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|
#!./perl
BEGIN {
chdir 't' if -d 't';
@INC = '../lib';
}
# 2s complement assumption. Won't break test, just makes the internals of
# the SVs less interesting if were not on 2s complement system.
my $uv_max = ~0;
my $uv_maxm1 = ~0 ^ 1;
my $uv_big = $uv_max;
$uv_big = ($uv_big - 20000) | 1;
my ($iv0, $iv1, $ivm1, $iv_min, $iv_max, $iv_big, $iv_small);
$iv_max = $uv_max; # Do copy, *then* divide
$iv_max /= 2;
$iv_min = $iv_max;
{
use integer;
$iv0 = 2 - 2;
$iv1 = 3 - 2;
$ivm1 = 2 - 3;
$iv_max -= 1;
$iv_min += 0;
$iv_big = $iv_max - 3;
$iv_small = $iv_min + 2;
}
my $uv_bigi = $iv_big;
$uv_bigi |= 0x0;
my @array = qw(perl rules);
my @raw, @upgraded, @utf8;
foreach ("\x{1F4A9}", chr(163), 'N') {
push @raw, $_;
my $temp = $_ . chr 256;
chop $temp;
push @upgraded, $temp;
my $utf8 = $_;
next if utf8::upgrade($utf8) == length $_;
utf8::encode($utf8);
push @utf8, $utf8;
}
# Seems one needs to perform the maths on 'Inf' to get the NV correctly primed.
@FOO = ('s', 'N/A', 'a', 'NaN', -1, undef, 0, 1, 3.14, 1e37, 0.632120558, -.5,
'Inf'+1, '-Inf'-1, 0x0, 0x1, 0x5, 0xFFFFFFFF, $uv_max, $uv_maxm1,
$uv_big, $uv_bigi, $iv0, $iv1, $ivm1, $iv_min, $iv_max, $iv_big,
$iv_small, \$array[0], \$array[0], \$array[1], \$^X, @raw, @upgraded,
@utf8);
$expect = 7 * ($#FOO+2) * ($#FOO+1) + 6 * @raw + 6 * @utf8;
print "1..$expect\n";
my $bad_NaN = 0;
{
# gcc's -ffast-math option may stop NaNs working correctly
use Config;
my $ccflags = $Config{ccflags} // '';
$bad_NaN = 1 if $ccflags =~ /-ffast-math\b/;
}
sub nok ($$$$$$$$) {
my ($test, $left, $threeway, $right, $result, $i, $j, $boolean) = @_;
$result = defined $result ? "'$result'" : 'undef';
if ($bad_NaN && ($left eq 'NaN' || $right eq 'NaN')) {
print "ok $test # skipping failed NaN test under -ffast-math\n";
}
else {
print "not ok $test # ($left $threeway $right) gives: $result \$i=$i \$j=$j, $boolean disagrees\n";
}
}
my $ok = 0;
for my $i (0..$#FOO) {
for my $j ($i..$#FOO) {
$ok++;
# Comparison routines may convert these internally, which would change
# what is used to determine the comparison on later runs. Hence copy
my ($i1, $i2, $i3, $i4, $i5, $i6, $i7, $i8, $i9, $i10,
$i11, $i12, $i13, $i14, $i15, $i16, $i17) =
($FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i],
$FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i],
$FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i], $FOO[$i]);
my ($j1, $j2, $j3, $j4, $j5, $j6, $j7, $j8, $j9, $j10,
$j11, $j12, $j13, $j14, $j15, $j16, $j17) =
($FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j],
$FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j],
$FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j], $FOO[$j]);
my $cmp = $i1 <=> $j1;
if (!defined($cmp) ? !($i2 < $j2)
: ($cmp == -1 && $i2 < $j2 ||
$cmp == 0 && !($i2 < $j2) ||
$cmp == 1 && !($i2 < $j2)))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '<');
}
$ok++;
if (!defined($cmp) ? !($i4 == $j4)
: ($cmp == -1 && !($i4 == $j4) ||
$cmp == 0 && $i4 == $j4 ||
$cmp == 1 && !($i4 == $j4)))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '==');
}
$ok++;
if (!defined($cmp) ? !($i5 > $j5)
: ($cmp == -1 && !($i5 > $j5) ||
$cmp == 0 && !($i5 > $j5) ||
$cmp == 1 && ($i5 > $j5)))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '>');
}
$ok++;
if (!defined($cmp) ? !($i6 >= $j6)
: ($cmp == -1 && !($i6 >= $j6) ||
$cmp == 0 && $i6 >= $j6 ||
$cmp == 1 && $i6 >= $j6))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '>=');
}
$ok++;
# OK, so the docs are wrong it seems. NaN != NaN
if (!defined($cmp) ? ($i7 != $j7)
: ($cmp == -1 && $i7 != $j7 ||
$cmp == 0 && !($i7 != $j7) ||
$cmp == 1 && $i7 != $j7))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '!=');
}
$ok++;
if (!defined($cmp) ? !($i8 <= $j8)
: ($cmp == -1 && $i8 <= $j8 ||
$cmp == 0 && $i8 <= $j8 ||
$cmp == 1 && !($i8 <= $j8)))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '<=');
}
$ok++;
my $pmc = $j16 <=> $i16; # cmp it in reverse
# Should give -ve of other answer, or undef for NaNs
# a + -a should be zero. not zero is truth. which avoids using ==
if (defined($cmp) ? !($cmp + $pmc) : !defined $pmc)
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, '<=>', $j3, $cmp, $i, $j, '<=> transposed');
}
# String comparisons
$ok++;
$cmp = $i9 cmp $j9;
if ($cmp == -1 && $i10 lt $j10 ||
$cmp == 0 && !($i10 lt $j10) ||
$cmp == 1 && !($i10 lt $j10))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'lt');
}
$ok++;
if ($cmp == -1 && !($i11 eq $j11) ||
$cmp == 0 && ($i11 eq $j11) ||
$cmp == 1 && !($i11 eq $j11))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'eq');
}
$ok++;
if ($cmp == -1 && !($i12 gt $j12) ||
$cmp == 0 && !($i12 gt $j12) ||
$cmp == 1 && ($i12 gt $j12))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'gt');
}
$ok++;
if ($cmp == -1 && $i13 le $j13 ||
$cmp == 0 && ($i13 le $j13) ||
$cmp == 1 && !($i13 le $j13))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'le');
}
$ok++;
if ($cmp == -1 && ($i14 ne $j14) ||
$cmp == 0 && !($i14 ne $j14) ||
$cmp == 1 && ($i14 ne $j14))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'ne');
}
$ok++;
if ($cmp == -1 && !($i15 ge $j15) ||
$cmp == 0 && ($i15 ge $j15) ||
$cmp == 1 && ($i15 ge $j15))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'ge');
}
$ok++;
$pmc = $j17 cmp $i17; # cmp it in reverse
# Should give -ve of other answer
# a + -a should be zero. not zero is truth. which avoids using ==
if (!($cmp + $pmc))
{
print "ok $ok\n";
}
else {
nok ($ok, $i3, 'cmp', $j3, $cmp, $i, $j, 'cmp transposed');
}
}
}
# We know the answers for these. We can rely on the consistency checks above
# to test the other string comparisons.
while (my ($i, $v) = each @raw) {
# Copy, to avoid any inadvertent conversion
my ($raw, $cooked, $not);
$raw = $v;
$cooked = $upgraded[$i];
$not = $raw eq $cooked ? '' : 'not ';
printf "%sok %d # eq, chr %d\n", $not, ++$ok, ord $raw;
$raw = $v;
$cooked = $upgraded[$i];
$not = $raw ne $cooked ? 'not ' : '';
printf "%sok %d # ne, chr %d\n", $not, ++$ok, ord $raw;
$raw = $v;
$cooked = $upgraded[$i];
$not = (($raw cmp $cooked) == 0) ? '' : 'not ';
printf "%sok %d # cmp, chr %d\n", $not, ++$ok, ord $raw;
# And now, transposed.
$raw = $v;
$cooked = $upgraded[$i];
$not = $cooked eq $raw ? '' : 'not ';
printf "%sok %d # eq, chr %d\n", $not, ++$ok, ord $raw;
$raw = $v;
$cooked = $upgraded[$i];
$not = $cooked ne $raw ? 'not ' : '';
printf "%sok %d # ne, chr %d\n", $not, ++$ok, ord $raw;
$raw = $v;
$cooked = $upgraded[$i];
$not = (($cooked cmp $raw) == 0) ? '' : 'not ';
printf "%sok %d # cmp, chr %d\n", $not, ++$ok, ord $raw;
}
while (my ($i, $v) = each @utf8) {
# Copy, to avoid any inadvertent conversion
my ($raw, $cooked, $not);
$raw = $raw[$i];
$cooked = $v;
$not = $raw eq $cooked ? 'not ' : '';
printf "%sok %d # eq vs octets, chr %d\n", $not, ++$ok, ord $raw;
$raw = $raw[$i];
$cooked = $v;
$not = $raw ne $cooked ? '' : 'not ';
printf "%sok %d # ne vs octets, chr %d\n", $not, ++$ok, ord $raw;
$raw = $raw[$i];
$cooked = $v;
$not = (($raw cmp $cooked) == 0) ? 'not ' : '';
printf "%sok %d # cmp vs octects, chr %d\n", $not, ++$ok, ord $raw;
# And now, transposed.
$raw = $raw[$i];
$cooked = $v;
$not = $cooked eq $raw ? 'not ' : '';
printf "%sok %d # eq vs octets, chr %d\n", $not, ++$ok, ord $raw;
$raw = $raw[$i];
$cooked = $v;
$not = $cooked ne $raw? '' : 'not ';
printf "%sok %d # ne vs octets, chr %d\n", $not, ++$ok, ord $raw;
$raw = $raw[$i];
$cooked = $v;
$not = (($cooked cmp $raw) == 0) ? 'not ' : '';
printf "%sok %d # cmp vs octects, chr %d\n", $not, ++$ok, ord $raw;
}
|