#============================================================= -*-Perl-*- # # Template::Test # # DESCRIPTION # Module defining a test harness which processes template input and # then compares the output against pre-define expected output. # Generates test output compatible with Test::Harness. This was # originally the t/texpect.pl script. # # AUTHOR # Andy Wardley # # COPYRIGHT # Copyright (C) 1996-2022 Andy Wardley. All Rights Reserved. # # This module is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. # #============================================================================ package Template::Test; use strict; use warnings; use Template; use Exporter; use constant MSWin32 => $^O eq 'MSWin32'; our $VERSION = '3.100'; our $DEBUG = 0; our @ISA = qw( Exporter ); our @EXPORT = qw( ntests ok is match flush skip_all test_expect callsign banner ); our @EXPORT_OK = ( 'assert' ); our %EXPORT_TAGS = ( all => [ @EXPORT_OK, @EXPORT ] ); $| = 1; our $REASON = 'not applicable on this platform'; our $NO_FLUSH = 0; our $EXTRA = 0; # any extra tests to come after test_expect() our $PRESERVE = 0 # don't mangle newlines in output/expect unless defined $PRESERVE; our ($loaded, %callsign); # always set binmode on Win32 machines so that any output generated # is true to what we expect $Template::BINMODE = (MSWin32) ? 1 : 0; my @results = (); my ($ntests, $ok_count); *is = \&match; END { # ensure flush() is called to print any cached results flush(); } #------------------------------------------------------------------------ # ntests($n) # # Declare how many (more) tests are expected to come. If ok() is called # before ntests() then the results are cached instead of being printed # to STDOUT. When ntests() is called, the total number of tests # (including any cached) is known and the "1..$ntests" line can be # printed along with the cached results. After that, calls to ok() # generated printed output immediately. #------------------------------------------------------------------------ sub ntests { $ntests = shift; # add any pre-declared extra tests, or pre-stored test @results, to # the grand total of tests $ntests += $EXTRA + scalar @results; $ok_count = 1; print $ntests ? "1..$ntests\n" : "1..$ntests # skip $REASON\n"; # flush cached results foreach my $pre_test (@results) { ok(@$pre_test); } } #------------------------------------------------------------------------ # ok($truth, $msg) # # Tests the value passed for truth and generates an "ok $n" or "not ok $n" # line accordingly. If ntests() hasn't been called then we cached # results for later, instead. #------------------------------------------------------------------------ sub ok { my ($ok, $msg) = @_; # cache results if ntests() not yet called unless ($ok_count) { push(@results, [ $ok, $msg ]); return $ok; } $msg = defined $msg ? " - $msg" : ''; if ($ok) { print "ok ", $ok_count++, "$msg\n"; } else { print STDERR "FAILED $ok_count: $msg\n" if defined $msg; print "not ok ", $ok_count++, "$msg\n"; } } #------------------------------------------------------------------------ # assert($truth, $error) # # Test value for truth, die if false. #------------------------------------------------------------------------ sub assert { my ($ok, $err) = @_; return ok(1) if $ok; # failed my ($pkg, $file, $line) = caller(); $err ||= "assert failed"; $err .= " at $file line $line\n"; ok(0); die $err; } #------------------------------------------------------------------------ # match( $result, $expect ) #------------------------------------------------------------------------ sub match { my ($result, $expect, $msg) = @_; my $count = $ok_count ? $ok_count : scalar @results + 1; # force stringification of $result to avoid 'no eq method' overload errors $result = "$result" if ref $result; if ($result eq $expect) { return ok(1, $msg); } else { print STDERR "FAILED $count:\n expect: [$expect]\n result: [$result]\n"; return ok(0, $msg); } } #------------------------------------------------------------------------ # flush() # # Flush any tests results. #------------------------------------------------------------------------ sub flush { ntests(0) unless $ok_count || $NO_FLUSH; } #------------------------------------------------------------------------ # skip_all($reason) # # Skip all tests, setting $REASON to contain any message passed. Calls # exit(0) which triggers flush() which generates a "1..0 # $REASON" # string to keep to test harness happy. #------------------------------------------------------------------------ sub skip_all { $REASON = join('', @_); exit(0); } #------------------------------------------------------------------------ # test_expect($input, $template, \%replace) # # This is the main testing sub-routine. The $input parameter should be a # text string or a filehandle reference (e.g. GLOB or IO::Handle) from # which the input text can be read. The input should contain a number # of tests which are split up and processed individually, comparing the # generated output against the expected output. Tests should be defined # as follows: # # -- test -- # test input # -- expect -- # expected output # # -- test -- # etc... # # The number of tests is determined and ntests() is called to generate # the "0..$n" line compatible with Test::Harness. Each test input is # then processed by the Template object passed as the second parameter, # $template. This may also be a hash reference containing configuration # which are used to instantiate a Template object, or may be left # undefined in which case a default Template object will be instantiated. # The third parameter, also optional, may be a reference to a hash array # defining template variables. This is passed to the template process() # method. #------------------------------------------------------------------------ sub test_expect { my ($src, $tproc, $params) = @_; my ($input, @tests); my ($output, $expect, $match); my $count = 0; my $ttprocs; # read input text eval { local $/ = undef; $input = ref $src ? <$src> : $src; }; if ($@) { ntests(1); ok(0); warn "Cannot read input text from $src\n"; return undef; } # remove any comment lines $input =~ s/^#.*?\n//gm; # remove anything before '-- start --' and/or after '-- stop --' $input = $' if $input =~ /\s*--\s*start\s*--\s*/; $input = $` if $input =~ /\s*--\s*stop\s*--\s*/; @tests = split(/^\s*--\s*test\s*--\s*\n/im, $input); # if the first line of the file was '--test--' (optional) then the # first test will be empty and can be discarded shift(@tests) if $tests[0] =~ /^\s*$/; ntests(3 + scalar(@tests) * 2); # first test is that Template loaded OK, which it did ok(1, 'running test_expect()'); # optional second param may contain a Template reference or a HASH ref # of constructor options, or may be undefined if (ref($tproc) eq 'HASH') { # create Template object using hash of config items $tproc = Template->new($tproc) || die Template->error(), "\n"; } elsif (ref($tproc) eq 'ARRAY') { # list of [ name => $tproc, name => $tproc ], use first $tproc $ttprocs = { @$tproc }; $tproc = $tproc->[1]; } elsif (! ref $tproc) { $tproc = Template->new() || die Template->error(), "\n"; } # otherwise, we assume it's a Template reference # test: template processor created OK ok($tproc, 'template processor is engaged'); # third test is that the input read ok, which it did ok(1, 'input read and split into ' . scalar @tests . ' tests'); # the remaining tests are defined in @tests... foreach $input (@tests) { $count++; my $name = ''; if ($input =~ s/^\s*-- name:? (.*?) --\s*\n//im) { $name = $1; } else { $name = "template text $count"; } # Configure a test as TODO my $todo = ''; if ($input =~ s/^\s*-- todo:? (.*?) --\s*\n//im) { $todo = ( $1 eq '' ) ? 'No reason given' : $1; } # split input by a line like "-- expect --" ($input, $expect) = split(/^\s*--\s*expect\s*--\s*\n/im, $input); $expect = '' unless defined $expect; $output = ''; # input text may be prefixed with "-- use name --" to indicate a # Template object in the $ttproc hash which we should use if ($input =~ s/^\s*--\s*use\s+(\S+)\s*--\s*\n//im) { my $ttname = $1; my $ttlookup; if ($ttlookup = $ttprocs->{ $ttname }) { $tproc = $ttlookup; } else { warn "no such template object to use: $ttname\n"; } } # process input text $tproc->process(\$input, $params, \$output) || do { warn "Template process failed: ", $tproc->error(), "\n"; # report failure and automatically fail the expect match ok(0, "$name process FAILED: " . subtext($input)); ok(0, '(obviously did not match expected)'); next; }; # processed OK ok(1, "$name processed OK: " . subtext($input)); # another hack: if the '-- expect --' section starts with # '-- process --' then we process the expected output # before comparing it with the generated output. This is # slightly twisted but it makes it possible to run tests # where the expected output isn't static. See t/date.t for # an example. if ($expect =~ s/^\s*--+\s*process\s*--+\s*\n//im) { my $out; $tproc->process(\$expect, $params, \$out) || do { warn( "Template process failed (expect): ", $tproc->error(), "\n" ); # report failure and automatically fail the expect match ok( 0, "failed to process expected output [" . subtext($expect) . ']' ); next; }; $expect = $out; }; # strip any trailing blank lines from expected and real output foreach ($expect, $output) { s/[\n\r]*\Z//mg; } $match = ($expect eq $output) ? 1 : 0; if (! $match || $DEBUG) { print "MATCH FAILED\n" unless $match; my ($copyi, $copye, $copyo) = ($input, $expect, $output); unless ($PRESERVE) { foreach ($copyi, $copye, $copyo) { s/\n/\\n/g; } } printf( " input: [%s]\nexpect: [%s]\noutput: [%s]\n", $copyi, $copye, $copyo ); } my $testprefix = $name; if ( $todo ) { $testprefix = "# TODO $todo - $name"; } ok($match, $match ? "$testprefix matched expected" : "$testprefix did not match expected"); }; } #------------------------------------------------------------------------ # callsign() # # Returns a hash array mapping lower a..z to their phonetic alphabet # equivalent. #------------------------------------------------------------------------ sub callsign { my %callsign; @callsign{ 'a'..'z' } = qw( alpha bravo charlie delta echo foxtrot golf hotel india juliet kilo lima mike november oscar papa quebec romeo sierra tango umbrella victor whisky x-ray yankee zulu ); return \%callsign; } #------------------------------------------------------------------------ # banner($text) # # Prints a banner with the specified text if $DEBUG is set. #------------------------------------------------------------------------ sub banner { return unless $DEBUG; my $text = join('', @_); my $count = $ok_count ? $ok_count - 1 : scalar @results; print "-" x 72, "\n$text ($count tests completed)\n", "-" x 72, "\n"; } sub subtext { my $text = shift; $text =~ s/\s*$//sg; $text = substr($text, 0, 32) . '...' if length $text > 32; $text =~ s/\n/\\n/g; return $text; } 1; __END__ =head1 NAME Template::Test - Module for automating TT2 test scripts =head1 SYNOPSIS use Template::Test; $Template::Test::DEBUG = 0; # set this true to see each test running $Template::Test::EXTRA = 2; # 2 extra tests follow test_expect()... # ok() can be called any number of times before test_expect ok( $true_or_false ) # test_expect() splits $input into individual tests, processes each # and compares generated output against expected output test_expect($input, $template, \%replace ); # $input is text or filehandle (e.g. DATA section after __END__) test_expect( $text ); test_expect( \*DATA ); # $template is a Template object or configuration hash my $template_cfg = { ... }; test_expect( $input, $template_cfg ); my $template_obj = Template->new($template_cfg); test_expect( $input, $template_obj ); # $replace is a hash reference of template variables my $replace = { a => 'alpha', b => 'bravo' }; test_expect( $input, $template, $replace ); # ok() called after test_expect should be declared in $EXTRA (2) ok( $true_or_false ) ok( $true_or_false ) =head1 DESCRIPTION The C module defines the L and other related subroutines which can be used to automate test scripts for the Template Toolkit. See the numerous tests in the F sub-directory of the distribution for examples of use. =head1 PACKAGE SUBROUTINES =head2 text_expect() The C subroutine splits an input document into a number of separate tests, processes each one using the Template Toolkit and then compares the generated output against an expected output, also specified in the input document. It generates the familiar C/C output compatible with C. The test input should be specified as a text string or a reference to a filehandle (e.g. C or C) from which it can be read. In particular, this allows the test input to be placed after the C<__END__> marker and read via the C filehandle. use Template::Test; test_expect(\*DATA); __END__ # this is the first test (this is a comment) -- test -- blah blah blah [% foo %] -- expect -- blah blah blah value_of_foo # here's the second test (no surprise, so is this) -- test -- more blah blah [% bar %] -- expect -- more blah blah value_of_bar Blank lines between test sections are generally ignored. Any line starting with C<#> is treated as a comment and is ignored. The second and third parameters to C are optional. The second may be either a reference to a Template object which should be used to process the template fragments, or a reference to a hash array containing configuration values which should be used to instantiate a new Template object. # pass reference to config hash my $config = { INCLUDE_PATH => '/here/there:/every/where', POST_CHOMP => 1, }; test_expect(\*DATA, $config); # or create Template object explicitly my $template = Template->new($config); test_expect(\*DATA, $template); The third parameter may be used to reference a hash array of template variable which should be defined when processing the tests. This is passed to the L