#!./perl
BEGIN {
chdir 't' if -d 't';
@INC = '../lib';
require Config;
if (($Config::Config{'extensions'} !~ m!\bList/Util\b!) ){
print "1..0 # Skip -- Perl configured without List::Util module\n";
exit 0;
}
}
package Oscalar;
use overload (
# Anonymous subroutines:
'+' => sub {new Oscalar $ {$_[0]}+$_[1]},
'-' => sub {new Oscalar
$_[2]? $_[1]-${$_[0]} : ${$_[0]}-$_[1]},
'<=>' => sub {new Oscalar
$_[2]? $_[1]-${$_[0]} : ${$_[0]}-$_[1]},
'cmp' => sub {new Oscalar
$_[2]? ($_[1] cmp ${$_[0]}) : (${$_[0]} cmp $_[1])},
'*' => sub {new Oscalar ${$_[0]}*$_[1]},
'/' => sub {new Oscalar
$_[2]? $_[1]/${$_[0]} :
${$_[0]}/$_[1]},
'%' => sub {new Oscalar
$_[2]? $_[1]%${$_[0]} : ${$_[0]}%$_[1]},
'**' => sub {new Oscalar
$_[2]? $_[1]**${$_[0]} : ${$_[0]}-$_[1]},
qw(
"" stringify
0+ numify) # Order of arguments insignificant
);
sub new {
my $foo = $_[1];
bless \$foo, $_[0];
}
sub stringify { "${$_[0]}" }
sub numify { 0 + "${$_[0]}" } # Not needed, additional overhead
# comparing to direct compilation based on
# stringify
package main;
$| = 1;
use Test::More tests => 1970;
$a = new Oscalar "087";
$b= "$a";
is($b, $a);
is($b, "087");
is(ref $a, "Oscalar");
is($a, $a);
is($a, "087");
$c = $a + 7;
is(ref $c, "Oscalar");
isnt($c, $a);
is($c, "94");
$b=$a;
is(ref $a, "Oscalar");
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
$c=$b;
$c-=$a;
is(ref $c, "Oscalar");
is($a, "087");
is($c, "1");
is(ref $a, "Oscalar");
$b=1;
$b+=$a;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
eval q[ package Oscalar; use overload ('++' => sub { $ {$_[0]}++;$_[0] } ) ];
$b=$a;
is(ref $a, "Oscalar");
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
package Oscalar;
$dummy=bless \$dummy; # Now cache of method should be reloaded
package main;
$b=$a;
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
undef $b; # Destroying updates tables too...
eval q[package Oscalar; use overload ('++' => sub { $ {$_[0]} += 2; $_[0] } ) ];
$b=$a;
is(ref $a, "Oscalar");
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
package Oscalar;
$dummy=bless \$dummy; # Now cache of method should be reloaded
package main;
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "90");
is(ref $a, "Oscalar");
$b=$a;
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "89");
is(ref $a, "Oscalar");
ok($b? 1:0);
eval q[ package Oscalar; use overload ('=' => sub {$main::copies++;
package Oscalar;
local $new=$ {$_[0]};
bless \$new } ) ];
$b=new Oscalar "$a";
is(ref $b, "Oscalar");
is($a, "087");
is($b, "087");
is(ref $a, "Oscalar");
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "89");
is(ref $a, "Oscalar");
is($copies, undef);
$b+=1;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "90");
is(ref $a, "Oscalar");
is($copies, undef);
$b=$a;
$b+=1;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "88");
is(ref $a, "Oscalar");
is($copies, undef);
$b=$a;
$b++;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "89");
is(ref $a, "Oscalar");
is($copies, 1);
eval q[package Oscalar; use overload ('+=' => sub {$ {$_[0]} += 3*$_[1];
$_[0] } ) ];
$c=new Oscalar; # Cause rehash
$b=$a;
$b+=1;
is(ref $b, "Oscalar");
is($a, "087");
is($b, "90");
is(ref $a, "Oscalar");
is($copies, 2);
$b+=$b;
is(ref $b, "Oscalar");
is($b, "360");
is($copies, 2);
$b=-$b;
is(ref $b, "Oscalar");
is($b, "-360");
is($copies, 2);
$b=abs($b);
is(ref $b, "Oscalar");
is($b, "360");
is($copies, 2);
$b=abs($b);
is(ref $b, "Oscalar");
is($b, "360");
is($copies, 2);
eval q[package Oscalar;
use overload ('x' => sub {new Oscalar ( $_[2] ? "_.$_[1]._" x $ {$_[0]}
: "_.${$_[0]}._" x $_[1])}) ];
$a=new Oscalar "yy";
$a x= 3;
is($a, "_.yy.__.yy.__.yy._");
eval q[package Oscalar;
use overload ('.' => sub {new Oscalar ( $_[2] ?
"_.$_[1].__.$ {$_[0]}._"
: "_.$ {$_[0]}.__.$_[1]._")}) ];
$a=new Oscalar "xx";
is("b${a}c", "_._.b.__.xx._.__.c._");
# Check inheritance of overloading;
{
package OscalarI;
@ISA = 'Oscalar';
}
$aI = new OscalarI "$a";
is(ref $aI, "OscalarI");
is("$aI", "xx");
is($aI, "xx");
is("b${aI}c", "_._.b.__.xx._.__.c._");
# Here we test blessing to a package updates hash
eval "package Oscalar; no overload '.'";
is("b${a}", "_.b.__.xx._");
$x="1";
bless \$x, Oscalar;
is("b${a}c", "bxxc");
new Oscalar 1;
is("b${a}c", "bxxc");
# Negative overloading:
$na = eval { ~$a };
like($@, qr/no method found/);
# Check AUTOLOADING:
*Oscalar::AUTOLOAD =
sub { *{"Oscalar::$AUTOLOAD"} = sub {"_!_" . shift() . "_!_"} ;
goto &{"Oscalar::$AUTOLOAD"}};
eval "package Oscalar; sub comple; use overload '~' => 'comple'";
$na = eval { ~$a }; # Hash was not updated
like($@, qr/no method found/);
bless \$x, Oscalar;
$na = eval { ~$a }; # Hash updated
warn "`$na', $@" if $@;
ok !$@;
is($na, '_!_xx_!_');
$na = 0;
$na = eval { ~$aI }; # Hash was not updated
like($@, qr/no method found/);
bless \$x, OscalarI;
$na = eval { ~$aI };
print $@;
ok(!$@);
is($na, '_!_xx_!_');
eval "package Oscalar; sub rshft; use overload '>>' => 'rshft'";
$na = eval { $aI >> 1 }; # Hash was not updated
like($@, qr/no method found/);
bless \$x, OscalarI;
$na = 0;
$na = eval { $aI >> 1 };
print $@;
ok(!$@);
is($na, '_!_xx_!_');
# warn overload::Method($a, '0+'), "\n";
is(overload::Method($a, '0+'), \&Oscalar::numify);
is(overload::Method($aI,'0+'), \&Oscalar::numify);
ok(overload::Overloaded($aI));
ok(!overload::Overloaded('overload'));
ok(! defined overload::Method($aI, '<<'));
ok(! defined overload::Method($a, '<'));
like (overload::StrVal($aI), qr/^OscalarI=SCALAR\(0x[\da-fA-F]+\)$/);
is(overload::StrVal(\$aI), "@{[\$aI]}");
# Check overloading by methods (specified deep in the ISA tree).
{
package OscalarII;
@ISA = 'OscalarI';
sub Oscalar::lshft {"_<<_" . shift() . "_<<_"}
eval "package OscalarI; use overload '<<' => 'lshft', '|' => 'lshft'";
}
$aaII = "087";
$aII = \$aaII;
bless $aII, 'OscalarII';
bless \$fake, 'OscalarI'; # update the hash
is(($aI | 3), '_<<_xx_<<_');
# warn $aII << 3;
is(($aII << 3), '_<<_087_<<_');
{
BEGIN { $int = 7; overload::constant 'integer' => sub {$int++; shift}; }
$out = 2**10;
}
is($int, 9);
is($out, 1024);
is($int, 9);
{
BEGIN { overload::constant 'integer' => sub {$int++; shift()+1}; }
eval q{$out = 42};
}
is($int, 10);
is($out, 43);
$foo = 'foo';
$foo1 = 'f\'o\\o';
{
BEGIN { $q = $qr = 7;
overload::constant 'q' => sub {$q++; push @q, shift, ($_[1] || 'none'); shift},
'qr' => sub {$qr++; push @qr, shift, ($_[1] || 'none'); shift}; }
$out = 'foo';
$out1 = 'f\'o\\o';
$out2 = "a\a$foo,\,";
/b\b$foo.\./;
}
is($out, 'foo');
is($out, $foo);
is($out1, 'f\'o\\o');
is($out1, $foo1);
is($out2, "a\afoo,\,");
is("@q", "foo q f'o\\\\o q a\\a qq ,\\, qq");
is($q, 11);
is("@qr", "b\\b qq .\\. qq");
is($qr, 9);
{
$_ = '!<b>!foo!<-.>!';
BEGIN { overload::constant 'q' => sub {push @q1, shift, ($_[1] || 'none'); "_<" . (shift) . ">_"},
'qr' => sub {push @qr1, shift, ($_[1] || 'none'); "!<" . (shift) . ">!"}; }
$out = 'foo';
$out1 = 'f\'o\\o';
$out2 = "a\a$foo,\,";
$res = /b\b$foo.\./;
$a = <<EOF;
oups
EOF
$b = <<'EOF';
oups1
EOF
$c = bareword;
m'try it';
s'first part'second part';
s/yet another/tail here/;
tr/A-Z/a-z/;
}
is($out, '_<foo>_');
is($out1, '_<f\'o\\o>_');
is($out2, "_<a\a>_foo_<,\,>_");
is("@q1", "foo q f'o\\\\o q a\\a qq ,\\, qq oups
qq oups1
q second part q tail here s A-Z tr a-z tr");
is("@qr1", "b\\b qq .\\. qq try it q first part q yet another qq");
is($res, 1);
is($a, "_<oups
>_");
is($b, "_<oups1
>_");
is($c, "bareword");
{
package symbolic; # Primitive symbolic calculator
use overload nomethod => \&wrap, '""' => \&str, '0+' => \&num,
'=' => \&cpy, '++' => \&inc, '--' => \&dec;
sub new { shift; bless ['n', @_] }
sub cpy {
my $self = shift;
bless [@$self], ref $self;
}
sub inc { $_[0] = bless ['++', $_[0], 1]; }
sub dec { $_[0] = bless ['--', $_[0], 1]; }
sub wrap {
my ($obj, $other, $inv, $meth) = @_;
if ($meth eq '++' or $meth eq '--') {
@$obj = ($meth, (bless [@$obj]), 1); # Avoid circular reference
return $obj;
}
($obj, $other) = ($other, $obj) if $inv;
bless [$meth, $obj, $other];
}
sub str {
my ($meth, $a, $b) = @{+shift};
$a = 'u' unless defined $a;
if (defined $b) {
"[$meth $a $b]";
} else {
"[$meth $a]";
}
}
my %subr = ( 'n' => sub {$_[0]} );
foreach my $op (split " ", $overload::ops{with_assign}) {
$subr{$op} = $subr{"$op="} = eval "sub {shift() $op shift()}";
}
my @bins = qw(binary 3way_comparison num_comparison str_comparison);
foreach my $op (split " ", "@overload::ops{ @bins }") {
$subr{$op} = eval "sub {shift() $op shift()}";
}
foreach my $op (split " ", "@overload::ops{qw(unary func)}") {
$subr{$op} = eval "sub {$op shift()}";
}
$subr{'++'} = $subr{'+'};
$subr{'--'} = $subr{'-'};
sub num {
my ($meth, $a, $b) = @{+shift};
my $subr = $subr{$meth}
or die "Do not know how to ($meth) in symbolic";
$a = $a->num if ref $a eq __PACKAGE__;
$b = $b->num if ref $b eq __PACKAGE__;
$subr->($a,$b);
}
sub TIESCALAR { my $pack = shift; $pack->new(@_) }
sub FETCH { shift }
sub nop { } # Around a bug
sub vars { my $p = shift; tie($_, $p), $_->nop foreach @_; }
sub STORE {
my $obj = shift;
$#$obj = 1;
$obj->[1] = shift;
}
}
{
my $foo = new symbolic 11;
my $baz = $foo++;
is((sprintf "%d", $foo), '12');
is((sprintf "%d", $baz), '11');
my $bar = $foo;
$baz = ++$foo;
is((sprintf "%d", $foo), '13');
is((sprintf "%d", $bar), '12');
is((sprintf "%d", $baz), '13');
my $ban = $foo;
$baz = ($foo += 1);
is((sprintf "%d", $foo), '14');
is((sprintf "%d", $bar), '12');
is((sprintf "%d", $baz), '14');
is((sprintf "%d", $ban), '13');
$baz = 0;
$baz = $foo++;
is((sprintf "%d", $foo), '15');
is((sprintf "%d", $baz), '14');
is("$foo", '[++ [+= [++ [++ [n 11] 1] 1] 1] 1]');
}
{
my $iter = new symbolic 2;
my $side = new symbolic 1;
my $cnt = $iter;
while ($cnt) {
$cnt = $cnt - 1; # The "simple" way
$side = (sqrt(1 + $side**2) - 1)/$side;
}
my $pi = $side*(2**($iter+2));
is("$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]');
is((sprintf "%f", $pi), '3.182598');
}
{
my $iter = new symbolic 2;
my $side = new symbolic 1;
my $cnt = $iter;
while ($cnt--) {
$side = (sqrt(1 + $side**2) - 1)/$side;
}
my $pi = $side*(2**($iter+2));
is("$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]');
is((sprintf "%f", $pi), '3.182598');
}
{
my ($a, $b);
symbolic->vars($a, $b);
my $c = sqrt($a**2 + $b**2);
$a = 3; $b = 4;
is((sprintf "%d", $c), '5');
$a = 12; $b = 5;
is((sprintf "%d", $c), '13');
}
{
package symbolic1; # Primitive symbolic calculator
# Mutator inc/dec
use overload nomethod => \&wrap, '""' => \&str, '0+' => \&num, '=' => \&cpy;
sub new { shift; bless ['n', @_] }
sub cpy {
my $self = shift;
bless [@$self], ref $self;
}
sub wrap {
my ($obj, $other, $inv, $meth) = @_;
if ($meth eq '++' or $meth eq '--') {
@$obj = ($meth, (bless [@$obj]), 1); # Avoid circular reference
return $obj;
}
($obj, $other) = ($other, $obj) if $inv;
bless [$meth, $obj, $other];
}
sub str {
my ($meth, $a, $b) = @{+shift};
$a = 'u' unless defined $a;
if (defined $b) {
"[$meth $a $b]";
} else {
"[$meth $a]";
}
}
my %subr = ( 'n' => sub {$_[0]} );
foreach my $op (split " ", $overload::ops{with_assign}) {
$subr{$op} = $subr{"$op="} = eval "sub {shift() $op shift()}";
}
my @bins = qw(binary 3way_comparison num_comparison str_comparison);
foreach my $op (split " ", "@overload::ops{ @bins }") {
$subr{$op} = eval "sub {shift() $op shift()}";
}
foreach my $op (split " ", "@overload::ops{qw(unary func)}") {
$subr{$op} = eval "sub {$op shift()}";
}
$subr{'++'} = $subr{'+'};
$subr{'--'} = $subr{'-'};
sub num {
my ($meth, $a, $b) = @{+shift};
my $subr = $subr{$meth}
or die "Do not know how to ($meth) in symbolic";
$a = $a->num if ref $a eq __PACKAGE__;
$b = $b->num if ref $b eq __PACKAGE__;
$subr->($a,$b);
}
sub TIESCALAR { my $pack = shift; $pack->new(@_) }
sub FETCH { shift }
sub nop { } # Around a bug
sub vars { my $p = shift; tie($_, $p), $_->nop foreach @_; }
sub STORE {
my $obj = shift;
$#$obj = 1;
$obj->[1] = shift;
}
}
{
my $foo = new symbolic1 11;
my $baz = $foo++;
is((sprintf "%d", $foo), '12');
is((sprintf "%d", $baz), '11');
my $bar = $foo;
$baz = ++$foo;
is((sprintf "%d", $foo), '13');
is((sprintf "%d", $bar), '12');
is((sprintf "%d", $baz), '13');
my $ban = $foo;
$baz = ($foo += 1);
is((sprintf "%d", $foo), '14');
is((sprintf "%d", $bar), '12');
is((sprintf "%d", $baz), '14');
is((sprintf "%d", $ban), '13');
$baz = 0;
$baz = $foo++;
is((sprintf "%d", $foo), '15');
is((sprintf "%d", $baz), '14');
is("$foo", '[++ [+= [++ [++ [n 11] 1] 1] 1] 1]');
}
{
my $iter = new symbolic1 2;
my $side = new symbolic1 1;
my $cnt = $iter;
while ($cnt) {
$cnt = $cnt - 1; # The "simple" way
$side = (sqrt(1 + $side**2) - 1)/$side;
}
my $pi = $side*(2**($iter+2));
is("$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]');
is((sprintf "%f", $pi), '3.182598');
}
{
my $iter = new symbolic1 2;
my $side = new symbolic1 1;
my $cnt = $iter;
while ($cnt--) {
$side = (sqrt(1 + $side**2) - 1)/$side;
}
my $pi = $side*(2**($iter+2));
is("$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]');
is((sprintf "%f", $pi), '3.182598');
}
{
my ($a, $b);
symbolic1->vars($a, $b);
my $c = sqrt($a**2 + $b**2);
$a = 3; $b = 4;
is((sprintf "%d", $c), '5');
$a = 12; $b = 5;
is((sprintf "%d", $c), '13');
}
{
package two_face; # Scalars with separate string and
# numeric values.
sub new { my $p = shift; bless [@_], $p }
use overload '""' => \&str, '0+' => \&num, fallback => 1;
sub num {shift->[1]}
sub str {shift->[0]}
}
{
my $seven = new two_face ("vii", 7);
is((sprintf "seven=$seven, seven=%d, eight=%d", $seven, $seven+1),
'seven=vii, seven=7, eight=8');
is(scalar ($seven =~ /i/), '1');
}
{
package sorting;
use overload 'cmp' => \∁
sub new { my ($p, $v) = @_; bless \$v, $p }
sub comp { my ($x,$y) = @_; ($$x * 3 % 10) <=> ($$y * 3 % 10) or $$x cmp $$y }
}
{
my @arr = map sorting->new($_), 0..12;
my @sorted1 = sort @arr;
my @sorted2 = map $$_, @sorted1;
is("@sorted2", '0 10 7 4 1 11 8 5 12 2 9 6 3');
}
{
package iterator;
use overload '<>' => \&iter;
sub new { my ($p, $v) = @_; bless \$v, $p }
sub iter { my ($x) = @_; return undef if $$x < 0; return $$x--; }
}
# XXX iterator overload not intended to work with CORE::GLOBAL?
if (defined &CORE::GLOBAL::glob) {
is('1', '1');
is('1', '1');
is('1', '1');
}
else {
my $iter = iterator->new(5);
my $acc = '';
my $out;
$acc .= " $out" while $out = <${iter}>;
is($acc, ' 5 4 3 2 1 0');
$iter = iterator->new(5);
is(scalar <${iter}>, '5');
$acc = '';
$acc .= " $out" while $out = <$iter>;
is($acc, ' 4 3 2 1 0');
}
{
package deref;
use overload '%{}' => \&hderef, '&{}' => \&cderef,
'*{}' => \&gderef, '${}' => \&sderef, '@{}' => \&aderef;
sub new { my ($p, $v) = @_; bless \$v, $p }
sub deref {
my ($self, $key) = (shift, shift);
my $class = ref $self;
bless $self, 'deref::dummy'; # Disable overloading of %{}
my $out = $self->{$key};
bless $self, $class; # Restore overloading
$out;
}
sub hderef {shift->deref('h')}
sub aderef {shift->deref('a')}
sub cderef {shift->deref('c')}
sub gderef {shift->deref('g')}
sub sderef {shift->deref('s')}
}
{
my $deref = bless { h => { foo => 5 , fake => 23 },
c => sub {return shift() + 34},
's' => \123,
a => [11..13],
g => \*srt,
}, 'deref';
# Hash:
my @cont = sort %$deref;
if ("\t" eq "\011") { # ASCII
is("@cont", '23 5 fake foo');
}
else { # EBCDIC alpha-numeric sort order
is("@cont", 'fake foo 23 5');
}
my @keys = sort keys %$deref;
is("@keys", 'fake foo');
my @val = sort values %$deref;
is("@val", '23 5');
is($deref->{foo}, 5);
is(defined $deref->{bar}, '');
my $key;
@keys = ();
push @keys, $key while $key = each %$deref;
@keys = sort @keys;
is("@keys", 'fake foo');
is(exists $deref->{bar}, '');
is(exists $deref->{foo}, 1);
# Code:
is($deref->(5), 39);
is(&$deref(6), 40);
sub xxx_goto { goto &$deref }
is(xxx_goto(7), 41);
my $srt = bless { c => sub {$b <=> $a}
}, 'deref';
*srt = \&$srt;
my @sorted = sort srt 11, 2, 5, 1, 22;
is("@sorted", '22 11 5 2 1');
# Scalar
is($$deref, 123);
# Code
@sorted = sort $srt 11, 2, 5, 1, 22;
is("@sorted", '22 11 5 2 1');
# Array
is("@$deref", '11 12 13');
is($#$deref, '2');
my $l = @$deref;
is($l, 3);
is($deref->[2], '13');
$l = pop @$deref;
is($l, 13);
$l = 1;
is($deref->[$l], '12');
# Repeated dereference
my $double = bless { h => $deref,
}, 'deref';
is($double->{foo}, 5);
}
{
package two_refs;
use overload '%{}' => \&gethash, '@{}' => sub { ${shift()} };
sub new {
my $p = shift;
bless \ [@_], $p;
}
sub gethash {
my %h;
my $self = shift;
tie %h, ref $self, $self;
\%h;
}
sub TIEHASH { my $p = shift; bless \ shift, $p }
my %fields;
my $i = 0;
$fields{$_} = $i++ foreach qw{zero one two three};
sub STORE {
my $self = ${shift()};
my $key = $fields{shift()};
defined $key or die "Out of band access";
$$self->[$key] = shift;
}
sub FETCH {
my $self = ${shift()};
my $key = $fields{shift()};
defined $key or die "Out of band access";
$$self->[$key];
}
}
my $bar = new two_refs 3,4,5,6;
$bar->[2] = 11;
is($bar->{two}, 11);
$bar->{three} = 13;
is($bar->[3], 13);
{
package two_refs_o;
@ISA = ('two_refs');
}
$bar = new two_refs_o 3,4,5,6;
$bar->[2] = 11;
is($bar->{two}, 11);
$bar->{three} = 13;
is($bar->[3], 13);
{
package two_refs1;
use overload '%{}' => sub { ${shift()}->[1] },
'@{}' => sub { ${shift()}->[0] };
sub new {
my $p = shift;
my $a = [@_];
my %h;
tie %h, $p, $a;
bless \ [$a, \%h], $p;
}
sub gethash {
my %h;
my $self = shift;
tie %h, ref $self, $self;
\%h;
}
sub TIEHASH { my $p = shift; bless \ shift, $p }
my %fields;
my $i = 0;
$fields{$_} = $i++ foreach qw{zero one two three};
sub STORE {
my $a = ${shift()};
my $key = $fields{shift()};
defined $key or die "Out of band access";
$a->[$key] = shift;
}
sub FETCH {
my $a = ${shift()};
my $key = $fields{shift()};
defined $key or die "Out of band access";
$a->[$key];
}
}
$bar = new two_refs_o 3,4,5,6;
$bar->[2] = 11;
is($bar->{two}, 11);
$bar->{three} = 13;
is($bar->[3], 13);
{
package two_refs1_o;
@ISA = ('two_refs1');
}
$bar = new two_refs1_o 3,4,5,6;
$bar->[2] = 11;
is($bar->{two}, 11);
$bar->{three} = 13;
is($bar->[3], 13);
{
package B;
use overload bool => sub { ${+shift} };
}
my $aaa;
{ my $bbbb = 0; $aaa = bless \$bbbb, B }
is !$aaa, 1;
unless ($aaa) {
pass();
} else {
fail();
}
# check that overload isn't done twice by join
{ my $c = 0;
package Join;
use overload '""' => sub { $c++ };
my $x = join '', bless([]), 'pq', bless([]);
main::is $x, '0pq1';
};
# Test module-specific warning
{
# check the Odd number of arguments for overload::constant warning
my $a = "" ;
local $SIG{__WARN__} = sub {$a = $_[0]} ;
$x = eval ' overload::constant "integer" ; ' ;
is($a, "");
use warnings 'overload' ;
$x = eval ' overload::constant "integer" ; ' ;
like($a, qr/^Odd number of arguments for overload::constant at/);
}
{
# check the `$_[0]' is not an overloadable type warning
my $a = "" ;
local $SIG{__WARN__} = sub {$a = $_[0]} ;
$x = eval ' overload::constant "fred" => sub {} ; ' ;
is($a, "");
use warnings 'overload' ;
$x = eval ' overload::constant "fred" => sub {} ; ' ;
like($a, qr/^`fred' is not an overloadable type at/);
}
{
# check the `$_[1]' is not a code reference warning
my $a = "" ;
local $SIG{__WARN__} = sub {$a = $_[0]} ;
$x = eval ' overload::constant "integer" => 1; ' ;
is($a, "");
use warnings 'overload' ;
$x = eval ' overload::constant "integer" => 1; ' ;
like($a, qr/^`1' is not a code reference at/);
}
{
my $c = 0;
package ov_int1;
use overload '""' => sub { 3+shift->[0] },
'0+' => sub { 10+shift->[0] },
'int' => sub { 100+shift->[0] };
sub new {my $p = shift; bless [shift], $p}
package ov_int2;
use overload '""' => sub { 5+shift->[0] },
'0+' => sub { 30+shift->[0] },
'int' => sub { 'ov_int1'->new(1000+shift->[0]) };
sub new {my $p = shift; bless [shift], $p}
package noov_int;
use overload '""' => sub { 2+shift->[0] },
'0+' => sub { 9+shift->[0] };
sub new {my $p = shift; bless [shift], $p}
package main;
my $x = new noov_int 11;
my $int_x = int $x;
main::is("$int_x", 20);
$x = new ov_int1 31;
$int_x = int $x;
main::is("$int_x", 131);
$x = new ov_int2 51;
$int_x = int $x;
main::is("$int_x", 1054);
}
# make sure that we don't infinitely recurse
{
my $c = 0;
package Recurse;
use overload '""' => sub { shift },
'0+' => sub { shift },
'bool' => sub { shift },
fallback => 1;
my $x = bless([]);
# For some reason beyond me these have to be oks rather than likes.
main::ok("$x" =~ /Recurse=ARRAY/);
main::ok($x);
main::ok($x+0 =~ qr/Recurse=ARRAY/);
}
# BugID 20010422.003
package Foo;
use overload
'bool' => sub { return !$_[0]->is_zero() || undef; }
;
sub is_zero
{
my $self = shift;
return $self->{var} == 0;
}
sub new
{
my $class = shift;
my $self = {};
$self->{var} = shift;
bless $self,$class;
}
package main;
use strict;
my $r = Foo->new(8);
$r = Foo->new(0);
is(($r || 0), 0);
package utf8_o;
use overload
'""' => sub { return $_[0]->{var}; }
;
sub new
{
my $class = shift;
my $self = {};
$self->{var} = shift;
bless $self,$class;
}
package main;
my $utfvar = new utf8_o 200.2.1;
is("$utfvar", 200.2.1); # 223 - stringify
is("a$utfvar", "a".200.2.1); # 224 - overload via sv_2pv_flags
# 225..227 -- more %{} tests. Hangs in 5.6.0, okay in later releases.
# Basically this example implements strong encapsulation: if Hderef::import()
# were to eval the overload code in the caller's namespace, the privatisation
# would be quite transparent.
package Hderef;
use overload '%{}' => sub { (caller(0))[0] eq 'Foo' ? $_[0] : die "zap" };
package Foo;
@Foo::ISA = 'Hderef';
sub new { bless {}, shift }
sub xet { @_ == 2 ? $_[0]->{$_[1]} :
@_ == 3 ? ($_[0]->{$_[1]} = $_[2]) : undef }
package main;
my $a = Foo->new;
$a->xet('b', 42);
is ($a->xet('b'), 42);
ok (!defined eval { $a->{b} });
like ($@, qr/zap/);
{
package t229;
use overload '=' => sub { 42 },
'++' => sub { my $x = ${$_[0]}; $_[0] };
sub new { my $x = 42; bless \$x }
my $warn;
{
local $SIG{__WARN__} = sub { $warn++ };
my $x = t229->new;
my $y = $x;
eval { $y++ };
}
main::ok (!$warn);
}
{
my ($int, $out1, $out2);
{
BEGIN { $int = 0; overload::constant 'integer' => sub {$int++; 17}; }
$out1 = 0;
$out2 = 1;
}
is($int, 2, "#24313"); # 230
is($out1, 17, "#24313"); # 231
is($out2, 17, "#24313"); # 232
}
{
package Numify;
use overload (qw(0+ numify fallback 1));
sub new {
my $val = $_[1];
bless \$val, $_[0];
}
sub numify { ${$_[0]} }
}
{
package perl31793;
use overload cmp => sub { 0 };
package perl31793_fb;
use overload cmp => sub { 0 }, fallback => 1;
package main;
my $o = bless [], 'perl31793';
my $of = bless [], 'perl31793_fb';
my $no = bless [], 'no_overload';
like(overload::StrVal(\"scalar"), qr/^SCALAR\(0x[0-9a-f]+\)$/);
like(overload::StrVal([]), qr/^ARRAY\(0x[0-9a-f]+\)$/);
like(overload::StrVal({}), qr/^HASH\(0x[0-9a-f]+\)$/);
like(overload::StrVal(sub{1}), qr/^CODE\(0x[0-9a-f]+\)$/);
like(overload::StrVal(\*GLOB), qr/^GLOB\(0x[0-9a-f]+\)$/);
like(overload::StrVal(\$o), qr/^REF\(0x[0-9a-f]+\)$/);
like(overload::StrVal(qr/a/), qr/^Regexp=REGEXP\(0x[0-9a-f]+\)$/);
like(overload::StrVal($o), qr/^perl31793=ARRAY\(0x[0-9a-f]+\)$/);
like(overload::StrVal($of), qr/^perl31793_fb=ARRAY\(0x[0-9a-f]+\)$/);
like(overload::StrVal($no), qr/^no_overload=ARRAY\(0x[0-9a-f]+\)$/);
}
# These are all check that overloaded values rather than reference addresses
# are what is getting tested.
my ($two, $one, $un, $deux) = map {new Numify $_} 2, 1, 1, 2;
my ($ein, $zwei) = (1, 2);
my %map = (one => 1, un => 1, ein => 1, deux => 2, two => 2, zwei => 2);
foreach my $op (qw(<=> == != < <= > >=)) {
foreach my $l (keys %map) {
foreach my $r (keys %map) {
my $ocode = "\$$l $op \$$r";
my $rcode = "$map{$l} $op $map{$r}";
my $got = eval $ocode;
die if $@;
my $expect = eval $rcode;
die if $@;
is ($got, $expect, $ocode) or print "# $rcode\n";
}
}
}
{
# check that overloading works in regexes
{
package Foo493;
use overload
'""' => sub { "^$_[0][0]\$" },
'.' => sub {
bless [
$_[2]
? (ref $_[1] ? $_[1][0] : $_[1]) . ':' .$_[0][0]
: $_[0][0] . ':' . (ref $_[1] ? $_[1][0] : $_[1])
], 'Foo493'
};
}
my $a = bless [ "a" ], 'Foo493';
like('a', qr/$a/);
like('x:a', qr/x$a/);
like('x:a:=', qr/x$a=$/);
like('x:a:a:=', qr/x$a$a=$/);
}
{
{
package QRonly;
use overload qr => sub { qr/x/ }, fallback => 1;
}
{
my $x = bless [], "QRonly";
# like tries to be too clever, and decides that $x-stringified
# doesn't look like a regex
ok("x" =~ $x, "qr-only matches");
ok("y" !~ $x, "qr-only doesn't match what it shouldn't");
ok("xx" =~ /x$x/, "qr-only matches with concat");
like("$x", qr/^QRonly=ARRAY/, "qr-only doesn't have string overload");
my $qr = bless qr/y/, "QRonly";
ok("x" =~ $qr, "qr with qr-overload uses overload");
ok("y" !~ $qr, "qr with qr-overload uses overload");
is("$qr", "".qr/y/, "qr with qr-overload stringify");
my $rx = $$qr;
ok("y" =~ $rx, "bare rx with qr-overload doesn't overload match");
ok("x" !~ $rx, "bare rx with qr-overload doesn't overload match");
is("$rx", "".qr/y/, "bare rx with qr-overload stringify");
}
{
package QRandSTR;
use overload qr => sub { qr/x/ }, q/""/ => sub { "y" };
}
{
my $x = bless [], "QRandSTR";
ok("x" =~ $x, "qr+str uses qr for match");
ok("y" !~ $x, "qr+str uses qr for match");
ok("xx" =~ /x$x/, "qr+str uses qr for match with concat");
is("$x", "y", "qr+str uses str for stringify");
my $qr = bless qr/z/, "QRandSTR";
is("$qr", "y", "qr with qr+str uses str for stringify");
ok("xx" =~ /x$x/, "qr with qr+str uses qr for match");
my $rx = $$qr;
ok("z" =~ $rx, "bare rx with qr+str doesn't overload match");
is("$rx", "".qr/z/, "bare rx with qr+str doesn't overload stringify");
}
{
package QRany;
use overload qr => sub { $_[0]->(@_) };
package QRself;
use overload qr => sub { $_[0] };
}
{
my $rx = bless sub { ${ qr/x/ } }, "QRany";
ok("x" =~ $rx, "qr overload accepts a bare rx");
ok("y" !~ $rx, "qr overload accepts a bare rx");
my $str = bless sub { "x" }, "QRany";
ok(!eval { "x" =~ $str }, "qr overload doesn't accept a string");
like($@, qr/^Overloaded qr did not return a REGEXP/, "correct error");
my $oqr = bless qr/z/, "QRandSTR";
my $oqro = bless sub { $oqr }, "QRany";
ok("z" =~ $oqro, "qr overload doesn't recurse");
my $qrs = bless qr/z/, "QRself";
ok("z" =~ $qrs, "qr overload can return self");
}
{
package STRonly;
use overload q/""/ => sub { "x" };
package STRonlyFB;
use overload q/""/ => sub { "x" }, fallback => 1;
}
{
my $fb = bless [], "STRonlyFB";
ok("x" =~ $fb, "qr falls back to \"\"");
ok("y" !~ $fb, "qr falls back to \"\"");
my $nofb = bless [], "STRonly";
ok("x" =~ $nofb, "qr falls back even without fallback");
ok("y" !~ $nofb, "qr falls back even without fallback");
}
}
{
my $twenty_three = 23;
# Check that constant overloading propagates into evals
BEGIN { overload::constant integer => sub { 23 } }
is(eval "17", $twenty_three);
}
{
package Sklorsh;
use overload
bool => sub { shift->is_cool };
sub is_cool {
$_[0]->{name} eq 'cool';
}
sub delete {
undef %{$_[0]};
bless $_[0], 'Brap';
return 1;
}
sub delete_with_self {
my $self = shift;
undef %$self;
bless $self, 'Brap';
return 1;
}
package Brap;
1;
package main;
my $obj;
$obj = bless {name => 'cool'}, 'Sklorsh';
$obj->delete;
ok(eval {if ($obj) {1}; 1}, $@ || 'reblessed into nonexistent namespace');
$obj = bless {name => 'cool'}, 'Sklorsh';
$obj->delete_with_self;
ok (eval {if ($obj) {1}; 1}, $@);
my $a = $b = {name => 'hot'};
bless $b, 'Sklorsh';
is(ref $a, 'Sklorsh');
is(ref $b, 'Sklorsh');
ok(!$b, "Expect overloaded boolean");
ok(!$a, "Expect overloaded boolean");
}
{
package Flrbbbbb;
use overload
bool => sub { shift->{truth} eq 'yes' },
'0+' => sub { shift->{truth} eq 'yes' ? '1' : '0' },
'!' => sub { shift->{truth} eq 'no' },
fallback => 1;
sub new { my $class = shift; bless { truth => shift }, $class }
package main;
my $yes = Flrbbbbb->new('yes');
my $x;
$x = 1 if $yes; is($x, 1);
$x = 2 unless $yes; is($x, 1);
$x = 3 if !$yes; is($x, 1);
$x = 4 unless !$yes; is($x, 4);
my $no = Flrbbbbb->new('no');
$x = 0;
$x = 1 if $no; is($x, 0);
$x = 2 unless $no; is($x, 2);
$x = 3 if !$no; is($x, 3);
$x = 4 unless !$no; is($x, 3);
$x = 0;
$x = 1 if !$no && $yes; is($x, 1);
$x = 2 unless !$no && $yes; is($x, 1);
$x = 3 if $no || !$yes; is($x, 1);
$x = 4 unless $no || !$yes; is($x, 4);
$x = 0;
$x = 1 if !$no || !$yes; is($x, 1);
$x = 2 unless !$no || !$yes; is($x, 1);
$x = 3 if !$no && !$yes; is($x, 1);
$x = 4 unless !$no && !$yes; is($x, 4);
}
{
use Scalar::Util 'weaken';
package Shklitza;
use overload '""' => sub {"CLiK KLAK"};
package Ksshfwoom;
package main;
my ($obj, $ref);
$obj = bless do {my $a; \$a}, 'Shklitza';
$ref = $obj;
is ($obj, "CLiK KLAK");
is ($ref, "CLiK KLAK");
weaken $ref;
is ($ref, "CLiK KLAK");
bless $obj, 'Ksshfwoom';
like ($obj, qr/^Ksshfwoom=/);
like ($ref, qr/^Ksshfwoom=/);
undef $obj;
is ($ref, undef);
}
{
package bit;
# bit operations have overloadable assignment variants too
sub new { bless \$_[1], $_[0] }
use overload
"&=" => sub { bit->new($_[0]->val . ' & ' . $_[1]->val) },
"^=" => sub { bit->new($_[0]->val . ' ^ ' . $_[1]->val) },
"|" => sub { bit->new($_[0]->val . ' | ' . $_[1]->val) }, # |= by fallback
;
sub val { ${$_[0]} }
package main;
my $a = bit->new(my $va = 'a');
my $b = bit->new(my $vb = 'b');
$a &= $b;
is($a->val, 'a & b', "overloaded &= works");
my $c = bit->new(my $vc = 'c');
$b ^= $c;
is($b->val, 'b ^ c', "overloaded ^= works");
my $d = bit->new(my $vd = 'd');
$c |= $d;
is($c->val, 'c | d', "overloaded |= (by fallback) works");
}
{
# comparison operators with nomethod (bug 41546)
my $warning = "";
my $method;
package nomethod_false;
use overload nomethod => sub { $method = 'nomethod'; 0 };
package nomethod_true;
use overload nomethod => sub { $method= 'nomethod'; 'true' };
package main;
local $^W = 1;
local $SIG{__WARN__} = sub { $warning = $_[0] };
my $f = bless [], 'nomethod_false';
($warning, $method) = ("", "");
is($f eq 'whatever', 0, 'nomethod makes eq return 0');
is($method, 'nomethod');
my $t = bless [], 'nomethod_true';
($warning, $method) = ("", "");
is($t eq 'whatever', 'true', 'nomethod makes eq return "true"');
is($method, 'nomethod');
is($warning, "", 'nomethod eq need not return number');
eval q{
package nomethod_false;
use overload cmp => sub { $method = 'cmp'; 0 };
};
$f = bless [], 'nomethod_false';
($warning, $method) = ("", "");
ok($f eq 'whatever', 'eq falls back to cmp (nomethod not called)');
is($method, 'cmp');
eval q{
package nomethod_true;
use overload cmp => sub { $method = 'cmp'; 'true' };
};
$t = bless [], 'nomethod_true';
($warning, $method) = ("", "");
ok($t eq 'whatever', 'eq falls back to cmp (nomethod not called)');
is($method, 'cmp');
like($warning, qr/isn't numeric/, 'cmp should return number');
}
{
# nomethod called for '!' after attempted fallback
my $nomethod_called = 0;
package nomethod_not;
use overload nomethod => sub { $nomethod_called = 'yes'; };
package main;
my $o = bless [], 'nomethod_not';
my $res = ! $o;
is($nomethod_called, 'yes', "nomethod() is called for '!'");
is($res, 'yes', "nomethod(..., '!') return value propagates");
}
{
# Subtle bug pre 5.10, as a side effect of the overloading flag being
# stored on the reference rather than the referent. Despite the fact that
# objects can only be accessed via references (even internally), the
# referent actually knows that it's blessed, not the references. So taking
# a new, unrelated, reference to it gives an object. However, the
# overloading-or-not flag was on the reference prior to 5.10, and taking
# a new reference didn't (use to) copy it.
package kayo;
use overload '""' => sub {${$_[0]}};
sub Pie {
return "$_[0], $_[1]";
}
package main;
my $class = 'kayo';
my $string = 'bam';
my $crunch_eth = bless \$string, $class;
is("$crunch_eth", $string);
is ($crunch_eth->Pie("Meat"), "$string, Meat");
my $wham_eth = \$string;
is("$wham_eth", $string,
'This reference did not have overloading in 5.8.8 and earlier');
is ($crunch_eth->Pie("Apple"), "$string, Apple");
my $class = ref $wham_eth;
$class =~ s/=.*//;
# Bless it back into its own class!
bless $wham_eth, $class;
is("$wham_eth", $string);
is ($crunch_eth->Pie("Blackbird"), "$string, Blackbird");
}
{
package numify_int;
use overload "0+" => sub { $_[0][0] += 1; 42 };
package numify_self;
use overload "0+" => sub { $_[0][0]++; $_[0] };
package numify_other;
use overload "0+" => sub { $_[0][0]++; $_[0][1] = bless [], 'numify_int' };
package numify_by_fallback;
use overload fallback => 1;
package main;
my $o = bless [], 'numify_int';
is(int($o), 42, 'numifies to integer');
is($o->[0], 1, 'int() numifies only once');
my $aref = [];
my $num_val = int($aref);
my $r = bless $aref, 'numify_self';
is(int($r), $num_val, 'numifies to self');
is($r->[0], 1, 'int() numifies once when returning self');
my $s = bless [], 'numify_other';
is(int($s), 42, 'numifies to numification of other object');
is($s->[0], 1, 'int() numifies once when returning other object');
is($s->[1][0], 1, 'returned object numifies too');
my $m = bless $aref, 'numify_by_fallback';
is(int($m), $num_val, 'numifies to usual reference value');
is(abs($m), $num_val, 'numifies to usual reference value');
is(-$m, -$num_val, 'numifies to usual reference value');
is(0+$m, $num_val, 'numifies to usual reference value');
is($m+0, $num_val, 'numifies to usual reference value');
is($m+$m, 2*$num_val, 'numifies to usual reference value');
is(0-$m, -$num_val, 'numifies to usual reference value');
is(1*$m, $num_val, 'numifies to usual reference value');
is(int($m/1), $num_val, 'numifies to usual reference value');
is($m%100, $num_val%100, 'numifies to usual reference value');
is($m**1, $num_val, 'numifies to usual reference value');
is(abs($aref), $num_val, 'abs() of ref');
is(-$aref, -$num_val, 'negative of ref');
is(0+$aref, $num_val, 'ref addition');
is($aref+0, $num_val, 'ref addition');
is($aref+$aref, 2*$num_val, 'ref addition');
is(0-$aref, -$num_val, 'subtraction of ref');
is(1*$aref, $num_val, 'multiplicaton of ref');
is(int($aref/1), $num_val, 'division of ref');
is($aref%100, $num_val%100, 'modulo of ref');
is($aref**1, $num_val, 'exponentiation of ref');
}
{
package CopyConstructorFallback;
use overload
'++' => sub { "$_[0]"; $_[0] },
fallback => 1;
sub new { bless {} => shift }
package main;
my $o = CopyConstructorFallback->new;
my $x = $o++; # would segfault
my $y = ++$o;
is($x, $o, "copy constructor falls back to assignment (postinc)");
is($y, $o, "copy constructor falls back to assignment (preinc)");
}
# only scalar 'x' should currently overload
{
package REPEAT;
my ($x,$n, $nm);
use overload
'x' => sub { $x++; 1 },
'0+' => sub { $n++; 1 },
'nomethod' => sub { $nm++; 1 },
'fallback' => 0,
;
my $s = bless {};
package main;
my @a;
my $count = 3;
($x,$n,$nm) = (0,0,0);
@a = ((1,2,$s) x $count);
is("$x-$n-$nm", "0-0-0", 'repeat 1');
($x,$n,$nm) = (0,0,0);
@a = ((1,$s,3) x $count);
is("$x-$n-$nm", "0-0-0", 'repeat 2');
($x,$n,$nm) = (0,0,0);
@a = ((1,2,3) x $s);
is("$x-$n-$nm", "0-1-0", 'repeat 3');
}
# RT #57012: magic items need to have mg_get() called before testing for
# overload. Lack of this means that overloaded values returned by eg a
# tied array didn't call overload methods.
# We test here both a tied array and scalar, since the implementation of
# tied arrays (and hashes) is such that in rvalue context, mg_get is
# called prior to executing the op, while it isn't for a tied scalar.
{
my @terms;
my %subs;
my $funcs;
my $use_int;
BEGIN {
# A note on what methods to expect to be called, and
# how many times FETCH/STORE is called:
#
# Mutating ops (+=, ++ etc) trigger a copy ('='), since
# the code can't distingish between something that's been copied:
# $a = foo->new(0); $b = $a; refcnt($$b) == 2
# and overloaded objects stored in ties which will have extra
# refcounts due to the tied_obj magic and entries on the tmps
# stack when returning from FETCH etc. So we always copy.
# This accounts for a '=', and an extra STORE.
# We also have a FETCH returning the final value from the eval,
# plus a FETCH in the overload subs themselves: ($_[0][0])
# triggers one. However, tied agregates have a mechanism to prevent
# multiple fetches between STOREs, which means that the tied
# hash skips doing a FETCH during '='.
for (qw(+ - * / % ** << >> x . & | ^)) {
my $e = "%s $_= 3";
$subs{"$_="} = $e;
# ARRAY FETCH: initial, sub+=, eval-return,
# SCALAR FETCH: initial, sub=, sub+=, eval-return,
# STORE: copy, mutator
push @terms, [ 18, $e, "$_=", '(=)', 3, 4, 2 ];
$e = "%s $_ 3";
$subs{$_} = $e;
# ARRAY FETCH: initial
# SCALAR FETCH: initial eval-return,
push @terms, [ 18, $e, $_, '', 1, 2, 0 ];
}
for (qw(++ --)) {
my $pre = "$_%s";
my $post = "%s$_";
$subs{$_} = $pre;
push @terms,
# ARRAY FETCH: initial, sub+=, eval-return,
# SCALAR FETCH: initial, sub=, sub+=, eval-return,
# STORE: copy, mutator
[ 18, $pre, $_, '(=)("")', 3, 4, 2 ],
# ARRAY FETCH: initial, sub+=
# SCALAR FETCH: initial, sub=, sub+=
# STORE: copy, mutator
[ 18, $post, $_, '(=)("")', 2, 3, 2 ];
}
# For the non-mutator ops, we have a initial FETCH,
# an extra FETCH within the sub itself for the scalar option,
# and no STOREs
for (qw(< <= > >= == != lt le gt ge eq ne <=> cmp)) {
my $e = "%s $_ 3";
$subs{$_} = $e;
push @terms, [ 3, $e, $_, '', 1, 2, 0 ];
}
for (qw(atan2)) {
my $e = "$_ %s, 3";
$subs{$_} = $e;
push @terms, [ 18, $e, $_, '', 1, 2, 0 ];
}
for (qw(cos sin exp abs log sqrt int ! ~)) {
my $e = "$_(%s)";
$subs{$_} = $e;
push @terms, [ 1.23, $e, $_, '', 1, 2, 0 ];
}
for (qw(-)) {
my $e = "$_(%s)";
$subs{neg} = $e;
push @terms, [ 18, $e, 'neg', '', 1, 2, 0 ];
}
my $e = '(%s) ? 1 : 0';
$subs{bool} = $e;
push @terms, [ 18, $e, 'bool', '', 1, 2, 0 ];
# note: this is testing unary qr, not binary =~
$subs{qr} = '(%s)';
push @terms, [ qr/abc/, '"abc" =~ (%s)', 'qr', '', 1, 2, 0 ];
$e = '"abc" ~~ (%s)';
$subs{'~~'} = $e;
push @terms, [ "abc", $e, '~~', '', 1, 1, 0 ];
$subs{'-X'} = 'do { my $f = (%s);'
. '$_[1] eq "r" ? (-r ($f)) :'
. '$_[1] eq "e" ? (-e ($f)) :'
. '$_[1] eq "f" ? (-f ($f)) :'
. '$_[1] eq "l" ? (-l ($f)) :'
. '$_[1] eq "t" ? (-t ($f)) :'
. '$_[1] eq "T" ? (-T ($f)) : 0;}';
# Note - we don't care what these filetests return, as
# long as the tied and untied versions return the same value.
# The flags below are chosen to test all uses of tryAMAGICftest_MG
for (qw(r e f l t T)) {
push @terms, [ 'TEST', "-$_ (%s)", '-X', '', 1, 2, 0 ];
}
$subs{'${}'} = '%s';
push @terms, [ do {my $s=99; \$s}, '${%s}', '${}', '', 1, 2, 0 ];
# we skip testing '@{}' here because too much of this test
# framework involves array deredfences!
$subs{'%{}'} = '%s';
push @terms, [ {qw(a 1 b 2 c 3)}, 'join "", sort keys %%{%s}', '%{}',
'', 1, 2, 0 ];
$subs{'&{}'} = '%s';
push @terms, [ sub {99}, 'do {&{%s} for 1,2}', '&{})(&{}', '', 2, 4, 0 ];
our $RT57012A = 88;
our $RT57012B;
$subs{'*{}'} = '%s';
push @terms, [ \*RT57012A, '*RT57012B = *{%s}; our $RT57012B',
'*{}', '', 1, 2, 0 ];
# XXX TODO: '<>'
for my $sub (keys %subs) {
my $term = $subs{$sub};
my $t = sprintf $term, '$_[0][0]';
$subs{$sub} = eval
"sub { \$funcs .= '($sub)'; my \$r; if (\$use_int) {"
. "use integer; \$r = ($t) } else { \$r = ($t) } \$r }";
die $@ if $@;
}
}
my $fetches;
my $stores;
package RT57012_OV;
my $other;
use overload
%subs,
"=" => sub { $other .= '(=)'; bless [ $_[0][0] ] },
'0+' => sub { $other .= '(0+)'; 0 + $_[0][0] },
'""' => sub { $other .= '("")'; "$_[0][0]" },
;
package RT57012_TIE_S;
my $tie_val;
sub TIESCALAR { bless [ bless [ $tie_val ], 'RT57012_OV' ] }
sub FETCH { $fetches++; $_[0][0] }
sub STORE { $stores++; $_[0][0] = $_[1] }
package RT57012_TIE_A;
sub TIEARRAY { bless [] }
sub FETCH { $fetches++; $_[0][0] }
sub STORE { $stores++; $_[0][$_[1]] = $_[2] }
package main;
for my $term (@terms) {
my ($val, $sub_term, $exp_funcs, $exp_side,
$exp_fetch_a, $exp_fetch_s, $exp_store) = @$term;
$tie_val = $val;
for my $int ('', 'use integer; ') {
$use_int = ($int ne '');
for my $var ('$ta[0]', '$ts') {
my $exp_fetch = ($var eq '$ts') ? $exp_fetch_s : $exp_fetch_a;
tie my $ts, 'RT57012_TIE_S';
tie my @ta, 'RT57012_TIE_A';
$ta[0] = bless [ $val ], 'RT57012_OV';
my $x = $val;
my $tied_term = $int . sprintf $sub_term, $var;
my $plain_term = $int . sprintf $sub_term, '$x';
$other = ''; $funcs = '';
$fetches = 0;
$stores = 0;
my $res = eval $tied_term;
$res = "$res";
my $exp = eval $plain_term;
$exp = "$exp";
is ($res, $exp, "tied '$tied_term' return value");
is ($funcs, "($exp_funcs)", "tied '$tied_term' methods called");
is ($other, $exp_side, "tied '$tied_term' side effects called");
is ($fetches, $exp_fetch, "tied '$tied_term' FETCH count");
is ($stores, $exp_store, "tied '$tied_term' STORE count");
}
}
}
}
# EOF