#!./perl BEGIN { chdir 't' if -d 't'; @INC = '../lib'; } 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 unsignificant ); 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; $test = 0; $| = 1; print "1..",&last,"\n"; sub test { $test++; if (@_ > 1) { if ($_[0] eq $_[1]) { print "ok $test\n"; } else { print "not ok $test: '$_[0]' ne '$_[1]'\n"; } } else { if (shift) { print "ok $test\n"; } else { print "not ok $test\n"; } } } $a = new Oscalar "087"; $b= "$a"; # All test numbers in comments are off by 1. # So much for hard-wiring them in :-) To fix this: test(1); # 1 test ($b eq $a); # 2 test ($b eq "087"); # 3 test (ref $a eq "Oscalar"); # 4 test ($a eq $a); # 5 test ($a eq "087"); # 6 $c = $a + 7; test (ref $c eq "Oscalar"); # 7 test (!($c eq $a)); # 8 test ($c eq "94"); # 9 $b=$a; test (ref $a eq "Oscalar"); # 10 $b++; test (ref $b eq "Oscalar"); # 11 test ( $a eq "087"); # 12 test ( $b eq "88"); # 13 test (ref $a eq "Oscalar"); # 14 $c=$b; $c-=$a; test (ref $c eq "Oscalar"); # 15 test ( $a eq "087"); # 16 test ( $c eq "1"); # 17 test (ref $a eq "Oscalar"); # 18 $b=1; $b+=$a; test (ref $b eq "Oscalar"); # 19 test ( $a eq "087"); # 20 test ( $b eq "88"); # 21 test (ref $a eq "Oscalar"); # 22 eval q[ package Oscalar; use overload ('++' => sub { $ {$_[0]}++;$_[0] } ) ]; $b=$a; test (ref $a eq "Oscalar"); # 23 $b++; test (ref $b eq "Oscalar"); # 24 test ( $a eq "087"); # 25 test ( $b eq "88"); # 26 test (ref $a eq "Oscalar"); # 27 package Oscalar; $dummy=bless \$dummy; # Now cache of method should be reloaded package main; $b=$a; $b++; test (ref $b eq "Oscalar"); # 28 test ( $a eq "087"); # 29 test ( $b eq "88"); # 30 test (ref $a eq "Oscalar"); # 31 eval q[package Oscalar; use overload ('++' => sub { $ {$_[0]} += 2; $_[0] } ) ]; $b=$a; test (ref $a eq "Oscalar"); # 32 $b++; test (ref $b eq "Oscalar"); # 33 test ( $a eq "087"); # 34 test ( $b eq "88"); # 35 test (ref $a eq "Oscalar"); # 36 package Oscalar; $dummy=bless \$dummy; # Now cache of method should be reloaded package main; $b++; test (ref $b eq "Oscalar"); # 37 test ( $a eq "087"); # 38 test ( $b eq "90"); # 39 test (ref $a eq "Oscalar"); # 40 $b=$a; $b++; test (ref $b eq "Oscalar"); # 41 test ( $a eq "087"); # 42 test ( $b eq "89"); # 43 test (ref $a eq "Oscalar"); # 44 test ($b? 1:0); # 45 eval q[ package Oscalar; use overload ('=' => sub {$main::copies++; package Oscalar; local $new=$ {$_[0]}; bless \$new } ) ]; $b=new Oscalar "$a"; test (ref $b eq "Oscalar"); # 46 test ( $a eq "087"); # 47 test ( $b eq "087"); # 48 test (ref $a eq "Oscalar"); # 49 $b++; test (ref $b eq "Oscalar"); # 50 test ( $a eq "087"); # 51 test ( $b eq "89"); # 52 test (ref $a eq "Oscalar"); # 53 test ($copies == 0); # 54 $b+=1; test (ref $b eq "Oscalar"); # 55 test ( $a eq "087"); # 56 test ( $b eq "90"); # 57 test (ref $a eq "Oscalar"); # 58 test ($copies == 0); # 59 $b=$a; $b+=1; test (ref $b eq "Oscalar"); # 60 test ( $a eq "087"); # 61 test ( $b eq "88"); # 62 test (ref $a eq "Oscalar"); # 63 test ($copies == 0); # 64 $b=$a; $b++; test (ref $b eq "Oscalar") || print ref $b,"=ref(b)\n"; # 65 test ( $a eq "087"); # 66 test ( $b eq "89"); # 67 test (ref $a eq "Oscalar"); # 68 test ($copies == 1); # 69 eval q[package Oscalar; use overload ('+=' => sub {$ {$_[0]} += 3*$_[1]; $_[0] } ) ]; $c=new Oscalar; # Cause rehash $b=$a; $b+=1; test (ref $b eq "Oscalar"); # 70 test ( $a eq "087"); # 71 test ( $b eq "90"); # 72 test (ref $a eq "Oscalar"); # 73 test ($copies == 2); # 74 $b+=$b; test (ref $b eq "Oscalar"); # 75 test ( $b eq "360"); # 76 test ($copies == 2); # 77 $b=-$b; test (ref $b eq "Oscalar"); # 78 test ( $b eq "-360"); # 79 test ($copies == 2); # 80 $b=abs($b); test (ref $b eq "Oscalar"); # 81 test ( $b eq "360"); # 82 test ($copies == 2); # 83 $b=abs($b); test (ref $b eq "Oscalar"); # 84 test ( $b eq "360"); # 85 test ($copies == 2); # 86 eval q[package Oscalar; use overload ('x' => sub {new Oscalar ( $_[2] ? "_.$_[1]._" x $ {$_[0]} : "_.${$_[0]}._" x $_[1])}) ]; $a=new Oscalar "yy"; $a x= 3; test ($a eq "_.yy.__.yy.__.yy._"); # 87 eval q[package Oscalar; use overload ('.' => sub {new Oscalar ( $_[2] ? "_.$_[1].__.$ {$_[0]}._" : "_.$ {$_[0]}.__.$_[1]._")}) ]; $a=new Oscalar "xx"; test ("b${a}c" eq "_._.b.__.xx._.__.c._"); # 88 # Check inheritance of overloading; { package OscalarI; @ISA = 'Oscalar'; } $aI = new OscalarI "$a"; test (ref $aI eq "OscalarI"); # 89 test ("$aI" eq "xx"); # 90 test ($aI eq "xx"); # 91 test ("b${aI}c" eq "_._.b.__.xx._.__.c._"); # 92 # Here we test blessing to a package updates hash eval "package Oscalar; no overload '.'"; test ("b${a}" eq "_.b.__.xx._"); # 93 $x="1"; bless \$x, Oscalar; test ("b${a}c" eq "bxxc"); # 94 new Oscalar 1; test ("b${a}c" eq "bxxc"); # 95 # Negative overloading: $na = eval { ~$a }; test($@ =~ /no method found/); # 96 # Check AUTOLOADING: *Oscalar::AUTOLOAD = sub { *{"Oscalar::$AUTOLOAD"} = sub {"_!_" . shift() . "_!_"} ; goto &{"Oscalar::$AUTOLOAD"}}; eval "package Oscalar; sub comple; use overload '~' => 'comple'"; $na = eval { ~$a }; # Hash was not updated test($@ =~ /no method found/); # 97 bless \$x, Oscalar; $na = eval { ~$a }; # Hash updated warn "`$na', $@" if $@; test !$@; # 98 test($na eq '_!_xx_!_'); # 99 $na = 0; $na = eval { ~$aI }; # Hash was not updated test($@ =~ /no method found/); # 100 bless \$x, OscalarI; $na = eval { ~$aI }; print $@; test !$@; # 101 test($na eq '_!_xx_!_'); # 102 eval "package Oscalar; sub rshft; use overload '>>' => 'rshft'"; $na = eval { $aI >> 1 }; # Hash was not updated test($@ =~ /no method found/); # 103 bless \$x, OscalarI; $na = 0; $na = eval { $aI >> 1 }; print $@; test !$@; # 104 test($na eq '_!_xx_!_'); # 105 # warn overload::Method($a, '0+'), "\n"; test (overload::Method($a, '0+') eq \&Oscalar::numify); # 106 test (overload::Method($aI,'0+') eq \&Oscalar::numify); # 107 test (overload::Overloaded($aI)); # 108 test (!overload::Overloaded('overload')); # 109 test (! defined overload::Method($aI, '<<')); # 110 test (! defined overload::Method($a, '<')); # 111 test (overload::StrVal($aI) =~ /^OscalarI=SCALAR\(0x[\da-fA-F]+\)$/); # 112 test (overload::StrVal(\$aI) eq "@{[\$aI]}"); # 113 # 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 $aII, 'OscalarII'; bless \$fake, 'OscalarI'; # update the hash test(($aI | 3) eq '_<<_xx_<<_'); # 114 # warn $aII << 3; test(($aII << 3) eq '_<<_087_<<_'); # 115 { BEGIN { $int = 7; overload::constant 'integer' => sub {$int++; shift}; } $out = 2**10; } test($int, 9); # 116 test($out, 1024); # 117 $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$foo.\./; } test($out, 'foo'); # 118 test($out, $foo); # 119 test($out1, 'f\'o\\o'); # 120 test($out1, $foo1); # 121 test($out2, "a\afoo,\,"); # 122 test("@q", "foo q f'o\\\\o q a\\a qq ,\\, qq"); # 123 test($q, 11); # 124 test("@qr", "b\\b qq .\\. qq"); # 125 test($qr, 9); # 126 { $_ = '!!foo!<-.>!'; BEGIN { overload::constant 'q' => sub {push @q1, shift, ($_[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.\./; $a = <_'); # 117 test($out1, '__'); # 128 test($out2, "__foo_<,\,>_"); # 129 test("@q1", "foo q f'o\\\\o q a\\a qq ,\\, qq oups qq oups1 q second part q tail here s z-Z tr z-Z tr"); # 130 test("@qr1", "b\\b qq .\\. qq try it q first part q yet another qq"); # 131 test($res, 1); # 132 test($a, "__"); # 133 test($b, "__"); # 134 test($c, "bareword"); # 135 { 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->[0,1] = ('=', shift); } } { my $foo = new symbolic 11; my $baz = $foo++; test( (sprintf "%d", $foo), '12'); test( (sprintf "%d", $baz), '11'); my $bar = $foo; $baz = ++$foo; test( (sprintf "%d", $foo), '13'); test( (sprintf "%d", $bar), '12'); test( (sprintf "%d", $baz), '13'); my $ban = $foo; $baz = ($foo += 1); test( (sprintf "%d", $foo), '14'); test( (sprintf "%d", $bar), '12'); test( (sprintf "%d", $baz), '14'); test( (sprintf "%d", $ban), '13'); $baz = 0; $baz = $foo++; test( (sprintf "%d", $foo), '15'); test( (sprintf "%d", $baz), '14'); test( "$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)); test "$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]'; test( (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)); test "$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]'; test( (sprintf "%f", $pi), '3.182598'); } { my ($a, $b); symbolic->vars($a, $b); my $c = sqrt($a**2 + $b**2); $a = 3; $b = 4; test( (sprintf "%d", $c), '5'); $a = 12; $b = 5; test( (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->[0,1] = ('=', shift); } } { my $foo = new symbolic1 11; my $baz = $foo++; test( (sprintf "%d", $foo), '12'); test( (sprintf "%d", $baz), '11'); my $bar = $foo; $baz = ++$foo; test( (sprintf "%d", $foo), '13'); test( (sprintf "%d", $bar), '12'); test( (sprintf "%d", $baz), '13'); my $ban = $foo; $baz = ($foo += 1); test( (sprintf "%d", $foo), '14'); test( (sprintf "%d", $bar), '12'); test( (sprintf "%d", $baz), '14'); test( (sprintf "%d", $ban), '13'); $baz = 0; $baz = $foo++; test( (sprintf "%d", $foo), '15'); test( (sprintf "%d", $baz), '14'); test( "$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)); test "$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]'; test( (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)); test "$side", '[/ [- [sqrt [+ 1 [** [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]] 2]]] 1] [/ [- [sqrt [+ 1 [** [n 1] 2]]] 1] [n 1]]]'; test( (sprintf "%f", $pi), '3.182598'); } { my ($a, $b); symbolic1->vars($a, $b); my $c = sqrt($a**2 + $b**2); $a = 3; $b = 4; test( (sprintf "%d", $c), '5'); $a = 12; $b = 5; test( (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 $seven = new two_face ("vii", 7); test( (sprintf "seven=$seven, seven=%d, eight=%d", $seven, $seven+1), 'seven=vii, seven=7, eight=8'); test( scalar ($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 $$_, @sorted1; test "@sorted2", '0 10 7 4 1 11 8 5 12 2 9 6 3'; } { package iterator; use overload '<>' => \&iter; sub new { my ($p, $v) = @_; bless \$v, $p } sub iter { my ($x) = @_; return undef if $$x < 0; return $$x--; } } # XXX iterator overload not intended to work with CORE::GLOBAL? if (defined &CORE::GLOBAL::glob) { test '1', '1'; # 175 test '1', '1'; # 176 test '1', '1'; # 177 } else { my $iter = iterator->new(5); my $acc = ''; my $out; $acc .= " $out" while $out = <${iter}>; test $acc, ' 5 4 3 2 1 0'; # 175 $iter = iterator->new(5); test scalar <${iter}>, '5'; # 176 $acc = ''; $acc .= " $out" while $out = <$iter>; test $acc, ' 4 3 2 1 0'; # 177 } { package deref; use overload '%{}' => \&hderef, '&{}' => \&cderef, '*{}' => \&gderef, '${}' => \&sderef, '@{}' => \&aderef; sub new { my ($p, $v) = @_; bless \$v, $p } sub deref { my ($self, $key) = (shift, shift); my $class = ref $self; bless $self, 'deref::dummy'; # Disable overloading of %{} my $out = $self->{$key}; bless $self, $class; # Restore overloading $out; } sub hderef {shift->deref('h')} sub aderef {shift->deref('a')} sub cderef {shift->deref('c')} sub gderef {shift->deref('g')} sub sderef {shift->deref('s')} } { my $deref = bless { h => { foo => 5 , fake => 23 }, c => sub {return shift() + 34}, 's' => \123, a => [11..13], g => \*srt, }, 'deref'; # Hash: my @cont = sort %$deref; if ("\t" eq "\011") { # ascii test "@cont", '23 5 fake foo'; # 178 } else { # ebcdic alpha-numeric sort order test "@cont", 'fake foo 23 5'; # 178 } my @keys = sort keys %$deref; test "@keys", 'fake foo'; # 179 my @val = sort values %$deref; test "@val", '23 5'; # 180 test $deref->{foo}, 5; # 181 test defined $deref->{bar}, ''; # 182 my $key; @keys = (); push @keys, $key while $key = each %$deref; @keys = sort @keys; test "@keys", 'fake foo'; # 183 test exists $deref->{bar}, ''; # 184 test exists $deref->{foo}, 1; # 185 # Code: test $deref->(5), 39; # 186 test &$deref(6), 40; # 187 sub xxx_goto { goto &$deref } test xxx_goto(7), 41; # 188 my $srt = bless { c => sub {$b <=> $a} }, 'deref'; *srt = \&$srt; my @sorted = sort srt 11, 2, 5, 1, 22; test "@sorted", '22 11 5 2 1'; # 189 # Scalar test $$deref, 123; # 190 # Code @sorted = sort $srt 11, 2, 5, 1, 22; test "@sorted", '22 11 5 2 1'; # 191 # Array test "@$deref", '11 12 13'; # 192 test $#$deref, '2'; # 193 my $l = @$deref; test $l, 3; # 194 test $deref->[2], '13'; # 195 $l = pop @$deref; test $l, 13; # 196 $l = 1; test $deref->[$l], '12'; # 197 # Repeated dereference my $double = bless { h => $deref, }, 'deref'; test $double->{foo}, 5; # 198 } { 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; test $bar->{two}, 11; # 199 $bar->{three} = 13; test $bar->[3], 13; # 200 { package two_refs_o; @ISA = ('two_refs'); } $bar = new two_refs_o 3,4,5,6; $bar->[2] = 11; test $bar->{two}, 11; # 201 $bar->{three} = 13; test $bar->[3], 13; # 202 { 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; test $bar->{two}, 11; # 203 $bar->{three} = 13; test $bar->[3], 13; # 204 { package two_refs1_o; @ISA = ('two_refs1'); } $bar = new two_refs1_o 3,4,5,6; $bar->[2] = 11; test $bar->{two}, 11; # 205 $bar->{three} = 13; test $bar->[3], 13; # 206 { package B; use overload bool => sub { ${+shift} }; } my $aaa; { my $bbbb = 0; $aaa = bless \$bbbb, B } test !$aaa, 1; # 207 unless ($aaa) { test 'ok', 'ok'; # 208 } else { test 'is not', 'ok'; # 208 } # 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::test $x, '0pq1'; # 209 }; # Test module-specific warning { # check the Odd number of arguments for overload::constant warning my $a = "" ; local $SIG{__WARN__} = sub {$a = $_[0]} ; $x = eval ' overload::constant "integer" ; ' ; test($a eq "") ; # 210 use warnings 'overload' ; $x = eval ' overload::constant "integer" ; ' ; test($a =~ /^Odd number of arguments for overload::constant at/) ; # 211 } { # check the `$_[0]' is not an overloadable type warning my $a = "" ; local $SIG{__WARN__} = sub {$a = $_[0]} ; $x = eval ' overload::constant "fred" => sub {} ; ' ; test($a eq "") ; # 212 use warnings 'overload' ; $x = eval ' overload::constant "fred" => sub {} ; ' ; test($a =~ /^`fred' is not an overloadable type at/); # 213 } { # check the `$_[1]' is not a code reference warning my $a = "" ; local $SIG{__WARN__} = sub {$a = $_[0]} ; $x = eval ' overload::constant "integer" => 1; ' ; test($a eq "") ; # 214 use warnings 'overload' ; $x = eval ' overload::constant "integer" => 1; ' ; test($a =~ /^`1' is not a code reference at/); # 215 } # make sure that we don't inifinitely recurse { my $c = 0; package Recurse; use overload '""' => sub { shift }, '0+' => sub { shift }, 'bool' => sub { shift }, fallback => 1; my $x = bless([]); main::test("$x" =~ /Recurse=ARRAY/); # 216 main::test($x); # 217 main::test($x+0 =~ /Recurse=ARRAY/); # 218 }; # Last test is: sub last {218}