#!./perl # -*- Mode: Perl -*- # closure.t: # Original written by Ulrich Pfeifer on 2 Jan 1997. # Greatly extended by Tom Phoenix on 28 Jan 1997. # # Run with -debug for debugging output. BEGIN { chdir 't' if -d 't'; @INC = '../lib'; } use Config; print "1..184\n"; my $test = 1; sub test (&) { my $ok = &{$_[0]}; print $ok ? "ok $test\n" : "not ok $test\n"; printf "# Failed at line %d\n", (caller)[2] unless $ok; $test++; } my $i = 1; sub foo { $i = shift if @_; $i } # no closure test { foo == 1 }; foo(2); test { foo == 2 }; # closure: lexical outside sub my $foo = sub {$i = shift if @_; $i }; my $bar = sub {$i = shift if @_; $i }; test {&$foo() == 2 }; &$foo(3); test {&$foo() == 3 }; # did the lexical change? test { foo == 3 and $i == 3}; # did the second closure notice? test {&$bar() == 3 }; # closure: lexical inside sub sub bar { my $i = shift; sub { $i = shift if @_; $i } } $foo = bar(4); $bar = bar(5); test {&$foo() == 4 }; &$foo(6); test {&$foo() == 6 }; test {&$bar() == 5 }; # nested closures sub bizz { my $i = 7; if (@_) { my $i = shift; sub {$i = shift if @_; $i }; } else { my $i = $i; sub {$i = shift if @_; $i }; } } $foo = bizz(); $bar = bizz(); test {&$foo() == 7 }; &$foo(8); test {&$foo() == 8 }; test {&$bar() == 7 }; $foo = bizz(9); $bar = bizz(10); test {&$foo(11)-1 == &$bar()}; my @foo; for (qw(0 1 2 3 4)) { my $i = $_; $foo[$_] = sub {$i = shift if @_; $i }; } test { &{$foo[0]}() == 0 and &{$foo[1]}() == 1 and &{$foo[2]}() == 2 and &{$foo[3]}() == 3 and &{$foo[4]}() == 4 }; for (0 .. 4) { &{$foo[$_]}(4-$_); } test { &{$foo[0]}() == 4 and &{$foo[1]}() == 3 and &{$foo[2]}() == 2 and &{$foo[3]}() == 1 and &{$foo[4]}() == 0 }; sub barf { my @foo; for (qw(0 1 2 3 4)) { my $i = $_; $foo[$_] = sub {$i = shift if @_; $i }; } @foo; } @foo = barf(); test { &{$foo[0]}() == 0 and &{$foo[1]}() == 1 and &{$foo[2]}() == 2 and &{$foo[3]}() == 3 and &{$foo[4]}() == 4 }; for (0 .. 4) { &{$foo[$_]}(4-$_); } test { &{$foo[0]}() == 4 and &{$foo[1]}() == 3 and &{$foo[2]}() == 2 and &{$foo[3]}() == 1 and &{$foo[4]}() == 0 }; # test if closures get created in optimized for loops my %foo; for my $n ('A'..'E') { $foo{$n} = sub { $n eq $_[0] }; } test { &{$foo{A}}('A') and &{$foo{B}}('B') and &{$foo{C}}('C') and &{$foo{D}}('D') and &{$foo{E}}('E') }; for my $n (0..4) { $foo[$n] = sub { $n == $_[0] }; } test { &{$foo[0]}(0) and &{$foo[1]}(1) and &{$foo[2]}(2) and &{$foo[3]}(3) and &{$foo[4]}(4) }; for my $n (0..4) { $foo[$n] = sub { # no intervening reference to $n here sub { $n == $_[0] } }; } test { $foo[0]->()->(0) and $foo[1]->()->(1) and $foo[2]->()->(2) and $foo[3]->()->(3) and $foo[4]->()->(4) }; { my $w; $w = sub { my ($i) = @_; test { $i == 10 }; sub { $w }; }; $w->(10); } # Additional tests by Tom Phoenix . { use strict; use vars qw!$test!; my($debugging, %expected, $inner_type, $where_declared, $within); my($nc_attempt, $call_outer, $call_inner, $undef_outer); my($code, $inner_sub_test, $expected, $line, $errors, $output); my(@inners, $sub_test, $pid); $debugging = 1 if defined($ARGV[0]) and $ARGV[0] eq '-debug'; # The expected values for these tests %expected = ( 'global_scalar' => 1001, 'global_array' => 2101, 'global_hash' => 3004, 'fs_scalar' => 4001, 'fs_array' => 5101, 'fs_hash' => 6004, 'sub_scalar' => 7001, 'sub_array' => 8101, 'sub_hash' => 9004, 'foreach' => 10011, ); # Our innermost sub is either named or anonymous for $inner_type (qw!named anon!) { # And it may be declared at filescope, within a named # sub, or within an anon sub for $where_declared (qw!filescope in_named in_anon!) { # And that, in turn, may be within a foreach loop, # a naked block, or another named sub for $within (qw!foreach naked other_sub!) { # Here are a number of variables which show what's # going on, in a way. $nc_attempt = 0+ # Named closure attempted ( ($inner_type eq 'named') || ($within eq 'other_sub') ) ; $call_inner = 0+ # Need to call &inner ( ($inner_type eq 'anon') && ($within eq 'other_sub') ) ; $call_outer = 0+ # Need to call &outer or &$outer ( ($inner_type eq 'anon') && ($within ne 'other_sub') ) ; $undef_outer = 0+ # $outer is created but unused ( ($where_declared eq 'in_anon') && (not $call_outer) ) ; $code = "# This is a test script built by t/op/closure.t\n\n"; print <<"DEBUG_INFO" if $debugging; # inner_type: $inner_type # where_declared: $where_declared # within: $within # nc_attempt: $nc_attempt # call_inner: $call_inner # call_outer: $call_outer # undef_outer: $undef_outer DEBUG_INFO $code .= <<"END_MARK_ONE"; BEGIN { \$SIG{__WARN__} = sub { my \$msg = \$_[0]; END_MARK_ONE $code .= <<"END_MARK_TWO" if $nc_attempt; return if index(\$msg, 'will not stay shared') != -1; return if index(\$msg, 'is not available') != -1; END_MARK_TWO $code .= <<"END_MARK_THREE"; # Backwhack a lot! print "not ok: got unexpected warning \$msg\\n"; } } { my \$test = $test; sub test (&) { my \$ok = &{\$_[0]}; print \$ok ? "ok \$test\n" : "not ok \$test\n"; printf "# Failed at line %d\n", (caller)[2] unless \$ok; \$test++; } } # some of the variables which the closure will access \$global_scalar = 1000; \@global_array = (2000, 2100, 2200, 2300); %global_hash = 3000..3009; my \$fs_scalar = 4000; my \@fs_array = (5000, 5100, 5200, 5300); my %fs_hash = 6000..6009; END_MARK_THREE if ($where_declared eq 'filescope') { # Nothing here } elsif ($where_declared eq 'in_named') { $code .= <<'END'; sub outer { my $sub_scalar = 7000; my @sub_array = (8000, 8100, 8200, 8300); my %sub_hash = 9000..9009; END # } } elsif ($where_declared eq 'in_anon') { $code .= <<'END'; $outer = sub { my $sub_scalar = 7000; my @sub_array = (8000, 8100, 8200, 8300); my %sub_hash = 9000..9009; END # } } else { die "What was $where_declared?" } if ($within eq 'foreach') { $code .= " my \$foreach = 12000; my \@list = (10000, 10010); foreach \$foreach (\@list) { " # } } elsif ($within eq 'naked') { $code .= " { # naked block\n" # } } elsif ($within eq 'other_sub') { $code .= " sub inner_sub {\n" # } } else { die "What was $within?" } $sub_test = $test; @inners = ( qw!global_scalar global_array global_hash! , qw!fs_scalar fs_array fs_hash! ); push @inners, 'foreach' if $within eq 'foreach'; if ($where_declared ne 'filescope') { push @inners, qw!sub_scalar sub_array sub_hash!; } for $inner_sub_test (@inners) { if ($inner_type eq 'named') { $code .= " sub named_$sub_test " } elsif ($inner_type eq 'anon') { $code .= " \$anon_$sub_test = sub " } else { die "What was $inner_type?" } # Now to write the body of the test sub if ($inner_sub_test eq 'global_scalar') { $code .= '{ ++$global_scalar }' } elsif ($inner_sub_test eq 'fs_scalar') { $code .= '{ ++$fs_scalar }' } elsif ($inner_sub_test eq 'sub_scalar') { $code .= '{ ++$sub_scalar }' } elsif ($inner_sub_test eq 'global_array') { $code .= '{ ++$global_array[1] }' } elsif ($inner_sub_test eq 'fs_array') { $code .= '{ ++$fs_array[1] }' } elsif ($inner_sub_test eq 'sub_array') { $code .= '{ ++$sub_array[1] }' } elsif ($inner_sub_test eq 'global_hash') { $code .= '{ ++$global_hash{3002} }' } elsif ($inner_sub_test eq 'fs_hash') { $code .= '{ ++$fs_hash{6002} }' } elsif ($inner_sub_test eq 'sub_hash') { $code .= '{ ++$sub_hash{9002} }' } elsif ($inner_sub_test eq 'foreach') { $code .= '{ ++$foreach }' } else { die "What was $inner_sub_test?" } # Close up if ($inner_type eq 'anon') { $code .= ';' } $code .= "\n"; $sub_test++; # sub name sequence number } # End of foreach $inner_sub_test # Close up $within block # { $code .= " }\n\n"; # Close up $where_declared block if ($where_declared eq 'in_named') { # { $code .= "}\n\n"; } elsif ($where_declared eq 'in_anon') { # { $code .= "};\n\n"; } # We may need to do something with the sub we just made... $code .= "undef \$outer;\n" if $undef_outer; $code .= "&inner_sub;\n" if $call_inner; if ($call_outer) { if ($where_declared eq 'in_named') { $code .= "&outer;\n\n"; } elsif ($where_declared eq 'in_anon') { $code .= "&\$outer;\n\n" } } # Now, we can actually prep to run the tests. for $inner_sub_test (@inners) { $expected = $expected{$inner_sub_test} or die "expected $inner_sub_test missing"; # Named closures won't access the expected vars if ( $nc_attempt and substr($inner_sub_test, 0, 4) eq "sub_" ) { $expected = 1; } # If you make a sub within a foreach loop, # what happens if it tries to access the # foreach index variable? If it's a named # sub, it gets the var from "outside" the loop, # but if it's anon, it gets the value to which # the index variable is aliased. # # Of course, if the value was set only # within another sub which was never called, # the value has not been set yet. # if ($inner_sub_test eq 'foreach') { if ($inner_type eq 'named') { if ($call_outer || ($where_declared eq 'filescope')) { $expected = 12001 } else { $expected = 1 } } } # Here's the test: if ($inner_type eq 'anon') { $code .= "test { &\$anon_$test == $expected };\n" } else { $code .= "test { &named_$test == $expected };\n" } $test++; } if ($Config{d_fork} and $^O ne 'VMS' and $^O ne 'MSWin32' and $^O ne 'NetWare') { # Fork off a new perl to run the tests. # (This is so we can catch spurious warnings.) $| = 1; print ""; $| = 0; # flush output before forking pipe READ, WRITE or die "Can't make pipe: $!"; pipe READ2, WRITE2 or die "Can't make second pipe: $!"; die "Can't fork: $!" unless defined($pid = open PERL, "|-"); unless ($pid) { # Child process here. We're going to send errors back # through the extra pipe. close READ; close READ2; open STDOUT, ">&WRITE" or die "Can't redirect STDOUT: $!"; open STDERR, ">&WRITE2" or die "Can't redirect STDERR: $!"; exec './perl', '-w', '-' or die "Can't exec ./perl: $!"; } else { # Parent process here. close WRITE; close WRITE2; print PERL $code; close PERL; { local $/; $output = join '', ; $errors = join '', ; } close READ; close READ2; } } else { # No fork(). Do it the hard way. my $cmdfile = "tcmd$$"; $cmdfile++ while -e $cmdfile; my $errfile = "terr$$"; $errfile++ while -e $errfile; my @tmpfiles = ($cmdfile, $errfile); open CMD, ">$cmdfile"; print CMD $code; close CMD; my $cmd = (($^O eq 'VMS') ? "MCR $^X" : ($^O eq 'MSWin32') ? '.\perl' : ($^O eq 'MacOS') ? $^X : ($^O eq 'NetWare') ? 'perl' : './perl'); $cmd .= " -w $cmdfile 2>$errfile"; if ($^O eq 'VMS' or $^O eq 'MSWin32' or $^O eq 'NetWare') { # Use pipe instead of system so we don't inherit STD* from # this process, and then foul our pipe back to parent by # redirecting output in the child. open PERL,"$cmd |" or die "Can't open pipe: $!\n"; { local $/; $output = join '', } close PERL; } else { my $outfile = "tout$$"; $outfile++ while -e $outfile; push @tmpfiles, $outfile; system "$cmd >$outfile"; { local $/; open IN, $outfile; $output = ; close IN } } if ($?) { printf "not ok: exited with error code %04X\n", $?; $debugging or do { 1 while unlink @tmpfiles }; exit; } { local $/; open IN, $errfile; $errors = ; close IN } 1 while unlink @tmpfiles; } print $output; print STDERR $errors; if ($debugging && ($errors || $? || ($output =~ /not ok/))) { my $lnum = 0; for $line (split '\n', $code) { printf "%3d: %s\n", ++$lnum, $line; } } printf "not ok: exited with error code %04X\n", $? if $?; print '#', "-" x 30, "\n" if $debugging; } # End of foreach $within } # End of foreach $where_declared } # End of foreach $inner_type } # The following dumps core with perl <= 5.8.0 (bugid 9535) ... BEGIN { $vanishing_pad = sub { eval $_[0] } } $some_var = 123; test { $vanishing_pad->( '$some_var' ) == 123 }; # ... and here's another coredump variant - this time we explicitly # delete the sub rather than using a BEGIN ... sub deleteme { $a = sub { eval '$newvar' } } deleteme(); *deleteme = sub {}; # delete the sub $newvar = 123; # realloc the SV of the freed CV test { $a->() == 123 }; # ... and a further coredump variant - the fixup of the anon sub's # CvOUTSIDE pointer when the middle eval is freed, wasn't good enough to # survive the outer eval also being freed. $x = 123; $a = eval q( eval q[ sub { eval '$x' } ] ); @a = ('\1\1\1\1\1\1\1') x 100; # realloc recently-freed CVs test { $a->() == 123 }; # this coredumped on <= 5.8.0 because evaling the closure caused # an SvFAKE to be added to the outer anon's pad, which was then grown. my $outer; sub { my $x; $x = eval 'sub { $outer }'; $x->(); $a = [ 99 ]; $x->(); }->(); test {1}; # [perl #17605] found that an empty block called in scalar context # can lead to stack corruption { my $x = "foooobar"; $x =~ s/o//eg; test { $x eq 'fbar' } } # DAPM 24-Nov-02 # SvFAKE lexicals should be visible thoughout a function. # On <= 5.8.0, the third test failed, eg bugid #18286 { my $x = 1; sub fake { test { sub {eval'$x'}->() == 1 }; { $x; test { sub {eval'$x'}->() == 1 } } test { sub {eval'$x'}->() == 1 }; } } fake(); # undefining a sub shouldn't alter visibility of outer lexicals { $x = 1; my $x = 2; sub tmp { sub { eval '$x' } } my $a = tmp(); undef &tmp; test { $a->() == 2 }; } # handy class: $x = Watch->new(\$foo,'bar') # causes 'bar' to be appended to $foo when $x is destroyed sub Watch::new { bless [ $_[1], $_[2] ], $_[0] } sub Watch::DESTROY { ${$_[0][0]} .= $_[0][1] } # bugid 1028: # nested anon subs (and associated lexicals) not freed early enough sub linger { my $x = Watch->new($_[0], '2'); sub { $x; my $y; sub { $y; }; }; } { my $watch = '1'; linger(\$watch); test { $watch eq '12' } } # bugid 10085 # obj not freed early enough sub linger2 { my $obj = Watch->new($_[0], '2'); sub { sub { $obj } }; } { my $watch = '1'; linger2(\$watch); test { $watch eq '12' } } # bugid 16302 - named subs didn't capture lexicals on behalf of inner subs { my $x = 1; sub f16302 { sub { test { defined $x and $x == 1 } }->(); } } f16302(); # The presence of an eval should turn cloneless anon subs into clonable # subs - otherwise the CvOUTSIDE of that sub may be wrong { my %a; for my $x (7,11) { $a{$x} = sub { $x=$x; sub { eval '$x' } }; } test { $a{7}->()->() + $a{11}->()->() == 18 }; }