package Test::LeakTrace; use 5.008_001; use strict; use warnings; our $VERSION = '0.16'; use XSLoader; XSLoader::load(__PACKAGE__, $VERSION); use Test::Builder::Module; our @ISA = qw(Test::Builder::Module); use Exporter qw(import); # use Exporter::import for backward compatibility our @EXPORT = qw( leaktrace leaked_refs leaked_info leaked_count no_leaks_ok leaks_cmp_ok count_sv ); our %EXPORT_TAGS = ( all => \@EXPORT, test => [qw(no_leaks_ok leaks_cmp_ok)], util => [qw(leaktrace leaked_refs leaked_info leaked_count count_sv)], ); sub _do_leaktrace{ my($block, $name, $need_stateinfo, $mode) = @_; if(!defined($mode) && !defined wantarray){ warnings::warnif void => "Useless use of $name() in void context"; } if($name eq 'leaked_count') { my $start; $start = count_sv(); $block->(); return count_sv() - $start; } local $SIG{__DIE__} = 'DEFAULT'; _start($need_stateinfo); eval{ $block->(); }; if($@){ _finish(-silent); die $@; } return _finish($mode); } sub leaked_refs(&){ my($block) = @_; return _do_leaktrace($block, 'leaked_refs', 0); } sub leaked_info(&){ my($block) = @_; return _do_leaktrace($block, 'leaked_refs', 1); } sub leaked_count(&){ my($block) = @_; return scalar _do_leaktrace($block, 'leaked_count', 0); } sub leaktrace(&;$){ my($block, $mode) = @_; _do_leaktrace($block, 'leaktrace', 1, defined($mode) ? $mode : -simple); return; } sub leaks_cmp_ok(&$$;$){ my($block, $cmp_op, $expected, $description) = @_; my $Test = __PACKAGE__->builder; if(!_runops_installed()){ my $mod = exists $INC{'Devel/Cover.pm'} ? 'Devel::Cover' : 'strange runops routines'; return $Test->ok(1, "skipped (under $mod)"); } # calls to prepare cache in $block $block->(); my $got = _do_leaktrace($block, 'leaked_count', 0); my $desc = sprintf 'leaks %s %-2s %s', $got, $cmp_op, $expected; if(defined $description){ $description .= " ($desc)"; } else{ $description = $desc; } my $result = $Test->cmp_ok($got, $cmp_op, $expected, $description); if(!$result){ open local(*STDERR), '>', \(my $content = ''); $block->(); # calls it again because opening *STDERR changes the run-time environment _do_leaktrace($block, 'leaktrace', 1, -verbose); $Test->diag($content); } return $result; } sub no_leaks_ok(&;$){ # ($block, $description) splice @_, 1, 0, ('<=', 0); # ($block, '<=', 0, $description); goto &leaks_cmp_ok; } 1; __END__ =for stopwords sv gfx =head1 NAME Test::LeakTrace - Traces memory leaks =head1 VERSION This document describes Test::LeakTrace version 0.15. =head1 SYNOPSIS use Test::LeakTrace; # simple report leaktrace{ # ... }; # verbose output leaktrace{ # ... } -verbose; # with callback leaktrace{ # ... } sub { my($ref, $file, $line) = @_; warn "leaked $ref from $file line\n"; }; my @refs = leaked_refs{ # ... }; my @info = leaked_info{ # ... }; my $count = leaked_count{ # ... }; # standard test interface use Test::LeakTrace; no_leaks_ok{ # ... } 'no memory leaks'; leaks_cmp_ok{ # ... } '<', 10; =head1 DESCRIPTION C provides several functions that trace memory leaks. This module scans arenas, the memory allocation system, so it can detect any leaked SVs in given blocks. B are SVs which are not released after the end of the scope they have been created. These SVs include global variables and internal caches. For example, if you call a method in a tracing block, perl might prepare a cache for the method. Thus, to trace true leaks, C and C executes a block more than once. =head1 INTERFACE =head2 Exported functions =head3 C<< leaked_info { BLOCK } >> Executes I and returns a list of leaked SVs and places where the SVs come from, i.e. C<< [$ref, $file, $line] >>. =head3 C<< leaked_refs { BLOCK } >> Executes I and returns a list of leaked SVs. =head3 C<< leaked_count { BLOCK } >> Executes I and returns the number of leaked SVs. =head3 C<< leaktrace { BLOCK } ?($mode | \&callback) >> Executes I and reports leaked SVs to C<*STDERR>. Defined I<$mode>s are: =over 4 =item -simple Default. Reports the leaked SV identity (type and address), file name and line number. =item -sv_dump In addition to B<-simple>, dumps the sv content using C, which also implements C. =item -lines In addition to B<-simple>, prints suspicious source lines. =item -verbose Both B<-sv_dump> and B<-lines>. =back =head3 C<< no_leaks_ok { BLOCK } ?$description >> Tests that I does not leaks SVs. This is a test function using C. Note that I is called more than once. This is because I might prepare caches which are not memory leaks. =head3 C<< leaks_cmp_ok { BLOCK } $cmp_op, $number, ?$description >> Tests that I leaks a specific number of SVs. This is a test function using C. Note that I is called more than once. This is because I might prepare caches which are not memory leaks. =head3 C<< count_sv() >> Counts all the SVs in the arena. =head2 Script interface Like C C is provided for whole scripts. The arguments of C directive is the same as C. $ TEST_LEAKTRACE=-sv_dump perl -MTest::LeakTrace::Script script.pl $ perl -MTest::LeakTrace::Script=-verbose script.pl #!perl # ... use Test::LeakTrace::Script sub{ my($ref, $file, $line) = @_; # ... }; # ... =head1 EXAMPLES =head2 Testing modules Here is a test script template that checks memory leaks. #!perl -w use strict; use constant HAS_LEAKTRACE => eval{ require Test::LeakTrace }; use Test::More HAS_LEAKTRACE ? (tests => 1) : (skip_all => 'require Test::LeakTrace'); use Test::LeakTrace; use Some::Module; leaks_cmp_ok{ my $o = Some::Module->new(); $o->something(); $o->something_else(); } '<', 1; =head1 DEPENDENCIES Perl 5.8.1 or later, and a C compiler. =head1 CAVEATS C does not work with C and modules which install their own C routines, or the perl executor. So if the test functions of this module detect strange C routines, they do nothing and report okay. =head1 BUGS No bugs have been reported. Please report any bugs or feature requests to the author. =head1 SEE ALSO L. L. L. L. For guts: L. L. F. =head1 AUTHOR Goro Fuji(gfx) Egfuji(at)cpan.orgE. =head1 LICENSE AND COPYRIGHT Copyright (c) 2009-2010, Goro Fuji(gfx). All rights reserved. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut