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diff --git a/Master/tlpkg/tlperl/lib/Test.pm b/Master/tlpkg/tlperl/lib/Test.pm new file mode 100644 index 00000000000..6ab54ab5601 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Test.pm @@ -0,0 +1,954 @@ + +require 5.004; +package Test; + +use strict; + +use Carp; +use vars (qw($VERSION @ISA @EXPORT @EXPORT_OK $ntest $TestLevel), #public-ish + qw($TESTOUT $TESTERR %Program_Lines $told_about_diff + $ONFAIL %todo %history $planned @FAILDETAIL) #private-ish + ); + +# In case a test is run in a persistent environment. +sub _reset_globals { + %todo = (); + %history = (); + @FAILDETAIL = (); + $ntest = 1; + $TestLevel = 0; # how many extra stack frames to skip + $planned = 0; +} + +$VERSION = '1.25_02'; +require Exporter; +@ISA=('Exporter'); + +@EXPORT = qw(&plan &ok &skip); +@EXPORT_OK = qw($ntest $TESTOUT $TESTERR); + +$|=1; +$TESTOUT = *STDOUT{IO}; +$TESTERR = *STDERR{IO}; + +# Use of this variable is strongly discouraged. It is set mainly to +# help test coverage analyzers know which test is running. +$ENV{REGRESSION_TEST} = $0; + + +=head1 NAME + +Test - provides a simple framework for writing test scripts + +=head1 SYNOPSIS + + use strict; + use Test; + + # use a BEGIN block so we print our plan before MyModule is loaded + BEGIN { plan tests => 14, todo => [3,4] } + + # load your module... + use MyModule; + + # Helpful notes. All note-lines must start with a "#". + print "# I'm testing MyModule version $MyModule::VERSION\n"; + + ok(0); # failure + ok(1); # success + + ok(0); # ok, expected failure (see todo list, above) + ok(1); # surprise success! + + ok(0,1); # failure: '0' ne '1' + ok('broke','fixed'); # failure: 'broke' ne 'fixed' + ok('fixed','fixed'); # success: 'fixed' eq 'fixed' + ok('fixed',qr/x/); # success: 'fixed' =~ qr/x/ + + ok(sub { 1+1 }, 2); # success: '2' eq '2' + ok(sub { 1+1 }, 3); # failure: '2' ne '3' + + my @list = (0,0); + ok @list, 3, "\@list=".join(',',@list); #extra notes + ok 'segmentation fault', '/(?i)success/'; #regex match + + skip( + $^O =~ m/MSWin/ ? "Skip if MSWin" : 0, # whether to skip + $foo, $bar # arguments just like for ok(...) + ); + skip( + $^O =~ m/MSWin/ ? 0 : "Skip unless MSWin", # whether to skip + $foo, $bar # arguments just like for ok(...) + ); + +=head1 DESCRIPTION + +This module simplifies the task of writing test files for Perl modules, +such that their output is in the format that +L<Test::Harness|Test::Harness> expects to see. + +=head1 QUICK START GUIDE + +To write a test for your new (and probably not even done) module, create +a new file called F<t/test.t> (in a new F<t> directory). If you have +multiple test files, to test the "foo", "bar", and "baz" feature sets, +then feel free to call your files F<t/foo.t>, F<t/bar.t>, and +F<t/baz.t> + +=head2 Functions + +This module defines three public functions, C<plan(...)>, C<ok(...)>, +and C<skip(...)>. By default, all three are exported by +the C<use Test;> statement. + +=over 4 + +=item C<plan(...)> + + BEGIN { plan %theplan; } + +This should be the first thing you call in your test script. It +declares your testing plan, how many there will be, if any of them +should be allowed to fail, and so on. + +Typical usage is just: + + use Test; + BEGIN { plan tests => 23 } + +These are the things that you can put in the parameters to plan: + +=over + +=item C<tests =E<gt> I<number>> + +The number of tests in your script. +This means all ok() and skip() calls. + +=item C<todo =E<gt> [I<1,5,14>]> + +A reference to a list of tests which are allowed to fail. +See L</TODO TESTS>. + +=item C<onfail =E<gt> sub { ... }> + +=item C<onfail =E<gt> \&some_sub> + +A subroutine reference to be run at the end of the test script, if +any of the tests fail. See L</ONFAIL>. + +=back + +You must call C<plan(...)> once and only once. You should call it +in a C<BEGIN {...}> block, like so: + + BEGIN { plan tests => 23 } + +=cut + +sub plan { + croak "Test::plan(%args): odd number of arguments" if @_ & 1; + croak "Test::plan(): should not be called more than once" if $planned; + + local($\, $,); # guard against -l and other things that screw with + # print + + _reset_globals(); + + _read_program( (caller)[1] ); + + my $max=0; + while (@_) { + my ($k,$v) = splice(@_, 0, 2); + if ($k =~ /^test(s)?$/) { $max = $v; } + elsif ($k eq 'todo' or + $k eq 'failok') { for (@$v) { $todo{$_}=1; }; } + elsif ($k eq 'onfail') { + ref $v eq 'CODE' or croak "Test::plan(onfail => $v): must be CODE"; + $ONFAIL = $v; + } + else { carp "Test::plan(): skipping unrecognized directive '$k'" } + } + my @todo = sort { $a <=> $b } keys %todo; + if (@todo) { + print $TESTOUT "1..$max todo ".join(' ', @todo).";\n"; + } else { + print $TESTOUT "1..$max\n"; + } + ++$planned; + print $TESTOUT "# Running under perl version $] for $^O", + (chr(65) eq 'A') ? "\n" : " in a non-ASCII world\n"; + + print $TESTOUT "# Win32::BuildNumber ", &Win32::BuildNumber(), "\n" + if defined(&Win32::BuildNumber) and defined &Win32::BuildNumber(); + + print $TESTOUT "# MacPerl version $MacPerl::Version\n" + if defined $MacPerl::Version; + + printf $TESTOUT + "# Current time local: %s\n# Current time GMT: %s\n", + scalar(localtime($^T)), scalar(gmtime($^T)); + + print $TESTOUT "# Using Test.pm version $VERSION\n"; + + # Retval never used: + return undef; +} + +sub _read_program { + my($file) = shift; + return unless defined $file and length $file + and -e $file and -f _ and -r _; + open(SOURCEFILE, "<$file") || return; + $Program_Lines{$file} = [<SOURCEFILE>]; + close(SOURCEFILE); + + foreach my $x (@{$Program_Lines{$file}}) + { $x =~ tr/\cm\cj\n\r//d } + + unshift @{$Program_Lines{$file}}, ''; + return 1; +} + +=begin _private + +=item B<_to_value> + + my $value = _to_value($input); + +Converts an C<ok> parameter to its value. Typically this just means +running it, if it's a code reference. You should run all inputted +values through this. + +=cut + +sub _to_value { + my ($v) = @_; + return ref $v eq 'CODE' ? $v->() : $v; +} + +sub _quote { + my $str = $_[0]; + return "<UNDEF>" unless defined $str; + $str =~ s/\\/\\\\/g; + $str =~ s/"/\\"/g; + $str =~ s/\a/\\a/g; + $str =~ s/[\b]/\\b/g; + $str =~ s/\e/\\e/g; + $str =~ s/\f/\\f/g; + $str =~ s/\n/\\n/g; + $str =~ s/\r/\\r/g; + $str =~ s/\t/\\t/g; + $str =~ s/([\0-\037])(?!\d)/sprintf('\\%o',ord($1))/eg; + $str =~ s/([\0-\037\177-\377])/sprintf('\\x%02X',ord($1))/eg; + $str =~ s/([^\0-\176])/sprintf('\\x{%X}',ord($1))/eg; + #if( $_[1] ) { + # substr( $str , 218-3 ) = "..." + # if length($str) >= 218 and !$ENV{PERL_TEST_NO_TRUNC}; + #} + return qq("$str"); +} + + +=end _private + +=item C<ok(...)> + + ok(1 + 1 == 2); + ok($have, $expect); + ok($have, $expect, $diagnostics); + +This function is the reason for C<Test>'s existence. It's +the basic function that +handles printing "C<ok>" or "C<not ok>", along with the +current test number. (That's what C<Test::Harness> wants to see.) + +In its most basic usage, C<ok(...)> simply takes a single scalar +expression. If its value is true, the test passes; if false, +the test fails. Examples: + + # Examples of ok(scalar) + + ok( 1 + 1 == 2 ); # ok if 1 + 1 == 2 + ok( $foo =~ /bar/ ); # ok if $foo contains 'bar' + ok( baz($x + $y) eq 'Armondo' ); # ok if baz($x + $y) returns + # 'Armondo' + ok( @a == @b ); # ok if @a and @b are the same length + +The expression is evaluated in scalar context. So the following will +work: + + ok( @stuff ); # ok if @stuff has any elements + ok( !grep !defined $_, @stuff ); # ok if everything in @stuff is + # defined. + +A special case is if the expression is a subroutine reference (in either +C<sub {...}> syntax or C<\&foo> syntax). In +that case, it is executed and its value (true or false) determines if +the test passes or fails. For example, + + ok( sub { # See whether sleep works at least passably + my $start_time = time; + sleep 5; + time() - $start_time >= 4 + }); + +In its two-argument form, C<ok(I<arg1>, I<arg2>)> compares the two +scalar values to see if they match. They match if both are undefined, +or if I<arg2> is a regex that matches I<arg1>, or if they compare equal +with C<eq>. + + # Example of ok(scalar, scalar) + + ok( "this", "that" ); # not ok, 'this' ne 'that' + ok( "", undef ); # not ok, "" is defined + +The second argument is considered a regex if it is either a regex +object or a string that looks like a regex. Regex objects are +constructed with the qr// operator in recent versions of perl. A +string is considered to look like a regex if its first and last +characters are "/", or if the first character is "m" +and its second and last characters are both the +same non-alphanumeric non-whitespace character. These regexp + +Regex examples: + + ok( 'JaffO', '/Jaff/' ); # ok, 'JaffO' =~ /Jaff/ + ok( 'JaffO', 'm|Jaff|' ); # ok, 'JaffO' =~ m|Jaff| + ok( 'JaffO', qr/Jaff/ ); # ok, 'JaffO' =~ qr/Jaff/; + ok( 'JaffO', '/(?i)jaff/ ); # ok, 'JaffO' =~ /jaff/i; + +If either (or both!) is a subroutine reference, it is run and used +as the value for comparing. For example: + + ok sub { + open(OUT, ">x.dat") || die $!; + print OUT "\x{e000}"; + close OUT; + my $bytecount = -s 'x.dat'; + unlink 'x.dat' or warn "Can't unlink : $!"; + return $bytecount; + }, + 4 + ; + +The above test passes two values to C<ok(arg1, arg2)> -- the first +a coderef, and the second is the number 4. Before C<ok> compares them, +it calls the coderef, and uses its return value as the real value of +this parameter. Assuming that C<$bytecount> returns 4, C<ok> ends up +testing C<4 eq 4>. Since that's true, this test passes. + +Finally, you can append an optional third argument, in +C<ok(I<arg1>,I<arg2>, I<note>)>, where I<note> is a string value that +will be printed if the test fails. This should be some useful +information about the test, pertaining to why it failed, and/or +a description of the test. For example: + + ok( grep($_ eq 'something unique', @stuff), 1, + "Something that should be unique isn't!\n". + '@stuff = '.join ', ', @stuff + ); + +Unfortunately, a note cannot be used with the single argument +style of C<ok()>. That is, if you try C<ok(I<arg1>, I<note>)>, then +C<Test> will interpret this as C<ok(I<arg1>, I<arg2>)>, and probably +end up testing C<I<arg1> eq I<arg2>> -- and that's not what you want! + +All of the above special cases can occasionally cause some +problems. See L</BUGS and CAVEATS>. + +=cut + +# A past maintainer of this module said: +# <<ok(...)'s special handling of subroutine references is an unfortunate +# "feature" that can't be removed due to compatibility.>> +# + +sub ok ($;$$) { + croak "ok: plan before you test!" if !$planned; + + local($\,$,); # guard against -l and other things that screw with + # print + + my ($pkg,$file,$line) = caller($TestLevel); + my $repetition = ++$history{"$file:$line"}; + my $context = ("$file at line $line". + ($repetition > 1 ? " fail \#$repetition" : '')); + + # Are we comparing two values? + my $compare = 0; + + my $ok=0; + my $result = _to_value(shift); + my ($expected, $isregex, $regex); + if (@_ == 0) { + $ok = $result; + } else { + $compare = 1; + $expected = _to_value(shift); + if (!defined $expected) { + $ok = !defined $result; + } elsif (!defined $result) { + $ok = 0; + } elsif (ref($expected) eq 'Regexp') { + $ok = $result =~ /$expected/; + $regex = $expected; + } elsif (($regex) = ($expected =~ m,^ / (.+) / $,sx) or + (undef, $regex) = ($expected =~ m,^ m([^\w\s]) (.+) \1 $,sx)) { + $ok = $result =~ /$regex/; + } else { + $ok = $result eq $expected; + } + } + my $todo = $todo{$ntest}; + if ($todo and $ok) { + $context .= ' TODO?!' if $todo; + print $TESTOUT "ok $ntest # ($context)\n"; + } else { + # Issuing two seperate prints() causes problems on VMS. + if (!$ok) { + print $TESTOUT "not ok $ntest\n"; + } + else { + print $TESTOUT "ok $ntest\n"; + } + + $ok or _complain($result, $expected, + { + 'repetition' => $repetition, 'package' => $pkg, + 'result' => $result, 'todo' => $todo, + 'file' => $file, 'line' => $line, + 'context' => $context, 'compare' => $compare, + @_ ? ('diagnostic' => _to_value(shift)) : (), + }); + + } + ++ $ntest; + $ok; +} + + +sub _complain { + my($result, $expected, $detail) = @_; + $$detail{expected} = $expected if defined $expected; + + # Get the user's diagnostic, protecting against multi-line + # diagnostics. + my $diag = $$detail{diagnostic}; + $diag =~ s/\n/\n#/g if defined $diag; + + $$detail{context} .= ' *TODO*' if $$detail{todo}; + if (!$$detail{compare}) { + if (!$diag) { + print $TESTERR "# Failed test $ntest in $$detail{context}\n"; + } else { + print $TESTERR "# Failed test $ntest in $$detail{context}: $diag\n"; + } + } else { + my $prefix = "Test $ntest"; + + print $TESTERR "# $prefix got: " . _quote($result) . + " ($$detail{context})\n"; + $prefix = ' ' x (length($prefix) - 5); + my $expected_quoted = (defined $$detail{regex}) + ? 'qr{'.($$detail{regex}).'}' : _quote($expected); + + print $TESTERR "# $prefix Expected: $expected_quoted", + $diag ? " ($diag)" : (), "\n"; + + _diff_complain( $result, $expected, $detail, $prefix ) + if defined($expected) and 2 < ($expected =~ tr/\n//); + } + + if(defined $Program_Lines{ $$detail{file} }[ $$detail{line} ]) { + print $TESTERR + "# $$detail{file} line $$detail{line} is: $Program_Lines{ $$detail{file} }[ $$detail{line} ]\n" + if $Program_Lines{ $$detail{file} }[ $$detail{line} ] + =~ m/[^\s\#\(\)\{\}\[\]\;]/; # Otherwise it's uninformative + + undef $Program_Lines{ $$detail{file} }[ $$detail{line} ]; + # So we won't repeat it. + } + + push @FAILDETAIL, $detail; + return; +} + + + +sub _diff_complain { + my($result, $expected, $detail, $prefix) = @_; + return _diff_complain_external(@_) if $ENV{PERL_TEST_DIFF}; + return _diff_complain_algdiff(@_) + if eval { require Algorithm::Diff; Algorithm::Diff->VERSION(1.15); 1; }; + + $told_about_diff++ or print $TESTERR <<"EOT"; +# $prefix (Install the Algorithm::Diff module to have differences in multiline +# $prefix output explained. You might also set the PERL_TEST_DIFF environment +# $prefix variable to run a diff program on the output.) +EOT + ; + return; +} + + + +sub _diff_complain_external { + my($result, $expected, $detail, $prefix) = @_; + my $diff = $ENV{PERL_TEST_DIFF} || die "WHAAAA?"; + + require File::Temp; + my($got_fh, $got_filename) = File::Temp::tempfile("test-got-XXXXX"); + my($exp_fh, $exp_filename) = File::Temp::tempfile("test-exp-XXXXX"); + unless ($got_fh && $exp_fh) { + warn "Can't get tempfiles"; + return; + } + + print $got_fh $result; + print $exp_fh $expected; + if (close($got_fh) && close($exp_fh)) { + my $diff_cmd = "$diff $exp_filename $got_filename"; + print $TESTERR "#\n# $prefix $diff_cmd\n"; + if (open(DIFF, "$diff_cmd |")) { + local $_; + while (<DIFF>) { + print $TESTERR "# $prefix $_"; + } + close(DIFF); + } + else { + warn "Can't run diff: $!"; + } + } else { + warn "Can't write to tempfiles: $!"; + } + unlink($got_filename); + unlink($exp_filename); + return; +} + + + +sub _diff_complain_algdiff { + my($result, $expected, $detail, $prefix) = @_; + + my @got = split(/^/, $result); + my @exp = split(/^/, $expected); + + my $diff_kind; + my @diff_lines; + + my $diff_flush = sub { + return unless $diff_kind; + + my $count_lines = @diff_lines; + my $s = $count_lines == 1 ? "" : "s"; + my $first_line = $diff_lines[0][0] + 1; + + print $TESTERR "# $prefix "; + if ($diff_kind eq "GOT") { + print $TESTERR "Got $count_lines extra line$s at line $first_line:\n"; + for my $i (@diff_lines) { + print $TESTERR "# $prefix + " . _quote($got[$i->[0]]) . "\n"; + } + } elsif ($diff_kind eq "EXP") { + if ($count_lines > 1) { + my $last_line = $diff_lines[-1][0] + 1; + print $TESTERR "Lines $first_line-$last_line are"; + } + else { + print $TESTERR "Line $first_line is"; + } + print $TESTERR " missing:\n"; + for my $i (@diff_lines) { + print $TESTERR "# $prefix - " . _quote($exp[$i->[1]]) . "\n"; + } + } elsif ($diff_kind eq "CH") { + if ($count_lines > 1) { + my $last_line = $diff_lines[-1][0] + 1; + print $TESTERR "Lines $first_line-$last_line are"; + } + else { + print $TESTERR "Line $first_line is"; + } + print $TESTERR " changed:\n"; + for my $i (@diff_lines) { + print $TESTERR "# $prefix - " . _quote($exp[$i->[1]]) . "\n"; + print $TESTERR "# $prefix + " . _quote($got[$i->[0]]) . "\n"; + } + } + + # reset + $diff_kind = undef; + @diff_lines = (); + }; + + my $diff_collect = sub { + my $kind = shift; + &$diff_flush() if $diff_kind && $diff_kind ne $kind; + $diff_kind = $kind; + push(@diff_lines, [@_]); + }; + + + Algorithm::Diff::traverse_balanced( + \@got, \@exp, + { + DISCARD_A => sub { &$diff_collect("GOT", @_) }, + DISCARD_B => sub { &$diff_collect("EXP", @_) }, + CHANGE => sub { &$diff_collect("CH", @_) }, + MATCH => sub { &$diff_flush() }, + }, + ); + &$diff_flush(); + + return; +} + + + + +#~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~ + + +=item C<skip(I<skip_if_true>, I<args...>)> + +This is used for tests that under some conditions can be skipped. It's +basically equivalent to: + + if( $skip_if_true ) { + ok(1); + } else { + ok( args... ); + } + +...except that the C<ok(1)> emits not just "C<ok I<testnum>>" but +actually "C<ok I<testnum> # I<skip_if_true_value>>". + +The arguments after the I<skip_if_true> are what is fed to C<ok(...)> if +this test isn't skipped. + +Example usage: + + my $if_MSWin = + $^O =~ m/MSWin/ ? 'Skip if under MSWin' : ''; + + # A test to be skipped if under MSWin (i.e., run except under MSWin) + skip($if_MSWin, thing($foo), thing($bar) ); + +Or, going the other way: + + my $unless_MSWin = + $^O =~ m/MSWin/ ? '' : 'Skip unless under MSWin'; + + # A test to be skipped unless under MSWin (i.e., run only under MSWin) + skip($unless_MSWin, thing($foo), thing($bar) ); + +The tricky thing to remember is that the first parameter is true if +you want to I<skip> the test, not I<run> it; and it also doubles as a +note about why it's being skipped. So in the first codeblock above, read +the code as "skip if MSWin -- (otherwise) test whether C<thing($foo)> is +C<thing($bar)>" or for the second case, "skip unless MSWin...". + +Also, when your I<skip_if_reason> string is true, it really should (for +backwards compatibility with older Test.pm versions) start with the +string "Skip", as shown in the above examples. + +Note that in the above cases, C<thing($foo)> and C<thing($bar)> +I<are> evaluated -- but as long as the C<skip_if_true> is true, +then we C<skip(...)> just tosses out their value (i.e., not +bothering to treat them like values to C<ok(...)>. But if +you need to I<not> eval the arguments when skipping the +test, use +this format: + + skip( $unless_MSWin, + sub { + # This code returns true if the test passes. + # (But it doesn't even get called if the test is skipped.) + thing($foo) eq thing($bar) + } + ); + +or even this, which is basically equivalent: + + skip( $unless_MSWin, + sub { thing($foo) }, sub { thing($bar) } + ); + +That is, both are like this: + + if( $unless_MSWin ) { + ok(1); # but it actually appends "# $unless_MSWin" + # so that Test::Harness can tell it's a skip + } else { + # Not skipping, so actually call and evaluate... + ok( sub { thing($foo) }, sub { thing($bar) } ); + } + +=cut + +sub skip ($;$$$) { + local($\, $,); # guard against -l and other things that screw with + # print + + my $whyskip = _to_value(shift); + if (!@_ or $whyskip) { + $whyskip = '' if $whyskip =~ m/^\d+$/; + $whyskip =~ s/^[Ss]kip(?:\s+|$)//; # backwards compatibility, old + # versions required the reason + # to start with 'skip' + # We print in one shot for VMSy reasons. + my $ok = "ok $ntest # skip"; + $ok .= " $whyskip" if length $whyskip; + $ok .= "\n"; + print $TESTOUT $ok; + ++ $ntest; + return 1; + } else { + # backwards compatibility (I think). skip() used to be + # called like ok(), which is weird. I haven't decided what to do with + # this yet. +# warn <<WARN if $^W; +#This looks like a skip() using the very old interface. Please upgrade to +#the documented interface as this has been deprecated. +#WARN + + local($TestLevel) = $TestLevel+1; #to ignore this stack frame + return &ok(@_); + } +} + +=back + +=cut + +END { + $ONFAIL->(\@FAILDETAIL) if @FAILDETAIL && $ONFAIL; +} + +1; +__END__ + +=head1 TEST TYPES + +=over 4 + +=item * NORMAL TESTS + +These tests are expected to succeed. Usually, most or all of your tests +are in this category. If a normal test doesn't succeed, then that +means that something is I<wrong>. + +=item * SKIPPED TESTS + +The C<skip(...)> function is for tests that might or might not be +possible to run, depending +on the availability of platform-specific features. The first argument +should evaluate to true (think "yes, please skip") if the required +feature is I<not> available. After the first argument, C<skip(...)> works +exactly the same way as C<ok(...)> does. + +=item * TODO TESTS + +TODO tests are designed for maintaining an B<executable TODO list>. +These tests are I<expected to fail.> If a TODO test does succeed, +then the feature in question shouldn't be on the TODO list, now +should it? + +Packages should NOT be released with succeeding TODO tests. As soon +as a TODO test starts working, it should be promoted to a normal test, +and the newly working feature should be documented in the release +notes or in the change log. + +=back + +=head1 ONFAIL + + BEGIN { plan test => 4, onfail => sub { warn "CALL 911!" } } + +Although test failures should be enough, extra diagnostics can be +triggered at the end of a test run. C<onfail> is passed an array ref +of hash refs that describe each test failure. Each hash will contain +at least the following fields: C<package>, C<repetition>, and +C<result>. (You shouldn't rely on any other fields being present.) If the test +had an expected value or a diagnostic (or "note") string, these will also be +included. + +The I<optional> C<onfail> hook might be used simply to print out the +version of your package and/or how to report problems. It might also +be used to generate extremely sophisticated diagnostics for a +particularly bizarre test failure. However it's not a panacea. Core +dumps or other unrecoverable errors prevent the C<onfail> hook from +running. (It is run inside an C<END> block.) Besides, C<onfail> is +probably over-kill in most cases. (Your test code should be simpler +than the code it is testing, yes?) + + +=head1 BUGS and CAVEATS + +=over + +=item * + +C<ok(...)>'s special handing of strings which look like they might be +regexes can also cause unexpected behavior. An innocent: + + ok( $fileglob, '/path/to/some/*stuff/' ); + +will fail, since Test.pm considers the second argument to be a regex! +The best bet is to use the one-argument form: + + ok( $fileglob eq '/path/to/some/*stuff/' ); + +=item * + +C<ok(...)>'s use of string C<eq> can sometimes cause odd problems +when comparing +numbers, especially if you're casting a string to a number: + + $foo = "1.0"; + ok( $foo, 1 ); # not ok, "1.0" ne 1 + +Your best bet is to use the single argument form: + + ok( $foo == 1 ); # ok "1.0" == 1 + +=item * + +As you may have inferred from the above documentation and examples, +C<ok>'s prototype is C<($;$$)> (and, incidentally, C<skip>'s is +C<($;$$$)>). This means, for example, that you can do C<ok @foo, @bar> +to compare the I<size> of the two arrays. But don't be fooled into +thinking that C<ok @foo, @bar> means a comparison of the contents of two +arrays -- you're comparing I<just> the number of elements of each. It's +so easy to make that mistake in reading C<ok @foo, @bar> that you might +want to be very explicit about it, and instead write C<ok scalar(@foo), +scalar(@bar)>. + +=item * + +This almost definitely doesn't do what you expect: + + ok $thingy->can('some_method'); + +Why? Because C<can> returns a coderef to mean "yes it can (and the +method is this...)", and then C<ok> sees a coderef and thinks you're +passing a function that you want it to call and consider the truth of +the result of! I.e., just like: + + ok $thingy->can('some_method')->(); + +What you probably want instead is this: + + ok $thingy->can('some_method') && 1; + +If the C<can> returns false, then that is passed to C<ok>. If it +returns true, then the larger expression S<< C<< +$thingy->can('some_method') && 1 >> >> returns 1, which C<ok> sees as +a simple signal of success, as you would expect. + + +=item * + +The syntax for C<skip> is about the only way it can be, but it's still +quite confusing. Just start with the above examples and you'll +be okay. + +Moreover, users may expect this: + + skip $unless_mswin, foo($bar), baz($quux); + +to not evaluate C<foo($bar)> and C<baz($quux)> when the test is being +skipped. But in reality, they I<are> evaluated, but C<skip> just won't +bother comparing them if C<$unless_mswin> is true. + +You could do this: + + skip $unless_mswin, sub{foo($bar)}, sub{baz($quux)}; + +But that's not terribly pretty. You may find it simpler or clearer in +the long run to just do things like this: + + if( $^O =~ m/MSWin/ ) { + print "# Yay, we're under $^O\n"; + ok foo($bar), baz($quux); + ok thing($whatever), baz($stuff); + ok blorp($quux, $whatever); + ok foo($barzbarz), thang($quux); + } else { + print "# Feh, we're under $^O. Watch me skip some tests...\n"; + for(1 .. 4) { skip "Skip unless under MSWin" } + } + +But be quite sure that C<ok> is called exactly as many times in the +first block as C<skip> is called in the second block. + +=back + + +=head1 ENVIRONMENT + +If C<PERL_TEST_DIFF> environment variable is set, it will be used as a +command for comparing unexpected multiline results. If you have GNU +diff installed, you might want to set C<PERL_TEST_DIFF> to C<diff -u>. +If you don't have a suitable program, you might install the +C<Text::Diff> module and then set C<PERL_TEST_DIFF> to be C<perl +-MText::Diff -e 'print diff(@ARGV)'>. If C<PERL_TEST_DIFF> isn't set +but the C<Algorithm::Diff> module is available, then it will be used +to show the differences in multiline results. + +=for comment +If C<PERL_TEST_NO_TRUNC> is set, then the initial "Got 'something' but +expected 'something_else'" readings for long multiline output values aren't +truncated at about the 230th column, as they normally could be in some +cases. Normally you won't need to use this, unless you were carefully +parsing the output of your test programs. + + +=head1 NOTE + +A past developer of this module once said that it was no longer being +actively developed. However, rumors of its demise were greatly +exaggerated. Feedback and suggestions are quite welcome. + +Be aware that the main value of this module is its simplicity. Note +that there are already more ambitious modules out there, such as +L<Test::More> and L<Test::Unit>. + +Some earlier versions of this module had docs with some confusing +typos in the description of C<skip(...)>. + + +=head1 SEE ALSO + +L<Test::Harness> + +L<Test::Simple>, L<Test::More>, L<Devel::Cover> + +L<Test::Builder> for building your own testing library. + +L<Test::Unit> is an interesting XUnit-style testing library. + +L<Test::Inline> and L<SelfTest> let you embed tests in code. + + +=head1 AUTHOR + +Copyright (c) 1998-2000 Joshua Nathaniel Pritikin. + +Copyright (c) 2001-2002 Michael G. Schwern. + +Copyright (c) 2002-2004 Sean M. Burke. + +Current maintainer: Jesse Vincent. E<lt>jesse@bestpractical.comE<gt> + +This package is free software and is provided "as is" without express +or implied warranty. It may be used, redistributed and/or modified +under the same terms as Perl itself. + +=cut + +# "Your mistake was a hidden intention." +# -- /Oblique Strategies/, Brian Eno and Peter Schmidt |