#./perl BEGIN { eval { my $q = pack "q", 0 }; if ($@) { print "1..0 # Skip: no 64-bit types\n"; exit(0); } chdir 't' if -d 't'; @INC = '../lib'; } # This could use many more tests. # so that using > 0xfffffff constants and # 32+ bit integers don't cause noise use warnings; no warnings qw(overflow portable); print "1..67\n"; # as 6 * 6 = 36, the last digit of 6**n will always be six. Hence the last # digit of 16**n will always be six. Hence 16**n - 1 will always end in 5. # Assumption is that UVs will always be a multiple of 4 bits long. my $UV_max = ~0; die "UV_max eq '$UV_max', doesn't end in 5; your UV isn't 4n bits long :-(." unless $UV_max =~ /5$/; my $UV_max_less3 = $UV_max - 3; my $maths_preserves_UVs = $UV_max_less3 =~ /^\d+2$/; # 5 - 3 is 2. if ($maths_preserves_UVs) { print "# This perl's maths preserves all bits of a UV.\n"; } else { print "# This perl's maths does not preserve all bits of a UV.\n"; } my $q = 12345678901; my $r = 23456789012; my $f = 0xffffffff; my $x; my $y; $x = unpack "q", pack "q", $q; print "not " unless $x == $q && $x > $f; print "ok 1\n"; $x = sprintf("%lld", 12345678901); print "not " unless $x eq $q && $x > $f; print "ok 2\n"; $x = sprintf("%lld", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 3\n"; $x = sprintf("%Ld", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 4\n"; $x = sprintf("%qd", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 5\n"; $x = sprintf("%llx", $q); print "not " unless hex($x) == 0x2dfdc1c35 && hex($x) > $f; print "ok 6\n"; $x = sprintf("%Lx", $q); print "not " unless hex($x) == 0x2dfdc1c35 && hex($x) > $f; print "ok 7\n"; $x = sprintf("%qx", $q); print "not " unless hex($x) == 0x2dfdc1c35 && hex($x) > $f; print "ok 8\n"; $x = sprintf("%llo", $q); print "not " unless oct("0$x") == 0133767016065 && oct($x) > $f; print "ok 9\n"; $x = sprintf("%Lo", $q); print "not " unless oct("0$x") == 0133767016065 && oct($x) > $f; print "ok 10\n"; $x = sprintf("%qo", $q); print "not " unless oct("0$x") == 0133767016065 && oct($x) > $f; print "ok 11\n"; $x = sprintf("%llb", $q); print "not " unless oct("0b$x") == 0b1011011111110111000001110000110101 && oct("0b$x") > $f; print "ok 12\n"; $x = sprintf("%Lb", $q); print "not " unless oct("0b$x") == 0b1011011111110111000001110000110101 && oct("0b$x") > $f; print "ok 13\n"; $x = sprintf("%qb", $q); print "not " unless oct("0b$x") == 0b1011011111110111000001110000110101 && oct("0b$x") > $f; print "ok 14\n"; $x = sprintf("%llu", $q); print "not " unless $x eq $q && $x > $f; print "ok 15\n"; $x = sprintf("%Lu", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 16\n"; $x = sprintf("%qu", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 17\n"; $x = sprintf("%D", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 18\n"; $x = sprintf("%U", $q); print "not " unless $x == $q && $x eq $q && $x > $f; print "ok 19\n"; $x = sprintf("%O", $q); print "not " unless oct($x) == $q && oct($x) > $f; print "ok 20\n"; $x = $q + $r; print "not " unless $x == 35802467913 && $x > $f; print "ok 21\n"; $x = $q - $r; print "not " unless $x == -11111110111 && -$x > $f; print "ok 22\n"; if ($^O ne 'unicos') { $x = $q * 1234567; print "not " unless $x == 15241567763770867 && $x > $f; print "ok 23\n"; $x /= 1234567; print "not " unless $x == $q && $x > $f; print "ok 24\n"; $x = 98765432109 % 12345678901; print "not " unless $x == 901; print "ok 25\n"; # The following 12 tests adapted from op/inc. $a = 9223372036854775807; $c = $a++; print "not " unless $a == 9223372036854775808; print "ok 26\n"; $a = 9223372036854775807; $c = ++$a; print "not " unless $a == 9223372036854775808 && $c == $a; print "ok 27\n"; $a = 9223372036854775807; $c = $a + 1; print "not " unless $a == 9223372036854775807 && $c == 9223372036854775808; print "ok 28\n"; $a = -9223372036854775808; $c = $a--; print "not " unless $a == -9223372036854775809 && $c == -9223372036854775808; print "ok 29\n"; $a = -9223372036854775808; $c = --$a; print "not " unless $a == -9223372036854775809 && $c == $a; print "ok 30\n"; $a = -9223372036854775808; $c = $a - 1; print "not " unless $a == -9223372036854775808 && $c == -9223372036854775809; print "ok 31\n"; $a = 9223372036854775808; $a = -$a; $c = $a--; print "not " unless $a == -9223372036854775809 && $c == -9223372036854775808; print "ok 32\n"; $a = 9223372036854775808; $a = -$a; $c = --$a; print "not " unless $a == -9223372036854775809 && $c == $a; print "ok 33\n"; $a = 9223372036854775808; $a = -$a; $c = $a - 1; print "not " unless $a == -9223372036854775808 && $c == -9223372036854775809; print "ok 34\n"; $a = 9223372036854775808; $b = -$a; $c = $b--; print "not " unless $b == -$a-1 && $c == -$a; print "ok 35\n"; $a = 9223372036854775808; $b = -$a; $c = --$b; print "not " unless $b == -$a-1 && $c == $b; print "ok 36\n"; $a = 9223372036854775808; $b = -$a; $b = $b - 1; print "not " unless $b == -(++$a); print "ok 37\n"; } else { # Unicos has imprecise doubles (14 decimal digits or so), # especially if operating near the UV/IV limits the low-order bits # become mangled even by simple arithmetic operations. for (23..37) { print "ok $_ # skipped: too imprecise numbers\n"; } } $x = ''; print "not " unless (vec($x, 1, 64) = $q) == $q; print "ok 38\n"; print "not " unless vec($x, 1, 64) == $q && vec($x, 1, 64) > $f; print "ok 39\n"; print "not " unless vec($x, 0, 64) == 0 && vec($x, 2, 64) == 0; print "ok 40\n"; print "not " unless ~0 == 0xffffffffffffffff; print "ok 41\n"; print "not " unless (0xffffffff<<32) == 0xffffffff00000000; print "ok 42\n"; print "not " unless ((0xffffffff)<<32)>>32 == 0xffffffff; print "ok 43\n"; print "not " unless 1<<63 == 0x8000000000000000; print "ok 44\n"; print "not " unless (sprintf "%#Vx", 1<<63) eq '0x8000000000000000'; print "ok 45\n"; print "not " unless (0x8000000000000000 | 1) == 0x8000000000000001; print "ok 46\n"; print "not " unless (0xf000000000000000 & 0x8000000000000000) == 0x8000000000000000; print "ok 47\n"; print "not " unless (0xf000000000000000 ^ 0xfffffffffffffff0) == 0x0ffffffffffffff0; print "ok 48\n"; print "not " unless (sprintf "%b", ~0) eq '1111111111111111111111111111111111111111111111111111111111111111'; print "ok 49\n"; print "not " unless (sprintf "%64b", ~0) eq '1111111111111111111111111111111111111111111111111111111111111111'; print "ok 50\n"; print "not " unless (sprintf "%d", ~0>>1) eq '9223372036854775807'; print "ok 51\n"; print "not " unless (sprintf "%u", ~0) eq '18446744073709551615'; print "ok 52\n"; # If the 53..55 fail you have problems in the parser's string->int conversion, # see toke.c:scan_num(). $q = -9223372036854775808; print "# $q ne\n# -9223372036854775808\nnot " unless "$q" eq "-9223372036854775808"; print "ok 53\n"; $q = 9223372036854775807; print "# $q ne\n# 9223372036854775807\nnot " unless "$q" eq "9223372036854775807"; print "ok 54\n"; $q = 18446744073709551615; print "# $q ne\n# 18446744073709551615\nnot " unless "$q" eq "18446744073709551615"; print "ok 55\n"; # Test that sv_2nv then sv_2iv is the same as sv_2iv direct # fails if whatever Atol is defined as can't actually cope with >32 bits. my $num = 4294967297; my $string = "4294967297"; { use integer; $num += 0; $string += 0; } if ($num eq $string) { print "ok 56\n"; } else { print "not ok 56 # \"$num\" ne \"$string\"\n"; } # Test that sv_2nv then sv_2uv is the same as sv_2uv direct $num = 4294967297; $string = "4294967297"; $num &= 0; $string &= 0; if ($num eq $string) { print "ok 57\n"; } else { print "not ok 57 # \"$num\" ne \"$string\"\n"; } $q = "18446744073709551616e0"; $q += 0; print "# \"18446744073709551616e0\" += 0 gives $q\nnot " if "$q" eq "18446744073709551615"; print "ok 58\n"; # 0xFFFFFFFFFFFFFFFF == 1 * 3 * 5 * 17 * 257 * 641 * 65537 * 6700417' $q = 0xFFFFFFFFFFFFFFFF / 3; if ($q == 0x5555555555555555 and ($q != 0x5555555555555556 or !$maths_preserves_UVs)) { print "ok 59\n"; } else { print "not ok 59 # 0xFFFFFFFFFFFFFFFF / 3 = $q\n"; print "# Should not be floating point\n" if $q =~ tr/e.//; } $q = 0xFFFFFFFFFFFFFFFF % 0x5555555555555555; if ($q == 0) { print "ok 60\n"; } else { print "not ok 60 # 0xFFFFFFFFFFFFFFFF % 0x5555555555555555 => $q\n"; } $q = 0xFFFFFFFFFFFFFFFF % 0xFFFFFFFFFFFFFFF0; if ($q == 0xF) { print "ok 61\n"; } else { print "not ok 61 # 0xFFFFFFFFFFFFFFFF % 0xFFFFFFFFFFFFFFF0 => $q\n"; } $q = 0x8000000000000000 % 9223372036854775807; if ($q == 1) { print "ok 62\n"; } else { print "not ok 62 # 0x8000000000000000 % 9223372036854775807 => $q\n"; } $q = 0x8000000000000000 % -9223372036854775807; if ($q == -9223372036854775806) { print "ok 63\n"; } else { print "not ok 63 # 0x8000000000000000 % -9223372036854775807 => $q\n"; } { use integer; $q = hex "0x123456789abcdef0"; if ($q == 0x123456789abcdef0 and $q != 0x123456789abcdef1) { print "ok 64\n"; } else { printf "not ok 64 # hex \"0x123456789abcdef0\" = $q (%X)\n", $q; print "# Should not be floating point\n" if $q =~ tr/e.//; } $q = oct "0x123456789abcdef0"; if ($q == 0x123456789abcdef0 and $q != 0x123456789abcdef1) { print "ok 65\n"; } else { printf "not ok 65 # oct \"0x123456789abcdef0\" = $q (%X)\n", $q; print "# Should not be floating point\n" if $q =~ tr/e.//; } $q = oct "765432176543217654321"; if ($q == 0765432176543217654321 and $q != 0765432176543217654322) { print "ok 66\n"; } else { printf "not ok 66 # oct \"765432176543217654321\" = $q (%o)\n", $q; print "# Should not be floating point\n" if $q =~ tr/e.//; } $q = oct "0b0101010101010101010101010101010101010101010101010101010101010101"; if ($q == 0x5555555555555555 and $q != 0x5555555555555556) { print "ok 67\n"; } else { printf "not ok 67 # oct \"0b0101010101010101010101010101010101010101010101010101010101010101\" = $q (%b)\n", $q; print "# Should not be floating point\n" if $q =~ tr/e.//; } } # eof