageMask (1L << 9) #define XkbAccessXNotifyMask (1L << 10) #define XkbExtensionDeviceNotifyMask (1L << 11) #define XkbAllEventsMask (0xFFF) /* * NewKeyboardNotify event details: */ #define XkbNKN_KeycodesMask (1L << 0) #define XkbNKN_GeometryMask (1L << 1) #define XkbNKN_DeviceIDMask (1L << 2) #define XkbAllNewKeyboardEventsMask (0x7) /* * AccessXNotify event types: * - The 'what' field of AccessXNotify events reports the * reason that the event was generated. */ #define XkbAXN_SKPress 0 #define XkbAXN_SKAccept 1 #define XkbAXN_SKReject 2 #define XkbAXN_SKRelease 3 #define XkbAXN_BKAccept 4 #define XkbAXN_BKReject 5 #define XkbAXN_AXKWarning 6 /* * AccessXNotify details: * - Used as an event detail mask to limit the conditions under which * AccessXNotify events are reported */ #define XkbAXN_SKPressMask (1L << 0) #define XkbAXN_SKAcceptMask (1L << 1) #define XkbAXN_SKRejectMask (1L << 2) #define XkbAXN_SKReleaseMask (1L << 3) #define XkbAXN_BKAcceptMask (1L << 4) #define XkbAXN_BKRejectMask (1L << 5) #define XkbAXN_AXKWarningMask (1L << 6) #define XkbAllAccessXEventsMask (0x7f) /* * Miscellaneous event details: * - event detail masks for assorted events that don't reall * have any details. */ #define XkbAllStateEventsMask XkbAllStateComponentsMask #define XkbAllMapEventsMask XkbAllMapComponentsMask #define XkbAllControlEventsMask XkbAllControlsMask #define XkbAllIndicatorEventsMask XkbAllIndicatorsMask #define XkbAllNameEventsMask XkbAllNamesMask #define XkbAllCompatMapEventsMask XkbAllCompatMask #define XkbAllBellEventsMask (1L << 0) #define XkbAllActionMessagesMask (1L << 0) /* * XKB reports one error: BadKeyboard * A further reason for the error is encoded into to most significant * byte of the resourceID for the error: * XkbErr_BadDevice - the device in question was not found * XkbErr_BadClass - the device was found but it doesn't belong to * the appropriate class. * XkbErr_BadId - the device was found and belongs to the right * class, but not feedback with a matching id was * found. * The low byte of the resourceID for this error contains the device * id, class specifier or feedback id that failed. */ #define XkbKeyboard 0 #define XkbNumberErrors 1 #define XkbErr_BadDevice 0xff #define XkbErr_BadClass 0xfe #define XkbErr_BadId 0xfd /* * Keyboard Components Mask: * - Specifies the components that follow a GetKeyboardByNameReply */ #define XkbClientMapMask (1L << 0) #define XkbServerMapMask (1L << 1) #define XkbCompatMapMask (1L << 2) #define XkbIndicatorMapMask (1L << 3) #define XkbNamesMask (1L << 4) #define XkbGeometryMask (1L << 5) #define XkbControlsMask (1L << 6) #define XkbAllComponentsMask (0x7f) /* * State detail mask: * - The 'changed' field of StateNotify events reports which of * the keyboard state components have changed. * - Used as an event detail mask to limit the conditions under * which StateNotify events are reported. */ #define XkbModifierStateMask (1L << 0) #define XkbModifierBaseMask (1L << 1) #define XkbModifierLatchMask (1L << 2) #define XkbModifierLockMask (1L << 3) #define XkbGroupStateMask (1L << 4) #define XkbGroupBaseMask (1L << 5) #define XkbGroupLatchMask (1L << 6) #define XkbGroupLockMask (1L << 7) #define XkbCompatStateMask (1L << 8) #define XkbGrabModsMask (1L << 9) #define XkbCompatGrabModsMask (1L << 10) #define XkbLookupModsMask (1L << 11) #define XkbCompatLookupModsMask (1L << 12) #define XkbPointerButtonMask (1L << 13) #define XkbAllStateComponentsMask (0x3fff) /* * Controls detail masks: * The controls specified in XkbAllControlsMask: * - The 'changed' field of ControlsNotify events reports which of * the keyboard controls have changed. * - The 'changeControls' field of the SetControls request specifies * the controls for which values are to be changed. * - Used as an event detail mask to limit the conditions under * which ControlsNotify events are reported. * * The controls specified in the XkbAllBooleanCtrlsMask: * - The 'enabledControls' field of ControlsNotify events reports the * current status of the boolean controls. * - The 'enabledControlsChanges' field of ControlsNotify events reports * any boolean controls that have been turned on or off. * - The 'affectEnabledControls' and 'enabledControls' fields of the * kbSetControls request change the set of enabled controls. * - The 'accessXTimeoutMask' and 'accessXTimeoutValues' fields of * an XkbControlsRec specify the controls to be changed if the keyboard * times out and the values to which they should be changed. * - The 'autoCtrls' and 'autoCtrlsValues' fields of the PerClientFlags * request specifies the specify the controls to be reset when the * client exits and the values to which they should be reset. * - The 'ctrls' field of an indicator map specifies the controls * that drive the indicator. * - Specifies the boolean controls affected by the SetControls and * LockControls key actions. */ #define XkbRepeatKeysMask (1L << 0) #define XkbSlowKeysMask (1L << 1) #define XkbBounceKeysMask (1L << 2) #define XkbStickyKeysMask (1L << 3) #define XkbMouseKeysMask (1L << 4) #define XkbMouseKeysAccelMask (1L << 5) #define XkbAccessXKeysMask (1L << 6) #define XkbAccessXTimeoutMask (1L << 7) #define XkbAccessXFeedbackMask (1L << 8) #define XkbAudibleBellMask (1L << 9) #define XkbOverlay1Mask (1L << 10) #define XkbOverlay2Mask (1L << 11) #define XkbIgnoreGroupLockMask (1L << 12) #define XkbGroupsWrapMask (1L << 27) #define XkbInternalModsMask (1L << 28) #define XkbIgnoreLockModsMask (1L << 29) #define XkbPerKeyRepeatMask (1L << 30) #define XkbControlsEnabledMask (1L << 31) #define XkbAccessXOptionsMask (XkbStickyKeysMask|XkbAccessXFeedbackMask) #define XkbAllBooleanCtrlsMask (0x00001FFF) #define XkbAllControlsMask (0xF8001FFF) #define XkbAllControlEventsMask XkbAllControlsMask /* * AccessX Options Mask * - The 'accessXOptions' field of an XkbControlsRec specifies the * AccessX options that are currently in effect. * - The 'accessXTimeoutOptionsMask' and 'accessXTimeoutOptionsValues' * fields of an XkbControlsRec specify the Access X options to be * changed if the keyboard times out and the values to which they * should be changed. */ #define XkbAX_SKPressFBMask (1L << 0) #define XkbAX_SKAcceptFBMask (1L << 1) #define XkbAX_FeatureFBMask (1L << 2) #define XkbAX_SlowWarnFBMask (1L << 3) #define XkbAX_IndicatorFBMask (1L << 4) #define XkbAX_StickyKeysFBMask (1L << 5) #define XkbAX_TwoKeysMask (1L << 6) #define XkbAX_LatchToLockMask (1L << 7) #define XkbAX_SKReleaseFBMask (1L << 8) #define XkbAX_SKRejectFBMask (1L << 9) #define XkbAX_BKRejectFBMask (1L << 10) #define XkbAX_DumbBellFBMask (1L << 11) #define XkbAX_FBOptionsMask (0xF3F) #define XkbAX_SKOptionsMask (0x0C0) #define XkbAX_AllOptionsMask (0xFFF) /* * XkbUseCoreKbd is used to specify the core keyboard without having * to look up its X input extension identifier. * XkbUseCorePtr is used to specify the core pointer without having * to look up its X input extension identifier. * XkbDfltXIClass is used to specify "don't care" any place that the * XKB protocol is looking for an X Input Extension * device class. * XkbDfltXIId is used to specify "don't care" any place that the * XKB protocol is looking for an X Input Extension * feedback identifier. * XkbAllXIClasses is used to get information about all device indicators, * whether they're part of the indicator feedback class * or the keyboard feedback class. * XkbAllXIIds is used to get information about all device indicator * feedbacks without having to list them. * XkbXINone is used to indicate that no class or id has been specified. * XkbLegalXILedClass(c) True if 'c' specifies a legal class with LEDs * XkbLegalXIBellClass(c) True if 'c' specifies a legal class with bells * XkbExplicitXIDevice(d) True if 'd' explicitly specifies a device * XkbExplicitXIClass(c) True if 'c' explicitly specifies a device class * XkbExplicitXIId(c) True if 'i' explicitly specifies a device id * XkbSingleXIClass(c) True if 'c' specifies exactly one device class, * including the default. * XkbSingleXIId(i) True if 'i' specifies exactly one device * identifier, including the default. */ #define XkbUseCoreKbd 0x0100 #define XkbUseCorePtr 0x0200 #define XkbDfltXIClass 0x0300 #define XkbDfltXIId 0x0400 #define XkbAllXIClasses 0x0500 #define XkbAllXIIds 0x0600 #define XkbXINone 0xff00 #define XkbLegalXILedClass(c) (((c)==KbdFeedbackClass)||\ ((c)==LedFeedbackClass)||\ ((c)==XkbDfltXIClass)||\ ((c)==XkbAllXIClasses)) #define XkbLegalXIBellClass(c) (((c)==KbdFeedbackClass)||\ ((c)==BellFeedbackClass)||\ ((c)==XkbDfltXIClass)||\ ((c)==XkbAllXIClasses)) #define XkbExplicitXIDevice(c) (((c)&(~0xff))==0) #define XkbExplicitXIClass(c) (((c)&(~0xff))==0) #define XkbExplicitXIId(c) (((c)&(~0xff))==0) #define XkbSingleXIClass(c) ((((c)&(~0xff))==0)||((c)==XkbDfltXIClass)) #define XkbSingleXIId(c) ((((c)&(~0xff))==0)||((c)==XkbDfltXIId)) #define XkbNoModifier 0xff #define XkbNoShiftLevel 0xff #define XkbNoShape 0xff #define XkbNoIndicator 0xff #define XkbNoModifierMask 0 #define XkbAllModifiersMask 0xff #define XkbAllVirtualModsMask 0xffff #define XkbNumKbdGroups 4 #define XkbMaxKbdGroup (XkbNumKbdGroups-1) #define XkbMaxMouseKeysBtn 4 /* * Group Index and Mask: * - Indices into the kt_index array of a key type. * - Mask specifies types to be changed for XkbChangeTypesOfKey */ #define XkbGroup1Index 0 #define XkbGroup2Index 1 #define XkbGroup3Index 2 #define XkbGroup4Index 3 #define XkbAnyGroup 254 #define XkbAllGroups 255 #define XkbGroup1Mask (1<<0) #define XkbGroup2Mask (1<<1) #define XkbGroup3Mask (1<<2) #define XkbGroup4Mask (1<<3) #define XkbAnyGroupMask (1<<7) #define XkbAllGroupsMask (0xf) /* * BuildCoreState: Given a keyboard group and a modifier state, * construct the value to be reported an event. * GroupForCoreState: Given the state reported in an event, * determine the keyboard group. * IsLegalGroup: Returns TRUE if 'g' is a valid group index. */ #define XkbBuildCoreState(m,g) ((((g)&0x3)<<13)|((m)&0xff)) #define XkbGroupForCoreState(s) (((s)>>13)&0x3) #define XkbIsLegalGroup(g) (((g)>=0)&&((g)<XkbNumKbdGroups)) /* * GroupsWrap values: * - The 'groupsWrap' field of an XkbControlsRec specifies the * treatment of out of range groups. * - Bits 6 and 7 of the group info field of a key symbol map * specify the interpretation of out of range groups for the * corresponding key. */ #define XkbWrapIntoRange (0x00) #define XkbClampIntoRange (0x40) #define XkbRedirectIntoRange (0x80) /* * Action flags: Reported in the 'flags' field of most key actions. * Interpretation depends on the type of the action; not all actions * accept all flags. * * Option Used for Actions * ------ ---------------- * ClearLocks SetMods, LatchMods, SetGroup, LatchGroup * LatchToLock SetMods, LatchMods, SetGroup, LatchGroup * LockNoLock LockMods, ISOLock, LockPtrBtn, LockDeviceBtn * LockNoUnlock LockMods, ISOLock, LockPtrBtn, LockDeviceBtn * UseModMapMods SetMods, LatchMods, LockMods, ISOLock * GroupAbsolute SetGroup, LatchGroup, LockGroup, ISOLock * UseDfltButton PtrBtn, LockPtrBtn * NoAcceleration MovePtr * MoveAbsoluteX MovePtr * MoveAbsoluteY MovePtr * ISODfltIsGroup ISOLock * ISONoAffectMods ISOLock * ISONoAffectGroup ISOLock * ISONoAffectPtr ISOLock * ISONoAffectCtrls ISOLock * MessageOnPress ActionMessage * MessageOnRelease ActionMessage * MessageGenKeyEvent ActionMessage * AffectDfltBtn SetPtrDflt * DfltBtnAbsolute SetPtrDflt * SwitchApplication SwitchScreen * SwitchAbsolute SwitchScreen */ #define XkbSA_ClearLocks (1L << 0) #define XkbSA_LatchToLock (1L << 1) #define XkbSA_LockNoLock (1L << 0) #define XkbSA_LockNoUnlock (1L << 1) #define XkbSA_UseModMapMods (1L << 2) #define XkbSA_GroupAbsolute (1L << 2) #define XkbSA_UseDfltButton 0 #define XkbSA_NoAcceleration (1L << 0) #define XkbSA_MoveAbsoluteX (1L << 1) #define XkbSA_MoveAbsoluteY (1L << 2) #define XkbSA_ISODfltIsGroup (1L << 7) #define XkbSA_ISONoAffectMods (1L << 6) #define XkbSA_ISONoAffectGroup (1L << 5) #define XkbSA_ISONoAffectPtr (1L << 4) #define XkbSA_ISONoAffectCtrls (1L << 3) #define XkbSA_ISOAffectMask (0x78) #define XkbSA_MessageOnPress (1L << 0) #define XkbSA_MessageOnRelease (1L << 1) #define XkbSA_MessageGenKeyEvent (1L << 2) #define XkbSA_AffectDfltBtn 1 #define XkbSA_DfltBtnAbsolute (1L << 2) #define XkbSA_SwitchApplication (1L << 0) #define XkbSA_SwitchAbsolute (1L << 2) /* * The following values apply to the SA_DeviceValuator * action only. Valuator operations specify the action * to be taken. Values specified in the action are * multiplied by 2^scale before they are applied. */ #define XkbSA_IgnoreVal (0x00) #define XkbSA_SetValMin (0x10) #define XkbSA_SetValCenter (0x20) #define XkbSA_SetValMax (0x30) #define XkbSA_SetValRelative (0x40) #define XkbSA_SetValAbsolute (0x50) #define XkbSA_ValOpMask (0x70) #define XkbSA_ValScaleMask (0x07) #define XkbSA_ValOp(a) ((a)&XkbSA_ValOpMask) #define XkbSA_ValScale(a) ((a)&XkbSA_ValScaleMask) /* * Action types: specifies the type of a key action. Reported in the * type field of all key actions. */ #define XkbSA_NoAction 0x00 #define XkbSA_SetMods 0x01 #define XkbSA_LatchMods 0x02 #define XkbSA_LockMods 0x03 #define XkbSA_SetGroup 0x04 #define XkbSA_LatchGroup 0x05 #define XkbSA_LockGroup 0x06 #define XkbSA_MovePtr 0x07 #define XkbSA_PtrBtn 0x08 #define XkbSA_LockPtrBtn 0x09 #define XkbSA_SetPtrDflt 0x0a #define XkbSA_ISOLock 0x0b #define XkbSA_Terminate 0x0c #define XkbSA_SwitchScreen 0x0d #define XkbSA_SetControls 0x0e #define XkbSA_LockControls 0x0f #define XkbSA_ActionMessage 0x10 #define XkbSA_RedirectKey 0x11 #define XkbSA_DeviceBtn 0x12 #define XkbSA_LockDeviceBtn 0x13 #define XkbSA_DeviceValuator 0x14 #define XkbSA_LastAction XkbSA_DeviceValuator #define XkbSA_NumActions (XkbSA_LastAction+1) #define XkbSA_XFree86Private 0x86 /* * Specifies the key actions that clear latched groups or modifiers. */ #define XkbSA_BreakLatch \ ((1<<XkbSA_NoAction)|(1<<XkbSA_PtrBtn)|(1<<XkbSA_LockPtrBtn)|\ (1<<XkbSA_Terminate)|(1<<XkbSA_SwitchScreen)|(1<<XkbSA_SetControls)|\ (1<<XkbSA_LockControls)|(1<<XkbSA_ActionMessage)|\ (1<<XkbSA_RedirectKey)|(1<<XkbSA_DeviceBtn)|(1<<XkbSA_LockDeviceBtn)) /* * Macros to classify key actions */ #define XkbIsModAction(a) (((a)->type>=Xkb_SASetMods)&&((a)->type<=XkbSA_LockMods)) #define XkbIsGroupAction(a) (((a)->type>=XkbSA_SetGroup)&&((a)->type<=XkbSA_LockGroup)) #define XkbIsPtrAction(a) (((a)->type>=XkbSA_MovePtr)&&((a)->type<=XkbSA_SetPtrDflt)) /* * Key Behavior Qualifier: * KB_Permanent indicates that the behavior describes an unalterable * characteristic of the keyboard, not an XKB software-simulation of * the listed behavior. * Key Behavior Types: * Specifies the behavior of the underlying key. */ #define XkbKB_Permanent 0x80 #define XkbKB_OpMask 0x7f #define XkbKB_Default 0x00 #define XkbKB_Lock 0x01 #define XkbKB_RadioGroup 0x02 #define XkbKB_Overlay1 0x03 #define XkbKB_Overlay2 0x04 #define XkbKB_RGAllowNone 0x80 /* * Various macros which describe the range of legal keycodes. */ #define XkbMinLegalKeyCode 8 #define XkbMaxLegalKeyCode 255 #define XkbMaxKeyCount (XkbMaxLegalKeyCode-XkbMinLegalKeyCode+1) #define XkbPerKeyBitArraySize ((XkbMaxLegalKeyCode+1)/8) /* Seems kinda silly to check that an unsigned char is <= 255... */ #define XkbIsLegalKeycode(k) ((k)>=XkbMinLegalKeyCode) /* * Assorted constants and limits. */ #define XkbNumModifiers 8 #define XkbNumVirtualMods 16 #define XkbNumIndicators 32 #define XkbAllIndicatorsMask (0xffffffff) #define XkbMaxRadioGroups 32 #define XkbAllRadioGroupsMask (0xffffffff) #define XkbMaxShiftLevel 63 #define XkbMaxSymsPerKey (XkbMaxShiftLevel*XkbNumKbdGroups) #define XkbRGMaxMembers 12 #define XkbActionMessageLength 6 #define XkbKeyNameLength 4 #define XkbMaxRedirectCount 8 #define XkbGeomPtsPerMM 10 #define XkbGeomMaxColors 32 #define XkbGeomMaxLabelColors 3 #define XkbGeomMaxPriority 255 /* * Key Type index and mask for the four standard key types. */ #define XkbOneLevelIndex 0 #define XkbTwoLevelIndex 1 #define XkbAlphabeticIndex 2 #define XkbKeypadIndex 3 #define XkbLastRequiredType XkbKeypadIndex #define XkbNumRequiredTypes (XkbLastRequiredType+1) #define XkbMaxKeyTypes 255 #define XkbOneLevelMask (1<<0) #define XkbTwoLevelMask (1<<1) #define XkbAlphabeticMask (1<<2) #define XkbKeypadMask (1<<3) #define XkbAllRequiredTypes (0xf) #define XkbShiftLevel(n) ((n)-1) #define XkbShiftLevelMask(n) (1<<((n)-1)) /* * Extension name and version information */ #define XkbName "XKEYBOARD" #define XkbMajorVersion 1 #define XkbMinorVersion 0 /* * Explicit map components: * - Used in the 'explicit' field of an XkbServerMap. Specifies * the keyboard components that should _not_ be updated automatically * in response to core protocol keyboard mapping requests. */ #define XkbExplicitKeyTypesMask (0x0f) #define XkbExplicitKeyType1Mask (1<<0) #define XkbExplicitKeyType2Mask (1<<1) #define XkbExplicitKeyType3Mask (1<<2) #define XkbExplicitKeyType4Mask (1<<3) #define XkbExplicitInterpretMask (1<<4) #define XkbExplicitAutoRepeatMask (1<<5) #define XkbExplicitBehaviorMask (1<<6) #define XkbExplicitVModMapMask (1<<7) #define XkbAllExplicitMask (0xff) /* * Map components masks: * Those in AllMapComponentsMask: * - Specifies the individual fields to be loaded or changed for the * GetMap and SetMap requests. * Those in ClientInfoMask: * - Specifies the components to be allocated by XkbAllocClientMap. * Those in ServerInfoMask: * - Specifies the components to be allocated by XkbAllocServerMap. */ #define XkbKeyTypesMask (1<<0) #define XkbKeySymsMask (1<<1) #define XkbModifierMapMask (1<<2) #define XkbExplicitComponentsMask (1<<3) #define XkbKeyActionsMask (1<<4) #define XkbKeyBehaviorsMask (1<<5) #define XkbVirtualModsMask (1<<6) #define XkbVirtualModMapMask (1<<7) #define XkbAllClientInfoMask (XkbKeyTypesMask|XkbKeySymsMask|XkbModifierMapMask) #define XkbAllServerInfoMask (XkbExplicitComponentsMask|XkbKeyActionsMask|XkbKeyBehaviorsMask|XkbVirtualModsMask|XkbVirtualModMapMask) #define XkbAllMapComponentsMask (XkbAllClientInfoMask|XkbAllServerInfoMask) /* * Symbol interpretations flags: * - Used in the flags field of a symbol interpretation */ #define XkbSI_AutoRepeat (1<<0) #define XkbSI_LockingKey (1<<1) /* * Symbol interpretations match specification: * - Used in the match field of a symbol interpretation to specify * the conditions under which an interpretation is used. */ #define XkbSI_LevelOneOnly (0x80) #define XkbSI_OpMask (0x7f) #define XkbSI_NoneOf (0) #define XkbSI_AnyOfOrNone (1) #define XkbSI_AnyOf (2) #define XkbSI_AllOf (3) #define XkbSI_Exactly (4) /* * Indicator map flags: * - Used in the flags field of an indicator map to indicate the * conditions under which and indicator can be changed and the * effects of changing the indicator. */ #define XkbIM_NoExplicit (1L << 7) #define XkbIM_NoAutomatic (1L << 6) #define XkbIM_LEDDrivesKB (1L << 5) /* * Indicator map component specifications: * - Used by the 'which_groups' and 'which_mods' fields of an indicator * map to specify which keyboard components should be used to drive * the indicator. */ #define XkbIM_UseBase (1L << 0) #define XkbIM_UseLatched (1L << 1) #define XkbIM_UseLocked (1L << 2) #define XkbIM_UseEffective (1L << 3) #define XkbIM_UseCompat (1L << 4) #define XkbIM_UseNone 0 #define XkbIM_UseAnyGroup (XkbIM_UseBase|XkbIM_UseLatched|XkbIM_UseLocked\ |XkbIM_UseEffective) #define XkbIM_UseAnyMods (XkbIM_UseAnyGroup|XkbIM_UseCompat) /* * Compatibility Map Compontents: * - Specifies the components to be allocated in XkbAllocCompatMap. */ #define XkbSymInterpMask (1<<0) #define XkbGroupCompatMask (1<<1) #define XkbAllCompatMask (0x3) /* * Names component mask: * - Specifies the names to be loaded or changed for the GetNames and * SetNames requests. * - Specifies the names that have changed in a NamesNotify event. * - Specifies the names components to be allocated by XkbAllocNames. */ #define XkbKeycodesNameMask (1<<0) #define XkbGeometryNameMask (1<<1) #define XkbSymbolsNameMask (1<<2) #define XkbPhysSymbolsNameMask (1<<3) #define XkbTypesNameMask (1<<4) #define XkbCompatNameMask (1<<5) #define XkbKeyTypeNamesMask (1<<6) #define XkbKTLevelNamesMask (1<<7) #define XkbIndicatorNamesMask (1<<8) #define XkbKeyNamesMask (1<<9) #define XkbKeyAliasesMask (1<<10) #define XkbVirtualModNamesMask (1<<11) #define XkbGroupNamesMask (1<<12) #define XkbRGNamesMask (1<<13) #define XkbComponentNamesMask (0x3f) #define XkbAllNamesMask (0x3fff) /* * GetByName components: * - Specifies desired or necessary components to GetKbdByName request. * - Reports the components that were found in a GetKbdByNameReply */ #define XkbGBN_TypesMask (1L << 0) #define XkbGBN_CompatMapMask (1L << 1) #define XkbGBN_ClientSymbolsMask (1L << 2) #define XkbGBN_ServerSymbolsMask (1L << 3) #define XkbGBN_SymbolsMask (XkbGBN_ClientSymbolsMask|XkbGBN_ServerSymbolsMask) #define XkbGBN_IndicatorMapMask (1L << 4) #define XkbGBN_KeyNamesMask (1L << 5) #define XkbGBN_GeometryMask (1L << 6) #define XkbGBN_OtherNamesMask (1L << 7) #define XkbGBN_AllComponentsMask (0xff) /* * ListComponents flags */ #define XkbLC_Hidden (1L << 0) #define XkbLC_Default (1L << 1) #define XkbLC_Partial (1L << 2) #define XkbLC_AlphanumericKeys (1L << 8) #define XkbLC_ModifierKeys (1L << 9) #define XkbLC_KeypadKeys (1L << 10) #define XkbLC_FunctionKeys (1L << 11) #define XkbLC_AlternateGroup (1L << 12) /* * X Input Extension Interactions * - Specifies the possible interactions between XKB and the X input * extension * - Used to request (XkbGetDeviceInfo) or change (XKbSetDeviceInfo) * XKB information about an extension device. * - Reports the list of supported optional features in the reply to * XkbGetDeviceInfo or in an XkbExtensionDeviceNotify event. * XkbXI_UnsupportedFeature is reported in XkbExtensionDeviceNotify * events to indicate an attempt to use an unsupported feature. */ #define XkbXI_KeyboardsMask (1L << 0) #define XkbXI_ButtonActionsMask (1L << 1) #define XkbXI_IndicatorNamesMask (1L << 2) #define XkbXI_IndicatorMapsMask (1L << 3) #define XkbXI_IndicatorStateMask (1L << 4) #define XkbXI_UnsupportedFeatureMask (1L << 15) #define XkbXI_AllFeaturesMask (0x001f) #define XkbXI_AllDeviceFeaturesMask (0x001e) #define XkbXI_IndicatorsMask (0x001c) #define XkbAllExtensionDeviceEventsMask (0x801f) /* * Per-Client Flags: * - Specifies flags to be changed by the PerClientFlags request. */ #define XkbPCF_DetectableAutoRepeatMask (1L << 0) #define XkbPCF_GrabsUseXKBStateMask (1L << 1) #define XkbPCF_AutoResetControlsMask (1L << 2) #define XkbPCF_LookupStateWhenGrabbed (1L << 3) #define XkbPCF_SendEventUsesXKBState (1L << 4) #define XkbPCF_AllFlagsMask (0x1F) /* * Debugging flags and controls */ #define XkbDF_DisableLocks (1<<0) #endif /* _XKB_H_ */ p 0x04 #define XkbSA_LatchGroup 0x05 #define XkbSA_LockGroup 0x06 #define XkbSA_MovePtr 0x07 #define XkbSA_PtrBtn 0x08 #define XkbSA_LockPtrBtn 0x09 #define XkbSA_SetPtrDflt 0x0a #define XkbSA_ISOLock 0x0b #define XkbSA_Terminate 0x0c #define XkbSA_SwitchScreen 0x0d #define XkbSA_SetControls 0x0e #define XkbSA_LockControls 0x0f #define XkbSA_ActionMessage 0x10 #define XkbSA_RedirectKey 0x11 #define XkbSA_DeviceBtn 0x12 #kbproto-1.0.7/COPYING�������������������������������������������������������������������������������0000644�0143106�0000012�00000002224�12520611225�0014507�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������kbproto-1.0.7/XKBgeom.h�����������������������������������������������������������������������������0000644�0143106�0000012�00000036710�12520611225�0015130�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������/************************************************************ Copyright (c) 1993 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #ifndef _XKBGEOM_H_ #define _XKBGEOM_H_ #include <X11/extensions/XKBstr.h> #ifdef XKB_IN_SERVER #define XkbAddGeomKeyAlias SrvXkbAddGeomKeyAlias #define XkbAddGeomColor SrvXkbAddGeomColor #define XkbAddGeomDoodad SrvXkbAddGeomDoodad #define XkbAddGeomKey SrvXkbAddGeomKey #define XkbAddGeomOutline SrvXkbAddGeomOutline #define XkbAddGeomOverlay SrvXkbAddGeomOverlay #define XkbAddGeomOverlayRow SrvXkbAddGeomOverlayRow #define XkbAddGeomOverlayKey SrvXkbAddGeomOverlayKey #define XkbAddGeomProperty SrvXkbAddGeomProperty #define XkbAddGeomRow SrvXkbAddGeomRow #define XkbAddGeomSection SrvXkbAddGeomSection #define XkbAddGeomShape SrvXkbAddGeomShape #define XkbAllocGeomKeyAliases SrvXkbAllocGeomKeyAliases #define XkbAllocGeomColors SrvXkbAllocGeomColors #define XkbAllocGeomDoodads SrvXkbAllocGeomDoodads #define XkbAllocGeomKeys SrvXkbAllocGeomKeys #define XkbAllocGeomOutlines SrvXkbAllocGeomOutlines #define XkbAllocGeomPoints SrvXkbAllocGeomPoints #define XkbAllocGeomProps SrvXkbAllocGeomProps #define XkbAllocGeomRows SrvXkbAllocGeomRows #define XkbAllocGeomSectionDoodads SrvXkbAllocGeomSectionDoodads #define XkbAllocGeomSections SrvXkbAllocGeomSections #define XkbAllocGeomOverlays SrvXkbAllocGeomOverlays #define XkbAllocGeomOverlayRows SrvXkbAllocGeomOverlayRows #define XkbAllocGeomOverlayKeys SrvXkbAllocGeomOverlayKeys #define XkbAllocGeomShapes SrvXkbAllocGeomShapes #define XkbAllocGeometry SrvXkbAllocGeometry #define XkbFreeGeomKeyAliases SrvXkbFreeGeomKeyAliases #define XkbFreeGeomColors SrvXkbFreeGeomColors #define XkbFreeGeomDoodads SrvXkbFreeGeomDoodads #define XkbFreeGeomProperties SrvXkbFreeGeomProperties #define XkbFreeGeomOverlayKeys SrvXkbFreeGeomOverlayKeys #define XkbFreeGeomOverlayRows SrvXkbFreeGeomOverlayRows #define XkbFreeGeomOverlays SrvXkbFreeGeomOverlays #define XkbFreeGeomKeys SrvXkbFreeGeomKeys #define XkbFreeGeomRows SrvXkbFreeGeomRows #define XkbFreeGeomSections SrvXkbFreeGeomSections #define XkbFreeGeomPoints SrvXkbFreeGeomPoints #define XkbFreeGeomOutlines SrvXkbFreeGeomOutlines #define XkbFreeGeomShapes SrvXkbFreeGeomShapes #define XkbFreeGeometry SrvXkbFreeGeometry #endif typedef struct _XkbProperty { char *name; char *value; } XkbPropertyRec,*XkbPropertyPtr; typedef struct _XkbColor { unsigned int pixel; char * spec; } XkbColorRec,*XkbColorPtr; typedef struct _XkbPoint { short x; short y; } XkbPointRec, *XkbPointPtr; typedef struct _XkbBounds { short x1,y1; short x2,y2; } XkbBoundsRec, *XkbBoundsPtr; #define XkbBoundsWidth(b) (((b)->x2)-((b)->x1)) #define XkbBoundsHeight(b) (((b)->y2)-((b)->y1)) /* * In the following structs, this pattern is used for dynamically sized arrays: * foo is an array for which sz_foo entries are allocated & num_foo are used */ typedef struct _XkbOutline { unsigned short num_points; unsigned short sz_points; unsigned short corner_radius; XkbPointPtr points; } XkbOutlineRec, *XkbOutlinePtr; typedef struct _XkbShape { Atom name; unsigned short num_outlines; unsigned short sz_outlines; XkbOutlinePtr outlines; XkbOutlinePtr approx; XkbOutlinePtr primary; XkbBoundsRec bounds; } XkbShapeRec, *XkbShapePtr; #define XkbOutlineIndex(s,o) ((int)((o)-&(s)->outlines[0])) typedef struct _XkbShapeDoodad { Atom name; unsigned char type; unsigned char priority; short top; short left; short angle; unsigned short color_ndx; unsigned short shape_ndx; } XkbShapeDoodadRec, *XkbShapeDoodadPtr; #define XkbShapeDoodadColor(g,d) (&(g)->colors[(d)->color_ndx]) #define XkbShapeDoodadShape(g,d) (&(g)->shapes[(d)->shape_ndx]) #define XkbSetShapeDoodadColor(g,d,c) ((d)->color_ndx= (c)-&(g)->colors[0]) #define XkbSetShapeDoodadShape(g,d,s) ((d)->shape_ndx= (s)-&(g)->shapes[0]) typedef struct _XkbTextDoodad { Atom name; unsigned char type; unsigned char priority; short top; short left; short angle; short width; short height; unsigned short color_ndx; char * text; char * font; } XkbTextDoodadRec, *XkbTextDoodadPtr; #define XkbTextDoodadColor(g,d) (&(g)->colors[(d)->color_ndx]) #define XkbSetTextDoodadColor(g,d,c) ((d)->color_ndx= (c)-&(g)->colors[0]) typedef struct _XkbIndicatorDoodad { Atom name; unsigned char type; unsigned char priority; short top; short left; short angle; unsigned short shape_ndx; unsigned short on_color_ndx; unsigned short off_color_ndx; } XkbIndicatorDoodadRec, *XkbIndicatorDoodadPtr; #define XkbIndicatorDoodadShape(g,d) (&(g)->shapes[(d)->shape_ndx]) #define XkbIndicatorDoodadOnColor(g,d) (&(g)->colors[(d)->on_color_ndx]) #define XkbIndicatorDoodadOffColor(g,d) (&(g)->colors[(d)->off_color_ndx]) #define XkbSetIndicatorDoodadOnColor(g,d,c) \ ((d)->on_color_ndx= (c)-&(g)->colors[0]) #define XkbSetIndicatorDoodadOffColor(g,d,c) \ ((d)->off_color_ndx= (c)-&(g)->colors[0]) #define XkbSetIndicatorDoodadShape(g,d,s) \ ((d)->shape_ndx= (s)-&(g)->shapes[0]) typedef struct _XkbLogoDoodad { Atom name; unsigned char type; unsigned char priority; short top; short left; short angle; unsigned short color_ndx; unsigned short shape_ndx; char * logo_name; } XkbLogoDoodadRec, *XkbLogoDoodadPtr; #define XkbLogoDoodadColor(g,d) (&(g)->colors[(d)->color_ndx]) #define XkbLogoDoodadShape(g,d) (&(g)->shapes[(d)->shape_ndx]) #define XkbSetLogoDoodadColor(g,d,c) ((d)->color_ndx= (c)-&(g)->colors[0]) #define XkbSetLogoDoodadShape(g,d,s) ((d)->shape_ndx= (s)-&(g)->shapes[0]) typedef struct _XkbAnyDoodad { Atom name; unsigned char type; unsigned char priority; short top; short left; short angle; } XkbAnyDoodadRec, *XkbAnyDoodadPtr; typedef union _XkbDoodad { XkbAnyDoodadRec any; XkbShapeDoodadRec shape; XkbTextDoodadRec text; XkbIndicatorDoodadRec indicator; XkbLogoDoodadRec logo; } XkbDoodadRec, *XkbDoodadPtr; #define XkbUnknownDoodad 0 #define XkbOutlineDoodad 1 #define XkbSolidDoodad 2 #define XkbTextDoodad 3 #define XkbIndicatorDoodad 4 #define XkbLogoDoodad 5 typedef struct _XkbKey { XkbKeyNameRec name; short gap; unsigned char shape_ndx; unsigned char color_ndx; } XkbKeyRec, *XkbKeyPtr; #define XkbKeyShape(g,k) (&(g)->shapes[(k)->shape_ndx]) #define XkbKeyColor(g,k) (&(g)->colors[(k)->color_ndx]) #define XkbSetKeyShape(g,k,s) ((k)->shape_ndx= (s)-&(g)->shapes[0]) #define XkbSetKeyColor(g,k,c) ((k)->color_ndx= (c)-&(g)->colors[0]) typedef struct _XkbRow { short top; short left; unsigned short num_keys; unsigned short sz_keys; int vertical; XkbKeyPtr keys; XkbBoundsRec bounds; } XkbRowRec, *XkbRowPtr; typedef struct _XkbSection { Atom name; unsigned char priority; short top; short left; unsigned short width; unsigned short height; short angle; unsigned short num_rows; unsigned short num_doodads; unsigned short num_overlays; unsigned short sz_rows; unsigned short sz_doodads; unsigned short sz_overlays; XkbRowPtr rows; XkbDoodadPtr doodads; XkbBoundsRec bounds; struct _XkbOverlay *overlays; } XkbSectionRec, *XkbSectionPtr; typedef struct _XkbOverlayKey { XkbKeyNameRec over; XkbKeyNameRec under; } XkbOverlayKeyRec,*XkbOverlayKeyPtr; typedef struct _XkbOverlayRow { unsigned short row_under; unsigned short num_keys; unsigned short sz_keys; XkbOverlayKeyPtr keys; } XkbOverlayRowRec,*XkbOverlayRowPtr; typedef struct _XkbOverlay { Atom name; XkbSectionPtr section_under; unsigned short num_rows; unsigned short sz_rows; XkbOverlayRowPtr rows; XkbBoundsPtr bounds; } XkbOverlayRec,*XkbOverlayPtr; typedef struct _XkbGeometry { Atom name; unsigned short width_mm; unsigned short height_mm; char * label_font; XkbColorPtr label_color; XkbColorPtr base_color; unsigned short sz_properties; unsigned short sz_colors; unsigned short sz_shapes; unsigned short sz_sections; unsigned short sz_doodads; unsigned short sz_key_aliases; unsigned short num_properties; unsigned short num_colors; unsigned short num_shapes; unsigned short num_sections; unsigned short num_doodads; unsigned short num_key_aliases; XkbPropertyPtr properties; XkbColorPtr colors; XkbShapePtr shapes; XkbSectionPtr sections; XkbDoodadPtr doodads; XkbKeyAliasPtr key_aliases; } XkbGeometryRec; #define XkbGeomColorIndex(g,c) ((int)((c)-&(g)->colors[0])) #define XkbGeomPropertiesMask (1<<0) #define XkbGeomColorsMask (1<<1) #define XkbGeomShapesMask (1<<2) #define XkbGeomSectionsMask (1<<3) #define XkbGeomDoodadsMask (1<<4) #define XkbGeomKeyAliasesMask (1<<5) #define XkbGeomAllMask (0x3f) typedef struct _XkbGeometrySizes { unsigned int which; unsigned short num_properties; unsigned short num_colors; unsigned short num_shapes; unsigned short num_sections; unsigned short num_doodads; unsigned short num_key_aliases; } XkbGeometrySizesRec,*XkbGeometrySizesPtr; _XFUNCPROTOBEGIN extern XkbPropertyPtr XkbAddGeomProperty( XkbGeometryPtr /* geom */, char * /* name */, char * /* value */ ); extern XkbKeyAliasPtr XkbAddGeomKeyAlias( XkbGeometryPtr /* geom */, char * /* alias */, char * /* real */ ); extern XkbColorPtr XkbAddGeomColor( XkbGeometryPtr /* geom */, char * /* spec */, unsigned int /* pixel */ ); extern XkbOutlinePtr XkbAddGeomOutline( XkbShapePtr /* shape */, int /* sz_points */ ); extern XkbShapePtr XkbAddGeomShape( XkbGeometryPtr /* geom */, Atom /* name */, int /* sz_outlines */ ); extern XkbKeyPtr XkbAddGeomKey( XkbRowPtr /* row */ ); extern XkbRowPtr XkbAddGeomRow( XkbSectionPtr /* section */, int /* sz_keys */ ); extern XkbSectionPtr XkbAddGeomSection( XkbGeometryPtr /* geom */, Atom /* name */, int /* sz_rows */, int /* sz_doodads */, int /* sz_overlays */ ); extern XkbOverlayPtr XkbAddGeomOverlay( XkbSectionPtr /* section */, Atom /* name */, int /* sz_rows */ ); extern XkbOverlayRowPtr XkbAddGeomOverlayRow( XkbOverlayPtr /* overlay */, int /* row_under */, int /* sz_keys */ ); extern XkbOverlayKeyPtr XkbAddGeomOverlayKey( XkbOverlayPtr /* overlay */, XkbOverlayRowPtr /* row */, char * /* over */, char * /* under */ ); extern XkbDoodadPtr XkbAddGeomDoodad( XkbGeometryPtr /* geom */, XkbSectionPtr /* section */, Atom /* name */ ); extern void XkbFreeGeomKeyAliases( XkbGeometryPtr /* geom */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomColors( XkbGeometryPtr /* geom */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomDoodads( XkbDoodadPtr /* doodads */, int /* nDoodads */, Bool /* freeAll */ ); extern void XkbFreeGeomProperties( XkbGeometryPtr /* geom */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomOverlayKeys( XkbOverlayRowPtr /* row */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomOverlayRows( XkbOverlayPtr /* overlay */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomOverlays( XkbSectionPtr /* section */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomKeys( XkbRowPtr /* row */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomRows( XkbSectionPtr /* section */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomSections( XkbGeometryPtr /* geom */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomPoints( XkbOutlinePtr /* outline */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomOutlines( XkbShapePtr /* shape */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeomShapes( XkbGeometryPtr /* geom */, int /* first */, int /* count */, Bool /* freeAll */ ); extern void XkbFreeGeometry( XkbGeometryPtr /* geom */, unsigned int /* which */, Bool /* freeMap */ ); extern Status XkbAllocGeomProps( XkbGeometryPtr /* geom */, int /* nProps */ ); extern Status XkbAllocGeomKeyAliases( XkbGeometryPtr /* geom */, int /* nAliases */ ); extern Status XkbAllocGeomColors( XkbGeometryPtr /* geom */, int /* nColors */ ); extern Status XkbAllocGeomShapes( XkbGeometryPtr /* geom */, int /* nShapes */ ); extern Status XkbAllocGeomSections( XkbGeometryPtr /* geom */, int /* nSections */ ); extern Status XkbAllocGeomOverlays( XkbSectionPtr /* section */, int /* num_needed */ ); extern Status XkbAllocGeomOverlayRows( XkbOverlayPtr /* overlay */, int /* num_needed */ ); extern Status XkbAllocGeomOverlayKeys( XkbOverlayRowPtr /* row */, int /* num_needed */ ); extern Status XkbAllocGeomDoodads( XkbGeometryPtr /* geom */, int /* nDoodads */ ); extern Status XkbAllocGeomSectionDoodads( XkbSectionPtr /* section */, int /* nDoodads */ ); extern Status XkbAllocGeomOutlines( XkbShapePtr /* shape */, int /* nOL */ ); extern Status XkbAllocGeomRows( XkbSectionPtr /* section */, int /* nRows */ ); extern Status XkbAllocGeomPoints( XkbOutlinePtr /* ol */, int /* nPts */ ); extern Status XkbAllocGeomKeys( XkbRowPtr /* row */, int /* nKeys */ ); extern Status XkbAllocGeometry( XkbDescPtr /* xkb */, XkbGeometrySizesPtr /* sizes */ ); extern Status XkbSetGeometry( Display * /* dpy */, unsigned /* deviceSpec */, XkbGeometryPtr /* geom */ ); extern Bool XkbComputeShapeTop( XkbShapePtr /* shape */, XkbBoundsPtr /* bounds */ ); extern Bool XkbComputeShapeBounds( XkbShapePtr /* shape */ ); extern Bool XkbComputeRowBounds( XkbGeometryPtr /* geom */, XkbSectionPtr /* section */, XkbRowPtr /* row */ ); extern Bool XkbComputeSectionBounds( XkbGeometryPtr /* geom */, XkbSectionPtr /* section */ ); extern char * XkbFindOverlayForKey( XkbGeometryPtr /* geom */, XkbSectionPtr /* wanted */, char * /* under */ ); extern Status XkbGetGeometry( Display * /* dpy */, XkbDescPtr /* xkb */ ); extern Status XkbGetNamedGeometry( Display * /* dpy */, XkbDescPtr /* xkb */, Atom /* name */ ); _XFUNCPROTOEND #endif /* _XKBSTR_H_ */ oodadRec logo; } XkbDoodadRec, *XkbDoodadPtr; #define Xkbproto-1.0.7/compile�������������������������������������������������������������������������������0000755�0143106�0000012�00000016245�12520611233�0015041�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������#! /bin/sh # Wrapper for compilers which do not understand '-c -o'. scriptversion=2012-10-14.11; 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EOF exit $? ;; -v | --v*) echo "compile $scriptversion" exit $? ;; cl | *[/\\]cl | cl.exe | *[/\\]cl.exe ) func_cl_wrapper "$@" # Doesn't return... ;; esac ofile= cfile= for arg do if test -n "$eat"; then eat= else case $1 in -o) # configure might choose to run compile as 'compile cc -o foo foo.c'. # So we strip '-o arg' only if arg is an object. eat=1 case $2 in *.o | *.obj) ofile=$2 ;; *) set x "$@" -o "$2" shift ;; esac ;; *.c) cfile=$1 set x "$@" "$1" shift ;; *) set x "$@" "$1" shift ;; esac fi shift done if test -z "$ofile" || test -z "$cfile"; then # If no '-o' option was seen then we might have been invoked from a # pattern rule where we don't need one. That is ok -- this is a # normal compilation that the losing compiler can handle. If no # '.c' file was seen then we are probably linking. That is also # ok. exec "$@" fi # Name of file we expect compiler to create. cofile=`echo "$cfile" | sed 's|^.*[\\/]||; s|^[a-zA-Z]:||; s/\.c$/.o/'` # Create the lock directory. # Note: use '[/\\:.-]' here to ensure that we don't use the same name # that we are using for the .o file. Also, base the name on the expected # object file name, since that is what matters with a parallel build. lockdir=`echo "$cofile" | sed -e 's|[/\\:.-]|_|g'`.d while true; do if mkdir "$lockdir" >/dev/null 2>&1; then break fi sleep 1 done # FIXME: race condition here if user kills between mkdir and trap. trap "rmdir '$lockdir'; exit 1" 1 2 15 # Run the compile. "$@" ret=$? if test -f "$cofile"; then test "$cofile" = "$ofile" || mv "$cofile" "$ofile" elif test -f "${cofile}bj"; then test "${cofile}bj" = "$ofile" || mv "${cofile}bj" "$ofile" fi rmdir "$lockdir" exit $ret # Local Variables: # mode: shell-script # sh-indentation: 2 # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "scriptversion=" # time-stamp-format: "%:y-%02m-%02d.%02H" # time-stamp-time-zone: "UTC" # time-stamp-end: "; # UTC" # End: �����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������kbproto-1.0.7/kbproto.pc.in�������������������������������������������������������������������������0000644�0143106�0000012�00000000267�12520611225�0016072�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������prefix=@prefix@ exec_prefix=@exec_prefix@ libdir=@libdir@ includedir=@includedir@ Name: KBProto Description: KB extension headers Version: @PACKAGE_VERSION@ Cflags: -I${includedir} �����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������kbproto-1.0.7/specs/acknowledgements.xml������������������������������������������������������������0000644�0143106�0000012�00000005267�12520611225�0020657�0����������������������������������������������������������������������������������������������������ustar�00alanc���������������������������staff���������������������������0000266�0200006������������������������������������������������������������������������������������������������������������������������������������������������������������������������<preface> <title>Acknowledgments I am grateful for all of the comments and suggestions I have received over the years. I could not possibly list everyone who has helped, but a few people have gone well above and beyond the call of duty and simply must be listed here. My managers here at SGI, Tom Paquin (now at Netscape) and Gianni Mariani were wonderful. Rather than insisting on some relatively quick, specialized proprietary solution to the keyboard problems we were having, both Tom and Gianni understood the importance of solving them in a general way and for the community as a whole. That was a difficult position to take and it was even harder to maintain when the scope of the project expanded beyond anything we imagined was possible. Gianni and Tom were unflagging in their support and their desire to “do the right thing” despite the schedule and budget pressure that intervened from time to time. Will Walker, at Digital Equipment Corporation, has been a longtime supporter of XKB. His help and input was essential to ensure that the extension as a whole fits and works together well. His focus was AccessX but the entire extension has benefited from his input and hard work. Without his unflagging good cheer and willingness to lend a hand, XKB would not be where it is today. Matt Landau, at the X Consortium, stood behind XKB during some tough spots in the release and standardization process. Without Matt’s support, XKB would likely not be a standard for a long time to come. When it became clear that we had too much to do for the amount of time we had remaining, Matt did a fantastic job of finding people to help finish the work needed for standardization. One of those people was George Sachs, at Hewlett-Packard, who jumped in to help out. His help was essential in getting the extension into this release. Another was Donna Converse, who helped figure out how to explain all of this stuff to someone who hadn’t had their head buried in it for years. Amber Benson and Gary Aitken were simply phenomenal. They jumped into a huge and complicated project with good cheer and unbelievable energy. They were “up to speed” and contributing within days. I stand in awe of the amount that they managed to achieve in such a short time. Thanks to Gary and Amber, the XKB library specification is a work of art and a thousand times easier to use and more useful than it would otherwise be. I truly cannot express my gratitude to all of you, without whom this would not have been possible. Erik Fortune Silicon Graphics, Inc. 5 February 1996 kbproto-1.0.7/specs/appC.xml000064401431060000012000000367371252061122500162160ustar00alancstaff00002660200006 New KeySyms New KeySyms KeySyms Used by the ISO9995 Standard Byte 3 Byte 4 Character Name 254 1 ISO LOCK 254 2 ISO LATCHING LEVEL TWO SHIFT 254 3 ISO LEVEL THREE SHIFT 254 4 ISO LATCHING LEVEL THREE SHIFT 254 5 ISO LEVEL THREE SHIFT LOCK 254 6 ISO LATCHING GROUP SHIFT 254 7 ISO GROUP SHIFT LOCK 254 8 ISO NEXT GROUP 254 9 ISO LOCK NEXT GROUP 254 10 ISO PREVIOUS GROUP 254 11 ISO LOCK PREVIOUS GROUP 254 12 ISO FIRST GROUP 254 13 ISO LOCK FIRST GROUP 254 14 ISO LAST GROUP 254 15 ISO LOCK LAST GROUP 254 32 LEFT TAB 254 33 MOVE LINE UP 254 34 MOVE LINE DOWN 254 35 PARTIAL LINE UP 254 36 PARTIAL LINE DOWN 254 37 PARTIAL SPACE LEFT 254 38 PARTIAL SPACE RIGHT 254 39 SET MARGIN LEFT 254 40 SET MARGIN RIGHT 254 41 RELEASE MARGIN LEFT 254 42 RELEASE MARGIN RIGHT 254 43 RELEASE MARGIN LEFT AND RIGHT 254 44 FAST CURSOR LEFT 254 45 FAST CURSOR RIGHT 254 46 FAST CURSOR UP 254 47 FAST CURSOR DOWN 254 48 CONTINUOUS UNDERLINE 254 49 DISCONTINUOUS UNDERLINE 254 50 EMPHASIZE 254 51 CENTER OBJECT 254 52 ISO_ENTER KeySyms Used to Control The Core Pointer Byte 3 Byte 4 Character Name 254 224 POINTER LEFT 254 225 POINTER RIGHT 254 226 POINTER UP 254 227 POINTER DOWN 254 228 POINTER UP AND LEFT 254 229 POINTER UP AND RIGHT 254 230 POINTER DOWN AND LEFT 254 231 POINTER DOWN AND RIGHT 254 232 DEFAULT POINTER BUTTON 254 233 POINTER BUTTON ONE 254 234 POINTER BUTTON TWO 254 235 POINTER BUTTON THREE 254 236 POINTER BUTTON FOUR 254 237 POINTER BUTTON FIVE 254 238 DEFAULT POINTER BUTTON DOUBLE CLICK 254 239 POINTER BUTTON ONE DOUBLE CLICK 254 240 POINTER BUTTON TWO DOUBLE CLICK 254 241 POINTER BUTTON THREE DOUBLE CLICK 254 242 POINTER BUTTON FOUR DOUBLE CLICK 254 243 POINTER BUTTON FIVE DOUBLE CLICK 254 244 DRAG DEFAULT POINTER BUTTON 254 245 DRAG POINTER BUTTON ONE 254 246 DRAG POINTER BUTTON TWO 254 247 DRAG POINTER BUTTON THREE 254 248 DRAG POINTER BUTTON FOUR 254 249 ENABLE POINTER FROM KEYBOARD 254 250 ENABLE KEYBOARD POINTER ACCEL 254 251 SET DEFAULT POINTER BUTTON NEXT 254 252 SET DEFAULT POINTER BUTTON PREVIOUS 254 253 DRAG POINTER BUTTON FIVE KeySyms Used to Change Keyboard Controls Byte 3 Byte 4 Character Name 254 112 ENABLE ACCESSX KEYS 254 113 ENABLE ACCESSX FEEDBACK 254 114 TOGGLE REPEAT KEYS 254 115 TOGGLE SLOW KEYS 254 116 ENABLE BOUNCE KEYS 254 117 ENABLE STICKY KEYS 254 118 ENABLE MOUSE KEYS 254 119 ENABLE MOUSE KEYS ACCELERATION 254 120 ENABLE OVERLAY1 254 121 ENABLE OVERLAY2 254 122 ENABLE AUDIBLE BELL KeySyms Used To Control The Server Byte Byte Character Name 254 208 FIRST SCREEN 254 209 PREVIOUS SCREEN 254 210 NEXT SCREEN 254 211 LAST SCREEN 254 212 TERMINATE SERVER KeySyms for Non-Spacing Diacritical Keys Byte Byte Character Name 254 80 DEAD GRAVE ACCENT 254 81 DEAD ACUTE ACCENT 254 82 DEAD CIRCUMFLEX 254 83 DEAD TILDE 254 84 DEAD MACRON 254 85 DEAD BREVE 254 86 DEAD DOT ABOVE 254 87 DEAD DIAERESIS 254 88 DEAD RING ABOVE 254 89 DEAD DOUBLE ACUTE ACCENT 254 90 DEAD CARON 254 91 DEAD CEDILLA 254 92 DEAD OGONEK 254 93 DEAD IOTA 254 94 DEAD VOICED SOUND 254 95 DEAD SEMI VOICED SOUND 254 96 DEAD DOT BELOW ='c3' colwidth='1.0*'/> Keyboard Bells The core protocol provides requests to control the pitch, volume and duration of the keyboard bell and a request to explicitly sound the bell. The X Keyboard Extension allows clients to disable the audible bell, attach a symbolic name to a bell request or receive an event when the keyboard bell is rung. Client Notification of Bells Clients can ask to receive XkbBellNotify event when a bell is requested by a client or generated by the server. Bells can be sounded due to core protocol Bell requests, X Input Extension DeviceBell requests, X Keyboard Extension XkbBell requests or for reasons internal to the server such as the XKB AccessXFeedback control. Bell events caused by the XkbBell request or by the AccessXFeedback control include an optional window and symbolic name for the bell. If present, the window makes it possible to provide some kind of visual indication of which window caused the sound. The symbolic name can report some information about the reason the bell was generated and makes it possible to generate a distinct sound for each type of bell. Disabling Server Generated Bells The global AudibleBell boolean control for a keyboard indicates whether bells sent to that device should normally cause the server to generate a sound. Applications which provide "sound effects" for the various named bells will typically disable the server generation of bells to avoid burying the user in sounds. When the AudibleBell control is active, all bells caused by core protocol Bell and X Input Extension DeviceBell requests cause the server to generate a sound, as do all bells generated by the XKB AccessXFeedback control. Bells requested via the X kbBell request normally cause a server-generated sound, but clients can ask the server not to sound the default keyboard bell. When the AudibleBell control is disabled, the server generates a sound only for bells that are generated using the XkbBell request and which specify forced delivery of the bell. Generating Named Bells The XkbBell request allows clients to specify a symbolic name which is reported in the bell events they cause. Bells generated by the AccessXFeedback control of this extension also include a symbolic name, but all kinds of feedback cause a single event even if they sound multiple tones. The X server is permitted to use symbolic bell names (when present) to generate sounds other than simple tones, but it is not required to do so. Aside from those used by the XKB AccessXFeedback control (see The AccessXFeedback Control), this extension does not specify bell names or their interpretation. Generating Optional Named Bells Under some circumstances, some kind of quiet audio feedback is useful, but a normal keyboard bell is not. For example, a quiet "launch effect" can be helpful to let the user know that an application has been started, but a loud bell would simply be annoying. To simplify generation of these kinds of effects, the XkbBell request allows clients to specify "event only" bells. The X server never generates a normal keyboard bell for "event only" bells, regardless of the setting of the global AudibleBell control. If the X server generates different sounds depending bell name, it is permitted to generate a sound even for "event only" bells. This field is intended simply to weed out "normal" keyboard bells. Forcing a Server Generated Bell Occasionally, it is useful to force the server to generate a sound. For example, a client could "filter" server bells, generating sound effects for some but sounding the normal server bell for others. Such a client needs a way to tell the server that the requested bell should be generated regardless of the setting of the AudibleBell control. To simplify this process, clients which call the XkbBell request can specify that a bell is forced. A forced bell always causes a server generated sound and never causes a XkbBellNotify event. Because forced bells do not cause bell notify events, they have no associated symbolic name or event window. dow makes it possible to provide some kind of visual indication of which window caused the sound. The symbolic name can report some information about the reason the bell was generated and makes it possible to generate a distinct sound for each type of bell. Disabling Server Generated Bells The glokbproto-1.0.7/specs/appD.xml000064401431060000012000002031671252061122500162100ustar00alancstaff00002660200006 Protocol Encoding Syntactic Conventions This document uses the same syntactic conventions as the encoding of the core X protocol, with the following additions: A LISTofITEMs contains zero or more items of variable type and size. The encode form for a LISTofITEMs is: v LISTofITEMs NAME TYPE MASK-EXPRESSION value1 corresponding field(s) ... valuen corresponding field(s) The MASK-EXPRESSION is an expression using C-style boolean operators and fields of the request which specifies the bitmask used to determine whether or not a mem ber of the LISTofITEMs is present. If present, TYPE specifies the interpretation of the resulting bitmask and the values are listed using the symbolic names of the members of the set. If TYPE is blank, the values are numeric constants. It is possible for a single bit in the MASK-EXPRESSION to control more than one ITEM — if the bit is set, all listed ITEMs are present. It is also possible for multiple bits in the MASK-EXPRESSION to control a single ITEM — if any of the bits associated with an ITEM are set, it is present in the LISTofITEMs. The size of a LISTofITEMS is derived from the items that are present in the list, so it is always given as a variable in the request description, and the request is followed by a section of the form: ITEMs encode-form ... encode-form listing an encode-form for each ITEM. The NAME in each encode-form keys to the fields listed as corresponding to each bit in the MASK-EXPRESSION. Items are not necessarily the same size, and the size specified in the encoding form is the size that the item occupies if it is present. Some types are of variable size. The encode-form for a list of items of a single type but variable size is: S0+..Ss LISTofTYPE name Which indicates that the list has s elements of variable size and that the size of the list is the sum of the sizes of all of the elements that make up the list. The notation Sn refers to the size of the n th element of the list and the notation S* refers to the size of the list as a whole. The definition of a type of variable size includes an expression which specifies the size. The size is specified as a constant plus a variable expression; the constant specifies the size of the fields that are always present and the variables which make up the variable expression are defined in the constant portion of the structure. For example, the following definition specifies a counted string with a two-byte length field preceding the string: TYPE 2+n+p 2 n length n STRING8 string p unused,p=pad(n) Some fields are optional. The size of an optional field has the form: "[ expr ]" where expr specifies the size of the field if it is present. An explanation of the conditions under which the field is present follows the name in the encode form: 1 BOOL more 3 unused [4] CARD32 optData, if more==TRUE This portion of the structure is four bytes long if more is FALSE or eight bytes long if more is TRUE. This notation can also be used in size expressions; for example, the size of the previous structure is written as "4+[4]" bytes. Common Types SETofKB_EVENTTYPE #x0001 XkbNewKeyboardNotify #x0002 XkbMapNotify #x0004 XkbStateNotify #x0008 XkbControlsNotify #x0010 XkbIndicatorStateNotify #x0020 XkbIndicatorMapNotify #x0040 XkbNamesNotify #x0080 XkbCompatMapNotify #x0100 XkbBellNotify #x0200 XkbActionMessage #x0400 XkbAccessXNotify #x0800 XkbExtensionDeviceNotify SETofKB_NKNDETAIL #x01 XkbNKN_Keycodes #x02 XkbNKN_Geometry #x04 XkbNKN_DeviceID SETofKB_AXNDETAIL #x01 XkbAXN_SKPress #x02 XkbAXN_SKAccept #x04 XkbAXN_SKReject #x08 XkbAXN_SKRelease #x10 XkbAXN_BKAccept #x20 XkbAXN_BKReject #x40 XkbAXN_AXKWarning SETofKB_MAPPART #x0001 XkbKeyTypes #x0002 XkbKeySyms #x0004 XkbModifierMap #x0008 XkbExplicitComponents #x0010 XkbKeyActions #x0020 XkbKeyBehaviors #x0040 XkbVirtualMods #x0080 XkbVirtualModMap SETofKB_STATEPART #x0001 XkbModifierState #x0002 XkbModifierBase #x0004 XkbModifierLatch #x0008 XkbModifierLock #x0010 XkbGroupState #x0020 XkbGroupBase #x0040 XkbGroupLatch #x0080 XkbGroupLock #x0100 XkbCompatState #x0200 XkbGrabMods #x0400 XkbCompatGrabMods #x0800 XkbLookupMods #x1000 XkbCompatLookupMods #x2000 XkbPointerButtons SETofKB_BOOLCTRL #x00000001 XkbRepeatKeys #x00000002 XkbSlowKeys #x00000004 XkbBounceKeys #x00000008 XkbStickyKeys #x00000010 XkbMouseKeys #x00000020 XkbMouseKeysAccel #x00000040 XkbAccessXKeys #x00000080 XkbAccessXTimeoutMask #x00000100 XkbAccessXFeedbackMask #x00000200 XkbAudibleBellMask #x00000400 XkbOverlay1Mask #x00000800 XkbOverlay2Mask #x00001000 XkbIgnoreGroupLockMask SETofKB_CONTROL Encodings are the same as for SETofKB_BOOLCTRL, with the addition of: #x080000000 XkbGroupsWrap #x100000000 XkbInternalMods #x200000000 XkbIgnoreLockMods #x400000000 XkbPerKeyRepeat #x800000000 XkbControlsEnabled SETofKB_AXFBOPT #x0001 XkbAX_SKPressFB #x0002 XkbAX_SKAcceptFB #x0004 XkbAX_FeatureFB #x0008 XkbAX_SlowWarnFB #x0010 XkbAX_IndicatorFB #x0020 XkbAX_StickyKeysFB #x0100 XkbAX_SKReleaseFB #x0200 XkbAX_SKRejectFB #x0400 XkbAX_BKRejectFB #x0800 XkbAX_DumbBell SETofKB_AXSKOPT #x0040 XkbAX_TwoKeys #x0080 XkbAX_LatchToLock SETofKB_AXOPTION Encoding same as the bitwise union of : SETofKB_AXFBOPT SETofKB_AXSKOPT KB_DEVICESPEC 0..255 input extension device id #x100 XkbUseCoreKbd #x200 XkbUseCorePtr KB_LEDCLASSRESULT 0 KbdFeedbackClass 4 LedFeedbackClass KB_LEDCLASSSPEC Encoding same as KB_LEDCLASSRESULT, with the addition of: #x0300 XkbDfltXIClass #x0500 XkbAllXIClasses KB_BELLCLASSRESULT 0 KbdFeedbackClass 5 BellFeedbackClass KB_BELLCLASSSPEC Encoding same as KB_BELLCLASSRESULT, with the addition of: #x0300 XkbDfltXIClass KB_IDSPEC 0..255 input extension feedback id #x0400 XkbDfltXIId KB_IDRESULT Encoding same as KB_IDSPEC, with the addition of: #xff00 XkbXINone KB_MULTIIDSPEC encodings same as KB_IDSPEC, with the addition of: #x0500 XkbAllXIIds KB_GROUP 0 XkbGroup1 1 XkbGroup2 2 XkbGroup3 3 XkbGroup4 KB_GROUPS Encoding same as KB_GROUP, with the addition of: 254 XkbAnyGroup 255 XkbAllGroups SETofKB_GROUP #x01 XkbGroup1 #x02 XkbGroup2 #x04 XkbGroup3 #x08 XkbGroup4 SETofKB_GROUPS Encoding same as SETofKB_GROUP, with the addition of: #x80 XkbAnyGroup KB_GROUPSWRAP #x00 XkbWrapIntoRange #x40 XkbClampIntoRange #x80 XkbRedirectIntoRange SETofKB_VMODSHIGH #x80 virtual modifier 15 #x40 virtual modifier 14 #x20 virtual modifier 13 #x10 virtual modifier 12 #x08 virtual modifier 11 #x04 virtual modifier 10 #x02 virtual modifier 9 #x01 virtual modifier 8 SETofKB_VMODSLOW #x80 virtual modifier 7 #x40 virtual modifier 6 #x20 virtual modifier 5 #x10 virtual modifier 4 #x08 virtual modifier 3 #x04 virtual modifier 2 #x02 virtual modifier 1 #x01 virtual modifier 0 SETofKB_VMOD #x8000 virtual modifier 15 #x4000 virtual modifier 14 #x2000 virtual modifier 13 #x1000 virtual modifier 12 #x0800 virtual modifier 11 #x0400 virtual modifier 10 #x0200 virtual modifier 9 #x0100 virtual modifier 8 #x0080 virtual modifier 7 #x0040 virtual modifier 6 #x0020 virtual modifier 5 #x0010 virtual modifier 4 #x0008 virtual modifier 3 #x0004 virtual modifier 2 #x0002 virtual modifier 1 #x0001 virtual modifier 0 SETofKB_EXPLICIT #x80 XkbExplicitVModMap #x40 XkbExplicitBehavior #x20 XkbExplicitAutoRepeat #x10 XkbExplicitInterpret #x08 XkbExplicitKeyType4 #x04 XkbExplicitKeyType3 #x02 XkbExplicitKeyType2 #x01 XkbExplicitKeyType1 KB_SYMINTERPMATCH #x80 XkbSI_LevelOneOnly #x7f operation, one of the following: 0 XkbSI_NoneOf 1 XkbSI_AnyOfOrNone 2 XkbSI_AnyOf 3 XkbSI_AllOf 4 XkbSI_Exactly SETofKB_IMFLAG #x80 XkbIM_NoExplicit #x40 XkbIM_NoAutomatic #x20 XkbIM_LEDDrivesKB SETofKB_IMMODSWHICH #x10 XkbIM_UseCompat #x08 XkbIM_UseEffective #x04 XkbIM_UseLocked #x02 XkbIM_UseLatched #x01 XkbIM_UseBase SETofKB_IMGROUPSWHICH #x10 XkbIM_UseCompat #x08 XkbIM_UseEffective #x04 XkbIM_UseLocked #x02 XkbIM_UseLatched #x01 XkbIM_UseBase KB_INDICATORMAP 1 SETofKB_IMFLAGS flags 1 SETofKB_IMGROUPSWHICH whichGroups 1 SETofKB_GROUP groups 1 SETofKB_IMMODSWHICH whichMods 1 SETofKEYMASK mods 1 SETofKEYMASK realMods 2 SETofKB_VMOD vmods 4 SETofKB_BOOLCTRL ctrls SETofKB_CMDETAIL #x01 XkbSymInterp #x02 XkbGroupCompat SETofKB_NAMEDETAIL #x0001 XkbKeycodesName #x0002 XkbGeometryName #x0004 XkbSymbolsName #x0008 XkbPhysSymbolsName #x0010 XkbTypesName #x0020 XkbCompatName #x0040 XkbKeyTypeNames #x0080 XkbKTLevelNames #x0100 XkbIndicatorNames #x0200 XkbKeyNames #x0400 XkbKeyAliases #x0800 XkbVirtualModNames #x1000 XkbGroupNames #x2000 XkbRGNames SETofKB_GBNDETAIL #x01 XkbGBN_Types #x02 XkbGBN_CompatMap #x04 XkbGBN_ClientSymbols #x08 XkbGBN_ServerSymbols #x10 XkbGBN_IndicatorMaps #x20 XkbGBN_KeyNames #x40 XkbGBN_Geometry #x80 XkbGBN_OtherNames SETofKB_XIEXTDEVFEATURE #x02 XkbXI_ButtonActions #x04 XkbXI_IndicatorNames #x08 XkbXI_IndicatorMaps #x10 XkbXI_IndicatorState SETofKB_XIFEATURE Encoding same as SETofKB_XIEXTDEVFEATURE, with the addition of: #x01 XkbXI_Keyboards SETofKB_XIDETAIL Encoding same as SETofKB_XIFEATURE, with the addition of: #x8000 XkbXI_UnsupportedFeature SETofKB_PERCLIENTFLAG #x01 XkbDetectableAutorepeat #x02 XkbGrabsUseXKBState #x04 XkbAutoResetControls #x08 XkbLookupStateWhenGrabbed #x10 XkbSendEventUsesXKBState KB_MODDEF 1 SETofKEYMASK mask 1 SETofKEYMASK realMods 2 SETofVMOD vmods KB_COUNTED_STRING8 1 l length l STRING8 string KB_COUNTED_STRING16 2 l length l STRING8 string KB_COUNTED_STRING16 p unused,p=pad(2+l) Errors 1 0 Error 2 ?? code 2 CARD16 sequence 4 CARD32 error value most significant 8 bits of error value have the meaning: 0xff XkbErrBadDevice 0xfe XkbErrBadClass 0xfd XkbErrBadId the least significant 8 bits of the error value contain the device id, class, or feedback id which failed. 2 CARD16 minor opcode 1 CARD8 major opcode 21 unused Key Actions 1 0 type 7 unused 1 1 type 1 BITMASK flags #x01 XkbSA_ClearLocks #x02 XkbSA_LatchToLock #x04 XkbSA_UseModMapMods 1 SETofKEYMASK mask 1 SETofKEYMASK real modifiers 1 SETofKB_VMODSHIGH virtual modifiers high 1 SETofKB_VMODSLOW virtual modifiers low 2 unused 1 2 type 1 BITMASK flags #x01 XkbSA_ClearLocks #x02 XkbSA_LatchToLock #x04 XkbSA_UseModMapMods 1 SETofKEYMASK mask 1 SETofKEYMASK real modifiers 1 SETofKB_VMODSHIGH virtual modifiers high 1 SETofKB_VMODSLOW virtual modifiers low 2 unused 1 3 type 1 BITMASK flags #x01 XkbSA_LockNoLock #x02 XkbSA_LockNoUnlock #x04 XkbSA_UseModMapMods 1 SETofKEYMASK mask 1 SETofKEYMASK real modifiers 1 SETofKB_VMODSHIGH virtual modifiers high 1 SETofKB_VMODSLOW virtual modifiers low 2 unused 1 4 type 1 BITMASK flags #x01 XkbSA_ClearLocks #x02 XkbSA_LatchToLock #x04 XkbSA_GroupAbsolute 1 INT8 group 5 unused 1 5 type 1 BITMASK flags #x01 XkbSA_ClearLocks #x02 XkbSA_LatchToLock #x04 XkbSA_GroupAbsolute 1 INT8 group 5 unused 1 6 type 1 BITMASK flags #x01 XkbSA_LockNoLock #x02 XkbSA_LockNoUnlock #x04 XkbSA_GroupAbsolute 1 INT8 group 5 unused 1 7 type 1 BITMASK flags #x01 XkbSA_NoAcceleration #x02 XkbSA_MoveAbsoluteX #x04 XkbSA_MoveAbsoluteY 1 INT8 x high 1 CARD8 x low 1 INT8 y high 1 CARD8 y low 2 unused 1 8 type 1 BITMASK flags 1 CARD8 count 1 CARD8 button 4 unused 1 9 type 1 BITMASK flags 1 unused 1 CARD8 button 4 unused 1 10 type 1 BITMASK flags #x04 XkbSA_DfltBtnAbsolute 1 BITMASK affect #x01 XkbSA_AffectDfltBtn 1 INT8 value 4 unused 1 11 type 1 BITMASK flags #x01 XkbSA_LockNoLock #x02 XkbSA_LockNoUnlock #x04 XkbSA_UseModMapMods (if SA_ISODfltIsGroup is 0) #x04 XkbSA_GroupAbsolute (if SA_ISODfltIsGroup is 1) #x80 XkbSA_ISODfltIsGroup 1 SETofKEYMASK mask 1 SETofKEYMASK real modifiers 1 INT8 group 1 BITMASK affect #x08 XkbSA_ISONoAffectCtrls #x10 XkbSA_ISONoAffectPtr #x20 XkbSA_ISONoAffectGroup #x40 XkbSA_ISONoAffectMods 1 SETofKB_VMODSHIGH virtual modifiers high 1 SETofKB_VMODSLOW virtual modifiers low 1 12 type 7 unused 1 13 type 1 BITMASK flags #x01 XkbSA_SwitchApplication #x04 XkbSA_SwitchAbsolute 1 INT8 new screen 5 unused (must be 0) 1 14 type 3 unused (must be 0) 1 BITMASK boolean controls high #x01 XkbAccessXFeedbackMask #x02 XkbAudibleBellMask #x04 XkbOverlay1Mask #x08 XkbOverlay2Mask #x10 XkbIgnoreGroupLockMask 1 BITMASK boolean controls low #x01 XkbRepeatKeys #x02 XkbSlowKeys #x04 XkbBounceKeys #x08 XkbStickyKeys #x10 XkbMouseKeys #x20 XkbMouseKeysAccel #x40 XkbAccessXKeys #x80 XkbAccessXTimeoutMask 2 unused (must be 0) 1 15 type 3 unused (must be 0) 1 BITMASK boolean controls high #x01 XkbAccessXFeedbackMask #x02 XkbAudibleBellMask #x04 XkbOverlay1Mask #x08 XkbOverlay2Mask #x10 XkbIgnoreGroupLockMask 1 BITMASK boolean controls low #x01 XkbRepeatKeys #x02 XkbSlowKeys #x04 XkbBounceKeys #x08 XkbStickyKeys #x10 XkbMouseKeys #x20 XkbMouseKeysAccel #x40 XkbAccessXKeys #x80 XkbAccessXTimeoutMask 1 16 type 2 unused (must be 0) 1 16 type 1 BITMASK flags #x01 XkbSA_MessageOnPress #x02 XkbSA_MessageOnRelease #x04 XkbSA_MessageGenKeyEvent 6 STRING message 1 17 type 1 KEYCODE new key 1 SETofKEYMASK mask 1 SETofKEYMASK real modifiers 1 SETofKB_VMODSHIGH virtual modfiiers mask high 1 SETofKB_VMODSLOW virtual modifiers mask low 1 SETofKB_VMODSHIGH virtual modifiers high 1 SETofKB_VMODSLOW virtual modfiers low 1 18 type 1 0 flags 1 CARD8 count 1 CARD8 button 1 CARD8 device 3 unused (must be 0) 1 19 type 1 BITMASK flags #x01 XkbSA_LockNoLock #x02 XkbSA_LockNoUnlock 1 unused 1 CARD8 button 1 CARD8 device 1 20 type 1 CARD8 device 1 KB_SA_VALWHAT valuator 1 what #x00 XkbSA_IgnoreVal #x01 XkbSA_SetValMin #x02 XkbSA_SetValCenter #x03 XkbSA_SetValMax #x04 XkbSA_SetValRelative #x05 XkbSA_SetValAbsolute 1 CARD8 valuator 1 index 1 CARD8 valuator 1 value 1 KB_SA_VALWHAT valuator 2 what Encodings as for "valuator 1 what" above 1 CARD8 valuator 2 index 1 CARD8 valuator 2 value Key Behaviors 1 #x00 type 1 unused 1 #x01 type 1 unused 1 #x02 type 1 0..31 group 1 #x03 type 1 KEYCODE key 1 #x04 type 1 CARD8 key 1 #x81 type 1 unused 1 #x82 type 1 0..31 group 1 #x83 type 1 KEYCODE key 1 #x84 type 1 KEYCODE key Requests 1 ?? opcode 1 0 xkb-opcode 2 2 request-length 2 CARD16 wantedMajor 2 CARD16 wantedMinor 1 1 Reply 1 BOOL supported 2 CARD16 sequence number 4 0 reply length 2 1 serverMajor 2 0 serverMinor 20 unused 1 ?? opcode 1 1 xkb-opcode 2 4+(V+p)/4 request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_EVENTTYPE affectWhich 2 SETofKB_EVENTTYPE clear 2 SETofKB_EVENTTYPE selectAll 2 SETofKB_MAPDETAILS affectMap 2 SETofKB_MAPDETAILS map V LISTofITEMs details SETofKB_EVENTTYPE (affectWhich&(~clear)&(~selectAll)) XkbNewKeyboardNotify affectNewKeyboard, newKeyboardDetails XkbStateNotify affectState, stateDetails XkbControlsNotify affectCtrls, ctrlDetails XkbIndicatorStateNotify affectIndicatorState, indicatorStateDetails XkbIndicatorMapNotify affectIndicatorMap, indicatorMapDetails XkbNamesNotify affectNames, namesDetails XkbCompatMapNotify affectCompat, compatDetails XkbBellNotify affectBell, bellDetails XkbActionMessage affectMsgDetails, msgDetails XkbExtensionDeviceNotify affectExtDev, extdevDetails ITEMs p unused, p=pad(V) ITEMs 2 SETofKB_NKNDETAIL affectNewKeyboard 2 SETofKB_NKNDETAIL newKeyboardDetails 2 SETofKB_STATEPART affectState 2 SETofKB_STATEPART stateDetails 4 SETofKB_CONTROL affectCtrls 4 SETofKB_CONTROL ctrlDetails 4 SETofKB_INDICATOR affectIndicatorState 4 SETofKB_INDICATOR indicatorStateDetails 4 SETofKB_INDICATOR affectIndicatorMaps 4 SETofKB_INDICATOR indicatorMapDetails 2 SETofKB_NAME_DETAIL affectNames 2 SETofKB_NAME_DETAIL namesDetails 1 SETofKB_CMDETAIL affectCompat 1 SETofKB_CMDETAIL compatDetails 1 SETofKB_BELLDETAIL affectBell 1 SETofKB_BELLDETAIL bellDetails 1 SETofKB_MSGDETAIL affectMsgDetails 1 SETofKB_MSGDETAIL msgDetails 2 SETofKB_AXNDETAIL affectAccessX 2 SETofKB_AXNDETAIL accessXDetails 2 SETofKB_XIDETAIL affectExtDev 2 SETofKB_XIDETAIL extdevDetails 1 ?? opcode 1 3 xkb-opcode 2 7 request-length 2 KB_DEVICESPEC deviceSpec 2 KB_BELLCLASSSPEC bellClass 2 KB_IDSPEC bellID 1 INT8 percent 1 BOOL forceSound 1 BOOL eventOnly 1 unused 2 INT16 pitch 2 INT16 duration 2 unused 4 ATOM name 4 WINDOW window 1 ?? opcode 1 4 xkb-opcode 2 2 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 0 length 1 SETofKEYMASK mods 1 SETofKEYMASK baseMods 1 SETofKEYMASK latchedMods 1 SETofKEYMASK lockedMods 1 KP_GROUP group 1 KP_GROUP lockedGroup 2 INT16 baseGroup 2 INT16 latchedGroup 1 SETofKEYMASK compatState 1 SETofKEYMASK grabMods 1 SETofKEYMASK compatGrabMods 1 SETofKEYMASK lookupMods 1 SETofKEYMASK compatLookupMods 1 unused 2 SETofBUTMASK ptrBtnState 6 unused 1 ?? opcode 1 5 xkb-opcode 2 4 request-length 2 KB_DEVICESPEC deviceSpec 1 SETofKEYMASK affectModLocks 1 SETofKEYMASK modLocks 1 BOOL lockGroup 1 KB_GROUP groupLock 1 SETofKEYMASK affectModLatches 1 SETofKEYMASK modLatches 1 unused 1 BOOL latchGroup 2 INT16 groupLatch 1 ?? opcode 1 6 xkb-opcode 2 2 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 15 length 1 CARD8 mouseKeysDfltBtn 1 CARD8 numGroups 1 CARD8 groupsWrap 1 SETofKEYMASK internalMods.mask 1 SETofKEYMASK ignoreLockMods.mask 1 SETofKEYMASK internalMods.realMods 1 SETofKEYMASK ignoreLockMods.realMods 1 unused 2 SETofKB_VMOD internalMods.vmods 2 SETofKB_VMOD ignoreLockMods.vmods 2 CARD16 repeatDelay 2 CARD16 repeatInterval 2 CARD16 slowKeysDelay 2 CARD16 debounceDelay 2 CARD16 mouseKeysDelay 2 CARD16 mouseKeysInterval 2 CARD16 mouseKeysTimeToMax 2 CARD16 mouseKeysMaxSpeed 2 INT16 mouseKeysCurve 2 SETofKB_AXOPTION accessXOptions 2 CARD16 accessXTimeout 2 SETofKB_AXOPTION accessXTimeoutOptionsMask 2 SETofKB_AXOPTION accessXTimeoutOptionValues 2 unused 4 SETofKB_BOOLCTRL accessXTimeoutMask 4 SETofKB_BOOLCTRL accessXTimeoutValues 4 SETofKB_BOOLCTRL enabledControls 32 LISTofCARD8 perKeyRepeat 1 ?? opcode 1 7 xkb-opcode 2 25 request-length 2 KB_DEVICESPEC deviceSpec 1 SETofKEYMASK affectInternalRealMods 1 SETofKEYMASK internalRealMods 1 SETofKEYMASK affectIgnoreLockRealMods 1 SETofKEYMASK ignoreLockRealMods 2 SETofKB_VMOD affectInternalVirtualMods 2 SETofKB_VMOD internalVirtualMods 2 SETofKB_VMOD affectIgnoreLockVirtualMods 2 SETofKB_VMOD ignoreLockVirtualMods 1 CARD8 mouseKeysDfltBtn 1 CARD8 groupsWrap 2 SETofKB_AXOPTION accessXOptions 2 unused 4 SETofKB_BOOLCTRL affectEnabledControls 4 SETofKB_BOOLCTRL enabledControls 4 SETofKB_CONTROL changeControls 2 CARD16 repeatDelay 2 CARD16 repeatInterval 2 CARD16 slowKeysDelay 2 CARD16 debounceDelay 2 CARD16 mouseKeysDelay 2 CARD16 mouseKeysInterval 2 CARD16 mouseKeysTimeToMax 2 CARD16 mouseKeysMaxSpeed 2 INT16 mouseKeysCurve 2 CARD16 accessXTimeout 4 SETofKB_BOOLCTRL accessXTimeoutMask 4 SETofKB_BOOLCTRL accessXTimeoutValues 2 SETofKB_AXOPTION accessXTimeoutOptionsMask 2 SETofKB_AXOPTION accessXTimeoutOptionsValues 32 LISTofCARD8 perKeyRepeat 1 CARD8 opcode 1 8 xkb-opcode 2 7 request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_MAPPART full 2 SETofKB_MAPPART partial 1 CARD8 firstType 1 CARD8 nTypes 1 KEYCODE firstKeySym 1 CARD8 nKeySyms 1 KEYCODE firstKeyAction 1 CARD8 nKeyActions 1 KEYCODE firstKeyBehavior 1 CARD8 nKeyBehaviors 2 SETofKB_VMOD virtualMods 1 KEYCODE firstKeyExplicit 1 CARD8 nKeyExplicit 1 KEYCODE firstModMapKey 1 CARD8 nModMapKeys 1 KEYCODE firstVModMapKey 1 CARD8 nVModMapKeys 2 unused 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 2+(I/4) length 2 unused 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 2 SETofKB_MAPPART present 1 CARD8 firstType 1 t nTypes 1 CARD8 totalTypes 1 KEYCODE firstKeySym 2 S totalSyms 1 s nKeySyms 1 KEYCODE firstKeyAction 2 A totalActions 1 a nKeyActions 1 KEYCODE firstKeyBehavior 1 b nKeyBehaviors 1 B totalKeyBehaviors 1 KEYCODE firstKeyExplicit 1 e nKeyExplicit 1 E totalKeyExplicit 1 KEYCODE firstModMapKey 1 m nModMapKeys 1 M totalModMapKeys 1 KEYCODE firstVModMapKey 1 0 nVModMapKeys 1 V totalVModMapKeys 1 unused 2 SETofKB_VMOD virtualMods (has v bits set to 1) I LISTofITEMs map SETofKB_MAPPART (present) XkbKeyTypes typesRtrn XkbKeySyms symsRtrn XkbKeyActions actsRtrn.count, actsRtrn.acts XkbKeyBehaviors behaviorsRtrn XkbVirtualMods vmodsRtrn XkbExplicitComponents explicitRtrn XkbModifierMap modmapRtrn XkbVirtualModMap vmodMapRtrn ITEMs T1+..Tt LISTofKB_KEYTYPE typesRtrn 8s+4S LISTofKB_KEYSYMMAP symsRtrn a LISTofCARD8 actsRtrn.count p unused,p=pad(a) 8A LISTofKB_ACTION actsRtrn.acts 4B LISTofKB_SETBEHAVIOR behaviorsRtrn v LISTofSETofKEYMASK vmodsRtrn p unused, p=pad(v) 2E LISTofKB_SETEXPLICIT explicitRtrn p unused,p=pad(2E) 2M LISTofKB_KEYMODMAP modmapRtrn p unused, p=pad(2M) 4V LISTofKB_KEYVMODMAP vmodMapRtrn KB_KEYTYPE 8+8m+[4m] 1 SETofKEYMASK mods.mask 1 SETofKEYMASK mods.mods 2 SETofKB_VMOD mods.vmods 1 CARD8 numLevels 1 m nMapEntries 1 BOOL hasPreserve 1 unused 8m LISTofKB_KTMAPENTRY map [4m] LISTofKB_MODDEF preserve KB_KTMAPENTRY 1 BOOL active 1 SETofKEYMASK mods.mask 1 CARD8 level 1 SETofKEYMASK mods.mods 2 SETofKB_VMOD mods.vmods 2 unused KB_KEYSYMMAP 8+4n 4 LISTofCARD8 ktIndex 1 CARD8 groupInfo 1 CARD8 width 2 n nSyms 4n LISTofKEYSYM syms KB_SETBEHAVIOR 1 KEYCODE keycode 2 KB_BEHAVIOR behavior 1 unused KB_SETEXPLICIT 1 KEYCODE keycode 1 SETofKB_EXPLICIT explicit KB_KEYMODMAP 1 KEYCODE keycode 1 SETofKB_KEYMASK mods KB_KEYVMODMAP 1 KEYCODE keycode 1 unused 2 SETofKB_VMOD vmods 1 CARD8 opcode 1 9 xkb-opcode 2 9+(I/4) request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_MAPPART present 2 SETofKB_SETMAPFLAGS flags #0001 SetMapResizeTypes #0002 SetMapRecomputeActions 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 1 CARD8 firstType 1 t nTypes 1 KEYCODE firstKeySym 1 s nKeySyms 2 S totalSyms 1 KEYCODE firstKeyAction 1 a nKeyActions 2 A totalActions 1 KEYCODE firstKeyBehavior 1 b nKeyBehaviors 1 B totalKeyBehaviors 1 KEYCODE firstKeyExplicit 1 e nKeyExplicit 1 E totalKeyExplicit 1 KEYCODE firstModMapKey 1 m nModMapKeys 1 M totalModMapKeys 1 KEYCODE firstVModMapKey 1 v nVModMapKeys 1 V totalVModMapKeys 2 SETofKB_VMOD virtualMods (has n bits set to 1) I LISTofITEMs values SETofKB_MAPPART (present) XkbKeyTypes types XkbKeySymbols syms XkbKeyActions actions.count,actions.actions XkbKeyBehaviors behaviors XkbVirtualMods vmods XkbExplicitComponents explicit XkbModifierMap modmap XkbVirtualModMap vmodmap ITEMs T0+..Tt LISTofKB_SETKEYTYPE types 8s+4S LISTofKB_KEYSYMMAP syms a LISTofCARD8 actions.count p unused,p=pad(a) 8A LISTofKB_ACTION actions.actions 4B LISTofKB_SETBEHAVIOR behaviors v LISTofSETofKEYMASK vmods p unused, p=pad(v) 2E LISTofKB_SETEXPLICIT explicit p unused,p=pad(2E) 2M LISTofKB_KEYMODMAP modmap P unused, p=pad(2M) 4V LISTofKB_KEYVMODMAP vmodmap KB_SETKEYTYPE 8+4m+[4m] 1 SETofKEYMASK mask 1 SETofKEYMASK realMods 2 SETofKB_VMOD virtualMods 1 CARD8 numLevels 1 m nMapEntries 1 BOOL preserve 1 unused 4m LISTofKB_KTSETMAPENTRY entries [4m] LISTofKB_MODDEF preserveEntries (if preserve==TRUE) KB_KTSETMAPENTRY 1 CARD8 level 1 SETofKEYMASK realMods 2 SETofKB_VMOD virtualMods 1 ?? opcode 1 10 xkb-opcode 2 3 request-length 2 KB_DEVICESPEC deviceSpec 1 SETofKB_GROUP groups 1 BOOL getAllSI 2 CARD16 firstSI 2 CARD16 nSI 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 (16n+4g)/4 length 1 SETofKB_GROUP groupsRtrn (has g bits set to 1) 1 unused 2 CARD16 firstSIRtrn 2 n nSIRtrn 2 CARD16 nTotalSI 16 unused 16n LISTofKB_SYMINTERPRET siRtrn 4g LISTofKB_MODDEF groupRtrn 1 ?? opcode 1 11 xkb-opcode 2 4+(16n+4g) request-length 2 KB_DEVICESPEC deviceSpec 1 unused 1 BOOL recomputeActions 1 BOOL truncateSI 1 SETofKB_GROUP groups (has g bits set to 1) 2 CARD16 firstSI 2 n nSI 2 unused 16n LISTofKB_SYMINTERPRET si 4g LISTofKB_MODDEF groupMaps 1 ?? opcode 1 12 xkb-opcode 2 2 request-length 2 KB_DEVICESPEC deviceSpec ITEMs 2 unused 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 0 length 4 SETofKB_INDICATOR state 20 unused 1 ?? opcode 1 13 xkb-opcode 2 3 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 4 SETofKB_INDICATOR which 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 12n/4 length 4 SETofKB_INDICATOR which (has n bits set to 1) 4 SETofKB_INDICATOR realIndicators 1 n nIndicators 15 unused 12n LISTofKB_INDICATORMAP maps 1 ?? opcode 1 14 xkb-opcode 2 3+3n request-length 2 KB_DEVICESPEC deviceSpec 2 unused 4 SETofKB_INDICATOR which (has n bits set to 1) 12n LISTofKB_INDICATORMAP maps 1 CARD8 opcode 1 15 xkb-opcode 2 4 request-length 2 KB_DEVICESPEC deviceSpec 2 KB_LEDCLASSSPEC ledClass 2 KB_IDSPEC ledID 2 unused 4 ATOM indicator 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 0 length 4 ATOM indicator 1 BOOL found 1 BOOL on 1 BOOL realIndicator 1 KB_INDICATOR ndx 1 SETofKB_IMFLAGS map.flags 1 SETofKB_IMGROUPSWHICH map.whichGroups 1 SETofKB_GROUPS map.groups 1 SETofKB_IMMODSWHICH map.whichMods 1 SETofKEYMASK map.mods 1 SETofKEYMASK map.realMods 2 SETofKB_VMOD map.vmods 4 SETofKB_BOOLCTRL map.ctrls 1 BOOL supported 3 unused 1 ?? opcode 1 16 xkb-opcode 2 8 request-length 2 KB_DEVICESPEC deviceSpec 2 KB_LEDCLASSSPEC ledClass 2 KB_IDSPEC ledID 2 unused 4 ATOM indicator 1 BOOL setState 1 BOOL on 1 BOOL setMap 1 BOOL createMap 1 unused 1 SETofKB_IMFLAGS map.flags 1 SETofKB_IMGROUPSWHICH map.whichGroups 1 SETofKB_GROUP map.groups 1 SETofKB_IMMODSWHICH map.whichMods 1 SETofKEYMASK map.realMods 2 SETofKB_VMOD map.vmods 4 SETofKB_BOOLCTRL map.ctrls 1 CARD8 opcode 1 17 xkb-opcode 2 3 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 4 SETofKB_NAMEDETAIL which 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 V/4 length 4 SETofKB_NAMEDETAIL which 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 1 t nTypes 1 SETofKB_GROUP groupNames (has g bits set to 1) 2 SETofKB_VMOD virtualMods (has v bits set to 1) 1 KEYCODE firstKey 1 k nKeys 4 SETofKB_INDICATOR indicators (has i bits set to 1) 1 r nRadioGroups 1 a nKeyAliases 2 l nKTLevels 4 unused V LISTofITEMs valueList SETofKB_NAMEDETAIL (which) XkbKeycodesName keycodesName XkbGeometryName geometryName XkbSymbolsName symbolsName XkbPhySymbolsName physSymbolsName XkbTypesName typesName XkbCompatName compatName XkbKeyTypeNames typeNames XkbKTLevelNames nLevelsPerType, ktLevelNames XkbIndicatorNames indicatorNames XkbVirtualModNames virtualModNames XkbGroupNames groupNames XkbKeyNames keyNames XkbKeyAliases keyAliases XkbRGNames radioGroupNames ITEMs 4 ATOM keycodesName 4 ATOM geometryName 4 ATOM symbolsName 4 ATOM physSymbolsName 4 ATOM typesName 4 ATOM compatName 4t LISTofATOM typeNames l LISTofCARD8 nLevelsPerType, sum of all elements=L p unused, p=pad(l) 4L LISTofATOM ktLevelNames 4i LISTofATOM indicatorNames 4v LISTofATOM virtualModNames 4g LISTofATOM groupNames 4k LISTofKB_KEYNAME keyNames 8a LISTofKB_KEYALIAS keyAliases 4r LISTofATOM radioGroupNames 1 CARD8 opcode 1 18 xkb-opcode 2 7+(V/4) request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_VMOD virtualMods 4 SETofKB_NAMEDETAIL which 1 CARD8 firstType 1 t nTypes 1 CARD8 firstKTLevel 1 l nKTLevels 4 SETofKB_INDICATOR indicators (has i bits set to 1) 1 SETofKB_GROUP groupNames (has g bits set to 1) 1 r nRadioGroups 1 KEYCODE firstKey 1 k nKeys 1 a nKeyAliases 1 unused 2 L totalKTLevelNames V LISTofITEMs values SETofKB_NAMEDETAIL (which) XkbKeycodesName keycodesName XkbGeometryName geometryName XkbSymbolsName symbolsName XkbPhySymbolsName physSymbolsName XkbTypesName typesName XkbCompatName compatName XkbKeyTypeNames typeNames XkbKTLevelNames nLevelsPerType, ktLevelNames XkbIndicatorNames indicatorNames XkbVirtualModNames virtualModNames XkbGroupNames groupNames XkbKeyNames keyNames XkbKeyAliases keyAliases XkbRGNames radioGroupNames ITEMs 4 ATOM keycodesName 4 ATOM geometryName 4 ATOM symbolsName 4 ATOM physSymbolsName 4 ATOM typesName 4 ATOM compatName 4t LISTofATOM typeNames l LISTofCARD8 nLevelsPerType p unused, p=pad(l) 4L LISTofATOM ktLevelNames 4i LISTofATOM indicatorNames 4v LISTofATOM virtualModNames 4g LISTofATOM groupNames 4k LISTofKB_KEYNAME keyNames 8a LISTofKB_KEYALIAS keyAliases 4r LISTofATOM radioGroupNames 1 CARD8 opcode 1 19 xkb-opcode 2 3 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 4 ATOM name 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 (f+8p+C*+H*+S*+D*+A*)/4 length 4 ATOM name 1 BOOL found 1 unused 2 CARD16 widthMM 2 CARD16 heightMM 2 p nProperties 2 c nColors 2 h nShapes 2 s nSections 2 d nDoodads 2 a nKeyAliases 1 CARD8 baseColorNdx 1 CARD8 labelColorNdx f KB_COUNTED_STRING16 labelFont 8p LISTofKB_PROPERTY properties C0+..Cc LISTofKB_COUNTED_STRING16 colors H0+..Hh LISTofKB_SHAPE shapes S0+..Ss LISTofKB_SECTION sections D0+..Dd LISTofKB_DOODAD doodads A0+..Aa LISTofKB_KEYALIAS keyAliases KB_PROPERTY 4+n+v 2 n nameLength n STRING8 name 2 v valueLength v STRING8 value KB_SHAPE 8+O* 4 ATOM name 1 o nOutlines 1 CARD8 primaryNdx 1 CARD8 approxNdx 1 unused O0+..Oo LISTofKB_OUTLINE outlines KB_OUTLINE 4+4p 1 p nPoints 1 CARD8 cornerRadius 2 unused 4p LISTofKB_POINT points KB_POINT 2 INT16 x 2 INT16 y KB_SECTION 20+R*+D*+O* 4 ATOM name 2 INT16 top 2 INT16 left 2 CARD16 width 2 CARD16 height 2 INT16 angle 1 CARD8 priority 1 r nRows 1 d nDoodads 1 o nOverlays 2 unused R0+..Rr LISTofKB_ROW rows D0+..Dd LISTofKB_DOODAD doodads O0+..Oo LISTofKB_OVERLAY overlays KB_ROW 8+8k 2 INT16 top 2 INT16 left 1 k nKeys 1 BOOL vertical 2 unused 8k LISTofKB_KEY keys KB_KEY 4 STRING8 name 2 INT16 gap 1 CARD8 shapeNdx 1 CARD8 colorNdx KB_OVERLAY 8+R* 4 ATOM name 1 r nRows 3 unused R0+..Rr LISTofKB_OVERLAYROW rows KB_OVERLAYROW 4+8k 1 CARD8 rowUnder 1 k nKeys 2 unused 8k LISTofKB_OVERLAYKEY keys KB_OVERLAYKEY 4 STRING8 over 4 STRING8 under KB_SHAPEDOODAD 4 ATOM name 1 CARD8 type KB_SHAPEDOODAD #1 XkbOutlineDoodad #2 XkbSolidDoodad 1 CARD8 priority 2 INT16 top 2 INT16 left 2 INT16 angle 1 CARD8 colorNdx 1 CARD8 shapeNdx 6 unused KB_TEXTDOODAD 20+t+f 4 ATOM name 1 CARD8 type #3 XkbTextDoodad 1 CARD8 priority 2 INT16 top 2 INT16 left 2 INT16 angle 2 CARD16 width 2 CARD16 height 1 CARD8 colorNdx 3 unused t KB_COUNTED_STRING16 text f KB_COUNTED_STRING16 font KB_INDICATORDOODAD 4 ATOM name 1 CARD8 type #4 XkbIndicatorDoodad 1 CARD8 priority 2 INT16 top 2 INT16 left 2 INT16 angle 1 CARD8 shapeNdx 1 CARD8 onColorNdx 1 CARD8 offColorNdx 5 unused KB_LOGODOODAD 20+n 4 ATOM name 1 CARD8 type #5 XkbLogoDoodad 1 CARD8 priority 2 INT16 top 2 INT16 left 2 INT16 angle 1 CARD8 colorNdx 1 CARD8 shapeNdx 6 unused n KB_COUNTED_STRING16 logoName KB_DOODAD: KB_SHAPEDOODAD, or KB_TEXTDOODAD, or KB_INDICATORDOODAD, or KB_LOGODOODAD 1 CARD8 opcode 1 20 xkb-opcode 2 7+(f+8p+C*+H*+S*+D*+A*)/4 request-length 2 KB_DEVICESPEC deviceSpec 1 h nShapes 1 s nSections 4 ATOM name 2 CARD16 widthMM 2 CARD16 heightMM 2 p nProperties 2 c nColors 2 d nDoodads 2 a nKeyAliases 1 CARD8 baseColorNdx 1 CARD8 labelColorNdx 2 unused f KB_COUNTED_STRING16 labelFont 8p LISTofKB_PROPERTY properties C0+..Cc LISTofKB_COUNTED_STRING16 colors H0+..Hh LISTofKB_SHAPE shapes S0+..Ss LISTofKB_SECTION sections D0+..Dd LISTofKB_DOODAD doodads A0+..Aa LISTofKB_KEYALIAS keyAliases 1 CARD8 opcode 1 21 xkb-opcode 2 7 request-length 2 KB_DEVICESPEC deviceSpec 2 unused 4 SETofKB_PERCLIENTFLAG change 4 SETofKB_PERCLIENTFLAG value 4 SETofKB_BOOLCTRL ctrlsToChange 4 SETofKB_BOOLCTRL autoCtrls 4 SETofKB_BOOLCTRL autoCtrlValues 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 0 length 4 SETofKB_PERCLIENTFLAG supported 4 SETofKB_PERCLIENTFLAG value 4 SETofKB_BOOLCTRL autoCtrls 4 SETofKB_BOOLCTRL autoCtrlValues 8 unused 1 CARD8 opcode 1 22 xkb-opcode 2 2+(6+m+k+t+c+s+g+p)/4 request-length 2 KB_DEVICESPEC deviceSpec 2 CARD16 maxNames 1 m keymapsSpecLen m STRING keymapsSpec 1 k keycodesSpecLen k STRING keycodesSpec 1 t typesSpecLen t STRING typesSpec 1 c compatMapSpecLen c STRING compatMapSpec 1 s symbolsSpecLen s STRING symbolsSpec 1 g geometrySpecLen g STRING geometrySpec p unused,p=pad(6+m+k+t+c+s+g) 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 (M*+K*+T*+C*+S*+G*+p)/4 length 2 m nKeymaps 2 k nKeycodes 2 t nTypes 2 c nCompatMaps 2 s nSymbols 2 g nGeometries 2 CARD16 extra 10 unused M0+..Mm LISTofKB_LISTING keymaps K0+..Kk LISTofKB_LISTING keycodes T0+..Tt LISTofKB_LISTING types C0+..Cc LISTofKB_LISTING compatMaps S0+..Ss LISTofKB_LISTING symbols G0+..Gg LISTofKB_LISTING geometries p unused,p=pad(M*+K*+T*+C*+S*+G*) KB_LISTING 4+n+p 2 CARD16 flags 2 n length n STRING8 string p unused,p=pad(n) to a 2-byte boundary 1 CARD8 opcode 1 23 xkb-opcode 2 3+(6+m+k+t+c+s+g+p)/4 request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_GBNDETAILMASK need 2 SETofKB_GBNDETAILMASK want 1 BOOL load 1 unused 1 m keymapsSpecLen m STRING8 keymapsSpec 1 k keycodesSpecLen k STRING8 keycodesSpec 1 t typesSpecLen t STRING8 typesSpec 1 c compatMapSpecLen c STRING8 compatMapSpec 1 s symbolsSpecLen s STRING8 symbolsSpec 1 g geometrySpecLen g STRING8 geometrySpec p unused,p=pad(6+m+k+t+c+s+g) 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 V/4 length 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 1 BOOL loaded 1 BOOL newKeyboard 2 SETofKB_GBNDETAILMASK found 2 SETofKB_GBNDETAILMASK reported 16 unused V LISTofITEMs replies SETofKB_GBNDETAILMASK (reported) XkbGBN_Types map XkbGBN_CompatMap compat XkbGBN_ClientSymbols map XkbGBN_ServerSymbols map XkbGBN_IndicatorMap indicators XkbGBN_KeyNames names XkbGBN_OtherNames names XkbGBN_Geometry geometry ITEMs M XkbGetMap reply map C XkbGetCompatMap reply compat I XkbGetIndicatorMap reply indicators N XkbGetNames reply names G XkbGetGeometry reply geometry 1 CARD8 opcode 1 24 xkb-opcode 2 4 request-length 2 KB_DEVICESPEC deviceSpec 2 SETofKB_DEVFEATURE wanted 1 BOOL allButtons 1 CARD8 firstButton 1 CARD8 nButtons 1 unused 2 KB_LEDCLASSSPEC ledClass 2 KB_IDSPEC ledID 1 1 Reply 1 CARD8 deviceID 2 CARD16 sequence number 4 (2+n+p+8b+L*)/4 length 2 SETofKB_DEVFEATURE present 2 SETofKB_FEATURE supported 2 SETofKB_FEATURE unsupported 2 l nDeviceLedFBs 1 CARD8 firstBtnWanted 1 CARD8 nBtnsWanted 1 CARD8 firstBtnRtrn 1 b nBtnsRtrn 1 CARD8 totalBtns 1 BOOL hasOwnState 2 SETofKB_IDRESULT dfltKbdFB 2 SETofKB_IDRESULT dfltLedFB 2 unused 4 ATOM devType 2 n nameLen n STRING8 name p unused,p=pad(2+n) 8b LISTofKB_ACTION btnActions L0+..Ll LISTofKB_DEVICELEDINFO leds KB_DEVICELEDINFO 20+4n+12m 2 KB_LEDCLASSSPEC ledClass 2 KB_IDSPEC ledID 4 SETofKB_INDICATOR namesPresent (has n bits set to 1) 4 SETofKB_INDICATOR mapsPresent (has m bits set to 1) 4 SETofKB_INDICATOR physIndicators 4 SETofKB_INDICATOR state 4n LISTofATOM names 12m LISTofKB_INDICATORMAP maps 1 ?? opcode 1 25 xkb-opcode 2 3+(8b+L*)/4 request-length 2 KB_DEVICESPEC deviceSpec 1 CARD8 firstBtn 1 b nBtns 2 SETofKB_DEVFEATURE change 2 l nDeviceLedFBs 8b LISTofKB_ACTION btnActions L0+..Ll LISTofKB_DEVICELEDINFO leds Encoding of KB_DEVICELEDINFO is as for XkbGetDeviceInfo 1 ?? opcode 1 101 xkb-opcode 2 6+(n+p)/4 request-length 2 n msgLength 2 unused 4 CARD32 affectFlags 4 CARD32 flags 4 CARD32 affectCtrls 4 CARD32 ctrls n STRING8 message p unused, p=pad(n) 1 1 Reply 1 unused 2 CARD16 sequence number 4 0 length 4 CARD32 currentFlags 4 CARD32 currentCtrls 4 CARD32 supportedFlags 4 CARD32 supportedCtrls 8 unused Events 1 ?? code 1 0 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 CARD8 oldDeviceID 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 1 KEYCODE oldMinKeyCode 1 KEYCODE oldMaxKeyCode 1 CARD8 requestMajor 1 CARD8 requestMinor 2 SETofKB_NKNDETAIL changed 14 unused 1 ?? code 1 1 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 SETofBUTMASK ptrBtnActions 2 SETofKB_MAPPART changed 1 KEYCODE minKeyCode 1 KEYCODE maxKeyCode 1 CARD8 firstType 1 CARD8 nTypes 1 KEYCODE firstKeySym 1 CARD8 nKeySyms 1 KEYCODE firstKeyAct 1 CARD8 nKeyActs 1 KEYCODE firstKeyBehavior 1 CARD8 nKeyBehavior 1 KEYCODE firstKeyExplicit 1 CARD8 nKeyExplicit 1 KEYCODE firstModMapKey 1 CARD8 nModMapKeys 1 KEYCODE firstVModMapKey 1 CARD8 nVModMapKeys 2 SETofKB_VMOD virtualMods 2 unused 1 ?? code 1 2 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 SETofKEYMASK mods 1 SETofKEYMASK baseMods 1 SETofKEYMASK latchedMods 1 SETofKEYMASK lockedMods 1 KB_GROUP group 2 INT16 baseGroup 2 INT16 latchedGroup 1 KB_GROUP lockedGroup 1 SETofKEYMASK compatState 1 SETofKEYMASK grabMods 1 SETofKEYMASK compatGrabMods 1 SETofKEYMASK lookupMods 1 SETofKEYMASK compatLookupMods 2 SETofBUTMASK ptrBtnState 2 SETofKB_STATEPART changed 1 KEYCODE keycode 1 CARD8 eventType 1 CARD8 requestMajor 1 CARD8 requestMinor 1 ?? code 1 3 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 CARD8 numGroups 2 unused 4 SETofKB_CONTROL changedControls 4 SETofKB_BOOLCTRL enabledControls 4 SETofKB_BOOLCTRL enabledControlChanges 1 KEYCODE keycode 1 CARD8 eventType 1 CARD8 requestMajor 1 CARD8 requestMinor 4 unused 1 ?? code 1 4 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 3 unused 4 SETofKB_INDICATOR state 4 SETofKB_INDICATOR stateChanged 12 unused 1 ?? code 1 5 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 3 unused 4 SETofKB_INDICATOR state 4 SETofKB_INDICATOR mapChanged 12 unused 1 ?? code 1 6 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 unused 2 SETofKB_NAMEDETAIL changed 1 CARD8 firstType 1 CARD8 nTypes 1 CARD8 firstLevelName 1 CARD8 nLevelNames 1 unused 1 CARD8 nRadioGroups 1 CARD8 nKeyAliases 1 SETofKB_GROUP changedGroupNames 2 SETofKB_VMOD changedVirtualMods 1 KEYCODE firstKey 1 CARD8 nKeys 4 SETofKB_INDICATOR changedIndicators 4 unused 1 ?? code 1 7 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 SETofKB_GROUP changedGroups 2 CARD16 firstSI 2 CARD16 nSI 2 CARD16 nTotalSI 16 unused 1 ?? code 1 8 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 KB_BELLCLASSRESULT bellClass 1 CARD8 bellID 1 CARD8 percent 2 CARD16 pitch 2 CARD16 duration 4 ATOM name 4 WINDOW window 1 BOOL eventOnly 7 unused 1 ?? code 1 9 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 KEYCODE keycode 1 BOOL press 1 BOOL keyEventFollows 1 SETofKEYMASK mods 1 KB_GROUP group 8 STRING8 message 10 unused 1 ?? code 1 10 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 KEYCODE keycode 2 SETofKB_AXNDETAIL detail 2 CARD16 slowKeysDelay 2 CARD16 debounceDelay 1 ?? code 16 unused 1 ?? code 1 11 xkb code 2 CARD16 sequence number 4 TIMESTAMP time 1 CARD8 deviceID 1 unused 2 SETofKB_XIDETAIL reason 2 KB_LEDCLASSRESULT ledClass 2 CARD8 ledID 4 SETofKB_INDICATOR ledsDefined 4 SETofKB_INDICATOR ledState 1 CARD8 firstButton 1 CARD8 nButtons 2 SETofKB_XIFEATURE supported 2 SETofKB_XIFEATURE unsupported 2 unused loaded 1 BOOL newKeyboard 2 SETofKB_GBNDETAILMASK found 2 SETofKB_GBNDETAILMASK reported 16 unused V LISTofITEMs replies SETofKB_GBNDETAILMASK (reported) XkbGBN_Types map XkbGBN_CompatMap compat XkbGBN_ClientSymbols map XkbGBN_ServerSymbols map XkbGBN_IndicatorMap inkbproto-1.0.7/specs/XKBproto-9.svg000064401431060000012000000145111252061122500171720ustar00alancstaff00002660200006 image/svg+xml kbproto-1.0.7/specs/xkbproto.xml000064401431060000012000000077131252061122500171730ustar00alancstaff00002660200006 %defs; ]> The X Keyboard Extension: Protocol Specification X Consortium Standard Erik Fortune Silicon Graphics, Inc X Version 11, Release &fullrelvers; Version 1.0 19951996 X Consortium Inc. Silicon Graphics Inc. Hewlett-Packard Company Digital Equipment Corporation Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the names of the X Consortium, Silicon Graphics Inc., Hewlett-Packard Company, and Digital Equipment Corporation shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization. kbproto-1.0.7/specs/XKBproto-7.svg000064401431060000012000000530561252061122500171770ustar00alancstaff00002660200006 image/svg+xml Key: Keycode: 13 NumLock 15 Enter 12 1 End 9 è ö 8 Q q @ 10 A a æ 11 ? \ ? ϐ :space="preserve" style="font-size:14px;font-style:normal;font-variant:normal;font-weight:bold;font-stretch:normal;text-align:start;line-height:125%;letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;text-anchor:start;fill:#000000;fill-opacity:1;stroke:none;font-family:DejaVu Sans;-inkscape-font-specification:DejaVu Sans Bold" x="192.09" y="72.553185" id="text3051-4-1-6-2-9-10" sodipodi:linespacing="125%"> Key Event Processing in the Server This section describes the steps involved in processing a key event within the server when XKB is present. Key events can be generated due to keyboard activity and passed to XKB by the DDX layer, or they can be synthesized by another extension, such as XTEST. Applying Global Controls When the X Keyboard Extension receives a key event, it first checks the global key controls to decide whether to process the event immediately or at all. The global key controls which might affect the event, in descending order of priority, are: If a key is pressed while the BounceKeys control is enabled, the extension generates the event only if the key is active. When a key is released, the server deactivates the key and starts a bounce keys timer with an interval specified by the debounce delay. If the bounce keys timer expires or if some other key is pressed before the timer expires, the server reactivates the corresponding key and deactivates the timer. Neither expiration nor deactivation of a bounce keys timer causes an event. If the SlowKeys control is enabled, the extension sets a slow keys timer with an interval specified by the slow keys delay, but does not process the key event immediately. The corresponding key release deactivates this timer. If the slow keys timer expires, the server generates a key press for the corresponding key, sends an XkbAccessXNotify and deactivates the timer. The extension processes key press events normally whether or not the RepeatKeys control is active, but if RepeatKeys are enabled and per-key autorepeat is enabled for the event key, the extension processes key press events normally, but it also initiates an autorepeat timer with an interval specified by the autorepeat delay. The corresponding key release deactivates the timer. If the autorepeat timer expires, the server generates a key release and a key press for the corresponding key and reschedules the timer according to the autorepeat interval. Key events are processed by each global control in turn: if the BounceKeys control accepts a key event, SlowKeys considers it. Once SlowKeys allows or synthesizes an event, the RepeatKeys control acts on it. Key Behavior Once an event is accepted by all of the controls or generated by a timer, the server checks the per-key behavior of the corresponding key. This extension currently defines the following key behaviors: Behavior Effect KB_Default Press and release events are processed normally. KB_Lock If a key is logically up (i.e. the corresponding bit of the core key map is cleared) when it is pressed, the key press is processed normally and the corresponding release is ignored. If the key is logically down when pressed, the key press is ignored but the corresponding release is processed normally. KB_RadioGroup flags: CARD8 index: CARD8 If another member of the radio group specified by index is logically down when a key is pressed, the server synthesizes a key release for the member that is logically down and then processes the new key press event normally. If the key itself is logically down when pressed, the key press event is ignored, but the processing of the corresponding key release depends on the value of the RGAllowNone bit in flags . If it is set, the key release is processed normally; otherwise the key release is also ignored. All other key release events are ignored. KB_Overlay1 key: KEYCODE If the Overlay1 control is enabled, events from this key are reported as if they came from the key specified in key . Otherwise, press and release events are processed normally. KB_Overlay2 key: KEYCODE If the Overlay2 control is enabled, events from this key are reported as if they came from the key specified in key . Otherwise, press and release events are processed normally. The X server uses key behavior to determine whether to process or filter out any given key event; key behavior is independent of keyboard modifier or group state (each key has exactly one behavior. Key behaviors can be used to simulate any of these types of keys or to indicate an unmodifiable physical, electrical or software driver characteristic of a key. An optional permanent flag can modify any of the supported behaviors and indicates that behavior describes an unalterable physical, electrical or software aspect of the keyboard. Permanent behaviors cannot be changed or set by the XkbSetMap request. The permanent flag indicates a characteristic of the underlying system that XKB cannot affect, so XKB treats all permanent behaviors as if they were KB_Default and does not filter key events described in the table above. Key Actions Once the server has applied the global controls and per-key behavior and has decided to process a key event, it applies key actions to determine the effects of the key on the internal state of the server. A key action consists of an operator and some optional data. XKB supports actions which: change base, latched or locked modifiers or group move the core pointer or simulate core pointer button events change most aspects of keyboard behavior terminate or suspend the server send a message to interested clients simulate events on other keys Each key has an optional list of actions. If present, this list parallels the list of symbols associated with the key (i.e. it has one action per symbol associated with the key). For key press events, the server looks up the action to be applied from this list using the key symbol mapping associated with the event key, just as a client looks up symbols as described in Determining the KeySym Associated with a Key Event; if the event key does not have any actions, the server uses the SA_NoAction event for that key regardless of modifier or group state. Key actions have essentially two halves; the effects on the server when the key is pressed and the effects when the key is released. The action applied for a key press event determines the further actions, if any, that are applied to the corresponding release event or to events that occur while the key is held down. Clients can change the actions associated with a key while the key is down without changing the action applied next time the key is released; subsequent press-release pairs will use the newly bound key action. Most actions directly change the state of the keyboard or server; some actions also modify other actions that occur simultaneously with them. Two actions occur simultaneously if the keys which invoke the actions are both logically down at the same time, regardless of the order in which they are pressed or delay between the activation of one and the other. Most actions which affect keyboard modifier state accept a modifier definition (see Virtual Modifiers) named mods and a boolean flag name useModMap among their arguments. These two fields combine to specify the modifiers affected by the action as follows: If useModMap is True , the action sets any modifiers bound by the modifier mapping to the key that initiated the action; otherwise, the action sets the modifiers specified by mods . For brevity in the text of the following definitions, we refer to this combination of useModMap and mods as the "action modifiers." The X Keyboard Extension supports the following actions: Action Effect SA_NoAction No direct effect, though SA_NoAction events may change the effect of other server actions (see below). SA_SetMods mods: MOD_DEF useModMap: BOOL clearLocks: BOOL Key press adds any action modifiers to the keyboard’s base modifiers. Key release clears any action modifiers in the keyboard’s base modifiers, provided that no other key which affects the same modifiers is logically down. If no keys were operated simultaneously with this key and clearLocks is set, release unlocks any action modifiers. SA_LatchMods mods: MOD_DEF useModMap: BOOL clearLocks: BOOL latchToLock: BOOL Key press and release events have the same effect as for SA_SetMods ; if no keys were operated simultaneously with the latching modifier key, key release events have the following additional effects: Modifiers that were unlocked due to clearLocks have no further effect. If latchToLock is set, key release locks and then unlatches any remaining action modifiers that are already latched. Finally, key release latches any action modifiers that were not used by the clearLocks or latchToLock flags. SA_LockMods mods: MOD_DEF useModMap: BOOL noLock: BOOL noUnlock: BOOL Key press sets the base and possibly the locked state of any action modifiers. If noLock is True , only the base state is changed. For key release events, clears any action modifiers in the keyboard’s base modifiers, provided that no other key which affects the same modifiers is down. If noUnlock is False and any of the action modifiers were locked before the corresponding key press occurred, key release unlocks them. SA_SetGroup group: INT8 groupAbsolute: BOOL clearLocks: BOOL If groupAbsolute is set, key press events change the base keyboard group to group ; otherwise, they add group to the base keyboard group. In either case, the resulting effective keyboard group is brought back into range depending on the value of the GroupsWrap control for the keyboard. If an SA_ISOLock key is pressed while this key is held down, key release has no effect, otherwise it cancels the effects of the press. If no keys were operated simultaneously with this key and clearLocks is set, key release also sets the locked keyboard group to Group1 . SA_LatchGroup group: INT8 groupAbsolute: BOOL clearLocks: BOOL latchToLock: BOOL Key press and release events have the same effect as an SA_SetGroup action; if no keys were operated simultaneously with the latching group key and the clearLocks flag was not set or had no effect, key release has the following additional effects: If latchToLock is set and the latched keyboard group is non-zero, the key release adds the delta applied by the corresponding key press to the locked keyboard group and subtracts it from the latched keyboard group. The locked and effective keyboard group are brought back into range according to the value of the global GroupsWrap control for the keyboard. Otherwise, key release adds the key press delta to the latched keyboard group. SA_LockGroup group: INT8 groupAbsolute: BOOL If groupAbsolute is set, key press sets the locked keyboard group to group . Otherwise, key press adds group to the locked keyboard group. In either case, the resulting locked and effective group is brought back into range depending on the value of the GroupsWrap control for the keyboard. Key release has no effect. SA_MovePtr x, y: INT16 noAccel: BOOL absoluteX: BOOL absoluteY: BOOL If MouseKeys are not enabled, this action behaves like SA_NoAction , otherwise this action cancels any pending repeat key timers for this key and has the following additional effects. Key press generates a core pointer MotionNotify event instead of the usual KeyPress . If absoluteX is True , x specifies the new pointer X coordinate, otherwise x is added to the current pointer X coordinate; absoluteY and y specify the new Y coordinate in the same way. If noAccel is False , and the MouseKeysAccel keyboard control is enabled, key press also initiates the mouse keys timer for this key; every time this timer expires, the cursor moves again. The distance the cursor moves in these subsequent events is determined by the mouse keys acceleration as described in The MouseKeysAccel Control. Key release disables the mouse keys timer (if it was initiated by the corresponding key press) but has no other effect and is ignored (does not generate an event of any type). SA_PtrBtn button: CARD8 count: CARD8 useDfltBtn: BOOL If MouseKeys are not enabled, this action behaves like SA_NoAction . If useDfltBtn is set, the event is generated for the current default core button. Otherwise, the event is generated for the button specified by button . If the mouse button specified for this action is logically down, the key press and corresponding release are ignored and have no effect. Otherwise, key press causes one or more core pointer button events instead of the usual key press. If count is 0 , key press generates a single ButtonPress event; if count is greater than 0 , key press generates count pairs of ButtonPress and ButtonRelease events. If count is 0 , key release generates a core pointer ButtonRelease which matches the event generated by the corresponding key press; if count is non-zero, key release does not cause a ButtonRelease event. Key release never causes a key release event. SA_LockPtrBtn button: BUTTON noLock: BOOL noUnlock: BOOL useDfltBtn: BOOL If MouseKeys are not enabled, this action behaves like SA_NoAction . Otherwise, if the button specified by useDfltBtn and button is not locked, key press causes a ButtonPress instead of a key press and locks the button. If the button is already locked or if noLock is True , key press is ignored and has no effect. If the corresponding key press was ignored, and if noUnlock is False , key release generates a ButtonRelease event instead of a key release event and unlocks the specified button. If the corresponding key press locked a button, key release is ignored and has no effect. SA_SetPtrDflt affect: CARD8 value: CARD8 dfltBtnAbs: BOOL If MouseKeys are not enabled, this action behaves like SA_NoAction . Otherwise, both key press and key release are ignored, but key press changes the pointer value specified by affect to value , as follows: If which is SA_AffectDfltBtn , value and dfltBtnAbs specify the default pointer button used by the various pointer actions as follow: If dfltBtnAbs is True, value specifies the button to be used, otherwise, value specifies the amount to be added to the current default button. In either case, illegal button choices are wrapped back into range. SA_ISOLock dfltIsGroup: False mods: MOD_DEF useModMap: BOOL noLock: BOOL noUnlock: BOOL noAffectMods: BOOL noAffectGrp: BOOL noAffectPtr: BOOL noAffectCtrls: BOOL or dfltIsGroup: True group: INT8 groupAbsolute: BOOL noAffectMods: BOOL noAffectGrp: BOOL noAffectPtr: BOOL noAffectCtrls: BOOL If dfltIsGroup is True , key press sets the base group specified by groupAbsolute and group . Otherwise, key press sets the action modifiers in the keyboard’s base modifiers. Key release clears the base modifiers or group that were set by the key press; it may have additional effects if no other appropriate actions occur simultaneously with the SA_ISOLock operation. If noAffectMods is False , any SA_SetMods or SA_LatchMods actions that occur simultaneously with the ISOLock action are treated as SA_LockMods instead. If noAffectGrp is False , any SA_SetGroup or SA_LatchGroup actions that occur simultaneously with this action are treated as SA_LockGroup actions instead. If noAffectPtr is False , SA_PtrBtn actions that occur simultaneously with the SA_ISOLock action are treated as SA_LockPtrBtn actions instead. If noAffectCtrls is False , any SA_SetControls actions that occur simultaneously with the SA_ISOLock action are treated as SA_LockControls actions instead. If no other actions were transformed by the SA_ISOLock action, key release locks the group or modifiers specified by the action arguments. SA_TerminateServer Key press terminates the server. Key release is ignored. This action is optional; servers are free to ignore it. If ignored, it behaves like SA_NoAction . SA_SwitchScreen num: INT8 switchApp: BOOL screenAbs: BOOL If the server supports this action and multiple screens or displays (either virtual or real), this action changes to the active screen indicated by num and screenAbs . If screenAbs is True , num specifies the index of the new screen; otherwise, num specifies an offset from the current screen to the new screen. If switchApp is False , it should switch to another screen on the same server. Otherwise it should switch to another X server or application which shares the same physical display. This action is optional; servers are free to ignore the action or any of its flags if they do not support the requested behavior. If the action is ignored, it behaves like SA_NoAction , otherwise neither key press nor release generate an event. SA_SetControls controls: KB_BOOLCTRLMASK Key press enables any boolean controls that are specified in controls and not already enabled at the time of the key press. Key release disables any controls that were enabled by the corresponding key press. This action can cause XkbControlsNotify events. SA_LockControls controls: KB_BOOLCTRLMASK noLock: BOOL noUnlock: BOOL If noLock is False , key press locks and enables any controls that are specified in controls and not already locked at the time of the key press. If noUnlock is False , key release unlocks and disables any controls that are specified in controls and were not enabled at the time of the corresponding key press. SA_ActionMessage : pressMsg: BOOL releaseMsg: BOOL genEvent: BOOL message: STRING if pressMsg is True , key press generates an XkbActionMessage event which reports the keycode, event type and the contents of message . If releaseMsg is True , key release generates an XkbActionMessage event which reports the keycode, event type and contents of message . If genEvent is True , both press and release generate key press and key release events, regardless of whether they also cause an XkbActionMessage . SA_RedirectKey newKey: KEYCODE modsMask: KEYMASK mods: KEYMASK vmodsMask: CARD16 vmods: CARD16 Key press causes a key press event for the key specified by newKey instead of for the actual key. The state reported in this event reports of the current effective modifiers changed as follow: Any real modifiers specified in modsMask are set to corresponding values from mods . Any real modifiers bound to the virtual modifiers specified in vmodsMask are either set or cleared, depending on the corresponding value in vmods . If the real and virtual modifier definitions specify conflicting values for a single modifier, the real modifier definition has priority. Key release causes a key release event for the key specified by newKey ; the state field for this event consists of the effective keyboard modifiers at the time of the release, changed as described above. The SA_RedirectKey action normally redirects to another key on the same device as the key or button which caused the event, unless that device does not belong to the input extension KEYCLASS, in which case this action causes an event on the core keyboard device. SA_DeviceBtn count: CARD8 button: BUTTON device: CARD8 The device field specifies the ID of an extension device; the button field specifies the index of a button on that device. If the button specified by this action is logically down, the key press and corresponding release are ignored and have no effect. If the device or button specified by this action are illegal, this action behaves like SA_NoAction . Otherwise, key press causes one or more input extension device button events instead of the usual key press event. If count is 0 , key press generates a single DeviceButtonPress event; if count is greater than 0 , key press generates count pairs of DeviceButtonPress and DeviceButtonRelease events. If count is 0 , key release generates an input extension DeviceButtonRelease which matches the event generated by the corresponding key press; if count is non-zero, key release does not cause a DeviceButtonRelease event. Key release never causes a key release event. SA_LockDeviceBtn button: BUTTON device: CARD8 noLock: BOOL noUnlock: BOOL The device field specifies the ID of an extension device; the button field specifies the index of a button on that device. If the device or button specified by this action are illegal, it behaves like SA_NoAction . Otherwise, if the specified button is not locked and if noLock is False , key press causes an input extension DeviceButtonPress event instead of a key press event and locks the button. If the button is already locked or if noLock is True , key press is ignored and has no effect. If the corresponding key press was ignored, and if noUnlock is False , key release generates an input extension DeviceButtonRelease event instead of a core protocol or input extension key release event and unlocks the specified button. If the corresponding key press locked a button, key release is ignored and has no effect. SA_DeviceValuator device : CARD8 val1What : SA_DVOP val1 : CARD8 val1Value : INT8 val1Scale : 0...7 val2What : BOOL val2 : CARD8 val2Value : INT8 val2Scale : 0...7 The device field specifies the ID of an extension device; val1 and val2 specify valuators on that device. If device is illegal or if neither val1 nor val2 specifies a legal valuator, this action behaves like SA_NoAction . If valn specifies a legal valuator and valnWhat is not SA_IgnoreVal , the specified value is adjusted as specified by valnWhat : If valnWhat is SA_SetValMin , valn is set to its minimum legal value. If valnWhat is SA_SetValCenter , valn is centered (to (max-min)/2). If valnWhat is SA_SetValMax , valn is set to its maximum legal value. if valnWhat is SA_SetValRelative , is added to valn . if valnWhat is SA_SetValAbsolute , valn is set to . Illegal values for SA_SetValRelative or SA_SetValAbsolute are clamped into range. If StickyKeys are enabled, all SA_SetMods and SA_SetGroup actions act like SA_LatchMods and SA_LatchGroup respectively. If the LatchToLock AccessX option is set, either action behaves as if both the SA_ClearLocks and SA_LatchToLock flags are set. Actions which cause an event from another key or from a button on another device immediately generate the specified event. These actions do not consider the behavior or actions (if any) that are bound to the key or button to which the event is redirected. Core events generated by server actions contain the keyboard state that was in effect at the time the key event occurred; the reported state does not reflect any changes in state that occur as a result of the actions bound to the key event that caused them. Events sent to clients that have not issued an XkbUseExtension request contain a compatibility state in place of the actual XKB keyboard state. See Effects of XKB on Core Protocol Events for a description of this compatibility mapping. Delivering a Key or Button Event to a Client The window and client that receive core protocol and input extension key or button events are determined using the focus policy, window hierarchy and passive grabs as specified by the core protocol and the input extension, with the following changes: A passive grab triggers if the modifier state specified in the grab matches the grab compatibility state (described in Compatibility Components of Keyboard State). Clients can choose to use the XKB grab state instead by setting the GrabsUseXKBState per-client flag. This flag affects all passive grabs that are requested by the client which sets it but does not affect passive grabs that are set by any other client. The state field of events which trigger a passive grab reports the XKB or compatibility grab state in effect at the time the grab is triggered; the state field of the corresponding release event reports the corresponding grab state in effect when the key or button is released. If the LookupStateWhenGrabbed per-client flag is set, all key or button events that occur while a keyboard or pointer grab is active contain the XKB or compatibility lookup state, depending on the value of the GrabsUseXKBState per-client flag. If LookupStateWhenGrabbed is not set, they include the XKB or compatibility grab state, instead. Otherwise, the state field of events that do not trigger a passive grab report is derived from the XKB effective modifiers and group, as described in Computing A State Field from an XKB State. If a key release event is the result of an autorepeating key that is being held down, and the client to which the event is reported has requested detectable autorepeat (see Detectable Autorepeat), the event is not delivered to the client. The following section explains the intent of the XKB interactions with core protocol grabs and the reason that the per-client flags are needed. XKB Interactions With Core Protocol Grabs XKB provides the separate lookup and grab states to help work around some difficulties with the way the core protocol specifies passive grabs. Unfortunately, many clients work around those problems differently, and the way that XKB handles grabs and reports keyboard state can sometimes interact with those client workarounds in unexpected and unpleasant ways. To provide more reasonable behavior for clients that are aware of XKB without causing problems for clients that are unaware of XKB, this extension provides two per-client flags that specify the way that XKB and the core protocol should interact. The largest problems arise from the fact that an XKB state field encodes an explicit keyboard group in bits 13-14 (as described in Computing A State Field from an XKB State), while pre-XKB clients use one of the eight keyboard modifiers to select an alternate keyboard group. To make existing clients behave reasonably, XKB normally uses the compatibility grab state instead of the XKB grab state to determine whether or not a passive grab is triggered. XKB-aware clients can set the GrabsUseXKBState per-client flag to indicate that they are specifying passive grabs using an XKB state. Some toolkits start an active grab when a passive grab is triggered, in order to have more control over the conditions under which the grab is terminated. Unfortunately, the fact that XKB reports a different state in events that trigger or terminate grabs means that this grab simulation can fail to terminate the grab under some conditions. To work around this problem, XKB normally reports the grab state in all events whenever a grab is active. Clients which do not use active grabs like this can set the LookupStateWhenGrabbed per-client flag in order to receive the same state component whether or not a grab is active. The GrabsUseXKBState per-client flag also applies to the state of events sent while a grab is active. If it is set, events during a grab contain the XKB lookup or grab state; by default, events during a grab contain the compatibility lookup or grab state. The state used to trigger a passive grab is controlled by the setting of the GrabsUseXKBState per-client flag at the time the grab is registered. Changing this flag does not affect existing passive grabs. like SA_NoAction . Otherwise, if the specified button is not locked and if noLock is False , key press causes an input extension DeviceButtonPress event instead of a key press event and locks the button. If the button is already locked or if noLock is True , key press is ignored and has no effect. kbproto-1.0.7/specs/ch01.xml000064401431060000012000000075331252061122500160560ustar00alancstaff00002660200006 Overview This extension provides a number of new capabilities and controls for text keyboards. The core X protocol specifies the ways that the Shift , Control and Lock modifiers and the modifiers bound to the Mode_switch or Num_Lock keysyms interact to generate keysyms and characters. The core protocol also allows users to specify that a key affects one or more modifiers. This behavior is simple and fairly flexible, but it has a number of limitations that make it difficult or impossible to properly support many common varieties of keyboard behavior. The limitations of core protocol support for keyboards include: Use of a single, uniform, four-symbol mapping for all keyboard keys makes it difficult to properly support keyboard overlays, PC-style break keys or keyboards that comply with ISO9995 or a host of other national and international standards. Use of a modifier to specify a second keyboard group has side-effects that wreak havoc with client grabs and X toolkit translations and limit us to two keyboard groups. Poorly specified locking key behavior requires X servers to look for a few "magic" keysyms to determine which keys should lock when pressed. This leads to incompatibilities between X servers with no way for clients to detect implementation differences. Poorly specified capitalization and control behavior requires modifications to X library source code to support new character sets or locales and can lead to incompatibilities between system-wide and X library capitalization behavior. Limited interactions between modifiers specified by the core protocol make many common keyboard behaviors difficult or impossible to implement. For example, there is no reliable way to indicate whether or not using shift should "cancel" the lock modifier. The lack of any explicit descriptions for indicators, most modifiers and other aspects of the keyboard appearance requires clients that wish to clearly describe the keyboard to a user to resort to a mishmash of prior knowledge and heuristics. This extension makes it possible to clearly and explicitly specify most aspects of keyboard behavior on a per-key basis. It adds the notion of a numeric keyboard group to the global keyboard state and provides mechanisms to more closely track the logical and physical state of the keyboard. For keyboard control clients, this extension provides descriptions and symbolic names for many aspects of keyboard appearance and behavior. It also includes a number of keyboard controls designed to make keyboards more accessible to people with movement impairments. The X Keyboard Extension essentially replaces the core protocol definition of a keyboard. The following sections describe the new capabilities of the extension and the effect of the extension on core protocol requests, events and errors. Conventions and Assumptions This document uses the syntactic conventions, common types, and errors defined in sections two through four of the specification of the X Window System Protocol. This document assumes familiarity with the fundamental concepts of X, especially those related to the way that X handles keyboards. Readers who are not familiar with the meaning or use of keycodes, keysyms or modifiers should consult (at least) the first five chapters of the protocol specification of the X Window System before continuing. s> Mode_switch or Num_Lock keysyms interact to generate keysyms and characters. The core protocol also allows users to specify thakbproto-1.0.7/specs/ch08.xml000064401431060000012000000124401252061122500160560ustar00alancstaff00002660200006 Symbolic Names The core protocol does not provide any information to clients other than that actually used to interpret events. This makes it difficult to write a client which presents the keyboard to a user in an easy-to-understand way. Such applications have to examine the vendor string and keycodes to determine the type of keyboard connected to the server and have to examine keysyms and modifier mappings to determine the effects of most modifiers (the Shift , Lock and Control modifiers are defined by the core protocol but no semantics are implied for any other modifiers). This extension provides such applications with symbolic names for most components of the keyboard extension and a description of the physical layout of the keyboard. The keycodes name describes the range and meaning of the keycodes returned by the keyboard in question; the keyboard geometry name describes the physical location, size and shape of the various keys on the keyboard. As an example to distinguish between these two names, consider function keys on PC-compatible keyboards. Function keys are sometimes above the main keyboard and sometimes to the left of the main keyboard, but the same keycode is used for the key that is logically F1 regardless of physical position. Thus, all PC-compatible keyboards might share a keycodes name but different geometry names. The keycodes name is intended to be a very general description of the keycodes returned by a keyboard; A single keycodes name might cover keyboards with differing numbers of keys provided that the keys that all keys have the same semantics when present. For example, 101 and 102 key PC keyboards might use the same name. Applications can use the keyboard geometry to determine which subset of the named keyboard type is in use. The symbols name identifies the symbols bound to the keys. The symbols name is a human or application-readable description of the intended locale or usage of the keyboard with these symbols. The physical symbols name describes the symbols actually engraved on the keyboard, which might be different than the symbols currently being used. The types name provides some information about the set of key types that can be associated with the keyboard keys. The compat name provides some information about the rules used to bind actions to keys changed using core protocol requests. The compat , types , keycodes , symbols and geometry names typically correspond to the keyboard components from which the current keyboard description was assembled. These components are stored individually in the server’s database of keyboard components, described in The Server Database of Keyboard Components, and can be combined to assemble a complete keyboard description. Each key has a four-byte symbolic name. The key name links keys with similar functions or in similar positions on keyboards that report different scan codes. Key aliases allow the keyboard layout designer to assign multiple names to a single key, to make it easier to refer to keys using either their position or their "function." For example, consider the common keyboard customizations: Set the "key to the left of the letter a" to be a control key. Change the "caps lock" key, wherever it might be, to a control key. If we specify key names by position, the first customization is simple but the second is impossible; if we specify key names by function, the second customization is simple but the first is impossible. Using key aliases, we can specify both function and position for "troublesome" keys, and both customizations are straightforward. Key aliases can be specified both in the symbolic names component and in the keyboard geometry (see Keyboard Geometry). Both sets of aliases are always valid, but key alias definitions in the keyboard geometry have priority; if both symbolic names and geometry include aliases, applications should consider the definitions from the geometry before considering the definitions from the symbolic names section. XKB provides symbolic names for each of the four keyboard groups, sixteen virtual modifiers, thirty-two keyboard indicators, and up to MaxRadioGroups (32) radio groups. XKB allows keyboard layout designers or editors to assign names to each key type and to each of the levels in a key type. For example, the second position on an alphabetic key might be called the "Caps" level while the second position on a numeric keypad key might be called the "Num Lock" level. kbproto-1.0.7/specs/ch16.xml000064401431060000012000006737321252061122500160760ustar00alancstaff00002660200006 XKB Protocol Requests This document uses the syntactic conventions and common types defined by the specification of the core X protocol with a number of additions, which are detailed below. Errors If a client attempts to use any other XKB request except XkbUseExtension before the extension is properly initialized, XKB reports an Access error and ignores the request. XKB is properly initialized once XkbUseExtension reports that the client has asked for a supported or compatible version of the extension. Keyboard Errors In addition to all of the errors defined by the core protocol, the X Keyboard Extension defines a single error, Keyboard , which indicates that some request specified an illegal device identifier or an extension device that is not a member of an appropriate. Unless otherwise noted, any request with an argument of type KB_DEVICESPEC can cause Keyboard errors if an illegal or inappropriate device is specified. When the extension reports a Keyboard error, the most significant byte of the resource_id is a further refinement of the error cause, as defined in the table below. The least significant byte contains the device, class, or feedback id as indicated: high-order byte value meaning low-order byte XkbErr_BadDevice 0xff device not found device id XkbErr_BadClass 0xfe device found, but is the wrong class class id XkbErr_BadId 0xfd device found, class ok, but device does not have a feedback with the indicated id feedback id Side-Effects of Errors With the exception of Alloc or Implementation errors, which might result in an inconsistent internal state, no XKB request that reports an error condition has any effect. Unless otherwise stated, requests which update some aspect of the keyboard description will not apply only part of a request — if part of a request fails, the whole thing is ignored. Common Types The following types are used in the request and event definitions in subsequent sections: Name Value LISTofITEMs The type LISTofITEMs is special. It is similar to the LISTofVALUE defined by the core protocol, but the elements of a LISTofITEMs are not necessarily all the same size. The use of a BITMASK to indicate which members are present is optional for a LISTofITEMs — it is possible for the set of elements to be derived from one or more fields of the request. KB_DEVICESPEC 8 bit unsigned integer, UseCoreKbd, or UseCorePtr KB_LEDCLASSSPEC { KbdFeedbackClass , LedFeedbackClass , DfltXIClass , AllXIClasses , XINone } KB_BELLCLASSSPEC { KbdFeedbackClass , BellFeedbackClass , DfltXIClass , AllXIClasses } KB_IDSPEC 8 bit unsigned integer or DfltXIId KB_VMODMASK CARD16, each bit corresponds to a virtual modifier KB_GROUPMASK { Group1 , Group2 , Group3 , Group4 } KB_GROUPSWRAP { WrapIntoRange , ClampIntoRange , RedirectIntoRange } KB_GROUPINFO { groupsWrap: KB_GROUPSWRAP redirectGroup: 1…4, numGroups: 1…4 } KB_NKNDETAILSMASK { NKN_Keycodes , NKN_Geometry, NKN_DeviceID } KB_STATEMASK KEYBUTMASK or KB_GROUPMASK KB_STATEPARTMASK { ModifierState , ModifierBase , ModifierLatch , ModifierLock , GroupState , GroupBase , GroupLatch , GroupLock , CompatState , GrabMods , CompatGrabMods , LookupMods , CompatLookupMods , PointerButtons } KB_BOOLCTRLMASK { RepeatKeys , SlowKeys , BounceKeys , StickyKeys , MouseKeys , MouseKeysAccel , AccessXKeys , AccessXTimeout , AccessXFeedback , AudibleBell , Overlay1 , Overlay2 , IgnoreGroupLock } KB_CONTROLSMASK { GroupsWrap, InternalMods , IgnoreLockMods , PerKeyRepeat , ControlsEnabled } or KB_BOOLCTRLMASK KB_MAPPARTMASK { KeyTypes , KeySyms , ModifierMap , ExplicitComponents , KeyActions , KeyBehaviors , VirtualMods , VirtualModMap } KB_CMDETAILMASK { SymInterp , GroupCompat } KB_NAMEDETAILMASK { KeycodesName , GeometryName , SymbolsName , PhysSymbolsName , TypesName , CompatName , KeyTypeNames , KTLevelNames , IndicatorNames , KeyNames , KeyAliases , VirtualModNames , GroupNames , RGNames } KB_AXNDETAILMASK { AXN_SKPress , AXN_SKAccept , AXN_SKReject , AXN_SKRelease, AXN_BKAccept, AXN_BKReject, AXN_AXKWarning } KB_AXSKOPTSMASK { AX_TwoKeys , AX_LatchToLock } KB_AXFBOPTSMASK { AX_SKPressFB , AX_SKAcceptFB , AX_FeatureFB , AX_SlowWarnFB , AX_IndicatorFB , AX_StickyKeysFB , AX_SKReleaseFB , AX_SKRejectFB , AX_BKRejectFB , AX_DumbBellFB } KB_AXOPTIONSMASK KB_AXFBOPTSMASK or KB_AXSKOPTSMASK KB_GBNDETAILMASK { GBN_Types , GBN_CompatMap , GBN_ClientSymbols , GBN_ServerSymbols , GBN_IndicatorMap , GBN_KeyNames , GBN_Geometry , GBN_OtherNames } KB_BELLDETAILMASK { XkbAllBellNotifyEvents } KB_MSGDETAILMASK { XkbAllActionMessages } KB_EVENTTYPE { XkbNewKeyboardNotify , XkbMapNotify , XkbStateNotify , XkbControlsNotify , XkbIndicatorStateNotify , XkbIndicatorMapNotify , XkbNamesNotify , XkbCompatMapNotify , XkbBellNotify , XkbActionMessage , XkbAccessXNotify , XkbExtensionDeviceNotify } KB_ACTION [ type: CARD8 data: LISTofCARD8 ] KB_BEHAVIOR [ type: CARD8, data: CARD 8 ] KB_MODDEF [ mask: KEYMASK, mods: KEYMASK, vmods: KB_VMODMASK ] KB_KTMAPENTRY [ active: BOOL, level: CARD8, mods: KB_MODDEF ] KB_KTSETMAPENTRY [ level: CARD8, mods: KB_MODDEF ] KB_KEYTYPE [ mods: KB_MODDEF, numLevels: CARD8, map: LISTofKB_KTMAPENTRY, preserve: LISTofKB_MODDEF ] KB_SETKEYTYPE [ realMods: KEYMASK, vmods: CARD16, numLevels: CARD8, map: LISTofKB_KTSETMAPENTRY, preserve: LISTofKB_MODDEF ] KB_KEYSYMMAP [ ktIndex: LISTofCARD8, width: CARD8 numGroups: 0…4, groupsWrap: KB_GROUPSWRAP, redirectGroup: 0…3, syms: LISTofKEYSYM ] KB_KEYVMODMAP [ key: KEYCODE, vmods: CARD16 ] KB_KEYMODMAP [ key: KEYCODE, mods: KEYMASK ] KB_EXPLICITMASK { ExplicitKeyType1 , ExplicitKeyType2 , ExplicitKeyType3 , ExplicitKeyType4 , ExplicitInterpret , ExplicitAutoRepeat , ExplicitBehavior , ExplicitVModMap } KB_INDICATORMASK CARD32, each bit corresponds to an indicator KB_IMFLAGS { IM_NoExplicit , IM_NoAutomatic , IM_LEDDrivesKB } KB_IMMODSWHICH { IM_UseNone , IM_UseBase , IM_UseLatched , IM_UseLocked , IM_UseEffective , IM_UseCompat } KB_IMGROUPSWHICH { IM_UseNone , IM_UseBase , IM_UseLatched , IM_UseLocked , IM_UseEffective } KB_INDICATORMAP [ flags: CARD8, mods: KB_MODDEF, whichMods: groups: KB_GROUPMASK, whichGroups: ctrls: KB_BOOLCTRLMASK ] KB_SYMINTERPMATCH { SI_NoneOf , SI_AnyOfOrNone , SI_AnyOf , SI_AllOf , SI_Exactly } KB_SYMINTERP [ sym: KEYSYM, mods; KEYMASK, levelOneOnly: BOOL, match: KB_SYMINTERPMATCH, virtualMod: CARD8, autoRepeat: BOOL, lockingKey: BOOL ] KB_PCFMASK { PCF_DetectableAutorepeat , PCF_GrabsUseXkbState , PCF_AutoResetControls , PCF_LookupStateWhenGrabbed , PCF_SendEventUsesXKBState } KB_LCFLAGSMASK { LC_Hidden , LC_Default , LC_Partial } KB_LCSYMFLAGSMASK { LC_AlphanumericKeys , LC_ModifierKeys , LC_KeypadKeys , LC_FunctionKeys , LC_AlternateGroup } These types are used by the XkbGetGeometry and XkbSetGeometry requests: Name Value KB_PROPERTY [ name, value: STRING8 ] KB_POINT [ x, y: CARD16 ] KB_OUTLINE [ cornerRadius: CARD8, points: LISTofKB_POINT ] KB_SHAPE [ name: ATOM, outlines: LISTofKB_OUTLINE primaryNdx, approxNdx: CARD8 ] KB_KEYNAME [ name: LISTofCHAR ] KB_KEYALIAS [ real: LISTofCHAR, alias: LISTofCHAR ] KB_KEY [ name: KB_KEYNAME, gap: INT16, shapeNdx, colorNdx: CARD8 ] KB_ROW [ top, left: INT16, vertical: BOOL, keys LISTofKB_KEY ] KB_OVERLAYKEY [ over, under: KB_KEYNAME ] KB_OVERLAYROW [ rowUnder: CARD8, keys: LISTofKB_OVERLAYKEY ] KB_OVERLAY [ sectionUnder: CARD8, rows: LISTofKB_OVERLAYROW ] KB_SHAPEDOODAD [ name: ATOM, priority: CARD8, top, left: INT16, type: { SolidDoodad, OutlineDoodad }, angle: INT16, width, height: CARD16 colorNdx, shapeNdx: CARD8 ] KB_TEXTDOODAD [ name: ATOM, priority: CARD8, top, left: INT16, angle: INT16, width, height: CARD16, colorNdx: CARD8, text: STRING8, font: STRING8 ] KB_INDICATORDOODAD [ name: ATOM, priority: CARD8, top, left: INT16, angle: INT16, shapeNdx, onColorNdx, offColorNdx: CARD8 ] KB_LOGODOODAD [ name: ATOM, priority: CARD8, top, left: INT16, angle: INT16, colorNdx, shapeNdx: CARD8, logoName: STRING8 ] KB_DOODAD KB_SHAPEDOODAD, or KB_TEXTDOODAD, or KB_INDICATORDOODAD, or KB_LOGODOODAD KB_SECTION [ name: ATOM, top, left, angle: INT16, width, height: CARD16, priority: CARD8, rows: LISTofKB_ROW, doodads: LISTofKB_DOODAD, overlays: LISTofKB_OVERLAY ] These types are used by XkbGetDeviceInfo and XkbSetDeviceInfo : Name Value KB_XIDEVFEATUREMASK { XI_ButtonActions , XI_IndicatorNames , XI_IndicatorMaps , XI_IndicatorState } KB_XIFEATUREMASK { KB_XIDEVFEATURES or XI_Keyboards KB_XIDETAILMASK { KB_XIFEATURES or XI_UnsupportedFeature } KB_DEVICELEDINFO [ ledClass: KB_LEDCLASSSPEC, ledID: KB_IDSPEC, physIndicators: CARD32, state: CARD32, names: LISTofATOM, maps: LISTofKB_INDICATORMAP ] Requests This section lists all of the requests supported by the X Keyboard Extension, separated into categories of related requests. Initializing the X Keyboard Extension XkbUseExtension wantedMajor, wantedMinor: CARD16 supported: BOOL serverMajor, serverMinor: CARD16 This request enables XKB extension capabilities for the client that issues the request; the wantedMajor and wantedMinor fields specify the extension version in use by the requesting client. The supported field is True if the server supports a compatible version, False otherwise. The serverMajor and serverMinor fields return the actual version supported by the server. Until a client explicitly and successfully requests the XKB extension, an XKB capable server reports compatibility state in all core protocol events and requests. Once a client asks for XKB extension semantics by issuing this request, the server reports the extended XKB keyboard state in some core protocol events and requests, as described in the overview section of this specification. Clients should issue an XkbUseExtension request before using any other extension requests. Selecting Events XkbSelectEvents deviceSpec: KB_DEVICESPEC affectWhich, clear, selectAll: KB_EVENTTYPE affectMap, map: KB_MAPPARTMASK details: LISTofITEMs Errors: Keyboard , Match , Value This request updates the event masks of the keyboard indicated by deviceSpec for this client. If deviceSpec specifies an illegal device, a Keyboard error results. The affectMap and map fields specify changes to the event details mask for the XkbMapNotify event. If any map components are set in map but not in affectMap , a Match error results. Otherwise, any map components that are set in affectMap are set or cleared in the map notify details mask, depending on the value of the corresponding field in map . The affectWhich , clear , and selectAll fields specify changes to any other event details masks. If any event types are set in both clear and selectAll , a Match error results; if any event types are specified in either clear or selectAll but not in affectWhich , a Match error results. Otherwise, the detail masks for any event types specified in the affectWhich field of this request are changed as follows: If the event type is also set in clear , the detail mask for the corresponding event is set to 0 or False , as appropriate. If the event type is also set in selectAll , the detail mask for the corresponding event is set to include all legal detail values for that type. If the event type is not set in either clear or selectAll , the corresponding element of details lists a set of explicit changes to the details mask for the event, as described below. Each entry of the details list specifies changes to the event details mask for a single type of event, and consists of an affects mask and a values mask. All details that are specified in affects are set to the corresponding value from values ; if any details are listed in values but not in affects , a Match error results. The details list contains entries only for those event types, if any, that are listed in the affectWhich mask and not in either clear or selectAll . When present, the items of the details list appear in the following order: Event Type Legal Details Type XkbNewKeyboardNotify KB_NKNDETAILSMASK CARD16 XkbStateNotify KB_STATEPARTMASK CARD16 XkbControlsNotify KB_CONTROLMASK CARD32 XkbIndicatorMapNotify KB_INDICATORMASK CARD32 XkbIndicatorStateNotify KB_INDICATORMASK CARD32 XkbNamesNotify KB_NAMEDETAILMASK CARD16 XkbCompatMapNotify KB_CMDETAILMASK CARD8 XkbBellNotify KB_BELLDETAILMASK CARD8 XkbActionMessage KB_MSGDETAILMASK CARD8 XkbAccessXNotify KB_AXNDETAILMASK CARD16 XkbExtensionDeviceNotify KB_XIDETAILMASK CARD16 Detail masks for event types that are not specified in affectWhich are not changed. If any components are specified in a client’s event masks, the X server sends the client an appropriate event whenever any of those components change state. Unless explicitly modified, all event detail masks are empty. Events describes all XKB events and the conditions under which the server generates them. Generating Named Keyboard Bells XkbBell deviceSpec: KB_DEVICESPEC bellClass: KB_BELLCLASSSPEC bellID: KB_IDSPEC percent: INT8 forceSound: BOOL eventOnly: BOOL pitch, duration: INT16 name: ATOM window: WINDOW Errors: Keyboard , Value , Match This request generates audible bells and/or XkbBellNotify events for the bell specified by the bellClass and bellID on the device specified by deviceSpec at the specified pitch , duration and volume ( percent ). If deviceSpec specifies a device that does not have a bell or keyboard feedback, a Keyboard error results. If both forceSound and eventOnly are set, this request yields a Match error. Otherwise, if forceSound is True , this request always generates a sound and never generates an event; if eventOnly is True , it causes an event but no sound. If neither forceSound nor eventOnly are True , this request always generates an event; if the keyboard’s global AudibleBell control is enabled, it also generates a sound. Any bell event generated by this request contains all of the information about the bell that was requested, including the symbolic name specified by name and the event window specified by window. The name and window are not directly interpreted by XKB, but they must have the value None or specify a legal Atom or Window, respectively. XkbBellNotify events generated in response to core protocol or X input extension bell requests always report None as their name . The bellClass , bellID , and percent fields are interpreted as for the X input extension DeviceBell request. If pitch and duration are zero, the server uses the corresponding values for that bell from the core protocol or input extension, otherwise pitch and duration are interpreted as for the core protocol ChangeKeyboardControl request; if they do not include legal values, a Value error results. The window field must specify a legal Window or have the value None , or a Value error results. The name field must specify a legal Atom or have the value None , or an Atom error results. If an error occurs, this request has no other effect (i.e. does not cause a sound or generate an event). The pitch , volume , and duration are suggested values for the bell, but XKB does not require the server to honor them. Querying and Changing Keyboard State XkbGetState deviceSpec: KB_DEVICESPEC deviceID: CARD8 mods, baseMods, latchedMods, lockedMods: KEYMASK group, lockedGroup: KB_GROUP baseGroup, latchedGroup: INT16 compatState: KEYMASK grabMods, compatGrabMods: KB_GROUP lookupMods, compatLookupMods: KEYMASK ptrBtnState: BUTMASK Errors: Keyboard This request returns a detailed description of the current state of the keyboard specified by deviceSpec . The deviceID return value contains the input extension identifier for the specified device, or 0 if the server does not support the input extension. The baseMods return value reports the modifiers that are set because one or more modifier keys are logically down. The latchedMods and lockedMods return values report the modifiers that are latched or locked respectively. The mods return value reports the effective modifier mask which results from the current combination of base, latched and locked modifiers. The baseGroup return value reports the group state selected by group shift keys that are logically down. The latchedGroup and lockedGroup return values detail the effects of latching or locking group shift keys and XkbLatchLockState requests. The group return value reports the effective keyboard group which results from the current combination of base, latched and locked group values. The lookupMods return value reports the lookup modifiers, which consist of the current effective modifiers minus any server internal modifiers. The grabMods return value reports the grab modifiers, which consist of the lookup modifiers minus any members of the ignore locks mask that are not either latched or logically depressed. Keyboard State describes the lookup modifiers and grab modifiers in more detail. The ptrBtnState return value reports the current logical state of up to five buttons on the core pointer device. The compatState return value reports the compatibility state that corresponds to the effective keyboard group and modifier state. The compatLookupMods and compatGrabMods return values report the core protocol compatibility states that correspond to the XKB lookup and grab state. All of the compatibility states are computed by applying the group compatibility mapping to the corresponding XKB modifier and group states, as described in Group Compatibility Map. XkbLatchLockState deviceSpec: KB_DEVICESPEC affectModLocks, modLocks: KEYMASK lockGroup: BOOL groupLock: KB_GROUP affectModLatches,modLatches: KEYMASK latchGroup: BOOL groupLatch: INT16 Errors: Keyboard , Value This request locks or latches keyboard modifiers and group state for the device specified by deviceSpec . If deviceSpec specifies an illegal or non-keyboard device, a Keyboard error occurs. The locked state of any modifier specified in the affectModLocks mask is set to the corresponding value from modLocks . If lockGroup is True , the locked keyboard group is set to the group specified by groupLock . If any modifiers are set in modLocks but not affectModLocks , a Match error occurs. The latched state of any modifier specified in the affectModLatches mask is set to the corresponding value from modLatches . If latchGroup is True , the latched keyboard group is set to the group specified by groupLatch . if any modifiers are set in modLatches but not in affectModLatches , a Match error occurs. If the locked group exceeds the maximum number of groups permitted for the specified keyboard, it is wrapped or truncated back into range as specified by the global GroupsWrap control. No error results from an out-of-range group specification. After changing the locked and latched modifiers and groups as specified, the X server recalculates the effective and compatibility keyboard state and generates XkbStateNotify events as appropriate if any state components have changed. Changing the keyboard state might also turn indicators on or off which can cause XkbIndicatorStateNotify events as well. If any errors occur, this request has no effect. Querying and Changing Keyboard Controls XkbGetControls deviceSpec: KB_DEVICESPEC deviceID: CARD8 mouseKeysDfltBtn: CARD8 numGroups: CARD8 groupsWrap: KB_GROUPINFO internalMods,ignoreLockMods: KB_MODDEF repeatDelay,repeatInterval: CARD16 slowKeysDelay, debounceDelay: CARD16 mouseKeysDelay, mouseKeysInterval: CARD16 mouseKeysTimeToMax, mouseKeysMaxSpeed: CARD16 mouseKeysCurve: INT16 accessXOptions: KB_AXOPTIONMASK accessXTimeout: CARD16 accessXTimeoutOptionsMask, accessXTimeoutOptionValues: CARD16 accessXTimeoutMask,accessXTimeoutValues: CARD32 enabledControls: KB_BOOLCTRLMASK perKeyRepeat: LISTofCARD8 Errors: Keyboard This request returns the current values and status of all controls for the keyboard specified by deviceSpec . If deviceSpec specifies an illegal device a Keyboard error results. On return, the deviceID specifies the identifier of the requested device or zero if the server does not support the input extension. The numGroups return value reports the current number of groups, and groupsWrap reports the treatment of out-of-range groups, as described in Key Symbol Map. The internalMods and ignoreLockMods return values report the current values of the server internal and ignore locks modifiers as described in Keyboard State. Both are modifier definitions ( Modifier Definitions) which report the real modifiers, virtual modifiers, and the resulting combination of real modifiers that are bound to the corresponding control. The repeatDelay , repeatInterval , slowKeysDelay and debounceDelay fields report the current values of the for the autorepeat delay, autorepeat interval, slow keys delay and bounce keys timeout, respectively. The mouseKeysDelay , mouseKeysInterval , mouseKeysTimeToMax and mouseKeysMaxSpeed and mouseKeysCurve return values report the current acceleration applied to mouse keys, as described in The MouseKeysAccel Control. All times are reported in milliseconds. The mouseKeysDfltBtn return value reports the current default pointer button for which events are synthesized by the mouse keys server actions. The accessXOptions return value reports the current settings of the various AccessX options flags which govern the behavior of the StickyKeys control and of AccessX feedback. The accessXTimeout return value reports the length of time, in seconds, that the keyboard must remain idle before AccessX controls are automatically changed; an accessXTimeout of 0 indicates that AccessX controls are not automatically changed. The accessXTimeoutMask specifies the boolean controls to be changed if the AccessX timeout expires; the accessXTimeoutValues field specifies new values for all of the controls in the timeout mask. The accessXTimeoutOptionsMask field specifies the AccessX options to be changed when the AccessX timeout expires; the accessXTimeoutOptionValues return value reports the values to which they will be set. The enabledControls return value reports the current state of all of the global boolean controls. The perKeyRepeat array consists of one bit per key and reports the current autorepeat behavior of each keyboard key; if a bit is set in perKeyRepeat , the corresponding key repeats if it is held down while global keyboard autorepeat is enabled. This array parallels the core protocol and input extension keyboard controls, if the autorepeat behavior of a key is changed via the core protocol or input extension, those changes are automatically reflected in the perKeyRepeat array. XkbSetControls deviceSpec: KB_DEVICESPEC affectInternalRealMods, internalRealMods: KEYMASK affectInternalVirtualMods,internalVirtualMods: KB_VMODMASK affectIgnoreLockRealMods,ignoreLockRealMods: KB_MODMASK affectIgnoreLockVirtualMods,ignoreLockVirtualMods: KB_VMODMASK mouseKeysDfltBtn: CARD8 groupsWrap: KB_GROUPINFO accessXOptions: CARD16 affectEnabledControls: KB_BOOLCTRLMASK enabledControls: KB_BOOLCTRLMASK changeControls: KB_CONTROLMASK repeatDelay,repeatInterval: CARD16 slowKeysDelay, debounceDelay: CARD16 mouseKeysDelay, mouseKeysInterval: CARD16 mouseKeysTimeToMax, mouseKeysMaxSpeed: CARD16 mouseKeysCurve: INT16 accessXTimeout: CARD16 accessXTimeoutMask, accessXTimeoutValues: KB_BOOLCTRLMASK accessXTimeoutOptionsMask,accessXTimeoutOptionsValues: CARD16 perKeyRepeat: LISTofCARD8 Errors: Keyboard , Value This request sets the keyboard controls indicated in changeControls for the keyboard specified by deviceSpec . Each bit that is set in changeControls indicates that one or more of the other request fields should be applied, as follows: Bit in changeControls Field(s) to be Applied XkbRepeatKeysMask repeatDelay , repeatInterval XkbSlowKeysMask slowKeysDelay XkbStickyKeysMask accessXOptions (only the XkbAX_TwoKeys and the XkbAX_LatchToLock options are affected) XkbBounceKeysMask debounceDelay XkbMouseKeysMask mouseKeysDfltBtn XkbMouseKeysAccelMask mouseKeysDelay , mouseKeysInterval , mouseKeysCurve , mouseKeysTimeToMax , mouseKeysMaxSpeed XkbAccessXKeysMask accessXOptions (all options) XkbAccessXTimeoutMask accessXTimeout , accessXTimeoutMask , accessXTimeoutValues , accessXTimeoutOptionsMask , accessXTimeoutOptionsValues XkbAccessXFeedbackMask accessXOptions (all options except those affected by the XkbStickyKeysMask bit) XkbGroupsWrapMask groupsWrap XkbInternalModsMask affectInternalRealMods , internalRealMods , affectInternalVirtualMods , internalVirtualMods XkbIgnoreLockModsMask affectIgnoreLockRealMods , ignoreLockRealMods , affectIgnoreLockVirtualMods , ignoreLockVirtualMods XkbPerKeyRepeatMask perKeyRepeat XkbControlsEnabledMask affectEnabledControls , enabledControls If any other bits are set in changeControls , a Value error results. If any of the bits listed above are not set in changeControls , the corresponding fields must have the value 0 , or a Match error results. If applied, repeatDelay and repeatInterval change the autorepeat characteristics of the keyboard, as described in The RepeatKeys Control. If specified, repeatDelay and repeatInterval must both be non-zero or a Value error results. If applied, the slowKeysDelay field specifies a new delay for the SlowKeys control, as defined in The SlowKeys Control. If specified, slowKeysDelay must be non-zero, or a Value error results. If applied, the debounceDelay field specifies a new delay for the BounceKeys control, as described in The BounceKeys Control. If present, the debounceDelay must be non-zero or a Value error results. If applied, the mouseKeysDfltBtn field specifies the core pointer button for which events are generated whenever a SA_PtrBtn or SA_LockPtrBtn key action is activated. If present, mouseKeysDfltBtn must specify a legal button for the core pointer device, or a Value error results. Key Actions describes the SA_PtrBtn and SA_LockPtrBtn actions in more detail. If applied, the mouseKeysDelay , mouseKeysInterval , mouseKeysTimeToMax , mouseKeysMaxSpeed and mouseKeysCurve fields change the rate at which the pointer moves when a key which generates a SA_MovePtr action is held down. The MouseKeysAccel Control describes these MouseKeysAccel parameters in more detail. If defined, the mouseKeysDelay , mouseKeysInterval , mouseKeysTimeToMax and mouseKeysMaxSpeed values must all be greater than zero, or a Value error results. The mouseKeysCurve value must be greater than -1000 or a Value error results. If applied, the accessXOptions field sets the AccessX options, which are described in detail in The AccessXKeys Control. If either one of XkbStickyKeysMask and XkbAccessXFeedbackMask are set in changeControls and XkbAccessXKeysMask is not, only a subset of the AccessX options are changed, as described in the table above; if both are set or if the AccessXKeys bit is set in changeControls , all of the AccessX options are updated. Any bit in accessXOptions whose interpretation is undefined must be zero, or a Value error results. If applied, the accessXTimeout , accessXTimeoutMask , accessXTimeoutValues , accessXTimeoutOptionsMask and accessXTimeoutOptionsValues fields change the behavior of the AccessX Timeout control, as described in The AccessXTimeout Control. The accessXTimeout must be greater than zero, or a Value error results. The accessXTimeoutMask or accessXTimeoutValues fields must specify only legal boolean controls, or a Value error results. The accessXTimeoutOptionsMask and accessXTimeoutOptionsValues fields must contain only legal AccessX options or a Value error results. If any bits are set in either values field but not in the corresponding mask, a Match error results. If present, the groupsWrap field specifies the treatment of out-of-range keyboard groups, as described in Key Symbol Map. If the groupsWrap field does not specify a legal treatment for out-of-range groups, a Value error results. If present, the affectInternalRealMods field specifies the set of real modifiers to be changed in the internal modifier definition and the internalRealMods field specifies new values for those modifiers. The affectInternalVirtualMods and internalVirtualMods fields update the virtual modifier component of the modifier definition that describes the internal modifiers in the same way. If any bits are set in either values field but not in the corresponding mask field, a Match error results. If present, the affectIgnoreLockRealMods field specifies the set of real modifiers to be changed in the ignore locks modifier definition and the ignoreLockRealMods field specifies new values for those modifiers. The affectIgnoreLockVirtualMods and ignoreLockVirtualMods fields update the virtual modifier component of the ignore locks modifier definition in the same way. If any bits are set in either values field but not in the corresponding mask field, a Match error results. If present, the perKeyRepeat array specifies the repeat behavior of the individual keyboard keys. The corresponding core protocol or input extension per-key autorepeat information is updated to reflect any changes specified in perKeyRepeat . If the bits that correspond to any out-of-range keys are set in perKeyRepeat , a Value error results. If present, the affectEnabledControls and enabledControls field enable and disable global boolean controls. Any controls set in both fields are enabled; any controls that are set in affectEnabledControls but not in enabledControls are disabled. Controls that are not set in either field are not affected. If any controls are specified in enabledControls but not in affectEnabledControls , a Match error results. If either field contains anything except boolean controls, a Value error results. Querying and Changing the Keyboard Mapping XkbGetMap deviceSpec: KB_DEVICESPEC full, partial: KB_MAPPARTMASK firstType, nTypes: CARD8 firstKeySym, firstKeyAction: KEYCODE nKeySyms, nKeyActions: CARD8 firstKeyBehavior,firstKeyExplicit: KEYCODE nKeyBehaviors,nKeyExplicit: CARD8 firstModMapKey,firstVModMapKey: KEYCODE nModMapKeys, nVModMapKeys: CARD8 virtualMods: KB_VMODMASK deviceID: CARD8 minKeyCode, maxKeyCode: KEYCODE present: KB_MAPPARTMASK firstType, nTypes, nTotalTypes: CARD8 firstKeySym, firstKeyAction: KEYCODE nKeySyms, nKeyActions: CARD8 totalSyms, totalActions: CARD16 firstKeyBehavior, firstKeyExplicit: KEYCODE nKeyBehaviors, nKeyExplicit: CARD8 totalKeyBehaviors, totalKeyExplicit: CARD8 firstModMapKey, firstVModMapKey: KEYCODE nModMapKeys, nVModMapKeys: CARD8 totalModMapKeys, totalVModMapKeys: CARD8 virtualMods: KB_VMODMASK typesRtrn: LISTofKB_KEYTYPE symsRtrn: LISTofKB_KEYSYMMAP actsRtrn: { count: LISTofCARD8, acts: LISTofKB_ACTION } behaviorsRtrn: LISTofKB_SETBEHAVIOR vmodsRtrn: LISTofSETofKEYMASK explicitRtrn: LISTofKB_SETEXPLICIT modmapRtrn: LISTofKB_KEYMODMAP vmodMapRtrn: LISTofKB_KEYVMODMAP Errors: Keyboard , Value , Match , Alloc This request returns the indicated components of the server and client maps of the keyboard specified by deviceSpec . The full mask specifies the map components to be returned in full; the partial mask specifies the components for which some subset of the legal elements are to be returned. The server returns a Match error if any component is specified in both full and partial , or a Value error if any undefined bits are set in either full or partial . Each bit in the partial mask controls the interpretation of one or more of the other request fields, as follows: Bit in the Partial Mask Type Corresponding Field(s) XkbKeyTypesMask key types firstType , nTypes XkbKeySymsMask keycodes firstKeySym , nKeySyms XkbKeyActionsMask keycodes firstKeyAction , nKeyActions XkbKeyBehaviorsMask keycodes firstKeyBehavior , nKeyBehaviors XkbExplicitComponentsMask keycodes firstKeyExplicit , nKeyExplicit XkbModifierMapMask keycodes firstModMapKey , nModMapKeys XkbVirtualModMapMask keycodes firstVModMapKey , nVModMapKeys XkbVirtualModsMask virtual modifiers virtualMods If any of these keyboard map components are specified in partial , the corresponding values must specify a valid subset of the requested components or this request reports a Value error. If a keyboard map component is not specified in partial , the corresponding fields must contain zeroes, or a Match error results. If any error is generated, the request aborts and does not report any values. On successful return, the deviceID field reports the X input extension device ID of the keyboard for which information is being returned, or 0 if the server does not support the X input extension. The minKeyCode and maxKeyCode return values report the minimum and maximum keycodes that are legal for the keyboard in question. The present return value lists all of the keyboard map components contained in the reply. The bits in present affect the interpretation of the other return values as follows: If XkbKeyTypesMask is set in present : firstType and nTypes specify the types reported in the reply. nTotalTypes reports the total number of types defined for the keyboard typesRtrn has nTypes elements of type KB_KEYTYPE which describe consecutive key types starting from firstType . If XkbKeySymsMask is set in present : firstKeySym and nKeySyms specify the subset of the keyboard keys for which symbols will be reported. totalSyms reports the total number of keysyms bound to the keys returned in this reply. symsRtrn has nKeySyms elements of type KB_KEYSYMMAP, which describe the symbols bound to consecutive keys starting from firstKeySym . If XkbKeyActionsMask is set in present : firstKeyAction and nKeyActions specify the subset of the keys for which actions are reported. totalActions reports the total number of actions bound to the returned keys. The count field of the actsRtrn return value has nKeyActions entries of type CARD8, which specify the number of actions bound to consecutive keys starting from firstKeyAction . The acts field of actsRtrn has totalActions elements of type KB_ACTION and specifies the actions bound to the keys. If XkbKeyBehaviorsMask is set in present : The firstKeyBehavior and nKeyBehaviors return values report the range of keyboard keys for which behaviors will be reported. The totalKeyBehaviors return value reports the number of keys in the range to be reported that have non-default values. The behaviorsRtrn value has totalKeyBehaviors entries of type KB_BEHAVIOR. Each entry specifies a key in the range for which behaviors are being reported and the behavior associated with that key. Any keys in that range that do not have an entry in behaviorsRtrn have the default behavior, KB_Default . If XkbExplicitComponentsMask is set in present : The firstKeyExplicit and nKeyExplicit return values report the range of keyboard keys for which the set of explicit components is to be returned. The totalKeyExplicit return value reports the number of keys in the range specified by firstKeyExplicit and nKeyExplicit that have one or more explicit components. The explicitRtrn return value has totalKeyExplicit entries of type KB_KEYEXPLICIT. Each entry specifies the a key in the range for which explicit components are being reported and the explicit components that are bound to it. Any keys in that range that do not have an entry in explicitRtrn have no explicit components. If XkbModifierMapMask is set in present : The firstModMapKey and nModMapKeys return values report the range of keyboard keys for which the modifier map is to be reported. The totalModMapKeys return value reports the number of keys in the range specified by firstModMapKey and nModMapKeys that are bound with to one or more modifiers. The modmapRtrn return value has totalModMapKeys entries of type KB_KEYMODMAP. Each entry specifies the a key in the range for which the modifier map is being reported and the set of modifiers that are bound to that key. Any keys in that range that do not have an entry in modmapRtrn are not associated with any modifiers by the modifier mapping. If XkbVirtualModMapMask is set in present : The firstVModMapKey and nVModMapKeys return values report the range of keyboard keys for which the virtual modifier map is to be reported. The totalVModMapKeys return value reports the number of keys in the range specified by firstVModMapKey and nVModMapKeys that are bound with to or more virtual modifiers. The vmodmapRtrn return value has totalVModMapKeys entries of type KB_KEYVMODMAP. Each entry specifies the a key in the range for which the virtual modifier map is being reported and the set of virtual modifiers that are bound to that key. Any keys in that range that do not have an entry in vmodmapRtrn are not associated with any virtual modifiers, If XkbVirtualModsMask is set in present : The virtualMods return value is a mask with one bit per virtual modifier which specifies the virtual modifiers for which a set of corresponding real modifiers is to be returned. The vmodsRtrn return value is a list with one entry of type KEYBUTMASK for each virtual modifier that is specified in virtualMods . The entries in vmodsRtrn contain the real modifier bindings for the specified virtual modifiers, beginning with the lowest-numbered virtual modifier that is present in virtualMods and proceeding to the highest. If any of these bits are not set in present , the corresponding numeric fields all have the value zero, and the corresponding lists are all of length zero. XkbSetMap deviceSpec: KB_DEVICESPEC flags: { SetMapResizeTypes, SetMapRecomputeActions } present: KB_MAPPARTMASK minKeyCode, maxKeyCode: KEYCODE firstType, nTypes: CARD8 firstKeySym, firstKeyAction: KEYCODE nKeySyms, nKeyActions: CARD8 totalSyms, totalActions: CARD16 firstKeyBehavior, firstKeyExplicit: KEYCODE nKeyBehaviors, nKeyExplicit: CARD8 totalKeyBehaviors, totalKeyExplicit: CARD8 firstModMapKey, firstVModMapKey: KEYCODE nModMapKeys, nVModMapKeys: CARD8 totalModMapKeys, totalVModMapKeys: CARD8 virtualMods: VMODMASK types: LISTofKB_KEYTYPE syms: LISTofKB_KEYSYMMAP actions: { count: LISTofCARD8, actions: LISTofKB_ACTION } behaviors: LISTofKB_BEHAVIOR vmods: LISTofKEYMASK explicit: LISTofKB_EXPLICIT modmap: LISTofKB_KEYMODMAP vmodmap: LISTofKB_KEYVMODMAP Errors: Keyboard , Value , Match , Alloc This request changes the indicated parts of the keyboard specified by deviceSpec . With XKB, the effect of a key release is independent of the keyboard mapping at the time of the release, so this request can be processed regardless of the logical state of the modifier keys at the time of the request. The present field specifies the keyboard map components contained to be changed. The bits in present affect the interpretation of the other fields as follows: If XkbKeyTypesMask is set in present , firstType and nTypes specify a subset of the key types bound to the keyboard to be changed or created. The index of the first key type to be changed must be less than or equal to the unmodified length of the list of key types or a Value error results. If XkbKeyTypesMask is set in present and SetMapResizeTypes is set in flags , the server resizes the list of key types bound to the keyboard so that the last key type specified by this request is the last element in the list. If the list of key types is shrunk, any existing key definitions that use key types that eliminated are automatically assigned key types from the list of canonical key types as described in Assigning Types To Groups of Symbols for a Key. The list of key types bound to a keyboard must always include the four canonical types and cannot have more than XkbMaxTypesPerKey (32) types; any attempt to reduce the number of types bound to a keyboard below four or above XkbMaxTypesPerKey causes a Value error. Symbolic names for newly created key types or levels within a key type are initialized to None . If XkbKeyTypesMask is set in present , the types list has nTypes entries of type KB_KEYTYPE.Each key type specified in types must be valid or a Value error results. To be valid a key type definition must meet the following criteria: The numLevels for the type must be greater than zero. If the key type is ONE_LEVEL (i.e. index zero in the list of key types), numLevels must be one. If the key type is TWO_LEVEL or KEYPAD , or ALPHABETIC (i.e. index one, two, or three in the lest of key types) group width must be two. Each key type in types must also be internally consistent, or a Match error results. To be internally consistent, a key type definition must meet the following criteria: Each map entry must specify a resulting level that is legal for the type. Any real or virtual modifiers specified in any of the map entries must also be specified in the mods for the type. If XkbKeySymsMask is set in present , firstKeySym and nKeySyms specify a subset of the keyboard keys to which new symbols are to be assigned and totalSyms specifies the total number of symbols to be assigned to those keys. If any of the keys specified by firstKeySym and nKeySyms are not legal, a Match error results. The syms list has nKeySyms elements of type KB_KEYSYMMAP. Each key in the resulting key symbol map must be valid and internally consistent or a Value error results. To be valid and internally consistent, a key symbol map must meet the following criteria: The key type indices must specify legal result key types. The number of groups specified by groupInfo must be in the range 0…4 . The width of the key symbol map must be equal to numLevels of the widest key type bound to the key. The number of symbols, nSyms , must equal the number of groups times width . If XkbKeyActionsMask is set in present , firstKeyAction and nKeyActions specify a subset of the keyboard keys to which new actions are to be assigned and totalActions specifies the total number of actions to be assigned to those keys. If any of the keys specified by firstKeyAction and nKeyActions are not legal, a Match error results. The count field of the actions return value has nKeyActions elements of type CARD8; each element of count specifies the number of actions bound to the corresponding key. The actions list in the actions field has totalActions elements of type KB_ACTION. These actions are assigned to each target key in turn, as specified by count . The list of actions assigned to each key must either be empty or have exactly as many actions as the key has symbols, or a Match error results. If XkbKeyBehaviorsMask is set in present , firstKeyBehavior and nKeyBehaviors specify a subset of the keyboard keys to which new behaviors are to be assigned, and totalKeyBehaviors specifies the total number of keys in that range to be assigned non-default behavior. If any of the keys specified by firstKeyBehavior and nKeyBehaviors are not legal, a Match error results. The behaviors list has totalKeyBehaviors elements of type KB_BEHAVIOR; each entry of behaviors specifies a key in the specified range and a new behavior for that key; any key that falls in the range specified by firstBehavior and nBehaviors for which no behavior is specified in behaviors is assigned the default behavior, KB_Default . The new behaviors must be legal, or a Value error results. To be legal, the behavior specified in the XkbSetMap request must: Specify a key in the range indicated by firstKeyBehavior and nKeyBehaviors . Not specify the permanent flag; permanent behaviors cannot be set or changed using the XkbSetMap request. If present, the KB_Overlay1 and KB_Overlay2 behaviors must specify a keycode for the overlay key that is valid for the current keyboard. If present, the KB_RadioGroup behavior must specify a legal index (0…31) for the radio group to which the key belongs. Key behaviors that are not recognized by the server are accepted but ignored. Attempts to replace a "permanent" behavior are silently ignored; the behavior is not replaced, but not error is generated and any other components specified in the XkbSetMap request are updated, as appropriate. If XkbVirtualModsMask is set in present , virtualMods is a mask which specifies the virtual modifiers to be rebound. The vmods list specifies the real modifiers that are bound to each of the virtual modifiers specified in virtualMods , starting from the lowest numbered virtual modifier and progressing upward. Any virtual modifier that is not specified in virtualMods has no corresponding entry in vmods , so the vmods list has one entry for each bit that is set in virtualMods . If XkbExplicitComponentsMask is set in present , firstKeyExplicit and nKeyExplicit specify a subset of the keyboard keys to which new explicit components are to be assigned, and totalKeyExplicit specifies the total number of keys in that range that have at least one explicit component. The explicit list has totalKeyExplicit elements of type KB_KEYEXPLICIT; each entry of explicit specifies a key in the specified range and a new set of explicit components for that key. Any key that falls in the range specified by firstKeyExplicit and nKeyExplicit that is not assigned some value in explicit has no explicit components. If XkbModifierMapMask is set in present , firstModMapKey and nModMapKeys specify a subset of the keyboard keys for which new modifier mappings are to be assigned, and totalModMapKeys specifies the total number of keys in that range to which at least one modifier is bound. The modmap list has totalModMapKeys elements of type KB_KEYMODMAP; each entry of modmap specifies a key in the specified range and a new set of modifiers to be associated with that key. Any key that falls in the range specified by firstModMapKey and nModMapKeys that is not assigned some value in modmap has no associated modifiers. If the modifier map is changed by the XkbSetMap request, any changes are also reflected in the core protocol modifier mapping. Changes to the core protocol modifier mapping are reported to XKB-unaware clients via MappingNotify events and can be retrieved with the core protocol GetModifierMapping request. If XkbVirtualModMapMask is set in present , firstVModMapKey and nVModMapKeys specify a subset of the keyboard keys for which new modifier mappings are to be assigned, and totalVModMapKeys specifies the total number of keys in that range to which at least one virtual modifier is bound. The vmodmap list has totalVModMapKeys elements of type KB_KEYVMODMAP; each entry of vmodmap specifies a key in the specified range and a new set of virtual modifiers to be associated with that key. Any key that falls in the range specified by firstVModMapKey and nVModMapKeys that is not assigned some value in vmodmap has no associated virtual modifiers. If the resulting keyboard map is legal, the server updates the keyboard map. Changes to some keyboard components have indirect effects on others: If the XkbSetMapRecomputeActions bit is set in flags , the actions associated with any keys for which symbol or modifier bindings were changed by this request are recomputed as described in Assigning Actions To Keys. Note that actions are recomputed after any actions specified in this request are bound to keys, so the actions specified in this request might be clobbered by the automatic assignment of actions to keys. If the group width of an existing key type is changed, the list of symbols associated with any keys of the changed type might be resized accordingly. If the list increases in size, any unspecified new symbols are initialized to NoSymbol . If the list of actions associated with a key is not empty, changing the key type of the key resizes the list. Unspecified new actions are calculated by applying any keyboard symbol interpretations to the corresponding symbols. The number of groups global to the keyboard is always equal to the largest number of groups specified by any of the key symbol maps. Changing the number of groups in one or more key symbol maps may change the number of groups global to the keyboard. Assigning key behavior KB_RadioGroup to a key adds that key as a member of the specified radio group. Changing a key with the existing behavior KB_RadioGroup removes that key from the group. Changing the elements of a radio group can cause synthetic key press or key release events if the key to be added or removed is logically down at the time of the change. Changing a key with behavior KB_Lock causes a synthetic key release event if the key is logically but not physically down at the time of the change. This request sends an XkbMapNotify event which reflects both explicit and indirect map changes to any interested clients. If any symbolic names are changed, it sends a XkbNamesNotify reflecting the changes to any interested clients. XKB-unaware clients are notified of keyboard changes via core protocol MappingNotify events. Key press and key release events caused by changing key behavior may cause additional XkbStateNotify or XkbIndicatorStateNotify events. Querying and Changing the Compatibility Map XkbGetCompatMap deviceSpec: KB_DEVICESPEC groups: KB_GROUPMASK getAllSI: BOOL firstSI, nSI: CARD16 deviceID: CARD8 groupsRtrn: KB_GROUPMASK firstSIRtrn, nSIRtrn, nTotalSI: CARD16 siRtrn: LISTofKB_SYMINTERP groupRtrn: LISTofKB_MODDEF Errors: Keyboard , Match , Alloc This request returns the listed compatibility map components for the keyboard specified by deviceSpec . If deviceSpec does not specify a valid keyboard device, a Keyboard Error results. On return, deviceID reports the input extension identifier of the keyboard device or 0 if the server does not support the input extension. If getAllSI is False , firstSI and nSI specify a subset of the symbol interpretations to be returned; if used, nSI must be greater than 0 and all of the elements specified by firstSI and nSI must be defined or a Value error results. If getAllSyms is True , the server ignores firstSym and nSyms and returns all of the symbol interpretations defined for the keyboard. The groups mask specifies the groups for which compatibility maps are to be returned. The nTotalSI return value reports the total number of symbol interpretations defined for the keyboard. On successful return, the siRtrn return list contains the definitions for nSIRtrn symbol interpretations beginning at firstSIRtrn . The groupRtrn return values report the entries in the group compatibility map for any groups specified in the groupsRtrn return value. XkbSetCompatMap deviceSpec: KB_DEVICESPEC recomputeActions: BOOL truncateSI: BOOL groups: KB_GROUPMASK firstSI, nSI: CARD16 si: LISTofKB_SYMINTERPRET groupMaps: LISTofKB_MODDEF Errors: Keyboard , Match , Value , Alloc This request changes a specified subset of the compatibility map of the keyboard indicated by deviceSpec . If deviceSpec specifies an invalid device, a Keyboard error results and nothing is changed. The firstSI and nSI fields specify a subset of the keyboard symbol interpretations to be changed. The si list specifies new values for each of the interpretations in that range. The first symbol interpretation to be changed, firstSI , must be less than or equal to the unchanged length of the list of symbol interpretations, or a Value error results. If the resulting list would be larger than the unchanged list, it server list of symbol interpretations is automatically increased in size. Otherwise, if truncateSyms is True , the server deletes any symbol interpretations after the last element changed by this request, and reduces the length of the list accordingly. The groupMaps fields contain new definitions for a subset of the group compatibility map; groups specifies the group compatibility map entries to be updated from groupMaps . All changed compatibility maps and symbol interpretations must either ignore group state or specify a legal range of groups, or a Value error results. If the recomputeActions field is True , the server regenerates recalculates the actions bound to all keyboard keys by applying the new symbol interpretations to the entire key symbol map, as described in Assigning Actions To Keys. Querying and Changing Indicators XkbGetIndicatorState deviceSpec: KB_DEVICESPEC deviceID: CARD8 state: KB_INDICATORMASK Errors: Keyboard This request reports the current state of the indicators for the keyboard specified by deviceSpec . If deviceSpec does not specify a valid keyboard, a Keyboard error results. On successful return, the deviceID field reports the input extension identifier of the keyboard or 0 if the server does not support the input extension. The state return value reports the state of each of the thirty-two indicators on the specified keyboard. The least-significant bit corresponds to indicator 0, the most significant bit to indicator 31; if a bit is set, the corresponding indicator is lit. XkbGetIndicatorMap deviceSpec: KB_DEVICESPEC which: KB_INDICATORMASK deviceID: CARD8 which: KB_INDICATORMASK realIndicators: KB_INDICATORMASK nIndicators: CARD8 maps: LISTofKB_INDICATORMAP Errors: Keyboard , Value This request returns a subset of the maps for the indicators on the keyboard specified by deviceSpec . If deviceSpec does not specify a valid keyboard device, a Keyboard error results. The which field specifies the subset to be returned; a set bit in the which field indicates that the map for the corresponding indicator should be returned. On successful return, the deviceID field reports the input extension identifier of the keyboard or 0 if the server does not support the input extension. Any indicators specified in realIndicators are actually present on the keyboard; the rest are virtual indicators. Virtual indicators do not directly cause any visible or audible effect when they change state, but they do cause XkbIndicatorStateNotify events. The maps return value reports the requested indicator maps. Indicator maps are described in Indicator Maps XkbSetIndicatorMap deviceSpec: KB_DEVICESPEC which: KB_INDICATORMASK maps: LISTofKB_INDICATORMAP Errors: Keyboard , Value This request changes a subset of the maps on the keyboard specified by deviceSpec . If deviceSpec does not specify a valid keyboard device, a Keyboard error results. The which field specifies the subset to be changed; the maps field contains the new definitions. If successful, the new indicator maps are applied immediately. If any indicators change state as a result of the new maps, the server generates XkbIndicatorStateNotify events as appropriate. XkbGetNamedIndicator deviceSpec: KB_DEVICESPEC ledClass: KB_LEDCLASSSPEC ledID: KB_IDSPEC indicator: ATOM deviceID: CARD8 supported: BOOL indicator: ATOM found: BOOL on: BOOL realIndicator: BOOL ndx: CARD8 map: KB_INDICATORMAP Errors: Keyboard , Atom , Value This request returns information about the indicator specified by ledClass , ledID , and indicator on the keyboard specified by deviceSpec . The indicator field specifies the name of the indicator for which information is to be returned. If deviceSpec does not specify a device with indicators, a Keyboard error results. If ledClass does not have the value DfltXIClass , LedFeedbackClass , or KbdFeedbackClass , a Value error results. If ledID does not have the value DfltXIId or specify the identifier of a feedback of the class specified by ledClass on the device specified by deviceSpec , a Match error results. If indicator is not a valid ATOM other than None , an Atom error results. This request is always supported with default class and identifier on the core keyboard device. If the request specifies a device other than the core keyboard device or a feedback class and identifier other than the defaults, and the server does not support indicator names or indicator maps for extension devices, the supported return value is False and the values of the other fields in the reply are undefined. If the client which issued the unsupported request has also selected to do so, it will also receive an XkbExtensionDeviceNotify event which reports the attempt to use an unsupported feature, in this case one or both of XkbXI_IndicatorMaps or XkbXI_IndicatorNames . Otherwise, supported is True and the deviceID field reports the input extension identifier of the keyboard or 0 if the server does not support the input extension. The indicator return value reports the name for which information was requested and the found return value is True if an indicator with the specified name was found on the device. If a matching indicator was found: The on return value reports the state of the indicator at the time of the request. The realIndicator return value is True if the requested indicator is actually present on the keyboard or False if it is virtual. The ndx return value reports the index of the indicator in the requested feedback. The map return value reports the indicator map used by to automatically change the state of the specified indicator in response to changes in keyboard state or controls. If no matching indicator is found, the found return value is False , and the on , realIndicator , ndx , and map return values are undefined. XkbSetNamedIndicator deviceSpec: KB_DEVICESPEC ledClass: KB_LEDCLASSSPEC ledID: KB_IDSPEC indicator: ATOM setState: BOOL on: BOOL setMap: BOOL createMap: BOOL map: KB_SETINDICATORMAP Errors: Keyboard , Atom , Access This request changes various aspects of the indicator specified by ledClass , ledID , and indicator on the keyboard specified by deviceSpec . The indicator argument specifies the name of the indicator to be updated. If deviceSpec does not specify a device with indicators, a Keyboard error results. If ledClass does not have the value DfltXIClass , LedFeedbackClass , or KbdFeedbackClass , a Value error results. If ledID does not have the value DfltXIId or specify the identifier of a feedback of the class specified by ledClass on the device specified by deviceSpec , a Match error results. If indicator is not a valid ATOM other than None , an Atom error results. This request is always supported with default class and identifier on the core keyboard device. If the request specifies a device other than the core keyboard device or a feedback class and identifier other than the defaults, and the server does not support indicator names or indicator maps for extension devices, the supported return value is False and the values of the other fields in the reply are undefined. If the client which issued the unsupported request has also selected to do so, it will also receive an XkbExtensionDeviceNotify event which reports the attempt to use an unsupported feature, in this case one or both of XkbXI_IndicatorMaps and XkbXI_IndicatorNames . Otherwise, supported is True and the deviceID field reports the input extension identifier of the keyboard or 0 if the server does not support the input extension. The indicator return value reports the name for which information was requested and the found return value is True if an indicator with the specified name was found on the device. If no indicator with the specified name is found on the specified device, and the createMap field is True , XKB assigns the specified name to the lowest-numbered indicator that has no name (i.e. whose name is None ) and applies the rest of the fields in the request to the newly named indicator. If no unnamed indicators remain, this request reports no error and has no effect. If no matching indicator is found or new indicator assigned this request reports no error and has no effect. Otherwise, it updates the indicator as follows: If setMap is True , XKB changes the map for the indicator (see Indicator Maps) to reflect the values specified in map . If setState is True , XKB attempts to explicitly change the state of the indicator to the state specified in on . The effects of an attempt to explicitly change the state of an indicator depend on the values in the map for that indicator and are not guaranteed to succeed. If this request affects both indicator map and state, it updates the indicator map before attempting to change its state, so the success of the explicit change depends on the indicator map values specified in the request. If this request changes the indicator map, it applies the new map immediately to determine the appropriate state for the indicator given the new indicator map and the current state of the keyboard. Querying and Changing Symbolic Names XkbGetNames deviceSpec: KB_DEVICESPEC which: KB_NAMEDETAILMASK deviceID: CARD8 which: KB_NAMESMASK minKeyCode, maxKeyCode: KEYCODE nTypes: CARD8 nKTLevels: CARD16 groupNames: KB_GROUPMASK virtualMods: KB_VMODMASK firstKey: KEYCODE nKeys: CARD8 indicators: KB_INDICATORMASK nRadioGroups, nKeyAliases: CARD8 present: KB_NAMEDETAILMASK valueList: LISTofITEMs Errors: Keyboard , Value This request returns the symbolic names for various components of the keyboard mapping for the device specified by deviceSpec . The which field specifies the keyboard components for which names are to be returned. If deviceSpec does not specify a valid keyboard device, a Keyboard error results. If any undefined bits in which are non-zero, a Value error results. The deviceID return value contains the X Input Extension device identifier of the specified device or 0 if the server does not support the input extension. The present and valueList return values specify the components for which names are being reported. If a component is specified in present , the corresponding element is present in the valueList , otherwise that component has length 0 . The components of the valueList appear in the following order, when present:. Component Size Type XkbKeycodesName 1 ATOM XkbGeometryName 1 ATOM XkbSymbolsName 1 ATOM XkbPhysSymbolsName 1 ATOM XkbTypesName 1 ATOM XkbCompatName 1 ATOM XkbKeyTypeNames nTypes LISTofATOM XkbKTLevelNames nTypes , nKTLevels { count: LISTofCARD8, names: LISTofATOM } XkbIndicatorNames One per bit set in indicators LISTofATOM XkbVirtualModNames One per bit set in virtualMods LISTofATOM XkbGroupNames One per bit set in groupNames LISTofATOM XkbKeyNames nKeys LISTofKB_KEYNAME XkbKeyAliases nKeyAliases LISTofKB_KEYALIAS XkbRGNames nRadioGroups LISTofATOM If type names are reported, the nTypes return value reports the number of types defined for the keyboard, and the list of key type names in valueList has nTypes elements. If key type level names are reported, the list of key type level names in the valueList has two parts: The count array has nTypes elements, each of which reports the number of level names reported for the corresponding key type. The names array has nKTLevels atoms and reports the names of each type sequentially. The nKTLevels return value is always equal to the sum of all of the elements of the count array. If indicator names are reported, the indicators mask specifies the indicators for which names are defined; any indicators not specified in indicators have the name None . The list of indicator names in valueList contains the names of the listed indicators, beginning with the lowest-numbered indicator for which a name is defined and proceeding to the highest. If virtual modifier names are reported, the virtualMods mask specifies the virtual modifiers for which names are defined; any virtual modifiers not specified in virtualMods have the name None . The list of virtual modifier names in valueList contains the names of the listed virtual modifiers, beginning with the lowest-numbered virtual modifier for which a name is defined and proceeding to the highest. If group names are reported, the groupNames mask specifies the groups for which names are defined; any groups not specified in groupNames have the name None . The list of group names in valueList contains the names of the listed groups, beginning with the lowest-numbered group for which a name is defined and proceeding to the highest. If key names are reported, the firstKey and nKeys return values specify a range of keys which includes all keys for which names are defined; any key that does not fall in the range specified by firstKey and nKeys has the name NullKeyName . The list of key names in the valueList has nKeys entries and specifies the names of the keys beginning at firstKey . If key aliases are reported, the nKeyAliases return value specifies the total number of key aliases defined for the keyboard. The list of key aliases in valueList has nKeyAliases entries, each of which reports an alias and the real name of the key to which it corresponds. If radio group names are reported, the nRadioGroups return value specifies the number of radio groups on the keyboard for which names are defined. The list of radio group names in valueList reports the names of each group and has nRadioGroups entries. XkbSetNames deviceSpec: KB_DEVICESPEC which: KB_NAMEDETAILMASK virtualMods: KB_VMODMASK firstType, nTypes: CARD8 firstKTLevel, nKTLevels: CARD8 totalKTLevelNames: CARD16 indicators: KB_INDICATORMASK groupNames: KB_GROUPMASK nRadioGroups: CARD8 firstKey: KEYCODE nKeys, nKeyAliases: CARD8 valueList: LISTofITEMs Errors: Keyboard , Atom , Value , Match , Alloc This request changes the symbolic names for the requested components of the keyboard specified by deviceSpec . The which field specifies the components for which one or more names are to be updated. If deviceSpec does not specify a valid keyboard device, a Keyboard error results. If any undefined bits in which are non-zero, a Value error results. If any error (other than Alloc or Implementation ) occurs, this request returns without modifying any names. The which and valueList fields specify the components to be changed; the type of each valueList entry, the order in which components appear in the valueList when specified, and the correspondence between components in which and the entries in the valueList are as specified for the XkbGetNames request. If keycodes, geometry, symbols, physical symbols, types or compatibility map names are to be changed, the corresponding entries in the valueList must have the value None or specify a valid ATOM, else an Atom error occurs. If key type names are to be changed, the firstType and nTypes fields specify a range of types for which new names are supplied, and the list of key type names in valueList has nTypes elements. Names for types that fall outside of the range specified by firstType and nTypes are not affected. If this request specifies names for types that are not present on the keyboard, a Match error results. All of the type names in the valueList must be valid ATOMs or have the value None , or an Atom error results. The names of the first four keyboard types are specified by the XKB extension and cannot be changed; including any of the canonical types in this request causes an Access error, as does trying to assign the name reserved for a canonical type to one of the other key types. If key type level names are to be changed, the firstKTLevel and nKTLevels fields specify a range of key types for which new level names are supplied, and the list of key type level names in the valueList has two parts: The count array has nKTLevels elements, each of which specifies the number of levels for which names are supplied on the corresponding key type; any levels for which no names are specified are assigned the name None . The names array has totalKTLevels atoms and specifies the names of each type sequentially. The totalKTLevels field must always equal the sum of all of the elements of the count array. Level names for types that fall outside of the specified range are not affected. If this request specifies level names for types that are not present on the keyboard, or if it specifies more names for a type than the type has levels, a Match error results. All specified type level names must be None or a valid ATOM or an Atom error results. If indicator names are to be changed, the indicators mask specifies the indicators for which new names are specified; the names for indicators not specified in indicators are not affected. The list of indicator names in valueList contains the new names for the listed indicators, beginning with the lowest-numbered indicator for which a name is defined and proceeding to the highest. All specified indicator names must be a valid ATOM or None , or an Atom error results. If virtual modifier names are to be changed, the virtualMods mask specifies the virtual modifiers for which new names are specified; names for any virtual modifiers not specified in virtualMods are not affected. The list of virtual modifier names in valueList contains the new names for the specified virtual modifiers, beginning with the lowest-numbered virtual modifier for which a name is defined and proceeding to the highest. All virtual modifier names must be valid ATOMs or None , or an Atom error results. If group names are to be changed, the groupNames mask specifies the groups for which new names are specified; the name of any group not specified in groupNames is not changed. The list of group names in valueList contains the new names for the listed groups, beginning with the lowest-numbered group for which a name is defined and proceeding to the highest. All specified group names must be a valid ATOM or None , or an Atom error results. If key names are to be changed, the firstKey and nKeys fields specify a range of keys for which new names are defined; the name of any key that does not fall in the range specified by firstKey and nKeys is not changed. The list of key names in the valueList has nKeys entries and specifies the names of the keys beginning at firstKey . If key aliases are to be changed, the nKeyAliases field specifies the length of a new list of key aliases for the keyboard. The list of key aliases can only be replaced in its entirety; it cannot be replaced. The list of key aliases in valueList has nKeyAliases entries, each of which reports an alias and the real name of the key to which it corresponds. XKB does not check key names or aliases for consistency and validity, so applications should take care not to assign duplicate names or aliases If radio group names are to be changed, the nRadioGroups field specifies the length of a new list of radio group names for the keyboard. There is no way to edit the list of radio group names; it can only be replaced in its entirety. The list of radio group names in valueList reports the names of each group and has nRadioGroups entries. If the list of radio group names specifies names for more radio groups than XKB allows (32), a Match error results. All specified radio group names must be valid ATOMs or have the value None , or an Atom error results. Querying and Changing Keyboard Geometry XkbGetGeometry deviceSpec: KB_DEVICESPEC name: ATOM deviceID: CARD8 name: ATOM found: BOOL widthMM, heightMM: CARD16 baseColorNdx, labelColorNdx: CARD8 properties: LISTofKB_PROPERTY colors: LISTofSTRING8 shapes: LISTofKB_SHAPE sections: LISTofKB_SECTION doodads: LISTofKB_DOODAD keyAliases: LISTofKB_KEYALIAS Errors: Keyboard This request returns a description of the physical layout of a keyboard. If the name field has the value None , or if name is identical to the name of the geometry for the keyboard specified by deviceSpec , this request returns the geometry of the keyboard specified by deviceSpec ; otherwise, if name is a valid atom other than None , the server returns the keyboard geometry description with that name in the server database of keyboard components (see The Server Database of Keyboard Components) if one exists. If deviceSpec does not specify a valid keyboard device, a Keyboard error results. If name has a value other than None or a valid ATOM, an Atom error results. On successful return, the deviceID field reports the X Input extension identifier of the keyboard device specified in the request, or 0 if the server does not support the input extension. The found return value reports whether the requested geometry was available. If found is False , no matching geometry was found and the remaining fields in the request reply are undefined; if found is True , the remaining fields of the reply describe the requested keyboard geometry. The interpretation of the components that make up a keyboard geometry is described in detail in Keyboard Geometry XkbSetGeometry deviceSpec: KB_DEVICESPEC name: ATOM widthMM, heightMM, CARD16 baseColorNdx, labelColorNdx: CARD8 shapes: LISTofKB_SHAPE sections: LISTofKB_SECTION properties: LISTofKB_PROPERTY colors: LISTofSTRING8 doodads: LISTofKB_DOODAD keyAliases: LISTofKB_KEYALIAS Errors: Keyboard , Atom , Value This request changes the reported description of the geometry for the keyboard specified by deviceSpec . If deviceSpec does not specify a valid keyboard device, a Keyboard error results. The name field specifies the name of the new keyboard geometry and must be a valid ATOM or an Atom error results. The new geometry is not added to the server database of keyboard components, but it can be retrieved using the XkbGetGeometry request for as long as it is bound to the keyboard. The keyboard geometry symbolic name is also updated from the name field, and an XkbNamesNotify event is generated, if necessary. The list of colors must include at least two definitions, or a Value error results. All color definitions in the geometry must specify a legal color (i.e. must specify a valid index for one of the entries of the colors list) or a Match error results. The baseColorNdx and the labelColorNdx must be different or a Match error results. The list of shapes must include at least one shape definition, or a Value error results. If any two shapes have the same name, a Match error result. All doodads and keys which specify shape must specify a valid index for one of the elements of the shapes list, or a Match error results. All section, shape and doodad names must be valid ATOMs or an Atom error results; the constant None is not permitted for any of these components. All doodads must be of a known type; XKB does not support "private" doodad types. If, after rotation, any keys or doodads fall outside of the bounding box for a section, the bounding box is automatically adjusted to the minimum size which encloses all of its components. If, after adjustment and rotation, the bounding box of any section or doodad extends below zero on either the X or Y axes, the entire geometry is translated so that the minimum extent along either axis is zero. If, after rotation and translation, any keyboard components fall outside of the rectangle specified by widthMM and heightMM , the keyboard dimensions are automatically resized to the minimum bounding box that surrounds all components. Otherwise, the width and height of the keyboard are left as specified. The under field of any overlay key definitions must specify a key that is in the section that contains the overlay key, or a Match error results. This request does not check the value of the over field of an overlay key definition, so applications must be careful to avoid conflicts with actual keys. This request does not verify that key names or aliases are unique. It also does not verify that all key names specified in the geometry are bound to some keycode or that all keys that are named in the keyboard definition are also available in the geometry. Applications should make sure that keyboard geometry has no internal conflicts and is consistent with the other components of the keyboard definition, but XKB does not check for or guarantee it. Querying and Changing Per-Client Flags XkbPerClientFlags deviceSpec: KB_DEVICESPEC change: KB_PCFMASK value: KB_PCFMASK ctrlsToChange: KB_BOOLCTRLMASK autoCtrls: KB_BOOLCTRLMASK autoCtrlValues: KB_BOOLCTRLMASK deviceID: CARD8 supported: KB_PCFMASK value: KB_PCFMASK autoCtrls: KB_BOOLCTRLMASK autoCtrlValues: KB_BOOLCTRLMASK where: KB_PCFMASK: Errors: Keyboard , Value , Match , Alloc Changes the client specific flags for the keyboard specified by deviceSpec . Reports a Keyboard error if deviceSpec does not specify a valid keyboard device. Any flags specified in change are set to the corresponding values in value , provided that the server supports the requested control. Legal per-client-flags are: Flag… Described in… XkbPCF_DetectableAutorepeat Detectable Autorepeat XkbPCF_GrabsUseXKBStateMask Setting a Passive Grab for an XKB State XkbPCF_AutoResetControlsMask Automatic Reset of Boolean Controls XkbPCF_LookupStateWhenGrabbed Effects of XKB on Core Protocol Events XkbPCF_SendEventUsesXKBState Sending Events to Clients If PCF_AutoResetControls is set in both change and value , the client’s mask of controls to be changed is updated from ctrlsToChange , autoCtrls , and autoCtrlValues . Any controls specified in ctrlsToChange are modified in the auto-reset controls mask for the client; the corresponding bits from the autoCtrls field are copied into the auto-reset controls mask and the corresponding bits from autoCtrlValues are copied into the auto-reset controls state values. If any controls are specified in autoCtrlValues but not in autoCtrls , a Match error results. If any controls are specified in autoCtrls but not in ctrlsToChange , a Match error results. If PCF_AutoResetControls is set in change but not in value , the client’s mask of controls to be changed is reset to all zeroes (i.e. the client does not change any controls when it exits). This request reports a Match error if a bit is set in any of the value masks but not in the control mask that governs it or a Value error if any undefined bits are set in any of the masks. On successful return, the deviceID field reports the X Input extension identifier of the keyboard, or 0 if the server does not support the X Input Extension. The supported return value reports the set of per-client flags that are supported by the server; in this version of XKB, only the XkbPCF_DetectableAutorepeat per-client flag is optional; all other per-client flags must be supported. The value return value reports the current settings of all per-client flags for the specified keyboard. The autoCtrls return value reports the current set of controls to be reset when the client exits, while the autoCtrlValues return value reports the state to which they should be set. Using the Server’s Database of Keyboard Components XkbListComponents deviceSpec: KB_DEVICESPEC maxNames: CARD16 keymapsSpec: STRING8 keycodesSpec: STRING8 typesSpec: STRING8 compatMapSpec: STRING8 symbolsSpec: STRING8 geometrySpec: STRING8 deviceID: CARD8 extra: CARD16 keymaps,keycodes,types,compatMaps: LISTofKB_COMPONENTNAME symbols, geometries: LISTofKB_COMPONENTNAME Where: KB_COMPONENTNAME { hints: CARD8, name: STRING8 } Errors: Keyboard , Alloc This request returns one or more lists of keyboard components that are available from the X server database of keyboard components for the device specified by deviceSpec . The X server is allowed, but not required or expected, to maintain separate databases for each keyboard device. A Keyboard error results if deviceSpec does not specify a valid keyboard device. The maxNames field specifies the maximum number of component names to be reported, in total, by this request. The keymapsSpec , keycodesSpec , typesSpec , compatMapSpec , symbolsSpec and geometrySpec request fields specify a pattern to be matched against the names of all components of the corresponding type in the server database of keyboard components. Each pattern uses the ISO Latin-1 encoding and should contain only parentheses, the wildcard characters "?" and "*" or characters that are permitted in a component class or member name (see Component Names). Illegal characters in a pattern are simply ignored; no error results if a pattern contains illegal characters. Comparison is case-sensitive and, in a pattern, the "?" wildcard character matches any single character except parentheses while the "*" character matches any number of characters except parentheses. If an implementation accepts characters other than those required by XKB, whether or not those characters match either wildcard is also implementation dependent. An empty pattern does not match any component names. On successful return, the deviceID return value reports the X Input Extension device identifier of the specified device, or 0 if the server does not support the X input extension. The extra return value reports the number of matching component names that could not be returned due to the setting of the maxNames field in the request. The keymaps , keycodes , types , compatMaps , symbols and geometries return the hints (see Component Hints) and names of any components from the server database that match the corresponding pattern. The Server Database of Keyboard Components describes the X server database of keyboard components in more detail. XkbGetKbdByName deviceSpec: KB_DEVICESPEC need, want: KB_GBNDETAILMASK load: BOOL keymapsSpec: STRING8 keycodesSpec, typesSpec: STRING8 compatMapSpec, symbolsSpec: STRING8 geometrySpec: STRING8 deviceID: CARD8 minKeyCode, maxKeyCode: KEYCODE loaded, newKeyboard: BOOL found, reported: KB_GBNDETAILMASK map: optional XkbGetMap reply compat: optional XkbGetCompatMap reply indicators: optional XkbGetIndicatorMap reply names: optional XkbGetNames reply geometry: optional XkbGetGeometry reply Errors: Keyboard , Access , Alloc Assembles and returns a keymap from the current mapping and specified elements from the server database of keymap components for the keyboard specified by deviceSpec , and optionally replaces the current keyboard mapping with the newly generated description. If deviceSpec does not specify a valid keyboard device, a Keyboard error results. The keymapsSpec , keycodesSpec , typesSpec , compatMapSpec , symbolsSpec and geometrySpec component expressions (see Partial Components and Combining Multiple Components) specify the database components to be used to assemble the keyboard description. The want field lists the pieces of the keyboard description that the client wants to have reported for the newly constructed keymap. The need field lists all of the pieces that must be reported. If any of the pieces in need cannot be loaded from the specified names, no description of the keyboard is returned. The want and need fields can include any combinations of these XkbGetMapByName (GBN) components: XkbGetMapByName Keyboard Component… Database Component… Components of Keyboard Description XkbGBN_Types types key types XkbGBN_CompatMap compat symbol interpretations, group compatibility map XkbGBN_ClientSymbols symbols, types, keycodes key types, key symbol mappings, modifier mapping XkbGBN_ServerSymbols symbols, types, keycodes key behaviors, key actions, key explicit components, virtual modifiers, virtual modifier mapping XkbGBN_IndicatorMap compat indicator maps, indicator names XkbGBN_KeyNames keycodes key names, key aliases XkbGBN_Geometry geometry keyboard geometry XkbGBN_OtherNames all key types, symbol interpretations, indicator maps, names, geometry If either field contains a GBN component that depends on some database component for which the request does not supply an expression, XKB automatically substitutes the special pattern "%" which copies the corresponding component from the current keyboard description, as described in Partial Components and Combining Multiple Components. The load flag asks the server to replace the current keyboard description for deviceSpec with the newly constructed keyboard description. If load is True , the request must include component expressions for all of the database components; if any are missing, XKB substitutes "%" as described above. If all necessary components are both specified and found, the new keyboard description is loaded. If the new keyboard description has a different geometry or keycode range than the previous keyboard description, XKB sends XkbNewKeyboardNotify events to all interested clients. See Replacing the Keyboard "On-the-Fly" for more information about the effects of replacing the keyboard description on the fly. If the range of keycodes changes, clients that have requested XkbNewKeyboardNotify events are not sent any other change notification events by this request. Clients that do not request XkbNewKeyboardNotify events are sent other XKB change notification events (e.g. XkbMapNotify , XkbNamesNotify ) as necessary to alert them to as many of the keyboard changes as possible. If no error occurs, the request reply reports the GBN components that were found and sends a description of any of the resulting keyboard that includes and of the components that were requested. The deviceID return value reports the X Input extension device identifier of the keyboard that was used, or 0 if the server does not support the X input extension. The minKeyCode and maxKeyCode return values report the legal range of keycodes for the keyboard description that was created. If the resulting keyboard description does not include at least one of the key names, client symbols or server symbols components, minKeyCode and maxKeyCode are both 0 . The loaded return value reports whether or not the existing keyboard definition was replaced with the newly created one. If loaded is True , the newKeyboard return value reports whether or not the new map changed the geometry or range of keycodes and caused XkbNewKeyboardNotify events for clients that have requested them. The found return value reports the GBN components that were present in the keymap that was constructed by this request. The reported return value lists the subset of those components for which descriptions follow. if any of the components specified in the need field of the request were not found, reported is empty, otherwise it contains the intersection of the found return value with the union of the need and want request fields. If any of GBN_Types , GBN_ClientSymbols or GBN_ServerSymbols are set in reported , the map return value has the same format as the reply to an XkbGetMap request and reports the corresponding pieces of the newly constructed keyboard description. If GBN_CompatMap is set in reported , the compat return value has the same format as the reply to an XkbGetCompatMap request and reports the symbol interpretations and group compatibility map for the newly constructed keyboard description. If GBN_IndicatorMap is set in reported , the indicators return value has the same format as the reply to an XkbGetIndicatorMap request and reports the physical indicators and indicator maps for the newly constructed keyboard description. If GBN_KeyNames or GBN_OtherNames are set in reported , the names return value has the same format as the reply to an XkbGetNames reply and reports the corresponding set of symbolic names for the newly constructed keyboard description. If GBN_Geometry is set in reported , the geometry return value has the same format as the reply to an XkbGetGeometryMap request and reports the keyboard geometry for the newly constructed keyboard description. Querying and Changing Input Extension Devices XkbGetDeviceInfo deviceSpec: KB_DEVICESPEC wanted: KB_XIDEVFEATUREMASK ledClass: KB_LEDCLASSSPEC ledID: KB_IDSPEC allButtons: BOOL firstButton, nButtons: CARD8 deviceID: CARD8 present: KB_XIDEVFEATUREMASK supported: KB_XIFEATUREMASK unsupported: KB_XIFEATUREMASK firstBtnWanted: CARD8 nBtnsWanted: CARD8 firstBtnRtrn: CARD8 nBtnsRtrn: CARD8 totalBtns: CARD8 hasOwnState: BOOL dfltKbdFB, dfltLedFB: KB_IDSPEC devType: ATOM name: STRING btnActions: LISTofKB_ACTION leds: LISTofKB_DEVICELEDINFO Errors: Device , Match , Access , Alloc Reports a subset of the XKB-supplied information about the input device specified by deviceSpec . Unlike most XKB requests, the device specified for XkbGetDeviceInfo need not be a keyboard device. Nonetheless, a Keyboard error results if deviceSpec does not specify a valid core or input extension device. The wanted field specifies the types of information to be returned, and controls the interpretation of the other request fields. If the server does not support assignment of XKB actions to extension device buttons, the allButtons , firstButton and nButtons fields are ignored. Otherwise, if the XkbXI_ButtonActions flag is set in wanted , the allButtons , firstButton and nButtons fields specify the device buttons for which actions should be returned. Setting allButtons to True requests actions for all device buttons; if allButtons is False , firstButton and nButtons specify a range of buttons for which actions are requested. If the device has no buttons or if firstButton and nButtons specify illegal buttons, a Match error results. If allButtons is True , firstButton and nButtons are ignored. If the server does not support XKB access to any aspect of the indicators on extension devices, or if the wanted field does not include any of the indicator flags, the ledClass and ledID fields are ignored. Otherwise, ledClass and ledID specify one or more feedback(s) for which indicator information is requested. If ledClass or ledID have illegal values, a Value error results. If they have legal values but do not specify a keyboard or indicator class feedback for the device in question, a Match error results. The ledClass field can specify either KbdFeedbackClass , LedFeedbackClass , XkbDfltXIClass , or XkbAllXIClasses . If at least one keyboard feedback is defined for the specified device, XkbDfltXIClass is equivalent to KbdFeedbackClass , otherwise it is equivalent to LedFeedbackClass . If XkbAllXIClasses is specified, this request returns information about both indicator and keyboard class feedbacks which match the requested identifier, as described below. The ledID field can specify any valid input extension feedback identifier, XkbDfltXIId , or XkbAllXIIds . The default keyboard feedback is the one that is affected by core protocol requests; the default led feedback is implementation-specific. If XkbAllXIIds is specified, this request returns indicator information about all feedbacks of the class(es) specified by ledClass . If no error results, the deviceID return value reports the input extension device identifier of the device for which values are being returned. The supported return value reports the set of optional XKB extension device features that are supported by this implementation (see Interactions Between XKB and the X Input Extension) for the specified device, and the unsupported return value reports any unsupported features. If hasOwnState is True , the device is also a keyboard, and any indicator maps bound to the device use the current state and control settings for this device to control automatic changes. If hasOwnState is False , the state and control settings of the core keyboard device control automatic indicator changes. The name field reports the X Input Extension name for the device. The devType field reports the X Input Extension device type. Both fields are provided merely for convenience and are not interpreted by XKB. The present return value reports the kinds of device information being returned, and controls the interpretation of the remaining fields. The present field consists of the wanted field from the original request minus the flags for any unsupported features. If XkbXI_ButtonActions is set in present , the totalBtns return value reports the total number of buttons present on the device, firstBtnWanted and nBtnsWanted specify the range of buttons for which actions were requested, and the firstBtnRtrn and nBtnsRtrn values specify the range of buttons for which actions are reported. The actionsRtrn list has nButtonsRtrn entries which contain the actions bound to the specified buttons on the device. Any buttons for which actions were requested but not returned have the action NoAction() . If any indicator information is reported, the leds list contains one element for each requested feedback. For example, if ledClass is XkbAllXIClasses and ledID is XkbAllXIIds , leds describes all of the indicators on the device and has one element for each keyboard or led class feedback defined for the device. If any information at all is reported about a feedback, the set of physical indicators is also reported in the physIndicators field of the corresponding element of leds . If the server supports assignment of indicator maps to extension device indicators, and if the XkbXI_IndicatorMaps flag is set in wanted , each member of leds reports any indicators on the corresponding feedback to which names have been assigned. Any indicators for which no map is reported have the default map, which allows explicit changes and does not request any automatic changes. If the server supports assignment of indicator names to extension device indicators, and the XkbXI_IndicatorNames flag is set in wanted , each member of leds reports any indicators on the corresponding feedback to which names have been assigned. Any indicators for which no name is reported have the name None . If the server supports XKB access to the state of extension device indicators, and the XkbXI_IndicatorState flag is set in wanted, each member of leds reports the state of the indicators on the corresponding feedback. If any unsupported features are requested, and the requesting client has selected for them, the server sends the client an XkbExtensionDeviceNotify event which indicates that an unsupported feature was requested. This event is only generated if the client which issued the unsupported request has selected for it and, if generated, is not sent to any other clients. XkbSetDeviceInfo deviceSpec: KB_DEVICESPEC change: KB_XIDEVFEATUREMASK firstBtn, nBtns: CARD8 btnActions:LISTofKB_ACTION leds: LISTofKB_DEVICELEDINFO Errors: Device , Match , Access , Alloc Changes a subset of the XKB-supplied information about the input device specified by deviceSpec . Unlike most XKB requests, the device specified for XkbGetDeviceInfo need not be a keyboard device. Nonetheless, a Keyboard error results if deviceSpec does not specify a valid core or input extension device The change field specifies the features for which new values are supplied, and controls the interpretation of the other request fields. If the server does not support assignment of XKB actions to extension device buttons, the firstButton and nButtons fields are ignored. Otherwise, if the XkbXI_ButtonActions flag is set in change , the firstBtn and nBtns fields specify a range of buttons for which actions are specified in this request. If the device has no buttons or if firstBtn and nBtns specify illegal buttons, a Match error results. Each element of the leds list describes the changes for a single keyboard or led feedback. If the ledClass field of any element of leds contains any value other than KbdFeedbackClass , LedFeedbackClass or XkbDfltXIClass , a Value error results. If the ledId field of any element of leds contains any value other than a valid input extension feedback identifier or XkbDfltXIId , a Value error results. If both fields are valid, but the device has no matching feedback, a Match error results. The fields of each element of leds are interpreted as follows: If XkbXI_IndicatorMaps is set in change and the server supports XKB assignment of indicator maps to the corresponding feedback, the maps for all indicators on the corresponding feedback are taken from leds . If the server does not support this feature, any maps specified in leds are ignored. If XkbXI_IndicatorNames is set in change , and the server supports XKB assignment of names to indicators for the corresponding feedback, the names for all indicators on the corresponding feedback are taken from leds . If the server does not support this feature, any names specified in leds are ignored. Regardless of whether they are used, any names be a valid Atom or None , or an Atom error results. If XkbXI_IndicatorState is set in change, and the server supports XKB changes to extension device indicator state, the server attempts to change the indicators on the corresponding feedback as specified by leds . Any indicator maps bound to the feedback are applied, so state changes might be blocked or have side-effects. If any unsupported features are requested, and the requesting client has selected for them, the server sends the client an XkbExtensionDeviceNotify event which indicates that an unsupported feature was requested. This event is only generated if the client which issued the unsupported request has selected for it and, if generated, is not sent to any other clients. Debugging the X Keyboard Extension XkbSetDebuggingFlags affectFlags, flags: CARD32 affectCtrls, ctrls: CARD32 message: STRING currentFlags, supportedFlags: CARD32 currentCtrls, supportedCtrls: CARD32 This request sets up various internal XKB debugging flags and controls. It is intended for developer use and may be disabled in production servers. If disabled, XkbSetDebuggingFlags has no effect but returns Success . The affectFlags field specifies the debugging flags to be changed, the flags field specifies new values for the changed flags. The interpretation of the debugging flags is implementation-specific, but flags are intended to control debugging output and should not otherwise affect the operation of the server. The affectCtrls field specifies the debugging controls to be changed, the ctrls field specifies new values for the changed controls. The interpretation of the debugging controls is implementation-specific, but debugging controls are allowed to affect the behavior of the server. The message field provides a message that the X server can print in any logging or debugging files before changing the flags. The server must accept this field but it is not required to actually display it anywhere. The X Test Suite makes some assumptions about the implementation of locking modifier keys that do not apply when XKB is present. The XkbDF_DisableLocks debugging control provides a simple workaround to these test suite problems by simply disabling all locking keys. If XkbDF_DisableLocks is enabled, the SA_LockMods and SA_LockGroup actions behave like SA_SetMods and SA_LockMods , respectively. If it is disabled, SA_LockMods and SA_LockGroup actions behave normally. Implementations are free to ignore the XkbDF_DisableLocks debugging control or to define others. The currentFlags return value reports the current setting for the debugging flags, if applicable. The currentCtrls return value reports the setting for the debugging controls, if applicable. The supportedFlags and supportedCtrls fields report the flags and controls that are recognized by the implementation. Attempts to change unsupported fields or controls are silently ignored. If the XkbSetDebuggingFlags request contains more data than expected, the server ignores the extra data, but no error results. If the request has less data than expected, a Length error results. If the XkbSetDebuggingFlags reply contains more data than expected, the client just ignores any uninterpreted data without reporting an error. If the reply has less data than expected, a Length error results. Events All XKB events report the time at which they occurred in a field named time and the device on which they occurred in a field named deviceID . XKB uses a single X event code for all events and uses a common field to distinguish XKB event type. Tracking Keyboard Replacement XkbNewKeyboardNotify time: TIMESTAMP deviceID: CARD8 changed: KB_NKNDETAILMASK minKeyCode, maxKeyCode: KEYCODE oldDeviceID: CARD8 oldMinKeyCode, oldMaxKeyCode: KEYCODE requestMajor, requestMinor: CARD8 An XkbNewKeyboardNotify event reports that a new core keyboard has been installed. New keyboard notify events can be generated: When the X server detects that the keyboard was changed. When a client installs a new extension device as the core keyboard using the X Input Extension ChangeKeyboardDevice request. When a client issues an XkbGetMapByName request which changes the keycodes range or geometry. The changed field of the event reports the aspects of the keyboard that have changed, and can contain any combination of the event details for this event: Bit in Changed Meaning NKN_Keycodes The new keyboard has a different minimum or maximum keycode. NKN_Geometry The new keyboard has a different keyboard geometry. NKN_DeviceID The new keyboard has a new X Input Extension device identifier The server sends an XkbNewKeyboardNotify event to a client only if at least one of the bits that is set in the changed field of the event is also set in the appropriate event details mask for the client. The minKeyCode and maxKeyCode fields report the minimum and maximum keycodes that can be returned by the new keyboard. The oldMinKeyCode and oldMaxKeyCode fields report the minimum and maximum values that could be returned before the change. This event always reports all four values, but the old and new values are the same unless NKN_Keycodes is set in changed . Once a client receives a new keyboard notify event which reports a new keycode range, the X server reports events from all keys in the new range to that client. Clients that do not request or receive new keyboard notify events receive events only from keys that fall in the last range for legal keys reported to that client. See Replacing the Keyboard "On-the-Fly" for a more detailed explanation. If NKN_Keycodes is set in changed , the XkbNewKeyboardNotify event subsumes all other change notification events (e.g. XkbMapNotify , XkbNamesNotify ) that would otherwise result from the keyboard change. Clients who receive an XkbNewKeyboardNotify event should assume that all other aspects of the keyboard mapping have changed and regenerate the entire local copy of the keyboard description. The deviceID field reports the X Input Extension device identifier of the new keyboard device; oldDeviceID reports the device identifier before the change. This event always includes both values, but they are the same unless NKN_DeviceID is set in changed . If the server does not support the X Input Extension, both fields have the value 0 . The requestMajor and requestMinor fields report the major and minor opcode of the request that caused the keyboard change. If the keyboard change was not caused by some client request, both fields have the value 0 . Tracking Keyboard Mapping Changes XkbMapNotify time: TIMESTAMP deviceID: CARD8 ptrBtnActions: CARD8 changed: KB_MAPPARTMASK minKeyCode, maxKeyCode: KEYCODE firstType, nTypes: CARD8 firstKeySym, firstKeyAction: KEYCODE nKeySyms, nKeyActions: CARD8 firstKeyBehavior, firstKeyExplicit: KEYCODE nKeyBehaviors, nKeyExplicit: CARD8 virtualMods: KB_VMODMASK firstModMapKey, firstVModMapKey: KEYCODE nModMapKeys, nVModMapKeys: CARD8 An XkbMapNotify event reports that some aspect of XKB map for a keyboard has changed. Map notify events can be generated whenever some aspect of the keyboard map is changed by an XKB or core protocol request. The deviceID field reports the keyboard for which some map component has changed and the changed field reports the components with new values, and can contain any of the values that are legal for the full and partial fields of the XkbGetMap request. The server sends an XkbMapNotify event to a client only if at least one of the bits that is set in the changed field of the event is also set in the appropriate event details mask for the client. The minKeyCode and maxKeyCode fields report the range of keycodes that are legal on the keyboard for which the change is being reported. If XkbKeyTypesMask is set in changed , the firstType and nTypes fields report a range of key types that includes all changed types. Otherwise, both fields are 0 . If XkbKeySymsMask is set in changed , the firstKeySym and nKeySyms fields report a range of keycodes that includes all keys with new symbols. Otherwise, both fields are 0 . If XkbKeyActionsMask is set in changed , the firstKeyAction and nKeyActions fields report a range of keycodes that includes all keys with new actions. Otherwise, both fields are 0 . If XkbKeyBehaviorsMask is set in changed , the firstKeyBehavior and nKeyBehaviors fields report a range of keycodes that includes all keys with new key behavior. Otherwise, both fields are 0 . If XkbVirtualModsMask is set in changed , virtualMods contains all virtual modifiers to which a new set of real modifiers is bound. Otherwise, virtualMods is 0 . If XkbExplicitComponentsMask is set in changed , the firstKeyExplicit and nKeyExplicit fields report a range of keycodes that includes all keys with changed explicit components. Otherwise, both fields are 0 . If XkbModifierMapMask is set in changed , the firstModMapKey and nModMapKeys fields report a range of keycodes that includes all keys with changed modifier bindings. Otherwise, both fields are 0 . If XkbVirtualModMapMask is set in changed , the firstVModMapKey and nVModMapKeys fields report a range of keycodes that includes all keys with changed virtual modifier mappings. Otherwise, both fields are 0 . Tracking Keyboard State Changes XkbStateNotify time: TIMESTAMP deviceID: CARD8 mods, baseMods, latchedMods, lockedMods: KEYMASK group, lockedGroup: CARD8 baseGroup, latchedGroup: INT16 compatState: KEYMASK grabMods, compatGrabMods: KEYMASK lookupMods, compatLookupMods: KEYMASK ptrBtnState: BUTMASK changed: KB_STATEPARTMASK keycode: KEYCODE eventType: CARD8 requestMajor, requestMinor: CARD8 An XkbStateNotify event reports that some component of the XKB state (see Keyboard State) has changed. State notify events are usually caused by key or pointer activity, but they can also result from explicit state changes requested by the XkbLatchLockState request or by other extensions. The deviceID field reports the keyboard on which some state component changed. The changed field reports the XKB state components (see Keyboard State) that have changed and contain any combination of: Bit in changed Event field Changed component ModifierState mods The effective modifiers ModifierBase baseMods The base modifiers ModifierLatch latchedMods The latched modifiers ModifierLock lockedMods The locked modifiers GroupState group The effective keyboard group GroupBase baseGroup The base keyboard group GroupLatch latchedGroup The latched keyboard group GroupLock lockedGroup The locked keyboard group PointerButtons ptrBtnState The state of the core pointer buttons GrabMods grabMods The XKB state used to compute grabs LookupMods lookupMods The XKB state used to look up symbols CompatState compatState Default state for non-XKB clients CompatGrabMods compatGrabMods The core state used to compute grabs CompatLookupMods compatLookupMods The core state used to look up symbols The server sends an XkbStateNotify event to a client only if at least one of the bits that is set in the changed field of the event is also set in the appropriate event details mask for the client. A state notify event reports current values for all state components, even those with unchanged values. The keycode field reports the key or button which caused the change in state while the eventType field reports the exact type of event (e.g. KeyPress ). If the change in state was not caused by key or button activity, both fields have the value 0 . The requestMajor and requestMinor fields report the major and minor opcodes of the request that caused the change in state and have the value 0 if it was resulted from key or button activity. Tracking Keyboard Control Changes XkbControlsNotify time: TIMESTAMP deviceID: CARD8 numGroups: CARD8 changedControls: KB_CONTROLMASK enabledControls,enabledControlChanges: KB_BOOLCTRLMASK keycode: KEYCODE eventType: CARD8 requestMajor: CARD8 requestMinor: CARD8 An XkbControlsNotify event reports a change in one or more of the global keyboard controls (see Global Keyboard Controls) or in the internal modifiers or ignore locks masks (see Server Internal Modifiers and Ignore Locks Behavior). Controls notify events are usually caused by and XkbSetControls request, but they can also be caused by keyboard activity or certain core protocol and input extension requests. The deviceID field reports the keyboard for which some control has changed, and the changed field reports the controls that have new values. The changed field can contain any of the values that are permitted for the changeControls field of the XkbSetControls request. The server sends an XkbControlsNotify event to a client only if at least one of the bits that is set in the changed field of the event is also set in the appropriate event details mask for the client. The numGroups field reports the total number of groups defined for the keyboard, whether or not the number of groups has changed. The enabledControls field reports the current status of all of the boolean controls, whether or not any boolean controls changed state. If EnabledControls is set in changed , the enabledControlChanges field reports the boolean controls that were enabled or disabled; if a control is specified in enabledControlChanges , the value that is reported for that control in enabledControls represents a change in state. The keycode field reports the key or button which caused the change in state while the eventType field reports the exact type of event (e.g. KeyPress ). If the change in state was not caused by key or button activity, both fields have the value 0 . The requestMajor and requestMinor fields report the major and minor opcodes of the request that caused the change in state and have the value 0 if it was resulted from key or button activity. Tracking Keyboard Indicator State Changes XkbIndicatorStateNotify time: TIMESTAMP deviceID: CARD8 stateChanged, state: KB_INDICATORMASK An XkbIndicatorStateNotify event indicates that one or more of the indicators on a keyboard have changed state. Indicator state notify events can be caused by: Automatic update to reflect changes in keyboard state (keyboard activity, XkbLatchLockState requests). Automatic update to reflect changes in keyboard controls ( XkbSetControls , keyboard activity, certain core protocol and input extension requests). Explicit attempts to change indicator state (core protocol and input extension requests, XkbSetNamedIndicator requests). Changes to indicator maps ( XkbSetIndicatorMap and XkbSetNamedIndicator requests). The deviceID field reports the keyboard for which some indicator has changed, and the state field reports the new state for all indicators on the specified keyboard. The stateChanged field specifies which of the values in state represent a new state for the corresponding indicator. The server sends an XkbIndicatorStateNotify event to a client only if at least one of the bits that is set in the stateChanged field of the event is also set in the appropriate event details mask for the client. Tracking Keyboard Indicator Map Changes XkbIndicatorMapNotify time: TIMESTAMP deviceID: CARD8 state: KB_INDICATORMASK mapChanged: KB_INDICATORMASK An XkbIndicatorMapNotify event indicates that the maps for one or more keyboard indicators have been changed. Indicator map notify events can be caused by XkbSetIndicatorMap and XkbSetNamedIndicator requests. The deviceID field reports the keyboard for which some indicator map has changed, and the mapChanged field reports the indicators with changed maps. The server sends an XkbIndicatorMapNotify event to a client only if at least one of the bits that is set in the mapChanged field of the event is also set in the appropriate event details mask for the client. The state field reports the current state of all indicators on the specified keyboard. Tracking Keyboard Name Changes XkbNamesNotify time: TIMESTAMP deviceID: CARD8 changed: KB_NAMEDETAILMASK firstType, nTypes: CARD8 firstLevelName, nLevelNames: CARD8 firstKey: KEYCODE nKeys, nKeyAliases, nRadioGroups: CARD8 changedGroupNames: KB_GROUPMASK changedVirtualMods: KB_VMODMASK changedIndicators: KB_INDICATORMASK An XkbNamesNotify event reports a change to one or more of the symbolic names associated with a keyboard. Symbolic names can change when: Some client explicitly changes them using XkbSetNames . The list of key types or radio groups is resized The group width of some key type is changed The deviceID field reports the keyboard on which names were changed. The changed mask lists the components for which some names have changed and can have any combination of the values permitted for the which field of the XkbGetNames request. The server sends an XkbNamesNotify event to a client only if at least one of the bits that is set in the changed field of the event is also set in the appropriate event details mask for the client. If KeyTypeNames is set in changed , the firstType and nTypes fields report a range of types that includes all types with changed names. Otherwise, both fields are 0 . If KTLevelNames is set in changed , the firstLevelName and nLevelNames fields report a range of types that includes all types with changed level names. Otherwise, both fields are 0 . If IndicatorNames is set in changed , the changedIndicators field reports the indicators with changed names. Otherwise, changedIndicators is 0 . If VirtualModNames is set in changed , the changedVirtualMods field reports the virtual modifiers with changed names. Otherwise, changedVirtualMods is 0 . If GroupNames is set in changed , the changedGroupNames field reports the groups with changed names. Otherwise, changedGroupNames is 0 . If KeyNames is set in changed , the firstKey and nKeys fields report a range of keycodes that includes all keys with changed names. Otherwise, both fields are 0 . The nKeyAliases field reports the total number of key aliases associated with the keyboard, regardless of whether KeyAliases is set in changed . The nRadioGroups field reports the total number of radio group names associated with the keyboard, regardless of whether RGNames is set in changed . Tracking Compatibility Map Changes XkbCompatMapNotify time: TIMESTAMP deviceID: CARD8 changedGroups: KB_GROUPMASK firstSI, nSI: CARD16 nTotalSI: CARD16 An XkbCompatMapNotify event indicates that some component of the compatibility map for a keyboard has been changed. Compatibility map notify events can be caused by XkbSetCompatMap and XkbGetMapByName requests. The deviceID field reports the keyboard for which the compatibility map has changed; if the server does not support the X input extension, deviceID is 0 . The changedGroups field reports the keyboard groups, if any, with a changed entry in the group compatibility map. The firstSI and nSI fields specify a range of symbol interpretations in the symbol compatibility map that includes all changed symbol interpretations; if the symbol compatibility map is unchanged, both fields are 0 . The nTotalSI field always reports the total number of symbol interpretations present in the symbol compatibility map, regardless of whether any symbol interpretations have been changed. The server sends an XkbCompatMapNotify event to a client only if at least one of the following conditions is met: The nSI field of the event is non-zero, and the XkbSymInterpMask bit is set in the appropriate event details mask for the client. The changedGroups field of the event contains at least one group, and the XkbGroupCompatMask bit is set in the appropriate event details mask for the client. Tracking Application Bell Requests XkbBellNotify time: TIMESTAMP deviceID: CARD8 bellClass: { KbdFeedbackClass, BellFeedbackClass } bellID: CARD8 percent: CARD8 pitch: CARD16 duration: CARD16 eventOnly: BOOL name: ATOM window: WINDOW An XkbBellNotify event indicates that some client has requested a keyboard bell. Bell notify events are usually caused by Bell , DeviceBell , or XkbBell requests, but they can also be generated by the server (e.g. if the AccessXFeedback control is active). The server sends an XkbBellNotify event to a client if the appropriate event details field for the client has the value True . The deviceID field specifies the device for which a bell was requested, while the bellClass and bellID fields specify the input extension class and identifier of the feedback for which the bell was requested. If the reporting server does not support the input extension, all three fields have the value 0. The percent , pitch and duration fields report the volume, tone and duration requested for the bell as specified by the XkbBell request. Bell notify events caused by core protocol or input extension requests use the pitch and duration specified in the corresponding bell or keyboard feedback control. If the bell was caused by an XkbBell request or by the X server, name reports an optional symbolic name for the bell and the window field optionally reports the window for which the bell was generated. Otherwise, both fields have the value None . If the eventOnly field is True , the server did not generate a sound in response to the request, otherwise the server issues the beep before sending the event. The eventOnly field can be True if the AudibleBell control is disabled or if a client explicitly requests eventOnly when it issues an XkbBell request. Tracking Messages Generated by Key Actions XkbActionMessage time: TIMESTAMP deviceID: CARD8 keycode: KEYCODE press: BOOL mods: KEYMASK group: KB_GROUP keyEventFollows: BOOL message: LISTofCARD8 An XkbActionMessage event is generated when the user operates a key to which an SA_ActionMessage message is bound under the appropriate state and group. The server sends an XkbActionMessage event to a client if the appropriate event details field for the client has the value True . The deviceID field specifies the keyboard device that contains the key which activated the event. The keycode field specifies the key whose operation caused the message and press is True if the message was caused by the user pressing the key. The mods and group fields report the effective keyboard modifiers and group in effect at the time the key was pressed or released. If keyEventFollows is True , the server will also send a key press or release event, as appropriate, for the key that generated the message. If it is False , the key causes only a message. Note that the key event is delivered normally with respect to passive grabs, keyboard focus, and cursor position, so that keyEventFollows does not guarantee that any particular client which receives the XkbActionMessage notify event will also receive a key press or release event. The message field is NULL -terminated string of up to ActionMessageLength ( 6 ) bytes, which reports the contents of the message field in the action that caused the message notify event. Tracking Changes to AccessX State and Keys XkbAccessXNotify time: TIMESTAMP deviceID: CARD8 detail: KB_AXNDETAILMASK keycode: KEYCODE slowKeysDelay: CARD16 debounceDelay: CARD16 An XkbAccessXNotify event reports on some kinds of keyboard activity when any of the SlowKeys , BounceKeys or AccessXKeys controls are active. Compatibility map notify events can only be caused by keyboard activity. The deviceID and keycode fields specify the keyboard and key for which the event occurred. The detail field describes the event that occurred and has one of the following values: Detail Control Meaning AXN_SKPress SlowKeys Key pressed AXN_SKAccept SlowKeys K ey held until it was accepted. AXN_SKReject SlowKeys Key released before it was accepted. AXN_SKRelease SlowKeys Key released after it was accepted. AXN_BKAccept BounceKeys Key pressed while it was active. AXN_BKReject BounceKeys Key pressed while it was still disabled. AXN_AXKWarning AccessXKeys Shift key held down for four seconds Each subclass of the AccessX notify event is generated only when the control specified in the table above is enabled. The server sends an XkbAccessXNotify event to a client only if the bit which corresponds to the value of the detail field for the event is set in the appropriate event details mask for the client. Regardless of the value of detail , the slowKeysDelay and debounceDelay fields always reports the current slow keys acceptance delay (see The SlowKeys Control) and debounce delay (see The BounceKeys Control) for the specified keyboard. Tracking Changes To Extension Devices XkbExtensionDeviceNotify time: TIMESTAMP deviceID: CARD16 ledClass: { KbdFeedbackClass, LedFeedbackClass } ledID: CARD16 reason: KB_XIDETAILMASK supported: KB_XIFEATUREMASK unsupported: KB_XIFEATUREMASK ledsDefined: KB_INDICATORMASK ledState: KB_INDICATORMASK firstButton, nButtons: CARD8 An XkbExtensionDeviceNotify event reports: A change to some part of the XKB information for an extension device. An attempt to use an XKB extension device feature that is not supported for the specified device by the current implementation. The deviceID field specifies the X Input Extension device identifier of some device on which an XKB feature was requested, or XkbUseCorePtr if the request affected the core pointer device. The reason field explains why the event was generated in response to the request, and can contain any combination of XkbXI_UnsupportedFeature and the values permitted for the change field of the XkbSetDeviceInfo request. If XkbXI_ButtonActions is set in reason , this event reports a successful change to the XKB actions bound to one or more buttons on the core pointer or an extension device. The firstButton and nButtons fields report a range of device buttons that include all of the buttons for which actions were changed. If any combination of XkbXI_IndicatorNames , XkbXI_IndicatorMaps , or XkbXI_IndicatorState is set in either reason or unsupported , the ledClass and ledID fields specify the X Input Extension feedback class and identifier of the feedback for which the change is reported. If this event reports any changes to an indicator feedback, the ledsDefined field reports all indicators on that feedback for which either a name or a indicator map are defined, and ledState reports the current state of all of the indicators on the specified feedback. If XkbXI_IndicatorNames is set in reason , this event reports a successful change to the symbolic names bound to one or more extension device indicators by XKB. If XkbXI_IndicatorMaps is set in reason , this event reports a successful change to the indicator maps bound to one or more extension device indicators by XKB. If XkbXI_IndicatorState is set in reason, this event reports that one or more indicators in the specified device and feedback have changed state. If XkbXI_UnsupportedFeature is set in reason, this event reports an unsuccessful attempt to use some XKB extension device feature that is not supported by the XKB implementation in the server for the specified device. The unsupported mask reports the requested features that are not available on the specified device. See Interactions Between XKB and the X Input Extension for more information about possible XKB interactions with the X Input Extension. The server sends an XkbExtensionDeviceNotify event to a client only if at least one of the bits that is set in the reason field of the event is also set in the appropriate event details mask for the client. Events that report a successful change to some extension device feature are reported to all clients that have expressed interest in the event; events that report an attempt to use an unsupported feature are reported only to the client which issued the request. Events which report a partial success are reported to all interested clients, but only the client that issued the request is informed of the attempt to use unsupported features. If keyEventFollowkbproto-1.0.7/specs/appB.xml000064401431060000012000000056451252061122500162070ustar00alancstaff00002660200006 Canonical Key Types Canonical Key Types The ONE_LEVEL Key Type The ONE_LEVEL key type describes groups that have only one symbol. The default ONE_LEVEL type has no map entries and does not pay attention to any modifiers. The TWO_LEVEL Key Type The TWO_LEVEL key type describes groups that have two symbols but are neither alphabetic nor numeric keypad keys. The default TWO_LEVEL type uses only the Shift modifier. It returns level two if Shift is set, level one if it is not. The ALPHABETIC Key Type The ALPHABETIC key type describes groups that consist of two symbols — the lowercase form of a symbol followed by the uppercase form of the same symbol. The default ALPHABETIC type implements locale-sensitive "shift cancels caps lock" behavior using both the Shift and Lock modifiers as follows: If Shift and Lock are both set, the default ALPHABETIC type yields level one. If Shift alone is set, it yields level two. If Lock alone is set, it yields level one but preserves the Lock modifier. If neither Shift nor Lock are set, it yields level one. The KEYPAD Key Type The KEYPAD key type describes that consist of two symbols, at least one of which is a numeric keypad symbol. The default KEYPAD type implements "shift cancels numeric lock" behavior using the Shift modifier and the real modifier bound to the virtual modifier named "NumLock" (the "NumLock" modifier) as follows: If Shift and the "NumLock" modifier are both set, the default KEYPAD type yields level one. If either Shift or the "NumLock" modifier alone are set, it yields level two. If neither Shift nor the "NumLock" modifier are set, it yields level one. kbproto-1.0.7/specs/ch11.xml000064401431060000012000000320261252061122500160520ustar00alancstaff00002660200006 Keyboard Geometry The XKB description of a keyboard includes an optional keyboard geometry which describes the physical appearance of the keyboard. Keyboard geometry describes the shape, location and color of all keyboard keys or other visible keyboard components such as indicators. The information contained in a keyboard geometry is sufficient to allow a client program to draw an accurate two-dimensional image of the keyboard. The components of the keyboard geometry include the following: A symbolic name to help users identify the keyboard. The width and height of the keyboard, in . For non-rectangular keyboards, the width and height describe the smallest bounding-box that encloses the outline of the keyboard. A list of up to MaxColors ( 32 ) color names . A color name is a string whose interpretation is not specified by XKB. Other geometry components refer to colors using their indices in this list. The base color of the keyboard is the predominant color on the keyboard and is used as the default color for any components whose color is not explicitly specified. The label color is the color used to draw the labels on most of the keyboard keys. The label font is a string which describes the font used to draw labels on most keys; XKB does not specify a format or name space for font names. A list of geometry properties . A geometry property associates an arbitrary string with an equally arbitrary name. Geometry properties can be used to provide hints to programs that display images of keyboards, but they are not interpreted by XKB. No other geometry structures refer to geometry properties. A list of key aliases , as described in Symbolic Names. A list of shapes ; other keyboard components refer to shapes by their index in this list. A shape consists of a name and one or more closed-polygons called outlines . Shapes and outlines are described in detail in Shapes and Outlines. Unless otherwise specified, geometry measurements are in units. The origin (0,0) is in the top left corner of the keyboard image. Some geometry components can be drawn rotated; all such objects rotate about their origin in increments. All geometry components include a priority , which indicates the order in which overlapping objects should be drawn. Objects are drawn in order from highest priority ( 0 ) to lowest ( 255 ). The description of the actual appearance of the keyboard is subdivided into named sections of related keys and doodads . A a doodad describes some visible aspect of the keyboard that is not a key. A section is a collection of keys and doodads that are physically close together and logically related. Shapes and Outlines An outline is a list of one or more points which describes a single closed-polygon, as follows: A list with a single point describes a rectangle with one corner at the origin of the shape ( 0 , 0 ) and the opposite corner at the specified point. A list of two points describes a rectangle with one corner at the position specified by the first point and the opposite corner at the position specified by the second point. A list of three or more points describes an arbitrary polygon. If necessary, the polygon is automatically closed by connecting the last point in the list with the first. A non-zero value for the cornerRadius field specifies that the corners of the polygon should be drawn as circles with the specified radius. All points in an outline are specified relative to the origin of the enclosing shape. Points in an outline may have negative values for the X and Y coordinate. One outline (usually the first) is the primary outline; a keyboard display application can generate a simpler but still accurate keyboard image by displaying only the primary outlines for each shape. Non-rectangular keys must include a rectangular approximation as one of the outlines associated with the shape; the approximation is not normally displayed but can be used by very simple keyboard display applications to generate a recognizable but degraded image of the keyboard. Sections Each section has its own coordinate system — if a section is rotated, the coordinates of any components within the section are interpreted relative to the edges that were on the top and left before rotation. The components that make up a section include: A list of rows . A row is a list of horizontally or vertically adjacent keys. Horizontal rows parallel the (pre-rotation) top of the section and vertical rows parallel the (pre-rotation) left of the section. All keys in a horizontal row share a common top coordinate; all keys in a vertical row share a left coordinate. A key description consists of a key name , a shape , a key color , and a gap . The key name should correspond to one of the keys named in the keyboard names description, the shape specifies the appearance of the key, and the key color specifies the color of the key (not the label on the key). Keys are normally drawn immediately adjacent to one another from left-to-right (or top-to-bottom) within a row. The gap field specifies the distance between a key and its predecessor. An optional list of doodads; any type of doodad can be enclosed within a section. Position and angle of rotation are relative to the origin and angle of rotation of the sections that contain them. Priority is relative to the other components of the section, not to the keyboard as a whole. An optional list of overlay keys . Each overlay key definition indicates a key that can yield multiple scan codes and consists of a field named under , which specifies the primary name of the key and a field named over , which specifies the name for the key when the overlay keycode is selected. The key specified in under must be a member of the section that contains the overlay key definition, while the key specified in over must not. Doodads Doodads can be global to the keyboard or part of a section. Doodads have symbolic names of arbitrary length. The only doodad name whose interpretation is specified by XKB is "Edges", which describes the outline of the entire keyboard, if present. All doodads report their origin in fields named left and top . XKB supports five kinds of doodads: An indicator doodad describes one of the physical keyboard indicators. Indicator doodads specify the shape of the indicator, the indicator color when it is lit ( on_color ) and the indicator color when it is dark ( off_color ). An outline doodad describes some aspect of the keyboard to be drawn as one or more hollow, closed polygons. Outline doodads specify the shape, color, and angle of rotation about the doodad origin at which they should be drawn. A solid doodad describes some aspect of the keyboard to be drawn as one or more filled polygons. Solid doodads specify the shape, color and angle of rotation about the doodad origin at which they should be drawn. A text doodad describes a text label somewhere on the keyboard. Text doodads specify the label string, the font and color to use when drawing the label, and the angle of rotation of the doodad about its origin. A logo doodad is a catch-all, which describes some other visible element of the keyboard. A logo doodad is essentially an outline doodad with an additional symbolic name that describes the element to be drawn. If a keyboard display program recognizes the symbolic name, it can draw something appropriate within the bounding region of the shape specified in the doodad. If the symbolic name does not describe a recognizable image, it should draw an outline using the specified shape, outline, and angle of rotation. The XKB extension does not specify the interpretation of logo names. Keyboard Geometry Example Consider the following example keyboard: This keyboard has six sections: The left and right function sections (at the very top) each have one horizontal row with eight keys. The left and right alphanumeric sections (the large sections in the middle) each have six vertical rows, with four or five keys in each row. The left and right editing sections each have three vertical rows with one to three keys per row; the left editing section is rotated 20° clockwise about its origin while the right editing section is rotated 20° counterclockwise. This keyboard has four global doodads: Three small, round indicators and a rectangular logo. The program which generated this image did not recognize the logo, so it displays an outline with an appropriate shape in its place. This keyboard has seven shapes: All of the keys in the two function sections use the "FKEY" shape. Most of the keys in the alphanumeric sections, as well as four of the keys in each of the editing sections use the "NORM" shape. The keys in the first column of the left alphanumeric section and the last column of the right alphanumeric section all use the "WIDE" shape. Two keys in each of the editing sections use the "TALL" shape. The "LED" shape describes the three small, round indicators between the function and alphabetic sections. The "LOGO" shape describes the keyboard logo, and the "EDGE" shape describes the outline of the keyboard as a whole. The keyboard itself is white, as are all of the keys except for the eight keys that make up the home row, which use the "grey20" color. It isn’t really visible in this picture, but the three indicators have an "on" color of "green" and are "green30" when they are turned off. The keys in the alphanumeric and editing sections all have a (vertical) gap of 0.5mm; the keys in the two function sections have a (horizontal) gap of 3mm. Many of the keys in the right alphanumeric section, and the rightmost key in the right editing section are drawn with two names in this image. Those are overlay keys; the bottom key name is the normal name while the overlay name is printed at the top. For example, the right editing section has a single overlay key entry, which specifies an under name of <SPCE> and an over name of <KP0> , which indicates that the key in question is usually the shift key, but can behave like the 0 key on the numeric keypad when an overlay is active. sis> rows . A row is a list of horizontally or vertically adjacent keys. Horizontal rows parallel the (pre-rotation) top of the section and vertical rows parallel the (pre-rotation) left of the section. All keys in a horizontal row share a common top coordinate; all keys in a vertical row share a left coordinate. A key description consists of a key name , a shape , a key color , and a Keyboard Indicators Although the core X protocol supports thirty-two LEDs on a keyboard, it does not provide any way to link the state of the LEDs and the logical state of the keyboard. For example, most keyboards have a "Caps Lock" LED, but X does not provide any standard way to make the LED automatically follow the logical state of the modifier bound to the Caps Lock key. The core protocol also gives no way to determine which bits in the led_mask field of the keyboard state map to the particular LEDs on the keyboard. For example, X does not provide a method for a client to determine which bit to set in the led_mask to turn on the "Scroll Lock" LED, or even if the keyboard has a "Scroll Lock" LED. Most X servers implement some kind of automatic behavior for one or more of the keyboard LEDs, but the details of that automatic behavior are implementation-specific and can be difficult or impossible to control. XKB provides indicator names and programmable indicators to help solve these problems. Using XKB, clients can determine the names of the various indicators, determine and control the way that the individual indicators should be updated to reflect keyboard changes, and determine which of the 32 keyboard indicators reported by the protocol are actually present on the keyboard. Clients may also request immediate notification of changes to the state of any subset of the keyboard indicators, which makes it straightforward to provide an on-screen "virtual" LED panel. Global Information About Indicators XKB provides only two pieces of information about the indicators as a group. The physical indicators mask reports which of the 32 logical keyboard indicators supported by the core protocol and XKB corresponds to some actual indicator on the keyboard itself. Because the physical indicators mask describes a physical characteristic of the keyboard, it cannot be directly changed under program control. It is possible, however, for the set of physical indicators to be change if a new keyboard is attached or if a completely new keyboard description is loaded by the XkbGetKeyboardByName request (see Using the Server’s Database of Keyboard Components). The indicator state mask reports the current state of the 32 logical keyboard indicators. This field and the core protocol indicator state (as reported by the led-mask field of the core protocol GetKeyboardControl request) are always identical. Per-Indicator Information Each of the thirty-two keyboard indicators has a symbolic name, of type ATOM. The XkbGetNames request reports the symbolic names for all keyboard components, including the indicators. Use the XkbSetNames request to change symbolic names. Both requests are described in Querying and Changing Symbolic Names. Indicator Maps XKB also provides an indicator map for each of the thirty-two keyboard indicators; an indicator map specifies: The conditions under which the keyboard modifier state affects the indicator. The conditions under which the keyboard group state affects the indicator. The conditions under which the state of the boolean controls affects the indicator. The effect (if any) of attempts to explicitly change the state of the indicator using the core protocol SetKeyboardControl request. If IM_NoAutomatic is set in the flags field of an indicator map, that indicator never changes in response to changes in keyboard state or controls, regardless of the values for the other fields of the indicator map. If IM_NoAutomatic is not set in flags , the other fields of the indicator map specify the automatic changes to the indicator in response to changes in the keyboard state or controls. The which_groups and the groups fields of an indicator map determine how the keyboard group state affects the corresponding indicator. The which_groups field controls the interpretation of groups and may contain any one of the following values: Value Interpretation of the Groups Field IM_UseNone The groups field and the current keyboard group state are ignored. IM_UseBase If groups is non-zero, the indicator is lit whenever the base keyboard group is non-zero. If groups is zero, the indicator is lit whenever the base keyboard group is zero. IM_UseLatched If groups is non-zero, the indicator is lit whenever the latched keyboard group is non-zero. If groups is zero, the indicator is lit whenever the latched keyboard group is zero. IM_UseLocked The groups field is interpreted as a mask. The indicator is lit when the current locked keyboard group matches one of the bits that are set in groups . IM_UseEffective The groups field is interpreted as a mask. The indicator is lit when the current effective keyboard group matches one of the bits that are set in groups . The which_mods and mods fields of an indicator map determine how the state of the keyboard modifiers affect the corresponding indicator. The mods field is an XKB modifier definition, as described in Modifier Definitions, which can specify both real and virtual modifiers. The mods field takes effect even if some or all of the virtual indicators specified in mods are unbound. The which_mods field can specify one or more components of the XKB keyboard state. The corresponding indicator is lit whenever any of the real modifiers specified in the mask field of the mods modifier definition are also set in any of the current keyboard state components specified by the which_mods . The which_mods field may have any combination of the following values: Value Keyboard State Component To Be Considered IM_UseBase Base modifier state IM_UseLatched Latched modifier state IM_UseLocked Locked modifier state IM_UseEffective Effective modifier state IM_UseCompat Modifier compatibility state The controls field specifies a subset of the boolean keyboard controls (see "Boolean" Controls and The EnabledControls Control). The indicator is lit whenever any of the boolean controls specified in controls are enabled. An indicator is lit whenever any of the conditions specified by its indicator map are met, unless overridden by the IM_NoAutomatic flag (described above) or an explicit indicator change (described below). Effects of Explicit Changes on Indicators If the IM_NoExplicit flag is set in an indicator map, attempts to change the state of the indicator are ignored. If both IM_NoExplicit and IM_NoAutomatic are both absent from an indicator map, requests to change the state of the indicator are honored but might be immediately superseded by automatic changes to the indicator state which reflect changes to keyboard state or controls. If the IM_LEDDrivesKB flag is set and the IM_NoExplicit flag is not, the keyboard state and controls are changed to reflect the other fields of the indicator map, as described in the remainder of this section. Attempts to explicitly change the value of an indicator for which IM_LEDDrivesKB is absent or for which IM_NoExplicit is present do not affect keyboard state or controls. The effect on group state of changing an explicit indicator which drives the keyboard is determined by the value of which_groups and groups , as follows: which_groups New State Effect on Keyboard Group State IM_UseNone , or IM_UseBase On or Off No Effect IM_UseLatched On The groups field is treated as a group mask. The keyboard group latch is changed to the lowest numbered group specified in groups ; if groups is empty, the keyboard group latch is changed to zero. IM_UseLatched Off The groups field is treated as a group mask. If the indicator is explicitly extinguished, keyboard group latch is changed to the lowest numbered group not specified in groups ; if groups is zero, the keyboard group latch is set to the index of the highest legal keyboard group. IM_UseLocked , or IM_UseEffective On If the groups mask is empty, group is not changed, otherwise the locked keyboard group is changed to the lowest numbered group specified in groups . IM_UseLocked , or IM_UseEffective Off Locked keyboard group is changed to the lowest numbered group that is not specified in the groups mask, or to Group1 if the groups mask contains all keyboard groups. The effect on the keyboard modifiers of changing an explicit indicator which drives the keyboard is determined by the values that are set in of which_mods and mods , as follows: Set in which_mods New State Effect on Keyboard Modifiers IM_UseBase On or Off No Effect IM_UseLatched On Any modifiers specified in the mask field of mods are added to the latched modifiers. IM_UseLatched Off Any modifiers specified in the mask field of mods are removed from the latched modifiers. IM_UseLocked , IM_UseCompat , or IM_UseEffective On Any modifiers specified in the mask field of mods are added to the locked modifiers. IM_UseLocked Off Any modifiers specified in the mask field of mods are removed from the locked modifiers. IM_UseCompat , or IM_UseEffective Off Any modifiers specified in the mask field of mods are removed from both the locked and latched modifiers. Lighting an explicit indicator which drives the keyboard also enables all of the boolean controls specified in the controls field of its indicator map. Explicitly extinguishing such an indicator disables all of the boolean controls specified in controls . The effects of changing an indicator which drives the keyboard are cumulative; it is possible for a single change to affect keyboard group, modifiers and controls simultaneously. If an indicator for which both the IM_LEDDrivesKB and IM_NoAutomatic flags are specified is changed, the keyboard changes specified above are applied and the indicator is changed to reflect the state that was explicitly requested. The indicator will remain in the new state until it is explicitly changed again. If the IM_NoAutomatic flag is not set for an indicator which drives the keyboard, the changes specified above are applied and the state of the indicator is set to the values specified by the indicator map. Note that it is possible in this case for the indicator to end up in a different state than the one that was explicitly requested. For example, an indicator with which_mods of IM_UseBase and mods of Shift is not extinguished if one of the Shift keys is physically depressed when the request to extinguish the indicator is processed. groups . IM_UseEffective The groups field is interpreted as a mask. Thkbproto-1.0.7/specs/ch07.xml000064401431060000012000000471061252061122500160640ustar00alancstaff00002660200006 Key Event Processing in the Client The XKB client map for a keyboard is the collection of information a client needs to interpret key events that come from that keyboard. It contains a global list of key types , described in Key Types, and an array of key symbol map s, each of which describes the symbols bound to one particular key and the rules to be used to interpret those symbols. Notation and Terminology XKB associates a two-dimensional array of symbols with each key. Symbols are addressed by keyboard group (see Keyboard State) and shift level, where level is defined as in the ISO9995 standard: Level One of several states (normally 2 or 3) which govern which graphic character is produced when a graphic key is actuated. In certain cases the level may also affect function keys. Note that shift level is derived from the modifier state, but not necessarily in the same way for all keys. For example, the Shift modifier selects shift level 2 on most keys, but for keypad keys the modifier bound to Num_Lock (i.e. the NumLock virtual modifier) also selects shift level 2.gray symbols on a key We use the notation G n L n to specify the position of a symbol on a key or in memory: The gray characters indicate symbols that are implied or expected but are not actually engraved on the key. Unfortunately, the "natural" orientation of symbols on a key and the natural orientation in memory are reversed from one another, so keyboard group refers to a column on the key and a row in memory. There’s no real help for it, but we try to minimize confusion by using "group" and "level" (or "shift level") to refer to symbols regardless of context. Determining the KeySym Associated with a Key Event To look up the symbol associated with an XKB key event, we need to know the group and shift level that correspond to the event. Group is reported in bits 13-14 of the state field of the key event, as described in Computing A State Field from an XKB State. The keyboard group reported in the event might be out-of-range for any particular key because the number of groups can vary from key to key. The XKB description of each key contains a group info field which is interpreted identically to the global groups wrap control (see Computing Effective Modifier and Group) and which specifies the interpretation of groups that are out-of-range for that key. Once we have determined the group to be used for the event, we have to determine the shift level. The description of a key includes a key type for each group of symbols bound to the key. Given the modifiers from the key event, this key type yields a shift level and a set of "leftover" modifiers, as described in Key Types below. Finally, we can use the effective group and the shift level returned by the type of that group to look up a symbol in a two-dimensional array of symbols associated with the key. Key Types Each entry of a key type’s map field specifies the shift level that corresponds to some XKB modifier definition; any combination of modifiers that is not explicitly listed somewhere in the map yields shift level one. Map entries which specify unbound virtual modifiers (see Inactive Modifier Definitions) are not considered; each entry contains an automatically-updated active field which indicates whether or not it should be used. Each key type includes a few fields that are derived from the contents of the map and which report some commonly used values so they don’t have to be constantly recalculated. The numLevels field contains the highest shift level reported by any of its map entries; XKB uses numLevels to insure that the array of symbols bound to a key is large enough (the number of levels reported by a key type is also referred to as its width). The modifiers field reports all real modifiers considered by any of the map entries for the type. Both modifiers and numLevels are updated automatically by XKB and neither can be changed explicitly. Any modifiers specified in modifiers are normally consumed (see Transforming the KeySym Associated with a Key Event), which means that they are not considered during any of the later stages of event processing. For those rare occasions that a modifier should be considered despite having been used to look up a symbol, key types include an optional preserve field. If a preserve list is present, each entry corresponds to one of the key type’s map entries and lists the modifiers that should not be consumed if the matching map entry is used to determine shift level. For example, the following key type implements caps lock as defined by the core protocol (using the second symbol bound to the key): type "ALPHABETIC" { modifiers = Shift+Lock; map[Shift]= Level2; map[Lock]= Level2; map[Shift+Lock]= Level2; }; The problem with this kind of definition is that we could assign completely unrelated symbols to the two shift levels, and "Caps Lock" would choose the second symbol. Another definition for alphabetic keys uses system routines to capitalize the keysym: type "ALPHABETIC" { modifiers= Shift; map[Shift]= Level2; }; When caps lock is applied using this definition, we take the symbol from shift level one and capitalize it using system-specific capitalization rules. If shift and caps lock are both set, we take the symbol from shift level two and try to capitalize it, which usually has no effect. The following key type implements shift-cancels-caps lock behavior for alphabetic keys: type "ALPHABETIC" { modifiers = Shift+Lock; map[Shift] = Level2; preserve[Lock]= Lock; }; Consider the four possible states that can affect alphabetic keys: no modifiers, shift alone, caps lock alone or shift and caps lock together. The map contains no explicit entry for None (no modifiers), so if no modifiers are set, any group with this type returns the first keysym. The map entry for Shift reports Level2 , so any group with this type returns the second symbol when Shift is set. There is no map entry for Lock alone, but the type specifies that the Lock modifier should be preserved in this case, so Lock alone returns the first symbol in the group but first applies the capitalization transformation, yielding the capital form of the symbol. In the final case, there is no map entry for Shift+Lock , so it returns the first symbol in the group; there is no preserve entry, so the Lock modifier is consumed and the symbol is not capitalized. Key Symbol Map The key symbol map for a key contains all of the information that a client needs to process events generated by that key. Each key symbol mapping reports: The number of groups of symbols bound to the key ( numGroups ). The treatment of out-of-range groups ( groupInfo ). The index of the key type to for each possible group ( kt_index[MaxKbdGroups] ). The width of the widest type associated with the key ( groupsWidth ). The two-dimensional (numGroups × groupsWidth) array of symbols bound to the key. It is legal for a key to have zero groups, in which case it also has zero symbols and all events from that key yield NoSymbol . The array of key types is of fixed width and is large enough to hold key types for the maximum legal number of groups ( MaxKbdGroups , currently four); if a key has fewer than MaxKbdGroups groups, the extra key types are reported but ignored. The groupsWidth field cannot be explicitly changed; it is updated automatically whenever the symbols or set of types bound to a key are changed. If, when looking up a symbol, the effective keyboard group is out-of-range for the key, the groupInfo field of the key symbol map specifies the rules for determining the corresponding legal group as follows: If the RedirectIntoRange flag is set, the two least significant bits of groupInfo specify the index of a group to which all illegal groups correspond. If the specified group is also out of range, all illegal groups map to Group1 . If ClampIntoRange flag is set, out-of-range groups correspond to the nearest legal group. Effective groups larger than the highest supported group are mapped to the highest supported group; effective groups less than Group1 are mapped to Group1 . For example, a key with two groups of symbols uses Group2 type and symbols if the global effective group is either Group3 or Group4 . If neither flag is set, group is wrapped into range using integer modulus. For example, a key with two groups of symbols for which groups wrap uses Group1 symbols if the global effective group is Group3 or Group2 symbols if the global effective group is Group4 . The client map contains an array of key symbol mappings, with one entry for each key between the minimum and maximum legal keycodes, inclusive. All keycodes which fall in that range have key symbol mappings, whether or not any key actually yields that code. Transforming the KeySym Associated with a Key Event Any modifiers that were not used to look up the keysym, or which were explicitly preserved, might indicate further transformations to be performed on the keysym or the character string that is derived from it. For example, If the Lock modifier is set, the symbol and corresponding string should be capitalized according to the locale-sensitive capitalization rules specified by the system. If the Control modifier is set, the keysym is not affected, but the corresponding character should be converted to a control character as described in Default Symbol Transformations. This extension specifies the transformations to be applied when the Control or Lock modifiers are active but were not used to determine the keysym to be used: Modifier Transformation Control Report the control character associated with the symbol. This extension defines the control characters associated with the ASCII alphabetic characters (both upper and lower case) and for a small set of punctuation characters (see Default Symbol Transformations). Applications are free to associate control characters with any symbols that are not specified by this extension. Lock Capitalize the symbol either according to capitalization rules appropriate to the application locale or using the capitalization rules defined by this extension (see Default Symbol Transformations). Interpretation of other modifiers is application dependent. This definition of capitalization is fundamentally different from the core protocol’s, which uses the lock modifier to select from the symbols bound to the key. Consider key 9 in the client map example; the core protocol provides no way to generate the capital form of either symbol bound to this key. XKB specifies that we first look up the symbol and then capitalize, so XKB yields the capital form of the two symbols when caps lock is active. XKB specifies the behavior of Lock and Control , but interpretation of other modifiers is left to the application. Client Map Example Consider a simple, if unlikely, keyboard with the following keys (gray characters indicate symbols that are implied or expected but are not actually engraved on the key): The core protocol represents this keyboard as a simple array with one row per key and four columns (the widest key, key 10, determines the width of the entire array). Key G1L1 G1L2 G2L1 G2L2 8 Q NoSymbol at NoSymbol 9 odiaeresis egrave NoSymbol NoSymbol 10 A NoSymbol Æ NoSymbol 11 ssharp question backslash questiondown 12 KP_End KP_1 NoSymbol NoSymbol 13 Num_Lock NoSymbol NoSymbol NoSymbol 14 NoSymbol NoSymbol NoSymbol NoSymbol 15 Return NoSymbol NoSymbol NoSymbol The row to be used for a given key event is determined by keycode; the column to be used is determined by the symbols bound to the key, the state of the Shift and Lock Modifiers and the state of the modifiers bound to the Num_Lock and Mode_switch keys as specified by the core protocol. The XKB description of this keyboard consists of six key symbol maps, each of which specifies the types and symbols associated with each keyboard group for one key: Key Group: Type L1 L2 8 G1: ALPHABETIC q Q G2: ONE_LEVEL @ NoSymbol 9 G1: TWO_LEVEL odiaeresis egrave 10 G1: ALPHABETIC a A G2: ALPHABETIC ae AE 11 G1: TWO_LEVEL ssharp question G2: ONE_LEVEL backslash questiondown 12 G1: KEYPAD KP_End KP_1 13 G1: ONE_LEVEL Num_Lock 14 No Groups 15 G1: ONE_LEVEL Return The keycode reported in a key event determines the row to be used for that event; the effective keyboard group determines the list of symbols and key type to be used. The key type determines which symbol is chosen from the list. Determining the KeySym Associated with a Key Event details the procedure to map from a key event to a symbol and/or a string. has fewer than MaxKbdGroups groups, the extra key types are reported but ignored. The groupsWidth field cannot be explicitly changed; it is updated automatically whenever the symbols or set of types bound to a key are changed. If, when looking up a symbol, the effective keyboard group is out-of-range for the key, the groupInfo field of the key symbol mapkbproto-1.0.7/specs/XKBproto-6.svg000064401431060000012000001067621252061122500172010ustar00alancstaff00002660200006 image/svg+xml Core Symbols A a L1 L2 L1 L2 G1 G2 Xkb Symbols A a L1 L2 G1 G2 Symbols a G1L1 = A G1L2 = G2L1 = G2L2 = Physical Key Shift Level Group a A 1.05273 -0.460kbproto-1.0.7/specs/XKBproto-1.svg000064401431060000012000001523421252061122500171670ustar00alancstaff00002660200006 image/svg+xml xlink:href="#glyph0-4" x="283.56003" y="167.14" id="use232" width="595" height="842" /> image/svg+xml > Global Keyboard Controls The X Keyboard Extension supports a number of global key controls , which affect the way that XKB handles the keyboard as a whole. Many of these controls make the keyboard more accessible to the physically impaired and are based on the AccessDOS package AccessDOS provides access to the DOS operating system for people with physical impairments and was developed by the Trace R&D Center at the University of Wisconsin. For more information on AccessDOS, contact the Trace R&D Center, Waisman Center and Department of Industrial Engineering, University of Wisconsin-Madison WI 53705-2280. Phone: 608-262-6966. e-mail: info@trace.wisc.edu.. The RepeatKeys Control The core protocol only allows control over whether or not the entire keyboard or individual keys should autorepeat when held down. The RepeatKeys control extends this capability by adding control over the delay until a key begins to repeat and the rate at which it repeats. RepeatKeys is also coupled with the core autorepeat control; changes to one are always reflected in the other. The RepeatKeys control has two parameters. The autorepeat delay specifies the delay between the initial press of an autorepeating key and the first generated repeat event in milliseconds. The autorepeat interval specifies the delay between all subsequent generated repeat events in milliseconds. The PerKeyRepeat Control When RepeatKeys are active, the PerKeyRepeat control specifies whether or not individual keys should autorepeat when held down. XKB provides the PerKeyRepeat for convenience only, and it always parallels the auto-repeats field of the core protocol GetKeyboardControl request — changes to one are always reflected in the other. Detectable Autorepeat The X server usually generates both press and release events whenever an autorepeating key is held down. If an XKB-aware client enables the DetectableAutorepeat per-client option for a keyboard, the server sends that client a key release event only when the key is physically released. For example, holding down a key to generate three characters without detectable autorepeat yields: Press -> Release -> Press -> Release -> Press -> Release If detectable autorepeat is enabled, the client instead receives: Press-> Press -> Press -> Release Note that only clients that request detectable autorepeat are affected; other clients continue to receive both press and release events for autorepeating keys. Also note that support for detectable autorepeat is optional; servers are not required to support detectable autorepeat, but they must correctly report whether or not it is supported. Querying and Changing Per-Client Flags describes the XkbPerClientFlags request, which reports or changes values for all of the per-client flags, and which lists the per-client flags that are supported. The SlowKeys Control Some users often bump keys accidentally while moving their hand or typing stick toward the key they want. Usually, the keys that are bumped accidentally are hit only for a very short period of time. The SlowKeys control helps filter these accidental bumps by telling the server to wait a specified period, called the SlowKeys acceptance delay , before delivering key events. If the key is released before this period elapses, no key events are generated. The user can then bump any number of keys on their way to the one they want without generating unwanted characters. Once they have reached the key they want, they can then hold it long enough for SlowKeys to accept it. The SlowKeys control has one parameter; the slow keys delay specifies the length of time, in milliseconds, that a key must be held down before it is accepted. When SlowKeys are active, the X Keyboard Extension reports the initial press, acceptance, rejection or release of any key to interested clients using AccessXNotify events. The AccessXNotify event is described in more detail in Events. The BounceKeys Control Some people with physical impairments accidentally "bounce" on a key when they press it. That is, they press it once, then accidentally press it again immediately. The BounceKeys control temporarily disables a key after it has been pressed, effectively "debouncing" the keyboard. The BounceKeys has a single parameter. The BounceKeys delay specifies the period of time, in milliseconds, that the key is disabled after it is pressed. When BounceKeys are active, the server reports the acceptance or rejection of any key to interested clients by sending an AccessXNotify event. The AccessXNotify event is described in more detail in Events. The StickyKeys Control Some people find it difficult or impossible to press two keys at once. The StickyKeys control makes it easier for them to type by changing the behavior of the modifier keys. When StickyKeys are enabled, a modifier is latched when the user presses it just once, so the user can first press a modifier, release it, then press another key. For example, to get an exclamation point (!) on a PC-style keyboard, the user can press the Shift key, release it, then press the 1 key. By default, StickyKeys also allows users to lock modifier keys without requiring special locking keys. The user can press a modifier twice in a row to lock it, and then unlock it by pressing it one more time. Modifiers are automatically unlatched when the user presses a non-modifier key. For instance, to enter the sequence Shift + Ctrl + Z the user could press and release the Shift key to latch the Shift modifier, then press and release the Ctrl key to latch the Control modifier — the Ctrl key is a modifier key, so pressing it does not unlatch the Shift modifier, but leaves both the Shift and Control modifiers latched, instead. When the user presses the Z key, it will be as though the user pressed Shift + Ctrl + Z simultaneously. The Z key is not a modifier key, so the Shift and Control modifiers are unlatched after the event is generated. A locked a modifier remains in effect until the user unlocks it. For example, to enter the sequence ("XKB") on a PC-style keyboard with a typical US/ASCII layout, the user could press and release the Shift key twice to lock the Shift modifier. Then, when the user presses the 9 , , x , k , b , , and 0 keys in sequence, it will generate ("XKB"). To unlock the Shift modifier, the user can press and release the Shift key. Two option flags modify the behavior of the StickyKeys control: If the XkbAX_TwoKeys flag is set, XKB automatically turns StickyKeys off if the user presses two or more keys at once. This serves to automatically disable StickyKeys when a user who does not require sticky keys is using the keyboard. The XkbAX_LatchToLock controls the locking behavior of StickyKeys ; the StickyKeys control only locks modifiers as described above if the XkbAX_LatchToLock flag is set. The MouseKeys Control The MouseKeys control lets a user control all the mouse functions from the keyboard. When MouseKeys are enabled, all keys with MouseKeys actions bound to them generate core pointer events instead of normal key press and release events. The MouseKeys control has a single parameter, the mouse keys default button , which specifies the core pointer button to be used by mouse keys actions that do not explicitly specify a button. The MouseKeysAccel Control If the MouseKeysAccel control is enabled, the effect of a pointer motion action changes as a key is held down. The mouse keys delay specifies the amount of time between the initial key press and the first repeated motion event. The mouse keys interval specifies the amount of time between repeated mouse keys events. The steps to maximum acceleration field specifies the total number of events before the key is travelling at maximum speed. The maximum acceleration field specifies the maximum acceleration. The curve parameter controls the ramp used to reach maximum acceleration. When MouseKeys are active and a SA_MovePtr key action (see Key Actions) is activated, a pointer motion event is generated immediately. If MouseKeysAccel is enabled and if acceleration is enabled for the key in question, a second event is generated after mouse keys delay milliseconds, and additional events are generated every mouse keys interval milliseconds for as long as the key is held down. Relative Pointer Motion If the SA_MovePtr action specifies relative motion, events are generated as follows: The initial event always moves the cursor the distance specified in the action; after steps to maximum acceleration events have been generated, all subsequent events move the pointer the distance specified in the action times the maximum acceleration. Events after the first but before maximum acceleration has been achieved are accelerated according to the formula: Where action_delta is the offset specified by the mouse keys action, max_accel and steps_to_max are parameters to the MouseKeysAccel ctrl, and the curveFactor is computed using the MouseKeysAccel curve parameter as follows: With the result that a curve of 0 causes the distance moved to increase linearly from action_delta to , and the minimum legal curve of - 1000 causes all events after the first move at max_accel . A negative curve causes an initial sharp increase in acceleration which tapers off, while a positive curve yields a slower initial increase in acceleration followed by a sharp increase as the number of pointer events generated by the action approaches steps_to_max . Absolute Pointer Motion If an SA_MovePtr action specifies an absolute position for one of the coordinates but still allows acceleration, all repeated events contain any absolute coordinates specified in the action. The AccessXKeys Control If AccessXKeys is enabled many controls can also be turned on or off from the keyboard by entering the following standard key sequences: Holding down a shift key by itself for eight seconds toggles the SlowKeys control. Pressing and releasing a shift key five times in a row without any intervening key events and with less than 30 seconds delay between consecutive presses toggles the state of the StickyKeys control. Simultaneously operating two or more modifier keys deactivates the StickyKeys control. Some of these key sequences optionally generate audible feedback of the change in state, as described in The AccessXFeedback Control, or cause XkbAccessXNotify events as described in Events. The AccessXTimeout Control In environments where computers are shared, features such as SlowKeys present a problem: if SlowKeys is on, the keyboard can appear to be unresponsive because keys have no effect unless they are held for a certain period of time. To help address this problem, XKB provides an AccessXTimeout control to automatically change the value of any global controls or AccessX options if the keyboard is idle for a specified period of time. The AccessXTimeout control has a number of parameters which affect the duration of the timeout and the features changed when the timeout expires. The AccessX Timeout field specifies the number of seconds the keyboard must be idle before the global controls and AccessX options are modified. The AccessX Options Mask field specifies which values in the AccessX Options field are to be changed, and the AccessX Options Values field specifies the new values for those options. The AccessX Controls Mask field specifies which controls are to be changed in the global set of enabled controls , and the AccessX Controls Values field specifies the new values for those controls. The AccessXFeedback Control If AccessXFeedback is enabled, special beep-codes indicate changes in keyboard controls (or some key events when SlowKeys or StickyKeys are active). Many beep codes sound as multiple tones, but XKB reports a single XkbBellNotify event for the entire sequence of tones. All feedback tones are governed by the AudibleBell control. Individual feedback tones can be explicitly enabled or disabled using the accessX options mask or set to deactivate after an idle period using the accessX timeout options mask . XKB defines the following feedback tones: Feedback Name Bell Name Default Sound Indicates FeatureFB AX_FeatureOn rising tone Keyboard control enabled AX_FeatureOff falling tone Keyboard control disabled AX_FeatureChange two tones Several controls changed state IndicatorFB AX_IndicatorOn high tone Indicator Lit AX_IndicatorOff low tone Indicator Extinguished AX_IndicatorChange two high tones Several indicators changed state SlowWarnFB AX_SlowKeysWarning three high tones Shift key held for four seconds SKPressFB AX_SlowKeyPress single tone Key press while SlowKeys are on SKReleaseFB AX_SlowKeyRelease single tone Key release while SlowKeys are on SKAcceptFB AX_SlowKeyAccept single tone Key event accepted by SlowKeys SKRejectFB AX_SlowKeyReject low tone Key event rejected by SlowKeys StickyKeysFB AX_StickyLatch low tone then high tone Modifier latched by StickyKeys AX_StickyLock high tone Modifier locked by StickyKeys AX_StickyUnlock low tone Modifier unlocked by StickyKeys BKRejectFB AX_BounceKeysReject low tone Key event rejected by BounceKeys Implementations that cannot generate continuous tones may generate multiple beeps instead of falling and rising tones; for example, they can generate a high-pitched beep followed by a low-pitched beep instead of a continuous falling tone. If the physical keyboard bell is not very capable, attempts to simulate a continuous tone with multiple bells can sound horrible. Set the DumbBellFB AccessX option to inform the server that the keyboard bell is not very capable and that XKB should use only simple bell combinations. Keyboard capabilities vary wildly, so the sounds generated for the individual bells when the DumbBellFB option is set are implementation specific. The Overlay1 and Overlay2 Controls A keyboard overlay allows some subset of the keyboard to report alternate keycodes when the overlay is enabled. For example a keyboard overlay can be used to simulate a numeric or editing keypad on keyboard that does not actually have one by generating alternate of keycodes for some keys when the overlay is enabled. This technique is very common on portable computers and embedded systems with small keyboards. XKB includes direct support for two keyboard overlays, using the Overlay1 and Overlay2 controls. When Overlay1 is enabled, all of the keys that are members of the first keyboard overlay generate an alternate keycode. When Overlay2 is enabled, all of the keys that are members of the second keyboard overlay generate an alternate keycode. To specify the overlay to which a key belongs and the alternate keycode it should generate when that overlay is enabled, assign it either the KB_Overlay1 or KB_Overlay2 key behaviors, as described in Key Behavior. "Boolean" Controls and The EnabledControls Control All of the controls described above, along with the AudibleBell control (described in Disabling Server Generated Bells) and the IgnoreGroupLock control (described in Server Internal Modifiers and Ignore Locks Behavior) comprise the boolean controls . In addition to any parameters listed in the descriptions of the individual controls, the boolean controls can be individually enabled or disabled by changing the value of the EnabledControls control. The following non-boolean controls are always active and cannot be changed using the EnabledControls control or specified in any context that accepts only boolean controls: GroupsWrap (Computing Effective Modifier and Group), EnabledControls , InternalMods (Server Internal Modifiers and Ignore Locks Behavior), and IgnoreLockMods (Server Internal Modifiers and Ignore Locks Behavior) and PerKeyRepeat (The RepeatKeys Control) Automatic Reset of Boolean Controls The auto-reset controls are a per-client value which consist of two masks that can contain any of the boolean controls (see "Boolean" Controls and The EnabledControls Control). Whenever the client exits for any reason, any boolean controls specified in the auto-reset mask are set to the corresponding value from the auto-reset values mask. This makes it possible for clients to "clean up after themselves" automatically, even if abnormally terminated. For example, a client that replace the keyboard bell with some other audible cue might want to turn off the AudibleBell control (Disabling Server Generated Bells) to prevent the server from also generating a sound and thus avoid cacophony. If the client were to exit without resetting the AudibleBell control, the user would be left without any feedback at all. Setting AudibleBell in both the auto-reset mask and auto-reset values guarantees that the audible bell will be turned back on when the client exits. ve because keys have no effect unless they are held for a certain period of time. To help address this problem, XKB provides an AccessXTimeout control to automatically change the value of any global controls or AccessX options if the keyboard is idle for a specified period of time. The AccessXTimeout control has a kbproto-1.0.7/specs/ch03.xml000064401431060000012000000163511252061122500160560ustar00alancstaff00002660200006 Virtual Modifiers The core protocol specifies that certain keysyms, when bound to modifiers, affect the rules of keycode to keysym interpretation for all keys; for example, when Num_Lock is bound to some modifier, that modifier is used to choose shifted or unshifted state for the numeric keypad keys. The core protocol does not provide a convenient way to determine the mapping of modifier bits, in particular Mod1 through Mod5 , to keysyms such as Num_Lock and Mode_switch . Clients must retrieve and search the modifier map to determine the keycodes bound to each modifier, and then retrieve and search the keyboard mapping to determine the keysyms bound to the keycodes. They must repeat this process for all modifiers whenever any part of the modifier mapping is changed. XKB provides a set of sixteen named virtual modifiers, each of which can be bound to any set of the eight "real" modifiers ( Shift , Lock , Control and Mod1 - Mod5 as reported in the keyboard state). This makes it easier for applications and keyboard layout designers to specify to the function a modifier key or data structure should fulfill without having to worry about which modifier is bound to a particular keysym. The use of a single, server-driven mechanism for reporting changes to all data structures makes it easier for clients to stay synchronized. For example, the core protocol specifies a special interpretation for the modifier bound to the Num_Lock key. Whenever any keys or modifiers are rebound, every application has to check the keyboard mapping to make sure that the binding for Num_Lock has not changed. If Num_Lock is remapped when XKB is in use, the keyboard description is automatically updated to reflect the new binding, and clients are notified immediately and explicitly if there is a change they need to consider. The separation of function from physical modifier bindings also makes it easier to specify more clearly the intent of a binding. X servers do not all assign modifiers the same way — for example, Num_Lock might be bound to Mod2 for one vendor and to Mod4 for another. This makes it cumbersome to automatically remap the keyboard to a desired configuration without some kind of prior knowledge about the keyboard layout and bindings. With XKB, applications simply use virtual modifiers to specify the behavior they want, without regard for the actual physical bindings in effect. XKB puts most aspects of the keyboard under user or program control, so it is even more important to clearly and uniformly refer to modifiers by function. Modifier Definitions Use an XKB modifier definition to specify the modifiers affected by any XKB control or data structure. An XKB modifier definition consists of a set of real modifiers, a set of virtual modifiers, and an effective mask. The mask is derived from the real and virtual modifiers and cannot be explicitly changed — it contains all of the real modifiers specified in the definition plus any real modifiers that are bound to the virtual modifiers specified in the definition. For example, this modifier definition specifies the numeric lock modifier if the Num_Lock keysym is not bound to any real modifier: { real_mods= None, virtual_mods= NumLock, mask= None } If we assign Mod2 to the Num_Lock key, the definition changes to: { real_mods= None, virtual_mods= NumLock, mask= Mod2 } Using this kind of modifier definition makes it easy to specify the desired behavior in such a way that XKB can automatically update all of the data structures that make up a keymap to reflect user or application specified changes in any one aspect of the keymap. The use of modifier definitions also makes it possible to unambiguously specify the reason that a modifier is of interest. On a system for which the Alt and Meta keysyms are bound to the same modifier, the following definitions behave identically: { real_mods= None, virtual_mods= Alt, mask= Mod1 } { real_mods= None, virtual_mods= Meta, mask= Mod1 } If we rebind one of the modifiers, the modifier definitions automatically reflect the change: { real_mods= None, virtual_mods= Alt, mask= Mod1 } { real_mods= None, virtual_mods= Meta, mask= Mod4 } Without the level of indirection provided by virtual modifier maps and modifier definitions, we would have no way to tell which of the two definitions is concerned with Alt and which is concerned with Meta. Inactive Modifier Definitions Some XKB structures ignore modifier definitions in which the virtual modifiers are unbound. Consider this example: if ( state matches { Shift } ) Do OneThing; if ( state matches { Shift+NumLock } ) Do Another; If the NumLock virtual modifier is not bound to any real modifiers, these effective masks for these two cases are identical (i.e. they contain only Shift ). When it is essential to distinguish between OneThing and Another, XKB considers only those modifier definitions for which all virtual modifiers are bound. Virtual Modifier Mapping XKB maintains a virtual modifier mapping , which lists the virtual modifiers associated with each key. The real modifiers bound to a virtual modifier always include all of the modifiers bound to any of the keys that specify that virtual modifier in their virtual modifier mapping. For example, if Mod3 is bound to the Num_Lock key by the core protocol modifier mapping, and the NumLock virtual modifier is bound to they Num_Lock key by the virtual modifier mapping, Mod3 is added to the set of modifiers associated with the NumLock virtual modifier. The virtual modifier mapping is normally updated automatically whenever actions are assigned to keys (see Changing the Keyboard Mapping Using the Core Protocol for details) and few applications should need to change the virtual modifier mapping explicitly. kbproto-1.0.7/specs/XKBproto-2.svg000064401431060000012000000566571252061122500172040ustar00alancstaff00002660200006 image/svg+xml image/svg+xml 75,1.1875 -0.40625,1.484375 -0.078125,0.203125 -0.109375,0.265625 -0.109375,0.375 0,0.375 0.296875,0.59375 0.65625,0.59375 0.703125,0 1,-0.953125 1,-1.0625 0,-0.09375 -0.078125,-0.09375 -0.109375,-0.09375 -0.09375,0 -0.09375,0.046875 -0.125,0.125 C 4.1875,-0.40625 3.875,-0.125 3.609375,-0.125 c -0.15625,0 -0.1875,-0.09375 -0.1875,-0.25 0,-0.15625 0.046875,-0.25 0.171875,-0.5625 0.078125,-0.21875 0.3kbproto-1.0.7/specs/XKBproto-10.svg000064401431060000012000000120361252061122500172420ustar00alancstaff00002660200006 image/svg+xml kbproto-1.0.7/specs/appA.xml000064401431060000012000000535311252061122500162030ustar00alancstaff00002660200006 Default Symbol Transformations Interpreting the Control Modifier If the Control modifier is not consumed by the symbol lookup process, routines that determine the symbol and string that correspond to an event should convert the symbol to a string as defined in the table below. Only the string to be returned is affected by the Control modifier; the symbol is not changed. This table lists the decimal value of the standard control characters that correspond to some keysyms for ASCII characters. Control characters for symbols not listed in this table are application-specific. Keysyms Value Keysyms Value Keysyms Value Keysyms Value atsign 0 h, H 8 p, P 16 x, X 24 a, A 1 i, I 9 q, Q 17 y, Y 25 b, B 2 j, J 10 r, R 18 z, Z 26 c, C 3 k, K 11 s, S 19 left_bracket 27 d, D 4 l, L 12 t, T 20 backslash 28 e, E 5 m, M 13 u, U 21 right_bracket 29 f, F 6 n, N 14 v, V 22 asciicircum 30 g, G 8 o, O 15 w, W 23 underbar 31 Interpreting the Lock Modifier If the Lock modifier is not consumed by the symbol lookup process, routines that determine the symbol and string that correspond to an event should capitalize the result. Unlike the transformation for Control , the capitalization transformation changes both the symbol and the string returned by the event. Locale-Sensitive Capitalization If Lock is set in an event and not consumed, applications should capitalize the string and symbols that result from an event according to the capitalization rules in effect for the system on which the application is running, taking the current state of the user environment (e.g. locale) into account. Locale-Insensitive Capitalization XKB recommends but does not require locale-sensitive capitalization. In cases where the locale is unknown or where locale-sensitive capitalization is prohibitively expensive, applications can capitalize according to the rules defined in this extension. The following tables list all of the keysyms for which XKB defines capitalization behavior. Any keysyms not explicitly listed in these tables are not capitalized by XKB when locale-insensitive capitalization is in effect and are not automatically assigned the ALPHABETIC type as described in the Alphabetic Key Type. Capitalization Rules for Latin-1 Keysyms This table lists the Latin-11 keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Lower Case Upper Case Lower Case Upper Case a A o O acircumflex Acircumflex eth ETH b B p P adiaeresis Adiaeresis ntilde Ntilde c C q Q atilde Atilde ograve Ograve d D r R aring Aring oacute Oacute e E s S ae AE ocircumflex Ocircumflex f F t T ccedilla Ccedilla otilde Otilde g G u U egrave Egrave odiaeresis Odiaeresis h H v V eacute Eacute oslash Ooblique i I w W ecircumflex Ecircumflex ugrave Ugrave j J x X ediaeresis Ediaeresis uacute Uacute k K y Y igrave Igrave ucircumflex Ucircumflex l L z Z iacute Iacute udiaeresis Udiaeresis m M agrave Agrave icircumflex Icircumflex yacute Yacute n N aacute Aacute idiaeresis Idiaeresis thorn THORN Capitalization Rules for Latin-2 Keysyms This table lists the Latin-2 keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Lower Case Upper Case aogonek Aogonek zabovedot Zabovedot dstroke Dstroke lstroke Lstroke racute Racute nacute Nacute lcaron Lcaron abreve Abreve ncaron Ncaron sacute Sacute lacute Lacute odoubleacute Odoubleacute scaron Scaron cacute Cacute rcaron Rcaron scedilla Scedilla ccaron Ccaron uabovering Uabovering tcaron Tcaron eogonek Eogonek udoubleacute Udoubleacute zacute Zacute ecaron Ecaron tcedilla Tcedilla zcaron Zcaron dcaron Dcaron Capitalization Rules for Latin-3 Keysyms This table lists the Latin-3 keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Lower Case Upper Case hstroke Hstroke jcircumflex Jcircumflex gcircumflex Gcircumflex hcircumflex Hcircumflex cabovedot Cabovedot ubreve Ubreve idotless Iabovedot ccircumflex Ccircumflex scircumflex Scircumflex gbreve Gbreve gabovedot Gabovedot Capitalization Rules for Latin-4 Keysyms This table lists the Latin-4 keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Lower Case Upper Case rcedilla Rcedilla eng ENG omacron Omacron itilde Itilde amacron Amacron kcedilla Kcedilla lcedilla Lcedilla iogonek Iogonek uogonek Uogonek emacron Emacron eabovedot eabovedot utilde Utilde gcedilla Gcedilla imacron Imacron umacron Umacron tslash Tslash ncedilla Ncedilla Capitalization Rules for Cyrillic Keysyms This table lists the Cyrillic keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Serbian_dje Serbian_DJE Cyrillic_i Cyrillic_I Macedonia_gje Macedonia_GJE Cyrillic_shorti Cyrillic_SHORTI Cyrillic_io Cyrillic_IO Cyrillic_ka Cyrillic_KA Ukrainian_ie Ukrainian_IE Cyrillic_el Cyrillic_EL Macedonia_dse Macedonia_DSE Cyrillic_em Cyrillic_EM Ukrainian_i Ukrainian_I Cyrillic_en Cyrillic_EN Ukrainian_yi Ukrainian_YI Cyrillic_o Cyrillic_O Cyrillic_je Cyrillic_JE Cyrillic_pe Cyrillic_PE Cyrillic_lje Cyrillic_LJE Cyrillic_ya Cyrillic_YA Cyrillic_nje Cyrillic_NJE Cyrillic_er Cyrillic_ER Serbian_tshe Serbian_TSHE Cyrillic_es Cyrillic_ES Macedonia_kje Macedonia_KJE Cyrillic_te Cyrillic_TE Byelorussian_shortu Byelorussian_SHORTU Cyrillic_u Cyrillic_U Cyrillic_dzhe Cyrillic_DZHE Cyrillic_zhe Cyrillic_ZHE Cyrillic_yu Cyrillic_YU Cyrillic_ve Cyrillic_VE Cyrillic_a Cyrillic_A Cyrillic_softsign Cyrillic_SOFTSIGN Cyrillic_be Cyrillic_BE Cyrillic_yeru Cyrillic_YERU Cyrillic_tse Cyrillic_TSE Cyrillic_ze Cyrillic_ZE Cyrillic_de Cyrillic_DE Cyrillic_sha Cyrillic_SHA Cyrillic_ie Cyrillic_IE Cyrillic_e Cyrillic_E Cyrillic_ef Cyrillic_EF Cyrillic_shcha Cyrillic_SHCHA Cyrillic_ghe Cyrillic_GHE Cyrillic_che Cyrillic_CHE Cyrillic_ha Cyrillic_HA Cyrillic_hardsign Cyrillic_HARDSIGN Capitalization Rules for Greek Keysyms This table lists the Greek keysyms for which XKB defines upper and lower case: Lower Case Upper Case Lower Case Upper Case Greek_omegaaccent Greek_OMEGAACCENT Greek_iota Greek_IOTA Greek_alphaaccent Greek_ALPHAACCENT Greek_kappa Greek_KAPPA Greek_epsilonaccent Greek_EPSILONACCENT Greek_lamda Greek_LAMDA Greek_etaaccent Greek_ETAACCENT Greek_lambda Greek_LAMBDA Greek_iotaaccent Greek_IOTAACCENT Greek_mu Greek_MU Greek_iotadieresis Greek_IOTADIERESIS Greek_nu Greek_NU Greek_omicronaccent Greek_OMICRONACCENT Greek_xi Greek_XI Greek_upsilonaccent Greek_UPSILONACCENT Greek_omicron Greek_OMICRON Greek_upsilondieresis Greek_UPSILONDIERESIS Greek_pi Greek_PI Greek_alpha Greek_ALPHA Greek_rho Greek_RHO Greek_beta Greek_BETA Greek_sigma Greek_SIGMA Greek_gamma Greek_GAMMA Greek_tau Greek_TAU Greek_delta Greek_DELTA Greek_upsilon Greek_UPSILON Greek_epsilon Greek_EPSILON Greek_phi Greek_PHI Greek_zeta Greek_ZETA Greek_chi Greek_CHI Greek_eta Greek_ETA Greek_psi Greek_PSI Greek_theta Greek_THETA Greek_omega Greek_OMEGA Capitalization Rules for Other Keysyms XKB defines no capitalization rules for symbols in any other set of keysyms provided by the consortium. Applications are free to apply additional rules for private keysyms or for other keysyms not covered by XKB. umflex Jcircumflex gcircumflex Gcircumflex hcircumflex kbproto-1.0.7/specs/ch12.xml000064401431060000012000001021111252061122500160440ustar00alancstaff00002660200006 Interactions Between XKB and the Core Protocol In addition to providing a number of new requests, XKB replaces or extends existing core protocol requests and events. Some aspects of the this extension, such as the ability to lock any key or modifier, are visible even to clients that are unaware of the XKB extension. Other capabilities, such as control of keysym selection on a per-key basis, are available only to XKB-aware clients. Though they do not have access to some advanced extension capabilities, the XKB extension includes compatibility mechanisms to ensure that non-XKB clients behave as expected and operate at least as well with an XKB-capable server as they do today. There are a few significant areas in which XKB state and mapping differences might be visible to XKB-unaware clients: The core protocol uses a modifier to choose between two keyboard groups, while this extension provides explicit support for multiple groups. The order of the symbols associated with any given key by XKB might not match the ordering demanded by the core protocol. To minimize problems that might result from these differences, XKB includes ways to specify the correspondence between core protocol and XKB modifiers and symbols. This section describes the differences between the core X protocol’s notion of a keyboard mapping and XKB and explains the ways they can interact. Group Compatibility Map As described in Keyboard State, the current keyboard group is reported to XKB-aware clients in bits 13-14 of the state field of many core protocol events. XKB-unaware clients cannot interpret those bits, but they might use a keyboard modifier to implement support for a single keyboard group. To ensure that pre-XKB clients continue to work when XKB is present, XKB makes it possible to map an XKB state field, which includes both keyboard group and modifier state into a pre-XKB state field which contains only modifiers. A keyboard description includes one group compatibility map per keyboard group (four in all). Each such map is a modifier definition (i.e. specifies both real and virtual modifiers) which specifies the modifiers to be set in the compatibility states when the corresponding keyboard group is active. Here are a few examples to illustrate the application of the group compatibility map: Group GroupCompat Map Effective Modifiers State for XKB Clients Compatibility Modifiers State for non-XKB Clients 1 Group1=None Shift x00xxxxx00000001 Shift xxxxxxxx00000001 2 Group2=Mod3 None x01xxxxx00000000 Mod3 xxxxxxxx00100000 3 Group3=Mod2 Shift x10xxxxx00000001 Shift+Mod2 xxxxxxxx00010001 4 Group4=None Control x11xxxxx00000100 Control xxxxxxxx00000100 Note that non-XKB clients (i.e. clients that are linked with a version of the X library that does not support XKB) cannot detect the fact that Group4 is active in this example because the group compatibility map for Group4 does not specify any modifiers. Setting a Passive Grab for an XKB State The fact that the state field of an event might look different when XKB is present can cause problems with passive grabs. Existing clients specify the modifiers they wish to grab using the rules defined by the core protocol, which use a normal modifier to indicate keyboard group. If we used an XKB state field, the high bits of the state field would be non-zero whenever the keyboard was in any group other than Group1 , and none of the passive grabs set by clients could ever be triggered. To avoid this behavior, the X server normally uses the compatibility grab state to decide whether or not to activate a passive grab, even for XKB-aware clients. The group compatibility map attempts to encode the keyboard group in one or more modifiers of the compatibility state, so existing clients continue to work exactly the way they do today. By default, there is no way to directly specify a keyboard group in a Grabbed or GrabButton request, but groups can be specified indirectly by correctly adjusting the group compatibility map. Clients that wish to specify an XKB keyboard state, including a separate keyboard group, can set the GrabsUseXKBState per-client flag which indicates that all subsequent key and button grabs from the requesting clients are specified using an XKB state. Whether the XKB or core state should be used to trigger a grab is determined by the setting of the GrabsUseXKBState flag for the requesting client at the time the key or button is grabbed. There is no way to change the state to be used for a grab that is already registered or for grabs that are set by some other client. Changing the Keyboard Mapping Using the Core Protocol An XKB keyboard description includes a lot of information that is not present in the core protocol description of a keyboard. Whenever a client remaps the keyboard using core protocol requests, XKB examines the map to determine likely default values for the components that cannot be specified using the core protocol. Some aspects of this automatic mapping are configurable, and make it fairly easy to take advantage of many XKB features using existing tools like xmodmap , but much of the process of mapping a core keyboard description into an XKB description is designed to preserve compatible behavior for pre-XKB clients and cannot be redefined by the user. Clients or users that want behavior that cannot be described using this mapping should use XKB functions directly. Explicit Keyboard Mapping Components This automatic remapping might accidentally replace definitions that were explicitly requested by an application, so the XKB keyboard description defines a set of explicit components for each key; any components that are listed in the explicit components for a key are not changed by the automatic keyboard mapping. The explicit components field for a key can contain any combination of the following values: Bit in Explicit Mask Protects Against ExplicitKeyType1 Automatic determination of the key type associated with Group1 (see Assigning Types To Groups of Symbols for a Key) ExplicitKeyType2 Automatic determination of the key type associated with Group2 (see Assigning Types To Groups of Symbols for a Key) ExplicitKeyType3 Automatic determination of the key type associated with Group3 (see Assigning Types To Groups of Symbols for a Key). ExplicitKeyType4 Automatic determination of the key type associated with Group4 (see Assigning Types To Groups of Symbols for a Key). ExplicitInterpret Application of any of the fields of a symbol interpretation to the key in question (see Assigning Actions To Keys). ExplicitAutoRepeat Automatic determination of autorepeat status for the key, as specified in a symbol interpretation (see Assigning Actions To Keys). ExplicitBehavior Automatic assignment of the KB_Lock behavior to the key, if the LockingKey flag is set in a symbol interpretation (see Assigning Actions To Keys). ExplicitVModMap Automatic determination of the virtual modifier map for the key based on the actions assigned to the key and the symbol interpretations which match the key (see Assigning Actions To Keys). Assigning Symbols To Groups The first step in applying the changes specified by a core protocol ChangeKeyboardMapping request to the XKB description of a keyboard is to determine the number of groups that are defined for the key and the width of each group. The XKB extension does not change key types in response to core protocol SetModifierMapping requests, but it does choose key actions as described in Assigning Actions To Keys. Determining the number of symbols required for each group is straightforward. If the key type for some group is not protected by the corresponding ExplicitKeyType component, that group has two symbols. If any of the explicit components for the key include ExplicitKeyType3 or ExplicitKeyType4 , the width of the key type currently assigned to that group determines the number of symbols required for the group in the core protocol keyboard description. The explicit type components for Group1 and Group2 behave similarly, but for compatibility reasons the first two groups must have at least two symbols in the core protocol symbol mapping. Even if an explicit type assigned to either of the first two keyboard groups has fewer than two symbols, XKB requires two symbols for it in the core keyboard description. If the core protocol request contains fewer symbols than XKB needs, XKB adds trailing NoSymbol keysyms to the request to pad it to the required length. If the core protocol request includes more symbols than it needs, XKB truncates the list of keysyms to the appropriate length. Finally, XKB divides the symbols from the (possibly padded or truncated) list of symbols specified by the core protocol request among the four keyboard groups. In most cases, the symbols for each group are taken from the core protocol definition in sequence (i.e. the first pair of symbols is assigned to Group1 , the second pair of symbols is assigned to Group2 , and so forth). If either Group1 or Group2 has an explicitly defined key type with a width other than two, it gets a little more complicated. Assigning Symbols to Groups One and Two with Explicitly Defined Key Types The server assigns the first four symbols from the expanded or truncated map to the symbol positions G1L1 , G1L2, G2L1 and G2L2, respectively. If the key type assigned to Group1 reports more than two shift levels, the fifth and following symbols contain the extra keysyms for Group2 . If the key type assigned to Group2 reports more than two shift levels, the extra symbols follow the symbols (if any) for Group1 in the core protocol list of symbols. Symbols for Group3 and Group4 are contiguous and follow the extra symbols, if any, for Group1 and Group2 . For example, consider a key with a key type that returns three shift levels bound to each group. The symbols bound to the core protocol are assigned in sequence to the symbol positions: G1L1, G1L2, G2L1, G2L2, G1L3, G2L3, G3L1, G3L2, G3L3, G4L1, G4L2, and G4L3 For a key with a width one key type on group one, a width two key type on group two and a width three key type on group three, the symbols bound to the key by the core protocol are assigned to the following key positions: G1L1, (G1L2), G2L1, G2L2, G3L1, G3L2, G3L3 Note that the second and fourth symbols (positions G1L2 and G2L2 ) can never be generated if the key type associated with the group yields only one symbol. XKB accepts and ignores them in order to maintain compatibility with the core protocol. Assigning Types To Groups of Symbols for a Key Once the symbols specified by ChangeKeyboardMapping have been assigned to the four keyboard groups for a key, the X server assigns a key type to each group on the key from a canonical list of key types. The first four key types in any keyboard map are reserved for these standard key types: Key Type Name Standard Definition ONE_LEVEL Describes keys that have exactly one symbol per group. Most special or function keys (such as Return ) are ONE_LEVEL keys. Any combination of modifiers yields level 0 . Index 0 in any key symbol map specifies key type ONE_LEVEL . TWO_LEVEL Describes non-keypad and non-alphabetic keys that have exactly two symbols per group. By default, the TWO_LEVEL type yields column 1 if the Shift modifier is set, column 0 otherwise. Index 1 in any key symbol map specifies key type TWO_LEVEL . ALPHABETIC Describes alphabetic keys that have exactly two symbols per group. The default definition of the ALPHABETIC type provides shift-cancels-caps behavior as described in Key Types. Index 2 in any key symbol map specifies key type ALPHABETIC . KEYPAD Describes numeric keypad keys with two symbols per group. Yields column 1 if either of the Shift modifier or the real modifier bound to the virtual modifier named NumLock are set. Yields column 0 if neither or both modifiers are set. Index 3 in any key symbol map specifies key type KEYPAD . Users or applications may change these key types to get different default behavior (to make shift cancel caps lock, for example) but they must always have the specified number of symbols per group. Before assigning key types to groups, the X server expands any alphanumeric symbol definitions as follows: If the second symbol of either group is NoSymbol and the first symbol of that group is an alphabetic keysym for which both lowercase and uppercase forms are defined, the X server treats the key as if the first element of the group were the lowercase form of the symbol and the second element were the uppercase form of the symbol. For the purposes of this expansion, XKB ignores the locale and uses the capitalization rules defined in Default Symbol Transformations. For each keyboard group that does not have an explicit type definition, XKB chooses a key type from the canonical key types. If the second symbol assigned to a group is NoSymbol (after alphabetic expansion), the server assigns key type ONE_LEVEL . If the group contains the lowercase and uppercase forms of a single glyph (after alphanumeric expansion), the server assigns key type ALPHABETIC . If either of the symbols in a group is a numeric keypad keysym ( KP_* ), the server assigns key type KEYPAD . Otherwise, it assigns key type TWO_LEVEL . Finally, XKB determines the number of groups of symbols that are actually defined for the key. Trailing empty groups (i.e. groups that have NoSymbol in all symbol positions) are ignored. There are two last special cases for compatibility with the core protocol: If, after trailing empty groups are excluded, all of the groups of symbols bound to the key have identical type and symbol bindings, XKB assigns only one group to the key. If Group2 is empty and either of Group3 or Group4 are not, and if neither Group1 nor Group2 have explicit key types, XKB copies the symbols and key type from Group1 into Group2 . Assigning Actions To Keys Once symbols have been divided into groups and key types chosen for the keys affected by a ChangeKeyboardMapping request, XKB examines the symbols and modifier mapping for each changed key and assigns server actions where appropriate. XKB also automatically assigns server actions to changed keys if the client issues a core protocol SetModifierMapping request, and does so optionally in response to XkbSetMap and XkbSetCompatMap requests. The compatibility map includes a list of symbol interpretations , which XKB compares to each symbol associated with any changed keys in turn, unless the ExplicitInterp component is set for a key. Setting the ExplicitInterp component prevents the application of symbol interpretations to that key. If the modifiers and keysym specified in a symbol interpretation match the modifier mapping and a symbol bound to a changed key that is not protected by ExplicitInterp , the server applies the symbol interpretation to the symbol position. The server considers all symbol interpretations which specify an explicit keysym before considering any that do not. The server uses the first interpretation which matches the given combination of keysym and modifier mapping; other matching interpretations are ignored. XKB uses four of the fields of a symbol interpretation to decide if it matches one of the symbols bound to some changed key: The symbol field is a keysym which matches if it has the value NoSymbol or is identical to the symbol in question. The modifiers specified in the mods field are compared to the modifiers affected by the key in question as indicated by match . The match field can specify any of the comparisons: NoneOf , AnyOfOrNone , AnyOf , AllOf or Exactly . The levelOneOnly setting, indicates that the interpretation in question should only use the modifiers bound to this key by the modifier mapping if the symbol that matches in level one of its group. Otherwise, if the symbol being considered is not in shift level one of its group, the server behaves as if the modifier map for the key were empty. Note that it is still possible for such an interpretation to apply to a symbol in a shift level other than one if it matches a key without modifiers; the levelOneOnly flag only controls the way that matches are determined and that the key modifiers are applied when an interpretation does match. Applying a symbol interpretation can affect several aspects of the XKB definition of the key symbol mapping to which it is applied: The action specified in the symbol interpretation is bound to the symbol position; any key event which yields that symbol will also activate the new action. If the matching symbol is in position G1L1, the autorepeat behavior of the key is set from the autorepeat field of the symbol interpretation. The ExplicitAutoRepeat component protects the autorepeat status of a key from symbol interpretation initiated changes. If the symbol interpretation specifies an associated virtual modifier, that virtual modifier is added to the virtual modifier map for the key. The ExplicitVModMap component guards the virtual modifier map for a key from automatic changes. If the levelOneOnly flag is set for the interpretation, and the symbol in question is not in position G1L1, the virtual modifier map is not updated. If the matching symbol is in position G1L1, and the locking key field is set in the symbol interpretation, the behavior of the key is changed to KB_Lock (see Key Behavior). The ExplicitBehavior component prevents this change. If no interpretations match a given symbol or key, the server uses: SA_NoAction , autorepeat enabled, non-locking key. with no virtual modifiers. If all of the actions computed for a key are SA_NoAction , the server assigns an length zero list of actions to the key. If the core protocol modifier mapping is changed, the server regenerates actions for the affected keys. The XkbSetMap and XkbSetCompatMap requests can also cause actions for some or all keyboard keys to be recomputed. Updating Everything Else Changes to the symbols or modifier mapping can affect the bindings of virtual modifiers. If any virtual modifiers change, XKB updates all of its data structures to reflect the change. Applying virtual modifier changes to the keyboard mapping night result in changes to types, the group compatibility map, indicator maps, internal modifiers or ignore locks modifiers. Effects of XKB on Core Protocol Events After applying server actions which modify the base, latched or locked modifier or group state of the keyboard, the X server recomputes the effective group and state. Several components of the keyboard state are reported to XKB-aware clients depending on context (see Keyboard State for a detailed description of each of the keyboard state components): The effective modifier state is reported in XkbStateNotify events and in response to XkbGetState requests. The symbol lookup state is reported to XKB-aware clients in the state field of core protocol and input extension key press and release events that do not activate passive grabs. Unless the LookupStateWhenGrabbed per-client flag is set, the lookup state is only reported in these events when no grabs are active. The grab state is reported to XKB-aware clients in the state field of all core protocol events that report keyboard state, except KeyPress and KeyRelease events that do not activate passive grabs. The effective group is the sum of the base, latched and locked keyboard groups. An out of range effective group is wrapped or truncated into range according to the setting of the groupsWrap flag for the keyboard. The server reports compatibility states to any clients that have not issued a successful XkbUseExtension request. The server computes the compatibility symbol lookup state and the compatibility effective grab state by applying the compatibility modifier map to the corresponding computed XKB states. The compatibility symbol lookup state is reported to non-XKB clients whenever an XKB-aware client would receive the XKB lookup state. The compatibility grab state is reported to XKB-unaware clients whenever an XKB client would receive the XKB grab state. If the GrabsUseXKBState per-client option is not set, even XKB-aware clients receive the compatibility grab state in events that trigger or terminate passive grabs. If this flag is not set, XKB clients also receive the compatibility grab or lookup state whenever any keyboard grab is active. If the LookupStateWhenGrabbed per-client option is set, clients receive either the XKB or compatibility lookup state when the keyboard is grabbed, otherwise they receive either the XKB or compatibility grab state. All non-XKB clients receive the compatibility form of the appropriate state component; the form that is sent to an XKB-aware client depends on the setting of the GrabsUseXKBState option for that client. Effect of XKB on Core Protocol Requests Whenever a client updates the keyboard mapping using a core protocol request, the server saves the requested core protocol keyboard mapping and reports it to any clients that issue GetKeyboardMapping or GetModifierMapping requests. Whenever a client updates the keyboard mapping using XKB requests, the server discards the affected portion of the stored core keyboard description and regenerates it based on the XKB description of the keyboard. The symbols associated with the XKB keyboard description appear in the order: G1L1 G1L2 G2L1 G2L2 G1L3-n G2L3-n G3L* G4L* If the type associated with Group1 is width one, the second symbol is NoSymbol ; if the type associated with Group2 is width one, the fourth symbol is NoSymbol . If a key has only one group but the keyboard has several, the symbols for Group1 are repeated for each group. For example, given a keyboard with three groups and a key with one group that contains the symbols { a A }, the core protocol description would contain the six symbols: { a A a A a A }. As a slightly more complicated example, an XKB key which had a single width three group with the symbols { a b c } would show up in the generated core protocol keyboard description with the symbols { a b a b c c a b c } for a keyboard with three groups. The generated modifier mapping for a key contains all of the modifiers affected by all of the actions associated with the key plus all of the modifiers associated with any virtual modifiers bound to the key by the virtual modifier mapping. If any of the actions associated with a key affect any component of the keyboard group, any modifiers specified in any entry of the group compatibility map (see Group Compatibility Map) are reported in the modifier mask. The SA_ISOLock action can theoretically affect any modifier, but the modifier map of an SA_ISOLock key contains only the modifiers or group state that it sets by default. The server notifies interested clients of keyboard map changes in one of two ways. It sends XkbMapNotify to clients that have explicitly selected them and core protocol MappingNotify events to clients that have not. Once a client requests XkbMapNotify events, the server stops sending it MappingNotify events to inform it of keyboard changes. Sending Events to Clients XKB normally assumes that events sent to clients using the core protocol SendEvent request contain a core protocol state, if applicable. If the client which will receive the event is not XKB-capable, XKB attempts to convert the core state to an XKB state as follows: if any of the modifiers bound to Group2 in the group compatibility map are set in the event state, XKB clears them in the resulting event but sets the effective group in the event state to Group2 . If the PCF_SendEventUsesXKBState per-client flag is set at the time of the SendEvent request, XKB instead assumes that the event reported in the event is an XKB state. If the receiving client is not XKB-aware, the extension converts the XKB state (which contains the effective state in bits 13-14) to a core state by applying the group compatibility map just as it would for actual key events. istitem> Applying a symbol interpretation can affect several aspects of the XKB definition of the key symbol mapping to which it is applied: The action specified in the symbol interpretation is bound to the symbol position; any key event which yields that symbol will also activate the new action. If the matkbproto-1.0.7/specs/ch15.xml000064401431060000012000000160501252061122500160550ustar00alancstaff00002660200006 Interactions Between XKB and the X Input Extension All XKB interactions with the input extension are optional; implementors are free to restrict the effects of the X Keyboard Extension to the core keyboard device. The XkbGetExtensionDeviceInfo request reports whether or not an XKB implementation supports a particular capability for input extension devices. XKB recognizes the following interactions with the X Input Extension: Name Capability XI_Keyboards If set, applications can use all XKB requests and events with extension keyboards. XI_ButtonActions If set, clients can assign key actions to buttons, even on input extension devices that are not keyboards. XI_IndicatorNames If set, clients can assign names to indicators on non-keyboard extension devices. XI_IndicatorMaps If set, clients can assign indicator maps to indicators on non-keyboard extension devices. XI_IndicatorState If set, clients can change the state of device indicators using the XkbSetExtensionDeviceInfo request. Attempts to use an XKB feature with an extension device fail with a Keyboard error if the server does not support the XkbXI_Keyboards optional feature. If a capability particular capability other than XkbXI_Keyboards is not supported, attempts to use it fail silently. The replies for most requests that can use one of the other optional features include a field to report whether or not the request was successful, but such requests do not cause an error condition. Clients can also request an XkbExtensionDeviceNotify event. This event notifies interested clients of changes to any of the supported XKB features for extension devices, or if a request from the client that is receiving the event attempted to use an unsupported feature. Using XKB Functions with Input Extension Keyboards All XKB requests and events include a device identifier which can refer to an input extension KeyClass device, if the implementation allows XKB to control extension devices. If the implementation does not support XKB manipulation of extension devices, the device identifier is ignored but it must be either 0 or UseCoreKbd . Implementations which do not support the use of XKB functions with extension keyboards must not set the XkbXI_Keyboards flag. Attempts to use XKB features on an extension keyboard with an implementation that does not support this feature yield a Keyboard error. Pointer and Device Button Actions The XKB extension optionally allows clients to assign any key action (see Key Actions) to core pointer or input extension device buttons. This makes it possible to control the keyboard or generate keyboard key events from extension devices or from the core pointer. XKB implementations are required to support actions for the buttons of the core pointer device, but support for actions on extension devices is optional. Implementations which do not support button actions for extension devices must not set the XkbXI_ButtonActions flag. Attempts to query or assign button actions with an implementation that does not support this feature report failure in the request reply and might cause the server to send an XkbExtensionDeviceNotify event to the client which issued the request that failed. Such requests never cause an error condition. Indicator Maps for Extension Devices The XKB extension allows applications to assign indicator maps to the indicators of non-keyboard extension devices. If supported, maps can be assigned to all extension device indicators, whether they are part of a keyboard feedback or part of an indicator feedback. Implementations which do not support indicator maps for extension devices must not set the XkbXI_IndicatorMaps flag. Attempts to query or assign indicator maps with an implementation that does not support this feature report failure in the request reply and might cause the server to send an XkbExtensionDeviceNotify event to the client which issued the request that failed. Such requests never cause an error condition. If this feature is supported, the maps for the default indicators on the core keyboard device are visible both as extension indicators and as the core indicators. Changes made with XkbSetDeviceInfo are visible via XkbGetIndicatorMap and changes made with XkbSetIndicatorMap are visible via XkbGetDeviceInfo . Indicator Names for Extension Devices The XKB extension allows applications to assign symbolic names to the indicators of non-keyboard extension devices. If supported, symbolic names can be assigned to all extension device indicators, whether they are part of a keyboard feedback or part of an indicator feedback. Implementations which do not support indicator maps for extension devices must not set the XkbXI_IndicatorMaps flag. Attempts to query or assign indicator names with an implementation that does not support this feature report failure in the request reply and might cause the server to send an XkbExtensionDeviceNotify event to the client which issued the request that failed. Such requests never cause an error condition. If this feature is supported, the names for the default indicators on the core keyboard device are visible both as extension indicators and as the core indicators. Changes made with XkbSetDeviceInfo are visible via XkbGetNames and changes made with XkbSetNames are visible via XkbGetDeviceInfo . kbproto-1.0.7/specs/XKBproto-4.svg000064401431060000012000000642101252061122500171660ustar00alancstaff00002660200006 image/svg+xml ne" d="m 0.84375,-0.4375 c -0.015625,0.09375 -0.0625,0.265625 -0.0625,0.28125 0,0.15625 0.125,0.21875 0.234375,0.21875 0.125,0 0.234375,-0.078125 0.28125,-0.140625 0.03125,-0.0625 0.078125,-0.296875 0.125,-0.4375 0.03125,-0.125 0.109375,-0.453125 0.140625,-0.625 0.046875,-0.15625 0.09375,-0.3125 0.125,-0.46875 0.078125,-0.28125 0.09375,-0.34375 0.296875,-0.625 C kbproto-1.0.7/specs/XKBproto-11.svg000064401431060000012000003660721252061122500172570ustar00alancstaff00002660200006 image/svg+xml <ESC> <FK01> <FK02> <FK03> <FK04> <FK05> <FK06> <FK07> <FK08> <AE12> <TAB> <CAPS> <LFSH> <AE01> <AD01> <AC01> <AB01> <TLDE> <AE02> <AD02> <AC02> <AB02> <INS> <AE03> <AD03> <AC03> <AB03> <LEFT> <AE04> <AD04> <AC04> <AB04> <RGHT> <AE05> <AD05> <AC05> <AB05> <FK09> <FK10> <FK11> <FK12> <PRSC> <SCLK> <PAUS> <FK16> <FK17> <AE06> <AD06> <AC06> <AB06> <NMLK> <AE07> <KP7> <AD07> <KP4> <AC07> <KP1> <AB07> <UP> <KPEQ> <AE08> <KP8> <AD08> <KP5> <AC08> <KP2> <AB08> <DOWN> <KPSL> <AE09> <KP9> <AD09> <KP6> <AC09> <KP3> <AB09> <AD11> <KPMU> <AE10> <KPSU> <AD10> <KPAD> <AC10> <KPEN> <AB10> <AD12> <KPEN> <AE11> <BKSL> <AC11> <RTSH> <RALT> <PGUP> <PGDN> <RCTL> <RTRN> <KP0> <SPCE> <LALT> <HOME> <END> <LCTL> <DELE> <BKSP> e:none;display:inline;font-family:DejaVu Sans Mono;-inkscape-font-specification:DejaVu Sans Mono Bold" x="600.62781" y="242.19342" id="text3918-2-4-6-2-7-5-9" sodipodi:linespacing="125%"><SPCE> image/svg+xml d="m 4.671875,-2.71875 c 0,-1.046875 -0.6875,-1.6875 -1.59375,-1.6875 -1.328125,0 -2.671875,1.421875 -2.671875,2.828125 0,0.984375 0.671875,1.6875 1.59375,1.6875 1.328125,0 2.671875,-1.375 2.671875,-2.828125 z m -2.65625,2.609375 c -0.4375,0 -0.875,-0.3125 -0.875,-1.09375 0,-0.484375 0.265625,-1.5625 0.578125,-2.0625 0.5,-0.765625 1.078125,-0.921875 1.359375,-0.921875 0.5781kbproto-1.0.7/specs/ch02.xml000064401431060000012000000340041252061122500160500ustar00alancstaff00002660200006 Keyboard State The core protocol description of keyboard state consists of eight modifiers ( Shift , Lock , Control , and Mod1 - Mod5 ). A modifier reports the state of one or modifier keys, which are similar to qualifier keys as defined by the ISO9995 standard: Qualifier key A key whose operation has no immediate effect, but which, for as long as it is held down, modifies the effect of other keys. A qualifier key may be, for example, a shift key or a control key. Whenever a modifier key is physically or logically depressed, the modifier it controls is set in the keyboard state. The protocol implies that certain modifier keys lock (i.e. affect modifier state after they have been physically released) but does not explicitly discuss locking keys or their behavior. The current modifier state is reported to clients in a number of core protocol events and can be determined using the QueryPointer request. The XKB extension retains the eight "real" modifiers defined by the core protocol but extends the core protocol notion of keyboard state to include up to four keysym groups , as defined by the ISO9995 standard: Group: A logical state of a keyboard providing access to a collection of characters. A group usually contains a set of characters which logically belong together and which may be arranged on several shift levels within that group. For example, keyboard group can be used to select between multiple alphabets on a single keyboard, or to access less-commonly used symbols within a character set. Locking and Latching Modifiers and Groups With the core protocol, there is no way to tell whether a modifier is set due to a lock or because the user is actually holding down a key; this can make for a clumsy user-interface as locked modifiers or group state interfere with accelerators and translations. XKB adds explicit support for locking and latching modifiers and groups. Locked modifiers or groups apply to all future key events until they are explicitly changed. Latched modifiers or groups apply only to the next key event that does not change keyboard state. Fundamental Components of XKB Keyboard State The fundamental components of XKB keyboard state include: The locked modifiers and group The latched modifiers and group The base modifiers and group (for which keys are physically or logically down) The effective modifiers and group (the cumulative effect of the base, locked and latched modifier and group states). State of the core pointer buttons. The latched and locked state of modifiers and groups can be changed in response to keyboard activity or under application control using the XkbLatchLockState request. The base modifier, base group and pointer button states always reflect the logical state of the keyboard and pointer and change only in response to keyboard or pointer activity. Computing Effective Modifier and Group The effective modifiers and group report the cumulative effects of the base, latched and locked modifiers and group respectively, and cannot be directly changed. Note that the effective modifiers and effective group are computed differently. The effective modifiers are simply the bitwise union of the base, latched and locked modifiers. The effective group is the arithmetic sum of the base, latched and locked groups. The locked and effective keyboard group must fall in the range Group1 - Group4 , so they are adjusted into range as specified by the global GroupsWrap control as follows: If the RedirectIntoRange flag is set, the four least significant bits of the groups wrap control specify the index of a group to which all illegal groups correspond. If the specified group is also out of range, all illegal groups map to Group1. If the ClampIntoRange flag is set, out-of-range groups correspond to the nearest legal group. Effective groups larger than the highest supported group are mapped to the highest supported group; effective groups less than Group1 are mapped to Group1 . For example, a key with two groups of symbols uses Group2 type and symbols if the global effective group is either Group3 or Group4. If neither flag is set, group is wrapped into range using integer modulus. For example, a key with two groups of symbols for which groups wrap uses Group1 symbols if the global effective group is Group3 or Group2 symbols if the global effective group is Group4. The base and latched keyboard groups are unrestricted eight-bit integer values and are not affected by the GroupsWrap control. Computing A State Field from an XKB State Many events report the keyboard state in a single state field. Using XKB, a state field combines modifiers, group and the pointer button state into a single sixteen bit value as follows: Bits 0 through 7 (the least significant eight bits) of the effective state comprise a mask of type KEYMASK which reports the state modifiers. Bits 8 through 12 comprise a mask of type BUTMASK which reports pointer button state. Bits 13 and 14 are interpreted as a two-bit unsigned numeric value and report the state keyboard group. Bit 15 (the most significant bit) is reserved and must be zero. It is possible to assemble a state field from any of the components of the XKB keyboard state. For example, the effective keyboard state would be assembled as described above using the effective keyboard group, the effective keyboard modifiers and the pointer button state. Derived Components of XKB Keyboard State In addition to the fundamental state components, XKB keeps track of and reports a number of state components which are derived from the fundamental components but stored and reported separately to make it easier to track changes in the keyboard state. These derived components are updated automatically whenever any of the fundamental components change but cannot be changed directly. The first pair of derived state components control the way that passive grabs are activated and the way that modifiers are reported in core protocol events that report state. The server uses the ServerInternalModifiers , IgnoreLocksModifiers and IgnoreGroupLock controls, described in Server Internal Modifiers and Ignore Locks Behavior, to derive these two states as follows: The lookup state is the state used to determine the symbols associated with a key event and consists of the effective state minus any server internal modifiers. The grab state is the state used to decide whether a particular event triggers a passive grab and consists of the lookup state minus any members of the ignore locks modifiers that are not either latched or logically depressed. If the ignore group locks control is set, the grab state does not include the effects of any locked groups. Server Internal Modifiers and Ignore Locks Behavior The core protocol does not provide any way to exclude certain modifiers from client events, so there is no way to set up a modifier which affects only the server. The modifiers specified in the mask of the InternalMods control are not reported in any core protocol events, are not used to determine grabs and are not used to calculate compatibility state for XKB-unaware clients. Server internal modifiers affect only the action applied when a key is pressed. The core protocol does not provide any way to exclude certain modifiers from grab calculations, so locking modifiers often have unanticipated and unfortunate side-effects. XKB provides another mask which can help avoid some of these problems. The locked state of the modifiers specified in mask of the IgnoreLockMods control is not reported in most core protocol events and is not used to activate grabs. The only core events which include the locked state of the modifiers in the ignore locks mask are key press and release events that do not activate a passive grab and which do not occur while a grab is active. If the IgnoreGroupLock control is set, the locked state of the keyboard group is not considered when activating passive grabs. Without XKB, the passive grab set by a translation (e.g. Alt<KeyPress>space ) does not trigger if any modifiers other than those specified by the translation are set, with the result that many user interface components do not react when either Num Lock or when the secondary keyboard group are active. The ignore locks mask and the ignore group locks control make it possible to avoid this behavior without exhaustively grabbing every possible modifier combination. Compatibility Components of Keyboard State The core protocol interpretation of keyboard modifiers does not include direct support for multiple groups, so XKB reports the effective keyboard group to XKB-aware clients using some of the reserved bits in the state field of some core protocol events, as described in Computing A State Field from an XKB State. This modified state field would not be interpreted correctly by XKB-unaware clients, so XKB provides a group compatibility mapping (see Group Compatibility Map) which remaps the keyboard group into a core modifier mask that has similar effects, when possible. XKB maintains three compatibility state components that are used to make non-XKB clients work as well as possible: The compatibility state corresponds to the effective modifier and effective group state. The compatibility lookup state is the core-protocol equivalent of the lookup state. The compatibility grab state is the nearest core-protocol equivalent of the grab state. Compatibility states are essentially the corresponding XKB state, but with keyboard group possibly encoded as one or more modifiers; Group Compatibility Map describes the group compatibility map, which specifies the modifier(s) that correspond to each keyboard group. The compatibility state reported to XKB-unaware clients for any given core protocol event is computed from the modifier state that XKB-capable clients would see for that same event. For example, if the ignore group locks control is set and group 2 is locked, the modifier bound to Mode_switch is not reported in any event except (Device)KeyPress and (Device)KeyRelease events that do not trigger a passive grab. Referring to clients as "XKB-capable is somewhat misleading in this context. The sample implementation of XKB invisibly extends the X library to use the keyboard extension if it is present. This means that most clients can take advantage of all of XKB without modification, but it also means that the XKB state can be reported to clients that have not explicitly requested the keyboard extension. Clients that directly interpret the state field of core protocol events or that interpret the keymap directly may be affected by some of the XKB differences; clients that use library or toolkit routines to interpret keyboard events automatically use all of the XKB features. XKB-aware clients can query the keyboard state at any time or request immediate notification of a change to any of the fundamental or derived components of the keyboard state. kbproto-1.0.7/specs/ch05.xml000064401431060000012000000071271252061122500160610ustar00alancstaff00002660200006 Key Event Processing Overview There are three steps to processing each key event in the X server, and at least three in the client. This section describes each of these steps briefly; the following sections describe each step in more detail. First, the server applies global keyboard controls to determine whether the key event should be processed immediately, deferred, or ignored. For example, the SlowKeys control can cause a key event to be deferred until the slow keys delay has elapsed while the RepeatKeys control can cause multiple X events from a single physical key press if the key is held down for an extended period. The global keyboard controls affect all of the keys on the keyboard and are described in Global Keyboard Controls. Next, the server applies per-key behavior. Per key-behavior can be used to simulate or indicate some special kinds of key behavior. For example, keyboard overlays, in which a key generates an alternate keycode under certain circumstances, can be implemented using per-key behavior. Every key has a single behavior, so the effect of key behavior does not depend on keyboard modifier or group state, though it might depend on global keyboard controls. Per-key behaviors are described in detail in Key Behavior. Finally, the server applies key actions. Logically, every keysym on the keyboard has some action associated with it. The key action tells the server what to do when an event which yields the corresponding keysym is generated. Key actions might change or suppress the event, generate some other event, or change some aspect of the server. Key actions are described in Key Actions. If the global controls, per-key behavior and key action combine to cause a key event, the client which receives the event processes it in several steps. First the client extracts the effective keyboard group and a set of modifiers from the state field of the event. See Computing A State Field from an XKB State for details. Using the modifiers and effective keyboard group, the client selects a symbol from the list of keysyms bound to the key. Determining the KeySym Associated with a Key Event discusses symbol selection. If necessary, the client transforms the symbol and resulting string using any modifiers that are "left over" from the process of looking up a symbol. For example, if the Lock modifier is left over, the resulting keysym is capitalized according to the capitalization rules specified by the system. See Transforming the KeySym Associated with a Key Event for a more detailed discussion of the transformations defined by XKB. Finally, the client uses the keysym and remaining modifiers in an application-specific way. 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limit (for SysV at least) may be exceeded. .NOEXPORT: VE_XSLTPROC_TRUE@ --path "$(XORG_SGML_PATH)/X11" \ @ENABLE_SPECS_TRUE@@HAVE_STYLESHEETS_TRUE@@HAVE_XMLTO_TRUE@@HAVE_XSLTPROC_TRUE@ --path "$(abs_top_builddir)" @ENABLE_SPECS_TRUE@@HAVE_STYLESHEETS_TRUE@@HAVE_XMLTO_TRUE@@HAVE_XSLkbproto-1.0.7/specs/ch14.xml000064401431060000012000000062271252061122500160610ustar00alancstaff00002660200006 Replacing the Keyboard "On-the-Fly" XKB supports the XkbNewKeyboardNotify event, which reports a change in keyboard geometry or the range of supported keycodes. The server can generate an XkbNewKeyboardNotify event when it detects a new keyboard, or in response to an XkbGetKeyboardByName request (see Using the Server’s Database of Keyboard Components) which loads a new keyboard description. When a client opens a connection to the X server, the server reports the minimum and maximum keycodes. If the range of supported keycodes is changed, XKB keeps track of the minimum and maximum keycodes that were reported to each client and filters out any events that fall outside of that range. Note that these events are simply ignored; they are not delivered to some other client. When the server sends an XkbNewKeyboardNotify event to a client to inform it of the new keycode range, XKB resets the stored range of legal keycodes to the keycode range reported in the event. Non-XKB clients and XKB-aware clients that do not request XkbNewKeyboardNotify events never receive events from keys that fall outside of the legal range that XKB maintains for that client. When a client requests XkbNewKeyboardNotify events, the server compares the range of keycodes for the current keyboard to the range of keycodes that are valid for the client. If they are not the same, the server immediately sends that client an XkbNewKeyboardNotify event. Even if the "new" keyboard is not new to the server, it is new to this particular client. In addition to filtering out-of-range key events, XKB: Adjusts core protocol MappingNotify events to refer only to keys that match the stored legal range. Reports keyboard mappings for keys that match the stored legal range to clients that issue a core protocol GetKeyboardMapping request. Reports modifier mappings only for keys that match the stored legal range to clients that issue a core protocol GetModifierMapping request. Restricts the core protocol ChangeKeyboardMapping and SetModifierMapping requests to keys that fall inside the stored legal range. In short, XKB does everything possible to hide the fact that the range of legal keycodes has changed from clients non-XKB clients, which cannot be expected to deal with it. The corresponding XKB events and requests do not pay attention to the legal keycode range in the same way because XKB makes it possible for clients to track changes to the keycode range for a device and respond to them. kbproto-1.0.7/specs/ch13.xml000064401431060000012000000324401252061122500160540ustar00alancstaff00002660200006 The Server Database of Keyboard Components The X server maintains a database of keyboard components and common keyboard mappings. This database contains five kinds of components; when combined, these five components provide a complete description of a keyboard and its behavior. The X Keyboard Extension provides requests to list the contents of this database, to assemble and complete keyboard descriptions by merging the current keyboard description with the contents of this database, or to replace the current keyboard description with a complete keyboard description assembled as described below. Component Names Component and keymap names have the form " class ( member )" where class describes a subset of the available components for a particular type and the optional member identifies a specific component from that subset. For example, the name "atlantis(acme)" might specify the symbols used for the atlantis national keyboard layout by the vendor "acme." Each class has an optional default member — references which specify a class but not a member refer to the default member of the class, if one exists. The class and member names are both specified using characters from the Latin-1 character set. XKB implementations must accept all alphanumeric characters, minus (‘-’) and underscore (‘_’) in class or member names, and must not accept parentheses, plus, vertical bar, percent sign, asterisk, question mark or white space. The use of other characters is implementation-dependent. Partial Components and Combining Multiple Components Some of the elements in the server database contain describe only a piece of the corresponding keyboard component. These partial components should be combined with other components of the same type to be useful. For example, a partial symbols map might describe the differences between a common ASCII keyboard and some national layout. Such a partial map is not useful on its own because it does not include those symbols that are the same on both the ASCII and national layouts (such as function keys). On the other hand, this partial map can configure any ASCII keyboard to use a national layout. Two components can be combined in two ways: If the second component overrides the first, any definitions that are present in both components are taken from the second. If the second component augments the first, any definitions that are present in both components are taken from the first. Applications can use a component expression to combine multiple components of some time into a complete description of some aspect of the keyboard. A component expression is a string which lists the components to be combined separated by operators which specify the rules for combining them. A complete description is assembled from the listed components, left to right, as follows: If the new elements are being merged with an existing map, the special component name ‘%’ refers to the unmodified value of the map. The ‘+’ operator specifies that the next specified component should override the current assembled definition. The ‘|’ operator specifies that the next specified component should augment the currently assembled definition. If the new elements are being merged with an existing map and the component expression begins with an operator, a leading ‘%’ is implied. If any unknown or illegal characters appear anywhere in the string, the entire expression is invalid and is ignored. For example, the component expression "+de" specifies that the default element of the "de" map should be applied to the current keyboard mapping, overriding any existing definitions. A slightly more involved example: the expression "acme(ascii)+de(basic)|iso9995-3" constructs a German (de) mapping for the ASCII keyboard supplied by the "acme" vendor. The new definition begins with the symbols for the default ASCII keyboard for Acme, overrides them with any keys that are defined for the default German keyboard layout and then applies the definitions from the iso9995-3 to any undefined keys or groups of keys (part three of the iso9995 standard defines a common set of bindings for the secondary group, but allows national layouts to override those definitions where necessary). Component Hints Each component has a set of flags that provide some additional hints about that component. XKB provides these hints for clients that present the keyboard database to users and specifies their interpretation only loosely. Clients can use these hints to constrain the list of components or to control the way that components are presented to the user. Hints for a component are reported with its name. The least significant byte of the hints field has the same meaning for all five types of keyboard components, and can contain any combination of the following values: Flag Meaning LC_Hidden Indicates a component that should not normally be presented to the user. LC_Default Indicates a component that is the default member of its class. LC_Partial Indicates a partial component. The interpretation of the most significant byte of the hints field is dependent on the type of component. The hints defined for each kind of component are listed in the section below that describes that kind of component. Keyboard Components The five types of components stored in the server database of keyboard components correspond to the symbols , geometry , keycodes , compat and types symbolic names associated with a keyboard. The Keycodes Component The keycodes component of a keyboard mapping specifies the range and interpretation of the raw keycodes reported by the device. It sets the keycodes symbolic name, the minimum and maximum legal keycodes for the keyboard, and the symbolic name for each key. The keycodes component might also contain aliases for some keys, symbolic names for some indicators, and a description of which indicators are physically present. The special keycodes component named "computed" indicates that XKB should assign unused keycodes to any unknown keys referenced by name by any of the other components. The computed keycodes component is useful primarily when browsing keymaps because it makes it possible to use the symbols and geometry components without having to find a set of keycodes that includes keycode definitions for all of the keys listed in the two components. XKB defines no hints that are specific to the keycodes component. The Types Component The types component of a keyboard mapping specifies the key types that can be associated with the various keyboard keys. It affects the types symbolic name and the list of types associated with the keyboard (see Key Types). The types component of a keyboard mapping can also optionally contain real modifier bindings and symbolic names for one or more virtual modifiers. The special types component named "canonical" always contains the types and definitions listed in Canonical Key Types of this document. XKB defines no hints that are specific to the types component. The Compatibility Map Component The compatibility map component of a keyboard mapping primarily specifies the rules used to assign actions to keysyms. It affects the compat symbolic name, the symbol compatibility map and the group compatibility map. The compat component might also specify maps for some indicators and the real modifier bindings and symbolic names of some virtual modifiers. XKB defines no hints that are specific to the compatibility map component. The Symbols Component The symbols component of a keyboard mapping specifies primarily the symbols bound to each keyboard key. It affects the symbols symbolic name, a key symbol mapping for each key, they keyboard modifier mapping, and the symbolic names for the keyboard symbol groups. Optionally, the symbols component can contain explicit actions and behaviors for some keys, or the real modifier bindings and symbolic names for some virtual modifiers. XKB defines the following additional hints for the symbols component: Flag Meaning LC_AlphanumericKeys Indicates a symbol component that contains bindings primarily for an alphanumeric section of the keyboard. LC_ModifierKeys Indicates a symbol component that contains bindings primarily for modifier keys. LC_KeypadKeys Indicates a symbol component that contains bindings primarily for numeric keypad keys. LC_FunctionKeys Indicates a symbol component that contains bindings primarily for function keys. LC_AlternateGroup Indicates a symbol component that contains bindings for an alternate keyboard group. These hints only apply to partial symbols components; full symbols components are assumed to specify all of the pieces listed above. The alphanumeric, modifier, keypad or function keys hints should describe the primary intent of the component designer and should not simply an exhaustive list of the kinds of keys that are affected. For example, national keyboard layouts affect primarily alphanumeric keys, but many affect a few modifier keys too; such mappings should set only LC_AlphanumericKeys hint. In general, symbol components should set only one of those four flags (though LC_AlternateGroup may be combined with any of the other flags). The Geometry Component The geometry component of a keyboard mapping specifies primarily the geometry of the keyboard. It contains the geometry symbolic name and the keyboard geometry description. The geometry component might also contain aliases for some keys or symbolic names for some indicators and might affect the set of indicators that are physically present. Key aliases defined in the geometry component of a keyboard mapping override those defined in the keycodes component. XKB defines no hints that are specific to the geometry component. Complete Keymaps The X server also reports a set of fully specified keymaps. The keymaps specified in this list are usually assembled from the components stored in the rest of the database and typically represent the most commonly used keymaps for a particular system. XKB defines no hints that are specific to complete keymaps. maltable frame='topbot'>