#!./perl use strict; use warnings; BEGIN { require q(./test.pl); } plan(tests => 52); require mro; { package MRO_A; our @ISA = qw//; package MRO_B; our @ISA = qw//; package MRO_C; our @ISA = qw//; package MRO_D; our @ISA = qw/MRO_A MRO_B MRO_C/; package MRO_E; our @ISA = qw/MRO_A MRO_B MRO_C/; package MRO_F; our @ISA = qw/MRO_D MRO_E/; } my @MFO_F_DFS = qw/MRO_F MRO_D MRO_A MRO_B MRO_C MRO_E/; my @MFO_F_C3 = qw/MRO_F MRO_D MRO_E MRO_A MRO_B MRO_C/; is(mro::get_mro('MRO_F'), 'dfs'); ok(eq_array( mro::get_linear_isa('MRO_F'), \@MFO_F_DFS )); ok(eq_array(mro::get_linear_isa('MRO_F', 'dfs'), \@MFO_F_DFS)); ok(eq_array(mro::get_linear_isa('MRO_F', 'c3'), \@MFO_F_C3)); eval{mro::get_linear_isa('MRO_F', 'C3')}; like($@, qr/^Invalid mro name: 'C3'/); mro::set_mro('MRO_F', 'c3'); is(mro::get_mro('MRO_F'), 'c3'); ok(eq_array( mro::get_linear_isa('MRO_F'), \@MFO_F_C3 )); ok(eq_array(mro::get_linear_isa('MRO_F', 'dfs'), \@MFO_F_DFS)); ok(eq_array(mro::get_linear_isa('MRO_F', 'c3'), \@MFO_F_C3)); eval{mro::get_linear_isa('MRO_F', 'C3')}; like($@, qr/^Invalid mro name: 'C3'/); my @isarev = sort { $a cmp $b } @{mro::get_isarev('MRO_B')}; ok(eq_array( \@isarev, [qw/MRO_D MRO_E MRO_F/] )); ok(!mro::is_universal('MRO_B')); @UNIVERSAL::ISA = qw/MRO_F/; ok(mro::is_universal('MRO_B')); @UNIVERSAL::ISA = (); ok(!mro::is_universal('MRO_B')); # is_universal, get_mro, and get_linear_isa should # handle non-existent packages sanely ok(!mro::is_universal('Does_Not_Exist')); is(mro::get_mro('Also_Does_Not_Exist'), 'dfs'); ok(eq_array( mro::get_linear_isa('Does_Not_Exist_Three'), [qw/Does_Not_Exist_Three/] )); # Assigning @ISA via globref { package MRO_TestBase; sub testfunc { return 123 } package MRO_TestOtherBase; sub testfunctwo { return 321 } package MRO_M; our @ISA = qw/MRO_TestBase/; } *MRO_N::ISA = *MRO_M::ISA; is(eval { MRO_N->testfunc() }, 123); # XXX TODO (when there's a way to backtrack through a glob's aliases) # push(@MRO_M::ISA, 'MRO_TestOtherBase'); # is(eval { MRO_N->testfunctwo() }, 321); # Simple DESTROY Baseline { my $x = 0; my $obj; { package DESTROY_MRO_Baseline; sub new { bless {} => shift } sub DESTROY { $x++ } package DESTROY_MRO_Baseline_Child; our @ISA = qw/DESTROY_MRO_Baseline/; } $obj = DESTROY_MRO_Baseline->new(); undef $obj; is($x, 1); $obj = DESTROY_MRO_Baseline_Child->new(); undef $obj; is($x, 2); } # Dynamic DESTROY { my $x = 0; my $obj; { package DESTROY_MRO_Dynamic; sub new { bless {} => shift } package DESTROY_MRO_Dynamic_Child; our @ISA = qw/DESTROY_MRO_Dynamic/; } $obj = DESTROY_MRO_Dynamic->new(); undef $obj; is($x, 0); $obj = DESTROY_MRO_Dynamic_Child->new(); undef $obj; is($x, 0); no warnings 'once'; *DESTROY_MRO_Dynamic::DESTROY = sub { $x++ }; $obj = DESTROY_MRO_Dynamic->new(); undef $obj; is($x, 1); $obj = DESTROY_MRO_Dynamic_Child->new(); undef $obj; is($x, 2); } # clearing @ISA in different ways # some are destructive to the package, hence the new # package name each time { no warnings 'uninitialized'; { package ISACLEAR; our @ISA = qw/XX YY ZZ/; } # baseline ok(eq_array(mro::get_linear_isa('ISACLEAR'),[qw/ISACLEAR XX YY ZZ/])); # this looks dumb, but it preserves existing behavior for compatibility # (undefined @ISA elements treated as "main") $ISACLEAR::ISA[1] = undef; ok(eq_array(mro::get_linear_isa('ISACLEAR'),[qw/ISACLEAR XX main ZZ/])); # undef the array itself undef @ISACLEAR::ISA; ok(eq_array(mro::get_linear_isa('ISACLEAR'),[qw/ISACLEAR/])); # Now, clear more than one package's @ISA at once { package ISACLEAR1; our @ISA = qw/WW XX/; package ISACLEAR2; our @ISA = qw/YY ZZ/; } # baseline ok(eq_array(mro::get_linear_isa('ISACLEAR1'),[qw/ISACLEAR1 WW XX/])); ok(eq_array(mro::get_linear_isa('ISACLEAR2'),[qw/ISACLEAR2 YY ZZ/])); (@ISACLEAR1::ISA, @ISACLEAR2::ISA) = (); ok(eq_array(mro::get_linear_isa('ISACLEAR1'),[qw/ISACLEAR1/])); ok(eq_array(mro::get_linear_isa('ISACLEAR2'),[qw/ISACLEAR2/])); # [perl #49564] This is a pretty obscure way of clearing @ISA but # it tests a regression that affects XS code calling av_clear too. { package ISACLEAR3; our @ISA = qw/WW XX/; } ok(eq_array(mro::get_linear_isa('ISACLEAR3'),[qw/ISACLEAR3 WW XX/])); { package ISACLEAR3; reset 'I'; } ok(eq_array(mro::get_linear_isa('ISACLEAR3'),[qw/ISACLEAR3/])); } # Check that recursion bails out "cleanly" in a variety of cases # (as opposed to say, bombing the interpreter or something) { my @recurse_codes = ( '@MRO_R1::ISA = "MRO_R2"; @MRO_R2::ISA = "MRO_R1";', '@MRO_R3::ISA = "MRO_R4"; push(@MRO_R4::ISA, "MRO_R3");', '@MRO_R5::ISA = "MRO_R6"; @MRO_R6::ISA = qw/XX MRO_R5 YY/;', '@MRO_R7::ISA = "MRO_R8"; push(@MRO_R8::ISA, qw/XX MRO_R7 YY/)', ); foreach my $code (@recurse_codes) { eval $code; ok($@ =~ /Recursive inheritance detected/); } } # Check that SUPER caches get invalidated correctly { { package SUPERTEST; sub new { bless {} => shift } sub foo { $_[1]+1 } package SUPERTEST::MID; our @ISA = 'SUPERTEST'; package SUPERTEST::KID; our @ISA = 'SUPERTEST::MID'; sub foo { my $s = shift; $s->SUPER::foo(@_) } package SUPERTEST::REBASE; sub foo { $_[1]+3 } } my $stk_obj = SUPERTEST::KID->new(); is($stk_obj->foo(1), 2); { no warnings 'redefine'; *SUPERTEST::foo = sub { $_[1]+2 }; } is($stk_obj->foo(2), 4); @SUPERTEST::MID::ISA = 'SUPERTEST::REBASE'; is($stk_obj->foo(3), 6); } { { # assigning @ISA via arrayref to globref RT 60220 package P1; sub new { bless {}, shift } package P2; } *{P2::ISA} = [ 'P1' ]; my $foo = P2->new; ok(!eval { $foo->bark }, "no bark method"); no warnings 'once'; # otherwise it'll bark about P1::bark used only once *{P1::bark} = sub { "[bark]" }; is(scalar eval { $foo->bark }, "[bark]", "can bark now"); } { # assigning @ISA via arrayref then modifying it RT 72866 { package Q1; sub foo { } package Q2; sub bar { } package Q3; } push @Q3::ISA, "Q1"; can_ok("Q3", "foo"); *Q3::ISA = []; push @Q3::ISA, "Q1"; can_ok("Q3", "foo"); *Q3::ISA = []; push @Q3::ISA, "Q2"; can_ok("Q3", "bar"); ok(!Q3->can("foo"), "can't call foo method any longer"); } { # test mro::method_changed_in my $count = mro::get_pkg_gen("MRO_A"); mro::method_changed_in("MRO_A"); my $count_new = mro::get_pkg_gen("MRO_A"); is($count_new, $count + 1); } { # test if we can call mro::invalidate_all_method_caches; eval { mro::invalidate_all_method_caches(); }; is($@, ""); } { # @main::ISA no warnings 'once'; @main::ISA = 'parent'; my $output = ''; *parent::do = sub { $output .= 'parent' }; *parent2::do = sub { $output .= 'parent2' }; main->do; @main::ISA = 'parent2'; main->do; is $output, 'parentparent2', '@main::ISA is magical'; } { # Undefining *ISA, then modifying @ISA # This broke Class::Trait. See [perl #79024]. {package Class::Trait::Base} no strict 'refs'; undef *{"Extra::TSpouse::ISA"}; 'Extra::TSpouse'->isa('Class::Trait::Base'); # cache the mro unshift @{"Extra::TSpouse::ISA"}, 'Class::Trait::Base'; ok 'Extra::TSpouse'->isa('Class::Trait::Base'), 'a isa b after undef *a::ISA and @a::ISA modification'; } { # Deleting $package::{ISA} # Broken in 5.10.0; fixed in 5.13.7 @Blength::ISA = 'Bladd'; delete $Blength::{ISA}; ok !Blength->isa("Bladd"), 'delete $package::{ISA}'; } { # Undefining stashes @Thrext::ISA = "Thwit"; @Thwit::ISA = "Sile"; undef %Thwit::; ok !Thrext->isa('Sile'), 'undef %package:: updates subclasses'; }