#!perl BEGIN { chdir 't'; @INC = '../lib'; require './test.pl'; *bar::is = *is; *bar::like = *like; } no warnings 'deprecated'; plan 128; # -------------------- Errors with feature disabled -------------------- # eval "#line 8 foo\nmy sub foo"; is $@, qq 'Experimental "my" subs not enabled at foo line 8.\n', 'my sub unexperimental error'; eval "#line 8 foo\nCORE::state sub foo"; is $@, qq 'Experimental "state" subs not enabled at foo line 8.\n', 'state sub unexperimental error'; eval "#line 8 foo\nour sub foo"; is $@, qq 'Experimental "our" subs not enabled at foo line 8.\n', 'our sub unexperimental error'; # -------------------- our -------------------- # no warnings "experimental::lexical_subs"; use feature 'lexical_subs'; { our sub foo { 42 } is foo, 42, 'calling our sub from same package'; is &foo, 42, 'calling our sub from same package (amper)'; is do foo(), 42, 'calling our sub from same package (do)'; package bar; sub bar::foo { 43 } is foo, 42, 'calling our sub from another package'; is &foo, 42, 'calling our sub from another package (amper)'; is do foo(), 42, 'calling our sub from another package (do)'; } package bar; is foo, 43, 'our sub falling out of scope'; is &foo, 43, 'our sub falling out of scope (called via amper)'; is do foo(), 43, 'our sub falling out of scope (called via amper)'; package main; { sub bar::a { 43 } our sub a { if (shift) { package bar; is a, 43, 'our sub invisible inside itself'; is &a, 43, 'our sub invisible inside itself (called via amper)'; is do a(), 43, 'our sub invisible inside itself (called via do)'; } 42 } a(1); sub bar::b { 43 } our sub b; our sub b { if (shift) { package bar; is b, 42, 'our sub visible inside itself after decl'; is &b, 42, 'our sub visible inside itself after decl (amper)'; is do b(), 42, 'our sub visible inside itself after decl (do)'; } 42 } b(1) } sub c { 42 } sub bar::c { 43 } { our sub c; package bar; is c, 42, 'our sub foo; makes lex alias for existing sub'; is &c, 42, 'our sub foo; makes lex alias for existing sub (amper)'; is do c(), 42, 'our sub foo; makes lex alias for existing sub (do)'; } { our sub d; sub bar::d { 'd43' } package bar; sub d { 'd42' } is eval ::d, 'd42', 'our sub foo; applies to subsequent sub foo {}'; } { our sub e ($); is prototype "::e", '$', 'our sub with proto'; } { our sub if() { 42 } my $x = if if if; is $x, 42, 'lexical subs (even our) override all keywords'; package bar; my $y = if if if; is $y, 42, 'our subs from other packages override all keywords'; } # -------------------- state -------------------- # use feature 'state'; # state { state sub foo { 44 } isnt \&::foo, \&foo, 'state sub is not stored in the package'; is eval foo, 44, 'calling state sub from same package'; is eval &foo, 44, 'calling state sub from same package (amper)'; is eval do foo(), 44, 'calling state sub from same package (do)'; package bar; is eval foo, 44, 'calling state sub from another package'; is eval &foo, 44, 'calling state sub from another package (amper)'; is eval do foo(), 44, 'calling state sub from another package (do)'; } package bar; is foo, 43, 'state sub falling out of scope'; is &foo, 43, 'state sub falling out of scope (called via amper)'; is do foo(), 43, 'state sub falling out of scope (called via amper)'; { sub sa { 43 } state sub sa { if (shift) { is sa, 43, 'state sub invisible inside itself'; is &sa, 43, 'state sub invisible inside itself (called via amper)'; is do sa(), 43, 'state sub invisible inside itself (called via do)'; } 44 } sa(1); sub sb { 43 } state sub sb; state sub sb { if (shift) { # ‘state sub foo{}’ creates a new pad entry, not reusing the forward # declaration. Being invisible inside itself, it sees the stub. eval{sb}; like $@, qr/^Undefined subroutine &sb called at /, 'state sub foo {} after forward declaration'; eval{&sb}; like $@, qr/^Undefined subroutine &sb called at /, 'state sub foo {} after forward declaration (amper)'; eval{do sb()}; like $@, qr/^Undefined subroutine &sb called at /, 'state sub foo {} after forward declaration (do)'; } 44 } sb(1); sub sb2 { 43 } state sub sb2; sub sb2 { if (shift) { package bar; is sb2, 44, 'state sub visible inside itself after decl'; is &sb2, 44, 'state sub visible inside itself after decl (amper)'; is do sb2(), 44, 'state sub visible inside itself after decl (do)'; } 44 } sb2(1); state sub sb3; { state sub sb3 { # new pad entry # The sub containing this comment is invisible inside itself. # So this one here will assign to the outer pad entry: sub sb3 { 47 } } } is eval{sb3}, 47, 'sub foo{} applying to "state sub foo;" even inside state sub foo{}'; # Same test again, but inside an anonymous sub sub { state sub sb4; { state sub sb4 { sub sb4 { 47 } } } is sb4, 47, 'sub foo{} applying to "state sub foo;" even inside state sub foo{}'; }->(); } sub sc { 43 } { state sub sc; eval{sc}; like $@, qr/^Undefined subroutine &sc called at /, 'state sub foo; makes no lex alias for existing sub'; eval{&sc}; like $@, qr/^Undefined subroutine &sc called at /, 'state sub foo; makes no lex alias for existing sub (amper)'; eval{do sc()}; like $@, qr/^Undefined subroutine &sc called at /, 'state sub foo; makes no lex alias for existing sub (do)'; } package main; { state sub se ($); is prototype eval{\&se}, '$', 'state sub with proto'; is prototype "se", undef, 'prototype "..." ignores state subs'; } { state sub if() { 44 } my $x = if if if; is $x, 44, 'state subs override all keywords'; package bar; my $y = if if if; is $y, 44, 'state subs from other packages override all keywords'; } { use warnings; no warnings "experimental::lexical_subs"; state $w ; local $SIG{__WARN__} = sub { $w .= shift }; eval '#line 87 squidges state sub foo; state sub foo {}; '; is $w, '"state" subroutine &foo masks earlier declaration in same scope at ' . "squidges line 88.\n", 'warning for state sub masking earlier declaration'; } # Since state vars inside anonymous subs are cloned at the same time as the # anonymous subs containing them, the same should happen for state subs. sub make_closure { my $x = shift; sub { state sub foo { $x } foo } } $sub1 = make_closure 48; $sub2 = make_closure 49; is &$sub1, 48, 'state sub in closure (1)'; is &$sub2, 49, 'state sub in closure (2)'; # But we need to test that state subs actually do persist from one invoca- # tion of a named sub to another (i.e., that they are not my subs). { use warnings; no warnings "experimental::lexical_subs"; state $w; local $SIG{__WARN__} = sub { $w .= shift }; eval '#line 65 teetet sub foom { my $x = shift; state sub poom { $x } eval{\&poom} } '; is $w, "Variable \"\$x\" will not stay shared at teetet line 67.\n", 'state subs get "Variable will not stay shared" messages'; my $poom = foom(27); my $poom2 = foom(678); is eval{$poom->()}, eval {$poom2->()}, 'state subs close over the first outer my var, like pkg subs'; my $x = 43; for $x (765) { state sub etetetet { $x } is eval{etetetet}, 43, 'state sub ignores for() localisation'; } } # And we also need to test that multiple state subs can close over each # other’s entries in the parent subs pad, and that cv_clone is not con- # fused by that. sub make_anon_with_state_sub{ sub { state sub s1; state sub s2 { \&s1 } sub s1 { \&s2 } if (@_) { return \&s1 } is s1,\&s2, 'state sub in anon closure closing over sibling state sub'; is s2,\&s1, 'state sub in anon closure closing over sibling state sub'; } } { my $s = make_anon_with_state_sub; &$s; # And make sure the state subs were actually cloned. isnt make_anon_with_state_sub->(0), &$s(0), 'state subs in anon subs are cloned'; is &$s(0), &$s(0), 'but only when the anon sub is cloned'; } { state sub BEGIN { exit }; pass 'state subs are never special blocks'; state sub END { shift } is eval{END('jkqeudth')}, jkqeudth, 'state sub END {shift} implies @_, not @ARGV'; } { state sub redef {} use warnings; no warnings "experimental::lexical_subs"; state $w; local $SIG{__WARN__} = sub { $w .= shift }; eval "#line 56 pygpyf\nsub redef {}"; is $w, "Subroutine redef redefined at pygpyf line 56.\n", "sub redefinition warnings from state subs"; } { state sub p (\@) { is ref $_[0], 'ARRAY', 'state sub with proto'; } p(my @a); } { state sub x; eval 'sub x {3}'; is x, 3, 'state sub defined inside eval'; sub r { state sub foo { 3 }; if (@_) { # outer call r(); is foo(), 42, 'state sub run-time redefinition applies to all recursion levels'; } else { # inner call eval 'sub foo { 42 }'; } } r(1); } # -------------------- my -------------------- # { my sub foo { 44 } isnt \&::foo, \&foo, 'my sub is not stored in the package'; is foo, 44, 'calling my sub from same package'; is &foo, 44, 'calling my sub from same package (amper)'; is do foo(), 44, 'calling my sub from same package (do)'; package bar; is foo, 44, 'calling my sub from another package'; is &foo, 44, 'calling my sub from another package (amper)'; is do foo(), 44, 'calling my sub from another package (do)'; } package bar; is foo, 43, 'my sub falling out of scope'; is &foo, 43, 'my sub falling out of scope (called via amper)'; is do foo(), 43, 'my sub falling out of scope (called via amper)'; { sub ma { 43 } my sub ma { if (shift) { is ma, 43, 'my sub invisible inside itself'; is &ma, 43, 'my sub invisible inside itself (called via amper)'; is do ma(), 43, 'my sub invisible inside itself (called via do)'; } 44 } ma(1); sub mb { 43 } my sub mb; my sub mb { if (shift) { # ‘my sub foo{}’ creates a new pad entry, not reusing the forward # declaration. Being invisible inside itself, it sees the stub. eval{mb}; like $@, qr/^Undefined subroutine &mb called at /, 'my sub foo {} after forward declaration'; eval{&mb}; like $@, qr/^Undefined subroutine &mb called at /, 'my sub foo {} after forward declaration (amper)'; eval{do mb()}; like $@, qr/^Undefined subroutine &mb called at /, 'my sub foo {} after forward declaration (do)'; } 44 } mb(1); sub mb2 { 43 } my sub sb2; sub mb2 { if (shift) { package bar; is mb2, 44, 'my sub visible inside itself after decl'; is &mb2, 44, 'my sub visible inside itself after decl (amper)'; is do mb2(), 44, 'my sub visible inside itself after decl (do)'; } 44 } mb2(1); my sub mb3; { my sub mb3 { # new pad entry # The sub containing this comment is invisible inside itself. # So this one here will assign to the outer pad entry: sub mb3 { 47 } } } is eval{mb3}, 47, 'sub foo{} applying to "my sub foo;" even inside my sub foo{}'; # Same test again, but inside an anonymous sub sub { my sub mb4; { my sub mb4 { sub mb4 { 47 } } } is mb4, 47, 'sub foo{} applying to "my sub foo;" even inside my sub foo{}'; }->(); } sub mc { 43 } { my sub mc; eval{mc}; like $@, qr/^Undefined subroutine &mc called at /, 'my sub foo; makes no lex alias for existing sub'; eval{&mc}; like $@, qr/^Undefined subroutine &mc called at /, 'my sub foo; makes no lex alias for existing sub (amper)'; eval{do mc()}; like $@, qr/^Undefined subroutine &mc called at /, 'my sub foo; makes no lex alias for existing sub (do)'; } package main; { my sub me ($); is prototype eval{\&me}, '$', 'my sub with proto'; is prototype "me", undef, 'prototype "..." ignores my subs'; } { my sub if() { 44 } my $x = if if if; is $x, 44, 'my subs override all keywords'; package bar; my $y = if if if; is $y, 44, 'my subs from other packages override all keywords'; } { use warnings; no warnings "experimental::lexical_subs"; my $w ; local $SIG{__WARN__} = sub { $w .= shift }; eval '#line 87 squidges my sub foo; my sub foo {}; '; is $w, '"my" subroutine &foo masks earlier declaration in same scope at ' . "squidges line 88.\n", 'warning for my sub masking earlier declaration'; } # Test that my subs are cloned inside anonymous subs. sub mmake_closure { my $x = shift; sub { my sub foo { $x } foo } } $sub1 = mmake_closure 48; $sub2 = mmake_closure 49; is &$sub1, 48, 'my sub in closure (1)'; is &$sub2, 49, 'my sub in closure (2)'; # Test that they are cloned in named subs. { use warnings; no warnings "experimental::lexical_subs"; my $w; local $SIG{__WARN__} = sub { $w .= shift }; eval '#line 65 teetet sub mfoom { my $x = shift; my sub poom { $x } \&poom } '; is $w, undef, 'my subs get no "Variable will not stay shared" messages'; my $poom = mfoom(27); my $poom2 = mfoom(678); is $poom->(), 27, 'my subs closing over outer my var (1)'; is $poom2->(), 678, 'my subs closing over outer my var (2)'; my $x = 43; my sub aoeu; for $x (765) { my sub etetetet { $x } sub aoeu { $x } is etetetet, 765, 'my sub respects for() localisation'; is aoeu, 43, 'unless it is declared outside the for loop'; } } # And we also need to test that multiple my subs can close over each # other’s entries in the parent subs pad, and that cv_clone is not con- # fused by that. sub make_anon_with_my_sub{ sub { my sub s1; my sub s2 { \&s1 } sub s1 { \&s2 } if (@_) { return eval { \&s1 } } is eval{s1},eval{\&s2}, 'my sub in anon closure closing over sibling my sub'; is eval{s2},eval{\&s1}, 'my sub in anon closure closing over sibling my sub'; } } # Test my subs inside predeclared my subs { my sub s2; sub s2 { my $x = 3; my sub s3 { eval '$x' } s3; } is s2, 3, 'my sub inside predeclared my sub'; } { my $s = make_anon_with_my_sub; &$s; # And make sure the my subs were actually cloned. isnt make_anon_with_my_sub->(0), &$s(0), 'my subs in anon subs are cloned'; isnt &$s(0), &$s(0), 'at each invocation of the enclosing sub'; } { my sub BEGIN { exit }; pass 'my subs are never special blocks'; my sub END { shift } is END('jkqeudth'), jkqeudth, 'my sub END {shift} implies @_, not @ARGV'; } { my sub redef {} use warnings; no warnings "experimental::lexical_subs"; my $w; local $SIG{__WARN__} = sub { $w .= shift }; eval "#line 56 pygpyf\nsub redef {}"; is $w, "Subroutine redef redefined at pygpyf line 56.\n", "sub redefinition warnings from my subs"; undef $w; sub { my sub x {}; sub { eval "#line 87 khaki\n\\&x" } }->()(); is $w, "Subroutine \"&x\" is not available at khaki line 87.\n", "unavailability warning during compilation of eval in closure"; undef $w; no warnings 'void'; eval <<'->()();'; #line 87 khaki sub { my sub x{} sub not_lexical8 { \&x } } ->()(); is $w, "Subroutine \"&x\" is not available at khaki line 90.\n", "unavailability warning during compilation of named sub in anon"; undef $w; sub not_lexical9 { my sub x {}; format = @ &x . } eval { write }; my($f,$l) = (__FILE__,__LINE__ - 1); is $w, "Subroutine \"&x\" is not available at $f line $l.\n", 'unavailability warning during cloning'; $l -= 3; is $@, "Undefined subroutine &x called at $f line $l.\n", 'Vivified sub is correctly named'; } sub not_lexical10 { my sub foo; foo(); sub not_lexical11 { my sub bar { my $x = 'khaki car keys for the khaki car'; not_lexical10(); sub foo { is $x, 'khaki car keys for the khaki car', 'mysubs in inner clonables use the running clone of their CvOUTSIDE' } } bar() } } not_lexical11(); { my sub p (\@) { is ref $_[0], 'ARRAY', 'my sub with proto'; } p(my @a); } { my sub x; my $count; sub x { x() if $count++ < 10 } x(); is $count, 11, 'my recursive subs'; } { my sub x; eval 'sub x {3}'; is x, 3, 'my sub defined inside eval'; } { state $w; local $SIG{__WARN__} = sub { $w .= shift }; eval q{ my sub george () { 2 } }; is $w, undef, 'no double free from constant my subs'; } # -------------------- Interactions (and misc tests) -------------------- # is sub { my sub s1; my sub s2 { 3 }; sub s1 { state sub foo { \&s2 } foo } s1 }->()(), 3, 'state sub inside my sub closing over my sub uncle'; { my sub s2 { 3 }; sub not_lexical { state sub foo { \&s2 } foo } is not_lexical->(), 3, 'state subs that reference my sub from outside'; } # Test my subs inside predeclared package subs # This test also checks that CvOUTSIDE pointers are not mangled when the # inner sub’s CvOUTSIDE points to another sub. sub not_lexical2; sub not_lexical2 { my $x = 23; my sub bar; sub not_lexical3 { not_lexical2(); sub bar { $x } }; bar } is not_lexical3, 23, 'my subs inside predeclared package subs'; # Test my subs inside predeclared package sub, where the lexical sub is # declared outside the package sub. # This checks that CvOUTSIDE pointers are fixed up even when the sub is # not declared inside the sub that its CvOUTSIDE points to. sub not_lexical5 { my sub foo; sub not_lexical4; sub not_lexical4 { my $x = 234; not_lexical5(); sub foo { $x } } foo } is not_lexical4, 234, 'my sub defined in predeclared pkg sub but declared outside'; undef *not_lexical6; { my sub foo; sub not_lexical6 { sub foo { } } pass 'no crash when cloning a mysub declared inside an undef pack sub'; } undef ¬_lexical7; eval 'sub not_lexical7 { my @x }'; { my sub foo; foo(); sub not_lexical7 { state $x; sub foo { is ref \$x, 'SCALAR', "redeffing a mysub's outside does not make it use the wrong pad" } } }