#!./perl # # test the bit operators '&', '|', '^', '~', '<<', and '>>' # use warnings; no warnings 'deprecated'; BEGIN { chdir 't' if -d 't'; @INC = '../lib'; require "./test.pl"; require "./charset_tools.pl"; require Config; } # Tests don't have names yet. # If you find tests are failing, please try adding names to tests to track # down where the failure is, and supply your new names as a patch. # (Just-in-time test naming) plan tests => 192 + (10*13*2) + 5 + 29; # numerics ok ((0xdead & 0xbeef) == 0x9ead); ok ((0xdead | 0xbeef) == 0xfeef); ok ((0xdead ^ 0xbeef) == 0x6042); ok ((~0xdead & 0xbeef) == 0x2042); # shifts ok ((257 << 7) == 32896); ok ((33023 >> 7) == 257); # signed vs. unsigned ok ((~0 > 0 && do { use integer; ~0 } == -1)); my $bits = 0; for (my $i = ~0; $i; $i >>= 1) { ++$bits; } my $cusp = 1 << ($bits - 1); ok (($cusp & -1) > 0 && do { use integer; $cusp & -1 } < 0); ok (($cusp | 1) > 0 && do { use integer; $cusp | 1 } < 0); ok (($cusp ^ 1) > 0 && do { use integer; $cusp ^ 1 } < 0); ok ((1 << ($bits - 1)) == $cusp && do { use integer; 1 << ($bits - 1) } == -$cusp); ok (($cusp >> 1) == ($cusp / 2) && do { use integer; abs($cusp >> 1) } == ($cusp / 2)); $Aaz = chr(ord("A") & ord("z")); $Aoz = chr(ord("A") | ord("z")); $Axz = chr(ord("A") ^ ord("z")); # short strings is (("AAAAA" & "zzzzz"), ($Aaz x 5)); is (("AAAAA" | "zzzzz"), ($Aoz x 5)); is (("AAAAA" ^ "zzzzz"), ($Axz x 5)); # long strings $foo = "A" x 150; $bar = "z" x 75; $zap = "A" x 75; # & truncates is (($foo & $bar), ($Aaz x 75 )); # | does not truncate is (($foo | $bar), ($Aoz x 75 . $zap)); # ^ does not truncate is (($foo ^ $bar), ($Axz x 75 . $zap)); # string constants. These tests expect the bit patterns of these strings in # ASCII, so convert to that. sub _and($) { $_[0] & native_to_uni("+0") } sub _oar($) { $_[0] | native_to_uni("+0") } sub _xor($) { $_[0] ^ native_to_uni("+0") } is _and native_to_uni("waf"), native_to_uni('# '), 'str var & const str'; # [perl #20661] is _and native_to_uni("waf"), native_to_uni('# '), 'str var & const str again'; # [perl #20661] is _oar native_to_uni("yit"), native_to_uni('{yt'), 'str var | const str'; is _oar native_to_uni("yit"), native_to_uni('{yt'), 'str var | const str again'; is _xor native_to_uni("yit"), native_to_uni('RYt'), 'str var ^ const str'; is _xor native_to_uni("yit"), native_to_uni('RYt'), 'str var ^ const str again'; SKIP: { skip "Converting a numeric doesn't work with EBCDIC unlike the above tests", 3 if $::IS_EBCDIC; is _and 0, '0', 'num var & const str'; # [perl #20661] is _oar 0, '0', 'num var | const str'; is _xor 0, '0', 'num var ^ const str'; } # But don’t mistake a COW for a constant when assigning to it %h=(150=>1); $i=(keys %h)[0]; $i |= 105; is $i, 255, '[perl #108480] $cow |= number'; $i=(keys %h)[0]; $i &= 105; is $i, 0, '[perl #108480] $cow &= number'; $i=(keys %h)[0]; $i ^= 105; is $i, 255, '[perl #108480] $cow ^= number'; # is ("ok \xFF\xFF\n" & "ok 19\n", "ok 19\n"); is ("ok 20\n" | "ok \0\0\n", "ok 20\n"); is ("o\000 \0001\000" ^ "\000k\0002\000\n", "ok 21\n"); # is ("ok \x{FF}\x{FF}\n" & "ok 22\n", "ok 22\n"); is ("ok 23\n" | "ok \x{0}\x{0}\n", "ok 23\n"); is ("o\x{0} \x{0}4\x{0}" ^ "\x{0}k\x{0}2\x{0}\n", "ok 24\n"); # is (sprintf("%vd", v4095 & v801), 801); is (sprintf("%vd", v4095 | v801), 4095); is (sprintf("%vd", v4095 ^ v801), 3294); # is (sprintf("%vd", v4095.801.4095 & v801.4095), '801.801'); is (sprintf("%vd", v4095.801.4095 | v801.4095), '4095.4095.4095'); is (sprintf("%vd", v801.4095 ^ v4095.801.4095), '3294.3294.4095'); # is (sprintf("%vd", v120.300 & v200.400), '72.256'); is (sprintf("%vd", v120.300 | v200.400), '248.444'); is (sprintf("%vd", v120.300 ^ v200.400), '176.188'); # { my $a = v120.300; my $b = v200.400; $a ^= $b; is (sprintf("%vd", $a), '176.188'); } { my $a = v120.300; my $b = v200.400; $a |= $b; is (sprintf("%vd", $a), '248.444'); } # # UTF8 ~ behaviour # { my @not36; for (0x100...0xFFF) { $a = ~(chr $_); push @not36, sprintf("%#03X", $_) if $a ne chr(~$_) or length($a) != 1 or ~$a ne chr($_); } is (join (', ', @not36), ''); my @not37; for my $i (0xEEE...0xF00) { for my $j (0x0..0x120) { $a = ~(chr ($i) . chr $j); push @not37, sprintf("%#03X %#03X", $i, $j) if $a ne chr(~$i).chr(~$j) or length($a) != 2 or ~$a ne chr($i).chr($j); } } is (join (', ', @not37), ''); is (~chr(~0), "\0"); my @not39; for my $i (0x100..0x120) { for my $j (0x100...0x120) { push @not39, sprintf("%#03X %#03X", $i, $j) if ~(chr($i)|chr($j)) ne (~chr($i)&~chr($j)); } } is (join (', ', @not39), ''); my @not40; for my $i (0x100..0x120) { for my $j (0x100...0x120) { push @not40, sprintf("%#03X %#03X", $i, $j) if ~(chr($i)&chr($j)) ne (~chr($i)|~chr($j)); } } is (join (', ', @not40), ''); } # More variations on 19 and 22. is ("ok \xFF\x{FF}\n" & "ok 41\n", "ok 41\n"); is ("ok \x{FF}\xFF\n" & "ok 42\n", "ok 42\n"); # Tests to see if you really can do casts negative floats to unsigned properly $neg1 = -1.0; ok (~ $neg1 == 0); $neg7 = -7.0; ok (~ $neg7 == 6); # double magic tests sub TIESCALAR { bless { value => $_[1], orig => $_[1] } } sub STORE { $_[0]{store}++; $_[0]{value} = $_[1] } sub FETCH { $_[0]{fetch}++; $_[0]{value} } sub stores { tied($_[0])->{value} = tied($_[0])->{orig}; delete(tied($_[0])->{store}) || 0 } sub fetches { delete(tied($_[0])->{fetch}) || 0 } # numeric double magic tests tie $x, "main", 1; tie $y, "main", 3; is(($x | $y), 3); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x & $y), 1); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x ^ $y), 2); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x |= $y), 3); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x &= $y), 1); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x ^= $y), 2); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(~~$y, 3); is(fetches($y), 1); is(stores($y), 0); { use integer; is(($x | $y), 3); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x & $y), 1); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x ^ $y), 2); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x |= $y), 3); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x &= $y), 1); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x ^= $y), 2); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(~$y, -4); is(fetches($y), 1); is(stores($y), 0); } # end of use integer; # stringwise double magic tests tie $x, "main", "a"; tie $y, "main", "c"; is(($x | $y), ("a" | "c")); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x & $y), ("a" & "c")); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x ^ $y), ("a" ^ "c")); is(fetches($x), 1); is(fetches($y), 1); is(stores($x), 0); is(stores($y), 0); is(($x |= $y), ("a" | "c")); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x &= $y), ("a" & "c")); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(($x ^= $y), ("a" ^ "c")); is(fetches($x), 2); is(fetches($y), 1); is(stores($x), 1); is(stores($y), 0); is(~~$y, "c"); is(fetches($y), 1); is(stores($y), 0); $a = "\0\x{100}"; chop($a); ok(utf8::is_utf8($a)); # make sure UTF8 flag is still there $a = ~$a; is($a, "\xFF", "~ works with utf-8"); # [rt.perl.org 33003] # This would cause a segfault without malloc wrap SKIP: { skip "No malloc wrap checks" unless $Config::Config{usemallocwrap}; like( runperl(prog => 'eval q($#a>>=1); print 1'), qr/^1\n?/ ); } # [perl #37616] Bug in &= (string) and/or m// { $a = "aa"; $a &= "a"; ok($a =~ /a+$/, 'ASCII "a" is NUL-terminated'); $b = "bb\x{100}"; $b &= "b"; ok($b =~ /b+$/, 'Unicode "b" is NUL-terminated'); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $c = $a | $b; is($c, chr(0x1FF) x 0xFF . chr(0x101) x 2); $c = $b | $a; is($c, chr(0x1FF) x 0xFF . chr(0x101) x 2); $c = $a & $b; is($c, chr(0x001) x 0x0FF); $c = $b & $a; is($c, chr(0x001) x 0x0FF); $c = $a ^ $b; is($c, chr(0x1FE) x 0x0FF . chr(0x101) x 2); $c = $b ^ $a; is($c, chr(0x1FE) x 0x0FF . chr(0x101) x 2); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $a |= $b; is($a, chr(0x1FF) x 0xFF . chr(0x101) x 2); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $b |= $a; is($b, chr(0x1FF) x 0xFF . chr(0x101) x 2); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $a &= $b; is($a, chr(0x001) x 0x0FF); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $b &= $a; is($b, chr(0x001) x 0x0FF); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $a ^= $b; is($a, chr(0x1FE) x 0x0FF . chr(0x101) x 2); } { $a = chr(0x101) x 0x101; $b = chr(0x0FF) x 0x0FF; $b ^= $a; is($b, chr(0x1FE) x 0x0FF . chr(0x101) x 2); } # New string- and number-specific bitwise ops { use feature "bitwise"; no warnings "experimental::bitwise"; is "22" & "66", 2, 'numeric & with strings'; is "22" | "66", 86, 'numeric | with strings'; is "22" ^ "66", 84, 'numeric ^ with strings'; is ~"22" & 0xff, 233, 'numeric ~ with string'; is 22 &. 66, 22, '&. with numbers'; is 22 |. 66, 66, '|. with numbers'; is 22 ^. 66, "\4\4", '^. with numbers'; if ($::IS_EBCDIC) { # ord('2') is 0xF2 on EBCDIC is ~.22, "\x0d\x0d", '~. with number'; } else { # ord('2') is 0x32 on ASCII is ~.22, "\xcd\xcd", '~. with number'; } $_ = "22"; is $_ &= "66", 2, 'numeric &= with strings'; $_ = "22"; is $_ |= "66", 86, 'numeric |= with strings'; $_ = "22"; is $_ ^= "66", 84, 'numeric ^= with strings'; $_ = 22; is $_ &.= 66, 22, '&.= with numbers'; $_ = 22; is $_ |.= 66, 66, '|.= with numbers'; $_ = 22; is $_ ^.= 66, "\4\4", '^.= with numbers'; # signed vs. unsigned ok ((~0 > 0 && do { use integer; ~0 } == -1)); my $bits = 0; for (my $i = ~0; $i; $i >>= 1) { ++$bits; } my $cusp = 1 << ($bits - 1); ok (($cusp & -1) > 0 && do { use integer; $cusp & -1 } < 0); ok (($cusp | 1) > 0 && do { use integer; $cusp | 1 } < 0); ok (($cusp ^ 1) > 0 && do { use integer; $cusp ^ 1 } < 0); ok ((1 << ($bits - 1)) == $cusp && do { use integer; 1 << ($bits - 1) } == -$cusp); ok (($cusp >> 1) == ($cusp / 2) && do { use integer; abs($cusp >> 1) } == ($cusp / 2)); } # ref tests my %res; for my $str ("x", "\x{100}") { for my $chr (qw/S A H G X ( * F/) { for my $op (qw/| & ^/) { my $co = ord $chr; my $so = ord $str; $res{"$chr$op$str"} = eval qq/chr($co $op $so)/; } } $res{"undef|$str"} = $str; $res{"undef&$str"} = ""; $res{"undef^$str"} = $str; } sub PVBM () { "X" } 1 if index "foo", PVBM; my $warn = 0; local $^W = 1; local $SIG{__WARN__} = sub { $warn++ }; sub is_first { my ($got, $orig, $op, $str, $name) = @_; is(substr($got, 0, 1), $res{"$orig$op$str"}, $name); } for ( # [object to test, first char of stringification, name] [undef, "undef", "undef" ], [\1, "S", "scalar ref" ], [[], "A", "array ref" ], [{}, "H", "hash ref" ], [qr/x/, "(", "qr//" ], [*foo, "*", "glob" ], [\*foo, "G", "glob ref" ], [PVBM, "X", "PVBM" ], [\PVBM, "S", "PVBM ref" ], [bless([], "Foo"), "F", "object" ], ) { my ($val, $orig, $type) = @$_; for (["x", "string"], ["\x{100}", "utf8"]) { my ($str, $desc) = @$_; $warn = 0; is_first($val | $str, $orig, "|", $str, "$type | $desc"); is_first($val & $str, $orig, "&", $str, "$type & $desc"); is_first($val ^ $str, $orig, "^", $str, "$type ^ $desc"); is_first($str | $val, $orig, "|", $str, "$desc | $type"); is_first($str & $val, $orig, "&", $str, "$desc & $type"); is_first($str ^ $val, $orig, "^", $str, "$desc ^ $type"); my $new; ($new = $val) |= $str; is_first($new, $orig, "|", $str, "$type |= $desc"); ($new = $val) &= $str; is_first($new, $orig, "&", $str, "$type &= $desc"); ($new = $val) ^= $str; is_first($new, $orig, "^", $str, "$type ^= $desc"); ($new = $str) |= $val; is_first($new, $orig, "|", $str, "$desc |= $type"); ($new = $str) &= $val; is_first($new, $orig, "&", $str, "$desc &= $type"); ($new = $str) ^= $val; is_first($new, $orig, "^", $str, "$desc ^= $type"); if ($orig eq "undef") { # undef |= and undef ^= don't warn is($warn, 10, "no duplicate warnings"); } else { is($warn, 0, "no warnings"); } } } my $strval; { package Bar; use overload q/""/ => sub { $strval }; package Baz; use overload q/|/ => sub { "y" }; } ok(!eval { 1 if bless([], "Bar") | "x"; 1 },"string overload can't use |"); like($@, qr/no method found/, "correct error"); is(eval { bless([], "Baz") | "x" }, "y", "| overload works"); my $obj = bless [], "Bar"; $strval = "x"; eval { $obj |= "Q" }; $strval = "z"; is("$obj", "z", "|= doesn't break string overload"); # [perl #29070] $^A .= new version ~$_ for eval sprintf('"\\x%02x"', 0xff - ord("1")), $::IS_EBCDIC ? v13 : v205, # 255 - ord('2') eval sprintf('"\\x%02x"', 0xff - ord("3")); is $^A, "123", '~v0 clears vstring magic on retval'; { my $w = $Config::Config{ivsize} * 8; fail("unexpected w $w") unless $w == 32 || $w == 64; is(1 << 1, 2, "UV 1 left shift 1"); is(1 >> 1, 0, "UV 1 right shift 1"); is(0x7b << -4, 0x007, "UV left negative shift == right shift"); is(0x7b >> -4, 0x7b0, "UV right negative shift == left shift"); is(0x7b << 0, 0x07b, "UV left zero shift == identity"); is(0x7b >> 0, 0x07b, "UV right zero shift == identity"); is(0x0 << -1, 0x0, "zero left negative shift == zero"); is(0x0 >> -1, 0x0, "zero right negative shift == zero"); cmp_ok(1 << $w - 1, '==', 2 ** ($w - 1), # not is() because NV stringify. "UV left $w - 1 shift == 2 ** ($w - 1)"); is(1 << $w, 0, "UV left shift $w == zero"); is(1 << $w + 1, 0, "UV left shift $w + 1 == zero"); is(1 >> $w - 1, 0, "UV right shift $w - 1 == zero"); is(1 >> $w, 0, "UV right shift $w == zero"); is(1 >> $w + 1, 0, "UV right shift $w + 1 == zero"); # Negative shiftees get promoted to UVs before shifting. This is # not necessarily the ideal behavior, but that is what is happening. if ($w == 64) { no warnings "portable"; no warnings "overflow"; # prevent compile-time warning for ivsize=4 is(-1 << 1, 0xFFFF_FFFF_FFFF_FFFE, "neg UV (sic) left shift = 0xFF..E"); is(-1 >> 1, 0x7FFF_FFFF_FFFF_FFFF, "neg UV (sic) right right = 0x7F..F"); } elsif ($w == 32) { no warnings "portable"; is(-1 << 1, 0xFFFF_FFFE, "neg left shift == 0xFF..E"); is(-1 >> 1, 0x7FFF_FFFF, "neg right right == 0x7F..F"); } { # 'use integer' means use IVs instead of UVs. use integer; # No surprises here. is(1 << 1, 2, "IV 1 left shift 1 == 2"); is(1 >> 1, 0, "IV 1 right shift 1 == 0"); # The left overshift should behave like without 'use integer', # that is, return zero. is(1 << $w, 0, "IV 1 left shift $w == 0"); is(1 << $w + 1, 0, "IV 1 left shift $w + 1 == 0"); is(-1 << $w, 0, "IV -1 left shift $w == 0"); is(-1 << $w + 1, 0, "IV -1 left shift $w + 1 == 0"); # Even for negative IVs, left shift is multiplication. # But right shift should display the stuckiness to -1. is(-1 << 1, -2, "IV -1 left shift 1 == -2"); is(-1 >> 1, -1, "IV -1 right shift 1 == -1"); # As for UVs, negative shifting means the reverse shift. is(-1 << -1, -1, "IV -1 left shift -1 == -1"); is(-1 >> -1, -2, "IV -1 right shift -1 == -2"); # Test also at and around wordsize, expect stuckiness to -1. is(-1 >> $w - 1, -1, "IV -1 right shift $w - 1 == -1"); is(-1 >> $w, -1, "IV -1 right shift $w == -1"); is(-1 >> $w + 1, -1, "IV -1 right shift $w + 1 == -1"); } }