/usr/share/perl5/Test/LongString.pm is in libtest-longstring-perl 0.15-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use vars qw($VERSION @ISA @EXPORT $Max $Context $EOL $LCSS);
$VERSION = '0.15';
use Test::Builder;
my $Tester = new Test::Builder();
use Exporter;
@ISA = ('Exporter');
@EXPORT = qw( is_string is_string_nows like_string unlike_string
contains_string lacks_string );
# Maximum string length displayed in diagnostics
$Max = 50;
# Amount of context provided when starting displaying a string in the middle
$Context = 10;
# Boolean: should we show LCSS context ?
$LCSS = 1;
# Regular expression that decides what a end of line is
$EOL = "\n";
sub import {
(undef, my %args) = @_;
$Max = $args{max} if defined $args{max};
$LCSS = $args{lcss} if defined $args{lcss};
$EOL = $args{eol} if defined $args{eol};
@_ = $_[0];
goto &Exporter::import;
}
# _display($string, [$offset = 0])
# Formats a string for display. Begins at $offset minus $Context.
# This function ought to be configurable, à la od(1).
sub _display {
my $s = shift;
if (!defined $s) { return 'undef'; }
if (length($s) > $Max) {
my $offset = shift || 0;
if (defined $Context) {
$offset -= $Context;
$offset < 0 and $offset = 0;
}
else {
$offset = 0;
}
$s = sprintf(qq("%.${Max}s"...), substr($s, $offset));
$s = "...$s" if $offset;
}
else {
$s = qq("$s");
}
$s =~ s/([\0-\037\200-\377])/sprintf('\x{%02x}',ord $1)/eg;
return $s;
}
sub _common_prefix_length {
my ($str1, $str2) = @_;
my $diff = $str1 ^ $str2;
my ($pre) = $diff =~ /^(\000*)/;
return length $pre;
}
sub contains_string($$;$) {
my ($str,$sub,$name) = @_;
my $ok;
if (!defined $str) {
$Tester->ok($ok = 0, $name);
$Tester->diag("String to look in is undef");
} elsif (!defined $sub) {
$Tester->ok($ok = 0, $name);
$Tester->diag("String to look for is undef");
} else {
my $index = index($str, $sub);
$ok = ($index >= 0) ? 1 : 0;
$Tester->ok($ok, $name);
if (!$ok) {
my ($g, $e) = (_display($str), _display($sub));
$Tester->diag(<<DIAG);
searched: $g
can't find: $e
DIAG
if ($LCSS) {
# if _lcss() returned the actual substring,
# all we'd have to do is:
# my $l = _display( _lcss($str, $sub) );
my ($off, $len) = _lcss($str, $sub);
my $l = _display( substr($str, $off, $len) );
$Tester->diag(<<DIAG);
LCSS: $l
DIAG
# if there's room left, show some surrounding context
if ($len < $Max) {
my $available = int( ($Max - $len) / 2 );
my $begin = ($off - ($available*2) > 0) ? $off - ($available*2)
: ($off - $available > 0) ? $off - $available : 0;
my $c = _display( substr($str, $begin, $Max) );
$Tester->diag("LCSS context: $c");
}
}
}
}
return $ok;
}
sub _lcss($$) {
my ($S, $T) = (@_);
my @L;
my ($offset, $length) = (0,0);
# prevent us from having to zero a $ix$j matrix
no warnings 'uninitialized';
# now the actual LCSS algorithm
foreach my $i (0 .. length($S) ) {
foreach my $j (0 .. length($T)) {
if (substr($S, $i, 1) eq substr($T, $j, 1)) {
if ($i == 0 or $j == 0) {
$L[$i][$j] = 1;
}
else {
$L[$i][$j] = $L[$i-1][$j-1] + 1;
}
if ($L[$i][$j] > $length) {
$length = $L[$i][$j];
$offset = $i - $length + 1;
}
}
}
}
# if you want to display just the lcss:
# return substr($S, $offset, $length);
# but to display the surroundings, we need to:
return ($offset, $length);
}
sub lacks_string($$;$) {
my ($str,$sub,$name) = @_;
my $ok;
if (!defined $str) {
$Tester->ok($ok = 0, $name);
$Tester->diag("String to look in is undef");
} elsif (!defined $sub) {
$Tester->ok($ok = 0, $name);
$Tester->diag("String to look for is undef");
} else {
my $index = index($str, $sub);
$ok = ($index < 0) ? 1 : 0;
$Tester->ok($ok, $name);
if (!$ok) {
my ($g, $e) = (_display($str), _display($sub));
my $line = () = substr($str,0,$index-1) =~ /$EOL/g;
my $column = $line ? $index - $+[0] + 1: $index + 1;
$line++;
$Tester->diag(<<DIAG);
searched: $g
and found: $e
at position: $index (line $line column $column)
DIAG
}
}
return $ok;
}
sub is_string ($$;$) {
my ($got, $expected, $name) = @_;
if (!defined $got || !defined $expected) {
my $ok = !defined $got && !defined $expected;
$Tester->ok($ok, $name);
if (!$ok) {
my ($g, $e) = (_display($got), _display($expected));
$Tester->diag(<<DIAG);
got: $g
expected: $e
DIAG
}
return $ok;
}
if ($got eq $expected) {
$Tester->ok(1, $name);
return 1;
}
else {
$Tester->ok(0, $name);
my $common_prefix = _common_prefix_length($got,$expected);
my ($g, $e) = (
_display($got, $common_prefix),
_display($expected, $common_prefix),
);
my $line = () = substr($expected,0,$common_prefix) =~ /$EOL/g;
my $column = $line ? $common_prefix - $+[0] + 1 : $common_prefix + 1;
$line++;
$Tester->diag(<<DIAG);
got: $g
length: ${\(length $got)}
expected: $e
length: ${\(length $expected)}
strings begin to differ at char ${\($common_prefix + 1)} (line $line column $column)
DIAG
return 0;
}
}
sub is_string_nows ($$;$) {
my ($got, $expected, $name) = @_;
if (!defined $got || !defined $expected) {
my $ok = !defined $got && !defined $expected;
$Tester->ok($ok, $name);
if (!$ok) {
my ($g, $e) = (_display($got), _display($expected));
$Tester->diag(<<DIAG);
got: $g
expected: $e
DIAG
}
return $ok;
}
s/\s+//g for (my $got_nows = $got), (my $expected_nows = $expected);
if ($got_nows eq $expected_nows) {
$Tester->ok(1, $name);
return 1;
}
else {
$Tester->ok(0, $name);
my $common_prefix = _common_prefix_length($got_nows,$expected_nows);
my ($g, $e) = (
_display($got_nows, $common_prefix),
_display($expected_nows, $common_prefix),
);
$Tester->diag(<<DIAG);
after whitespace removal:
got: $g
length: ${\(length $got_nows)}
expected: $e
length: ${\(length $expected_nows)}
strings begin to differ at char ${\($common_prefix + 1)}
DIAG
return 0;
}
}
sub like_string ($$;$) {
_like($_[0],$_[1],'=~',$_[2]);
}
sub unlike_string ($$;$) {
_like($_[0],$_[1],'!~',$_[2]);
}
# mostly from Test::Builder::_regex_ok
sub _like {
local $Test::Builder::Level = $Test::Builder::Level + 1;
my ($got, $regex, $cmp, $name) = @_;
my $ok = 0;
my $usable_regex = $Tester->maybe_regex($regex);
unless (defined $usable_regex) {
$ok = $Tester->ok( 0, $name );
$Tester->diag(" '$regex' doesn't look much like a regex to me.");
return $ok;
}
{
local $^W = 0;
my $test = $got =~ /$usable_regex/ ? 1 : 0;
$test = !$test if $cmp eq '!~';
$ok = $Tester->ok( $test, $name );
}
unless( $ok ) {
my $g = _display($got);
my $match = $cmp eq '=~' ? "doesn't match" : "matches";
my $l = defined $got ? length $got : '-';
$Tester->diag(sprintf(<<DIAGNOSTIC, $g, $match, $regex));
got: %s
length: $l
%13s '%s'
DIAGNOSTIC
}
return $ok;
}
1;
__END__
=head1 NAME
Test::LongString - tests strings for equality, with more helpful failures
=head1 SYNOPSIS
use Test::More tests => 1;
use Test::LongString;
like_string( $html, qr/(perl|cpan)\.org/ );
# Failed test (html-test.t at line 12)
# got: "<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Trans"...
# length: 58930
# doesn't match '(?-xism:(perl|cpan)\.org)'
=head1 DESCRIPTION
This module provides some drop-in replacements for the string
comparison functions of L<Test::More>, but which are more suitable
when you test against long strings. If you've ever had to search
for text in a multi-line string like an HTML document, or find
specific items in binary data, this is the module for you.
=head1 FUNCTIONS
=head2 is_string( $string, $expected [, $label ] )
C<is_string()> is equivalent to C<Test::More::is()>, but with more
helpful diagnostics in case of failure.
=over
=item *
It doesn't print the entire strings in the failure message.
=item *
It reports the lengths of the strings that have been compared.
=item *
It reports the length of the common prefix of the strings.
=item *
It reports the line and column the strings started to differ on.
=item *
In the diagnostics, non-ASCII characters are escaped as C<\x{xx}>.
=back
For example:
is_string( $soliloquy, $juliet );
# Failed test (soliloquy.t at line 15)
# got: "To be, or not to be: that is the question:\x{0a}Whether"...
# length: 1490
# expected: "O Romeo, Romeo,\x{0a}wherefore art thou Romeo?\x{0a}Deny thy"...
# length: 154
# strings begin to differ at char 1 (line 1 column 1)
=head2 is_string_nows( $string, $expected [, $label ] )
Like C<is_string()>, but removes whitepace (in the C<\s> sense) from the
arguments before comparing them.
=head2 like_string( $string, qr/regex/ [, $label ] )
=head2 unlike_string( $string, qr/regex/ [, $label ] )
C<like_string()> and C<unlike_string()> are replacements for
C<Test::More:like()> and C<unlike()> that only print the beginning
of the received string in the output. Unfortunately, they can't
print out the position where the regex failed to match.
like_string( $soliloquy, qr/Romeo|Juliet|Mercutio|Tybalt/ );
# Failed test (soliloquy.t at line 15)
# got: "To be, or not to be: that is the question:\x{0a}Whether"...
# length: 1490
# doesn't match '(?-xism:Romeo|Juliet|Mercutio|Tybalt)'
=head2 contains_string( $string, $substring [, $label ] )
C<contains_string()> searches for I<$substring> in I<$string>. It's
the same as C<like_string()>, except that it's not a regular
expression search.
contains_string( $soliloquy, "Romeo" );
# Failed test (soliloquy.t at line 10)
# searched: "To be, or not to be: that is the question:\x{0a}Whether"...
# and can't find: "Romeo"
As of version 0.12, C<contains_string()> will also report the Longest Common
SubString (LCSS) found in I<$string> and, if the LCSS is short enough, the
surroundings will also be shown under I<LCSS Context>. This should help debug
tests for really long strings like HTML output, so you'll get something like:
contains_string( $html, '<div id="MainContent">' );
# Failed test at t/foo.t line 10.
# searched: "<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Stric"...
# can't find: "<div id="MainContent">"
# LCSS: "ainContent""
# LCSS context: "dolor sit amet</span>\x{0a}<div id="mainContent" class="
You can turn off LCSS reporting by setting C<$Test::LongString::LCSS> to 0,
or by specifying an argument to C<use>:
use Test::LongString lcss => 0;
=head2 lacks_string( $string, $substring [, $label ] )
C<lacks_string()> makes sure that I<$substring> does NOT exist in
I<$string>. It's the same as C<like_string()>, except that it's not a
regular expression search.
lacks_string( $soliloquy, "slings" );
# Failed test (soliloquy.t at line 10)
# searched: "To be, or not to be: that is the question:\x{0a}Whether"...
# and found: "slings"
# at position: 147 (line 3 column 4)
=head1 CONTROLLING OUTPUT
By default, only the first 50 characters of the compared strings
are shown in the failure message. This value is in
C<$Test::LongString::Max>, and can be set at run-time.
You can also set it by specifying an argument to C<use>:
use Test::LongString max => 100;
When the compared strings begin to differ after a large prefix,
Test::LongString will not print them from the beginning, but will start at the
middle, more precisely at C<$Test::LongString::Context> characters before the
first difference. By default this value is 10 characters. If you want
Test::LongString to always print the beginning of compared strings no matter
where they differ, undefine C<$Test::LongString::Context>.
When computing line numbers this module uses "\n" to count line endings. This
may not be appropriate for strings on your platform, and can be overridden
by setting the C<$Test::LongString::EOL> variable to a suitable regular
expression (either a reference to a regular expression or a string that
can be interpolated into a regular expression.)
You can also set it by specifying an argument to C<use>:
use Test::LongString eol => "\x{0a}\x{0c}";
=head1 AUTHOR
Written by Rafael Garcia-Suarez. Thanks to Mark Fowler (and to Joss Whedon) for
the inspirational L<Acme::Test::Buffy>. Thanks to Andy Lester for lots of patches.
This program is free software; you may redistribute it and/or modify it under
the same terms as Perl itself.
A git repository for this module is available at
git://github.com/rgs/Test-LongString.git
=head1 SEE ALSO
L<Test::Builder>, L<Test::Builder::Tester>, L<Test::More>.
=cut
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