BEGIN {
chdir 't' if -d 't';
@INC = '../lib'; # pick up only this build's lib
- $ENV{PERL5LIB} = '../lib'; # so children will see it too
}
my $torture; # torture testing?
-use Test::Harness;
+use TAP::Harness 3.13;
use strict;
+use Config;
-$Test::Harness::switches = ""; # Too much noise otherwise
-$Test::Harness::Verbose++ while @ARGV && $ARGV[0] eq '-v' && shift;
+$::do_nothing = $::do_nothing = 1;
+require './TEST';
+our $Valgrind_Log;
+
+my $Verbose = 0;
+$Verbose++ while @ARGV && $ARGV[0] eq '-v' && shift;
+
+# For valgrind summary output
+my $htoolnm;
+my $hgrind_ct;
if ($ARGV[0] && $ARGV[0] eq '-torture') {
shift;
# which live dual lives on CPAN.
$ENV{PERL_CORE} = 1;
-#fudge DATA for now.
-my %datahandle = qw(
- lib/bigint.t 1
- lib/bigintpm.t 1
- lib/bigfloat.t 1
- lib/bigfloatpm.t 1
- op/gv.t 1
- lib/complex.t 1
- lib/ph.t 1
- lib/soundex.t 1
- op/misc.t 1
- op/runlevel.t 1
- op/tie.t 1
- op/lex_assign.t 1
- );
-
-foreach (keys %datahandle) {
- unlink "$_.t";
-}
-
-my (@tests, $re);
+my (@tests, @re, @anti_re);
# [.VMS]TEST.COM calls harness with empty arguments, so clean-up @ARGV
@ARGV = grep $_ && length( $_ ) => @ARGV;
-sub _populate_hash {
- return map {$_, 1} split /\s+/, $_[0];
-}
-
-# Generate T::H schedule rules that run the contents of each directory
-# sequentially.
-sub _seq_dir_rules {
- my @tests = @_;
- my %dir;
- for (@tests) {
- s{[^/]+$}{\*};
- $dir{$_}++;
- }
-
- return { par => [ map { { seq => $_ } } sort keys %dir ] };
-}
-
sub _extract_tests;
sub _extract_tests {
# This can probably be done more tersely with a map, but I doubt that it
@results;
}
-if ($ARGV[0] && $ARGV[0]=~/^-re/) {
- if ($ARGV[0]!~/=/) {
- shift;
- $re=join "|",@ARGV;
- @ARGV=();
+while ($ARGV[0] && $ARGV[0]=~/^-(n?)re/) {
+ my $ary= $1 ? \@anti_re : \@re;
+
+ if ( $ARGV[0] !~ /=/ ) {
+ shift @ARGV;
+ while (@ARGV and $ARGV[0] !~ /^-/) {
+ push @$ary, shift @ARGV;
+ }
} else {
- (undef,$re)=split/=/,shift;
+ push @$ary, (split/=/,shift @ARGV)[1];
}
}
my $jobs = $ENV{TEST_JOBS};
-my ($fork, $rules, $state);
+my ($rules, $state, $color);
if ($ENV{HARNESS_OPTIONS}) {
for my $opt ( split /:/, $ENV{HARNESS_OPTIONS} ) {
if ( $opt =~ /^j(\d*)$/ ) {
$jobs ||= $1 || 9;
}
- elsif ( $opt eq 'f' ) {
- $fork = 1;
- }
elsif ( $opt eq 'c' ) {
-# $args->{color} = 1;
+ $color = 1;
}
else {
die "Unknown HARNESS_OPTIONS item: $opt\n";
else {
@tests = @ARGV;
}
+ # This is a hack to force config_heavy.pl to be loaded, before the
+ # prep work for running a test changes directory.
+ 1 if $Config{d_fork};
} else {
# Ideally we'd get somewhere close to Tux's Oslo rules
# my $rules = {
# par => [
# { seq => '../ext/DB_File/t/*' },
# { seq => '../ext/IO_Compress_Zlib/t/*' },
- # { seq => '../lib/CPANPLUS/*' },
# { seq => '../lib/ExtUtils/t/*' },
# '*'
# ]
# };
- # but for now, run all directories in sequence. In particular, it would be
- # nice to get the tests in t/op/*.t able to run in parallel.
+ # but for now, run all directories in sequence.
unless (@tests) {
my @seq = <base/*.t>;
- my @next = qw(comp cmd run io op uni mro lib);
+ my @next = qw(comp run cmd io re opbasic op uni mro lib porting perf);
push @next, 'japh' if $torture;
push @next, 'win32' if $^O eq 'MSWin32';
+ push @next, 'benchmark' if $ENV{PERL_BENCHMARK};
+ push @next, 'bigmem' if $ENV{PERL_TEST_MEMORY};
# Hopefully TAP::Parser::Scheduler will support this syntax soon.
# my $next = { par => '{' . join (',', @next) . '}/*.t' };
my $next = { par => [
push @seq, $next;
my @last;
- use Config;
- my %skip;
- {
- my %extensions = _populate_hash $Config{'extensions'};
- my %known_extensions = _populate_hash $Config{'known_extensions'};
- foreach (keys %known_extensions) {
- $skip{$_}++ unless $extensions{$_};
+ push @last,
+ _tests_from_manifest($Config{extensions}, $Config{known_extensions});
+ my %times;
+ if ($state) {
+ # Where known, collate the elapsed times by test name
+ foreach ($state->results->tests()) {
+ $times{$_->name} = $_->elapsed();
}
}
- use File::Spec;
- my $updir = File::Spec->updir;
- my $mani = File::Spec->catfile(File::Spec->updir, "MANIFEST");
- if (open(MANI, $mani)) {
- my @manitests = ();
- while (<MANI>) { # similar code in t/TEST
- if (m!^(ext/(\S+)/+(?:[^/\s]+\.t|test\.pl)|lib/\S+?(?:\.t|test\.pl))\s!) {
- my ($test, $extension) = ($1, $2);
- if (defined $extension) {
- $extension =~ s!/t$!!;
- # XXX Do I want to warn that I'm skipping these?
- next if $skip{$extension};
- my $flat_extension = $extension;
- $flat_extension =~ s!-!/!g;
- next if $skip{$flat_extension}; # Foo/Bar may live in Foo-Bar
- }
- push @manitests, File::Spec->catfile($updir, $test);
- }
- }
- close MANI;
- # Sort the list of test files read from MANIFEST into a sensible
- # order instead of using the order in which they are listed there
- push @last, sort { lc $a cmp lc $b } @manitests;
- } else {
- warn "$0: cannot open $mani: $!\n";
+
+ my %dir;
+ my %total_time;
+ my %serials;
+ my %all_dirs;
+
+ # Preprocess the list of tests
+ for (@last) {
+ if ($^O eq 'MSWin32') {
+ s,\\,/,g; # canonicalize path
+ };
+
+ # Keep a list of the distinct directory names, and another list of
+ # those which contain a file whose name begins with a 0
+ if ( m! \A \.\. /
+ ( .*? ) # $1 is the directory path name
+ /
+ ( [^/]* \.t ) # $2 is the .t name
+ \z !x)
+ {
+ my $path = $1;
+
+ $all_dirs{$path} = 1;
+ $serials{$path} = 1 if $2 =~ / \A 0 /x;
+ }
+ }
+
+ # We assume that the reason a test file's name begins with a 0 is to
+ # order its execution among the tests in its directory. Hence, a
+ # directory containing such files should be tested in serial order.
+ #
+ # Add exceptions to the above rule
+ for (qw(ext/Pod-Html/t cpan/IO-Zlib/t ext/File-Find/t)) {
+ $serials{$_} = 1;
+ }
+
+ my @nonexistent_serials = grep { not exists $all_dirs{$_} } keys %serials;
+ if (@nonexistent_serials) {
+ die "These directories to be run serially don't exist."
+ . " Check your spelling:\n" . join "\n", @nonexistent_serials;
+ }
+
+ # Remove the serial testing directories from the list of all
+ # directories. The remaining ones are testable in parallel. Make the
+ # parallel list a scalar with names separated by '|' so that below
+ # they will be added to a regular expression.
+ my $non_serials = join "|", grep { not exists $serials{$_} } keys %all_dirs;
+ undef %all_dirs;
+ undef %serials;
+
+ for (@last) {
+ # Treat every file in each non-serial directory as its own
+ # "directory", so that it can be executed in parallel
+ m! \A ( \.\. / (?: $non_serials )
+ / [^/]+ \.t \z | .* [/] ) !x
+ or die "'$_'";
+ push @{$dir{$1}}, $_;
+
+ # This file contributes time to the total needed for the directory
+ # as a whole
+ $total_time{$1} += $times{$_} || 0;
}
- push @last, <Module_Pluggable/*.t>;
- push @last, <pod/*.t>;
- push @last, <x2p/*.t>;
+ #print STDERR __LINE__, join "\n", sort { $total_time{$b} <=> $total_time{$a} } keys %dir, " ";
push @tests, @last;
- push @seq, _seq_dir_rules @last;
+ # Generate T::H schedule rules that run the contents of each directory
+ # sequentially.
+ push @seq, { par => [ map { s!/$!/*!; { seq => $_ } } sort {
+ # Directories, ordered by total time descending then name ascending
+ $total_time{$b} <=> $total_time{$a} || lc $a cmp lc $b
+ } keys %dir ] };
$rules = { seq => \@seq };
}
if ($^O eq 'MSWin32') {
s,\\,/,g for @tests;
}
-@tests=grep /$re/, @tests
- if $re;
-
-if ($jobs) {
- eval 'use TAP::Harness 3.13; 1' or die $@;
-
- # Test::Harness parses $ENV{HARNESS_OPTIONS}, TAP::Harness does not
- local $ENV{HARNESS_OPTIONS};
- my $h = TAP::Harness->new({ jobs => $jobs, rules => $rules, ($fork ? (fork => $fork) : ())});
- if ($state) {
- $h->callback(
- after_test => sub {
- $state->observe_test(@_);
- }
- );
- $h->callback(
- after_runtests => sub {
- $state->commit(@_);
- }
- );
+if (@re or @anti_re) {
+ my @keepers;
+ foreach my $test (@tests) {
+ my $keep = 0;
+ if (@re) {
+ foreach my $re (@re) {
+ $keep = 1 if $test=~/$re/;
+ }
+ } else {
+ $keep = 1;
+ }
+ if (@anti_re) {
+ foreach my $anti_re (@anti_re) {
+ $keep = 0 if $test=~/$anti_re/;
+ }
+ }
+ if ($keep) {
+ push @keepers, $test;
+ }
+ }
+ @tests= @keepers;
+}
+
+# Allow eg ./perl t/harness t/op/lc.t
+for (@tests) {
+ if (! -f $_ && !/^\.\./ && -f "../$_") {
+ $_ = "../$_";
+ s{^\.\./t/}{};
}
- $h->runtests(@tests);
-} else {
- Test::Harness::runtests @tests;
}
-exit(0);
+
+my %options;
+
+my $type = 'perl';
+
+# Load TAP::Parser now as otherwise it could be required in the short time span
+# in which the harness process chdirs into ext/Dist
+require TAP::Parser;
+
+my $h = TAP::Harness->new({
+ rules => $rules,
+ color => $color,
+ jobs => $jobs,
+ verbosity => $Verbose,
+ timer => $ENV{HARNESS_TIMER},
+ exec => sub {
+ my ($harness, $test) = @_;
+
+ my $options = $options{$test};
+ if (!defined $options) {
+ $options = $options{$test} = _scan_test($test, $type);
+ }
+
+ (local $Valgrind_Log = "$test.valgrind-current") =~ s/^.*\///;
+
+ return [ split ' ', _cmd($options, $type) ];
+ },
+});
+
+# Print valgrind output after test completes
+if ($ENV{PERL_VALGRIND}) {
+ $h->callback(
+ after_test => sub {
+ my ($job) = @_;
+ my $test = $job->[0];
+ my $vfile = "$test.valgrind-current";
+ $vfile =~ s/^.*\///;
+
+ if ( (! -z $vfile) && open(my $voutput, '<', $vfile)) {
+ print "$test: Valgrind output:\n";
+ print "$test: $_" for <$voutput>;
+ close($voutput);
+ }
+
+ (local $Valgrind_Log = "$test.valgrind-current") =~ s/^.*\///;
+
+ _check_valgrind(\$htoolnm, \$hgrind_ct, \$test);
+ }
+ );
+}
+
+if ($state) {
+ $h->callback(
+ after_test => sub {
+ $state->observe_test(@_);
+ }
+ );
+ $h->callback(
+ after_runtests => sub {
+ $state->commit(@_);
+ }
+ );
+}
+
+$h->callback(
+ parser_args => sub {
+ my ($args, $job) = @_;
+ my $test = $job->[0];
+ _before_fork($options{$test});
+ push @{ $args->{switches} }, "-I../../lib";
+ }
+ );
+
+$h->callback(
+ made_parser => sub {
+ my ($parser, $job) = @_;
+ my $test = $job->[0];
+ my $options = delete $options{$test};
+ _after_fork($options);
+ }
+ );
+
+my $agg = $h->runtests(@tests);
+_cleanup_valgrind(\$htoolnm, \$hgrind_ct);
+exit $agg->has_errors ? 1 : 0;