#!./perl
BEGIN {
chdir 't';
@INC = '../lib';
require './test.pl';
}
plan tests => 30;
# [perl #19566]: sv_gets writes directly to its argument via
# TARG. Test that we respect SvREADONLY.
eval { for (\2) { $_ = <FH> } };
like($@, 'Modification of a read-only value attempted', '[perl #19566]');
# [perl #21628]
{
my $file = tempfile();
open A,'+>',$file; $a = 3;
is($a .= <A>, 3, '#21628 - $a .= <A> , A eof');
close A; $a = 4;
is($a .= <A>, 4, '#21628 - $a .= <A> , A closed');
}
# [perl #21614]: 82 is chosen to exceed the length for sv_grow in
# do_readline (80)
foreach my $k (1, 82) {
my $result
= runperl (stdin => '', stderr => 1,
prog => "\$x = q(k) x $k; \$a{\$x} = qw(v); \$_ = <> foreach keys %a; print qw(end)",
);
$result =~ s/\n\z// if $^O eq 'VMS';
is ($result, "end", '[perl #21614] for length ' . length('k' x $k));
}
foreach my $k (1, 21) {
my $result
= runperl (stdin => ' rules', stderr => 1,
prog => "\$x = q(perl) x $k; \$a{\$x} = q(v); foreach (keys %a) {\$_ .= <>; print}",
);
$result =~ s/\n\z// if $^O eq 'VMS';
is ($result, ('perl' x $k) . " rules", 'rcatline to shared sv for length ' . length('perl' x $k));
}
foreach my $l (1, 82) {
my $k = $l;
$k = 'k' x $k;
my $copy = $k;
$k = <DATA>;
is ($k, "moo\n", 'catline to COW sv for length ' . length $copy);
}
foreach my $l (1, 21) {
my $k = $l;
$k = 'perl' x $k;
my $perl = $k;
$k .= <DATA>;
is ($k, "$perl rules\n", 'rcatline to COW sv for length ' . length $perl);
}
use strict;
open F, '.' and sysread F, $_, 1;
my $err = $! + 0;
close F;
SKIP: {
skip "you can read directories as plain files", 2 unless( $err );
$!=0;
open F, '.' and $_=<F>;
ok( $!==$err && !defined($_) => 'readline( DIRECTORY )' );
close F;
$!=0;
{ local $/;
open F, '.' and $_=<F>;
ok( $!==$err && !defined($_) => 'readline( DIRECTORY ) slurp mode' );
close F;
}
}
fresh_perl_is('BEGIN{<>}', '',
{ switches => ['-w'], stdin => '', stderr => 1 },
'No ARGVOUT used only once warning');
fresh_perl_is('print readline', 'foo',
{ switches => ['-w'], stdin => 'foo', stderr => 1 },
'readline() defaults to *ARGV');
# [perl #72720] Test that sv_gets clears any variables that should be
# empty so if the read() aborts with EINTER, the TARG is actually
# cleared.
sub test_eintr_readline {
my ( $fh, $timeout ) = @_;
# This variable, the TARG for the readline is the core of this
# test. The test is to see that after a my() and a failure in
# readline() has the variable revived old, "dead" values from the
# past or is it still undef like expected.
my $line;
# Do a readline into $line.
if ( $timeout ) {
# Do a SIGALARM aborted readline(). The underlying sv_gets()
# from sv.c will use the syscall read() while will exit early
# and return something like EINTR or ERESTARTSYS.
my $timed_out;
my $errno;
eval {
local $SIG{ALRM} = sub {
$timed_out = 1;
die 'abort this timeout';
};
alarm $timeout;
undef $!;
$line = readline $fh;
$errno = $!;
alarm 0;
};
# The code should have timed out.
if ( ! $timed_out ) {
warn $@
? "$@: $errno\n"
: "Interrupted readline() test couldn't get interrupted: $errno";
}
}
else {
$line = readline $fh;
}
return $line;
}
SKIP: {
# Connect two handles together.
my ( $in, $out );
my $piped;
eval {
pipe $in, $out;
$piped = 1;
};
if ( ! $piped ) {
skip( 2, 'The pipe function is unimplemented' );
}
# Make the pipe autoflushing
{
my $old_fh = select $out;
$| = 1;
select $old_fh;
}
# Only one line is loaded into the pipe. It's written unbuffered
# so I'm confident it'll not be buffered.
syswrite $out, "once\n";
# Buggy perls will return the last thing successfully
# returned. Buggy perls will return "once\n" a second (and
# "infinitely" if we desired) as long as the internal read()
# syscall fails. In our case, it fails because the inner my($line)
# retains all its allocated space and buggy perl sets SvPOK to
# make the value valid but before it starts read().
my $once = test_eintr_readline( $in, 0 );
is( $once, "once\n", "readline read first line ok" );
my $twice;
TODO: {
todo_skip( 'alarm() on Windows does not interrupt system calls' ) if $^O eq 'MSWin32';
todo_skip( 'readline not interrupted by alarm on VMS -- why?' ) if $^O eq 'VMS';
$twice = test_eintr_readline( $in, 1 );
isnt( $twice, "once\n", "readline didn't re-return things when interrupted" );
}
TODO: {
todo_skip( 'alarm() on Windows does not interrupt system calls' ) if $^O eq 'MSWin32';
todo_skip( 'readline not interrupted by alarm on VMS -- why?' ) if $^O eq 'VMS';
local our $TODO = "bad readline returns '', not undef";
is( $twice, undef, "readline returned undef when interrupted" );
}
}
{
my $line = 'ascii';
my ( $in, $out );
pipe $in, $out;
binmode $in;
binmode $out;
syswrite $out, "...\n";
$line .= readline $in;
is( $line, "ascii...\n", 'Appending from ascii to ascii' );
}
{
my $line = "\x{2080} utf8";
my ( $in, $out );
pipe $in, $out;
binmode $out;
binmode $in;
syswrite $out, "...\n";
$line .= readline $in;
is( $line, "\x{2080} utf8...\n", 'Appending from ascii to utf8' );
}
{
my $line = 'ascii';
my ( $in, $out );
pipe $in, $out;
binmode $out, ':utf8';
binmode $in, ':utf8';
syswrite $out, "...\n";
$line .= readline $in;
is( $line, "ascii...\n", 'Appending from utf8 to ascii' );
}
{
my $line = "\x{2080} utf8";;
my ( $in, $out );
pipe $in, $out;
binmode $out, ':utf8';
binmode $in, ':utf8';
syswrite $out, "\x{2080}...\n";
$line .= readline $in;
is( $line, "\x{2080} utf8\x{2080}...\n", 'appending from utf to utf8' );
}
my $obj = bless [];
$obj .= <DATA>;
like($obj, qr/main=ARRAY.*world/, 'rcatline and refs');
# bug #38631
require Tie::Scalar;
tie our $one, 'Tie::StdScalar', "A: ";
tie our $two, 'Tie::StdScalar', "B: ";
my $junk = $one;
$one .= <DATA>;
$two .= <DATA>;
is( $one, "A: One\n", "rcatline works with tied scalars" );
is( $two, "B: Two\n", "rcatline works with tied scalars" );
# mentioned in bug #97482
# <$foo> versus readline($foo) should not affect vivification.
my $yunk = "brumbo";
if (exists $::{$yunk}) {
die "Name $yunk already used. Please adjust this test."
}
<$yunk>;
ok !defined *$yunk, '<> does not autovivify';
readline($yunk);
ok !defined *$yunk, "readline does not autovivify";
# [perl #97988] PL_last_in_gv could end up pointing to junk.
# Now glob copies set PL_last_in_gv to null when unglobbed.
open *foom,'test.pl';
my %f;
$f{g} = *foom;
readline $f{g};
$f{g} = 3; # PL_last_in_gv should be cleared now
is tell, -1, 'tell returns -1 after last gv is unglobbed';
$f{g} = *foom; # since PL_last_in_gv is null, this should have no effect
is tell, -1, 'unglobbery of last gv nullifies PL_last_in_gv';
readline *{$f{g}};
is tell, tell *foom, 'readline *$glob_copy sets PL_last_in_gv';
__DATA__
moo
moo
rules
rules
world
One
Two