#!./perl # Add new tests to the end with format: # ######## # # # test description # Test code # EXPECT # Warn or die msgs (if any) at - line 1234 # chdir 't' if -d 't'; @INC = '../lib'; $ENV{PERL5LIB} = "../lib"; $|=1; undef $/; @prgs = split /^########\n/m, ; require './test.pl'; plan(tests => scalar @prgs); for (@prgs){ ++$i; my($prog,$expected) = split(/\nEXPECT\n/, $_, 2); print("not ok $i # bad test format\n"), next unless defined $expected; my ($testname) = $prog =~ /^# (.*)\n/m; $testname ||= ''; $TODO = $testname =~ s/^TODO //; $results =~ s/\n+$//; $expected =~ s/\n+$//; fresh_perl_is($prog, $expected, {}, $testname); } __END__ # standard behaviour, without any extra references use Tie::Hash ; tie %h, Tie::StdHash; untie %h; EXPECT ######## # standard behaviour, without any extra references use Tie::Hash ; {package Tie::HashUntie; use base 'Tie::StdHash'; sub UNTIE { warn "Untied\n"; } } tie %h, Tie::HashUntie; untie %h; EXPECT Untied ######## # standard behaviour, with 1 extra reference use Tie::Hash ; $a = tie %h, Tie::StdHash; untie %h; EXPECT ######## # standard behaviour, with 1 extra reference via tied use Tie::Hash ; tie %h, Tie::StdHash; $a = tied %h; untie %h; EXPECT ######## # standard behaviour, with 1 extra reference which is destroyed use Tie::Hash ; $a = tie %h, Tie::StdHash; $a = 0 ; untie %h; EXPECT ######## # standard behaviour, with 1 extra reference via tied which is destroyed use Tie::Hash ; tie %h, Tie::StdHash; $a = tied %h; $a = 0 ; untie %h; EXPECT ######## # strict behaviour, without any extra references use warnings 'untie'; use Tie::Hash ; tie %h, Tie::StdHash; untie %h; EXPECT ######## # strict behaviour, with 1 extra references generating an error use warnings 'untie'; use Tie::Hash ; $a = tie %h, Tie::StdHash; untie %h; EXPECT untie attempted while 1 inner references still exist at - line 6. ######## # strict behaviour, with 1 extra references via tied generating an error use warnings 'untie'; use Tie::Hash ; tie %h, Tie::StdHash; $a = tied %h; untie %h; EXPECT untie attempted while 1 inner references still exist at - line 7. ######## # strict behaviour, with 1 extra references which are destroyed use warnings 'untie'; use Tie::Hash ; $a = tie %h, Tie::StdHash; $a = 0 ; untie %h; EXPECT ######## # strict behaviour, with extra 1 references via tied which are destroyed use warnings 'untie'; use Tie::Hash ; tie %h, Tie::StdHash; $a = tied %h; $a = 0 ; untie %h; EXPECT ######## # strict error behaviour, with 2 extra references use warnings 'untie'; use Tie::Hash ; $a = tie %h, Tie::StdHash; $b = tied %h ; untie %h; EXPECT untie attempted while 2 inner references still exist at - line 7. ######## # strict behaviour, check scope of strictness. no warnings 'untie'; use Tie::Hash ; $A = tie %H, Tie::StdHash; $C = $B = tied %H ; { use warnings 'untie'; use Tie::Hash ; tie %h, Tie::StdHash; untie %h; } untie %H; EXPECT ######## # Forbidden aggregate self-ties sub Self::TIEHASH { bless $_[1], $_[0] } { my %c; tie %c, 'Self', \%c; } EXPECT Self-ties of arrays and hashes are not supported at - line 6. ######## # Allowed scalar self-ties my $destroyed = 0; sub Self::TIESCALAR { bless $_[1], $_[0] } sub Self::DESTROY { $destroyed = 1; } { my $c = 42; tie $c, 'Self', \$c; } die "self-tied scalar not DESTROYed" unless $destroyed == 1; EXPECT ######## # Allowed glob self-ties my $destroyed = 0; my $printed = 0; sub Self2::TIEHANDLE { bless $_[1], $_[0] } sub Self2::DESTROY { $destroyed = 1; } sub Self2::PRINT { $printed = 1; } { use Symbol; my $c = gensym; tie *$c, 'Self2', $c; print $c 'Hello'; } die "self-tied glob not PRINTed" unless $printed == 1; die "self-tied glob not DESTROYed" unless $destroyed == 1; EXPECT ######## # Allowed IO self-ties my $destroyed = 0; sub Self3::TIEHANDLE { bless $_[1], $_[0] } sub Self3::DESTROY { $destroyed = 1; } sub Self3::PRINT { $printed = 1; } { use Symbol 'geniosym'; my $c = geniosym; tie *$c, 'Self3', $c; print $c 'Hello'; } die "self-tied IO not PRINTed" unless $printed == 1; die "self-tied IO not DESTROYed" unless $destroyed == 1; EXPECT ######## # TODO IO "self-tie" via TEMP glob my $destroyed = 0; sub Self3::TIEHANDLE { bless $_[1], $_[0] } sub Self3::DESTROY { $destroyed = 1; } sub Self3::PRINT { $printed = 1; } { use Symbol 'geniosym'; my $c = geniosym; tie *$c, 'Self3', \*$c; print $c 'Hello'; } die "IO tied to TEMP glob not PRINTed" unless $printed == 1; die "IO tied to TEMP glob not DESTROYed" unless $destroyed == 1; EXPECT ######## # Interaction of tie and vec my ($a, $b); use Tie::Scalar; tie $a,Tie::StdScalar or die; vec($b,1,1)=1; $a = $b; vec($a,1,1)=0; vec($b,1,1)=0; die unless $a eq $b; EXPECT ######## # correct unlocalisation of tied hashes (patch #16431) use Tie::Hash ; tie %tied, Tie::StdHash; { local $hash{'foo'} } warn "plain hash bad unlocalize" if exists $hash{'foo'}; { local $tied{'foo'} } warn "tied hash bad unlocalize" if exists $tied{'foo'}; { local $ENV{'foo'} } warn "%ENV bad unlocalize" if exists $ENV{'foo'}; EXPECT ######## # An attempt at lvalueable barewords broke this tie FH, 'main'; EXPECT Can't modify constant item in tie at - line 3, near "'main';" Execution of - aborted due to compilation errors. ######## # localizing tied hash slices $ENV{FooA} = 1; $ENV{FooB} = 2; print exists $ENV{FooA} ? 1 : 0, "\n"; print exists $ENV{FooB} ? 2 : 0, "\n"; print exists $ENV{FooC} ? 3 : 0, "\n"; { local @ENV{qw(FooA FooC)}; print exists $ENV{FooA} ? 4 : 0, "\n"; print exists $ENV{FooB} ? 5 : 0, "\n"; print exists $ENV{FooC} ? 6 : 0, "\n"; } print exists $ENV{FooA} ? 7 : 0, "\n"; print exists $ENV{FooB} ? 8 : 0, "\n"; print exists $ENV{FooC} ? 9 : 0, "\n"; # this should not exist EXPECT 1 2 0 4 5 6 7 8 0 ######## # # FETCH freeing tie'd SV sub TIESCALAR { bless [] } sub FETCH { *a = \1; 1 } tie $a, 'main'; print $a; EXPECT Tied variable freed while still in use at - line 6. ######## # [20020716.007] - nested FETCHES sub F1::TIEARRAY { bless [], 'F1' } sub F1::FETCH { 1 } my @f1; tie @f1, 'F1'; sub F2::TIEARRAY { bless [2], 'F2' } sub F2::FETCH { my $self = shift; my $x = $f1[3]; $self } my @f2; tie @f2, 'F2'; print $f2[4][0],"\n"; sub F3::TIEHASH { bless [], 'F3' } sub F3::FETCH { 1 } my %f3; tie %f3, 'F3'; sub F4::TIEHASH { bless [3], 'F4' } sub F4::FETCH { my $self = shift; my $x = $f3{3}; $self } my %f4; tie %f4, 'F4'; print $f4{'foo'}[0],"\n"; EXPECT 2 3 ######## # test untie() from within FETCH package Foo; sub TIESCALAR { my $pkg = shift; return bless [@_], $pkg; } sub FETCH { my $self = shift; my ($obj, $field) = @$self; untie $obj->{$field}; $obj->{$field} = "Bar"; } package main; tie $a->{foo}, "Foo", $a, "foo"; $a->{foo}; # access once # the hash element should not be tied anymore print defined tied $a->{foo} ? "not ok" : "ok"; EXPECT ok ######## # the tmps returned by FETCH should appear to be SCALAR # (even though they are now implemented using PVLVs.) package X; sub TIEHASH { bless {} } sub TIEARRAY { bless {} } sub FETCH {1} my (%h, @a); tie %h, 'X'; tie @a, 'X'; my $r1 = \$h{1}; my $r2 = \$a[0]; my $s = "$r1 ". ref($r1) . " $r2 " . ref($r2); $s=~ s/$0x\w+$//g; print $s, "\n"; EXPECT SCALAR SCALAR SCALAR SCALAR ######## # [perl #23287] segfault in untie sub TIESCALAR { bless $_[1], $_[0] } my $var; tie $var, 'main', \$var; untie $var; EXPECT ######## # Test case from perlmonks by runrig # http://www.perlmonks.org/index.pl?node_id=273490 # "Here is what I tried. I think its similar to what you've tried # above. Its odd but convienient that after untie'ing you are left with # a variable that has the same value as was last returned from # FETCH. (At least on my perl v5.6.1). So you don't need to pass a # reference to the variable in order to set it after the untie (here it # is accessed through a closure)." use strict; use warnings; package MyTied; sub TIESCALAR { my ($class,$code) = @_; bless $code, $class; } sub FETCH { my $self = shift; print "Untie\n"; $self->(); } package main; my $var; tie $var, 'MyTied', sub { untie $var; 4 }; print "One\n"; print "$var\n"; print "Two\n"; print "$var\n"; print "Three\n"; print "$var\n"; EXPECT One Untie 4 Two 4 Three 4 ######## # [perl #22297] cannot untie scalar from within tied FETCH my $counter = 0; my $x = 7; my $ref = \$x; tie $x, 'Overlay', $ref, $x; my $y; $y = $x; $y = $x; $y = $x; $y = $x; #print "WILL EXTERNAL UNTIE $ref\n"; untie $$ref; $y = $x; $y = $x; $y = $x; $y = $x; #print "counter = $counter\n"; print (($counter == 1) ? "ok\n" : "not ok\n"); package Overlay; sub TIESCALAR { my $pkg = shift; my ($ref, $val) = @_; return bless [ $ref, $val ], $pkg; } sub FETCH { my $self = shift; my ($ref, $val) = @$self; #print "WILL INTERNAL UNITE $ref\n"; $counter++; untie $$ref; return $val; } EXPECT ok ######## # test SCALAR method package TieScalar; sub TIEHASH { my $pkg = shift; bless { } => $pkg; } sub STORE { $_[0]->{$_[1]} = $_[2]; } sub FETCH { $_[0]->{$_[1]} } sub CLEAR { %{ $_[0] } = (); } sub SCALAR { print "SCALAR\n"; return 0 if ! keys %{$_[0]}; sprintf "%i/%i", scalar keys %{$_[0]}, scalar keys %{$_[0]}; } package main; tie my %h => "TieScalar"; $h{key1} = "val1"; $h{key2} = "val2"; print scalar %h, "\n"; %h = (); print scalar %h, "\n"; EXPECT SCALAR 2/2 SCALAR 0 ######## # test scalar on tied hash when no SCALAR method has been given package TieScalar; sub TIEHASH { my $pkg = shift; bless { } => $pkg; } sub STORE { $_[0]->{$_[1]} = $_[2]; } sub FETCH { $_[0]->{$_[1]} } sub CLEAR { %{ $_[0] } = (); } sub FIRSTKEY { my $a = keys %{ $_[0] }; print "FIRSTKEY\n"; each %{ $_[0] }; } package main; tie my %h => "TieScalar"; if (!%h) { print "empty\n"; } else { print "not empty\n"; } $h{key1} = "val1"; print "not empty\n" if %h; print "not empty\n" if %h; print "-->\n"; my ($k,$v) = each %h; print "<--\n"; print "not empty\n" if %h; %h = (); print "empty\n" if ! %h; EXPECT FIRSTKEY empty FIRSTKEY not empty FIRSTKEY not empty --> FIRSTKEY <-- not empty FIRSTKEY empty