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|
#!./perl
#
# This is a home for regular expression tests that don't fit into
# the format supported by re/regexp.t. If you want to add a test
# that does fit that format, add it to re/re_tests, not here.
use strict;
use warnings;
use Config;
use 5.010;
sub run_tests;
$| = 1;
BEGIN {
chdir 't' if -d 't';
@INC = ('../lib','.');
require './test.pl';
}
plan tests => 527; # Update this when adding/deleting tests.
run_tests() unless caller;
# test that runtime code without 'use re eval' is trapped
sub norun {
like($@, qr/Eval-group not allowed at runtime/, @_);
}
#
# Tests start here.
#
sub run_tests {
{
my $message = "Call code from qr //";
local $_ = 'var="foo"';
$a = qr/(?{++$b})/;
$b = 7;
ok(/$a$a/ && $b eq '9', $message);
my $c="$a";
ok(/$a$a/ && $b eq '11', $message);
undef $@;
eval {/$c/};
norun("$message norun 1");
{
eval {/$a$c$a/};
norun("$message norun 2");
use re "eval";
/$a$c$a/;
is($b, '14', $message);
}
our $lex_a = 43;
our $lex_b = 17;
our $lex_c = 27;
my $lex_res = ($lex_b =~ qr/$lex_b(?{ $lex_c = $lex_a++ })/);
is($lex_res, 1, $message);
is($lex_a, 44, $message);
is($lex_c, 43, $message);
undef $@;
my $d = '(?{1})';
my $match = eval { /$a$c$a$d/ };
ok($@ && $@ =~ /Eval-group not allowed/ && !$match, $message);
is($b, '14', $message);
$lex_a = 2;
$lex_a = 43;
$lex_b = 17;
$lex_c = 27;
$lex_res = ($lex_b =~ qr/17(?{ $lex_c = $lex_a++ })/);
is($lex_res, 1, $message);
is($lex_a, 44, $message);
is($lex_c, 43, $message);
}
{
our $a = bless qr /foo/ => 'Foo';
ok 'goodfood' =~ $a, "Reblessed qr // matches";
is($a, '(?^:foo)', "Reblessed qr // stringifies");
my $x = "\x{3fe}";
my $z = my $y = "\317\276"; # Byte representation of $x
$a = qr /$x/;
ok $x =~ $a, "UTF-8 interpolation in qr //";
ok "a$a" =~ $x, "Stringified qr // preserves UTF-8";
ok "a$x" =~ /^a$a\z/, "Interpolated qr // preserves UTF-8";
ok "a$x" =~ /^a(??{$a})\z/,
"Postponed interpolation of qr // preserves UTF-8";
is(length qr /##/x, 9, "## in qr // doesn't corrupt memory; Bug 17776");
{
ok "$x$x" =~ /^$x(??{$x})\z/,
"Postponed UTF-8 string in UTF-8 re matches UTF-8";
ok "$y$x" =~ /^$y(??{$x})\z/,
"Postponed UTF-8 string in non-UTF-8 re matches UTF-8";
ok "$y$x" !~ /^$y(??{$y})\z/,
"Postponed non-UTF-8 string in non-UTF-8 re doesn't match UTF-8";
ok "$x$x" !~ /^$x(??{$y})\z/,
"Postponed non-UTF-8 string in UTF-8 re doesn't match UTF-8";
ok "$y$y" =~ /^$y(??{$y})\z/,
"Postponed non-UTF-8 string in non-UTF-8 re matches non-UTF8";
ok "$x$y" =~ /^$x(??{$y})\z/,
"Postponed non-UTF-8 string in UTF-8 re matches non-UTF8";
$y = $z; # Reset $y after upgrade.
ok "$x$y" !~ /^$x(??{$x})\z/,
"Postponed UTF-8 string in UTF-8 re doesn't match non-UTF-8";
ok "$y$y" !~ /^$y(??{$x})\z/,
"Postponed UTF-8 string in non-UTF-8 re doesn't match non-UTF-8";
}
}
{
# Test if $^N and $+ work in (?{})
our @ctl_n = ();
our @plus = ();
our $nested_tags;
$nested_tags = qr{
<
((\w)+)
(?{
push @ctl_n, (defined $^N ? $^N : "undef");
push @plus, (defined $+ ? $+ : "undef");
})
>
(??{$nested_tags})*
</\s* \w+ \s*>
}x;
my $c = 0;
for my $test (
# Test structure:
# [ Expected result, Regex, Expected value(s) of $^N, Expected value(s) of $+ ]
[ 1, qr#^$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^($nested_tags)$#, "bla blubb <bla><blubb></blubb></bla>", "a b a" ],
[ 1, qr#^(|)$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^(?:|)$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^<(bl|bla)>$nested_tags<(/\1)>$#, "blubb /bla", "b /bla" ],
[ 1, qr#(??{"(|)"})$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^(??{"(bla|)"})$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^(??{"(|)"})(??{$nested_tags})$#, "bla blubb undef", "a b undef" ],
[ 1, qr#^(??{"(?:|)"})$nested_tags$#, "bla blubb bla", "a b a" ],
[ 1, qr#^((??{"(?:bla|)"}))((??{$nested_tags}))$#, "bla blubb <bla><blubb></blubb></bla>", "a b <bla><blubb></blubb></bla>" ],
[ 1, qr#^((??{"(?!)?"}))((??{$nested_tags}))$#, "bla blubb <bla><blubb></blubb></bla>", "a b <bla><blubb></blubb></bla>" ],
[ 1, qr#^((??{"(?:|<(/?bla)>)"}))((??{$nested_tags}))\1$#, "bla blubb <bla><blubb></blubb></bla>", "a b <bla><blubb></blubb></bla>" ],
[ 0, qr#^((??{"(?!)"}))?((??{$nested_tags}))(?!)$#, "bla blubb undef", "a b undef" ],
) { #"#silence vim highlighting
$c++;
@ctl_n = ();
@plus = ();
my $match = (("<bla><blubb></blubb></bla>" =~ $test->[1]) ? 1 : 0);
push @ctl_n, (defined $^N ? $^N : "undef");
push @plus, (defined $+ ? $+ : "undef");
ok($test->[0] == $match, "match $c");
if ($test->[0] != $match) {
# unset @ctl_n and @plus
@ctl_n = @plus = ();
}
is("@ctl_n", $test->[2], "ctl_n $c");
is("@plus", $test->[3], "plus $c");
}
}
{
our $f;
local $f;
$f = sub {
defined $_[0] ? $_[0] : "undef";
};
like("123", qr/^(\d)(((??{1 + $^N})))+$/, 'Bug 56194');
our @ctl_n;
our @plus;
my $re = qr#(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))*(?{$^N})#;
my $re2 = qr#(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))*(?{$^N})(|a(b)c|def)(??{"$^R"})#;
my $re3 = qr#(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1})){2}(?{$^N})(|a(b)c|def)(??{"$^R"})#;
our $re5;
local $re5 = qr#(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1})){2}(?{$^N})#;
my $re6 = qr#(??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1})#;
my $re7 = qr#(??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1})#;
my $re8 = qr/(\d+)/;
my $c = 0;
for my $test (
# Test structure:
# [
# String to match
# Regex too match
# Expected values of $^N
# Expected values of $+
# Expected values of $1, $2, $3, $4 and $5
# ]
[
"1233",
qr#^(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))+(??{$^N})$#,
"1 2 3 3",
"1 2 3 3",
"\$1 = 1, \$2 = 3, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"1233",
qr#^(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))+(abc|def|)?(??{$+})$#,
"1 2 3 3",
"1 2 3 3",
"\$1 = 1, \$2 = 3, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"1233",
qr#^(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))+(|abc|def)?(??{$+})$#,
"1 2 3 3",
"1 2 3 3",
"\$1 = 1, \$2 = 3, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"1233",
qr#^(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))+(abc|def|)?(??{$^N})$#,
"1 2 3 3",
"1 2 3 3",
"\$1 = 1, \$2 = 3, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"1233",
qr#^(1)((??{ push @ctl_n, $f->($^N); push @plus, $f->($+); $^N + 1}))+(|abc|def)?(??{$^N})$#,
"1 2 3 3",
"1 2 3 3",
"\$1 = 1, \$2 = 3, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"123abc3",
qr#^($re)(|a(b)c|def)(??{$^R})$#,
"1 2 3 abc",
"1 2 3 b",
"\$1 = 123, \$2 = 1, \$3 = 3, \$4 = abc, \$5 = b",
],
[
"123abc3",
qr#^($re2)$#,
"1 2 3 123abc3",
"1 2 3 b",
"\$1 = 123abc3, \$2 = 1, \$3 = 3, \$4 = abc, \$5 = b",
],
[
"123abc3",
qr#^($re3)$#,
"1 2 123abc3",
"1 2 b",
"\$1 = 123abc3, \$2 = 1, \$3 = 3, \$4 = abc, \$5 = b",
],
[
"123abc3",
qr#^(??{$re5})(|abc|def)(??{"$^R"})$#,
"1 2 abc",
"1 2 abc",
"\$1 = abc, \$2 = undef, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"123abc3",
qr#^(??{$re5})(|a(b)c|def)(??{"$^R"})$#,
"1 2 abc",
"1 2 b",
"\$1 = abc, \$2 = b, \$3 = undef, \$4 = undef, \$5 = undef",
],
[
"1234",
qr#^((\d+)((??{push @ctl_n, $f->($^N); push @plus, $f->($+);$^N + 1}))((??{push @ctl_n, $f->($^N); push @plus, $f->($+);$^N + 1}))((??{push @ctl_n, $f->($^N); push @plus, $f->($+);$^N + 1})))$#,
"1234 123 12 1 2 3 1234",
"1234 123 12 1 2 3 4",
"\$1 = 1234, \$2 = 1, \$3 = 2, \$4 = 3, \$5 = 4",
],
[
"1234556",
qr#^(\d+)($re6)($re6)($re6)$re6(($re6)$re6)$#,
"1234556 123455 12345 1234 123 12 1 2 3 4 4 5 56",
"1234556 123455 12345 1234 123 12 1 2 3 4 4 5 5",
"\$1 = 1, \$2 = 2, \$3 = 3, \$4 = 4, \$5 = 56",
],
[
"12345562",
qr#^((??{$re8}))($re7)($re7)($re7)$re7($re7)($re7(\2))$#,
"12345562 1234556 123455 12345 1234 123 12 1 2 3 4 4 5 62",
"12345562 1234556 123455 12345 1234 123 12 1 2 3 4 4 5 2",
"\$1 = 1, \$2 = 2, \$3 = 3, \$4 = 4, \$5 = 5",
],
) {
$c++;
@ctl_n = ();
@plus = ();
undef $^R;
my $match = $test->[0] =~ $test->[1];
my $str = join(", ", '$1 = '.$f->($1), '$2 = '.$f->($2), '$3 = '.$f->($3), '$4 = '.$f->($4),'$5 = '.$f->($5));
push @ctl_n, $f->($^N);
push @plus, $f->($+);
ok($match, "match $c; Bug 56194");
if (not $match) {
# unset $str, @ctl_n and @plus
$str = "";
@ctl_n = @plus = ();
}
is("@ctl_n", $test->[2], "ctl_n $c; Bug 56194");
is("@plus", $test->[3], "plus $c; Bug 56194");
is($str, $test->[4], "str $c; Bug 56194");
}
{
@ctl_n = ();
@plus = ();
our $re4;
local $re4 = qr#(1)((??{push @ctl_n, $f->($^N); push @plus, $f->($+);$^N + 1})){2}(?{$^N})(|abc|def)(??{"$^R"})#;
undef $^R;
my $match = "123abc3" =~ m/^(??{$re4})$/;
my $str = join(", ", '$1 = '.$f->($1), '$2 = '.$f->($2), '$3 = '.$f->($3), '$4 = '.$f->($4),'$5 = '.$f->($5),'$^R = '.$f->($^R));
push @ctl_n, $f->($^N);
push @plus, $f->($+);
ok($match, 'Bug 56194');
if (not $match) {
# unset $str
@ctl_n = ();
@plus = ();
$str = "";
}
is("@ctl_n", "1 2 undef", 'Bug 56194');
is("@plus", "1 2 undef", 'Bug 56194');
is($str,
"\$1 = undef, \$2 = undef, \$3 = undef, \$4 = undef, \$5 = undef, \$^R = 3",
'Bug 56194 ($^R tweaked by 121070)');
}
{
undef $^R;
"abcd"=~/(?<Char>.)(?&Char)(?{ 42 })/;
is("$^R", 42, 'Bug 121070 - use of (?&Char) should not clobber $^R');
"abcd"=~/(?<Char>.)(?&Char)(?{ 42 })(?{ 43 })/;
is("$^R", 43, 'related to 121070 - use of (?&Char) should not clobber $^R');
}
}
{
# re evals within \U, \Q etc shouldn't be seen by the lexer
local our $a = "i";
local our $B = "J";
ok('(?{1})' =~ /^\Q(?{1})\E$/, '\Q(?{1})\E');
ok('(?{1})' =~ /^\Q(?{\E1\}\)$/, '\Q(?{\E1\}\)');
eval {/^\U(??{"$a\Ea"})$/ }; norun('^\U(??{"$a\Ea"})$ norun');
eval {/^\L(??{"$B\Ea"})$/ }; norun('^\L(??{"$B\Ea"})$ norun');
use re 'eval';
ok('Ia' =~ /^\U(??{"$a\Ea"})$/, '^\U(??{"$a\Ea"})$');
ok('ja' =~ /^\L(??{"$B\Ea"})$/, '^\L(??{"$B\Ea"})$');
}
{
# Comprehensive (hopefully) tests of closure behaviour:
# i.e. when do (?{}) blocks get (re)compiled, and what instances
# of lexical vars do they close over?
# if the pattern string gets utf8 upgraded while concatenating,
# make sure a literal code block is still detected (by still
# compiling in the absence of use re 'eval')
{
my $s1 = "\x{80}";
my $s2 = "\x{100}";
ok("\x{80}\x{100}" =~ /^$s1(?{1})$s2$/, "utf8 upgrade");
}
my ($cr1, $cr2, $cr3, $cr4);
for my $x (qw(a b c)) {
my $bc = ($x ne 'a');
my $c80 = chr(0x80);
# the most basic: literal code should be in same scope
# as the parent
ok("A$x" =~ /^A(??{$x})$/, "[$x] literal code");
ok("\x{100}$x" =~ /^\x{100}(??{$x})$/, "[$x] literal code UTF8");
# the "don't recompile if pattern unchanged" mechanism
# shouldn't apply to code blocks - recompile every time
# to pick up new instances of variables
my $code1 = 'B(??{$x})';
my $code1u = $c80 . "\x{100}" . '(??{$x})';
eval {/^A$code1$/};
norun("[$x] unvarying runtime code AA norun");
eval {/^A$code1u$/};
norun("[$x] unvarying runtime code AU norun");
eval {/^$c80\x{100}$code1$/};
norun("[$x] unvarying runtime code UA norun");
eval {/^$c80\x{101}$code1u$/};
norun("[$x] unvarying runtime code UU norun");
{
use re 'eval';
ok("AB$x" =~ /^A$code1$/, "[$x] unvarying runtime code AA");
ok("A$c80\x{100}$x" =~ /^A$code1u$/,
"[$x] unvarying runtime code AU");
ok("$c80\x{100}B$x" =~ /^$c80\x{100}$code1$/,
"[$x] unvarying runtime code UA");
ok("$c80\x{101}$c80\x{100}$x" =~ /^$c80\x{101}$code1u$/,
"[$x] unvarying runtime code UU");
}
# mixed literal and run-time code blocks
my $code2 = 'B(??{$x})';
my $code2u = $c80 . "\x{100}" . '(??{$x})';
eval {/^A(??{$x})-$code2$/};
norun("[$x] literal+runtime AA norun");
eval {/^A(??{$x})-$code2u$/};
norun("[$x] literal+runtime AU norun");
eval {/^$c80\x{100}(??{$x})-$code2$/};
norun("[$x] literal+runtime UA norun");
eval {/^$c80\x{101}(??{$x})-$code2u$/};
norun("[$x] literal+runtime UU norun");
{
use re 'eval';
ok("A$x-B$x" =~ /^A(??{$x})-$code2$/,
"[$x] literal+runtime AA");
ok("A$x-$c80\x{100}$x" =~ /^A(??{$x})-$code2u$/,
"[$x] literal+runtime AU");
ok("$c80\x{100}$x-B$x" =~ /^$c80\x{100}(??{$x})-$code2$/,
"[$x] literal+runtime UA");
ok("$c80\x{101}$x-$c80\x{100}$x"
=~ /^$c80\x{101}(??{$x})-$code2u$/,
"[$x] literal+runtime UU");
}
# literal qr code only created once, naked
$cr1 //= qr/^A(??{$x})$/;
ok("Aa" =~ $cr1, "[$x] literal qr once naked");
# literal qr code only created once, embedded with text
$cr2 //= qr/B(??{$x})$/;
ok("ABa" =~ /^A$cr2/, "[$x] literal qr once embedded text");
# literal qr code only created once, embedded with text + lit code
$cr3 //= qr/C(??{$x})$/;
ok("A$x-BCa" =~ /^A(??{$x})-B$cr3/,
"[$x] literal qr once embedded text + lit code");
# literal qr code only created once, embedded with text + run code
$cr4 //= qr/C(??{$x})$/;
my $code3 = 'A(??{$x})';
eval {/^$code3-B$cr4/};
norun("[$x] literal qr once embedded text + run code norun");
{
use re 'eval';
ok("A$x-BCa" =~ /^$code3-B$cr4/,
"[$x] literal qr once embedded text + run code");
}
# literal qr code, naked
my $r1 = qr/^A(??{$x})$/;
ok("A$x" =~ $r1, "[$x] literal qr naked");
# literal qr code, embedded with text
my $r2 = qr/B(??{$x})$/;
ok("AB$x" =~ /^A$r2/, "[$x] literal qr embedded text");
# literal qr code, embedded with text + lit code
my $r3 = qr/C(??{$x})$/;
ok("A$x-BC$x" =~ /^A(??{$x})-B$r3/,
"[$x] literal qr embedded text + lit code");
# literal qr code, embedded with text + run code
my $r4 = qr/C(??{$x})$/;
my $code4 = '(??{$x})';
eval {/^A$code4-B$r4/};
norun("[$x] literal qr embedded text + run code");
{
use re 'eval';
ok("A$x-BC$x" =~ /^A$code4-B$r4/,
"[$x] literal qr embedded text + run code");
}
# nested qr in different scopes
my $code5 = '(??{$x})';
my $r5 = qr/C(??{$x})/;
my $r6;
eval {qr/$code5-C(??{$x})/}; norun("r6 norun");
{
use re 'eval';
$r6 = qr/$code5-C(??{$x})/;
}
my @rr5;
my @rr6;
for my $y (qw(d e f)) {
my $rr5 = qr/^A(??{"$x$y"})-$r5/;
push @rr5, $rr5;
ok("A$x$y-C$x" =~ $rr5,
"[$x-$y] literal qr + r5");
my $rr6 = qr/^A(??{"$x$y"})-$r6/;
push @rr6, $rr6;
ok("A$x$y-$x-C$x" =~ $rr6,
"[$x-$y] literal qr + r6");
}
for my $i (0,1,2) {
my $y = 'Y';
my $yy = (qw(d e f))[$i];
my $rr5 = $rr5[$i];
ok("A$x$yy-C$x" =~ $rr5, "[$x-$yy] literal qr + r5, outside");
ok("A$x$yy-C$x-D$x" =~ /$rr5-D(??{$x})$/,
"[$x-$yy] literal qr + r5 + lit, outside");
my $rr6 = $rr6[$i];
push @rr6, $rr6;
ok("A$x$yy-$x-C$x" =~ $rr6,
"[$x-$yy] literal qr + r6, outside");
ok("A$x$yy-$x-C$x-D$x" =~ /$rr6-D(??{$x})/,
"[$x-$yy] literal qr + r6 +lit, outside");
}
}
# recursive subs should get lexical from the correct pad depth
sub recurse {
my ($n) = @_;
return if $n > 2;
ok("A$n" =~ /^A(??{$n})$/, "recurse($n)");
recurse($n+1);
}
recurse(0);
# for qr// containing run-time elements but with a compile-time
# code block, make sure the run-time bits are executed in the same
# pad they were compiled in
{
my $a = 'a'; # ensure outer and inner pads don't align
my $b = 'b';
my $c = 'c';
my $d = 'd';
my $r = qr/^$b(??{$c})$d$/;
ok("bcd" =~ $r, "qr with run-time elements and code block");
}
# check that cascaded embedded regexes all see their own lexical
# environment
{
my ($r1, $r2, $r3, $r4);
my ($x1, $x2, $x3, $x4) = (5,6,7,8);
{ my $x1 = 1; $r1 = qr/A(??{$x1})/; }
{ my $x2 = 2; $r2 = qr/$r1(??{$x2})/; }
{ my $x3 = 3; $r3 = qr/$r2(??{$x3})/; }
{ my $x4 = 4; $r4 = qr/$r3(??{$x4})/; }
ok("A1234" =~ /^$r4$/, "cascaded qr");
}
# and again, but in a loop, with no external references
# being maintained to the qr's
{
my $r = 'A';
for my $x (1..4) {
$r = qr/$r(??{$x})/;
}
my $x = 5;
ok("A1234" =~ /^$r$/, "cascaded qr loop");
}
# and again, but compiling the qrs in an eval so there
# aren't even refs to the qrs from any ops
{
my $r = 'A';
for my $x (1..4) {
$r = eval q[ qr/$r(??{$x})/; ];
}
my $x = 5;
ok("A1234" =~ /^$r$/, "cascaded qr loop");
}
# have qrs with either literal code blocks or only embedded
# code blocks, but not both
{
my ($r1, $r2, $r3, $r4);
my ($x1, $x3) = (7,8);
{ my $x1 = 1; $r1 = qr/A(??{$x1})/; }
{ $r2 = qr/${r1}2/; }
{ my $x3 = 3; $r3 = qr/$r2(??{$x3})/; }
{ $r4 = qr/${r3}4/; }
ok("A1234" =~ /^$r4$/, "cascaded qr mix 1");
ok("A12345" =~ /^${r4}5$/, "cascaded qr mix 2");
ok("A1234" =~ qr/^$r4$/ , "cascaded qr mix 3");
ok("A12345" =~ qr/^${r4}5$/, "cascaded qr mix 4");
}
# and make sure things are freed at the right time
{
sub Foo99::DESTROY { $Foo99::d++ }
$Foo99::d = 0;
my $r1;
{
my $x = bless [1], 'Foo99';
$r1 = eval 'qr/(??{$x->[0]})/';
}
my $r2 = eval 'qr/a$r1/';
my $x = 2;
ok(eval '"a1" =~ qr/^$r2$/', "match while in scope");
# make sure PL_reg_curpm isn't holding on to anything
"a" =~ /a(?{1})/;
is($Foo99::d, 0, "before scope exit");
}
::is($Foo99::d, 1, "after scope exit");
# forward declared subs should Do The Right Thing with any anon CVs
# within them (i.e. pad_fixup_inner_anons() should work)
sub forward;
sub forward {
my $x = "a";
my $A = "A";
ok("Aa" =~ qr/^A(??{$x})$/, "forward qr compiletime");
ok("Aa" =~ qr/^$A(??{$x})$/, "forward qr runtime");
}
forward;
}
# test that run-time embedded code, when re-fed into toker,
# does all the right escapes
{
my $enc = eval 'use Encode; find_encoding("ascii")';
my $x = 0;
my $y = 'bad';
# note that most of the strings below are single-quoted, and the
# things within them, like '$y', *aren't* intended to interpolate
my $s1 =
'a\\$y(?# (??{BEGIN{$x=1} "X1"})b(?# \Ux2\E)c\'d\\\\e\\\\Uf\\\\E';
ok(q{a$ybc'd\e\Uf\E} =~ /^$s1$/, "reparse");
is($x, 0, "reparse no BEGIN");
my $s2 = 'g\\$y# (??{{BEGIN{$x=2} "X3"}) \Ux3\E' . "\nh";
ok(q{a$ybc'd\\e\\Uf\\Eg$yh} =~ /^$s1$s2$/x, "reparse /x");
is($x, 0, "reparse /x no BEGIN");
my $b = '\\';
my $q = '\'';
# non-ascii in string as "<0xNNN>"
sub esc_str {
my $s = shift;
$s =~ s{(.)}{
my $c = ord($1);
($c< 32 || $c > 127) ? sprintf("<0x%x>", $c) : $1;
}ge;
$s;
}
sub fmt { sprintf "hairy backslashes %s [%s] =~ /^%s/",
$_[0], esc_str($_[1]), esc_str($_[2]);
}
for my $u (
[ '', '', 'blank ' ],
[ "\x{100}", '\x{100}', 'single' ],
[ "\x{100}", "\x{100}", 'double' ])
{
for my $pair (
[ "$b", "$b$b" ],
[ "$q", "$q" ],
[ "$b$q", "$b$b$b$q" ],
[ "$b$b$q", "$b$b$b$b$q" ],
[ "$b$b$b$q", "$b$b$b$b$b$b$q" ],
[ "$b$b$b$b$q","$b$b$b$b$b$b$b$b$q" ],
) {
my ($s, $r) = @$pair;
$s = "9$s";
my $ss = "$u->[0]$s";
my $c = '9' . $r;
my $cc = "$u->[1]$c";
ok($ss =~ /^$cc/, fmt("plain $u->[2]", $ss, $cc));
no strict;
my $chr41 = "\x41";
$ss = "$u->[0]\t${q}$chr41${b}x42$s";
$nine = $nine = "bad";
for my $use_qr ('', 'qr') {
$c = qq[(??{my \$z='{';]
. qq[$use_qr"$b${b}t$b$q$b${b}x41$b$b$b${b}x42"]
. qq[. \$nine})];
# (??{ qr/str/ }) goes through one less interpolation
# stage than (??{ qq/str/ })
$c =~ s{\\\\}{\\}g if ($use_qr eq 'qr');
$c .= $r;
$cc = "$u->[1]$c";
my $nine = 9;
eval {/^$cc/}; norun(fmt("code norun $u->[2]", $ss, $cc));
{
use re 'eval';
ok($ss =~ /^$cc/, fmt("code $u->[2]", $ss, $cc));
}
{
# Poor man's "use encoding 'ascii'".
# This causes a different code path in S_const_str()
# to be used
local ${^ENCODING} = $enc;
use re 'eval';
ok($ss =~ /^$cc/, fmt("encode $u->[2]", $ss, $cc));
}
}
}
}
my $code1u = "(??{qw(\x{100})})";
eval {/^$code1u$/}; norun("reparse embeded unicode norun");
{
use re 'eval';
ok("\x{100}" =~ /^$code1u$/, "reparse embeded unicode");
}
}
# a non-pattern literal won't get code blocks parsed at compile time;
# but they must get parsed later on if 'use re eval' is in scope
# also check that unbalanced {}'s are parsed ok
{
eval q["a{" =~ '^(??{"a{"})$'];
norun("non-pattern literal code norun");
eval {/^${\'(??{"a{"})'}$/};
norun("runtime code with unbalanced {} norun");
use re 'eval';
ok("a{" =~ '^a(??{"{"})$', "non-pattern literal code");
ok("a{" =~ /^a${\'(??{"{"})'}$/, "runtime code with unbalanced {}");
}
# make sure warnings come from the right place
{
use warnings;
my ($s, $t, $w);
local $SIG{__WARN__} = sub { $w .= "@_" };
$w = ''; $s = 's';
my $r = qr/(?{$t=$s+1})/;
"a" =~ /a$r/;
like($w, qr/pat_re_eval/, "warning main file");
# do it in an eval to get predictable line numbers
eval q[
$r = qr/(?{$t=$s+1})/;
];
$w = ''; $s = 's';
"a" =~ /a$r/;
like($w, qr/ at \(eval \d+\) line 3/, "warning eval A");
$w = ''; $s = 's';
eval q[
use re 'eval';
my $c = '(?{$t=$s+1})';
"a" =~ /a$c/;
1;
];
like($w, qr/ at \(eval \d+\) line 1/, "warning eval B");
}
# jumbo test for:
# * recursion;
# * mixing all the different types of blocks (literal, qr/literal/,
# runtime);
# * backtracking (the Z+ alternation ensures CURLYX and full
# scope popping on backtracking)
{
sub recurse2 {
my ($depth)= @_;
return unless $depth;
my $s1 = '3-LMN';
my $r1 = qr/(??{"$s1-$depth"})/;
my $s2 = '4-PQR';
my $c1 = '(??{"$s2-$depth"})';
use re 'eval';
ok( "<12345-ABC-$depth-123-LMN-$depth-1234-PQR-$depth>"
. "<12345-ABC-$depth-123-LMN-$depth-1234-PQR-$depth>"
=~
/^<(\d|Z+)+(??{"45-ABC-$depth-"})(\d|Z+)+$r1-\d+$c1>
<(\d|Z+)+(??{"45-ABC-$depth-"})(\d|Z+)+$r1-\d+$c1>$/x,
"recurse2($depth)");
recurse2($depth-1);
}
recurse2(5);
}
# nested (??{}) called from various levels of a recursive function
{
sub recurse3 {
my ($n) = @_;
return if $n > 3;
ok("A$n" =~ m{^A(??{ "0123" =~ /((??{$n}))/; $1 })$},
"recurse3($n)");
ok("A$n" !~ m{^A(??{ "0123" =~ /((??{$n}))/; "X" })$},
"recurse3($n) nomatch");
recurse3($n+1);
}
recurse3(0);
}
# nested (??{}) being invoked recursively via a function
{
my $s = '';
our $recurse4;
my @alpha = qw(A B C D E);
$recurse4 = sub {
my ($n) = @_;
$s .= "(n=$n:";
if ($n < 4) {
my $m = ("$alpha[$n]" . substr("0123", 0, $n+1)) =~
m{^([A-Z])
(??{
$s .= "1=$1:";
"$n-0123" =~ m{^(\d)-(((??{$recurse4->($n+1)})))};
$s .= "i1=$1:<=[$2]";
$3; # NB - not stringified
})
$
}x;
$s .= "1a=$1:";
$s .= $m ? 'M' : '!M';
}
my $ret = '.*?' . ($n-1);
$s .= "<=[$ret])";
return $ret;
};
$recurse4->(0);
my $exp = '(n=0:1=A:(n=1:1=B:(n=2:1=C:(n=3:1=D:(n=4:<=[.*?3])'
. 'i1=3:<=[0123]1a=D:M<=[.*?2])i1=2:<=[012]1a=C:M<=[.*?1])'
. 'i1=1:<=[01]1a=B:M<=[.*?0])i1=0:<=[0]1a=A:M<=[.*?-1])';
is($s, $exp, 'recurse4');
}
# single (??{}) being invoked recursively via a function
{
my $s = '';
our $recurse5;
my @alpha = qw(A B C D E);
$recurse5 = sub {
my ($n) = @_;
$s .= "(n=$n:";
if ($n < 4) {
my $m = ("$alpha[$n]" . substr("0123", 0, $n+1)) =~
m{^([A-Z])
((??{
$s .= "1=$1:";
$recurse5->($n+1);
}))
$
}x;
$s .= "1a=$1:2=$2:";
$s .= $m ? 'M' : '!M';
}
my $ret = '.*?' . ($n-1);
$s .= "<=[$ret])";
return $ret;
};
$recurse5->(0);
my $exp = '(n=0:1=A:(n=1:1=B:(n=2:1=C:(n=3:1=D:(n=4:<=[.*?3])'
. '1a=D:2=0123:M<=[.*?2])1a=C:2=012:M<=[.*?1])'
. '1a=B:2=01:M<=[.*?0])1a=A:2=0:M<=[.*?-1])';
is($s, $exp, 'recurse5');
}
# make sure that errors during compiling run-time code get trapped
{
use re 'eval';
my $code = '(?{$x=})';
eval { "a" =~ /^a$code/ };
like($@, qr/syntax error at \(eval \d+\) line \d+/, 'syntax error');
$code = '(?{BEGIN{die})';
eval { "a" =~ /^a$code/ };
like($@,
qr/BEGIN failed--compilation aborted at \(eval \d+\) line \d+/,
'syntax error');
use utf8;
$code = '(?{Foo::$bar})';
eval { "a" =~ /^a$code/ };
like($@, qr/Bad name after Foo:: at \(eval \d+\) line \d+/, 'UTF8 sytax error');
}
# make sure that 'use re eval' is propagated into compiling the
# pattern returned by (??{})
{
use re 'eval';
my $pat = 'B(??{1})C';
my $A = 'A';
# compile-time outer code-block
ok("AB1CD" =~ /^A(??{$pat})D$/, "re eval propagated compile-time");
# run-time outer code-block
ok("AB1CD" =~ /^$A(??{$pat})D$/, "re eval propagated run-time");
}
# returning a ref to something that had set magic but wasn't
# PERL_MAGIC_qr triggered a false positive assertion failure
# The test is not so much concerned with it not matching,
# as with not failing the assertion
{
ok("a" !~ /^(a)(??{ \$1 })/, '(??{ ref })');
}
# make sure the uninit warning from returning an undef var
# sees the right var
{
my ($u1, $u2);
my $warn = '';
local $SIG{__WARN__} = sub { $warn .= $_[0] };
$u1 =~ /(??{$u2})/ or die;
like($warn, qr/value \$u1 in pattern match.*\n.*value at/, 'uninit');
}
# test that code blocks are called in scalar context
{
my @a = (0);
ok("" =~ /^(?{@a})$/, '(?{}) in scalar context');
is($^R, 1, '(?{}) in scalar context: $^R');
ok("1" =~ /^(??{@a})$/, '(??{}) in scalar context');
ok("foo" =~ /^(?(?{@a})foo|bar)$/, '(?(?{})|) in scalar context');
}
# BEGIN in compiled blocks shouldn't mess with $1 et al
{
use re 'eval';
my $code1 = '(B)(??{ BEGIN { "X" =~ /X/ } $1})(C)';
ok("ABBCA" =~ /^(.)(??{$code1})\1$/, '(?{}) BEGIN and $1');
my $code2 = '(B)(??{ BEGIN { "X" =~ /X/ } $1 =~ /(.)/ ? $1 : ""})(C)';
ok("ABBCA" =~ /^(.)(??{$code2})\1$/, '(?{}) BEGIN and $1 mark 2');
}
# check that the optimiser is applied to code blocks: see if aelem has
# been converted to aelemfast
{
my $out;
for my $prog (
'/(?{$a[0]})/',
'q() =~ qr/(?{$a[0]})/',
'use re q(eval); q() =~ q{(?{$a[0]})}',
'use re q(eval); $c = q{(?{$a[0]})}; /$c/',
'use re q(eval); $c = q{(?{$a[0]})}; /(?{1;})$c/',
) {
$out = runperl(switches => ["-Dt"], prog => $prog, stderr => 1);
like($out, qr/aelemfast|Recompile perl with -DDEBUGGING/,
"optimise: '$prog'");
}
}
# [perl #115080]
# Ensure that ?pat? matches exactly once, even when the run-time
# pattern changes, and even when the presence of run-time (?{}) affects
# how and when patterns are recompiled
{
my $m;
$m = '';
for (qw(a a a)) {
$m .= $_ if m?$_?;
}
is($m, 'a', '?pat? with a,a,a');
$m = '';
for (qw(a b c)) {
$m .= $_ if m?$_?;
}
is($m, 'a', '?pat? with a,b,c');
use re 'eval';
$m = '';
for (qw(a a a)) {
my $e = qq[(??{"$_"})];
$m .= $_ if m?$e?;
}
is($m, 'a', '?pat? with (??{a,a,a})');
$m = '';
for (qw(a b c)) {
my $e = qq[(??{"$_"})];
$m .= $_ if m?$e?;
}
is($m, 'a', '?pat? with (??{a,b,c})');
}
{
# this code won't actually fail, but it used to fail valgrind,
# so its here just to make sure valgrind doesn't fail again
# While examining the ops of the secret anon sub wrapped around
# the qr//, the pad of the sub was in scope, so cSVOPo_sv
# got the const from the wrong pad. By having lots of $s's
# (aka gvsv(*s), this forces the targs of the consts which have
# been moved to the pad, to have high indices.
sub {
local our $s = "abc";
my $qr = qr/^(?{1})$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s$s/;
}->();
pass("cSVOPo_sv");
}
# [perl #115004]
# code blocks in qr objects that are interpolated in arrays need
# handling the same as if they were interpolated from scalar vars
# (before this code would need 'use re "eval"')
{
use Tie::Array;
use vars '@global';
local @global;
my @array;
my @refs = (0, \@array, 2);
my @tied;
tie @tied, 'Tie::StdArray';
{
my $bb = 'B';
my $dd = 'D';
@array = ('A', qr/(??{$bb})/, 'C', qr/(??{$dd})/, 'E');
@tied = @array;
@global = @array;
}
my $bb = 'X';
my $dd = 'Y';
ok("A B C D E=" =~ /@array/, 'bare interpolated array match');
ok("A B C D E=" =~ qr/@array/, 'qr bare interpolated array match');
ok("A B C D E=" =~ /@global/, 'bare interpolated global array match');
ok("A B C D E=" =~ qr/@global/,
'qr bare interpolated global array match');
ok("A B C D E=" =~ /@{$refs[1]}/, 'bare interpolated ref array match');
ok("A B C D E=" =~ qr/@{$refs[1]}/,
'qr bare interpolated ref array match');
ok("A B C D E=" =~ /@tied/, 'bare interpolated tied array match');
ok("A B C D E=" =~ qr/@tied/, 'qr bare interpolated tied array match');
ok("aA B C D E=" =~ /^a@array=$/, 'interpolated array match');
ok("aA B C D E=" =~ qr/^a@array=$/, 'qr interpolated array match');
ok("aA B C D E=" =~ /^a@global=$/, 'interpolated global array match');
ok("aA B C D E=" =~ qr/^a@global=$/,
'qr interpolated global array match');
ok("aA B C D E=" =~ /^a@{$refs[1]}=$/, 'interpolated ref array match');
ok("aA B C D E=" =~ qr/^a@{$refs[1]}=$/,
'qr interpolated ref array match');
ok("aA B C D E=" =~ /^a@tied=$/, 'interpolated tied array match');
ok("aA B C D E=" =~ qr/^a@tied=$/, 'qr interpolated tied array match');
{
local $" = '-';
ok("aA-B-C-D-E=" =~ /^a@{array}=$/,
'interpolated array match with local sep');
ok("aA-B-C-D-E=" =~ qr/^a@{array}=$/,
'qr interpolated array match with local sep');
ok("aA-B-C-D-E=" =~ /^a@{global}=$/,
'interpolated global array match with local sep');
ok("aA-B-C-D-E=" =~ qr/^a@{global}=$/,
'qr interpolated global array match with local sep');
ok("aA-B-C-D-E=" =~ /^a@{tied}=$/,
'interpolated tied array match with local sep');
ok("aA-B-C-D-E=" =~ qr/^a@{tied}=$/,
'qr interpolated tied array match with local sep');
}
# but don't handle the array ourselves in the presence of \Q etc
@array = ('A', '(?{})');
@global = @array;
@tied = @array;
ok("aA (?{})=" =~ /^a\Q@{array}\E=$/,
'interpolated array match with \Q');
ok("aA (?{})=" =~ qr/^a\Q@{array}\E=$/,
'qr interpolated array match with \Q');
ok("aA (?{})=" =~ /^a\Q@{global}\E=$/,
'interpolated global array match with \Q');
ok("aA (?{})=" =~ qr/^a\Q@{global}\E=$/,
'qr interpolated global array match with \Q');
ok("aA (?{})=" =~ /^a\Q@{$refs[1]}\E=$/,
'interpolated ref array match with \Q');
ok("aA (?{})=" =~ qr/^a\Q@{$refs[1]}\E=$/,
'qr interpolated ref array match with \Q');
ok("aA (?{})=" =~ /^a\Q@{tied}\E=$/,
'interpolated tied array match with \Q');
ok("aA (?{})=" =~ qr/^a\Q@{tied}\E=$/,
'qr interpolated tied array match with \Q');
# and check it works with an empty array
@array = ();
@global = ();
@tied = ();
ok("a=" =~ /^a@array=$/, 'empty array match');
ok("a=" =~ qr/^a@array=$/, 'qr empty array match');
ok("a=" =~ /^a@global=$/, 'empty global array match');
ok("a=" =~ qr/^a@global=$/, 'qr empty global array match');
ok("a=" =~ /^a@tied=$/, 'empty tied array match');
ok("a=" =~ qr/^a@tied=$/, 'qr empty tied array match');
ok("a=" =~ /^a\Q@{array}\E=$/, 'empty array match with \Q');
ok("a=" =~ /^a\Q@{array}\E=$/, 'empty array match with \Q');
ok("a=" =~ qr/^a\Q@{global}\E=$/,
'qr empty global array match with \Q');
ok("a=" =~ /^a\Q@{tied}\E=$/, 'empty tied array match with \Q');
ok("a=" =~ qr/^a\Q@{tied}\E=$/, 'qr empty tied array match with \Q');
# NB: these below are empty patterns, so they happen to use the
# successful match from the line above
ok("a=" =~ /@array/, 'empty array pattern');
ok("a=" =~ qr/@array/, 'qr empty array pattern');
ok("a=" =~ /@global/, 'empty global array pattern');
ok("a=" =~ qr/@global/, 'qr empty global array pattern');
ok("a=" =~ /@tied/, 'empty tied pattern');
ok("a=" =~ qr/@tied/, 'qr empty tied pattern');
ok("a=" =~ /\Q@array\E/, 'empty array pattern with \Q');
ok("a=" =~ qr/\Q@array\E/, 'qr empty array pattern with \Q');
ok("a=" =~ /\Q@global\E/, 'empty global array pattern with \Q');
ok("a=" =~ qr/\Q@global\E/, 'qr empty global array pattern with \Q');
ok("a=" =~ /\Q@tied\E/, 'empty tied pattern with \Q');
ok("a=" =~ qr/\Q@tied\E/, 'qr empty tied pattern with \Q');
ok("a=" =~ //, 'completely empty pattern');
ok("a=" =~ qr//, 'qr completely empty pattern');
}
{
{ package o; use overload '""'=>sub { "abc" } }
my $x = bless [],"o";
my $y = \$x;
(my $y_addr = "$y") =~ y/()//d; # REF(0x7fcb9c02) -> REF0x7fcb9c02
# $y_addr =~ $y should be true, as should $y_addr =~ /(??{$y})/
"abc$y_addr" =~ /(??{$x})(??{$y})/;
is "$&", "abc$y_addr",
'(??{$x}) does not leak cached qr to (??{\$x}) (match)';
is scalar "abcabc" =~ /(??{$x})(??{$y})/, "",
'(??{$x}) does not leak cached qr to (??{\$x}) (no match)';
}
{
sub ReEvalTieTest::TIESCALAR {bless[], "ReEvalTieTest"}
sub ReEvalTieTest::STORE{}
sub ReEvalTieTest::FETCH { "$1" }
tie my $t, "ReEvalTieTest";
$t = bless [], "o";
"aab" =~ /(a)((??{"b" =~ m|(.)|; $t}))/;
is "[$1 $2]", "[a b]",
'(??{$tied_former_overload}) sees the right $1 in FETCH';
}
{
my @matchsticks;
my $ref = bless \my $o, "o";
my $foo = sub { push @matchsticks, scalar "abc" =~ /(??{$ref})/ };
&$foo;
bless \$o;
() = "$ref"; # flush AMAGIC flag on main
&$foo;
is "@matchsticks", "1 ", 'qr magic is not cached on refs';
}
{
my ($foo, $bar) = ("foo"x1000, "bar"x1000);
"$foo$bar" =~ /(??{".*"})/;
is "$&", "foo"x1000 . "bar"x1000,
'padtmp swiping does not affect "$a$b" =~ /(??{})/'
}
} # End of sub run_tests
1;
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