require "test.pl";
sub unidump {
join " ", map { sprintf "%04X", $_ } unpack "U*", $_[0];
}
sub casetest {
"lib", "unicore", "To"),
"$base.pl");
my %simple;
for my $i (split(/\n/, $simple)) {
my ($k, $v) = split(' ', $i);
$simple{$k} = $v;
}
my %seen;
for my $i (sort keys %simple) {
$seen{$i}++;
}
my $both;
for my $i (sort keys %$spec) {
if (++$seen{$i} == 2) {
warn sprintf "$base: $i seen twice\n";
$both++;
}
}
exit(1) if $both;
my %none;
for my $i (map { ord } split //,
"\e !\"#\$%&'()+,-./0123456789:;<=>?\@[\\]^_{|}~\b") {
next if pack("U0U", $i) =~ /\w/;
}
my $tests =
(scalar keys %simple) +
(scalar keys %$spec) +
(scalar keys %none);
print "1..$tests\n";
my $test = 1;
for my $i (sort keys %simple) {
my $w = $simple{$i};
my $c = pack "U0U", hex $i;
my $d = $func->($c);
my $e = unidump($d);
print $d eq pack("U0U", hex $simple{$i}) ?
"ok $test # $i -> $w\n" : "not ok $test # $i -> $e ($w)\n";
$test++;
}
for my $i (sort keys %$spec) {
my $u = unpack "U0U", $i;
my $h = sprintf "%04X", $u;
my $c = chr($u); $c .= chr(0x100); chop $c;
my $d = $func->($c);
my $e = unidump($d);
if (ord "A" == 193) { # EBCDIC
# We need to a little bit of remapping.
#
# For example, in titlecase (ucfirst) mapping
# of U+0149 the Unicode mapping is U+02BC U+004E.
# The 4E is N, which in EBCDIC is 2B--
# and the ucfirst() does that right.
# The problem is that our reference
# data is in Unicode code points.
#
# The Right Way here would be to use, say,
# Encode, to remap the less-than 0x100 code points,
# but let's try to be Encode-independent here.
#
# These are the titlecase exceptions:
#
# Unicode Unicode+EBCDIC
#
# 0149 -> 02BC 004E (02BC 002B)
# 01F0 -> 004A 030C (00A2 030C)
# 1E96 -> 0048 0331 (00E7 0331)
# 1E97 -> 0054 0308 (00E8 0308)
# 1E98 -> 0057 030A (00EF 030A)
# 1E99 -> 0059 030A (00DF 030A)
# 1E9A -> 0041 02BE (00A0 02BE)
#
# The uppercase exceptions are identical.
#
# The lowercase has one more:
#
# Unicode Unicode+EBCDIC
#
# 0130 -> 0069 0307 (00D1 0307)
#
$e =~ s/004E/002B/; # N
$e =~ s/0048/00E7/; # H
$e =~ s/0054/00E8/; # T
}
# We have to map the output, not the input, because
# just undo our remapping.
}
print $w eq $e ?
"ok $test # $i -> $w\n" : "not ok $test # $h -> $e ($w)\n";
$test++;
}
for my $i (sort { $a <=> $b } keys %none) {
my $w = $i = sprintf "%04X", $i;
my $c = pack "U0U", hex $i;
my $d = $func->($c);
my $e = unidump($d);
print $d eq $c ?
"ok $test # $i -> $w\n" : "not ok $test # $i -> $e ($w)\n";
$test++;
}
}
1;