#!./perl
#
# various typeglob tests
#
BEGIN {
chdir 't' if -d 't';
@INC = '../lib';
}
use warnings;
require './test.pl';
plan( tests => 191 );
# type coersion on assignment
$foo = 'foo';
$bar = *main::foo;
$bar = $foo;
is(ref(\$bar), 'SCALAR');
$foo = *main::bar;
# type coersion (not) on misc ops
ok($foo);
is(ref(\$foo), 'GLOB');
unlike ($foo, qr/abcd/);
is(ref(\$foo), 'GLOB');
is($foo, '*main::bar');
is(ref(\$foo), 'GLOB');
# type coersion on substitutions that match
$a = *main::foo;
$b = $a;
$a =~ s/^X//;
is(ref(\$a), 'GLOB');
$a =~ s/^\*//;
is($a, 'main::foo');
is(ref(\$b), 'GLOB');
# typeglobs as lvalues
substr($foo, 0, 1) = "XXX";
is(ref(\$foo), 'SCALAR');
is($foo, 'XXXmain::bar');
# returning glob values
sub foo {
local($bar) = *main::foo;
$foo = *main::bar;
return ($foo, $bar);
}
($fuu, $baa) = foo();
ok(defined $fuu);
is(ref(\$fuu), 'GLOB');
ok(defined $baa);
is(ref(\$baa), 'GLOB');
# nested package globs
# NOTE: It's probably OK if these semantics change, because the
# fact that %X::Y:: is stored in %X:: isn't documented.
# (I hope.)
{ package Foo::Bar; no warnings 'once'; $test=1; }
ok(exists $Foo::{'Bar::'});
is($Foo::{'Bar::'}, '*Foo::Bar::');
# test undef operator clearing out entire glob
$foo = 'stuff';
@foo = qw(more stuff);
%foo = qw(even more random stuff);
undef *foo;
is ($foo, undef);
is (scalar @foo, 0);
is (scalar %foo, 0);
{
# test warnings from assignment of undef to glob
my $msg = '';
local $SIG{__WARN__} = sub { $msg = $_[0] };
use warnings;
*foo = 'bar';
is($msg, '');
*foo = undef;
like($msg, qr/Undefined value assigned to typeglob/);
no warnings 'once';
# test warnings for converting globs to other forms
my $copy = *PWOMPF;
foreach ($copy, *SKREEE) {
$msg = '';
my $victim = sprintf "%d", $_;
like($msg, qr/Argument "\*main::[A-Z]{6}" isn't numeric in sprintf/,
"Warning on conversion to IV");
is($victim, 0);
$msg = '';
$victim = sprintf "%u", $_;
like($msg, qr/Argument "\*main::[A-Z]{6}" isn't numeric in sprintf/,
"Warning on conversion to UV");
is($victim, 0);
$msg = '';
$victim = sprintf "%e", $_;
like($msg, qr/Argument "\*main::[A-Z]{6}" isn't numeric in sprintf/,
"Warning on conversion to NV");
like($victim, qr/^0\.0+E\+?00/i, "Expect floating point zero");
$msg = '';
$victim = sprintf "%s", $_;
is($msg, '', "No warning on stringification");
is($victim, '' . $_);
}
}
my $test = curr_test();
# test *glob{THING} syntax
$x = "ok $test\n";
++$test;
@x = ("ok $test\n");
++$test;
%x = ("ok $test" => "\n");
++$test;
sub x { "ok $test\n" }
print ${*x{SCALAR}}, @{*x{ARRAY}}, %{*x{HASH}}, &{*x{CODE}};
# This needs to go here, after the print, as sub x will return the current
# value of test
++$test;
format x =
XXX This text isn't used. Should it be?
.
curr_test($test);
is (ref *x{FORMAT}, "FORMAT");
*x = *STDOUT;
is (*{*x{GLOB}}, "*main::STDOUT");
{
my $test = curr_test();
print {*x{IO}} "ok $test\n";
++$test;
my $warn;
local $SIG{__WARN__} = sub {
$warn .= $_[0];
};
my $val = *x{FILEHANDLE};
print {*x{IO}} ($warn =~ /is deprecated/
? "ok $test\n" : "not ok $test\n");
curr_test(++$test);
}
{
# test if defined() doesn't create any new symbols
my $a = "SYM000";
ok(!defined *{$a});
ok(!defined @{$a});
ok(!defined *{$a});
{
no warnings 'deprecated';
ok(!defined %{$a});
}
ok(!defined *{$a});
ok(!defined ${$a});
ok(!defined *{$a});
ok(!defined &{$a});
ok(!defined *{$a});
my $state = "not";
*{$a} = sub { $state = "ok" };
ok(defined &{$a});
ok(defined *{$a});
&{$a};
is ($state, 'ok');
}
{
# although it *should* if you're talking about magicals
my $a = "]";
ok(defined ${$a});
ok(defined *{$a});
$a = "1";
"o" =~ /(o)/;
ok(${$a});
ok(defined *{$a});
$a = "2";
ok(!${$a});
ok(defined *{$a});
$a = "1x";
ok(!defined ${$a});
ok(!defined *{$a});
$a = "11";
"o" =~ /(((((((((((o)))))))))))/;
ok(${$a});
ok(defined *{$a});
}
# [ID 20010526.001] localized glob loses value when assigned to
$j=1; %j=(a=>1); @j=(1); local *j=*j; *j = sub{};
is($j, 1);
is($j{a}, 1);
is($j[0], 1);
{
# does pp_readline() handle glob-ness correctly?
my $g = *foo;
$g = <DATA>;
is ($g, "Perl\n");
}
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
sub abc1 ();
local *abc1 = sub { };
is ($w, '');
sub abc2 ();
local *abc2;
*abc2 = sub { };
is ($w, '');
sub abc3 ();
*abc3 = sub { };
like ($w, qr/Prototype mismatch/);
}
{
# [17375] rcatline to formerly-defined undef was broken. Fixed in
# do_readline by checking SvOK. AMS, 20020918
my $x = "not ";
$x = undef;
$x .= <DATA>;
is ($x, "Rules\n");
}
{
# test the assignment of a GLOB to an LVALUE
my $e = '';
local $SIG{__DIE__} = sub { $e = $_[0] };
my $v;
sub f { $_[0] = 0; $_[0] = "a"; $_[0] = *DATA }
f($v);
is ($v, '*main::DATA');
my $x = <$v>;
is ($x, "perl\n");
}
{
$e = '';
# GLOB assignment to tied element
local $SIG{__DIE__} = sub { $e = $_[0] };
sub T::TIEARRAY { bless [] => "T" }
sub T::STORE { $_[0]->[ $_[1] ] = $_[2] }
sub T::FETCH { $_[0]->[ $_[1] ] }
sub T::FETCHSIZE { @{$_[0]} }
tie my @ary => "T";
$ary[0] = *DATA;
is ($ary[0], '*main::DATA');
is ($e, '');
my $x = readline $ary[0];
is($x, "rocks\n");
}
{
# Need some sort of die or warn to get the global destruction text if the
# bug is still present
my $output = runperl(prog => <<'EOPROG');
package M;
$| = 1;
sub DESTROY {eval {die qq{Farewell $_[0]}}; print $@}
package main;
bless \$A::B, 'M';
*A:: = \*B::;
EOPROG
like($output, qr/^Farewell M=SCALAR/, "DESTROY was called");
unlike($output, qr/global destruction/,
"unreferenced symbol tables should be cleaned up immediately");
}
# Possibly not the correct test file for these tests.
# There are certain space optimisations implemented via promotion rules to
# GVs
foreach (qw (oonk ga_shloip)) {
ok(!exists $::{$_}, "no symbols of any sort to start with for $_");
}
# A string in place of the typeglob is promoted to the function prototype
$::{oonk} = "pie";
my $proto = eval 'prototype \&oonk';
die if $@;
is ($proto, "pie", "String is promoted to prototype");
# A reference to a value is used to generate a constant subroutine
foreach my $value (3, "Perl rules", \42, qr/whatever/, [1,2,3], {1=>2},
\*STDIN, \&ok, \undef, *STDOUT) {
delete $::{oonk};
$::{oonk} = \$value;
$proto = eval 'prototype \&oonk';
die if $@;
is ($proto, '', "Prototype for a constant subroutine is empty");
my $got = eval 'oonk';
die if $@;
is (ref $got, ref $value, "Correct type of value (" . ref($value) . ")");
is ($got, $value, "Value is correctly set");
}
delete $::{oonk};
$::{oonk} = \"Value";
*{"ga_shloip"} = \&{"oonk"};
is (ref $::{ga_shloip}, 'SCALAR', "Export of proxy constant as is");
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'ga_shloip', "Value", "Constant has correct value");
is (ref $::{ga_shloip}, 'SCALAR',
"Inlining of constant doesn't change represenatation");
delete $::{ga_shloip};
eval 'sub ga_shloip (); 1' or die $@;
is ($::{ga_shloip}, '', "Prototype is stored as an empty string");
# Check that a prototype expands.
*{"ga_shloip"} = \&{"oonk"};
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'ga_shloip', "Value", "Constant has correct value");
is (ref \$::{ga_shloip}, 'GLOB', "Symbol table has full typeglob");
@::zwot = ('Zwot!');
# Check that assignment to an existing typeglob works
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
*{"zwot"} = \&{"oonk"};
is($w, '', "Should be no warning");
}
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'zwot', "Value", "Constant has correct value");
is (ref \$::{zwot}, 'GLOB', "Symbol table has full typeglob");
is (join ('!', @::zwot), 'Zwot!', "Existing array still in typeglob");
sub spritsits () {
"Traditional";
}
# Check that assignment to an existing subroutine works
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
*{"spritsits"} = \&{"oonk"};
like($w, qr/^Constant subroutine main::spritsits redefined/,
"Redefining a constant sub should warn");
}
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'spritsits', "Value", "Constant has correct value");
is (ref \$::{spritsits}, 'GLOB', "Symbol table has full typeglob");
# Check that assignment to an existing typeglob works
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
*{"plunk"} = [];
*{"plunk"} = \&{"oonk"};
is($w, '', "Should be no warning");
}
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'plunk', "Value", "Constant has correct value");
is (ref \$::{plunk}, 'GLOB', "Symbol table has full typeglob");
my $gr = eval '\*plunk' or die;
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
*{$gr} = \&{"oonk"};
is($w, '', "Redefining a constant sub to another constant sub with the same underlying value should not warn (It's just re-exporting, and that was always legal)");
}
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'plunk', "Value", "Constant has correct value");
is (ref \$::{plunk}, 'GLOB', "Symbol table has full typeglob");
# Non-void context should defeat the optimisation, and will cause the original
# to be promoted (what change 26482 intended)
my $result;
{
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
$result = *{"awkkkkkk"} = \&{"oonk"};
is($w, '', "Should be no warning");
}
is (ref \$result, 'GLOB',
"Non void assignment should still return a typeglob");
is (ref \$::{oonk}, 'GLOB', "This export does affect original");
is (eval 'plunk', "Value", "Constant has correct value");
is (ref \$::{plunk}, 'GLOB', "Symbol table has full typeglob");
delete $::{oonk};
$::{oonk} = \"Value";
sub non_dangling {
my $w = '';
local $SIG{__WARN__} = sub { $w = $_[0] };
*{"zap"} = \&{"oonk"};
is($w, '', "Should be no warning");
}
non_dangling();
is (ref $::{oonk}, 'SCALAR', "Export doesn't affect original");
is (eval 'zap', "Value", "Constant has correct value");
is (ref $::{zap}, 'SCALAR', "Exported target is also a PCS");
sub dangling {
local $SIG{__WARN__} = sub { die $_[0] };
*{"biff"} = \&{"oonk"};
}
dangling();
is (ref \$::{oonk}, 'GLOB', "This export does affect original");
is (eval 'biff', "Value", "Constant has correct value");
is (ref \$::{biff}, 'GLOB', "Symbol table has full typeglob");
{
use vars qw($glook $smek $foof);
# Check reference assignment isn't affected by the SV type (bug #38439)
$glook = 3;
$smek = 4;
$foof = "halt and cool down";
my $rv = \*smek;
is($glook, 3);
*glook = $rv;
is($glook, 4);
my $pv = "";
$pv = \*smek;
is($foof, "halt and cool down");
*foof = $pv;
is($foof, 4);
}
format =
.
foreach my $value ([1,2,3], {1=>2}, *STDOUT{IO}, \&ok, *STDOUT{FORMAT}) {
# *STDOUT{IO} returns a reference to a PVIO. As it's blessed, ref returns
# IO::Handle, which isn't what we want.
my $type = $value;
$type =~ s/.*=//;
$type =~ s/\(.*//;
delete $::{oonk};
$::{oonk} = $value;
$proto = eval 'prototype \&oonk';
like ($@, qr/^Cannot convert a reference to $type to typeglob/,
"Cannot upgrade ref-to-$type to typeglob");
}
{
no warnings qw(once uninitialized);
my $g = \*clatter;
my $r = eval {no strict; ${*{$g}{SCALAR}}};
is ($@, '', "PERL_DONT_CREATE_GVSV shouldn't affect thingy syntax");
$g = \*vowm;
$r = eval {use strict; ${*{$g}{SCALAR}}};
is ($@, '',
"PERL_DONT_CREATE_GVSV shouldn't affect thingy syntax under strict");
}
{
# Bug reported by broquaint on IRC
*slosh::{HASH}->{ISA}=[];
slosh->import;
pass("gv_fetchmeth coped with the unexpected");
# An audit found these:
{
package slosh;
sub rip {
my $s = shift;
$s->SUPER::rip;
}
}
eval {slosh->rip;};
like ($@, qr/^Can't locate object method "rip"/, "Even with SUPER");
is(slosh->isa('swoosh'), '');
$CORE::GLOBAL::{"lock"}=[];
eval "no warnings; lock";
like($@, qr/^Not enough arguments for lock/,
"Can't trip up general keyword overloading");
$CORE::GLOBAL::{"readline"}=[];
eval "<STDOUT> if 0";
is($@, '', "Can't trip up readline overloading");
$CORE::GLOBAL::{"readpipe"}=[];
eval "`` if 0";
is($@, '', "Can't trip up readpipe overloading");
}
{
die if exists $::{BONK};
$::{BONK} = \"powie";
*{"BONK"} = \&{"BONK"};
eval 'is(BONK(), "powie",
"Assigment works when glob created midway (bug 45607)"); 1'
or die $@;
}
# For now these tests are here, but they would probably be better in a file for
# tests for croaks. (And in turn, that probably deserves to be in a different
# directory. Gerard Goossen has a point about the layout being unclear
sub coerce_integer {
no warnings 'numeric';
$_[0] |= 0;
}
sub coerce_number {
no warnings 'numeric';
$_[0] += 0;
}
sub coerce_string {
$_[0] .= '';
}
foreach my $type (qw(integer number string)) {
my $prog = "coerce_$type(*STDERR)";
is (scalar eval "$prog; 1", undef, "$prog failed...");
like ($@, qr/Can't coerce GLOB to $type in/,
"with the correct error message");
}
# RT #60954 anonymous glob should be defined, and not coredump when
# stringified. The behaviours are:
#
# defined($glob) "$glob"
# 5.8.8 false "" with uninit warning
# 5.10.0 true (coredump)
# 5.12.0 true ""
{
my $io_ref = *STDOUT{IO};
my $glob = *$io_ref;
ok(defined $glob, "RT #60954 anon glob should be defined");
my $warn = '';
local $SIG{__WARN__} = sub { $warn = $_[0] };
use warnings;
my $str = "$glob";
is($warn, '', "RT #60954 anon glob stringification shouln't warn");
is($str, '', "RT #60954 anon glob stringification should be empty");
}
# [perl #71254] - Assigning a glob to a variable that has a current
# match position. (We are testing that Perl_magic_setmglob respects globs'
# special used of SvSCREAM.)
{
$m = 2; $m=~s/./0/gems; $m= *STDERR;
is(
"$m", "*main::STDERR",
'[perl #71254] assignment of globs to vars with pos'
);
}
# [perl #72740] - indirect object syntax, heuristically imputed due to
# the non-existence of a function, should not cause a stash entry to be
# created for the non-existent function.
{
package RT72740a;
my $f = bless({}, RT72740b);
sub s1 { s2 $f; }
our $s4;
sub s3 { s4 $f; }
}
{
package RT72740b;
sub s2 { "RT72740b::s2" }
sub s4 { "RT72740b::s4" }
}
ok(exists($RT72740a::{s1}), "RT72740a::s1 exists");
ok(!exists($RT72740a::{s2}), "RT72740a::s2 does not exist");
ok(exists($RT72740a::{s3}), "RT72740a::s3 exists");
ok(exists($RT72740a::{s4}), "RT72740a::s4 exists");
is(RT72740a::s1(), "RT72740b::s2", "RT72740::s1 parsed correctly");
is(RT72740a::s3(), "RT72740b::s4", "RT72740::s3 parsed correctly");
# [perl #71686] Globs that are in symbol table can be un-globbed
$sym = undef;
$::{fake} = *sym;
is (eval 'local *::fake = \"chuck"; $fake', 'chuck',
"Localized glob didn't coerce into a RV");
is ($@, '', "Can localize FAKE glob that's present in stash");
is (scalar $::{fake}, "*main::sym",
"Localized FAKE glob's value was correctly restored");
__END__
Perl
Rules
perl
rocks