# -*- Mode: cperl; cperl-indent-level: 4 -*-
package Test
::Harness
::Straps
;
use Test::Harness::Assert;
use Test::Harness::Iterator;
use Test::Harness::Point;
# Flags used as return values from our methods. Just for internal
Test::Harness::Straps - detailed analysis of test results
use Test::Harness::Straps;
my $strap = Test::Harness::Straps->new;
# Various ways to interpret a test
my %results = $strap->analyze($name, \@test_output);
my %results = $strap->analyze_fh($name, $test_filehandle);
my %results = $strap->analyze_file($test_file);
my %total = $strap->total_results;
# Altering the behavior of the strap UNIMPLEMENTED
my $verbose_output = $strap->dump_verbose();
$strap->dump_verbose_fh($output_filehandle);
B<THIS IS ALPHA SOFTWARE> in that the interface is subject to change
in incompatible ways. It is otherwise stable.
Test::Harness is limited to printing out its results. This makes
analysis of the test results difficult for anything but a human. To
make it easier for programs to work with test results, we provide
Test::Harness::Straps. Instead of printing the results, straps
provide them as raw data. You can also configure how the tests are to
The interface is currently incomplete. I<Please> contact the author
if you'd like a feature added or something change or just have
my $strap = Test::Harness::Straps->new;
my $self = bless {}, $class;
Initialize the internal state of a strap to make it ready for parsing.
$self->{_is_vms} = ( $^O eq 'VMS' );
$self->{_is_win32} = ( $^O =~ /^(MS)?Win32$/ );
$self->{_is_macos} = ( $^O eq 'MacOS' );
=head2 $strap->analyze( $name, \@output_lines )
my %results = $strap->analyze($name, \@test_output);
Analyzes the output of a single test, assigning it the given C<$name>
for use in the total report. Returns the C<%results> of the test.
C<@test_output> should be the raw output from the test, including
my($self, $name, $test_output) = @_;
my $it = Test::Harness::Iterator->new($test_output);
return $self->_analyze_iterator($name, $it);
my($self, $name, $it) = @_;
$self->_reset_file_state;
# Set them up here so callbacks can have them.
$self->{totals}{$name} = \%totals;
while( defined(my $line = $it->next) ) {
$self->_analyze_line($line, \%totals);
last if $self->{saw_bailout};
$totals{skip_all} = $self->{skip_all} if defined $self->{skip_all};
my $passed = ($totals{max} == 0 && defined $totals{skip_all}) ||
($totals{max} && $totals{seen} &&
$totals{max} == $totals{seen} &&
$totals{max} == $totals{ok});
$totals{passing} = $passed ? 1 : 0;
my $point = Test::Harness::Point->from_test_line( $line );
$point->set_number( $self->{'next'} ) unless $point->number;
# sometimes the 'not ' and the 'ok' are on different lines,
# happens often on VMS if you do:
# print "not " unless $test;
if ( $self->{lone_not_line} && ($self->{lone_not_line} == $self->{line} - 1) ) {
if ( $self->{todo}{$point->number} ) {
$point->set_directive_type( 'todo' );
$totals->{bonus}++ if $point->ok;
elsif ( $point->is_skip ) {
$totals->{ok}++ if $point->pass;
if ( ($point->number > 100_000) && ($point->number > ($self->{max}||100_000)) ) {
if ( !$self->{too_many_tests}++ ) {
warn "Enormous test number seen [test ", $point->number, "]\n";
warn "Can't detailize, too big.\n";
name => _def_or_blank( $point->description ),
type => _def_or_blank( $point->directive_type ),
reason => _def_or_blank( $point->directive_reason ),
assert( defined( $details->{ok} ) && defined( $details->{actual_ok} ) );
$totals->{details}[$point->number - 1] = $details;
elsif ( $line =~ /^not\s+$/ ) {
# Sometimes the "not " and "ok" will be on separate lines on VMS.
# We catch this and remember we saw it.
$self->{lone_not_line} = $self->{line};
elsif ( $self->_is_header($line) ) {
$totals->{max} += $self->{max};
elsif ( $self->_is_bail_out($line, \$self->{bailout_reason}) ) {
$self->{saw_bailout} = 1;
elsif (my $diagnostics = $self->_is_diagnostic_line( $line )) {
my $test = $totals->{details}[-1];
$test->{diagnostics} ||= '';
$test->{diagnostics} .= $diagnostics;
$self->{callback}->($self, $line, $linetype, $totals) if $self->{callback};
$self->{'next'} = $point->number + 1 if $point;
sub _is_diagnostic_line {
return if index( $line, '# Looks like you failed' ) == 0;
=head2 $strap->analyze_fh( $name, $test_filehandle )
my %results = $strap->analyze_fh($name, $test_filehandle);
Like C<analyze>, but it reads from the given filehandle.
my($self, $name, $fh) = @_;
my $it = Test::Harness::Iterator->new($fh);
return $self->_analyze_iterator($name, $it);
=head2 $strap->analyze_file( $test_file )
my %results = $strap->analyze_file($test_file);
Like C<analyze>, but it runs the given C<$test_file> and parses its
results. It will also use that name for the total report.
$self->{error} = "$file does not exist";
$self->{error} = "$file is not readable";
local $ENV{PERL5LIB} = $self->_INC2PERL5LIB;
if ( $Test::Harness::Debug ) {
local $^W=0; # ignore undef warnings
print "# PERL5LIB=$ENV{PERL5LIB}\n";
# *sigh* this breaks under taint, but open -| is unportable.
my $line = $self->_command_line($file);
unless ( open(FILE, "$line|" )) {
print "can't run $file. $!\n";
my %results = $self->analyze_fh($file, \*FILE);
if( $? && $self->{_is_vms} ) {
eval q{use vmsish "status"; $results{'exit'} = $?};
$results{'exit'} = _wait2exit($?);
$results{passing} = 0 unless $? == 0;
$self->_restore_PERL5LIB();
eval { require POSIX; &POSIX::WEXITSTATUS(0) };
*_wait2exit = sub { $_[0] >> 8 };
*_wait2exit = sub { POSIX::WEXITSTATUS($_[0]) }
=head2 $strap->_command_line( $file )
Returns the full command line that will be run to test I<$file>.
my $command = $self->_command();
my $switches = $self->_switches($file);
$file = qq["$file"] if ($file =~ /\s/) && ($file !~ /^".*"$/);
my $line = "$command $switches $file";
=head2 $strap->_command()
Returns the command that runs the test. Combine this with C<_switches()>
Typically this is C<$^X>, but you can set C<$ENV{HARNESS_PERL}>
to use a different Perl than what you're running the harness under.
This might be to run a threaded Perl, for example.
You can also overload this method if you've built your own strap subclass,
such as a PHP interpreter for a PHP-based strap.
return $ENV{HARNESS_PERL} if defined $ENV{HARNESS_PERL};
return qq("$^X") if $self->{_is_win32} && $^X =~ /[^\w\.\/\\]/;
=head2 $strap->_switches( $file )
Formats and returns the switches necessary to run the test.
my @existing_switches = $self->_cleaned_switches( $Test::Harness::Switches, $ENV{HARNESS_PERL_SWITCHES} );
open(TEST, $file) or print "can't open $file. $!\n";
close(TEST) or print "can't close $file. $!\n";
my $taint = ( $shebang =~ /^#!.*\bperl.*\s-\w*([Tt]+)/ );
push( @derived_switches, "-$1" ) if $taint;
# When taint mode is on, PERL5LIB is ignored. So we need to put
# all that on the command line as -Is.
# MacPerl's putenv is broken, so it will not see PERL5LIB, tainted or not.
if ( $taint || $self->{_is_macos} ) {
my @inc = $self->_filtered_INC;
push @derived_switches, map { "-I$_" } @inc;
# Quote the argument if there's any whitespace in it, or if
# we're VMS, since VMS requires all parms quoted. Also, don't quote
# it if it's already quoted.
for ( @derived_switches ) {
$_ = qq["$_"] if ((/\s/ || $self->{_is_vms}) && !/^".*"$/ );
return join( " ", @existing_switches, @derived_switches );
=head2 $strap->_cleaned_switches( @switches_from_user )
Returns only defined, non-blank, trimmed switches from the parms passed.
next unless defined $switch;
push( @switches, $switch ) if $switch ne "";
=head2 $strap->_INC2PERL5LIB
local $ENV{PERL5LIB} = $self->_INC2PERL5LIB;
Takes the current value of C<@INC> and turns it into something suitable
for putting onto C<PERL5LIB>.
$self->{_old5lib} = $ENV{PERL5LIB};
return join $Config{path_sep}, $self->_filtered_INC;
=head2 $strap->_filtered_INC()
my @filtered_inc = $self->_filtered_INC;
Shortens C<@INC> by removing redundant and unnecessary entries.
Necessary for OSes with limited command line lengths, like VMS.
# VMS has a 255-byte limit on the length of %ENV entries, so
# toss the ones that involve perl_root, the install location
@inc = grep !/perl_root/i, @inc;
elsif ( $self->{_is_win32} ) {
# Lose any trailing backslashes in the Win32 paths
s/[\\\/+]$// foreach @inc;
$seen{$_}++ foreach $self->_default_inc();
@inc = grep !$seen{$_}++, @inc;
my $perl = $self->_command;
my @inc =`$perl -le "print join qq[\\n], \@INC"`;
=head2 $strap->_restore_PERL5LIB()
$self->_restore_PERL5LIB;
This restores the original value of the C<PERL5LIB> environment variable.
Necessary on VMS, otherwise a no-op.
return unless $self->{_is_vms};
if (defined $self->{_old5lib}) {
$ENV{PERL5LIB} = $self->{_old5lib};
Methods for identifying what sort of line you're looking at.
my $is_diagnostic = $strap->_is_diagnostic($line, \$comment);
Checks if the given line is a comment. If so, it will place it into
my($self, $line, $comment) = @_;
if( $line =~ /^\s*\#(.*)/ ) {
my $is_header = $strap->_is_header($line);
Checks if the given line is a header (1..M) line. If so, it places how
many tests there will be in C<< $strap->{max} >>, a list of which tests
are todo in C<< $strap->{todo} >> and if the whole test was skipped
C<< $strap->{skip_all} >> contains the reason.
# Regex for parsing a header. Will be run with /x
my $Extra_Header_Re = <<'REGEX';
(?: \s+ todo \s+ ([\d \t]+) )? # optional todo set
(?: \s* \# \s* ([\w:]+\s?) (.*) )? # optional skip with optional reason
if( my($max, $extra) = $line =~ /^1\.\.(\d+)(.*)/ ) {
assert
( $self->{max
} >= 0, 'Max # of tests looks right' ); my($todo, $skip, $reason) = $extra =~ /$Extra_Header_Re/xo;
$self->{todo
} = { map { $_ => 1 } split /\s+/, $todo } if $todo;
if( $self->{max
} == 0 ) {
$reason = '' unless defined $skip and $skip =~ /^Skip/i;
$self->{skip_all
} = $reason;
my $is_bail_out = $strap->_is_bail_out($line, \$reason);
Checks if the line is a "Bail out!". Places the reason for bailing
my($self, $line, $reason) = @_;
if( $line =~ /^Bail out!\s*(.*)/i ) {
=head2 C<_reset_file_state>
$strap->_reset_file_state;
Resets things like C<< $strap->{max} >> , C<< $strap->{skip_all} >>,
etc. so it's ready to parse the next file.
delete @
{$self}{qw(max skip_all todo too_many_tests)};
$self->{lone_not_line
} = 0;
$self->{bailout_reason
} = '';
The C<%results> returned from C<analyze()> contain the following
passing true if the whole test is considered a pass
(or skipped), false if its a failure
exit the exit code of the test run, if from a file
wait the wait code of the test run, if from a file
max total tests which should have been run
seen total tests actually seen
skip_all if the whole test was skipped, this will
ok number of tests which passed
(including todo and skips)
todo number of todo tests seen
bonus number of todo tests which
skip number of tests skipped
So a successful test should have max == seen == ok.
There is one final item, the details.
details an array ref reporting the result of
each test looks like this:
$results{details}[$test_num - 1] =
{ ok => is the test considered ok?
actual_ok => did it literally say 'ok'?
name => name of the test (if any)
diagnostics => test diagnostics (if any)
type => 'skip' or 'todo' (if any)
reason => reason for the above (if any)
Element 0 of the details is test #1. I tried it with element 1 being
#1 and 0 being empty, this is less awkward.
See F<examples/mini_harness.plx> for an example of use.
Michael G Schwern C<< <schwern@pobox.com> >>, currently maintained by
Andy Lester C<< <andy@petdance.com> >>.
return $_[0] if defined $_[0];
projects / OpenSPARC-T2-SAM / blob