#!./perl -w # This file has been placed in t/opbasic to indicate that it should not use # functions imported from t/test.pl or Test::More, as those programs/libraries # use operators which are what is being tested in this file. print "1..180\n"; sub try ($$$) { print +($_[1] ? "ok" : "not ok") . " $_[0] - $_[2]\n"; } sub tryeq ($$$$) { my $status; if ($_[1] == $_[2]) { $status = "ok $_[0]"; } else { $status = "not ok $_[0] # $_[1] != $_[2]"; } print "$status - $_[3]\n"; } sub tryeq_sloppy ($$$$) { my $status; if ($_[1] == $_[2]) { $status = "ok $_[0]"; } else { my $error = abs (($_[1] - $_[2]) / $_[1]); if ($error < 1e-9) { $status = "ok $_[0] # $_[1] is close to $_[2], \$^O eq $^O"; } else { $status = "not ok $_[0] # $_[1] != $_[2]"; } } print "$status - $_[3]\n"; } my $T = 1; tryeq $T++, 13 % 4, 1, 'modulo: positive positive'; tryeq $T++, -13 % 4, 3, 'modulo: negative positive'; tryeq $T++, 13 % -4, -3, 'modulo: positive negative'; tryeq $T++, -13 % -4, -1, 'modulo: negative negative'; # Exercise some of the dright/dleft logic in pp_modulo tryeq $T++, 13.333333 % 5.333333, 3, 'modulo: 13.333333 % 5.333333'; tryeq $T++, 13.333333 % 5, 3, 'modulo: 13.333333 % 5'; tryeq $T++, 13 % 5.333333, 3, 'modulo: 13 % 5.333333'; # Give abs() a good work-out before using it in anger tryeq $T++, abs(0), 0, 'abs(): 0 0'; tryeq $T++, abs(1), 1, 'abs(): 1 1'; tryeq $T++, abs(-1), 1, 'abs(): -1 1'; tryeq $T++, abs(2147483647), 2147483647, 'abs(): 2**31-1: pos pos'; tryeq $T++, abs(-2147483647), 2147483647, 'abs(): 2**31-1: neg pos'; tryeq $T++, abs(4294967295), 4294967295, 'abs(): 2**32-1: pos pos'; tryeq $T++, abs(-4294967295), 4294967295, 'abs(): 2**32-1: neg pos'; tryeq $T++, abs(9223372036854775807), 9223372036854775807, 'abs(): 2**63-1: pos pos'; tryeq $T++, abs(-9223372036854775807), 9223372036854775807, 'abs(): 2**63-1: neg pos'; # Assume no change whatever; no slop needed tryeq $T++, abs(1e50), 1e50, 'abs(): 1e50: pos pos'; # Assume only sign bit flipped tryeq $T++, abs(-1e50), 1e50, 'abs(): 1e50: neg pos'; my $limit = 1e6; # Division (and modulo) of floating point numbers # seem to be rather sloppy in Cray. $limit = 1e8 if $^O eq 'unicos'; try $T++, abs( 13e21 % 4e21 - 1e21) < $limit, 'abs() for floating point'; try $T++, abs(-13e21 % 4e21 - 3e21) < $limit, 'abs() for floating point'; try $T++, abs( 13e21 % -4e21 - -3e21) < $limit, 'abs() for floating point'; try $T++, abs(-13e21 % -4e21 - -1e21) < $limit, 'abs() for floating point'; tryeq $T++, 4063328477 % 65535, 27407, 'UV behaves properly: modulo'; tryeq $T++, 4063328477 % 4063328476, 1, 'UV behaves properly: modulo'; tryeq $T++, 4063328477 % 2031664238, 1, 'UV behaves properly: modulo'; tryeq $T++, 2031664238 % 4063328477, 2031664238, 'UV behaves properly: modulo'; tryeq $T++, 2147483647 + 0, 2147483647, 'trigger wrapping on 32 bit IVs and UVs'; tryeq $T++, 2147483647 + 1, 2147483648, 'IV + IV promotes to UV'; tryeq $T++, 2147483640 + 10, 2147483650, 'IV + IV promotes to UV'; tryeq $T++, 2147483647 + 2147483647, 4294967294, 'IV + IV promotes to UV'; tryeq $T++, 2147483647 + 2147483649, 4294967296, 'IV + UV promotes to NV'; tryeq $T++, 4294967294 + 2, 4294967296, 'UV + IV promotes to NV'; tryeq $T++, 4294967295 + 4294967295, 8589934590, 'UV + UV promotes to NV'; tryeq $T++, 2147483648 + -1, 2147483647, 'UV + IV promotes to IV'; tryeq $T++, 2147483650 + -10, 2147483640, 'UV + IV promotes to IV'; tryeq $T++, -1 + 2147483648, 2147483647, 'IV + UV promotes to IV'; tryeq $T++, -10 + 4294967294, 4294967284, 'IV + UV promotes to IV'; tryeq $T++, -2147483648 + -2147483648, -4294967296, 'IV + IV promotes to NV'; tryeq $T++, -2147483640 + -10, -2147483650, 'IV + IV promotes to NV'; # Hmm. Do not forget the simple stuff # addition tryeq $T++, 1 + 1, 2, 'addition of 2 positive integers'; tryeq $T++, 4 + -2, 2, 'addition of positive and negative integer'; tryeq $T++, -10 + 100, 90, 'addition of negative and positive integer'; tryeq $T++, -7 + -9, -16, 'addition of 2 negative integers'; tryeq $T++, -63 + +2, -61, 'addition of signed negative and positive integers'; tryeq $T++, 4 + -1, 3, 'addition of positive and negative integer'; tryeq $T++, -1 + 1, 0, 'addition which sums to 0'; tryeq $T++, +29 + -29, 0, 'addition which sums to 0'; tryeq $T++, -1 + 4, 3, 'addition of signed negative and positive integers'; tryeq $T++, +4 + -17, -13, 'addition of signed positive and negative integers'; # subtraction tryeq $T++, 3 - 1, 2, 'subtraction of two positive integers'; tryeq $T++, 3 - 15, -12, 'subtraction of two positive integers: minuend smaller'; tryeq $T++, 3 - -7, 10, 'subtraction of positive and negative integer'; tryeq $T++, -156 - 5, -161, 'subtraction of negative and positive integer'; tryeq $T++, -156 - -5, -151, 'subtraction of two negative integers'; tryeq $T++, -5 - -12, 7, 'subtraction of two negative integers: minuend smaller'; tryeq $T++, -3 - -3, 0, 'subtraction of two negative integers with result of 0'; tryeq $T++, 15 - 15, 0, 'subtraction of two positive integers with result of 0'; tryeq $T++, 2147483647 - 0, 2147483647, 'subtraction from large integer'; tryeq $T++, 2147483648 - 0, 2147483648, 'subtraction from large integer'; tryeq $T++, -2147483648 - 0, -2147483648, 'subtraction from large negative integer'; tryeq $T++, 0 - -2147483647, 2147483647, 'subtraction of large negative integer from 0'; tryeq $T++, -1 - -2147483648, 2147483647, 'subtraction of large negative integer from negative integer'; tryeq $T++, 2 - -2147483648, 2147483650, 'subtraction of large negative integer from positive integer'; tryeq $T++, 4294967294 - 3, 4294967291, 'subtraction from large integer'; tryeq $T++, -2147483648 - -1, -2147483647, 'subtraction from large negative integer'; tryeq $T++, 2147483647 - -1, 2147483648, 'IV - IV promote to UV'; tryeq $T++, 2147483647 - -2147483648, 4294967295, 'IV - IV promote to UV'; tryeq $T++, 4294967294 - -3, 4294967297, 'UV - IV promote to NV'; tryeq $T++, -2147483648 - +1, -2147483649, 'IV - IV promote to NV'; tryeq $T++, 2147483648 - 2147483650, -2, 'UV - UV promote to IV'; tryeq $T++, 2000000000 - 4000000000, -2000000000, 'IV - UV promote to IV'; # No warnings should appear; my $a; $a += 1; tryeq $T++, $a, 1, '+= with positive'; undef $a; $a += -1; tryeq $T++, $a, -1, '+= with negative'; undef $a; $a += 4294967290; tryeq $T++, $a, 4294967290, '+= with positive'; undef $a; $a += -4294967290; tryeq $T++, $a, -4294967290, '+= with negative'; undef $a; $a += 4294967297; tryeq $T++, $a, 4294967297, '+= with positive'; undef $a; $a += -4294967297; tryeq $T++, $a, -4294967297, '+= with negative'; my $s; $s -= 1; tryeq $T++, $s, -1, '-= with positive'; undef $s; $s -= -1; tryeq $T++, $s, +1, '-= with negative'; undef $s; $s -= -4294967290; tryeq $T++, $s, +4294967290, '-= with negative'; undef $s; $s -= 4294967290; tryeq $T++, $s, -4294967290, '-= with negative'; undef $s; $s -= 4294967297; tryeq $T++, $s, -4294967297, '-= with positive'; undef $s; $s -= -4294967297; tryeq $T++, $s, +4294967297, '-= with positive'; # multiplication tryeq $T++, 1 * 3, 3, 'multiplication of two positive integers'; tryeq $T++, -2 * 3, -6, 'multiplication of negative and positive integer'; tryeq $T++, 3 * -3, -9, 'multiplication of positive and negative integer'; tryeq $T++, -4 * -3, 12, 'multiplication of two negative integers'; # check with 0xFFFF and 0xFFFF tryeq $T++, 65535 * 65535, 4294836225, 'multiplication: 0xFFFF and 0xFFFF: pos pos'; tryeq $T++, 65535 * -65535, -4294836225, 'multiplication: 0xFFFF and 0xFFFF: pos neg'; tryeq $T++, -65535 * 65535, -4294836225, 'multiplication: 0xFFFF and 0xFFFF: pos neg'; tryeq $T++, -65535 * -65535, 4294836225, 'multiplication: 0xFFFF and 0xFFFF: neg neg'; # check with 0xFFFF and 0x10001 tryeq $T++, 65535 * 65537, 4294967295, 'multiplication: 0xFFFF and 0x10001: pos pos'; tryeq $T++, 65535 * -65537, -4294967295, 'multiplication: 0xFFFF and 0x10001: pos neg'; tryeq $T++, -65535 * 65537, -4294967295, 'multiplication: 0xFFFF and 0x10001: neg pos'; tryeq $T++, -65535 * -65537, 4294967295, 'multiplication: 0xFFFF and 0x10001: neg neg'; # check with 0x10001 and 0xFFFF tryeq $T++, 65537 * 65535, 4294967295, 'multiplication: 0x10001 and 0xFFFF: pos pos'; tryeq $T++, 65537 * -65535, -4294967295, 'multiplication: 0x10001 and 0xFFFF: pos neg'; tryeq $T++, -65537 * 65535, -4294967295, 'multiplication: 0x10001 and 0xFFFF: neg pos'; tryeq $T++, -65537 * -65535, 4294967295, 'multiplication: 0x10001 and 0xFFFF: neg neg'; # These should all be dones as NVs tryeq $T++, 65537 * 65537, 4295098369, 'multiplication: NV: pos pos'; tryeq $T++, 65537 * -65537, -4295098369, 'multiplication: NV: pos neg'; tryeq $T++, -65537 * 65537, -4295098369, 'multiplication: NV: neg pos'; tryeq $T++, -65537 * -65537, 4295098369, 'multiplication: NV: neg neg'; # will overflow an IV (in 32-bit) tryeq $T++, 46340 * 46342, 0x80001218, 'multiplication: overflow an IV in 32-bit: pos pos'; tryeq $T++, 46340 * -46342, -0x80001218, 'multiplication: overflow an IV in 32-bit: pos neg'; tryeq $T++, -46340 * 46342, -0x80001218, 'multiplication: overflow an IV in 32-bit: neg pos'; tryeq $T++, -46340 * -46342, 0x80001218, 'multiplication: overflow an IV in 32-bit: neg neg'; tryeq $T++, 46342 * 46340, 0x80001218, 'multiplication: overflow an IV in 32-bit: pos pos'; tryeq $T++, 46342 * -46340, -0x80001218, 'multiplication: overflow an IV in 32-bit: pos neg'; tryeq $T++, -46342 * 46340, -0x80001218, 'multiplication: overflow an IV in 32-bit: neg pos'; tryeq $T++, -46342 * -46340, 0x80001218, 'multiplication: overflow an IV in 32-bit: neg neg'; # will overflow a positive IV (in 32-bit) tryeq $T++, 65536 * 32768, 0x80000000, 'multiplication: overflow a positive IV in 32-bit: pos pos'; tryeq $T++, 65536 * -32768, -0x80000000, 'multiplication: overflow a positive IV in 32-bit: pos neg'; tryeq $T++, -65536 * 32768, -0x80000000, 'multiplication: overflow a positive IV in 32-bit: neg pos'; tryeq $T++, -65536 * -32768, 0x80000000, 'multiplication: overflow a positive IV in 32-bit: neg neg'; tryeq $T++, 32768 * 65536, 0x80000000, 'multiplication: overflow a positive IV in 32-bit: pos pos'; tryeq $T++, 32768 * -65536, -0x80000000, 'multiplication: overflow a positive IV in 32-bit: pos neg'; tryeq $T++, -32768 * 65536, -0x80000000, 'multiplication: overflow a positive IV in 32-bit: neg pos'; tryeq $T++, -32768 * -65536, 0x80000000, 'multiplication: overflow a positive IV in 32-bit: neg neg'; # 2147483647 is prime. bah. tryeq $T++, 46339 * 46341, 0x7ffea80f, 'multiplication: hex product: pos pos'; tryeq $T++, 46339 * -46341, -0x7ffea80f, 'multiplication: hex product: pos neg'; tryeq $T++, -46339 * 46341, -0x7ffea80f, 'multiplication: hex product: neg pos'; tryeq $T++, -46339 * -46341, 0x7ffea80f, 'multiplication: hex product: neg neg'; # leading space should be ignored tryeq $T++, 1 + " 1", 2, 'ignore leading space: addition'; tryeq $T++, 3 + " -1", 2, 'ignore leading space: subtraction'; tryeq $T++, 1.2, " 1.2", 'floating point and string equivalent: positive'; tryeq $T++, -1.2, " -1.2", 'floating point and string equivalent: negative'; # division tryeq $T++, 28/14, 2, 'division of two positive integers'; tryeq $T++, 28/-7, -4, 'division of positive integer by negative'; tryeq $T++, -28/4, -7, 'division of negative integer by positive'; tryeq $T++, -28/-2, 14, 'division of negative integer by negative'; tryeq $T++, 0x80000000/1, 0x80000000, 'division of positive hex by positive integer'; tryeq $T++, 0x80000000/-1, -0x80000000, 'division of positive hex by negative integer'; tryeq $T++, -0x80000000/1, -0x80000000, 'division of negative hex by negative integer'; tryeq $T++, -0x80000000/-1, 0x80000000, 'division of negative hex by positive integer'; # The example for sloppy divide, rigged to avoid the peephole optimiser. tryeq_sloppy $T++, "20." / "5.", 4, 'division of floating point without fractional part'; tryeq $T++, 2.5 / 2, 1.25, 'division of positive floating point by positive integer'; tryeq $T++, 3.5 / -2, -1.75, 'division of positive floating point by negative integer'; tryeq $T++, -4.5 / 2, -2.25, 'division of negative floating point by positive integer'; tryeq $T++, -5.5 / -2, 2.75, 'division of negative floating point by negative integer'; # Bluuurg if your floating point can not accurately cope with powers of 2 # [I suspect this is parsing string->float problems, not actual arith] tryeq_sloppy $T++, 18446744073709551616/1, 18446744073709551616, 'division of very large number by 1'; # Bluuurg tryeq_sloppy $T++, 18446744073709551616/2, 9223372036854775808, 'division of very large number by 2'; tryeq_sloppy $T++, 18446744073709551616/4294967296, 4294967296, 'division of two very large numbers'; tryeq_sloppy $T++, 18446744073709551616/9223372036854775808, 2, 'division of two very large numbers'; { # The peephole optimiser is wrong to think that it can substitute intops # in place of regular ops, because i_multiply can overflow. # Bug reported by "Sisyphus" my $n = 1127; my $float = ($n % 1000) * 167772160.0; tryeq_sloppy $T++, $float, 21307064320, 'integer times floating point'; # On a 32 bit machine, if the i_multiply op is used, you will probably get # -167772160. It is actually undefined behaviour, so anything may happen. my $int = ($n % 1000) * 167772160; tryeq $T++, $int, 21307064320, 'integer times integer'; my $float2 = ($n % 1000 + 0.0) * 167772160; tryeq $T++, $float2, 21307064320, 'floating point times integer'; my $int2 = ($n % 1000 + 0) * 167772160; tryeq $T++, $int2, 21307064320, 'integer plus zero times integer'; # zero, but in a way that ought to be able to defeat any future optimizer: my $zero = $$ - $$; my $int3 = ($n % 1000 + $zero) * 167772160; tryeq $T++, $int3, 21307064320, 'defeat any future optimizer'; my $t = time; my $t1000 = time() * 1000; try $T++, abs($t1000 -1000 * $t) <= 2000, 'absolute value'; } { # 64 bit variants my $n = 1127; my $float = ($n % 1000) * 720575940379279360.0; tryeq_sloppy $T++, $float, 9.15131444281685e+19, '64 bit: integer times floating point'; my $int = ($n % 1000) * 720575940379279360; tryeq_sloppy $T++, $int, 9.15131444281685e+19, '64 bit: integer times integer'; my $float2 = ($n % 1000 + 0.0) * 720575940379279360; tryeq_sloppy $T++, $float2, 9.15131444281685e+19, '64 bit: floating point times integer'; my $int2 = ($n % 1000 + 0) * 720575940379279360; tryeq_sloppy $T++, $int2, 9.15131444281685e+19, '64 bit: integer plus zero times integer'; # zero, but in a way that ought to be able to defeat any future optimizer: my $zero = $$ - $$; my $int3 = ($n % 1000 + $zero) * 720575940379279360; tryeq_sloppy $T++, $int3, 9.15131444281685e+19, '64 bit: defeat any future optimizer'; } # [perl #109542] $1 and "$1" should be treated the same way "976562500000000" =~ /(\d+)/; $a = ($1 * 1024); $b = ("$1" * 1024); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" * something\n'; $a = (1024 * $1); $b = (1024 * "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something * \$1 vs "\$1"\n'; $a = ($1 + 102400000000000); $b = ("$1" + 102400000000000); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" + something\n'; $a = (102400000000000 + $1); $b = (102400000000000 + "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something + \$1 vs "\$1"\n'; $a = ($1 - 10240000000000000); $b = ("$1" - 10240000000000000); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" - something\n'; $a = (10240000000000000 - $1); $b = (10240000000000000 - "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something - \$1 vs "\$1"\n'; "976562500" =~ /(\d+)/; $a = ($1 ** 2); $b = ("$1" ** 2); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" ** something\n'; "32" =~ /(\d+)/; $a = (3 ** $1); $b = (3 ** "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something ** \$1 vs "\$1"\n'; "97656250000000000" =~ /(\d+)/; $a = ($1 / 10); $b = ("$1" / 10); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" / something\n'; "10" =~ /(\d+)/; $a = (97656250000000000 / $1); $b = (97656250000000000 / "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something / \$1 vs "\$1"\n'; "97656250000000000" =~ /(\d+)/; $a = ($1 <=> 97656250000000001); $b = ("$1" <=> 97656250000000001); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" <=> something\n'; $a = (97656250000000001 <=> $1); $b = (97656250000000001 <=> "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something <=> \$1 vs "\$1"\n'; "97656250000000001" =~ /(\d+)/; $a = ($1 % 97656250000000002); $b = ("$1" % 97656250000000002); print "not "x($a ne $b), "ok ", $T++, qq ' - \$1 vs "\$1" % something\n'; $a = (97656250000000000 % $1); $b = (97656250000000000 % "$1"); print "not "x($a ne $b), "ok ", $T++, qq ' - something % \$1 vs "\$1"\n'; # string-to-nv should equal float literals try $T++, "1.23" + 0 == 1.23, '1.23'; try $T++, " 1.23" + 0 == 1.23, '1.23 with leading space'; try $T++, "1.23 " + 0 == 1.23, '1.23 with trailing space'; try $T++, "+1.23" + 0 == 1.23, '1.23 with unary plus'; try $T++, "-1.23" + 0 == -1.23, '1.23 with unary minus'; try $T++, "1.23e4" + 0 == 12300, '1.23e4'; # trigger various attempts to negate IV_MIN tryeq $T++, 0x80000000 / -0x80000000, -1, '(IV_MAX+1) / IV_MIN'; tryeq $T++, -0x80000000 / 0x80000000, -1, 'IV_MIN / (IV_MAX+1)'; tryeq $T++, 0x80000000 / -1, -0x80000000, '(IV_MAX+1) / -1'; tryeq $T++, 0 % -0x80000000, 0, '0 % IV_MIN'; tryeq $T++, -0x80000000 % -0x80000000, 0, 'IV_MIN % IV_MIN';