SQL-Abstract-More-1.37/0000755000000000000000000000000014005072624013242 5ustar rootrootSQL-Abstract-More-1.37/t/0000755000000000000000000000000014005073036013503 5ustar rootrootSQL-Abstract-More-1.37/t/rt_084972.t0000644000000000000000000000235213771712524015167 0ustar rootrootuse strict; use warnings; use Test::More; use Test::Exception; use SQL::Abstract::More; use SQL::Abstract::Test import => ['eq_sql']; use List::MoreUtils qw/any/; plan tests => 2; my $sqla = SQL::Abstract::More->new; my $result = $sqla->join( 'table', { operator => '=>', condition => { '%1$s.table_id' => {-ident => '%2$s.table_id'}, '%2$s.date' => {'>' => {-ident => '%1$s.date'}}, '%2$s.event_id' => 1}}, 'table_log' ); # we don't know the order of conditions generated by SQL::Abstract; # but unfortunately, SQL::Abstract::Test is not clever enough to apply # commutativity on AND, so we have to do it by hand my @conditions = ( 'table_log.date > table.date', 'table.table_id = table_log.table_id', 'table_log.event_id = ?', ); my @possible_SQL = map {"table LEFT OUTER JOIN table_log ON " . join(' AND ', @$_) } permutations(@conditions); ok (any { eq_sql($result->{sql}, $_) } @possible_SQL); is_deeply ($result->{bind}, [1]); sub permutations { return \@_ if @_ < 2; my @result; for my $i (0 .. $#_) { my @tail = @_; my $head = splice(@tail, $i, 1); push @result, map {[$head, @$_ ]} permutations(@tail); } return @result; } SQL-Abstract-More-1.37/t/01-sql_abstract_more.t0000644000000000000000000005450414004617136017626 0ustar rootroot use strict; use warnings; no warnings 'qw'; use SQL::Abstract::More; use Test::More; use SQL::Abstract::Test import => [qw/is_same_sql_bind/]; diag( "Testing SQL::Abstract::More $SQL::Abstract::More::VERSION, " ."extends @SQL::Abstract::More::ISA, Perl $], $^X" ); use constant N_DBI_MOCK_TESTS => 2; my $sqla = SQL::Abstract::More->new; my ($sql, @bind, $join); #---------------------------------------------------------------------- # various forms of select() #---------------------------------------------------------------------- # old API transmitted to parent ($sql, @bind) = $sqla->select('Foo', 'bar', {bar => {">" => 123}}, ['bar']); is_same_sql_bind( $sql, \@bind, "SELECT bar FROM Foo WHERE bar > ? ORDER BY bar", [123], ); # idem, new API ($sql, @bind) = $sqla->select( -columns => [qw/bar/], -from => 'Foo', -where => {bar => {">" => 123}}, -order_by => ['bar'] ); is_same_sql_bind( $sql, \@bind, "SELECT bar FROM Foo WHERE bar > ? ORDER BY bar", [123], ); # -distinct ($sql, @bind) = $sqla->select( -columns => [-DISTINCT => qw/foo bar/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT DISTINCT foo, bar FROM Foo", [], ); # other minus signs ($sql, @bind) = $sqla->select( -columns => [-DISTINCT => -STRAIGHT_JOIN => qw/foo bar/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT DISTINCT STRAIGHT_JOIN foo, bar FROM Foo", [], ); ($sql, @bind) = $sqla->select( -columns => [-SQL_SMALL_RESULT => qw/foo bar/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT SQL_SMALL_RESULT foo, bar FROM Foo", [], ); ($sql, @bind) = $sqla->select( -columns => ["-/*+ FIRST_ROWS (100) */" => qw/foo bar/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT /*+ FIRST_ROWS (100) */ foo, bar FROM Foo", [], ); # -join ($sql, @bind) = $sqla->select( -from => [-join => qw/Foo fk=pk Bar/] ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo INNER JOIN Bar ON Foo.fk=Bar.pk", [], ); # set operators ($sql, @bind) = $sqla->select( -columns => [qw/col1 col2/], -from => 'Foo', -where => {col1 => 123}, -intersect => [ -columns => [qw/col3 col4/], -from => 'Bar', -where => {col3 => 456}, ], ); is_same_sql_bind( $sql, \@bind, "SELECT col1, col2 FROM Foo WHERE col1 = ? " ." INTERSECT SELECT col3, col4 FROM Bar WHERE col3 = ?", [123, 456], ); ($sql, @bind) = $sqla->select( -columns => [qw/col1 col2/], -from => 'Foo', -where => {col1 => 123}, -union_all => [ -where => {col2 => 456}, -union_all => [-columns => [qw/col1 col3/], -where => {col3 => 789}, ], ], -order_by => [qw/col1 col2/], ); is_same_sql_bind( $sql, \@bind, "SELECT col1, col2 FROM Foo WHERE col1 = ? " ." UNION ALL SELECT col1, col2 FROM Foo WHERE col2 = ?" ." UNION ALL SELECT col1, col3 FROM Foo WHERE col3 = ?" ." ORDER BY col1, col2", [123, 456, 789], ); #-order_by ($sql, @bind) = $sqla->select( -from => 'Foo', -order_by => [qw/-foo +bar buz/], ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo ORDER BY foo DESC, bar ASC, buz", [], ); #-group_by / -having ($sql, @bind) = $sqla->select( -columns => [qw/foo SUM(bar)|sum_bar/], -from => 'Foo', -group_by => [qw/foo/], -having => {sum_bar => {">" => 10}}, ); is_same_sql_bind( $sql, \@bind, "SELECT foo, SUM(bar) AS sum_bar FROM Foo GROUP BY foo HAVING sum_bar > ?", [10], ); # NOTE : this test used to be -group_by => [qw/-foo/], generating "GROUP BY foo DESC"; # but this made no sense as SQL. #-limit alone ($sql, @bind) = $sqla->select( -from => 'Foo', -limit => 100 ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo LIMIT ? OFFSET ?", [100, 0], ); ($sql, @bind) = $sqla->select( -from => 'Foo', -limit => 0, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo LIMIT ? OFFSET ?", [0, 0], "limit 0", ); #-limit / -offset ($sql, @bind) = $sqla->select( -from => 'Foo', -limit => 100, -offset => 300, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo LIMIT ? OFFSET ?", [100, 300], ); #-page_size / page_index ($sql, @bind) = $sqla->select( -from => 'Foo', -page_size => 50, -page_index => 2, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo LIMIT ? OFFSET ?", [50, 50], ); # -for ($sql, @bind) = $sqla->select( -from => 'Foo', -for => "UPDATE", ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo FOR UPDATE", [], ); # -want_details my $details = $sqla->select( -columns => [ qw/f.col1|c1 b.col2|c2 /], -from => [-join => qw/Foo|f fk=pk Bar|b /], -want_details => 1, ); is_same_sql_bind( $details->{sql}, $details->{bind}, "SELECT f.col1 AS c1, b.col2 AS c2 FROM Foo AS f INNER JOIN Bar AS b ON f.fk=b.pk", [], ); is_deeply($details->{aliased_tables}, {f => 'Foo', b => 'Bar'}, "aliased tables"); is_deeply($details->{aliased_columns}, {c1 => 'f.col1', c2 => 'b.col2'}, "aliased columns"); # aliasing, do not conflict with "||" operator ($sql, @bind) = $sqla->select( -columns => [qw/A||B C||D|cd (E||F||G)|efg true|false|bool/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT A||B, C||D AS cd, (E||F||G) AS efg, true|false AS bool FROM Foo", [], "aliased cols with '|'" ); ($sql, @bind) = $sqla->select( -columns => [qw/NULL|a1 2|a2 x|a3/], -from => 'Foo', ); is_same_sql_bind( $sql, \@bind, "SELECT NULL AS a1, 2 AS a2, x AS a3 FROM Foo", [], "aliased cols with '|', single char on left-hand side" ); # bind_params with SQL types ($sql, @bind) = $sqla->select( -from => 'Foo', -where => {foo => [{dbd_attrs => {ora_type => 'TEST'}}, 123]}, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo WHERE foo = ?", [ [{dbd_attrs => {ora_type => 'TEST'}}, 123] ], "SQL type with implicit = operator", ); ($sql, @bind) = $sqla->select( -from => 'Foo', -where => {bar => {"<" => [{dbd_attrs => {pg_type => 999}}, 456]}}, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo WHERE bar < ?", [ [{dbd_attrs => {pg_type => 999}}, 456] ], "SQL type with explicit operator", ); ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {x => [{dbd_attrs => {pg_type => 999}}, 456]}, ); is_same_sql_bind( $sql, \@bind, "INSERT INTO Foo(x) VALUES(?)", [ [{dbd_attrs => {pg_type => 999}}, 456] ], "INSERT with SQL type", ); ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {x => [{dbd_attrs => {pg_type => 999}}, 456]}, -where => {bar => 'buz'}, ); is_same_sql_bind( $sql, \@bind, "UPDATE Foo SET x = ? WHERE bar = ?", [ [{dbd_attrs => {pg_type => 999}}, 456], 'buz' ], "UPDATE with SQL type", ); # should not be interpreted as bind_params with SQL types ($sql, @bind) = $sqla->select( -from => 'Foo', -where => {bar => [{"=" => undef}, {"<" => 'foo'}]} ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM Foo WHERE bar IS NULL OR bar < ?", [ 'foo' ], "OR arrayref pair which is not a value/type pair", ); #---------------------------------------------------------------------- # auxiliary methods : test an instance with standard parameters #---------------------------------------------------------------------- ($sql, @bind) = $sqla->column_alias(qw/Foo f/); is_same_sql_bind( $$sql, \@bind, "Foo AS f", [], "column alias", ); ($sql, @bind) = $sqla->column_alias(qw/Foo/); is_same_sql_bind( $sql, \@bind, "Foo", [], "column alias without alias", ); ($sql, @bind) = $sqla->table_alias(qw/Foo f/); is_same_sql_bind( $sql, \@bind, "Foo AS f", [], "table alias", ); ($sql, @bind) = $sqla->limit_offset(123, 456); is_same_sql_bind( $sql, \@bind, "LIMIT ? OFFSET ?", [123, 456], "limit offset", ); $join = $sqla->join(qw[Foo|f =>{fk_A=pk_A,fk_B=pk_B} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo AS f LEFT OUTER JOIN Bar ON f.fk_A = Bar.pk_A AND f.fk_B = Bar.pk_B", [], "join syntax", ); $join = $sqla->join(qw[Foo <=>[A{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.A < Bar.B OR Foo.C < Bar.D", [], "join syntax with OR", ); $join = $sqla->join(qw[Foo == Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo NATURAL JOIN Bar", [], "natural join", ); # try most syntactic constructs $join = $sqla->join(qw[Table1|t1 ab=cd Table2|t2 <=>{ef>gh,ij{t1.mn=op} Table4]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Table1 AS t1 INNER JOIN Table2 AS t2 ON t1.ab=t2.cd INNER JOIN Table3 ON t2.ef>Table3.gh AND t2.ijjoin(qw[Foo >=<{a=b} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo FULL OUTER JOIN Bar ON Foo.a=Bar.b", [], "full outer join", ); # explicit tables in join condition $join = $sqla->join(qw[Table1|t1 t1.ab=t2.cd Table2|t2]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Table1 AS t1 INNER JOIN Table2 AS t2 ON t1.ab=t2.cd", [], "explicit tables in join condition" ); my $merged = $sqla->merge_conditions( {a => 12, b => {">" => 34}}, {b => {"<" => 56}, c => 78}, ); is_deeply($merged, {a => 12, b => [-and => {">" => 34}, {"<" => 56}], c => 78}); #---------------------------------------------------------------------- # test a customized instance #---------------------------------------------------------------------- $sqla = SQL::Abstract::More->new(table_alias => '%1$s %2$s', limit_offset => "LimitXY", sql_dialect => "MsAccess"); $join = $sqla->join(qw[Foo|f =>{fk_A=pk_A,fk_B=pk_B} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo f LEFT OUTER JOIN (Bar) ON f.fk_A = Bar.pk_A AND f.fk_B = Bar.pk_B", [], ); ($sql, @bind) = $sqla->limit_offset(123, 456); is_same_sql_bind( $sql, \@bind, "LIMIT ?, ?", [456, 123] ); ok($sqla->join_assoc_right, "join_assoc_right is true"); $sqla = SQL::Abstract::More->new(sql_dialect => 'Oracle'); ($sql, @bind) = $sqla->select( -columns => [qw/col1|c1 col2|c2/], -from => [-join => qw/Foo|f fk=pk Bar|b/], ); is_same_sql_bind( $sql, \@bind, "SELECT col1 c1, col2 c2 FROM Foo f INNER JOIN Bar b ON f.fk=b.pk", [] ); ($sql, @bind) = $sqla->select( -from => 'Foo', -limit => 10, -offset => 5, ); is_same_sql_bind( $sql, \@bind, "SELECT * FROM (SELECT subq_A.*, ROWNUM rownum__index FROM (SELECT * FROM Foo) subq_A WHERE ROWNUM <= ?) subq_B WHERE rownum__index >= ?", [15, 6], ); #---------------------------------------------------------------------- # method redefinition #---------------------------------------------------------------------- $sqla = SQL::Abstract::More->new( limit_offset => sub { my ($self, $limit, $offset) = @_; defined $limit or die "NO LIMIT!"; $offset ||= 0; my $last = $offset + $limit; return ("ROWS ? TO ?", $offset, $last); # ($sql, @bind) }); ($sql, @bind) = $sqla->limit_offset(123, 456); is_same_sql_bind( $sql, \@bind, "ROWS ? TO ?", [456, 579] ); #---------------------------------------------------------------------- # max_members_IN #---------------------------------------------------------------------- $sqla = SQL::Abstract::More->new( max_members_IN => 10 ); my @vals = (1 .. 35); ($sql, @bind) = $sqla->where({foo => {-in => \@vals}}); is_same_sql_bind( $sql, \@bind, ' WHERE ( ( foo IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' OR foo IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' OR foo IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' OR foo IN ( ?, ?, ?, ?, ?) ) )', [1 .. 35] ); ($sql, @bind) = $sqla->where({foo => {-not_in => \@vals}}); is_same_sql_bind( $sql, \@bind, ' WHERE ( ( foo NOT IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' AND foo NOT IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' AND foo NOT IN ( ?, ?, ?, ?, ?, ?, ?, ?, ?, ? ) ' . ' AND foo NOT IN ( ?, ?, ?, ?, ?) ) )', [1 .. 35] ); $sqla = SQL::Abstract::More->new( max_members_IN => 3 ); ($sql, @bind) = $sqla->where({foo => {-in => [1 .. 5]}, bar => {-not_in => [6 .. 10]}}); is_same_sql_bind( $sql, \@bind, ' WHERE ( ( bar NOT IN ( ?, ?, ? ) AND bar NOT IN ( ?, ? ) )' . ' AND ( foo IN ( ?, ?, ? ) OR foo IN ( ?, ? ) ) )', [6 .. 10, 1 .. 5] ); # test old API : passing a plain scalar value to -in ($sql, @bind) = $sqla->where({foo => {-in => 123}}); is_same_sql_bind( $sql, \@bind, ' WHERE ( foo IN (?) )', [123], ); #---------------------------------------------------------------------- # -in with objects #---------------------------------------------------------------------- my $vals = bless [1, 2], 'Array::PseudoScalar'; # doesn't matter if not loaded ($sql, @bind) = $sqla->where({foo => {-in => $vals}, bar => {-not_in => $vals}}); is_same_sql_bind( $sql, \@bind, ' WHERE ( bar NOT IN ( ?, ? ) AND foo IN ( ?, ? ) )', [1, 2, 1, 2], ); #---------------------------------------------------------------------- # select_implicitly_for #---------------------------------------------------------------------- my $sqla_RO = SQL::Abstract::More->new( select_implicitly_for => 'READ ONLY', ); ($sql, @bind) = $sqla_RO->select(-from => 'Foo'); is_same_sql_bind( $sql, \@bind, 'SELECT * FROM FOO FOR READ ONLY', [], "select_implicitly_for - basic", ); ($sql, @bind) = $sqla_RO->select(-from => 'Foo', -for => 'UPDATE'); is_same_sql_bind( $sql, \@bind, 'SELECT * FROM FOO FOR UPDATE', [], "select_implicitly_for - override", ); ($sql, @bind) = $sqla_RO->select(-from => 'Foo', -for => undef); is_same_sql_bind( $sql, \@bind, 'SELECT * FROM FOO', [], "select_implicitly_for - disable", ); #---------------------------------------------------------------------- # insert #---------------------------------------------------------------------- # usual, hashref syntax ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {foo => 1, bar => 2}, ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(bar, foo) VALUES (?, ?)', [2, 1], "insert - hashref", ); # arrayref syntax ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => [1, 2], ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo VALUES (?, ?)', [1, 2], "insert - arrayref", ); # insert .. select ($sql, @bind) = $sqla->insert( -into => 'Foo', -columns => [qw/a b/], -select => {-from => 'Bar', -columns => [qw/x y/]}, ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(a, b) SELECT x, y FROM Bar', [], "insert .. select", ); # old API ($sql, @bind) = $sqla->insert('Foo', {foo => 1, bar => 2}); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(bar, foo) VALUES (?, ?)', [2, 1], ); ($sql, @bind) = eval {$sqla->insert(-foo => 3); }; ok($@, 'unknown arg to insert()'); # add_sql ($sql, @bind) = $sqla->insert( -into => 'Foo', -add_sql => 'IGNORE', # MySQL syntax -values => {foo => 1, bar => 2}, ); is_same_sql_bind( $sql, \@bind, 'INSERT IGNORE INTO Foo(bar, foo) VALUES (?, ?)', [2, 1], ); ($sql, @bind) = $sqla->insert( -into => 'Foo', -add_sql => 'OR IGNORE', # SQLite syntax -values => {foo => 1, bar => 2}, ); is_same_sql_bind( $sql, \@bind, 'INSERT OR IGNORE INTO Foo(bar, foo) VALUES (?, ?)', [2, 1], ); # returning ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {foo => 1, bar => 2}, -returning => 'key', ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(bar, foo) VALUES (?, ?) RETURNING key', [2, 1], ); ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {foo => 1, bar => 2}, -returning => [qw/k1 k2/], ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(bar, foo) VALUES (?, ?) RETURNING k1, k2', [2, 1], ); ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {foo => 1, bar => 2}, -returning => {k1 => \my $k1, k2 => \my $k2}, ); is_same_sql_bind( $sql, \@bind, 'INSERT INTO Foo(bar, foo) VALUES (?, ?) RETURNING k1, k2 INTO ?, ?', [2, 1, \$k2, \$k1], ); # bind_params SKIP: { eval "use DBD::Mock 1.48; 1" or skip "DBD::Mock 1.48 does not seem to be installed", N_DBI_MOCK_TESTS; my $dbh = DBI->connect('DBI:Mock:', '', '', {RaiseError => 1}); my $sth = $dbh->prepare($sql); $sqla->bind_params($sth, @bind); my $mock_params = $sth->{mock_params}; is_deeply($sth->{mock_params}, [2, 1, \$k2, \$k1], "bind_param_inout"); # test 3-args form of bind_param $sth = $dbh->prepare('INSERT INTO Foo(bar, foo) VALUES (?, ?)'); @bind= ([{dbd_attrs => {pg_type => 99}}, 123], [{dbd_attrs => {ora_type => 88}}, 456]); $sqla->bind_params($sth, @bind); is_deeply($sth->{mock_params}, [map {$_->[1]} @bind], 'bind_param($val, \%type) - values'); is_deeply($sth->{mock_param_attrs}, [map {$_->[0]{dbd_attrs}} @bind], 'bind_param($val, \%type) - attrs'); } #---------------------------------------------------------------------- # update #---------------------------------------------------------------------- # complete syntax ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1, bar => 2}, -where => {buz => 3}, ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET bar = ?, foo = ? WHERE buz = ?', [2, 1, 3], ); # without where ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1, bar => 2}, ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET bar = ?, foo = ?', [2, 1], ); # old API ($sql, @bind) = $sqla->update('Foo', {foo => 1, bar => 2}, {buz => 3}); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET bar = ?, foo = ? WHERE buz = ?', [2, 1, 3], ); # MySQL supports -limit and -order_by in updates ! # see http://dev.mysql.com/doc/refman/5.6/en/update.html ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1, bar => 2}, -where => {buz => 3}, -order_by => 'baz', -limit => 10, ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET bar = ?, foo = ? WHERE buz = ? ORDER BY baz LIMIT ?', [2, 1, 3, 10], "update with -order_by/-limit", ); ($sql, @bind) = $sqla->update( -table => [-join => qw/Foo fk=pk Bar/], -set => {foo => 1, bar => 2}, ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo INNER JOIN Bar ON Foo.fk=Bar.pk SET bar = ?, foo = ?', [2, 1], ); # returning ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1}, -returning => 'key', ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET foo = ? RETURNING key', [1], 'update returning (scalar)', ); ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1}, -returning => [qw/k1 k2/], ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET foo = ? RETURNING k1, k2', [1], 'update returning (arrayref)', ); ($sql, @bind) = $sqla->update( -table => 'Foo', -set => {foo => 1}, -returning => {k1 => \my $kupd1, k2 => \my $kupd2}, ); is_same_sql_bind( $sql, \@bind, 'UPDATE Foo SET foo = ? RETURNING k1, k2 INTO ?, ?', [1, \$kupd1, \$kupd2], 'update returning (hashref)', ); # additional keywords ($sql, @bind) = $sqla->update( -add_sql => 'IGNORE', # MySQL syntax -table => 'Foo', -set => {foo => 1}, ); is_same_sql_bind( $sql, \@bind, 'UPDATE IGNORE Foo SET foo = ?', [1], 'update IGNORE', ); #---------------------------------------------------------------------- # delete #---------------------------------------------------------------------- # complete syntax ($sql, @bind) = $sqla->delete( -from => 'Foo', -where => {buz => 3}, ); is_same_sql_bind( $sql, \@bind, 'DELETE FROM Foo WHERE buz = ?', [3], ); # old API ($sql, @bind) = $sqla->delete('Foo', {buz => 3}); is_same_sql_bind( $sql, \@bind, 'DELETE FROM Foo WHERE buz = ?', [3], ); # MySQL supports -limit and -order_by in deletes ! # see http://dev.mysql.com/doc/refman/5.6/en/delete.html ($sql, @bind) = $sqla->delete( -from => 'Foo', -where => {buz => 3}, -order_by => 'baz', -limit => 10, ); is_same_sql_bind( $sql, \@bind, 'DELETE FROM Foo WHERE buz = ? ORDER BY baz LIMIT ?', [3, 10], "delete with -order_by/-limit", ); # additional keywords ($sql, @bind) = $sqla->delete( -from => 'Foo', -where => {buz => 3}, -add_sql => 'IGNORE', # MySQL syntax ); is_same_sql_bind( $sql, \@bind, 'DELETE IGNORE FROM Foo WHERE buz = ?', [3], 'delete IGNORE', ); #---------------------------------------------------------------------- # quote #---------------------------------------------------------------------- $sqla = SQL::Abstract::More->new({ quote_char => q{"}, name_sep => q{.} }); ($sql, @bind) = $sqla->select( -from => [ -join => qw( t1|left id=t1_id t2|link =>{t3_id=id} t3|right ) ], -columns => [ qw( left.id|left_id max("right"."id")|max_right_id ) ] ); is_same_sql_bind( $sql, \@bind, 'SELECT "left"."id" AS "left_id", max("right"."id") AS "max_right_id" ' . 'FROM "t1" AS "left" ' . 'INNER JOIN "t2" AS "link" ON ("left"."id" = "link"."t1_id")' . 'LEFT OUTER JOIN "t3" AS "right" ON ("link"."t3_id" = "right"."id")', [], ); #---------------------------------------------------------------------- # THE END #---------------------------------------------------------------------- done_testing(); SQL-Abstract-More-1.37/t/02-order-by.t0000644000000000000000000001051213771712523015643 0ustar rootrootuse strict; use warnings; use Test::More; use Test::Exception; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; # This test code is just copied from SQLA, in order to check if all # edge cases are still compatible. my @cases = ( { given => \'colA DESC', expects => ' ORDER BY colA DESC', expects_quoted => ' ORDER BY colA DESC', }, { given => 'colA', expects => ' ORDER BY colA', expects_quoted => ' ORDER BY `colA`', }, { # it may look odd, but this is the desired behaviour (mst) given => 'colA DESC', expects => ' ORDER BY colA DESC', expects_quoted => ' ORDER BY `colA DESC`', }, { given => [qw/colA colB/], expects => ' ORDER BY colA, colB', expects_quoted => ' ORDER BY `colA`, `colB`', }, { # it may look odd, but this is the desired behaviour (mst) given => ['colA ASC', 'colB DESC'], expects => ' ORDER BY colA ASC, colB DESC', expects_quoted => ' ORDER BY `colA ASC`, `colB DESC`', }, { given => {-asc => 'colA'}, expects => ' ORDER BY colA ASC', expects_quoted => ' ORDER BY `colA` ASC', }, { given => {-desc => 'colB'}, expects => ' ORDER BY colB DESC', expects_quoted => ' ORDER BY `colB` DESC', }, { given => [{-asc => 'colA'}, {-desc => 'colB'}], expects => ' ORDER BY colA ASC, colB DESC', expects_quoted => ' ORDER BY `colA` ASC, `colB` DESC', }, { given => ['colA', {-desc => 'colB'}], expects => ' ORDER BY colA, colB DESC', expects_quoted => ' ORDER BY `colA`, `colB` DESC', }, { given => undef, expects => '', expects_quoted => '', }, { given => [{-desc => [ qw/colA colB/ ] }], expects => ' ORDER BY colA DESC, colB DESC', expects_quoted => ' ORDER BY `colA` DESC, `colB` DESC', }, { given => [{-desc => [ qw/colA colB/ ] }, {-asc => 'colC'}], expects => ' ORDER BY colA DESC, colB DESC, colC ASC', expects_quoted => ' ORDER BY `colA` DESC, `colB` DESC, `colC` ASC', }, { given => [{-desc => [ qw/colA colB/ ] }, {-asc => [ qw/colC colD/ ] }], expects => ' ORDER BY colA DESC, colB DESC, colC ASC, colD ASC', expects_quoted => ' ORDER BY `colA` DESC, `colB` DESC, `colC` ASC, `colD` ASC', }, { given => [{-desc => [ qw/colA colB/ ] }, {-desc => 'colC' }], expects => ' ORDER BY colA DESC, colB DESC, colC DESC', expects_quoted => ' ORDER BY `colA` DESC, `colB` DESC, `colC` DESC', }, { given => [{ -asc => 'colA' }, { -desc => [qw/colB/] }, { -asc => [qw/colC colD/] }], expects => ' ORDER BY colA ASC, colB DESC, colC ASC, colD ASC', expects_quoted => ' ORDER BY `colA` ASC, `colB` DESC, `colC` ASC, `colD` ASC', }, { given => { -desc => \['colA LIKE ?', 'test'] }, expects => ' ORDER BY colA LIKE ? DESC', expects_quoted => ' ORDER BY colA LIKE ? DESC', bind => ['test'], }, { given => \['colA LIKE ? DESC', 'test'], expects => ' ORDER BY colA LIKE ? DESC', expects_quoted => ' ORDER BY colA LIKE ? DESC', bind => ['test'], }, { given => [ { -asc => \['colA'] }, { -desc => \['colB LIKE ?', 'test'] }, { -asc => \['colC LIKE ?', 'tost'] }], expects => ' ORDER BY colA ASC, colB LIKE ? DESC, colC LIKE ? ASC', expects_quoted => ' ORDER BY colA ASC, colB LIKE ? DESC, colC LIKE ? ASC', bind => [qw/test tost/], }, { given => [qw(-colA +colB)], expects => ' ORDER BY colA DESC, colB ASC', expects_quoted => ' ORDER BY `colA` DESC, `colB` ASC', }, ); plan tests => (scalar(@cases) * 2) + 2; my $sql = SQL::Abstract::More->new; my $sqlq = SQL::Abstract::More->new(quote_char => '`', name_sep => '.'); for my $case( @cases) { my ($stat, @bind); ($stat, @bind) = $sql->_order_by($case->{given}); is_same_sql_bind ( $stat, \@bind, $case->{expects}, $case->{bind} || [], ); ($stat, @bind) = $sqlq->_order_by($case->{given}); is_same_sql_bind ( $stat, \@bind, $case->{expects_quoted}, $case->{bind} || [], ); } throws_ok ( sub { $sql->_order_by({-desc => 'colA', -asc => 'colB' }) }, qr/hash passed .+ must have exactly one key/, 'Undeterministic order exception', ); throws_ok ( sub { $sql->_order_by({-desc => [ qw/colA colB/ ], -asc => [ qw/colC colD/ ] }) }, qr/hash passed .+ must have exactly one key/, 'Undeterministic order exception', ); SQL-Abstract-More-1.37/t/classic/0000755000000000000000000000000014005073036015124 5ustar rootrootSQL-Abstract-More-1.37/t/classic/parent_classic.t0000644000000000000000000000114514004471712020306 0ustar rootrootuse strict; use warnings; use Test::More; use FindBin; use TAP::Harness; SKIP: { eval "use SQL::Abstract::Classic; 1" or skip "SQL::Abstract::Classic is not installed on this system"; open my $fh, ">", \my $tap_output; my $harness = TAP::Harness->new({ stdout => $fh}); $ENV{SQL_ABSTRACT_MORE_EXTENDS} = 'Classic'; undef $ENV{SQLA_SRC_DIR}; diag "Running the test suite with option -extends => 'Classic'"; my @tests = glob "$FindBin::Bin/../*.t"; my $aggr = $harness->runtests(@tests); diag $tap_output; ok $aggr->all_passed, "tests against -extends => 'Classic'"; } done_testing; SQL-Abstract-More-1.37/t/03-join_with_constants.t0000644000000000000000000000223713771712524020215 0ustar rootrootuse strict; use warnings; no warnings qw/qw/; use Test::More; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; plan tests => 5; my $sqla = SQL::Abstract::More->new; my ($sql, @bind, $join); $join = $sqla->join(qw[Foo {fk_A=pk_A,B<'toto',C='123'} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.B < ? AND Foo.C = ? AND Foo.fk_A = Bar.pk_A", ['toto', 123], ); $join = $sqla->join(qw[Foo {fk_A=pk_A,B<'to''to'''} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.B < ? AND Foo.fk_A = Bar.pk_A", ["to'to'"], ); $join = $sqla->join(qw[Foo {fk_A=pk_A,B<'to{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.B < ? AND Foo.fk_A = Bar.pk_A", ['tojoin(qw[Foo {fk_A=pk_A,B<'to,to'} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.B < ? AND Foo.fk_A = Bar.pk_A", ['to,to'], ); $join = $sqla->join(qw[Foo {fk_A=pk_A,B<'to{[}]to'} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar ON Foo.B < ? AND Foo.fk_A = Bar.pk_A", ['to{[}]to'], ); SQL-Abstract-More-1.37/t/05-join-with-using.t0000644000000000000000000000240213771712524017156 0ustar rootrootuse strict; use warnings; no warnings qw/qw/; use Test::More; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; my $sqla = SQL::Abstract::More->new; my $join; # basic join $join = $sqla->join(qw[Foo {A} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar USING (A)", [], "basic", ); # condition on two columns $join = $sqla->join(qw[Foo {A,B} Bar]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar USING (A,B)", [], "cond on 2 cols", ); # several tables $join = $sqla->join(qw[Foo {A} Bar {B} Buz]); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo INNER JOIN Bar USING (A) INNER JOIN Buz USING (B)", [], "several tables", ); $join = $sqla->join('Foo', {operator => '=>', using => [qw/A B/]}, 'Bar'); is_same_sql_bind( $join->{sql}, $join->{bind}, "Foo LEFT OUTER JOIN Bar USING (A, B)", [], "structured join spec", ); eval { $join = $sqla->join('Foo', {operator => '=>', using => [qw/A/], condition => {"Foo.A" => {-ident => "Bar.A"}}}, 'Bar'); }; my $err = $@; like $err, qr/both.*condition.*using/, "proper error message"; done_testing; SQL-Abstract-More-1.37/t/rt_086895.t0000644000000000000000000000170612760053467015200 0ustar rootrootuse strict; use warnings; use Test::More; use Test::Exception; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; plan tests => 2; my $sqla = SQL::Abstract::More->new(); my ($sql,@bind) = $sqla->select( -from => 't2', -where => {col => {-in => \[$sqla->select( -columns => 'some_key', -from => 't1', -order_by => 'foo', )]}}, -group_by => 'bar', ); is_same_sql_bind ( $sql, \@bind, 'SELECT * FROM t2 WHERE ( col IN ( SELECT some_key FROM t1 ORDER BY foo ) ) ' . 'GROUP BY bar', [], ); ($sql,@bind) = $sqla->select( -from => 't2', -where => {col => {-in => \[$sqla->select( -columns => 'some_key', -from => 't1', -order_by => 'foo', )]}}, -group_by => 'bar', -order_by => 'buz', ); is_same_sql_bind ( $sql, \@bind, 'SELECT * FROM t2 WHERE ( col IN ( SELECT some_key FROM t1 ORDER BY foo ) ) ' . 'GROUP BY bar ORDER BY buz', [], ); SQL-Abstract-More-1.37/t/rt_099455.t0000644000000000000000000000105312760053467015167 0ustar rootrootuse strict; use warnings; use Test::More; use Test::Exception; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; # GOAL : spaces before the column spec or after the alias name will be ignored plan tests => 1; my $sqla = SQL::Abstract::More->new(); my ($sql,@bind) = $sqla->select( -from => 'foo', -columns => q[ concat_ws( ' ', t2.first_name,t2.last_name )|assigned_by_long ], ); is_same_sql_bind ( $sql, \@bind, q[SELECT concat_ws( ' ', t2.first_name,t2.last_name ) AS assigned_by_long FROM foo], [], ); SQL-Abstract-More-1.37/t/07-import.t0000644000000000000000000000124214004424675015435 0ustar rootrootuse strict; use warnings; use Test::More; use SQL::Abstract::Test import => [qw/is_same_sql_bind/]; delete $ENV{SQL_ABSTRACT_MORE_EXTENDS}; { my $use = eval "use SQL::Abstract::More -extends => 'SQL::Abstract'; 1"; ok $use, "use SQLAM -extends => SQLA"; } { my $use = eval "use SQL::Abstract::More -extends => 'SQL::Abstract'; 1"; ok $use, "use SQLAM -extends => SQLA -- 2nd invocation" ; } { my $use = eval "use SQL::Abstract::More; 1"; ok $use, "use SQLAM -- no -extends" ; } { my $use = eval "use SQL::Abstract::More -extends => 'Classic'; 1"; (my $err = $@) =~ s/ at .*//; ok !$use, "use SQLAM -extends => 'Classic' : denied : $err"; } done_testing; SQL-Abstract-More-1.37/t/04-multicols_in.t0000644000000000000000000000413613771712524016631 0ustar rootrootuse strict; use warnings; no warnings qw/qw/; use Test::More; use SQL::Abstract::More; use SQL::Abstract::Test import => ['is_same_sql_bind']; my ($sql, @bind); # test multicols with SQL support my $sqla = SQL::Abstract::More->new( # multicols_sep => '/', multicols_sep => qr[\s*/\s*], has_multicols_in_SQL => 1, ); ($sql, @bind) = $sqla->where({ one_col => 999, "foo/bar" => {-in => ["1/a", "2/b"]}, "x/y/z" => {-not_in => ["X/Y/Z"]}, }); my @expected = ("WHERE (foo, bar) IN ((?, ?), (?, ?)) " ."AND one_col = ? " ."AND (x, y, z) NOT IN ((?, ?, ?))", [qw/1 a 2 b 999 X Y Z/]); is_same_sql_bind($sql, \@bind, @expected); # same test, but with values passed as arrayrefs ($sql, @bind) = $sqla->where({ one_col => 999, "foo/bar" => {-in => [[1, "a"], [2, "b"]]}, "x/y/z" => {-not_in => [[qw/X Y Z/]]}, }); is_same_sql_bind($sql, \@bind, @expected); # right-hand side as a subquery ($sql, @bind) = $sqla->where({ one_col => 999, "foo/bar" => {-in => \"SELECT (a, b) FROM FOOBAR"}, }); is_same_sql_bind($sql, \@bind, "WHERE (foo, bar) IN (SELECT (a, b) FROM FOOBAR)" ."AND one_col = ? ", [999]); # right-hand side as a subquery with bind values ($sql, @bind) = $sqla->where({ one_col => 999, "foo/bar" => {-in => \["SELECT (a, b) FROM FOOBAR WHERE a > ?", 1234]}, }); is_same_sql_bind($sql, \@bind, "WHERE (foo, bar) IN (SELECT (a, b) FROM FOOBAR WHERE a > ?)" ."AND one_col = ? ", [1234, 999]); # test multicols without SQL support $sqla = SQL::Abstract::More->new( # multicols_sep => '/', multicols_sep => qr[\s*/\s*], has_multicols_in_SQL => 0, ); ($sql, @bind) = $sqla->where({ one_col => 999, "foo/bar" => {-in => ["1/a", "2/b"]}, "x/y/z" => {-not_in => ["X/Y/Z"]}, }); is_same_sql_bind( $sql, \@bind, "WHERE ((foo = ? AND bar = ?) OR (foo = ? AND bar = ?)) " ."AND one_col = ? " ."AND NOT (x = ? AND y = ? AND z = ?)", [qw/1 a 2 b 999 X Y Z/], ); done_testing(); SQL-Abstract-More-1.37/t/99_sqla_tests.t0000644000000000000000000000161514004105713016373 0ustar rootrootuse strict; use warnings; use Test::More; use FindBin; use TAP::Harness; plan tests => 1; SKIP: { $ENV{SQLA_SRC_DIR} or do { my $msg = 'define $ENV{SQLA_SRC_DIR} to run these tests'; diag $msg; skip $msg, 1; }; open my $fh, ">", \my $tap_output; # all regular SQL::Abstract tests will be run, but through the source filter # "UsurpSQLA" which is located in this t/lib directory. That filter replaces # SQL::Abstract by SQL::Abstract::More in the source code. my $harness = TAP::Harness->new({ lib => ["$ENV{SQLA_SRC_DIR}/lib", "$FindBin::Bin/lib", @INC], switches => ["-MUsurpSQLA"], stdout => $fh, }); my @tests = glob "$ENV{SQLA_SRC_DIR}/t/*.t $ENV{SQLA_SRC_DIR}/t/*/*.t"; diag "Running the whole SQLA test suite through SQLAM.."; my $aggr = $harness->runtests(@tests); diag $tap_output; ok $aggr->all_passed, "SQLA tests against SQLAM"; } SQL-Abstract-More-1.37/t/lib/0000755000000000000000000000000014005073036014251 5ustar rootrootSQL-Abstract-More-1.37/t/lib/UsurpSQLA.pm0000644000000000000000000000031012760053467016414 0ustar rootrootpackage UsurpSQLA; # This is a source filter that replaces SQL::Abstract by # SQL::Abstract::More in the source code. use Filter::Simple sub {s/SQL::Abstract(;|->)/SQL::Abstract::More$1/g;}; 1; SQL-Abstract-More-1.37/t/06_with_table_expression.t0000644000000000000000000001601014003155457020602 0ustar rootrootuse strict; use warnings; no warnings 'qw'; use SQL::Abstract::More; use Test::More; use SQL::Abstract::Test import => [qw/is_same_sql_bind/]; my $sqla = SQL::Abstract::More->new; my ($sql, @bind, $join); # NOTE: test cases below are inspired from the SQLite documentation for WITH clauses : # https://sqlite.org/lang_with.html # simple graph retrieval ($sql, @bind) = $sqla->with_recursive( -table => 'nodes', -columns => [qw/x/], -as_select => {-from => 'DUAL', -columns => [qw/59/], -union_all => [-from => [-join => qw/edge {bb=x} nodes/], -columns => [qw/aa/], ], }, )->select( -columns => 'x', -from => 'nodes', ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) SELECT x FROM nodes}, [], "1-branch graph retrieval", ); # graph retrieval with 2 branches ($sql, @bind) = $sqla->with_recursive( -table => 'nodes', -columns => [qw/x/], -as_select => {-from => 'DUAL', -columns => [qw/59/], -union_all => [-from => [-join => qw/edge {bb=x} nodes/], -columns => [qw/aa/], -union_all => [-from => [-join => qw/edge {aa=x} nodes/], -columns => [qw/bb/]], ], }, )->select( -columns => 'x', -from => 'nodes', ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x UNION ALL SELECT bb FROM edge INNER JOIN nodes ON edge.aa=nodes.x) SELECT x FROM nodes}, [], "2-branch graph retrieval", ); # several table expressions in the same WITH statement ($sql, @bind) = $sqla->with_recursive( [ -table => 'parent_of', -columns => [qw/name parent/], -as_select => {-columns => [qw/name mom/], -from => 'family', -where => {age => {'>' => 16.1}}, -union => [-columns => [qw/name dad/], -where => {age => {'>' => 16.2}}, -from => 'family']}, ], [ -table => 'ancestor_of_alice', -columns => [qw/name/], -as_select => {-columns => [qw/parent/], -from => 'parent_of', -where => {name => 'Alice'}, -union_all => [-columns => [qw/parent/], -from => [qw/-join parent_of {name} ancestor_of_alice/]], }, ], )->select( -columns => 'family.name', -from => [qw/-join ancestor_of_alice {name} family/], -where => {died => undef}, -order_by => 'born', ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE parent_of(name, parent) AS (SELECT name, mom FROM family WHERE age > ? UNION SELECT name, dad FROM family WHERE age > ?), ancestor_of_alice(name) AS (SELECT parent FROM parent_of WHERE name = ? UNION ALL SELECT parent FROM parent_of INNER JOIN ancestor_of_alice USING(name)) SELECT family.name FROM ancestor_of_alice INNER JOIN family USING(name) WHERE died IS NULL ORDER BY born}, [16.1, 16.2, 'Alice'], "several CTEs in the same WITH clause", ); # auxiliary data for insert / update / delete my $sqla2 = $sqla->with_recursive( -table => 'nodes', -columns => [qw/x/], -as_select => {-from => 'DUAL', -columns => [qw/59/], -union_all => [-from => [-join => qw/edge {bb=x} nodes/], -columns => [qw/aa/], ], }, ); # insert ($sql, @bind) = $sqla2->insert( -into => "edge", -columns => ['aa'], -select => {-columns => 'x', -from => "nodes"}, ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) INSERT INTO edge(aa) SELECT x FROM nodes}, [], "insert", ); # update my @subquery = $sqla->select(-columns => 'x', -from => "nodes"); ($sql, @bind) = $sqla2->update( -table => "edge", -set => {foo => "bar"}, -where => {aa => {-in => \\@subquery}} ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) UPDATE edge SET foo = ? WHERE aa IN (SELECT x FROM nodes)}, ["bar"], "update", ); # delete ($sql, @bind) = $sqla2->delete( -from => "edge", -where => {aa => {-in => \\@subquery}} ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) DELETE FROM edge WHERE aa IN (SELECT x FROM nodes)}, [], "delete", ); # -final_clause -- example with an Oracle CYCLE clause ($sql, @bind) = $sqla->with_recursive( -table => 'nodes', -columns => [qw/x/], -as_select => {-from => 'DUAL', -columns => [qw/59/], -union_all => [-from => [-join => qw/edge {bb=x} nodes/], -columns => [qw/aa/], ], }, -final_clause => "CYCLE x SET is_cycle TO '1' DEFAULT '0'", )->select( -columns => 'x', -from => 'nodes', ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) CYCLE x SET is_cycle TO '1' DEFAULT '0' SELECT x FROM nodes}, [], "-final_clause", ); # disable WITH in subqueries -- UNION ($sql, @bind) = $sqla2->select( -columns => [qw/a b/], -from => "Foo", -union => [-columns => [qw/c d/], -from => 'Bar'] ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) SELECT a, b FROM Foo UNION SELECT c, d FROM Bar}, [], "subquery - union" ); # disable WITH in subqueries -- GROUP BY ($sql, @bind) = $sqla2->select( -columns => [qw/a count(*)/], -from => "Foo", -group_by => "a", -having => {"count(*)" => {">" => 1}}, ); is_same_sql_bind( $sql, \@bind, q{WITH RECURSIVE nodes(x) AS ( SELECT 59 FROM DUAL UNION ALL SELECT aa FROM edge INNER JOIN nodes ON edge.bb=nodes.x) SELECT a, count(*) FROM Foo GROUP BY a HAVING count(*) > ?}, [1], "subquery - group by" ); done_testing(); SQL-Abstract-More-1.37/xt/0000755000000000000000000000000014005072624013675 5ustar rootrootSQL-Abstract-More-1.37/xt/pod.t0000644000000000000000000000035012760053467014654 0ustar rootroot#!perl -T use strict; use warnings; use Test::More; # Ensure a recent version of Test::Pod my $min_tp = 1.22; eval "use Test::Pod $min_tp"; plan skip_all => "Test::Pod $min_tp required for testing POD" if $@; all_pod_files_ok(); SQL-Abstract-More-1.37/Changes0000644000000000000000000001172114005072415014535 0ustar rootrootRevision history for SQL-Abstract-More 1.37 29.01.2021 - avoid defined-or operator (//), not admitted in perl 5.8 1.36 28.01.2021 - fix inheritance bug with SQL::Abstract v2.0 (RT#134151) - can inherit from SQL::Abstract::Classic through '-extends' arg to import() 1.35 24.01.2021 - new arg -final_clause for with() - temporary fix for RT#134127 -- wait for resolution of RT#134128 1.34 01.01.2021 - support for common table expressions (WITH RECURSIVE) - support for -add_sql parameter in insert/update/delete (additional SQL keywords) - support for insert(-select => ..) - internals : - rearrange update() because the parent method was refactored in SQLA 1.85 - report errors through puke/belch instead of croak/carp - fixed tests for bind_params() -- no longer necessary to monkey patch DBD::Mock, and the old tests were plainly wrong ! 1.33 14.01.2018 - removed the option introduced in 1.32, replaced by new syntax for "USING" 1.32 08.01.2018 - new option "join_with_USING" 1.31 12.12.2017 - align _insert_values / _insert_value on new parent SQLA architecture - does() also handles overloaded SCALAR and CODE dereferencing and is visible by external modules 1.30 29.10.2017 - fix typo in dependency on SQL::Abstract (require v1.84, not 1.74) 1.29 28.10.2017 - syntax >=< for full outer joins - support for joins in update() (rouzier++) - support for -returning arg in update() - Respect +- prefixes for update and delete and allow binds for select order by (rouzier++) 1.28 05.07.2016 - support for quoting table and column names - fix warning 'redundant' appeared in perl 5.22 1.27 06.04.2015 - added support for IN clauses with multicolumns 1.26 16.10.2014 - RT 99455 : ignore initial or trailing spaces in column alias parsing 1.25 03.10.2014 - fixed Scalar::Does dependency in Makefile.PL 1.24 03.10.2014 - RT 99182 : recent versions of Scalar::Does are too heavy, drop the dependency 1.23 13.08.2014 - bug fix, v1.22 no longer accepted syntax x|alias when x has length 1 1.22 09.08.2014 - avoid interference of '|' for column aliases with builtin DBMS operators - also accept new() args as a hashref - run the whole SQLA test suite against SQLAM 1.21 20.04.2014 - fix missing test dependency - switch to Module::Install 1.20 18.04.2014 - support for -order_by/-limit in update() and delete() (MySQL accepts that!) - -limit => 0 is no longer ignored 1.19 01.02.2014 - better implementation for bind values within join specifications 1.18 31.01.2014 - added support for bind values (as quoted strings) within join specifications 1.17 22.07.2013 - fixed incorrect treatment of -limit for "RowNum" dialect (used by Oracle) 1.16 16.07.2013 - fixed doc for join() (description of the return value) - fix for RT 86895 (incorrect treatment of -order_by / -group_by) 1.15 18.04.2013 - bind values with types : dropped syntax [$value, \%type] because of conflicts with "OR" clauses of shape [$condition1, \%condition2]; so only DBIx::Class-like syntax will be accepted 1.14 14.04.2013 - fix bug introduced in v1.13 (return "" instead of return ()) 1.13 14.04.2013 - "looks_like_ternary_bind_param" renamed as "is_bind_value_with_type" - support for DBIx::Class syntax of bind values with types 1.12 08.04.2013 - fix missing bits for supporting arrayrefs in insert(), update() - improvements in doc 1.11 07.04.2013 - bind_params supports 3-args form of DBI::bind_param() - values in select(), insert(), update() can be arrayrefs [$value, \%type] 1.10 15.01.2013 - support for -desc/-asc in -order_by (compatibility with SQL::Abstract) 1.09 08.12.2012 - dependency on SQL::Abstract 1.73 because of -ident/-value 1.08 30.11.2012 - [rt.cpan.org #81305] replace \'=foo.bar' by {'=' => {-ident => 'foo.bar'}} - [rt.cpan.org #81485] systematically order "keys %hash" for perl 5.17.6 1.07 20.10.2012 - replace reftype tests by Scalar::Does - no longer warns on -where => {field => {-in => $scalar}} 1.06 02.08.2012 - fix in test that no longer passed with SQL::Abstract::Test v1.73 1.05 31.05.2012 - forgot dependency on MRO::Compat 1.04 29.05.2012 - [rt.cpan.org #77374] Use namespace::clean instead of namespace::autoclean - added support for set operators (UNION/INTERSECT/MINUS/etc.) 1.03 17.03.2012 - added support for Oracle INSERT ... RETURNING .. INTO .. - croak() instead of die() upon errors 1.02 13.03.2012 - unbless arrayrefs passed to _where_field_IN, to make SQLA happy 1.01 08.03.2012 - fixed sql_dialect for Oracle : no 'AS' keyword in table aliases 1.00 15.12.2011 - added methods insert(), update(), delete() 0.06 13.12.2011 - new parameter 'max_members_IN' 0.05 07.10.2011 - limit_offset dialect "RowNum", for @§%#! Oracle 0.04 28.08.2011 - doc fix, thanks to Terrence Brannon 0.03 07.08.2011 - added dependency on 'parent.pm' in Build.PL 0.02 03.08.2011 - Fixed stupid pod test 0.01 31.07.2011 - First release (code extracted and refactored from DBIx::DataModel) SQL-Abstract-More-1.37/inc/0000755000000000000000000000000014005073036014011 5ustar rootrootSQL-Abstract-More-1.37/inc/Module/0000755000000000000000000000000014005072624015240 5ustar rootrootSQL-Abstract-More-1.37/inc/Module/AutoInstall.pm0000644000000000000000000006231114005072536020042 0ustar rootroot#line 1 package Module::AutoInstall; use strict; use Cwd (); use File::Spec (); use ExtUtils::MakeMaker (); use vars qw{$VERSION}; BEGIN { $VERSION = '1.19'; } # special map on pre-defined feature sets my %FeatureMap = ( '' => 'Core Features', # XXX: deprecated '-core' => 'Core Features', ); # various lexical flags my ( @Missing, @Existing, %DisabledTests, $UnderCPAN, $InstallDepsTarget, $HasCPANPLUS ); my ( $Config, $CheckOnly, $SkipInstall, $AcceptDefault, $TestOnly, $AllDeps, $UpgradeDeps ); my ( $PostambleActions, $PostambleActionsNoTest, $PostambleActionsUpgradeDeps, $PostambleActionsUpgradeDepsNoTest, $PostambleActionsListDeps, $PostambleActionsListAllDeps, $PostambleUsed, $NoTest); # See if it's a testing or non-interactive session _accept_default( $ENV{AUTOMATED_TESTING} or ! -t STDIN ); _init(); sub _accept_default { $AcceptDefault = shift; } sub _installdeps_target { $InstallDepsTarget = shift; } sub missing_modules { return @Missing; } sub do_install { __PACKAGE__->install( [ $Config ? ( UNIVERSAL::isa( $Config, 'HASH' ) ? %{$Config} : @{$Config} ) : () ], @Missing, ); } # initialize various flags, and/or perform install sub _init { foreach my $arg ( @ARGV, split( /[\s\t]+/, $ENV{PERL_AUTOINSTALL} || $ENV{PERL_EXTUTILS_AUTOINSTALL} || '' ) ) { if ( $arg =~ /^--config=(.*)$/ ) { $Config = [ split( ',', $1 ) ]; } elsif ( $arg =~ /^--installdeps=(.*)$/ ) { __PACKAGE__->install( $Config, @Missing = split( /,/, $1 ) ); exit 0; } elsif ( $arg =~ /^--upgradedeps=(.*)$/ ) { $UpgradeDeps = 1; __PACKAGE__->install( $Config, @Missing = split( /,/, $1 ) ); exit 0; } elsif ( $arg =~ /^--default(?:deps)?$/ ) { $AcceptDefault = 1; } elsif ( $arg =~ /^--check(?:deps)?$/ ) { $CheckOnly = 1; } elsif ( $arg =~ /^--skip(?:deps)?$/ ) { $SkipInstall = 1; } elsif ( $arg =~ /^--test(?:only)?$/ ) { $TestOnly = 1; } elsif ( $arg =~ /^--all(?:deps)?$/ ) { $AllDeps = 1; } } } # overrides MakeMaker's prompt() to automatically accept the default choice sub _prompt { goto &ExtUtils::MakeMaker::prompt unless $AcceptDefault; my ( $prompt, $default ) = @_; my $y = ( $default =~ /^[Yy]/ ); print $prompt, ' [', ( $y ? 'Y' : 'y' ), '/', ( $y ? 'n' : 'N' ), '] '; print "$default\n"; return $default; } # the workhorse sub import { my $class = shift; my @args = @_ or return; my $core_all; print "*** $class version " . $class->VERSION . "\n"; print "*** Checking for Perl dependencies...\n"; my $cwd = Cwd::getcwd(); $Config = []; my $maxlen = length( ( sort { length($b) <=> length($a) } grep { /^[^\-]/ } map { ref($_) ? ( ( ref($_) eq 'HASH' ) ? keys(%$_) : @{$_} ) : '' } map { +{@args}->{$_} } grep { /^[^\-]/ or /^-core$/i } keys %{ +{@args} } )[0] ); # We want to know if we're under CPAN early to avoid prompting, but # if we aren't going to try and install anything anyway then skip the # check entirely since we don't want to have to load (and configure) # an old CPAN just for a cosmetic message $UnderCPAN = _check_lock(1) unless $SkipInstall || $InstallDepsTarget; while ( my ( $feature, $modules ) = splice( @args, 0, 2 ) ) { my ( @required, @tests, @skiptests ); my $default = 1; my $conflict = 0; if ( $feature =~ m/^-(\w+)$/ ) { my $option = lc($1); # check for a newer version of myself _update_to( $modules, @_ ) and return if $option eq 'version'; # sets CPAN configuration options $Config = $modules if $option eq 'config'; # promote every features to core status $core_all = ( $modules =~ /^all$/i ) and next if $option eq 'core'; next unless $option eq 'core'; } print "[" . ( $FeatureMap{ lc($feature) } || $feature ) . "]\n"; $modules = [ %{$modules} ] if UNIVERSAL::isa( $modules, 'HASH' ); unshift @$modules, -default => &{ shift(@$modules) } if ( ref( $modules->[0] ) eq 'CODE' ); # XXX: bugward compatibility while ( my ( $mod, $arg ) = splice( @$modules, 0, 2 ) ) { if ( $mod =~ m/^-(\w+)$/ ) { my $option = lc($1); $default = $arg if ( $option eq 'default' ); $conflict = $arg if ( $option eq 'conflict' ); @tests = @{$arg} if ( $option eq 'tests' ); @skiptests = @{$arg} if ( $option eq 'skiptests' ); next; } printf( "- %-${maxlen}s ...", $mod ); if ( $arg and $arg =~ /^\D/ ) { unshift @$modules, $arg; $arg = 0; } # XXX: check for conflicts and uninstalls(!) them. my $cur = _version_of($mod); if (_version_cmp ($cur, $arg) >= 0) { print "loaded. ($cur" . ( $arg ? " >= $arg" : '' ) . ")\n"; push @Existing, $mod => $arg; $DisabledTests{$_} = 1 for map { glob($_) } @skiptests; } else { if (not defined $cur) # indeed missing { print "missing." . ( $arg ? " (would need $arg)" : '' ) . "\n"; } else { # no need to check $arg as _version_cmp ($cur, undef) would satisfy >= above print "too old. ($cur < $arg)\n"; } push @required, $mod => $arg; } } next unless @required; my $mandatory = ( $feature eq '-core' or $core_all ); if ( !$SkipInstall and ( $CheckOnly or ($mandatory and $UnderCPAN) or $AllDeps or $InstallDepsTarget or _prompt( qq{==> Auto-install the } . ( @required / 2 ) . ( $mandatory ? ' mandatory' : ' optional' ) . qq{ module(s) from CPAN?}, $default ? 'y' : 'n', ) =~ /^[Yy]/ ) ) { push( @Missing, @required ); $DisabledTests{$_} = 1 for map { glob($_) } @skiptests; } elsif ( !$SkipInstall and $default and $mandatory and _prompt( qq{==> The module(s) are mandatory! Really skip?}, 'n', ) =~ /^[Nn]/ ) { push( @Missing, @required ); $DisabledTests{$_} = 1 for map { glob($_) } @skiptests; } else { $DisabledTests{$_} = 1 for map { glob($_) } @tests; } } if ( @Missing and not( $CheckOnly or $UnderCPAN) ) { require Config; my $make = $Config::Config{make}; if ($InstallDepsTarget) { print "*** To install dependencies type '$make installdeps' or '$make installdeps_notest'.\n"; } else { print "*** Dependencies will be installed the next time you type '$make'.\n"; } # make an educated guess of whether we'll need root permission. print " (You may need to do that as the 'root' user.)\n" if eval '$>'; } print "*** $class configuration finished.\n"; chdir $cwd; # import to main:: no strict 'refs'; *{'main::WriteMakefile'} = \&Write if caller(0) eq 'main'; return (@Existing, @Missing); } sub _running_under { my $thing = shift; print <<"END_MESSAGE"; *** Since we're running under ${thing}, I'll just let it take care of the dependency's installation later. END_MESSAGE return 1; } # Check to see if we are currently running under CPAN.pm and/or CPANPLUS; # if we are, then we simply let it taking care of our dependencies sub _check_lock { return unless @Missing or @_; if ($ENV{PERL5_CPANM_IS_RUNNING}) { return _running_under('cpanminus'); } my $cpan_env = $ENV{PERL5_CPAN_IS_RUNNING}; if ($ENV{PERL5_CPANPLUS_IS_RUNNING}) { return _running_under($cpan_env ? 'CPAN' : 'CPANPLUS'); } require CPAN; if ($CPAN::VERSION > '1.89') { if ($cpan_env) { return _running_under('CPAN'); } return; # CPAN.pm new enough, don't need to check further } # last ditch attempt, this -will- configure CPAN, very sorry _load_cpan(1); # force initialize even though it's already loaded # Find the CPAN lock-file my $lock = MM->catfile( $CPAN::Config->{cpan_home}, ".lock" ); return unless -f $lock; # Check the lock local *LOCK; return unless open(LOCK, $lock); if ( ( $^O eq 'MSWin32' ? _under_cpan() : == getppid() ) and ( $CPAN::Config->{prerequisites_policy} || '' ) ne 'ignore' ) { print <<'END_MESSAGE'; *** Since we're running under CPAN, I'll just let it take care of the dependency's installation later. END_MESSAGE return 1; } close LOCK; return; } sub install { my $class = shift; my $i; # used below to strip leading '-' from config keys my @config = ( map { s/^-// if ++$i; $_ } @{ +shift } ); my ( @modules, @installed, @modules_to_upgrade ); while (my ($pkg, $ver) = splice(@_, 0, 2)) { # grep out those already installed if (_version_cmp(_version_of($pkg), $ver) >= 0) { push @installed, $pkg; if ($UpgradeDeps) { push @modules_to_upgrade, $pkg, $ver; } } else { push @modules, $pkg, $ver; } } if ($UpgradeDeps) { push @modules, @modules_to_upgrade; @installed = (); @modules_to_upgrade = (); } return @installed unless @modules; # nothing to do return @installed if _check_lock(); # defer to the CPAN shell print "*** Installing dependencies...\n"; return unless _connected_to('cpan.org'); my %args = @config; my %failed; local *FAILED; if ( $args{do_once} and open( FAILED, '.#autoinstall.failed' ) ) { while () { chomp; $failed{$_}++ } close FAILED; my @newmod; while ( my ( $k, $v ) = splice( @modules, 0, 2 ) ) { push @newmod, ( $k => $v ) unless $failed{$k}; } @modules = @newmod; } if ( _has_cpanplus() and not $ENV{PERL_AUTOINSTALL_PREFER_CPAN} ) { _install_cpanplus( \@modules, \@config ); } else { _install_cpan( \@modules, \@config ); } print "*** $class installation finished.\n"; # see if we have successfully installed them while ( my ( $pkg, $ver ) = splice( @modules, 0, 2 ) ) { if ( _version_cmp( _version_of($pkg), $ver ) >= 0 ) { push @installed, $pkg; } elsif ( $args{do_once} and open( FAILED, '>> .#autoinstall.failed' ) ) { print FAILED "$pkg\n"; } } close FAILED if $args{do_once}; return @installed; } sub _install_cpanplus { my @modules = @{ +shift }; my @config = _cpanplus_config( @{ +shift } ); my $installed = 0; require CPANPLUS::Backend; my $cp = CPANPLUS::Backend->new; my $conf = $cp->configure_object; return unless $conf->can('conf') # 0.05x+ with "sudo" support or _can_write($conf->_get_build('base')); # 0.04x # if we're root, set UNINST=1 to avoid trouble unless user asked for it. my $makeflags = $conf->get_conf('makeflags') || ''; if ( UNIVERSAL::isa( $makeflags, 'HASH' ) ) { # 0.03+ uses a hashref here $makeflags->{UNINST} = 1 unless exists $makeflags->{UNINST}; } else { # 0.02 and below uses a scalar $makeflags = join( ' ', split( ' ', $makeflags ), 'UNINST=1' ) if ( $makeflags !~ /\bUNINST\b/ and eval qq{ $> eq '0' } ); } $conf->set_conf( makeflags => $makeflags ); $conf->set_conf( prereqs => 1 ); while ( my ( $key, $val ) = splice( @config, 0, 2 ) ) { $conf->set_conf( $key, $val ); } my $modtree = $cp->module_tree; while ( my ( $pkg, $ver ) = splice( @modules, 0, 2 ) ) { print "*** Installing $pkg...\n"; MY::preinstall( $pkg, $ver ) or next if defined &MY::preinstall; my $success; my $obj = $modtree->{$pkg}; if ( $obj and _version_cmp( $obj->{version}, $ver ) >= 0 ) { my $pathname = $pkg; $pathname =~ s/::/\\W/; foreach my $inc ( grep { m/$pathname.pm/i } keys(%INC) ) { delete $INC{$inc}; } my $rv = $cp->install( modules => [ $obj->{module} ] ); if ( $rv and ( $rv->{ $obj->{module} } or $rv->{ok} ) ) { print "*** $pkg successfully installed.\n"; $success = 1; } else { print "*** $pkg installation cancelled.\n"; $success = 0; } $installed += $success; } else { print << "."; *** Could not find a version $ver or above for $pkg; skipping. . } MY::postinstall( $pkg, $ver, $success ) if defined &MY::postinstall; } return $installed; } sub _cpanplus_config { my @config = (); while ( @_ ) { my ($key, $value) = (shift(), shift()); if ( $key eq 'prerequisites_policy' ) { if ( $value eq 'follow' ) { $value = CPANPLUS::Internals::Constants::PREREQ_INSTALL(); } elsif ( $value eq 'ask' ) { $value = CPANPLUS::Internals::Constants::PREREQ_ASK(); } elsif ( $value eq 'ignore' ) { $value = CPANPLUS::Internals::Constants::PREREQ_IGNORE(); } else { die "*** Cannot convert option $key = '$value' to CPANPLUS version.\n"; } push @config, 'prereqs', $value; } elsif ( $key eq 'force' ) { push @config, $key, $value; } elsif ( $key eq 'notest' ) { push @config, 'skiptest', $value; } else { die "*** Cannot convert option $key to CPANPLUS version.\n"; } } return @config; } sub _install_cpan { my @modules = @{ +shift }; my @config = @{ +shift }; my $installed = 0; my %args; _load_cpan(); require Config; if (CPAN->VERSION < 1.80) { # no "sudo" support, probe for writableness return unless _can_write( MM->catfile( $CPAN::Config->{cpan_home}, 'sources' ) ) and _can_write( $Config::Config{sitelib} ); } # if we're root, set UNINST=1 to avoid trouble unless user asked for it. my $makeflags = $CPAN::Config->{make_install_arg} || ''; $CPAN::Config->{make_install_arg} = join( ' ', split( ' ', $makeflags ), 'UNINST=1' ) if ( $makeflags !~ /\bUNINST\b/ and eval qq{ $> eq '0' } ); # don't show start-up info $CPAN::Config->{inhibit_startup_message} = 1; # set additional options while ( my ( $opt, $arg ) = splice( @config, 0, 2 ) ) { ( $args{$opt} = $arg, next ) if $opt =~ /^(?:force|notest)$/; # pseudo-option $CPAN::Config->{$opt} = $opt eq 'urllist' ? [$arg] : $arg; } if ($args{notest} && (not CPAN::Shell->can('notest'))) { die "Your version of CPAN is too old to support the 'notest' pragma"; } local $CPAN::Config->{prerequisites_policy} = 'follow'; while ( my ( $pkg, $ver ) = splice( @modules, 0, 2 ) ) { MY::preinstall( $pkg, $ver ) or next if defined &MY::preinstall; print "*** Installing $pkg...\n"; my $obj = CPAN::Shell->expand( Module => $pkg ); my $success = 0; if ( $obj and _version_cmp( $obj->cpan_version, $ver ) >= 0 ) { my $pathname = $pkg; $pathname =~ s/::/\\W/; foreach my $inc ( grep { m/$pathname.pm/i } keys(%INC) ) { delete $INC{$inc}; } my $rv = do { if ($args{force}) { CPAN::Shell->force( install => $pkg ) } elsif ($args{notest}) { CPAN::Shell->notest( install => $pkg ) } else { CPAN::Shell->install($pkg) } }; $rv ||= eval { $CPAN::META->instance( 'CPAN::Distribution', $obj->cpan_file, ) ->{install} if $CPAN::META; }; if ( $rv eq 'YES' ) { print "*** $pkg successfully installed.\n"; $success = 1; } else { print "*** $pkg installation failed.\n"; $success = 0; } $installed += $success; } else { print << "."; *** Could not find a version $ver or above for $pkg; skipping. . } MY::postinstall( $pkg, $ver, $success ) if defined &MY::postinstall; } return $installed; } sub _has_cpanplus { return ( $HasCPANPLUS = ( $INC{'CPANPLUS/Config.pm'} or _load('CPANPLUS::Shell::Default') ) ); } # make guesses on whether we're under the CPAN installation directory sub _under_cpan { require Cwd; require File::Spec; my $cwd = File::Spec->canonpath( Cwd::getcwd() ); my $cpan = File::Spec->canonpath( $CPAN::Config->{cpan_home} ); return ( index( $cwd, $cpan ) > -1 ); } sub _update_to { my $class = __PACKAGE__; my $ver = shift; return if _version_cmp( _version_of($class), $ver ) >= 0; # no need to upgrade if ( _prompt( "==> A newer version of $class ($ver) is required. Install?", 'y' ) =~ /^[Nn]/ ) { die "*** Please install $class $ver manually.\n"; } print << "."; *** Trying to fetch it from CPAN... . # install ourselves _load($class) and return $class->import(@_) if $class->install( [], $class, $ver ); print << '.'; exit 1; *** Cannot bootstrap myself. :-( Installation terminated. . } # check if we're connected to some host, using inet_aton sub _connected_to { my $site = shift; return ( ( _load('Socket') and Socket::inet_aton($site) ) or _prompt( qq( *** Your host cannot resolve the domain name '$site', which probably means the Internet connections are unavailable. ==> Should we try to install the required module(s) anyway?), 'n' ) =~ /^[Yy]/ ); } # check if a directory is writable; may create it on demand sub _can_write { my $path = shift; mkdir( $path, 0755 ) unless -e $path; return 1 if -w $path; print << "."; *** You are not allowed to write to the directory '$path'; the installation may fail due to insufficient permissions. . if ( eval '$>' and lc(`sudo -V`) =~ /version/ and _prompt( qq( ==> Should we try to re-execute the autoinstall process with 'sudo'?), ((-t STDIN) ? 'y' : 'n') ) =~ /^[Yy]/ ) { # try to bootstrap ourselves from sudo print << "."; *** Trying to re-execute the autoinstall process with 'sudo'... . my $missing = join( ',', @Missing ); my $config = join( ',', UNIVERSAL::isa( $Config, 'HASH' ) ? %{$Config} : @{$Config} ) if $Config; return unless system( 'sudo', $^X, $0, "--config=$config", "--installdeps=$missing" ); print << "."; *** The 'sudo' command exited with error! Resuming... . } return _prompt( qq( ==> Should we try to install the required module(s) anyway?), 'n' ) =~ /^[Yy]/; } # load a module and return the version it reports sub _load { my $mod = pop; # method/function doesn't matter my $file = $mod; $file =~ s|::|/|g; $file .= '.pm'; local $@; return eval { require $file; $mod->VERSION } || ( $@ ? undef: 0 ); } # report version without loading a module sub _version_of { my $mod = pop; # method/function doesn't matter my $file = $mod; $file =~ s|::|/|g; $file .= '.pm'; foreach my $dir ( @INC ) { next if ref $dir; my $path = File::Spec->catfile($dir, $file); next unless -e $path; require ExtUtils::MM_Unix; return ExtUtils::MM_Unix->parse_version($path); } return undef; } # Load CPAN.pm and it's configuration sub _load_cpan { return if $CPAN::VERSION and $CPAN::Config and not @_; require CPAN; # CPAN-1.82+ adds CPAN::Config::AUTOLOAD to redirect to # CPAN::HandleConfig->load. CPAN reports that the redirection # is deprecated in a warning printed at the user. # CPAN-1.81 expects CPAN::HandleConfig->load, does not have # $CPAN::HandleConfig::VERSION but cannot handle # CPAN::Config->load # Which "versions expect CPAN::Config->load? if ( $CPAN::HandleConfig::VERSION || CPAN::HandleConfig->can('load') ) { # Newer versions of CPAN have a HandleConfig module CPAN::HandleConfig->load; } else { # Older versions had the load method in Config directly CPAN::Config->load; } } # compare two versions, either use Sort::Versions or plain comparison # return values same as <=> sub _version_cmp { my ( $cur, $min ) = @_; return -1 unless defined $cur; # if 0 keep comparing return 1 unless $min; $cur =~ s/\s+$//; # check for version numbers that are not in decimal format if ( ref($cur) or ref($min) or $cur =~ /v|\..*\./ or $min =~ /v|\..*\./ ) { if ( ( $version::VERSION or defined( _load('version') )) and version->can('new') ) { # use version.pm if it is installed. return version->new($cur) <=> version->new($min); } elsif ( $Sort::Versions::VERSION or defined( _load('Sort::Versions') ) ) { # use Sort::Versions as the sorting algorithm for a.b.c versions return Sort::Versions::versioncmp( $cur, $min ); } warn "Cannot reliably compare non-decimal formatted versions.\n" . "Please install version.pm or Sort::Versions.\n"; } # plain comparison local $^W = 0; # shuts off 'not numeric' bugs return $cur <=> $min; } # nothing; this usage is deprecated. sub main::PREREQ_PM { return {}; } sub _make_args { my %args = @_; $args{PREREQ_PM} = { %{ $args{PREREQ_PM} || {} }, @Existing, @Missing } if $UnderCPAN or $TestOnly; if ( $args{EXE_FILES} and -e 'MANIFEST' ) { require ExtUtils::Manifest; my $manifest = ExtUtils::Manifest::maniread('MANIFEST'); $args{EXE_FILES} = [ grep { exists $manifest->{$_} } @{ $args{EXE_FILES} } ]; } $args{test}{TESTS} ||= 't/*.t'; $args{test}{TESTS} = join( ' ', grep { !exists( $DisabledTests{$_} ) } map { glob($_) } split( /\s+/, $args{test}{TESTS} ) ); my $missing = join( ',', @Missing ); my $config = join( ',', UNIVERSAL::isa( $Config, 'HASH' ) ? %{$Config} : @{$Config} ) if $Config; $PostambleActions = ( ($missing and not $UnderCPAN) ? "\$(PERL) $0 --config=$config --installdeps=$missing" : "\$(NOECHO) \$(NOOP)" ); my $deps_list = join( ',', @Missing, @Existing ); $PostambleActionsUpgradeDeps = "\$(PERL) $0 --config=$config --upgradedeps=$deps_list"; my $config_notest = join( ',', (UNIVERSAL::isa( $Config, 'HASH' ) ? %{$Config} : @{$Config}), 'notest', 1 ) if $Config; $PostambleActionsNoTest = ( ($missing and not $UnderCPAN) ? "\$(PERL) $0 --config=$config_notest --installdeps=$missing" : "\$(NOECHO) \$(NOOP)" ); $PostambleActionsUpgradeDepsNoTest = "\$(PERL) $0 --config=$config_notest --upgradedeps=$deps_list"; $PostambleActionsListDeps = '@$(PERL) -le "print for @ARGV" ' . join(' ', map $Missing[$_], grep $_ % 2 == 0, 0..$#Missing); my @all = (@Missing, @Existing); $PostambleActionsListAllDeps = '@$(PERL) -le "print for @ARGV" ' . join(' ', map $all[$_], grep $_ % 2 == 0, 0..$#all); return %args; } # a wrapper to ExtUtils::MakeMaker::WriteMakefile sub Write { require Carp; Carp::croak "WriteMakefile: Need even number of args" if @_ % 2; if ($CheckOnly) { print << "."; *** Makefile not written in check-only mode. . return; } my %args = _make_args(@_); no strict 'refs'; $PostambleUsed = 0; local *MY::postamble = \&postamble unless defined &MY::postamble; ExtUtils::MakeMaker::WriteMakefile(%args); print << "." unless $PostambleUsed; *** WARNING: Makefile written with customized MY::postamble() without including contents from Module::AutoInstall::postamble() -- auto installation features disabled. Please contact the author. . return 1; } sub postamble { $PostambleUsed = 1; my $fragment; $fragment .= <<"AUTO_INSTALL" if !$InstallDepsTarget; config :: installdeps \t\$(NOECHO) \$(NOOP) AUTO_INSTALL $fragment .= <<"END_MAKE"; checkdeps :: \t\$(PERL) $0 --checkdeps installdeps :: \t$PostambleActions installdeps_notest :: \t$PostambleActionsNoTest upgradedeps :: \t$PostambleActionsUpgradeDeps upgradedeps_notest :: \t$PostambleActionsUpgradeDepsNoTest listdeps :: \t$PostambleActionsListDeps listalldeps :: \t$PostambleActionsListAllDeps END_MAKE return $fragment; } 1; __END__ #line 1197 SQL-Abstract-More-1.37/inc/Module/Install.pm0000644000000000000000000002714514005072536017217 0ustar rootroot#line 1 package Module::Install; # For any maintainers: # The load order for Module::Install is a bit magic. # It goes something like this... # # IF ( host has Module::Install installed, creating author mode ) { # 1. Makefile.PL calls "use inc::Module::Install" # 2. $INC{inc/Module/Install.pm} set to installed version of inc::Module::Install # 3. The installed version of inc::Module::Install loads # 4. inc::Module::Install calls "require Module::Install" # 5. The ./inc/ version of Module::Install loads # } ELSE { # 1. Makefile.PL calls "use inc::Module::Install" # 2. $INC{inc/Module/Install.pm} set to ./inc/ version of Module::Install # 3. The ./inc/ version of Module::Install loads # } use 5.006; use strict 'vars'; use Cwd (); use File::Find (); use File::Path (); use vars qw{$VERSION $MAIN}; BEGIN { # All Module::Install core packages now require synchronised versions. # This will be used to ensure we don't accidentally load old or # different versions of modules. # This is not enforced yet, but will be some time in the next few # releases once we can make sure it won't clash with custom # Module::Install extensions. $VERSION = '1.19'; # Storage for the pseudo-singleton $MAIN = undef; *inc::Module::Install::VERSION = *VERSION; @inc::Module::Install::ISA = __PACKAGE__; } sub import { my $class = shift; my $self = $class->new(@_); my $who = $self->_caller; #------------------------------------------------------------- # all of the following checks should be included in import(), # to allow "eval 'require Module::Install; 1' to test # installation of Module::Install. (RT #51267) #------------------------------------------------------------- # Whether or not inc::Module::Install is actually loaded, the # $INC{inc/Module/Install.pm} is what will still get set as long as # the caller loaded module this in the documented manner. # If not set, the caller may NOT have loaded the bundled version, and thus # they may not have a MI version that works with the Makefile.PL. This would # result in false errors or unexpected behaviour. And we don't want that. my $file = join( '/', 'inc', split /::/, __PACKAGE__ ) . '.pm'; unless ( $INC{$file} ) { die <<"END_DIE" } Please invoke ${\__PACKAGE__} with: use inc::${\__PACKAGE__}; not: use ${\__PACKAGE__}; END_DIE # This reportedly fixes a rare Win32 UTC file time issue, but # as this is a non-cross-platform XS module not in the core, # we shouldn't really depend on it. See RT #24194 for detail. # (Also, this module only supports Perl 5.6 and above). eval "use Win32::UTCFileTime" if $^O eq 'MSWin32' && $] >= 5.006; # If the script that is loading Module::Install is from the future, # then make will detect this and cause it to re-run over and over # again. This is bad. Rather than taking action to touch it (which # is unreliable on some platforms and requires write permissions) # for now we should catch this and refuse to run. if ( -f $0 ) { my $s = (stat($0))[9]; # If the modification time is only slightly in the future, # sleep briefly to remove the problem. my $a = $s - time; if ( $a > 0 and $a < 5 ) { sleep 5 } # Too far in the future, throw an error. my $t = time; if ( $s > $t ) { die <<"END_DIE" } Your installer $0 has a modification time in the future ($s > $t). This is known to create infinite loops in make. Please correct this, then run $0 again. END_DIE } # Build.PL was formerly supported, but no longer is due to excessive # difficulty in implementing every single feature twice. if ( $0 =~ /Build.PL$/i ) { die <<"END_DIE" } Module::Install no longer supports Build.PL. It was impossible to maintain duel backends, and has been deprecated. Please remove all Build.PL files and only use the Makefile.PL installer. END_DIE #------------------------------------------------------------- # To save some more typing in Module::Install installers, every... # use inc::Module::Install # ...also acts as an implicit use strict. $^H |= strict::bits(qw(refs subs vars)); #------------------------------------------------------------- unless ( -f $self->{file} ) { foreach my $key (keys %INC) { delete $INC{$key} if $key =~ /Module\/Install/; } local $^W; require "$self->{path}/$self->{dispatch}.pm"; File::Path::mkpath("$self->{prefix}/$self->{author}"); $self->{admin} = "$self->{name}::$self->{dispatch}"->new( _top => $self ); $self->{admin}->init; @_ = ($class, _self => $self); goto &{"$self->{name}::import"}; } local $^W; *{"${who}::AUTOLOAD"} = $self->autoload; $self->preload; # Unregister loader and worker packages so subdirs can use them again delete $INC{'inc/Module/Install.pm'}; delete $INC{'Module/Install.pm'}; # Save to the singleton $MAIN = $self; return 1; } sub autoload { my $self = shift; my $who = $self->_caller; my $cwd = Cwd::getcwd(); my $sym = "${who}::AUTOLOAD"; $sym->{$cwd} = sub { my $pwd = Cwd::getcwd(); if ( my $code = $sym->{$pwd} ) { # Delegate back to parent dirs goto &$code unless $cwd eq $pwd; } unless ($$sym =~ s/([^:]+)$//) { # XXX: it looks like we can't retrieve the missing function # via $$sym (usually $main::AUTOLOAD) in this case. # I'm still wondering if we should slurp Makefile.PL to # get some context or not ... my ($package, $file, $line) = caller; die <<"EOT"; Unknown function is found at $file line $line. Execution of $file aborted due to runtime errors. If you're a contributor to a project, you may need to install some Module::Install extensions from CPAN (or other repository). If you're a user of a module, please contact the author. EOT } my $method = $1; if ( uc($method) eq $method ) { # Do nothing return; } elsif ( $method =~ /^_/ and $self->can($method) ) { # Dispatch to the root M:I class return $self->$method(@_); } # Dispatch to the appropriate plugin unshift @_, ( $self, $1 ); goto &{$self->can('call')}; }; } sub preload { my $self = shift; unless ( $self->{extensions} ) { $self->load_extensions( "$self->{prefix}/$self->{path}", $self ); } my @exts = @{$self->{extensions}}; unless ( @exts ) { @exts = $self->{admin}->load_all_extensions; } my %seen; foreach my $obj ( @exts ) { while (my ($method, $glob) = each %{ref($obj) . '::'}) { next unless $obj->can($method); next if $method =~ /^_/; next if $method eq uc($method); $seen{$method}++; } } my $who = $self->_caller; foreach my $name ( sort keys %seen ) { local $^W; *{"${who}::$name"} = sub { ${"${who}::AUTOLOAD"} = "${who}::$name"; goto &{"${who}::AUTOLOAD"}; }; } } sub new { my ($class, %args) = @_; delete $INC{'FindBin.pm'}; { # to suppress the redefine warning local $SIG{__WARN__} = sub {}; require FindBin; } # ignore the prefix on extension modules built from top level. my $base_path = Cwd::abs_path($FindBin::Bin); unless ( Cwd::abs_path(Cwd::getcwd()) eq $base_path ) { delete $args{prefix}; } return $args{_self} if $args{_self}; $base_path = VMS::Filespec::unixify($base_path) if $^O eq 'VMS'; $args{dispatch} ||= 'Admin'; $args{prefix} ||= 'inc'; $args{author} ||= ($^O eq 'VMS' ? '_author' : '.author'); $args{bundle} ||= 'inc/BUNDLES'; $args{base} ||= $base_path; $class =~ s/^\Q$args{prefix}\E:://; $args{name} ||= $class; $args{version} ||= $class->VERSION; unless ( $args{path} ) { $args{path} = $args{name}; $args{path} =~ s!::!/!g; } $args{file} ||= "$args{base}/$args{prefix}/$args{path}.pm"; $args{wrote} = 0; bless( \%args, $class ); } sub call { my ($self, $method) = @_; my $obj = $self->load($method) or return; splice(@_, 0, 2, $obj); goto &{$obj->can($method)}; } sub load { my ($self, $method) = @_; $self->load_extensions( "$self->{prefix}/$self->{path}", $self ) unless $self->{extensions}; foreach my $obj (@{$self->{extensions}}) { return $obj if $obj->can($method); } my $admin = $self->{admin} or die <<"END_DIE"; The '$method' method does not exist in the '$self->{prefix}' path! Please remove the '$self->{prefix}' directory and run $0 again to load it. END_DIE my $obj = $admin->load($method, 1); push @{$self->{extensions}}, $obj; $obj; } sub load_extensions { my ($self, $path, $top) = @_; my $should_reload = 0; unless ( grep { ! ref $_ and lc $_ eq lc $self->{prefix} } @INC ) { unshift @INC, $self->{prefix}; $should_reload = 1; } foreach my $rv ( $self->find_extensions($path) ) { my ($file, $pkg) = @{$rv}; next if $self->{pathnames}{$pkg}; local $@; my $new = eval { local $^W; require $file; $pkg->can('new') }; unless ( $new ) { warn $@ if $@; next; } $self->{pathnames}{$pkg} = $should_reload ? delete $INC{$file} : $INC{$file}; push @{$self->{extensions}}, &{$new}($pkg, _top => $top ); } $self->{extensions} ||= []; } sub find_extensions { my ($self, $path) = @_; my @found; File::Find::find( {no_chdir => 1, wanted => sub { my $file = $File::Find::name; return unless $file =~ m!^\Q$path\E/(.+)\.pm\Z!is; my $subpath = $1; return if lc($subpath) eq lc($self->{dispatch}); $file = "$self->{path}/$subpath.pm"; my $pkg = "$self->{name}::$subpath"; $pkg =~ s!/!::!g; # If we have a mixed-case package name, assume case has been preserved # correctly. Otherwise, root through the file to locate the case-preserved # version of the package name. if ( $subpath eq lc($subpath) || $subpath eq uc($subpath) ) { my $content = Module::Install::_read($File::Find::name); my $in_pod = 0; foreach ( split /\n/, $content ) { $in_pod = 1 if /^=\w/; $in_pod = 0 if /^=cut/; next if ($in_pod || /^=cut/); # skip pod text next if /^\s*#/; # and comments if ( m/^\s*package\s+($pkg)\s*;/i ) { $pkg = $1; last; } } } push @found, [ $file, $pkg ]; }}, $path ) if -d $path; @found; } ##################################################################### # Common Utility Functions sub _caller { my $depth = 0; my $call = caller($depth); while ( $call eq __PACKAGE__ ) { $depth++; $call = caller($depth); } return $call; } sub _read { local *FH; open( FH, '<', $_[0] ) or die "open($_[0]): $!"; binmode FH; my $string = do { local $/; }; close FH or die "close($_[0]): $!"; return $string; } sub _readperl { my $string = Module::Install::_read($_[0]); $string =~ s/(?:\015{1,2}\012|\015|\012)/\n/sg; $string =~ s/(\n)\n*__(?:DATA|END)__\b.*\z/$1/s; $string =~ s/\n\n=\w+.+?\n\n=cut\b.+?\n+/\n\n/sg; return $string; } sub _readpod { my $string = Module::Install::_read($_[0]); $string =~ s/(?:\015{1,2}\012|\015|\012)/\n/sg; return $string if $_[0] =~ /\.pod\z/; $string =~ s/(^|\n=cut\b.+?\n+)[^=\s].+?\n(\n=\w+|\z)/$1$2/sg; $string =~ s/\n*=pod\b[^\n]*\n+/\n\n/sg; $string =~ s/\n*=cut\b[^\n]*\n+/\n\n/sg; $string =~ s/^\n+//s; return $string; } sub _write { local *FH; open( FH, '>', $_[0] ) or die "open($_[0]): $!"; binmode FH; foreach ( 1 .. $#_ ) { print FH $_[$_] or die "print($_[0]): $!"; } close FH or die "close($_[0]): $!"; } # _version is for processing module versions (eg, 1.03_05) not # Perl versions (eg, 5.8.1). sub _version { my $s = shift || 0; my $d =()= $s =~ /(\.)/g; if ( $d >= 2 ) { # Normalise multipart versions $s =~ s/(\.)(\d{1,3})/sprintf("$1%03d",$2)/eg; } $s =~ s/^(\d+)\.?//; my $l = $1 || 0; my @v = map { $_ . '0' x (3 - length $_) } $s =~ /(\d{1,3})\D?/g; $l = $l . '.' . join '', @v if @v; return $l + 0; } sub _cmp { _version($_[1]) <=> _version($_[2]); } # Cloned from Params::Util::_CLASS sub _CLASS { ( defined $_[0] and ! ref $_[0] and $_[0] =~ m/^[^\W\d]\w*(?:::\w+)*\z/s ) ? $_[0] : undef; } 1; # Copyright 2008 - 2012 Adam Kennedy. SQL-Abstract-More-1.37/inc/Module/Install/0000755000000000000000000000000014005073036016644 5ustar rootrootSQL-Abstract-More-1.37/inc/Module/Install/Can.pm0000644000000000000000000000640514005072536017714 0ustar rootroot#line 1 package Module::Install::Can; use strict; use Config (); use ExtUtils::MakeMaker (); use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } # check if we can load some module ### Upgrade this to not have to load the module if possible sub can_use { my ($self, $mod, $ver) = @_; $mod =~ s{::|\\}{/}g; $mod .= '.pm' unless $mod =~ /\.pm$/i; my $pkg = $mod; $pkg =~ s{/}{::}g; $pkg =~ s{\.pm$}{}i; local $@; eval { require $mod; $pkg->VERSION($ver || 0); 1 }; } # Check if we can run some command sub can_run { my ($self, $cmd) = @_; my $_cmd = $cmd; return $_cmd if (-x $_cmd or $_cmd = MM->maybe_command($_cmd)); for my $dir ((split /$Config::Config{path_sep}/, $ENV{PATH}), '.') { next if $dir eq ''; require File::Spec; my $abs = File::Spec->catfile($dir, $cmd); return $abs if (-x $abs or $abs = MM->maybe_command($abs)); } return; } # Can our C compiler environment build XS files sub can_xs { my $self = shift; # Ensure we have the CBuilder module $self->configure_requires( 'ExtUtils::CBuilder' => 0.27 ); # Do we have the configure_requires checker? local $@; eval "require ExtUtils::CBuilder;"; if ( $@ ) { # They don't obey configure_requires, so it is # someone old and delicate. Try to avoid hurting # them by falling back to an older simpler test. return $self->can_cc(); } # Do we have a working C compiler my $builder = ExtUtils::CBuilder->new( quiet => 1, ); unless ( $builder->have_compiler ) { # No working C compiler return 0; } # Write a C file representative of what XS becomes require File::Temp; my ( $FH, $tmpfile ) = File::Temp::tempfile( "compilexs-XXXXX", SUFFIX => '.c', ); binmode $FH; print $FH <<'END_C'; #include "EXTERN.h" #include "perl.h" #include "XSUB.h" int main(int argc, char **argv) { return 0; } int boot_sanexs() { return 1; } END_C close $FH; # Can the C compiler access the same headers XS does my @libs = (); my $object = undef; eval { local $^W = 0; $object = $builder->compile( source => $tmpfile, ); @libs = $builder->link( objects => $object, module_name => 'sanexs', ); }; my $result = $@ ? 0 : 1; # Clean up all the build files foreach ( $tmpfile, $object, @libs ) { next unless defined $_; 1 while unlink; } return $result; } # Can we locate a (the) C compiler sub can_cc { my $self = shift; if ($^O eq 'VMS') { require ExtUtils::CBuilder; my $builder = ExtUtils::CBuilder->new( quiet => 1, ); return $builder->have_compiler; } my @chunks = split(/ /, $Config::Config{cc}) or return; # $Config{cc} may contain args; try to find out the program part while (@chunks) { return $self->can_run("@chunks") || (pop(@chunks), next); } return; } # Fix Cygwin bug on maybe_command(); if ( $^O eq 'cygwin' ) { require ExtUtils::MM_Cygwin; require ExtUtils::MM_Win32; if ( ! defined(&ExtUtils::MM_Cygwin::maybe_command) ) { *ExtUtils::MM_Cygwin::maybe_command = sub { my ($self, $file) = @_; if ($file =~ m{^/cygdrive/}i and ExtUtils::MM_Win32->can('maybe_command')) { ExtUtils::MM_Win32->maybe_command($file); } else { ExtUtils::MM_Unix->maybe_command($file); } } } } 1; __END__ #line 245 SQL-Abstract-More-1.37/inc/Module/Install/Win32.pm0000644000000000000000000000340314005072536020110 0ustar rootroot#line 1 package Module::Install::Win32; use strict; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } # determine if the user needs nmake, and download it if needed sub check_nmake { my $self = shift; $self->load('can_run'); $self->load('get_file'); require Config; return unless ( $^O eq 'MSWin32' and $Config::Config{make} and $Config::Config{make} =~ /^nmake\b/i and ! $self->can_run('nmake') ); print "The required 'nmake' executable not found, fetching it...\n"; require File::Basename; my $rv = $self->get_file( url => 'http://download.microsoft.com/download/vc15/Patch/1.52/W95/EN-US/Nmake15.exe', ftp_url => 'ftp://ftp.microsoft.com/Softlib/MSLFILES/Nmake15.exe', local_dir => File::Basename::dirname($^X), size => 51928, run => 'Nmake15.exe /o > nul', check_for => 'Nmake.exe', remove => 1, ); die <<'END_MESSAGE' unless $rv; ------------------------------------------------------------------------------- Since you are using Microsoft Windows, you will need the 'nmake' utility before installation. It's available at: http://download.microsoft.com/download/vc15/Patch/1.52/W95/EN-US/Nmake15.exe or ftp://ftp.microsoft.com/Softlib/MSLFILES/Nmake15.exe Please download the file manually, save it to a directory in %PATH% (e.g. C:\WINDOWS\COMMAND\), then launch the MS-DOS command line shell, "cd" to that directory, and run "Nmake15.exe" from there; that will create the 'nmake.exe' file needed by this module. You may then resume the installation process described in README. ------------------------------------------------------------------------------- END_MESSAGE } 1; SQL-Abstract-More-1.37/inc/Module/Install/Base.pm0000644000000000000000000000214714005072536020064 0ustar rootroot#line 1 package Module::Install::Base; use strict 'vars'; use vars qw{$VERSION}; BEGIN { $VERSION = '1.19'; } # Suspend handler for "redefined" warnings BEGIN { my $w = $SIG{__WARN__}; $SIG{__WARN__} = sub { $w }; } #line 42 sub new { my $class = shift; unless ( defined &{"${class}::call"} ) { *{"${class}::call"} = sub { shift->_top->call(@_) }; } unless ( defined &{"${class}::load"} ) { *{"${class}::load"} = sub { shift->_top->load(@_) }; } bless { @_ }, $class; } #line 61 sub AUTOLOAD { local $@; my $func = eval { shift->_top->autoload } or return; goto &$func; } #line 75 sub _top { $_[0]->{_top}; } #line 90 sub admin { $_[0]->_top->{admin} or Module::Install::Base::FakeAdmin->new; } #line 106 sub is_admin { ! $_[0]->admin->isa('Module::Install::Base::FakeAdmin'); } sub DESTROY {} package Module::Install::Base::FakeAdmin; use vars qw{$VERSION}; BEGIN { $VERSION = $Module::Install::Base::VERSION; } my $fake; sub new { $fake ||= bless(\@_, $_[0]); } sub AUTOLOAD {} sub DESTROY {} # Restore warning handler BEGIN { $SIG{__WARN__} = $SIG{__WARN__}->(); } 1; #line 159 SQL-Abstract-More-1.37/inc/Module/Install/WriteAll.pm0000644000000000000000000000237614005072536020741 0ustar rootroot#line 1 package Module::Install::WriteAll; use strict; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = qw{Module::Install::Base}; $ISCORE = 1; } sub WriteAll { my $self = shift; my %args = ( meta => 1, sign => 0, inline => 0, check_nmake => 1, @_, ); $self->sign(1) if $args{sign}; $self->admin->WriteAll(%args) if $self->is_admin; $self->check_nmake if $args{check_nmake}; unless ( $self->makemaker_args->{PL_FILES} ) { # XXX: This still may be a bit over-defensive... unless ($self->makemaker(6.25)) { $self->makemaker_args( PL_FILES => {} ) if -f 'Build.PL'; } } # Until ExtUtils::MakeMaker support MYMETA.yml, make sure # we clean it up properly ourself. $self->realclean_files('MYMETA.yml'); if ( $args{inline} ) { $self->Inline->write; } else { $self->Makefile->write; } # The Makefile write process adds a couple of dependencies, # so write the META.yml files after the Makefile. if ( $args{meta} ) { $self->Meta->write; } # Experimental support for MYMETA if ( $ENV{X_MYMETA} ) { if ( $ENV{X_MYMETA} eq 'JSON' ) { $self->Meta->write_mymeta_json; } else { $self->Meta->write_mymeta_yaml; } } return 1; } 1; SQL-Abstract-More-1.37/inc/Module/Install/AutoInstall.pm0000644000000000000000000000416214005072536021450 0ustar rootroot#line 1 package Module::Install::AutoInstall; use strict; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } sub AutoInstall { $_[0] } sub run { my $self = shift; $self->auto_install_now(@_); } sub write { my $self = shift; $self->auto_install(@_); } sub auto_install { my $self = shift; return if $self->{done}++; # Flatten array of arrays into a single array my @core = map @$_, map @$_, grep ref, $self->build_requires, $self->requires; my @config = @_; # We'll need Module::AutoInstall $self->include('Module::AutoInstall'); require Module::AutoInstall; my @features_require = Module::AutoInstall->import( (@config ? (-config => \@config) : ()), (@core ? (-core => \@core) : ()), $self->features, ); my %seen; my @requires = map @$_, map @$_, grep ref, $self->requires; while (my ($mod, $ver) = splice(@requires, 0, 2)) { $seen{$mod}{$ver}++; } my @build_requires = map @$_, map @$_, grep ref, $self->build_requires; while (my ($mod, $ver) = splice(@build_requires, 0, 2)) { $seen{$mod}{$ver}++; } my @configure_requires = map @$_, map @$_, grep ref, $self->configure_requires; while (my ($mod, $ver) = splice(@configure_requires, 0, 2)) { $seen{$mod}{$ver}++; } my @deduped; while (my ($mod, $ver) = splice(@features_require, 0, 2)) { push @deduped, $mod => $ver unless $seen{$mod}{$ver}++; } $self->requires(@deduped); $self->makemaker_args( Module::AutoInstall::_make_args() ); my $class = ref($self); $self->postamble( "# --- $class section:\n" . Module::AutoInstall::postamble() ); } sub installdeps_target { my ($self, @args) = @_; $self->include('Module::AutoInstall'); require Module::AutoInstall; Module::AutoInstall::_installdeps_target(1); $self->auto_install(@args); } sub auto_install_now { my $self = shift; $self->auto_install(@_); Module::AutoInstall::do_install(); } 1; SQL-Abstract-More-1.37/inc/Module/Install/Include.pm0000644000000000000000000000101514005072536020566 0ustar rootroot#line 1 package Module::Install::Include; use strict; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } sub include { shift()->admin->include(@_); } sub include_deps { shift()->admin->include_deps(@_); } sub auto_include { shift()->admin->auto_include(@_); } sub auto_include_deps { shift()->admin->auto_include_deps(@_); } sub auto_include_dependent_dists { shift()->admin->auto_include_dependent_dists(@_); } 1; SQL-Abstract-More-1.37/inc/Module/Install/Fetch.pm0000644000000000000000000000462714005072536020250 0ustar rootroot#line 1 package Module::Install::Fetch; use strict; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } sub get_file { my ($self, %args) = @_; my ($scheme, $host, $path, $file) = $args{url} =~ m|^(\w+)://([^/]+)(.+)/(.+)| or return; if ( $scheme eq 'http' and ! eval { require LWP::Simple; 1 } ) { $args{url} = $args{ftp_url} or (warn("LWP support unavailable!\n"), return); ($scheme, $host, $path, $file) = $args{url} =~ m|^(\w+)://([^/]+)(.+)/(.+)| or return; } $|++; print "Fetching '$file' from $host... "; unless (eval { require Socket; Socket::inet_aton($host) }) { warn "'$host' resolve failed!\n"; return; } return unless $scheme eq 'ftp' or $scheme eq 'http'; require Cwd; my $dir = Cwd::getcwd(); chdir $args{local_dir} or return if exists $args{local_dir}; if (eval { require LWP::Simple; 1 }) { LWP::Simple::mirror($args{url}, $file); } elsif (eval { require Net::FTP; 1 }) { eval { # use Net::FTP to get past firewall my $ftp = Net::FTP->new($host, Passive => 1, Timeout => 600); $ftp->login("anonymous", 'anonymous@example.com'); $ftp->cwd($path); $ftp->binary; $ftp->get($file) or (warn("$!\n"), return); $ftp->quit; } } elsif (my $ftp = $self->can_run('ftp')) { eval { # no Net::FTP, fallback to ftp.exe require FileHandle; my $fh = FileHandle->new; local $SIG{CHLD} = 'IGNORE'; unless ($fh->open("|$ftp -n")) { warn "Couldn't open ftp: $!\n"; chdir $dir; return; } my @dialog = split(/\n/, <<"END_FTP"); open $host user anonymous anonymous\@example.com cd $path binary get $file $file quit END_FTP foreach (@dialog) { $fh->print("$_\n") } $fh->close; } } else { warn "No working 'ftp' program available!\n"; chdir $dir; return; } unless (-f $file) { warn "Fetching failed: $@\n"; chdir $dir; return; } return if exists $args{size} and -s $file != $args{size}; system($args{run}) if exists $args{run}; unlink($file) if $args{remove}; print(((!exists $args{check_for} or -e $args{check_for}) ? "done!" : "failed! ($!)"), "\n"); chdir $dir; return !$?; } 1; SQL-Abstract-More-1.37/inc/Module/Install/Makefile.pm0000644000000000000000000002743714005072536020740 0ustar rootroot#line 1 package Module::Install::Makefile; use strict 'vars'; use ExtUtils::MakeMaker (); use Module::Install::Base (); use Fcntl qw/:flock :seek/; use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } sub Makefile { $_[0] } my %seen = (); sub prompt { shift; # Infinite loop protection my @c = caller(); if ( ++$seen{"$c[1]|$c[2]|$_[0]"} > 3 ) { die "Caught an potential prompt infinite loop ($c[1]|$c[2]|$_[0])"; } # In automated testing or non-interactive session, always use defaults if ( ($ENV{AUTOMATED_TESTING} or -! -t STDIN) and ! $ENV{PERL_MM_USE_DEFAULT} ) { local $ENV{PERL_MM_USE_DEFAULT} = 1; goto &ExtUtils::MakeMaker::prompt; } else { goto &ExtUtils::MakeMaker::prompt; } } # Store a cleaned up version of the MakeMaker version, # since we need to behave differently in a variety of # ways based on the MM version. my $makemaker = eval $ExtUtils::MakeMaker::VERSION; # If we are passed a param, do a "newer than" comparison. # Otherwise, just return the MakeMaker version. sub makemaker { ( @_ < 2 or $makemaker >= eval($_[1]) ) ? $makemaker : 0 } # Ripped from ExtUtils::MakeMaker 6.56, and slightly modified # as we only need to know here whether the attribute is an array # or a hash or something else (which may or may not be appendable). my %makemaker_argtype = ( C => 'ARRAY', CONFIG => 'ARRAY', # CONFIGURE => 'CODE', # ignore DIR => 'ARRAY', DL_FUNCS => 'HASH', DL_VARS => 'ARRAY', EXCLUDE_EXT => 'ARRAY', EXE_FILES => 'ARRAY', FUNCLIST => 'ARRAY', H => 'ARRAY', IMPORTS => 'HASH', INCLUDE_EXT => 'ARRAY', LIBS => 'ARRAY', # ignore '' MAN1PODS => 'HASH', MAN3PODS => 'HASH', META_ADD => 'HASH', META_MERGE => 'HASH', PL_FILES => 'HASH', PM => 'HASH', PMLIBDIRS => 'ARRAY', PMLIBPARENTDIRS => 'ARRAY', PREREQ_PM => 'HASH', CONFIGURE_REQUIRES => 'HASH', SKIP => 'ARRAY', TYPEMAPS => 'ARRAY', XS => 'HASH', # VERSION => ['version',''], # ignore # _KEEP_AFTER_FLUSH => '', clean => 'HASH', depend => 'HASH', dist => 'HASH', dynamic_lib=> 'HASH', linkext => 'HASH', macro => 'HASH', postamble => 'HASH', realclean => 'HASH', test => 'HASH', tool_autosplit => 'HASH', # special cases where you can use makemaker_append CCFLAGS => 'APPENDABLE', DEFINE => 'APPENDABLE', INC => 'APPENDABLE', LDDLFLAGS => 'APPENDABLE', LDFROM => 'APPENDABLE', ); sub makemaker_args { my ($self, %new_args) = @_; my $args = ( $self->{makemaker_args} ||= {} ); foreach my $key (keys %new_args) { if ($makemaker_argtype{$key}) { if ($makemaker_argtype{$key} eq 'ARRAY') { $args->{$key} = [] unless defined $args->{$key}; unless (ref $args->{$key} eq 'ARRAY') { $args->{$key} = [$args->{$key}] } push @{$args->{$key}}, ref $new_args{$key} eq 'ARRAY' ? @{$new_args{$key}} : $new_args{$key}; } elsif ($makemaker_argtype{$key} eq 'HASH') { $args->{$key} = {} unless defined $args->{$key}; foreach my $skey (keys %{ $new_args{$key} }) { $args->{$key}{$skey} = $new_args{$key}{$skey}; } } elsif ($makemaker_argtype{$key} eq 'APPENDABLE') { $self->makemaker_append($key => $new_args{$key}); } } else { if (defined $args->{$key}) { warn qq{MakeMaker attribute "$key" is overriden; use "makemaker_append" to append values\n}; } $args->{$key} = $new_args{$key}; } } return $args; } # For mm args that take multiple space-separated args, # append an argument to the current list. sub makemaker_append { my $self = shift; my $name = shift; my $args = $self->makemaker_args; $args->{$name} = defined $args->{$name} ? join( ' ', $args->{$name}, @_ ) : join( ' ', @_ ); } sub build_subdirs { my $self = shift; my $subdirs = $self->makemaker_args->{DIR} ||= []; for my $subdir (@_) { push @$subdirs, $subdir; } } sub clean_files { my $self = shift; my $clean = $self->makemaker_args->{clean} ||= {}; %$clean = ( %$clean, FILES => join ' ', grep { length $_ } ($clean->{FILES} || (), @_), ); } sub realclean_files { my $self = shift; my $realclean = $self->makemaker_args->{realclean} ||= {}; %$realclean = ( %$realclean, FILES => join ' ', grep { length $_ } ($realclean->{FILES} || (), @_), ); } sub libs { my $self = shift; my $libs = ref $_[0] ? shift : [ shift ]; $self->makemaker_args( LIBS => $libs ); } sub inc { my $self = shift; $self->makemaker_args( INC => shift ); } sub _wanted_t { } sub tests_recursive { my $self = shift; my $dir = shift || 't'; unless ( -d $dir ) { die "tests_recursive dir '$dir' does not exist"; } my %tests = map { $_ => 1 } split / /, ($self->tests || ''); require File::Find; File::Find::find( sub { /\.t$/ and -f $_ and $tests{"$File::Find::dir/*.t"} = 1 }, $dir ); $self->tests( join ' ', sort keys %tests ); } sub write { my $self = shift; die "&Makefile->write() takes no arguments\n" if @_; # Check the current Perl version my $perl_version = $self->perl_version; if ( $perl_version ) { eval "use $perl_version; 1" or die "ERROR: perl: Version $] is installed, " . "but we need version >= $perl_version"; } # Make sure we have a new enough MakeMaker require ExtUtils::MakeMaker; if ( $perl_version and $self->_cmp($perl_version, '5.006') >= 0 ) { # This previous attempted to inherit the version of # ExtUtils::MakeMaker in use by the module author, but this # was found to be untenable as some authors build releases # using future dev versions of EU:MM that nobody else has. # Instead, #toolchain suggests we use 6.59 which is the most # stable version on CPAN at time of writing and is, to quote # ribasushi, "not terminally fucked, > and tested enough". # TODO: We will now need to maintain this over time to push # the version up as new versions are released. $self->build_requires( 'ExtUtils::MakeMaker' => 6.59 ); $self->configure_requires( 'ExtUtils::MakeMaker' => 6.59 ); } else { # Allow legacy-compatibility with 5.005 by depending on the # most recent EU:MM that supported 5.005. $self->build_requires( 'ExtUtils::MakeMaker' => 6.36 ); $self->configure_requires( 'ExtUtils::MakeMaker' => 6.36 ); } # Generate the MakeMaker params my $args = $self->makemaker_args; $args->{DISTNAME} = $self->name; $args->{NAME} = $self->module_name || $self->name; $args->{NAME} =~ s/-/::/g; $args->{VERSION} = $self->version or die <<'EOT'; ERROR: Can't determine distribution version. Please specify it explicitly via 'version' in Makefile.PL, or set a valid $VERSION in a module, and provide its file path via 'version_from' (or 'all_from' if you prefer) in Makefile.PL. EOT if ( $self->tests ) { my @tests = split ' ', $self->tests; my %seen; $args->{test} = { TESTS => (join ' ', grep {!$seen{$_}++} @tests), }; } elsif ( $Module::Install::ExtraTests::use_extratests ) { # Module::Install::ExtraTests doesn't set $self->tests and does its own tests via harness. # So, just ignore our xt tests here. } elsif ( -d 'xt' and ($Module::Install::AUTHOR or $ENV{RELEASE_TESTING}) ) { $args->{test} = { TESTS => join( ' ', map { "$_/*.t" } grep { -d $_ } qw{ t xt } ), }; } if ( $] >= 5.005 ) { $args->{ABSTRACT} = $self->abstract; $args->{AUTHOR} = join ', ', @{$self->author || []}; } if ( $self->makemaker(6.10) ) { $args->{NO_META} = 1; #$args->{NO_MYMETA} = 1; } if ( $self->makemaker(6.17) and $self->sign ) { $args->{SIGN} = 1; } unless ( $self->is_admin ) { delete $args->{SIGN}; } if ( $self->makemaker(6.31) and $self->license ) { $args->{LICENSE} = $self->license; } my $prereq = ($args->{PREREQ_PM} ||= {}); %$prereq = ( %$prereq, map { @$_ } # flatten [module => version] map { @$_ } grep $_, ($self->requires) ); # Remove any reference to perl, PREREQ_PM doesn't support it delete $args->{PREREQ_PM}->{perl}; # Merge both kinds of requires into BUILD_REQUIRES my $build_prereq = ($args->{BUILD_REQUIRES} ||= {}); %$build_prereq = ( %$build_prereq, map { @$_ } # flatten [module => version] map { @$_ } grep $_, ($self->configure_requires, $self->build_requires) ); # Remove any reference to perl, BUILD_REQUIRES doesn't support it delete $args->{BUILD_REQUIRES}->{perl}; # Delete bundled dists from prereq_pm, add it to Makefile DIR my $subdirs = ($args->{DIR} || []); if ($self->bundles) { my %processed; foreach my $bundle (@{ $self->bundles }) { my ($mod_name, $dist_dir) = @$bundle; delete $prereq->{$mod_name}; $dist_dir = File::Basename::basename($dist_dir); # dir for building this module if (not exists $processed{$dist_dir}) { if (-d $dist_dir) { # List as sub-directory to be processed by make push @$subdirs, $dist_dir; } # Else do nothing: the module is already present on the system $processed{$dist_dir} = undef; } } } unless ( $self->makemaker('6.55_03') ) { %$prereq = (%$prereq,%$build_prereq); delete $args->{BUILD_REQUIRES}; } if ( my $perl_version = $self->perl_version ) { eval "use $perl_version; 1" or die "ERROR: perl: Version $] is installed, " . "but we need version >= $perl_version"; if ( $self->makemaker(6.48) ) { $args->{MIN_PERL_VERSION} = $perl_version; } } if ($self->installdirs) { warn qq{old INSTALLDIRS (probably set by makemaker_args) is overriden by installdirs\n} if $args->{INSTALLDIRS}; $args->{INSTALLDIRS} = $self->installdirs; } my %args = map { ( $_ => $args->{$_} ) } grep {defined($args->{$_} ) } keys %$args; my $user_preop = delete $args{dist}->{PREOP}; if ( my $preop = $self->admin->preop($user_preop) ) { foreach my $key ( keys %$preop ) { $args{dist}->{$key} = $preop->{$key}; } } my $mm = ExtUtils::MakeMaker::WriteMakefile(%args); $self->fix_up_makefile($mm->{FIRST_MAKEFILE} || 'Makefile'); } sub fix_up_makefile { my $self = shift; my $makefile_name = shift; my $top_class = ref($self->_top) || ''; my $top_version = $self->_top->VERSION || ''; my $preamble = $self->preamble ? "# Preamble by $top_class $top_version\n" . $self->preamble : ''; my $postamble = "# Postamble by $top_class $top_version\n" . ($self->postamble || ''); local *MAKEFILE; open MAKEFILE, "+< $makefile_name" or die "fix_up_makefile: Couldn't open $makefile_name: $!"; eval { flock MAKEFILE, LOCK_EX }; my $makefile = do { local $/; }; $makefile =~ s/\b(test_harness\(\$\(TEST_VERBOSE\), )/$1'inc', /; $makefile =~ s/( -I\$\(INST_ARCHLIB\))/ -Iinc$1/g; $makefile =~ s/( "-I\$\(INST_LIB\)")/ "-Iinc"$1/g; $makefile =~ s/^(FULLPERL = .*)/$1 "-Iinc"/m; $makefile =~ s/^(PERL = .*)/$1 "-Iinc"/m; # Module::Install will never be used to build the Core Perl # Sometimes PERL_LIB and PERL_ARCHLIB get written anyway, which breaks # PREFIX/PERL5LIB, and thus, install_share. Blank them if they exist $makefile =~ s/^PERL_LIB = .+/PERL_LIB =/m; #$makefile =~ s/^PERL_ARCHLIB = .+/PERL_ARCHLIB =/m; # Perl 5.005 mentions PERL_LIB explicitly, so we have to remove that as well. $makefile =~ s/(\"?)-I\$\(PERL_LIB\)\1//g; # XXX - This is currently unused; not sure if it breaks other MM-users # $makefile =~ s/^pm_to_blib\s+:\s+/pm_to_blib :: /mg; seek MAKEFILE, 0, SEEK_SET; truncate MAKEFILE, 0; print MAKEFILE "$preamble$makefile$postamble" or die $!; close MAKEFILE or die $!; 1; } sub preamble { my ($self, $text) = @_; $self->{preamble} = $text . $self->{preamble} if defined $text; $self->{preamble}; } sub postamble { my ($self, $text) = @_; $self->{postamble} ||= $self->admin->postamble; $self->{postamble} .= $text if defined $text; $self->{postamble} } 1; __END__ #line 544 SQL-Abstract-More-1.37/inc/Module/Install/Metadata.pm0000644000000000000000000004330214005072536020730 0ustar rootroot#line 1 package Module::Install::Metadata; use strict 'vars'; use Module::Install::Base (); use vars qw{$VERSION @ISA $ISCORE}; BEGIN { $VERSION = '1.19'; @ISA = 'Module::Install::Base'; $ISCORE = 1; } my @boolean_keys = qw{ sign }; my @scalar_keys = qw{ name module_name abstract version distribution_type tests installdirs }; my @tuple_keys = qw{ configure_requires build_requires requires recommends bundles resources }; my @resource_keys = qw{ homepage bugtracker repository }; my @array_keys = qw{ keywords author }; *authors = \&author; sub Meta { shift } sub Meta_BooleanKeys { @boolean_keys } sub Meta_ScalarKeys { @scalar_keys } sub Meta_TupleKeys { @tuple_keys } sub Meta_ResourceKeys { @resource_keys } sub Meta_ArrayKeys { @array_keys } foreach my $key ( @boolean_keys ) { *$key = sub { my $self = shift; if ( defined wantarray and not @_ ) { return $self->{values}->{$key}; } $self->{values}->{$key} = ( @_ ? $_[0] : 1 ); return $self; }; } foreach my $key ( @scalar_keys ) { *$key = sub { my $self = shift; return $self->{values}->{$key} if defined wantarray and !@_; $self->{values}->{$key} = shift; return $self; }; } foreach my $key ( @array_keys ) { *$key = sub { my $self = shift; return $self->{values}->{$key} if defined wantarray and !@_; $self->{values}->{$key} ||= []; push @{$self->{values}->{$key}}, @_; return $self; }; } foreach my $key ( @resource_keys ) { *$key = sub { my $self = shift; unless ( @_ ) { return () unless $self->{values}->{resources}; return map { $_->[1] } grep { $_->[0] eq $key } @{ $self->{values}->{resources} }; } return $self->{values}->{resources}->{$key} unless @_; my $uri = shift or die( "Did not provide a value to $key()" ); $self->resources( $key => $uri ); return 1; }; } foreach my $key ( grep { $_ ne "resources" } @tuple_keys) { *$key = sub { my $self = shift; return $self->{values}->{$key} unless @_; my @added; while ( @_ ) { my $module = shift or last; my $version = shift || 0; push @added, [ $module, $version ]; } push @{ $self->{values}->{$key} }, @added; return map {@$_} @added; }; } # Resource handling my %lc_resource = map { $_ => 1 } qw{ homepage license bugtracker repository }; sub resources { my $self = shift; while ( @_ ) { my $name = shift or last; my $value = shift or next; if ( $name eq lc $name and ! $lc_resource{$name} ) { die("Unsupported reserved lowercase resource '$name'"); } $self->{values}->{resources} ||= []; push @{ $self->{values}->{resources} }, [ $name, $value ]; } $self->{values}->{resources}; } # Aliases for build_requires that will have alternative # meanings in some future version of META.yml. sub test_requires { shift->build_requires(@_) } sub install_requires { shift->build_requires(@_) } # Aliases for installdirs options sub install_as_core { $_[0]->installdirs('perl') } sub install_as_cpan { $_[0]->installdirs('site') } sub install_as_site { $_[0]->installdirs('site') } sub install_as_vendor { $_[0]->installdirs('vendor') } sub dynamic_config { my $self = shift; my $value = @_ ? shift : 1; if ( $self->{values}->{dynamic_config} ) { # Once dynamic we never change to static, for safety return 0; } $self->{values}->{dynamic_config} = $value ? 1 : 0; return 1; } # Convenience command sub static_config { shift->dynamic_config(0); } sub perl_version { my $self = shift; return $self->{values}->{perl_version} unless @_; my $version = shift or die( "Did not provide a value to perl_version()" ); # Normalize the version $version = $self->_perl_version($version); # We don't support the really old versions unless ( $version >= 5.005 ) { die "Module::Install only supports 5.005 or newer (use ExtUtils::MakeMaker)\n"; } $self->{values}->{perl_version} = $version; } sub all_from { my ( $self, $file ) = @_; unless ( defined($file) ) { my $name = $self->name or die( "all_from called with no args without setting name() first" ); $file = join('/', 'lib', split(/-/, $name)) . '.pm'; $file =~ s{.*/}{} unless -e $file; unless ( -e $file ) { die("all_from cannot find $file from $name"); } } unless ( -f $file ) { die("The path '$file' does not exist, or is not a file"); } $self->{values}{all_from} = $file; # Some methods pull from POD instead of code. # If there is a matching .pod, use that instead my $pod = $file; $pod =~ s/\.pm$/.pod/i; $pod = $file unless -e $pod; # Pull the different values $self->name_from($file) unless $self->name; $self->version_from($file) unless $self->version; $self->perl_version_from($file) unless $self->perl_version; $self->author_from($pod) unless @{$self->author || []}; $self->license_from($pod) unless $self->license; $self->abstract_from($pod) unless $self->abstract; return 1; } sub provides { my $self = shift; my $provides = ( $self->{values}->{provides} ||= {} ); %$provides = (%$provides, @_) if @_; return $provides; } sub auto_provides { my $self = shift; return $self unless $self->is_admin; unless (-e 'MANIFEST') { warn "Cannot deduce auto_provides without a MANIFEST, skipping\n"; return $self; } # Avoid spurious warnings as we are not checking manifest here. local $SIG{__WARN__} = sub {1}; require ExtUtils::Manifest; local *ExtUtils::Manifest::manicheck = sub { return }; require Module::Build; my $build = Module::Build->new( dist_name => $self->name, dist_version => $self->version, license => $self->license, ); $self->provides( %{ $build->find_dist_packages || {} } ); } sub feature { my $self = shift; my $name = shift; my $features = ( $self->{values}->{features} ||= [] ); my $mods; if ( @_ == 1 and ref( $_[0] ) ) { # The user used ->feature like ->features by passing in the second # argument as a reference. Accomodate for that. $mods = $_[0]; } else { $mods = \@_; } my $count = 0; push @$features, ( $name => [ map { ref($_) ? ( ref($_) eq 'HASH' ) ? %$_ : @$_ : $_ } @$mods ] ); return @$features; } sub features { my $self = shift; while ( my ( $name, $mods ) = splice( @_, 0, 2 ) ) { $self->feature( $name, @$mods ); } return $self->{values}->{features} ? @{ $self->{values}->{features} } : (); } sub no_index { my $self = shift; my $type = shift; push @{ $self->{values}->{no_index}->{$type} }, @_ if $type; return $self->{values}->{no_index}; } sub read { my $self = shift; $self->include_deps( 'YAML::Tiny', 0 ); require YAML::Tiny; my $data = YAML::Tiny::LoadFile('META.yml'); # Call methods explicitly in case user has already set some values. while ( my ( $key, $value ) = each %$data ) { next unless $self->can($key); if ( ref $value eq 'HASH' ) { while ( my ( $module, $version ) = each %$value ) { $self->can($key)->($self, $module => $version ); } } else { $self->can($key)->($self, $value); } } return $self; } sub write { my $self = shift; return $self unless $self->is_admin; $self->admin->write_meta; return $self; } sub version_from { require ExtUtils::MM_Unix; my ( $self, $file ) = @_; $self->version( ExtUtils::MM_Unix->parse_version($file) ); # for version integrity check $self->makemaker_args( VERSION_FROM => $file ); } sub abstract_from { require ExtUtils::MM_Unix; my ( $self, $file ) = @_; $self->abstract( bless( { DISTNAME => $self->name }, 'ExtUtils::MM_Unix' )->parse_abstract($file) ); } # Add both distribution and module name sub name_from { my ($self, $file) = @_; if ( Module::Install::_read($file) =~ m/ ^ \s* package \s* ([\w:]+) [\s|;]* /ixms ) { my ($name, $module_name) = ($1, $1); $name =~ s{::}{-}g; $self->name($name); unless ( $self->module_name ) { $self->module_name($module_name); } } else { die("Cannot determine name from $file\n"); } } sub _extract_perl_version { if ( $_[0] =~ m/ ^\s* (?:use|require) \s* v? ([\d_\.]+) \s* ; /ixms ) { my $perl_version = $1; $perl_version =~ s{_}{}g; return $perl_version; } else { return; } } sub perl_version_from { my $self = shift; my $perl_version=_extract_perl_version(Module::Install::_read($_[0])); if ($perl_version) { $self->perl_version($perl_version); } else { warn "Cannot determine perl version info from $_[0]\n"; return; } } sub author_from { my $self = shift; my $content = Module::Install::_read($_[0]); if ($content =~ m/ =head \d \s+ (?:authors?)\b \s* ([^\n]*) | =head \d \s+ (?:licen[cs]e|licensing|copyright|legal)\b \s* .*? copyright .*? \d\d\d[\d.]+ \s* (?:\bby\b)? \s* ([^\n]*) /ixms) { my $author = $1 || $2; # XXX: ugly but should work anyway... if (eval "require Pod::Escapes; 1") { # Pod::Escapes has a mapping table. # It's in core of perl >= 5.9.3, and should be installed # as one of the Pod::Simple's prereqs, which is a prereq # of Pod::Text 3.x (see also below). $author =~ s{ E<( (\d+) | ([A-Za-z]+) )> } { defined $2 ? chr($2) : defined $Pod::Escapes::Name2character_number{$1} ? chr($Pod::Escapes::Name2character_number{$1}) : do { warn "Unknown escape: E<$1>"; "E<$1>"; }; }gex; } elsif (eval "require Pod::Text; 1" && $Pod::Text::VERSION < 3) { # Pod::Text < 3.0 has yet another mapping table, # though the table name of 2.x and 1.x are different. # (1.x is in core of Perl < 5.6, 2.x is in core of # Perl < 5.9.3) my $mapping = ($Pod::Text::VERSION < 2) ? \%Pod::Text::HTML_Escapes : \%Pod::Text::ESCAPES; $author =~ s{ E<( (\d+) | ([A-Za-z]+) )> } { defined $2 ? chr($2) : defined $mapping->{$1} ? $mapping->{$1} : do { warn "Unknown escape: E<$1>"; "E<$1>"; }; }gex; } else { $author =~ s{E}{<}g; $author =~ s{E}{>}g; } $self->author($author); } else { warn "Cannot determine author info from $_[0]\n"; } } #Stolen from M::B my %license_urls = ( perl => 'http://dev.perl.org/licenses/', apache => 'http://apache.org/licenses/LICENSE-2.0', apache_1_1 => 'http://apache.org/licenses/LICENSE-1.1', artistic => 'http://opensource.org/licenses/artistic-license.php', artistic_2 => 'http://opensource.org/licenses/artistic-license-2.0.php', lgpl => 'http://opensource.org/licenses/lgpl-license.php', lgpl2 => 'http://opensource.org/licenses/lgpl-2.1.php', lgpl3 => 'http://opensource.org/licenses/lgpl-3.0.html', bsd => 'http://opensource.org/licenses/bsd-license.php', gpl => 'http://opensource.org/licenses/gpl-license.php', gpl2 => 'http://opensource.org/licenses/gpl-2.0.php', gpl3 => 'http://opensource.org/licenses/gpl-3.0.html', mit => 'http://opensource.org/licenses/mit-license.php', mozilla => 'http://opensource.org/licenses/mozilla1.1.php', open_source => undef, unrestricted => undef, restrictive => undef, unknown => undef, ); sub license { my $self = shift; return $self->{values}->{license} unless @_; my $license = shift or die( 'Did not provide a value to license()' ); $license = __extract_license($license) || lc $license; $self->{values}->{license} = $license; # Automatically fill in license URLs if ( $license_urls{$license} ) { $self->resources( license => $license_urls{$license} ); } return 1; } sub _extract_license { my $pod = shift; my $matched; return __extract_license( ($matched) = $pod =~ m/ (=head \d \s+ L(?i:ICEN[CS]E|ICENSING)\b.*?) (=head \d.*|=cut.*|)\z /xms ) || __extract_license( ($matched) = $pod =~ m/ (=head \d \s+ (?:C(?i:OPYRIGHTS?)|L(?i:EGAL))\b.*?) (=head \d.*|=cut.*|)\z /xms ); } sub __extract_license { my $license_text = shift or return; my @phrases = ( '(?:under )?the same (?:terms|license) as (?:perl|the perl (?:\d )?programming language)' => 'perl', 1, '(?:under )?the terms of (?:perl|the perl programming language) itself' => 'perl', 1, 'Artistic and GPL' => 'perl', 1, 'GNU general public license' => 'gpl', 1, 'GNU public license' => 'gpl', 1, 'GNU lesser general public license' => 'lgpl', 1, 'GNU lesser public license' => 'lgpl', 1, 'GNU library general public license' => 'lgpl', 1, 'GNU library public license' => 'lgpl', 1, 'GNU Free Documentation license' => 'unrestricted', 1, 'GNU Affero General Public License' => 'open_source', 1, '(?:Free)?BSD license' => 'bsd', 1, 'Artistic license 2\.0' => 'artistic_2', 1, 'Artistic license' => 'artistic', 1, 'Apache (?:Software )?license' => 'apache', 1, 'GPL' => 'gpl', 1, 'LGPL' => 'lgpl', 1, 'BSD' => 'bsd', 1, 'Artistic' => 'artistic', 1, 'MIT' => 'mit', 1, 'Mozilla Public License' => 'mozilla', 1, 'Q Public License' => 'open_source', 1, 'OpenSSL License' => 'unrestricted', 1, 'SSLeay License' => 'unrestricted', 1, 'zlib License' => 'open_source', 1, 'proprietary' => 'proprietary', 0, ); while ( my ($pattern, $license, $osi) = splice(@phrases, 0, 3) ) { $pattern =~ s#\s+#\\s+#gs; if ( $license_text =~ /\b$pattern\b/i ) { return $license; } } return ''; } sub license_from { my $self = shift; if (my $license=_extract_license(Module::Install::_read($_[0]))) { $self->license($license); } else { warn "Cannot determine license info from $_[0]\n"; return 'unknown'; } } sub _extract_bugtracker { my @links = $_[0] =~ m#L<( https?\Q://rt.cpan.org/\E[^>]+| https?\Q://github.com/\E[\w_]+/[\w_]+/issues| https?\Q://code.google.com/p/\E[\w_\-]+/issues/list )>#gx; my %links; @links{@links}=(); @links=keys %links; return @links; } sub bugtracker_from { my $self = shift; my $content = Module::Install::_read($_[0]); my @links = _extract_bugtracker($content); unless ( @links ) { warn "Cannot determine bugtracker info from $_[0]\n"; return 0; } if ( @links > 1 ) { warn "Found more than one bugtracker link in $_[0]\n"; return 0; } # Set the bugtracker bugtracker( $links[0] ); return 1; } sub requires_from { my $self = shift; my $content = Module::Install::_readperl($_[0]); my @requires = $content =~ m/^use\s+([^\W\d]\w*(?:::\w+)*)\s+(v?[\d\.]+)/mg; while ( @requires ) { my $module = shift @requires; my $version = shift @requires; $self->requires( $module => $version ); } } sub test_requires_from { my $self = shift; my $content = Module::Install::_readperl($_[0]); my @requires = $content =~ m/^use\s+([^\W\d]\w*(?:::\w+)*)\s+([\d\.]+)/mg; while ( @requires ) { my $module = shift @requires; my $version = shift @requires; $self->test_requires( $module => $version ); } } # Convert triple-part versions (eg, 5.6.1 or 5.8.9) to # numbers (eg, 5.006001 or 5.008009). # Also, convert double-part versions (eg, 5.8) sub _perl_version { my $v = $_[-1]; $v =~ s/^([1-9])\.([1-9]\d?\d?)$/sprintf("%d.%03d",$1,$2)/e; $v =~ s/^([1-9])\.([1-9]\d?\d?)\.(0|[1-9]\d?\d?)$/sprintf("%d.%03d%03d",$1,$2,$3 || 0)/e; $v =~ s/(\.\d\d\d)000$/$1/; $v =~ s/_.+$//; if ( ref($v) ) { # Numify $v = $v + 0; } return $v; } sub add_metadata { my $self = shift; my %hash = @_; for my $key (keys %hash) { warn "add_metadata: $key is not prefixed with 'x_'.\n" . "Use appopriate function to add non-private metadata.\n" unless $key =~ /^x_/; $self->{values}->{$key} = $hash{$key}; } } ###################################################################### # MYMETA Support sub WriteMyMeta { die "WriteMyMeta has been deprecated"; } sub write_mymeta_yaml { my $self = shift; # We need YAML::Tiny to write the MYMETA.yml file unless ( eval { require YAML::Tiny; 1; } ) { return 1; } # Generate the data my $meta = $self->_write_mymeta_data or return 1; # Save as the MYMETA.yml file print "Writing MYMETA.yml\n"; YAML::Tiny::DumpFile('MYMETA.yml', $meta); } sub write_mymeta_json { my $self = shift; # We need JSON to write the MYMETA.json file unless ( eval { require JSON; 1; } ) { return 1; } # Generate the data my $meta = $self->_write_mymeta_data or return 1; # Save as the MYMETA.yml file print "Writing MYMETA.json\n"; Module::Install::_write( 'MYMETA.json', JSON->new->pretty(1)->canonical->encode($meta), ); } sub _write_mymeta_data { my $self = shift; # If there's no existing META.yml there is nothing we can do return undef unless -f 'META.yml'; # We need Parse::CPAN::Meta to load the file unless ( eval { require Parse::CPAN::Meta; 1; } ) { return undef; } # Merge the perl version into the dependencies my $val = $self->Meta->{values}; my $perl = delete $val->{perl_version}; if ( $perl ) { $val->{requires} ||= []; my $requires = $val->{requires}; # Canonize to three-dot version after Perl 5.6 if ( $perl >= 5.006 ) { $perl =~ s{^(\d+)\.(\d\d\d)(\d*)}{join('.', $1, int($2||0), int($3||0))}e } unshift @$requires, [ perl => $perl ]; } # Load the advisory META.yml file my @yaml = Parse::CPAN::Meta::LoadFile('META.yml'); my $meta = $yaml[0]; # Overwrite the non-configure dependency hashes delete $meta->{requires}; delete $meta->{build_requires}; delete $meta->{recommends}; if ( exists $val->{requires} ) { $meta->{requires} = { map { @$_ } @{ $val->{requires} } }; } if ( exists $val->{build_requires} ) { $meta->{build_requires} = { map { @$_ } @{ $val->{build_requires} } }; } return $meta; } 1; SQL-Abstract-More-1.37/MANIFEST0000644000000000000000000000124214004477344014401 0ustar rootrootChanges inc/Module/AutoInstall.pm inc/Module/Install.pm inc/Module/Install/AutoInstall.pm inc/Module/Install/Base.pm inc/Module/Install/Can.pm inc/Module/Install/Fetch.pm inc/Module/Install/Include.pm inc/Module/Install/Makefile.pm inc/Module/Install/Metadata.pm inc/Module/Install/Win32.pm inc/Module/Install/WriteAll.pm lib/SQL/Abstract/More.pm Makefile.PL MANIFEST This list of files META.yml README t/01-sql_abstract_more.t t/02-order-by.t t/03-join_with_constants.t t/04-multicols_in.t t/05-join-with-using.t t/06_with_table_expression.t t/07-import.t t/99_sqla_tests.t t/classic/parent_classic.t t/lib/UsurpSQLA.pm t/rt_084972.t t/rt_086895.t t/rt_099455.t xt/pod.t SQL-Abstract-More-1.37/README0000644000000000000000000000234314004513612014120 0ustar rootrootSQL-Abstract-More This subclass of L handles a few additional SQL constructs, and provides an improved API with named parameters instead of positional parameters. It was designed for the specific needs of L but is published as a separate distribution, because it may possibly be useful for other needs. INSTALLATION To install this module, run the following commands: perl Makefile.PL make (or gmake on Windows Strawberry Perl) make test make install SUPPORT AND DOCUMENTATION After installing, you can find documentation for this module with the perldoc command. perldoc SQL::Abstract::More You can also look for information at: RT, CPAN's request tracker http://rt.cpan.org/NoAuth/Bugs.html?Dist=SQL-Abstract-More CPAN Ratings http://cpanratings.perl.org/d/SQL-Abstract-More Search CPAN http://metacpan.org/pod/SQL::Abstract::More LICENSE AND COPYRIGHT Copyright (C) 2011-2021 Laurent Dami This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information. SQL-Abstract-More-1.37/Makefile.PL0000644000000000000000000000177714004471333015227 0ustar rootrootuse 5.008; use strict; use warnings FATAL => 'all'; use inc::Module::Install; name 'SQL-Abstract-More'; all_from 'lib/SQL/Abstract/More.pm'; author q{Laurent Dami }; license 'artistic2'; perl_version 5.008; tests_recursive('t'); resources ( homepage => 'https://metacpan.org/author/DAMI', license => 'http://www.perlfoundation.org/artistic_license_2_0', repository => 'git://github.com/damil/SQL-Abstract-More.git', bugtracker => 'http://rt.cpan.org/NoAuth/Bugs.html?Dist=SQL-Abstract-More', ); test_requires ( 'Test::More' => 0, 'Test::Exception' => 0, 'SQL::Abstract::Test' => 0, 'List::MoreUtils' => 0, ); requires ( 'MRO::Compat' => 0, 'SQL::Abstract' => 1.73, 'Params::Validate' => 0, 'parent' => 0, 'namespace::clean' => 0, 'Scalar::Util' => 0, ); recommends ( 'SQL::Abstract::Classic' => 0, ); install_as_cpan; auto_install; WriteAll; SQL-Abstract-More-1.37/lib/0000755000000000000000000000000014005073036014006 5ustar rootrootSQL-Abstract-More-1.37/lib/SQL/0000755000000000000000000000000014005072624014447 5ustar rootrootSQL-Abstract-More-1.37/lib/SQL/Abstract/0000755000000000000000000000000014005072624016212 5ustar rootrootSQL-Abstract-More-1.37/lib/SQL/Abstract/More.pm0000644000000000000000000024426114005072223017456 0ustar rootrootpackage SQL::Abstract::More; use strict; use warnings; # no "use parent ..." here -- the inheritance is specified dynamically in the # import() method -- inheriting either from SQL::Abstract or SQL::Abstract::Classic use MRO::Compat; use mro 'c3'; # implements next::method use Params::Validate qw/validate SCALAR SCALARREF CODEREF ARRAYREF HASHREF UNDEF BOOLEAN/; use Scalar::Util qw/blessed reftype/; # remove all previously defined or imported functions use namespace::clean; # declare error-reporting functions from SQL::Abstract sub puke(@); sub belch(@); # these will be defined later in import() our $VERSION = '1.37'; our @ISA; sub import { my $class = shift; # parent class specified from environment variable, or default value my $parent_sqla = $ENV{SQL_ABSTRACT_MORE_EXTENDS} || 'SQL::Abstract'; # parent class specified through -extends => .. when calling import() $parent_sqla = $_[1] if @_ >= 2 && $_[0] eq '-extends'; # syntactic sugar : 'Classic' is expanded into SQLA::Classic $parent_sqla = 'SQL::Abstract::Classic' if $parent_sqla eq 'Classic'; # make sure that import() does never get called with different parents if (my $already_isa = $ISA[0]) { $already_isa eq $parent_sqla or die "cannot use SQL::Abstract::More -extends => '$parent_sqla', " . "this module was already loaded with -extends => '$already_isa'"; # the rest of the import() job was already performed, so just return from here return; } # load the parent, inherit from it, import puke() and belch() eval qq{use parent '$parent_sqla'; *puke = \\&${parent_sqla}::puke; *belch = \\&${parent_sqla}::belch; }; # local override of some methods for insert() and update() _setup_insert_inheritance($parent_sqla); _setup_update_inheritance($parent_sqla); } #---------------------------------------------------------------------- # Utility functions -- not methods -- declared _after_ # namespace::clean so that they can remain visible by external # modules. In particular, DBIx::DataModel imports these functions. #---------------------------------------------------------------------- # shallow_clone(): copies of the top-level keys and values, blessed into the same class sub shallow_clone { my ($orig, %override) = @_; my $class = ref $orig or puke "arg must be an object"; my $clone = {%$orig, %override}; return bless $clone, $class; } # does(): cheap version of Scalar::Does my %meth_for = ( ARRAY => '@{}', HASH => '%{}', SCALAR => '${}', CODE => '&{}', ); sub does ($$) { my ($data, $type) = @_; my $reft = reftype $data; return defined $reft && $reft eq $type || blessed $data && overload::Method($data, $meth_for{$type}); } #---------------------------------------------------------------------- # global variables #---------------------------------------------------------------------- # builtin methods for "Limit-Offset" dialects my %limit_offset_dialects = ( LimitOffset => sub {my ($self, $limit, $offset) = @_; $offset ||= 0; return "LIMIT ? OFFSET ?", $limit, $offset;}, LimitXY => sub {my ($self, $limit, $offset) = @_; $offset ||= 0; return "LIMIT ?, ?", $offset, $limit;}, LimitYX => sub {my ($self, $limit, $offset) = @_; $offset ||= 0; return "LIMIT ?, ?", $limit, $offset;}, RowNum => sub { my ($self, $limit, $offset) = @_; # HACK below borrowed from SQL::Abstract::Limit. Not perfect, though, # because it brings back an additional column. Should borrow from # DBIx::Class::SQLMaker::LimitDialects, which does the proper job ... # but it says : "!!! THIS IS ALSO HORRIFIC !!! /me ashamed"; so # I'll only take it as last resort; still exploring other ways. # See also L : within that ORM an additional layer is # added to take advantage of Oracle scrollable cursors. my $sql = "SELECT * FROM (" . "SELECT subq_A.*, ROWNUM rownum__index FROM (%s) subq_A " . "WHERE ROWNUM <= ?" . ") subq_B WHERE rownum__index >= ?"; no warnings 'uninitialized'; # in case $limit or $offset is undef # row numbers start at 1 return $sql, $offset + $limit, $offset + 1; }, ); # builtin join operators with associated sprintf syntax my %common_join_syntax = ( '<=>' => '%s INNER JOIN %s ON %s', '=>' => '%s LEFT OUTER JOIN %s ON %s', '<=' => '%s RIGHT OUTER JOIN %s ON %s', '==' => '%s NATURAL JOIN %s', '>=<' => '%s FULL OUTER JOIN %s ON %s', ); my %right_assoc_join_syntax = %common_join_syntax; s/JOIN %s/JOIN (%s)/ foreach values %right_assoc_join_syntax; # specification of parameters accepted by the new() method my %params_for_new = ( table_alias => {type => SCALAR|CODEREF, default => '%s AS %s'}, column_alias => {type => SCALAR|CODEREF, default => '%s AS %s'}, limit_offset => {type => SCALAR|CODEREF, default => 'LimitOffset'}, join_syntax => {type => HASHREF, default => \%common_join_syntax}, join_assoc_right => {type => BOOLEAN, default => 0}, max_members_IN => {type => SCALAR, optional => 1}, multicols_sep => {type => SCALAR|SCALARREF, optional => 1}, has_multicols_in_SQL => {type => BOOLEAN, optional => 1}, sql_dialect => {type => SCALAR, optional => 1}, select_implicitly_for=> {type => SCALAR|UNDEF, optional => 1}, ); # builtin collection of parameters, for various databases my %sql_dialects = ( MsAccess => { join_assoc_right => 1, join_syntax => \%right_assoc_join_syntax}, BasisJDBC => { column_alias => "%s %s", max_members_IN => 255 }, MySQL_old => { limit_offset => "LimitXY" }, Oracle => { limit_offset => "RowNum", max_members_IN => 999, table_alias => '%s %s', column_alias => '%s %s', has_multicols_in_SQL => 1, }, ); # operators for compound queries my @set_operators = qw/union union_all intersect minus except/; # specification of parameters accepted by select, insert, update, delete my %params_for_select = ( -columns => {type => SCALAR|ARRAYREF, default => '*'}, -from => {type => SCALAR|SCALARREF|ARRAYREF}, -where => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, (map {-$_ => {type => ARRAYREF, optional => 1}} @set_operators), -group_by => {type => SCALAR|ARRAYREF, optional => 1}, -having => {type => SCALAR|ARRAYREF|HASHREF, optional => 1, depends => '-group_by'}, -order_by => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -page_size => {type => SCALAR, optional => 1}, -page_index => {type => SCALAR, optional => 1, depends => '-page_size'}, -limit => {type => SCALAR, optional => 1}, -offset => {type => SCALAR, optional => 1, depends => '-limit'}, -for => {type => SCALAR|UNDEF, optional => 1}, -want_details => {type => BOOLEAN, optional => 1}, ); my %params_for_insert = ( -into => {type => SCALAR}, -values => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -select => {type => HASHREF, optional => 1}, -columns => {type => ARRAYREF, optional => 1}, -returning => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -add_sql => {type => SCALAR, optional => 1}, ); my %params_for_update = ( -table => {type => SCALAR|SCALARREF|ARRAYREF}, -set => {type => HASHREF}, -where => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -order_by => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -limit => {type => SCALAR, optional => 1}, -returning => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -add_sql => {type => SCALAR, optional => 1}, ); my %params_for_delete = ( -from => {type => SCALAR}, -where => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -order_by => {type => SCALAR|ARRAYREF|HASHREF, optional => 1}, -limit => {type => SCALAR, optional => 1}, -add_sql => {type => SCALAR, optional => 1}, ); my %params_for_WITH = ( -table => {type => SCALAR}, -columns => {type => SCALAR|ARRAYREF, optional => 1}, -as_select => {type => HASHREF}, -final_clause => {type => SCALAR, optional => 1}, ); #---------------------------------------------------------------------- # object creation #---------------------------------------------------------------------- sub new { my $class = shift; my %params = does($_[0], 'HASH') ? %{$_[0]} : @_; # extract params for this subclass my %more_params; foreach my $key (keys %params_for_new) { $more_params{$key} = delete $params{$key} if exists $params{$key}; } # import params from SQL dialect, if any my $dialect = delete $more_params{sql_dialect}; if ($dialect) { my $dialect_params = $sql_dialects{$dialect} or puke "no such sql dialect: $dialect"; $more_params{$_} ||= $dialect_params->{$_} foreach keys %$dialect_params; } # check parameters for this class my @more_params = %more_params; my $more_self = validate(@more_params, \%params_for_new); # check some of the params for parent -- because SQLA doesn't do it :-( !$params{quote_char} || exists $params{name_sep} or belch "when 'quote_char' is present, 'name_sep' should be present too"; # call parent constructor my $self = $class->next::method(%params); # inject into $self $self->{$_} = $more_self->{$_} foreach keys %$more_self; # arguments supplied as scalars are transformed into coderefs ref $self->{column_alias} or $self->_make_sub_column_alias; ref $self->{table_alias} or $self->_make_sub_table_alias; ref $self->{limit_offset} or $self->_choose_LIMIT_OFFSET_dialect; # regex for parsing join specifications my @join_ops = sort {length($b) <=> length($a) || $a cmp $b} keys %{$self->{join_syntax}}; my $joined_ops = join '|', map quotemeta, @join_ops; $self->{join_regex} = qr[ ^ # initial anchor ($joined_ops)? # $1: join operator (i.e. '<=>', '=>', etc.)) ([[{])? # $2: opening '[' or '{' (.*?) # $3: content of brackets []}]? # closing ']' or '}' $ # final anchor ]x; return $self; } #---------------------------------------------------------------------- # support for WITH or WITH RECURSIVE #---------------------------------------------------------------------- sub with_recursive { my $self = shift; my $new_instance = $self->with(@_); $new_instance->{WITH}{sql} =~ s/^WITH\b/WITH RECURSIVE/; return $new_instance; } sub with { my $self = shift; ! $self->{WITH} or puke "calls to the with() or with_recursive() method cannot be chained"; @_ or puke "->with() : missing arguments"; # create a copy of the current object with an additional attribute WITH my $clone = shallow_clone($self, WITH => {sql => "", bind => []}); # assemble SQL and bind values for each table expression my @table_expressions = does($_[0], 'ARRAY') ? @_ : ( [ @_]); foreach my $table_expression (@table_expressions) { my %args = validate(@$table_expression, \%params_for_WITH); my ($sql, @bind) = $self->select(%{$args{-as_select}}); $clone->{WITH}{sql} .= ", " if $clone->{WITH}{sql}; $clone->{WITH}{sql} .= $args{-table}; $clone->{WITH}{sql} .= "(" . join(", ", @{$args{-columns}}) . ")" if $args{-columns}; $clone->{WITH}{sql} .= " AS ($sql) "; $clone->{WITH}{sql} .= $args{-final_clause} . " " if $args{-final_clause}; push @{$clone->{WITH}{bind}}, @bind; } # add the initial keyword WITH substr($clone->{WITH}{sql}, 0, 0, 'WITH '); return $clone; } sub _prepend_WITH_clause { my ($self, $ref_sql, $ref_bind) = @_; return if !$self->{WITH}; substr($$ref_sql, 0, 0, $self->{WITH}{sql}); unshift @$ref_bind, @{$self->{WITH}{bind}}; } #---------------------------------------------------------------------- # the select method #---------------------------------------------------------------------- sub select { my $self = shift; # if got positional args, this is not our job, just delegate to the parent return $self->next::method(@_) if !&_called_with_named_args; my %aliased_columns; # parse arguments my %args = validate(@_, \%params_for_select); # compute join info if the datasource is a join my $join_info = $self->_compute_join_info($args{-from}); $args{-from} = \($join_info->{sql}) if $join_info; # reorganize columns; initial members starting with "-" are extracted # into a separate list @post_select, later re-injected into the SQL my @cols = ref $args{-columns} ? @{$args{-columns}} : $args{-columns}; my @post_select; push @post_select, shift @cols while @cols && $cols[0] =~ s/^-//; foreach my $col (@cols) { # extract alias, if any if ($col =~ /^\s* # ignore insignificant leading spaces (.*[^|\s]) # any non-empty string, not ending with ' ' or '|' \| # followed by a literal '|' (\w+) # followed by a word (the alias)) \s* # ignore insignificant trailing spaces $/x) { $aliased_columns{$2} = $1; $col = $self->column_alias($1, $2); } } $args{-columns} = \@cols; # reorganize pagination if ($args{-page_index} || $args{-page_size}) { not exists $args{$_} or puke "-page_size conflicts with $_" for qw/-limit -offset/; $args{-limit} = $args{-page_size}; if ($args{-page_index}) { $args{-offset} = ($args{-page_index} - 1) * $args{-page_size}; } } # generate initial ($sql, @bind), without -order_by (will be handled later) my @old_API_args = @args{qw/-from -columns -where/}; # my ($sql, @bind) = $self->next::method(@old_API_args); unshift @bind, @{$join_info->{bind}} if $join_info; # add @post_select clauses if needed (for ex. -distinct) my $post_select = join " ", @post_select; $sql =~ s[^SELECT ][SELECT $post_select ]i if $post_select; # add set operators (UNION, INTERSECT, etc) if needed foreach my $set_op (@set_operators) { if ($args{-$set_op}) { my %sub_args = @{$args{-$set_op}}; $sub_args{$_} ||= $args{$_} for qw/-columns -from/; local $self->{WITH}; # temporarily disable the WITH part during the subquery my ($sql1, @bind1) = $self->select(%sub_args); (my $sql_op = uc($set_op)) =~ s/_/ /g; $sql .= " $sql_op $sql1"; push @bind, @bind1; } } # add GROUP BY/HAVING if needed if ($args{-group_by}) { my $sql_grp = $self->where(undef, $args{-group_by}); $sql_grp =~ s/\bORDER\b/GROUP/; if ($args{-having}) { my ($sql_having, @bind_having) = $self->where($args{-having}); $sql_having =~ s/\bWHERE\b/HAVING/; $sql_grp .= " $sql_having"; push @bind, @bind_having; } $sql .= $sql_grp; } # add ORDER BY if needed if (my $order = $args{-order_by}) { my ($sql_order, @orderby_bind) = $self->_order_by($order); $sql .= $sql_order; push @bind, @orderby_bind; } # add LIMIT/OFFSET if needed if (defined $args{-limit}) { my ($limit_sql, @limit_bind) = $self->limit_offset(@args{qw/-limit -offset/}); $sql = $limit_sql =~ /%s/ ? sprintf $limit_sql, $sql : "$sql $limit_sql"; push @bind, @limit_bind; } # add FOR clause if needed my $for = exists $args{-for} ? $args{-for} : $self->{select_implicitly_for}; $sql .= " FOR $for" if $for; # initial WITH clause $self->_prepend_WITH_clause(\$sql, \@bind); # return results if ($args{-want_details}) { return {sql => $sql, bind => \@bind, aliased_tables => ($join_info && $join_info->{aliased_tables}), aliased_columns => \%aliased_columns }; } else { return ($sql, @bind); } } #---------------------------------------------------------------------- # insert #---------------------------------------------------------------------- sub _setup_insert_inheritance { my ($parent_sqla) = @_; # if the parent has method '_expand_insert_value' (SQL::Abstract >= v2.0), # we need to override it in this subclass if ($parent_sqla->can('_expand_insert_value')) { *_expand_insert_value = sub { my ($self, $v) = @_; my $k = our $Cur_Col_Meta; if (ref($v) eq 'ARRAY') { if ($self->{array_datatypes} || $self->is_bind_value_with_type($v)) { return +{ -bind => [ $k, $v ] }; } my ($sql, @bind) = @$v; $self->_assert_bindval_matches_bindtype(@bind); return +{ -literal => $v }; } if (ref($v) eq 'HASH') { if (grep !/^-/, keys %$v) { belch "HASH ref as bind value in insert is not supported"; return +{ -bind => [ $k, $v ] }; } } if (!defined($v)) { return +{ -bind => [ $k, undef ] }; } return $self->expand_expr($v); }; } # otherwise, if the parent is an old SQL::Abstract or it is SQL::Abstract::Classic elsif ($parent_sqla->can('_insert_values')) { # if the parent has no method '_insert_value', this is the old # monolithic _insert_values() method. We must override it if (!$parent_sqla->can('_insert_value')) { *_insert_values = sub { my ($self, $data) = @_; my (@values, @all_bind); foreach my $column (sort keys %$data) { my ($values, @bind) = $self->_insert_value($column, $data->{$column}); push @values, $values; push @all_bind, @bind; } my $sql = $self->_sqlcase('values')." ( ".join(", ", @values)." )"; return ($sql, @all_bind); }; } # now override the _insert_value() method *_insert_value = sub { # unfortunately, we can't just override the ARRAYREF part, so the whole # parent method is copied here my ($self, $column, $v) = @_; my (@values, @all_bind); $self->_SWITCH_refkind($v, { ARRAYREF => sub { if ($self->{array_datatypes} # if array datatype are activated || $self->is_bind_value_with_type($v)) { # or if this is a bind val push @values, '?'; push @all_bind, $self->_bindtype($column, $v); } else { # else literal SQL with bind my ($sql, @bind) = @$v; $self->_assert_bindval_matches_bindtype(@bind); push @values, $sql; push @all_bind, @bind; } }, ARRAYREFREF => sub { # literal SQL with bind my ($sql, @bind) = @${$v}; $self->_assert_bindval_matches_bindtype(@bind); push @values, $sql; push @all_bind, @bind; }, # THINK : anything useful to do with a HASHREF ? HASHREF => sub { # (nothing, but old SQLA passed it through) #TODO in SQLA >= 2.0 it will die instead belch "HASH ref as bind value in insert is not supported"; push @values, '?'; push @all_bind, $self->_bindtype($column, $v); }, SCALARREF => sub { # literal SQL without bind push @values, $$v; }, SCALAR_or_UNDEF => sub { push @values, '?'; push @all_bind, $self->_bindtype($column, $v); }, }); my $sql = CORE::join(", ", @values); return ($sql, @all_bind); } } } sub insert { my $self = shift; my @old_API_args; my $returning_into; my $sql_to_add; my $fix_RT134127; if (&_called_with_named_args) { # extract named args and translate to old SQLA API my %args = validate(@_, \%params_for_insert); $old_API_args[0] = $args{-into} or puke "insert(..) : need -into arg"; if ($args{-values}) { # check mutually exclusive parameters !$args{$_} or puke "insert(-into => .., -values => ...) : cannot use $_ => " for qw/-select -columns/; $old_API_args[1] = $args{-values}; } elsif ($args{-select}) { local $self->{WITH}; # temporarily disable the WITH part during the subquery my ($sql, @bind) = $self->select(%{$args{-select}}); $old_API_args[1] = \ [$sql, @bind]; if (my $cols = $args{-columns}) { $old_API_args[0] .= "(" . CORE::join(", ", @$cols) . ")"; } $fix_RT134127 = 1 if ($SQL::Abstract::VERSION || 0) >= 2.0; } else { puke "insert(-into => ..) : need either -values arg or -select arg"; } # deal with -returning arg ($returning_into, my $old_API_options) = $self->_compute_returning($args{-returning}); push @old_API_args, $old_API_options if $old_API_options; # SQL to add after the INSERT keyword $sql_to_add = $args{-add_sql}; } else { @old_API_args = @_; } # get results from parent method my ($sql, @bind) = $self->next::method(@old_API_args); # temporary fix for RT#134127 due to a change of behaviour of insert() in SQLA V2.0 # .. waiting for SQLA to fix RT#134128 $sql =~ s/VALUES SELECT/SELECT/ if $fix_RT134127; # inject more stuff if using Oracle's "RETURNING ... INTO ..." if ($returning_into) { $sql .= ' INTO ' . join(", ", ("?") x @$returning_into); push @bind, @$returning_into; } # SQL to add after the INSERT keyword $sql =~ s/\b(INSERT)\b/$1 $sql_to_add/i if $sql_to_add; # initial WITH clause $self->_prepend_WITH_clause(\$sql, \@bind); return ($sql, @bind); } #---------------------------------------------------------------------- # update #---------------------------------------------------------------------- sub _setup_update_inheritance { my ($parent_sqla) = @_; # if the parent has method '_expand_update_set_value' (SQL::Abstract >= v2.0), # we need to override it in this subclass if ($parent_sqla->can('_expand_update_set_values')) { *_parent_update = $parent_sqla->can('update'); *_expand_update_set_values = sub { my ($self, undef, $data) = @_; $self->expand_expr({ -list => [ map { my ($k, $set) = @$_; $set = { -bind => $_ } unless defined $set; +{ -op => [ '=', { -ident => $k }, $set ] }; } map { my $k = $_; my $v = $data->{$k}; (ref($v) eq 'ARRAY' ? ($self->{array_datatypes} || $self->is_bind_value_with_type($v) ? [ $k, +{ -bind => [ $k, $v ] } ] : [ $k, +{ -literal => $v } ]) : do { local our $Cur_Col_Meta = $k; [ $k, $self->_expand_expr($v) ] } ); } sort keys %$data ] }); }; } # otherwise, if the parent is an old SQL::Abstract or it is SQL::Abstract::Classic else { # if the parent has method '_update_set_values()', it is a SQLA version >=1.85. # We can just use its update() method as _parent_update(). if ($parent_sqla->can('_update_set_values')) { *_parent_update = $parent_sqla->can('update'); } # otherwise, it's the old monolithic update() method. We need to supply our own # version as _parent_update(). else { *_parent_update = sub { my $self = shift; my $table = $self->_table(shift); my $data = shift || return; my $where = shift; my $options = shift; # first build the 'SET' part of the sql statement puke "Unsupported data type specified to \$sql->update" unless ref $data eq 'HASH'; my ($sql, @all_bind) = $self->_update_set_values($data); $sql = $self->_sqlcase('update ') . $table . $self->_sqlcase(' set ') . $sql; if ($where) { my($where_sql, @where_bind) = $self->where($where); $sql .= $where_sql; push @all_bind, @where_bind; } if ($options->{returning}) { my ($returning_sql, @returning_bind) = $self->_update_returning($options); $sql .= $returning_sql; push @all_bind, @returning_bind; } return wantarray ? ($sql, @all_bind) : $sql; }; *_update_returning = sub { my ($self, $options) = @_; my $f = $options->{returning}; my $fieldlist = $self->_SWITCH_refkind($f, { ARRAYREF => sub {join ', ', map { $self->_quote($_) } @$f;}, SCALAR => sub {$self->_quote($f)}, SCALARREF => sub {$$f}, }); return $self->_sqlcase(' returning ') . $fieldlist; }; } # now override or supply the _update_set_value() method *_update_set_values = sub { my ($self, $data) = @_; my (@set, @all_bind); for my $k (sort keys %$data) { my $v = $data->{$k}; my $r = ref $v; my $label = $self->_quote($k); $self->_SWITCH_refkind($v, { ARRAYREF => sub { if ($self->{array_datatypes} # array datatype || $self->is_bind_value_with_type($v)) { # or bind value with type push @set, "$label = ?"; push @all_bind, $self->_bindtype($k, $v); } else { # literal SQL with bind my ($sql, @bind) = @$v; $self->_assert_bindval_matches_bindtype(@bind); push @set, "$label = $sql"; push @all_bind, @bind; } }, ARRAYREFREF => sub { # literal SQL with bind my ($sql, @bind) = @${$v}; $self->_assert_bindval_matches_bindtype(@bind); push @set, "$label = $sql"; push @all_bind, @bind; }, SCALARREF => sub { # literal SQL without bind push @set, "$label = $$v"; }, HASHREF => sub { my ($op, $arg, @rest) = %$v; puke 'Operator calls in update must be in the form { -op => $arg }' if (@rest or not $op =~ /^\-(.+)/); local $self->{_nested_func_lhs} = $k; my ($sql, @bind) = $self->_where_unary_op($1, $arg); push @set, "$label = $sql"; push @all_bind, @bind; }, SCALAR_or_UNDEF => sub { push @set, "$label = ?"; push @all_bind, $self->_bindtype($k, $v); }, }); } # generate sql my $sql = CORE::join ', ', @set; return ($sql, @all_bind); }; } } sub update { my $self = shift; my $join_info; my @old_API_args; my $returning_into; my %args; if (&_called_with_named_args) { %args = validate(@_, \%params_for_update); # compute join info if the datasource is a join $join_info = $self->_compute_join_info($args{-table}); $args{-table} = \($join_info->{sql}) if $join_info; @old_API_args = @args{qw/-table -set -where/}; # deal with -returning arg ($returning_into, my $old_API_options) = $self->_compute_returning($args{-returning}); push @old_API_args, $old_API_options if $old_API_options; } else { @old_API_args = @_; } # call parent method and merge with bind values from $join_info my ($sql, @bind) = $self->_parent_update(@old_API_args); unshift @bind, @{$join_info->{bind}} if $join_info; # handle additional args if needed $self->_handle_additional_args_for_update_delete(\%args, \$sql, \@bind, qr/UPDATE/); # inject more stuff if using Oracle's "RETURNING ... INTO ..." if ($returning_into) { $sql .= ' INTO ' . join(", ", ("?") x @$returning_into); push @bind, @$returning_into; } # initial WITH clause $self->_prepend_WITH_clause(\$sql, \@bind); return ($sql, @bind); } #---------------------------------------------------------------------- # delete #---------------------------------------------------------------------- sub delete { my $self = shift; my @old_API_args; my %args; if (&_called_with_named_args) { %args = validate(@_, \%params_for_delete); @old_API_args = @args{qw/-from -where/}; } else { @old_API_args = @_; } # call parent method my ($sql, @bind) = $self->next::method(@old_API_args); # maybe need to handle additional args $self->_handle_additional_args_for_update_delete(\%args, \$sql, \@bind, qr/DELETE/); # initial WITH clause $self->_prepend_WITH_clause(\$sql, \@bind); return ($sql, @bind); } #---------------------------------------------------------------------- # auxiliary methods for insert(), update() and delete() #---------------------------------------------------------------------- sub _compute_returning { my ($self, $arg_returning) = @_; my ($returning_into, $old_API_options); if ($arg_returning) { # if present, "-returning" may be a scalar, arrayref or hashref; the latter # is interpreted as .. RETURNING ... INTO ... if (does $arg_returning, 'HASH') { my @keys = sort keys %$arg_returning or puke "-returning => {} : the hash is empty"; $old_API_options = {returning => \@keys}; $returning_into = [@{$arg_returning}{@keys}]; } else { $old_API_options = {returning => $arg_returning}; } } return ($returning_into, $old_API_options); } sub _handle_additional_args_for_update_delete { my ($self, $args, $sql_ref, $bind_ref, $keyword_regex) = @_; if (defined $args->{-order_by}) { my ($sql_ob, @bind_ob) = $self->_order_by($args->{-order_by}); $$sql_ref .= $sql_ob; push @$bind_ref, @bind_ob; } if (defined $args->{-limit}) { # can't call $self->limit_offset(..) because there shouldn't be any offset $$sql_ref .= $self->_sqlcase(' limit ?'); push @$bind_ref, $args->{-limit}; } if (defined $args->{-add_sql}) { $$sql_ref =~ s/\b($keyword_regex)\b/$1 $args->{-add_sql}/i; } } sub _order_by { my ($self, $order) = @_; # force scalar into an arrayref $order = [$order] if not ref $order; # restructure array data if (does $order, 'ARRAY') { my @clone = @$order; # because we will modify items # '-' and '+' prefixes are translated into {-desc/asc => } hashrefs foreach my $item (@clone) { next if !$item or ref $item; $item =~ s/^-// and $item = {-desc => $item} and next; $item =~ s/^\+// and $item = {-asc => $item}; } $order = \@clone; } return $self->next::method($order); } #---------------------------------------------------------------------- # other public methods #---------------------------------------------------------------------- # same pattern for 3 invocation methods foreach my $attr (qw/table_alias column_alias limit_offset/) { no strict 'refs'; *{$attr} = sub { my $self = shift; my $method = $self->{$attr}; # grab reference to method body $self->$method(@_); # invoke }; } # readonly accessor methods foreach my $key (qw/join_syntax join_assoc_right max_members_IN multicols_sep has_multicols_in_SQL/) { no strict 'refs'; *{$key} = sub {shift->{$key}}; } # invocation method for 'join' sub join { my $self = shift; # start from the right if right-associative @_ = reverse @_ if $self->{join_assoc_right}; # shift first single item (a table) before reducing pairs (op, table) my $combined = shift; $combined = $self->_parse_table($combined) unless ref $combined; # reduce pairs (op, table) while (@_) { # shift 2 items : next join specification and next table my $join_spec = shift; my $table_spec = shift or puke "improper number of operands"; $join_spec = $self->_parse_join_spec($join_spec) unless ref $join_spec; $table_spec = $self->_parse_table($table_spec) unless ref $table_spec; $combined = $self->_single_join($combined, $join_spec, $table_spec); } return $combined; # {sql=> .., bind => [..], aliased_tables => {..}} } # utility for merging several "where" clauses sub merge_conditions { my $self = shift; my %merged; foreach my $cond (@_) { if (does $cond, 'HASH') { foreach my $col (sort keys %$cond) { $merged{$col} = $merged{$col} ? [-and => $merged{$col}, $cond->{$col}] : $cond->{$col}; } } elsif (does $cond, 'ARRAY') { $merged{-nest} = $merged{-nest} ? {-and => [$merged{-nest}, $cond]} : $cond; } elsif ($cond) { $merged{$cond} = \""; } } return \%merged; } # utility for calling either bind_param or bind_param_inout our $INOUT_MAX_LEN = 99; # chosen arbitrarily; see L sub bind_params { my ($self, $sth, @bind) = @_; $sth->isa('DBI::st') or puke "sth argument is not a DBI statement handle"; foreach my $i (0 .. $#bind) { my $val = $bind[$i]; if (does $val, 'SCALAR') { # a scalarref is interpreted as an INOUT parameter $sth->bind_param_inout($i+1, $val, $INOUT_MAX_LEN); } elsif (does $val, 'ARRAY' and my ($bind_meth, @args) = $self->is_bind_value_with_type($val)) { # either 'bind_param' or 'bind_param_inout', with 2 or 3 args $sth->$bind_meth($i+1, @args); } else { # other cases are passed directly to DBI::bind_param $sth->bind_param($i+1, $val); } } } sub is_bind_value_with_type { my ($self, $val) = @_; # compatibility with DBIx::Class syntax of shape [\%args => $val], # see L if ( @$val == 2 && does($val->[0], 'HASH') && grep {$val->[0]{$_}} qw/dbd_attrs sqlt_size sqlt_datatype dbic_colname/) { my $args = $val->[0]; if (my $attrs = $args->{dbd_attrs}) { return (bind_param => $val->[1], $attrs); } elsif (my $size = $args->{sqlt_size}) { return (bind_param_inout => $val, $size); } # other options like 'sqlt_datatype', 'dbic_colname' are not supported else { puke "unsupported options for bind type : " . CORE::join(", ", sort keys %$args); } # NOTE : the following DBIx::Class shortcuts are not supported # [ $name => $val ] === [ { dbic_colname => $name }, $val ] # [ \$dt => $val ] === [ { sqlt_datatype => $dt }, $val ] # [ undef, $val ] === [ {}, $val ] } # in all other cases, this is not a bind value with type return (); } #---------------------------------------------------------------------- # private utility methods for 'join' #---------------------------------------------------------------------- sub _compute_join_info { my ($self, $table_arg) = @_; if (does($table_arg, 'ARRAY') && $table_arg->[0] eq '-join') { my @join_args = @$table_arg; shift @join_args; # drop initial '-join' return $self->join(@join_args); } else { return; } } sub _parse_table { my ($self, $table) = @_; # extract alias, if any (recognized as "table|alias") ($table, my $alias) = split /\|/, $table, 2; # build a table spec return { sql => $self->table_alias($table, $alias), bind => [], name => ($alias || $table), aliased_tables => {$alias ? ($alias => $table) : ()}, }; } sub _parse_join_spec { my ($self, $join_spec) = @_; # parse the join specification $join_spec or puke "empty join specification"; my ($op, $bracket, $cond_list) = ($join_spec =~ $self->{join_regex}) or puke "incorrect join specification : $join_spec\n$self->{join_regex}"; $op ||= '<=>'; $bracket ||= '{'; $cond_list ||= ''; # extract constants (strings between quotes), replaced by placeholders my $regex = qr/' # initial quote ( # begin capturing group [^']* # any non-quote chars (?: # begin non-capturing group '' # pair of quotes [^']* # any non-quote chars )* # this non-capturing group 0 or more times ) # end of capturing group ' # ending quote /x; my $placeholder = '_?_'; # unlikely to be counfounded with any value my @constants; while ($cond_list =~ s/$regex/$placeholder/) { push @constants, $1; }; s/''/'/g for @constants; # replace pairs of quotes by single quotes # accumulate conditions as pairs ($left => \"$op $right") my @conditions; my @using; foreach my $cond (split /,\s*/, $cond_list) { # parse the condition (left and right operands + comparison operator) my ($left, $cmp, $right) = split /([<>=!^]{1,2})/, $cond; if ($cmp && $right) { # if operands are not qualified by table/alias name, add sprintf hooks $left = '%1$s.' . $left unless $left =~ /\./; $right = '%2$s.' . $right unless $right =~ /\./ or $right eq $placeholder; # add this pair into the list; right operand is either a bind value # or an identifier within the right table $right = $right eq $placeholder ? shift @constants : {-ident => $right}; push @conditions, $left, {$cmp => $right}; } elsif ($cond =~ /^\w+$/) { push @using, $cond; } else {puke "can't parse join condition: $cond"} } # build join hashref my $join_hash = {operator => $op}; $join_hash->{using} = \@using if @using; $join_hash->{condition} = $bracket eq '[' ? [@conditions] : {@conditions} if @conditions; return $join_hash; } sub _single_join { my $self = shift; # if right-associative, restore proper left-right order in pair @_ = reverse @_ if $self->{join_assoc_right}; my ($left, $join_spec, $right) = @_; # syntax for assembling all elements my $syntax = $self->{join_syntax}{$join_spec->{operator}}; my ($sql, @bind); { no if $] ge '5.022000', warnings => 'redundant'; # because sprintf instructions may _intentionally_ omit %.. parameters if ($join_spec->{using}) { not $join_spec->{condition} or puke "join specification has both {condition} and {using} fields"; $syntax =~ s/\bON\s+%s/USING (%s)/; $sql = CORE::join ",", @{$join_spec->{using}}; } elsif ($join_spec->{condition}) { not $join_spec->{using} or puke "join specification has both {condition} and {using} fields"; # compute the "ON" clause ($sql, @bind) = $self->where($join_spec->{condition}); $sql =~ s/^\s*WHERE\s+//; # substitute left/right tables names for '%1$s', '%2$s' $sql = sprintf $sql, $left->{name}, $right->{name}; } # build the final sql $sql = sprintf $syntax, $left->{sql}, $right->{sql}, $sql; } # add left/right bind parameters (if any) into the list unshift @bind, @{$left->{bind}}, @{$right->{bind}}; # build result and return my %result = (sql => $sql, bind => \@bind); $result{name} = ($self->{join_assoc_right} ? $left : $right)->{name}; $result{aliased_tables} = $left->{aliased_tables}; foreach my $alias (keys %{$right->{aliased_tables}}) { $result{aliased_tables}{$alias} = $right->{aliased_tables}{$alias}; } return \%result; } #---------------------------------------------------------------------- # override of parent's "_where_field_IN" #---------------------------------------------------------------------- sub _where_field_IN { my ($self, $k, $op, $vals) = @_; # special algorithm if the key is multi-columns (contains a multicols_sep) if ($self->{multicols_sep}) { my @cols = split m[$self->{multicols_sep}], $k; if (@cols > 1) { if ($self->{has_multicols_in_SQL}) { # DBMS accepts special SQL syntax for multicolumns return $self->_multicols_IN_through_SQL(\@cols, $op, $vals); } else { # DBMS doesn't accept special syntax, so we must use boolean logic return $self->_multicols_IN_through_boolean(\@cols, $op, $vals); } } } # special algorithm if the number of values exceeds the allowed maximum my $max_members_IN = $self->{max_members_IN}; if ($max_members_IN && does($vals, 'ARRAY') && @$vals > $max_members_IN) { my @vals = @$vals; my @slices; while (my @slice = splice(@vals, 0, $max_members_IN)) { push @slices, \@slice; } my @clauses = map {{-$op, $_}} @slices; my $connector = $op =~ /^not/i ? '-and' : '-or'; unshift @clauses, $connector; my ($sql, @bind) = $self->where({$k => \@clauses}); $sql =~ s/\s*where\s*\((.*)\)/$1/i; return ($sql, @bind); } # otherwise, call parent method $vals = [@$vals] if blessed $vals; # because SQLA dies on blessed arrayrefs return $self->next::method($k, $op, $vals); } sub _multicols_IN_through_SQL { my ($self, $cols, $op, $vals) = @_; # build initial sql my $n_cols = @$cols; my $sql_cols = CORE::join(',', map {$self->_quote($_)} @$cols); my $sql = "($sql_cols) " . $self->_sqlcase($op); # dispatch according to structure of $vals return $self->_SWITCH_refkind($vals, { ARRAYREF => sub { # list of tuples # deal with special case of empty list (like the parent class) my $n_tuples = @$vals; if (!$n_tuples) { my $sql = ($op =~ /\bnot\b/i) ? $self->{sqltrue} : $self->{sqlfalse}; return ($sql); } # otherwise, build SQL and bind values for the list of tuples my @bind; foreach my $val (@$vals) { does($val, 'ARRAY') or $val = [split m[$self->{multicols_sep}], $val]; @$val == $n_cols or puke "op '$op' with multicols: tuple with improper number of cols"; push @bind, @$val; } my $single_tuple = "(" . CORE::join(',', (('?') x $n_cols)) . ")"; my $all_tuples = CORE::join(', ', (($single_tuple) x $n_tuples)); $sql .= " ($all_tuples)"; return ($sql, @bind); }, SCALARREF => sub { # literal SQL $sql .= " ($$vals)"; return ($sql); }, ARRAYREFREF => sub { # literal SQL with bind my ($inner_sql, @bind) = @$$vals; $sql .= " ($inner_sql)"; return ($sql, @bind); }, FALLBACK => sub { puke "op '$op' with multicols requires a list of tuples or literal SQL"; }, }); } sub _multicols_IN_through_boolean { my ($self, $cols, $op, $vals) = @_; # can't handle anything else than a list of tuples does($vals, 'ARRAY') && @$vals or puke "op '$op' with multicols requires a non-empty list of tuples"; # assemble SQL my $n_cols = @$cols; my $sql_cols = CORE::join(' AND ', map {$self->_quote($_) . " = ?"} @$cols); my $sql = "(" . CORE::join(' OR ', (("($sql_cols)") x @$vals)) . ")"; $sql = "NOT $sql" if $op =~ /\bnot\b/i; # assemble bind values my @bind; foreach my $val (@$vals) { does($val, 'ARRAY') or $val = [split m[$self->{multicols_sep}], $val]; @$val == $n_cols or puke "op '$op' with multicols: tuple with improper number of cols"; push @bind, @$val; } # return the whole thing return ($sql, @bind); } #---------------------------------------------------------------------- # override of parent's methods for decoding arrayrefs #---------------------------------------------------------------------- sub _where_hashpair_ARRAYREF { my ($self, $k, $v) = @_; if ($self->is_bind_value_with_type($v)) { $self->_assert_no_bindtype_columns; my $sql = CORE::join ' ', $self->_convert($self->_quote($k)), $self->_sqlcase($self->{cmp}), $self->_convert('?'); my @bind = ($v); return ($sql, @bind); } else { return $self->next::method($k, $v); } } sub _where_field_op_ARRAYREF { my ($self, $k, $op, $vals) = @_; if ($self->is_bind_value_with_type($vals)) { $self->_assert_no_bindtype_columns; my $sql = CORE::join ' ', $self->_convert($self->_quote($k)), $self->_sqlcase($op), $self->_convert('?'); my @bind = ($vals); return ($sql, @bind); } else { return $self->next::method($k, $op, $vals); } } sub _assert_no_bindtype_columns { my ($self) = @_; $self->{bindtype} ne 'columns' or puke 'values of shape [$val, \%type] are not compatible' . 'with ...->new(bindtype => "columns")'; } #---------------------------------------------------------------------- # method creations through closures #---------------------------------------------------------------------- sub _make_sub_column_alias { my ($self) = @_; my $syntax = $self->{column_alias}; $self->{column_alias} = sub { my ($self, $name, $alias) = @_; return $name if !$alias; # quote $name unless it is an SQL expression (then the user should quote it) $name = $self->_quote($name) unless $name =~ /[()]/; # assemble syntax my $sql = sprintf $syntax, $name, $self->_quote($alias); # return a string ref to avoid quoting by SQLA return \$sql; }; } sub _make_sub_table_alias { my ($self) = @_; my $syntax = $self->{table_alias}; $self->{table_alias} = sub { my ($self, $name, $alias) = @_; return $name if !$alias; # assemble syntax my $sql = sprintf $syntax, $self->_quote($name), $self->_quote($alias); return $sql; }; } sub _choose_LIMIT_OFFSET_dialect { my $self = shift; my $dialect = $self->{limit_offset}; my $method = $limit_offset_dialects{$dialect} or puke "no such limit_offset dialect: $dialect"; $self->{limit_offset} = $method; } #---------------------------------------------------------------------- # utility to decide if the method was called with named or positional args #---------------------------------------------------------------------- sub _called_with_named_args { return $_[0] && !ref $_[0] && substr($_[0], 0, 1) eq '-'; } 1; # End of SQL::Abstract::More __END__ =head1 NAME SQL::Abstract::More - extension of SQL::Abstract with more constructs and more flexible API =head1 DESCRIPTION This module generates SQL from Perl data structures. It is a subclass of L or L, fully compatible with the parent class, but with some improvements : =over =item * methods take arguments as I instead of positional parameters. This is more flexible for identifying and assembling various SQL clauses, like C<-where>, C<-order_by>, C<-group_by>, etc. =item * additional SQL constructs like C<-union>, C<-group_by>, C, C, etc. are supported =item * C clauses can range over multiple columns (tuples) =item * values passed to C. This default clause can always be overridden by an explicit C<-for> in a given select : my $sqla = SQL::Abstract->new(-select_implicitly_for => 'READ ONLY'); ($sql, @bind) = $sqla->select(-from => 'Foo'); # SELECT * FROM FOO FOR READ ONLY ($sql, @bind) = $sqla->select(-from => 'Foo', -for => 'UPDATE'); # SELECT * FROM FOO FOR UPDATE ($sql, @bind) = $sqla->select(-from => 'Foo', -for => undef); # SELECT * FROM FOO =item sql_dialect This is actually a "meta-argument" : it injects a collection of regular arguments, tuned for a specific SQL dialect. Dialects implemented so far are : =over =item MsAccess For Microsoft Access. Overrides the C syntax to be right-associative. =item BasisJDBC For Livelink Collection Server (formerly "Basis"), accessed through a JDBC driver. Overrides the C syntax. Sets C to 255. =item MySQL_old For old versions of MySQL. Overrides the C syntax. Recent versions of MySQL do not need that because they now implement the regular "LIMIT ? OFFSET ?" ANSI syntax. =item Oracle For Oracle. Overrides the C to use the "RowNum" dialect (beware, this injects an additional column C into your resultset). Also sets C to 999. =back =back =head3 Overriding methods Several arguments to C can be references to method implementations instead of plain scalars : this allows you to completely redefine a behaviour without the need to subclass. Just supply a regular method body as a code reference : for example, if you need another implementation for LIMIT-OFFSET, you could write my $sqla = SQL::Abstract::More->new( limit_offset => sub { my ($self, $limit, $offset) = @_; defined $limit or die "NO LIMIT!"; #:-) $offset ||= 0; my $last = $offset + $limit; return ("ROWS ? TO ?", $offset, $last); # ($sql, @bind) }); =head1 INSTANCE METHODS =head2 select # positional parameters, directly passed to the parent class ($sql, @bind) = $sqla->select($table, $columns, $where, $order); # named parameters, handled in this class ($sql, @bind) = $sqla->select( -columns => \@columns, # OR: -columns => [-distinct => @columns], -from => $table || \@joined_tables, -where => \%where, -union => [ %select_subargs ], # OR -intersect, -minus, etc -order_by => \@order, -group_by => \@group_by, -having => \%having_criteria, -limit => $limit, -offset => $offset, # OR: -page_size => $size, -page_index => $index, -for => $purpose, ); my $details = $sqla->select(..., want_details => 1); # keys in %$details: sql, bind, aliased_tables, aliased_columns If called with positional parameters, as in L, C<< select() >> just forwards the call to the parent class. Otherwise, if called with named parameters, as in the example above, some additional SQL processing is performed. The following named arguments can be specified : =over =item C<< -columns => \@columns >> C<< \@columns >> is a reference to an array of SQL column specifications (i.e. column names, C<*> or C, functions, etc.). A '|' in a column is translated into a column aliasing clause: this is convenient when using perl C<< qw/.../ >> operator for columns, as in -columns => [ qw/table1.longColumn|t1lc table2.longColumn|t2lc/ ] SQL column aliasing is then generated through the L method. If L is defined, aliased columns will be quoted, unless they contain parentheses, in which case they are considered as SQL expressions for which the user should handle the quoting himself. For example if C is "`", -columns => [ qw/foo.bar|fb length(buz)|lbuz/ ] will produce SELECT `foo`.`bar` AS fb, length(buz) AS lbuz and not SELECT `foo`.`bar` AS fb, length(`buz`) AS lbuz Initial items in C<< @columns >> that start with a minus sign are shifted from the array, i.e. they are not considered as column names, but are re-injected later into the SQL (without the minus sign), just after the C, values assigned to columns can have associated SQL types; see L. Parameters C<-into> and C<-values> are passed verbatim to the parent method. Parameters C<-select> and C<-columns> are used for selecting from subqueries -- this is incompatible with the C<-values> parameter. Parameter C<-returning> is optional and only supported by some database vendors (see L); if the C<$return_structure> is =over =item * a scalar or an arrayref, it is passed directly to the parent method =item * a hashref, it is interpreted as a SQL clause "RETURNING .. INTO ..", as required in particular by Oracle. Hash keys are field names, and hash values are references to variables that will receive the results. Then it is the client code's responsibility to use L for binding the variables and retrieving the results, but the L method in the present module is there for help. Example: ($sql, @bind) = $sqla->insert( -into => $table, -values => {col => $val, ...}, -returning => {key_col => \my $generated_key}, ); my $sth = $dbh->prepare($sql); $sqla->bind_params($sth, @bind); $sth->execute; print "The new key is $generated_key"; =back Optional parameter C<-add_sql> is used with some specific SQL dialects, for injecting additional SQL keywords after the C keyword. Examples : $sqla->insert(..., -add_sql => 'IGNORE') # produces "INSERT IGNORE ..." -- MySQL $sqla->insert(..., -add_sql => 'OR IGNORE') # produces "INSERT OR IGNORE ..." -- SQLite =head2 update # positional parameters, directly passed to the parent class ($sql, @bind) = $sqla->update($table, \%fieldvals, \%where); # named parameters, handled in this class ($sql, @bind) = $sqla->update( -table => $table, -set => {col => $val, ...}, -where => \%conditions, -order_by => \@order, -limit => $limit, -returning => $return_structure, -add_sql => $keyword, ); This works in the same spirit as the L method above. Positional parameters are supported for backwards compatibility with the old API; but named parameters should be preferred because they improve the readability of the client's code. Few DBMS would support parameters C<-order_by> and C<-limit>, but MySQL does -- see L. Optional parameter C<-returning> works like for the L method. Optional parameter C<-add_sql> is used with some specific SQL dialects, for injecting additional SQL keywords after the C keyword. Examples : $sqla->update(..., -add_sql => 'IGNORE') # produces "UPDATE IGNORE ..." -- MySQL $sqla->update(..., -add_sql => 'OR IGNORE') # produces "UPDATE OR IGNORE ..." -- SQLite =head2 delete # positional parameters, directly passed to the parent class ($sql, @bind) = $sqla->delete($table, \%where); # named parameters, handled in this class ($sql, @bind) = $sqla->delete ( -from => $table -where => \%conditions, -order_by => \@order, -limit => $limit, -add_sql => $keyword, ); Positional parameters are supported for backwards compatibility with the old API; but named parameters should be preferred because they improve the readability of the client's code. Few DBMS would support parameters C<-order_by> and C<-limit>, but MySQL does -- see L. Optional parameter C<-add_sql> is used with some specific SQL dialects, for injecting additional SQL keywords after the C keyword. Examples : $sqla->delete(..., -add_sql => 'IGNORE') # produces "DELETE IGNORE ..." -- MySQL $sqla->delete(..., -add_sql => 'OR IGNORE') # produces "DELETE OR IGNORE ..." -- SQLite =head2 with_recursive, with my $new_sqla = $sqla->with_recursive( # or: $sqla->with( [ -table => $CTE_table_name, -columns => \@CTE_columns, -as_select => \%select_args ], [ -table => $CTE_table_name2, -columns => \@CTE_columns2, -as_select => \%select_args2 ], ... ); ($sql, @bind) = $new_sqla->insert(...); # or, if there is only one table expression my $new_sqla = $sqla->with_recursive( -table => $CTE_table_name, -columns => \@CTE_columns, -as_select => \%select_args, ); Returns a new instance with an encapsulated I, i.e. a kind of local view that can be used as a table name for the rest of the SQL statement -- see L for an explanation of such expressions, or, if you are using Oracle, see the documentation for so-called I in SELECT statements. Further calls to C method. =item C<-final_clause> An optional SQL clause that will be added after the table expression. This may be needed for example for an Oracle I, like ($sql, @bind) = $sqla->with_recursive( -table => ..., -as_select => ..., -final_clause => "CYCLE x SET is_cycle TO '1' DEFAULT '0'", )->select(...); =back If there is only one table expression, its arguments can be passed directly as an array instead of a single arrayref. =head2 table_alias my $sql = $sqla->table_alias($table_name, $alias); Returns the SQL fragment for aliasing a table. If C<$alias> is empty, just returns C<$table_name>. =head2 column_alias Like C, but for column aliasing. =head2 limit_offset ($sql, @bind) = $sqla->limit_offset($limit, $offset); Generates C<($sql, @bind)> for a LIMIT-OFFSET clause. =head2 join my $join_info = $sqla->join( ... ); my $sth = $dbh->prepare($join_info->{sql}); $sth->execute(@{$join_info->{bind}}) while (my ($alias, $aliased) = each %{$join_info->{aliased_tables}}) { say "$alias is an alias for table $aliased"; } Generates join information for a JOIN clause, taking as input a collection of joined tables with their join conditions. The following example gives an idea of the available syntax : ($sql, @bind) = $sqla->join(qw[ Table1|t1 ab=cd Table2|t2 <=>{ef>gh,ij{t1.op=qr} Table4 ]); This will generate Table1 AS t1 INNER JOIN Table2 AS t2 ON t1.ab=t2.cd INNER JOIN Table3 ON t2.ef>Table3.gh AND t2.ij. More precisely, the arguments to C should be a list containing an odd number of elements, where the odd positions are I and the even positions are I. =head3 Table specifications A table specification for join is a string containing the table name, possibly followed by a vertical bar and an alias name. For example C or C are valid table specifications. These are converted into internal hashrefs with keys C, C, C, C, like this : { sql => "Table1 AS t1" bind => [], name => "t1" aliased_tables => {"t1" => "Table1"} } Such hashrefs can be passed directly as arguments, instead of the simple string representation. =head3 Join specifications A join specification is a string containing an optional I, possibly followed by a pair of curly braces or square brackets containing the I. Default builtin join operators are C<< <=> >>, C<< => >>, C<< <= >>, C<< == >>, corresponding to the following SQL JOIN clauses : '<=>' => '%s INNER JOIN %s ON %s', '=>' => '%s LEFT OUTER JOIN %s ON %s', '<=' => '%s RIGHT JOIN %s ON %s', '==' => '%s NATURAL JOIN %s', '>=<' => '%s FULL OUTER JOIN %s ON %s', This operator table can be overridden through the C parameter of the L method. The join conditions are a comma-separated list of binary column comparisons, like for example {ab=cd,Table1.ef common conventions, if the list of comparisons is within curly braces, it will become an C; if it is within square brackets, it will become an C. Join specifications expressed as strings are converted into internal hashrefs with keys C and C, like this : { operator => '<=>', condition => { '%1$s.ab' => {'=' => {-ident => '%2$s.cd'}}, '%1$s.ef' => {'=' => {-ident => 'Table2.gh'}}}, } The C is a key into the C table; the associated value is a C format string, with placeholders for the left and right operands, and the join condition. The C is a structure suitable for being passed as argument to L. Places where the names of left/right tables (or their aliases) are expected should be expressed as C placeholders, i.e. respectively C<%1$s> and C<%2$s>. Usually the right-hand side of the condition refers to a column of the right table; in such case it should B belong to the C<@bind> list, so this is why we need to use the C<-ident> operator from L. Only when the right-hand side is a string constant (string within quotes) does it become a bind value : for example ->join(qw/Table1 {ab=cd,ef='foobar'}) Table2/) is parsed into [ 'Table1', { operator => '<=>', condition => { '%1$s.ab' => {'=' => {-ident => '%2$s.cd'}}, '%1$s.ef' => {'=' => 'foobar'} }, }, 'Table2', ] Hashrefs for join specifications as shown above can be passed directly as arguments, instead of the simple string representation. For example the L ORM uses hashrefs for communicating with C. =head3 joins with USING clause instead of ON In most DBMS, when column names on both sides of a join are identical, the join can be expressed as SELECT * FROM T1 INNER JOIN T2 USING (A, B) instead of SELECT * FROM T1 INNER JOIN T2 ON T1.A=T2.A AND T1.B=T2.B The advantage of this syntax with a USING clause is that the joined columns will appear only once in the results, and they do not need to be prefixed by a table name if they are needed in the select list or in the WHERE part of the SQL. To express joins with the USING syntax in C, just mention the column names within curly braces, without any equality operator. For example ->join(qw/Table1 {a,b} Table2 {c} Table3/) will generate SELECT * FROM Table1 INNER JOIN Table2 USING (a,b) INNER JOIN Table3 USING (c) In this case the internal hashref representation has the following shape : { operator => '<=>', using => [ 'a', 'b'], } When they are generated directy by the client code, internal hashrefs must have I a C field I a C field; it is an error to have both. =head3 Return value The structure returned by C is a hashref with the following keys : =over =item sql a string containing the generated SQL =item bind an arrayref of bind values =item aliased_tables a hashref where keys are alias names and values are names of aliased tables. =back =head2 merge_conditions my $conditions = $sqla->merge_conditions($cond_A, $cond_B, ...); This utility method takes a list of "C" conditions and merges all of them in a single hashref. For example merging ( {a => 12, b => {">" => 34}}, {b => {"<" => 56}, c => 78} ) produces {a => 12, b => [-and => {">" => 34}, {"<" => 56}], c => 78}); =head2 bind_params $sqla->bind_params($sth, @bind); For each C<$value> in C<@bind>: =over =item * if the value is a scalarref, call $sth->bind_param_inout($index, $value, $INOUT_MAX_LEN) (see L). C<$INOUT_MAX_LEN> defaults to 99, which should be good enough for most uses; should you need another value, you can change it by setting local $SQL::Abstract::More::INOUT_MAX_LEN = $other_value; =item * if the value is an arrayref that matches L, then call the method and arguments returned by L. =item * for all other cases, call $sth->bind_param($index, $value); =back This method is useful either as a convenience for Oracle statements of shape C<"INSERT ... RETURNING ... INTO ..."> (see L method above), or as a way to indicate specific datatypes to the database driver. =head2 is_bind_value_with_type my ($method, @args) = $sqla->is_bind_value_with_type($value); If C<$value> is a ref to a pair C<< [\%args, $orig_value] >> : =over =item * if C<%args> is of shape C<< {dbd_attrs => \%sql_type} >>, then return C<< ('bind_param', $orig_value, \%sql_type) >>. =item * if C<%args> is of shape C<< {sqlt_size => $num} >>, then return C<< ('bind_param_inout', $orig_value, $num) >>. =back Otherwise, return C<()>. =head1 BIND VALUES WITH TYPES At places where L would expect a plain value, C also accepts a pair, i.e. an arrayref of 2 elements, where the first element is a type specification, and the second element is the value. This is convenient when the DBD driver needs additional information about the values used in the statement. The usual type specification is a hashref C<< {dbd_attrs => \%type} >>, where C<\%type> is passed directly as third argument to L, and therefore is specific to the DBD driver. Another form of type specification is C<< {sqlt_size => $num} >>, where C<$num> will be passed as buffer size to L. Here are some examples ($sql, @bind) = $sqla->insert( -into => 'Foo', -values => {bar => [{dbd_attrs => {ora_type => ORA_XMLTYPE}}]}, ); ($sql, @bind) = $sqla->select( -from => 'Foo', -where => {d_begin => {">" => [{dbd_attrs => {ora_type => ORA_DATE}}, $some_date]}}, ); When using this feature, the C<@bind> array will contain references that cannot be passed directly to L methods; so you should use L from the present module to perform the appropriate bindings before executing the statement. =head1 UTILITY FUNCTIONS =head2 shallow_clone my $clone = SQL::Abstract::More::shallow_clone($some_object, %override); Returns a shallow copy of the object passed as argument. A new hash is created with copies of the top-level keys and values, and it is blessed into the same class as the original object. Not to be confused with the full recursive copy performed by L. The optional C<%override> hash is also copied into C<$clone>; it can be used to add other attributes or to override existing attributes in C<$some_object>. =head2 does() if (SQL::Abstract::More::does $ref, 'ARRAY') {...} Very cheap version of a C method, that checks whether a given reference can act as an ARRAY, HASH, SCALAR or CODE. This was designed for the limited internal needs of this module and of L; for more complete implementations of a C method, see L, L or L. =head1 AUTHOR Laurent Dami, C<< >> =head1 BUGS Please report any bugs or feature requests to C, or through the web interface at L. I will be notified, and then you'll automatically be notified of progress on your bug as I make changes. =head1 SUPPORT You can find documentation for this module with the perldoc command. perldoc SQL::Abstract::More You can also look for information at: =over 4 =item RT: CPAN's request tracker L =item AnnoCPAN: Annotated CPAN documentation L =item CPAN Ratings L =item MetaCPAN L =back =head1 LICENSE AND COPYRIGHT Copyright 2011-2017 Laurent Dami. This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information. =cut SQL-Abstract-More-1.37/META.yml0000644000000000000000000000207014005072537014515 0ustar rootroot--- abstract: 'extension of SQL::Abstract with more constructs and more flexible API' author: - 'Laurent Dami, C<< >>' - 'Laurent Dami ' build_requires: ExtUtils::MakeMaker: 6.59 List::MoreUtils: 0 SQL::Abstract::Test: 0 Test::Exception: 0 Test::More: 0 configure_requires: ExtUtils::MakeMaker: 6.59 distribution_type: module dynamic_config: 1 generated_by: 'Module::Install version 1.19' license: artistic2 meta-spec: url: http://module-build.sourceforge.net/META-spec-v1.4.html version: 1.4 name: SQL-Abstract-More no_index: directory: - inc - t - xt recommends: SQL::Abstract::Classic: 0 requires: MRO::Compat: 0 Params::Validate: 0 SQL::Abstract: 1.73 Scalar::Util: 0 namespace::clean: 0 parent: 0 perl: 5.8.0 resources: bugtracker: http://rt.cpan.org/NoAuth/Bugs.html?Dist=SQL-Abstract-More homepage: https://metacpan.org/author/DAMI license: http://www.perlfoundation.org/artistic_license_2_0 repository: git://github.com/damil/SQL-Abstract-More.git version: '1.37'