From 75275ded89f0b456e7e396008af153d26bb35626 Mon Sep 17 00:00:00 2001 From: joey Date: Tue, 17 Aug 1999 05:02:07 +0000 Subject: r128: Initial revision --- Test.pm | 254 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 254 insertions(+) create mode 100644 Test.pm (limited to 'Test.pm') diff --git a/Test.pm b/Test.pm new file mode 100644 index 00000000..55f80ac2 --- /dev/null +++ b/Test.pm @@ -0,0 +1,254 @@ +use strict; +package Test; +use Test::Harness 1.1501 (); +use Carp; +use vars (qw($VERSION @ISA @EXPORT @EXPORT_OK $ntest $TestLevel), #public-ish + qw($TESTOUT $ONFAIL %todo %history $planned @FAILDETAIL)); #private-ish +$VERSION = '1.13'; +require Exporter; +@ISA=('Exporter'); +@EXPORT=qw(&plan &ok &skip); +@EXPORT_OK=qw($ntest $TESTOUT); + +$TestLevel = 0; # how many extra stack frames to skip +$|=1; +#$^W=1; ? +$ntest=1; +$TESTOUT = *STDOUT{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; + +sub plan { + croak "Test::plan(%args): odd number of arguments" if @_ & 1; + croak "Test::plan(): should not be called more than once" if $planned; + my $max=0; + for (my $x=0; $x < @_; $x+=2) { + my ($k,$v) = @_[$x,$x+1]; + if ($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"; + } + ++$planned; +} + +sub to_value { + my ($v) = @_; + (ref $v or '') eq 'CODE' ? $v->() : $v; +} + +sub ok ($;$$) { + croak "ok: plan before you test!" if !$planned; + my ($pkg,$file,$line) = caller($TestLevel); + my $repetition = ++$history{"$file:$line"}; + my $context = ("$file at line $line". + ($repetition > 1 ? " fail \#$repetition" : '')); + my $ok=0; + my $result = to_value(shift); + my ($expected,$diag); + if (@_ == 0) { + $ok = $result; + } else { + $expected = to_value(shift); + my ($regex,$ignore); + if (!defined $expected) { + $ok = !defined $result; + } elsif (!defined $result) { + $ok = 0; + } elsif ((ref($expected)||'') eq 'Regexp') { + $ok = $result =~ /$expected/; + } elsif (($regex) = ($expected =~ m,^ / (.+) / $,sx) or + ($ignore, $regex) = ($expected =~ m,^ m([^\w\s]) (.+) \1 $,sx)) { + $ok = $result =~ /$regex/; + } else { + $ok = $result eq $expected; + } + } + my $todo = $todo{$ntest}; + if ($todo and $ok) { + $context .= ' TODO?!' if $todo; + print $TESTOUT "ok $ntest # ($context)\n"; + } else { + print $TESTOUT "not " if !$ok; + print $TESTOUT "ok $ntest\n"; + + if (!$ok) { + my $detail = { 'repetition' => $repetition, 'package' => $pkg, + 'result' => $result, 'todo' => $todo }; + $$detail{expected} = $expected if defined $expected; + $diag = $$detail{diagnostic} = to_value(shift) if @_; + $context .= ' *TODO*' if $todo; + if (!defined $expected) { + if (!$diag) { + print $TESTOUT "# Failed test $ntest in $context\n"; + } else { + print $TESTOUT "# Failed test $ntest in $context: $diag\n"; + } + } else { + my $prefix = "Test $ntest"; + print $TESTOUT "# $prefix got: ". + (defined $result? "'$result'":'')." ($context)\n"; + $prefix = ' ' x (length($prefix) - 5); + if ((ref($expected)||'') eq 'Regexp') { + $expected = 'qr/'.$expected.'/' + } else { + $expected = "'$expected'"; + } + if (!$diag) { + print $TESTOUT "# $prefix Expected: $expected\n"; + } else { + print $TESTOUT "# $prefix Expected: $expected ($diag)\n"; + } + } + push @FAILDETAIL, $detail; + } + } + ++ $ntest; + $ok; +} + +sub skip ($$;$$) { + my $whyskip = to_value(shift); + if ($whyskip) { + $whyskip = 'skip' if $whyskip =~ m/^\d+$/; + print $TESTOUT "ok $ntest # $whyskip\n"; + ++ $ntest; + 1; + } else { + local($TestLevel) = $TestLevel+1; #ignore this stack frame + &ok; + } +} + +END { + $ONFAIL->(\@FAILDETAIL) if @FAILDETAIL && $ONFAIL; +} + +1; +__END__ + +=head1 NAME + + Test - provides a simple framework for writing test scripts + +=head1 SYNOPSIS + + use strict; + use Test; + + # use a BEGIN block so we print our plan before MyModule is loaded + BEGIN { plan tests => 14, todo => [3,4] } + + # load your module... + use MyModule; + + ok(0); # failure + ok(1); # success + + ok(0); # ok, expected failure (see todo list, above) + ok(1); # surprise success! + + ok(0,1); # failure: '0' ne '1' + ok('broke','fixed'); # failure: 'broke' ne 'fixed' + ok('fixed','fixed'); # success: 'fixed' eq 'fixed' + ok('fixed',qr/x/); # success: 'fixed' =~ qr/x/ + + ok(sub { 1+1 }, 2); # success: '2' eq '2' + ok(sub { 1+1 }, 3); # failure: '2' ne '3' + ok(0, int(rand(2)); # (just kidding :-) + + my @list = (0,0); + ok @list, 3, "\@list=".join(',',@list); #extra diagnostics + ok 'segmentation fault', '/(?i)success/'; #regex match + + skip($feature_is_missing, ...); #do platform specific test + +=head1 DESCRIPTION + +L expects to see particular output when it executes +tests. This module aims to make writing proper test scripts just a +little bit easier (and less error prone :-). + +=head1 TEST TYPES + +=over 4 + +=item * NORMAL TESTS + +These tests are expected to succeed. If they don't something's +screwed up! + +=item * SKIPPED TESTS + +Skip 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 not available. After the first argument, skip works +exactly the same way as do normal tests. + +=item * TODO TESTS + +TODO tests are designed for maintaining an B. +These tests are expected NOT to succeed. If a TODO test does succeed, +the feature in question should not 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 change log. + +=back + +=head1 RETURN VALUE + +Both C and C return true if their test succeeds and false +otherwise in a scalar context. + +=head1 ONFAIL + + BEGIN { plan test => 4, onfail => sub { warn "CALL 911!" } } + +While test failures should be enough, extra diagnostics can be +triggered at the end of a test run. C is passed an array ref +of hash refs that describe each test failure. Each hash will contain +at least the following fields: C, C, and +C. (The file, line, and test number are not included because +their correspondence to a particular test is tenuous.) If the test +had an expected value or a diagnostic string, these will also be +included. + +The B C 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 hook from +running. (It is run inside an C block.) Besides, C is +probably over-kill in most cases. (Your test code should be simpler +than the code it is testing, yes?) + +=head1 SEE ALSO + +L and, perhaps, test coverage analysis tools. + +=head1 AUTHOR + +Copyright (c) 1998-1999 Joshua Nathaniel Pritikin. All rights reserved. + +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 terms of the Perl Artistic License (see +http://www.perl.com/perl/misc/Artistic.html) + +=cut -- cgit v1.2.3