#!/usr/bin/perl -T -w # # Basic test suite for Tie::RefHash and Tie::RefHash::Nestable. # # The testing is in two parts: first, run lots of tests on both a tied # hash and an ordinary un-tied hash, and check they give the same # answer. Then there are tests for those cases where the tied hashes # should behave differently to normal hashes, that is, when using # references as keys. # BEGIN { if( $ENV{PERL_CORE} ) { chdir 't'; @INC = '../lib'; } } BEGIN { unless ( eval { require Data::Dumper; 1 } ) { print "1..0 # Skip -- Data::Dumper is not available\n"; exit 0; } } use strict; use Tie::RefHash; use Data::Dumper; my $numtests = 39; my $currtest = 1; print "1..$numtests\n"; my $ref = []; my $ref1 = []; package Boustrophedon; # A class with overloaded "". sub new { my ($c, $s) = @_; bless \$s, $c } use overload '""' => sub { ${$_[0]} . reverse ${$_[0]} }; package main; my $ox = Boustrophedon->new("foobar"); # Test standard hash functionality, by performing the same operations # on a tied hash and on a normal hash, and checking that the results # are the same. This does of course assume that Perl hashes are not # buggy :-) # my @tests = standard_hash_tests(); my @ordinary_results = runtests(\@tests, undef); foreach my $class ('Tie::RefHash', 'Tie::RefHash::Nestable') { my @tied_results = runtests(\@tests, $class); my $all_ok = 1; die if @ordinary_results != @tied_results; foreach my $i (0 .. $#ordinary_results) { my ($or, $ow, $oe) = @{$ordinary_results[$i]}; my ($tr, $tw, $te) = @{$tied_results[$i]}; my $ok = 1; local $^W = 0; $ok = 0 if (defined($or) != defined($tr)) or ($or ne $tr); $ok = 0 if (defined($ow) != defined($tw)) or ($ow ne $tw); $ok = 0 if (defined($oe) != defined($te)) or ($oe ne $te); if (not $ok) { print STDERR "failed for $class: $tests[$i]\n", "ordinary hash gave:\n", defined $or ? "\tresult: $or\n" : "\tundef result\n", defined $ow ? "\twarning: $ow\n" : "\tno warning\n", defined $oe ? "\texception: $oe\n" : "\tno exception\n", "tied $class hash gave:\n", defined $tr ? "\tresult: $tr\n" : "\tundef result\n", defined $tw ? "\twarning: $tw\n" : "\tno warning\n", defined $te ? "\texception: $te\n" : "\tno exception\n", "\n"; $all_ok = 0; } } test($all_ok); } # Now test Tie::RefHash's special powers my (%h, $h); $h = eval { tie %h, 'Tie::RefHash' }; warn $@ if $@; test(not $@); test(ref($h) eq 'Tie::RefHash'); test(defined(tied(%h)) and tied(%h) =~ /^Tie::RefHash/); $h{$ref} = 'cholet'; test($h{$ref} eq 'cholet'); test(exists $h{$ref}); test((keys %h) == 1); test(ref((keys %h)[0]) eq 'ARRAY'); test((keys %h)[0] eq $ref); test((values %h) == 1); test((values %h)[0] eq 'cholet'); my $count = 0; while (my ($k, $v) = each %h) { if ($count++ == 0) { test(ref($k) eq 'ARRAY'); test($k eq $ref); } } test($count == 1); delete $h{$ref}; test(not defined $h{$ref}); test(not exists($h{$ref})); test((keys %h) == 0); test((values %h) == 0); $h{$ox} = "bellow"; # overloaded "" test(exists $h{$ox}); test($h{$ox} eq "bellow"); test(not exists $h{"foobarraboof"}); undef $h; untie %h; # And now Tie::RefHash::Nestable's differences from Tie::RefHash. $h = eval { tie %h, 'Tie::RefHash::Nestable' }; warn $@ if $@; test(not $@); test(ref($h) eq 'Tie::RefHash::Nestable'); test(defined(tied(%h)) and tied(%h) =~ /^Tie::RefHash::Nestable/); $h{$ref}->{$ref1} = 'bungo'; test($h{$ref}->{$ref1} eq 'bungo'); # Test that the nested hash is also tied (for current implementation) test(defined(tied(%{$h{$ref}})) and tied(%{$h{$ref}}) =~ /^Tie::RefHash::Nestable=/ ); test((keys %h) == 1); test((keys %h)[0] eq $ref); test((keys %{$h{$ref}}) == 1); test((keys %{$h{$ref}})[0] eq $ref1); { # Tests that delete returns the deleted element [perl #32193] my $ref = \(my $var = "oink"); tie my %oink, 'Tie::RefHash'; $oink{$ref} = "ding"; test($oink{$ref} eq "ding"); test(delete($oink{$ref}) eq "ding"); } die "expected to run $numtests tests, but ran ", $currtest - 1 if $currtest - 1 != $numtests; @tests = (); undef $ref; undef $ref1; exit(); # Print 'ok X' if true, 'not ok X' if false # Uses global $currtest. # sub test { my $t = shift; print 'not ' if not $t; print 'ok ', $currtest++, "\n"; } # Wrapper for Data::Dumper to 'dump' a scalar as an EXPR string. sub dumped { my $s = shift; my $d = Dumper($s); $d =~ s/^\$VAR1 =\s*//; $d =~ s/;$//; chomp $d; return $d; } # Crudely dump a hash into a canonical string representation (because # hash keys can appear in any order, Data::Dumper may give different # strings for the same hash). # sub dumph { my $h = shift; my $r = ''; foreach (sort keys %$h) { $r = dumped($_) . ' => ' . dumped($h->{$_}) . "\n"; } return $r; } # Run the tests and give results. # # Parameters: reference to list of tests to run # name of class to use for tied hash, or undef if not tied # # Returns: list of [R, W, E] tuples, one for each test. # R is the return value from running the test, W any warnings it gave, # and E any exception raised with 'die'. E and W will be tidied up a # little to remove irrelevant details like line numbers :-) # # Will also run a few of its own 'ok N' tests. # sub runtests { my ($tests, $class) = @_; my @r; my (%h, $h); if (defined $class) { $h = eval { tie %h, $class }; warn $@ if $@; test(not $@); test(ref($h) eq $class); test(defined(tied(%h)) and tied(%h) =~ /^\Q$class\E/); } foreach (@$tests) { my ($result, $warning, $exception); local $SIG{__WARN__} = sub { $warning .= $_[0] }; $result = scalar(eval $_); if ($@) { die "$@:$_" unless defined $class; $exception = $@; } foreach ($warning, $exception) { next if not defined; s/ at .+ line \d+\.$//mg; s/ at .+ line \d+, at .*//mg; s/ at .+ line \d+, near .*//mg; s/(uninitialized value)( within)? [\$@%].*? in /$1 in /g; } my (@warnings, %seen); foreach (split /\n/, $warning) { push @warnings, $_ unless $seen{$_}++; } $warning = join("\n", @warnings); push @r, [ $result, $warning, $exception ]; } return @r; } # Things that should work just the same for an ordinary hash and a # Tie::RefHash. # # Each test is a code string to be eval'd, it should do something with # %h and give a scalar return value. The global $ref and $ref1 may # also be used. # # One thing we don't test is that the ordering from 'keys', 'values' # and 'each' is the same. You can't reasonably expect that. # sub standard_hash_tests { my @r; # Library of standard tests on keys, values and each my $STD_TESTS = <<'END' join $;, sort keys %h; join $;, sort values %h; { my ($v, %tmp); $tmp{$v}++ while (defined($v = each %h)); dumph(\%tmp) } { my ($k, $v, %tmp); $tmp{"$k$;$v"}++ while (($k, $v) = each %h); dumph(\%tmp) } END ; # Tests on the existence of the element 'foo' my $FOO_TESTS = <<'END' defined $h{foo}; exists $h{foo}; $h{foo}; END ; # Test storing and deleting 'foo' push @r, split /\n/, <<"END" $STD_TESTS; $FOO_TESTS; \$h{foo} = undef; $STD_TESTS; $FOO_TESTS; \$h{foo} = 'hello'; $STD_TESTS; $FOO_TESTS; delete \$h{foo}; $STD_TESTS; $FOO_TESTS; END ; # Test storing and removing under ordinary keys my @things = ('boink', 0, 1, '', undef); foreach my $key (map dumped($_), @things) { foreach my $value ((map dumped($_), @things), '$ref') { push @r, split /\n/, <<"END" \$h{$key} = $value; $STD_TESTS; defined \$h{$key}; exists \$h{$key}; \$h{$key}; delete \$h{$key}; $STD_TESTS; defined \$h{$key}; exists \$h{$key}; \$h{$key}; END ; } } # Test hash slices my @slicetests; @slicetests = split /\n/, <<'END' @h{'b'} = (); @h{'c'} = ('d'); @h{'e'} = ('f', 'g'); @h{'h', 'i'} = (); @h{'j', 'k'} = ('l'); @h{'m', 'n'} = ('o', 'p'); @h{'q', 'r'} = ('s', 't', 'u'); END ; my @aaa = @slicetests; foreach (@slicetests) { push @r, $_; push @r, split(/\n/, $STD_TESTS); } # Test CLEAR push @r, '%h = ();', split(/\n/, $STD_TESTS); return @r; }