#!perl -w
BEGIN {
if (ord("A") != 65) {
print "1..0 # Skip: EBCDIC\n";
exit 0;
}
chdir 't' if -d 't';
@INC = '../lib';
require Config; import Config;
if ($Config{'extensions'} !~ /\bStorable\b/) {
print "1..0 # Skip: Storable was not built; Unicode::UCD uses Storable\n";
exit 0;
}
}
use strict;
use Unicode::UCD;
use Test::More;
use Unicode::UCD 'charinfo';
my $input_record_separator = 7; # Make sure Unicode::UCD isn't affected by
$/ = $input_record_separator; # setting this.
my $charinfo;
is(charinfo(0x110000), undef, "Verify charinfo() of non-unicode is undef");
$charinfo = charinfo(0); # Null is often problematic, so test it.
is($charinfo->{code}, '0000', '<control>');
is($charinfo->{name}, '<control>');
is($charinfo->{category}, 'Cc');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'BN');
is($charinfo->{decomposition}, '');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, 'NULL');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Basic Latin');
is($charinfo->{script}, 'Common');
$charinfo = charinfo(0x41);
is($charinfo->{code}, '0041', 'LATIN CAPITAL LETTER A');
is($charinfo->{name}, 'LATIN CAPITAL LETTER A');
is($charinfo->{category}, 'Lu');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '0061');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Basic Latin');
is($charinfo->{script}, 'Latin');
$charinfo = charinfo(0x100);
is($charinfo->{code}, '0100', 'LATIN CAPITAL LETTER A WITH MACRON');
is($charinfo->{name}, 'LATIN CAPITAL LETTER A WITH MACRON');
is($charinfo->{category}, 'Lu');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '0041 0304');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, 'LATIN CAPITAL LETTER A MACRON');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '0101');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Latin Extended-A');
is($charinfo->{script}, 'Latin');
# 0x0590 is in the Hebrew block but unused.
$charinfo = charinfo(0x590);
is($charinfo->{code}, undef, '0x0590 - unused Hebrew');
is($charinfo->{name}, undef);
is($charinfo->{category}, undef);
is($charinfo->{combining}, undef);
is($charinfo->{bidi}, undef);
is($charinfo->{decomposition}, undef);
is($charinfo->{decimal}, undef);
is($charinfo->{digit}, undef);
is($charinfo->{numeric}, undef);
is($charinfo->{mirrored}, undef);
is($charinfo->{unicode10}, undef);
is($charinfo->{comment}, undef);
is($charinfo->{upper}, undef);
is($charinfo->{lower}, undef);
is($charinfo->{title}, undef);
is($charinfo->{block}, undef);
is($charinfo->{script}, undef);
# 0x05d0 is in the Hebrew block and used.
$charinfo = charinfo(0x5d0);
is($charinfo->{code}, '05D0', '05D0 - used Hebrew');
is($charinfo->{name}, 'HEBREW LETTER ALEF');
is($charinfo->{category}, 'Lo');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'R');
is($charinfo->{decomposition}, '');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Hebrew');
is($charinfo->{script}, 'Hebrew');
# An open syllable in Hangul.
$charinfo = charinfo(0xAC00);
is($charinfo->{code}, 'AC00', 'HANGUL SYLLABLE U+AC00');
is($charinfo->{name}, 'HANGUL SYLLABLE GA');
is($charinfo->{category}, 'Lo');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '1100 1161');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Hangul Syllables');
is($charinfo->{script}, 'Hangul');
# A closed syllable in Hangul.
$charinfo = charinfo(0xAE00);
is($charinfo->{code}, 'AE00', 'HANGUL SYLLABLE U+AE00');
is($charinfo->{name}, 'HANGUL SYLLABLE GEUL');
is($charinfo->{category}, 'Lo');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, "1100 1173 11AF");
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Hangul Syllables');
is($charinfo->{script}, 'Hangul');
$charinfo = charinfo(0x1D400);
is($charinfo->{code}, '1D400', 'MATHEMATICAL BOLD CAPITAL A');
is($charinfo->{name}, 'MATHEMATICAL BOLD CAPITAL A');
is($charinfo->{category}, 'Lu');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '<font> 0041');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Mathematical Alphanumeric Symbols');
is($charinfo->{script}, 'Common');
$charinfo = charinfo(0x9FBA); #Bug 58428
is($charinfo->{code}, '9FBA', 'U+9FBA');
is($charinfo->{name}, 'CJK UNIFIED IDEOGRAPH-9FBA');
is($charinfo->{category}, 'Lo');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'CJK Unified Ideographs');
is($charinfo->{script}, 'Han');
use Unicode::UCD qw(charblock charscript);
# 0x0590 is in the Hebrew block but unused.
is(charblock(0x590), 'Hebrew', '0x0590 - Hebrew unused charblock');
is(charscript(0x590), 'Unknown', '0x0590 - Hebrew unused charscript');
is(charblock(0x1FFFF), 'No_Block', '0x1FFFF - unused charblock');
$charinfo = charinfo(0xbe);
is($charinfo->{code}, '00BE', 'VULGAR FRACTION THREE QUARTERS');
is($charinfo->{name}, 'VULGAR FRACTION THREE QUARTERS');
is($charinfo->{category}, 'No');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'ON');
is($charinfo->{decomposition}, '<fraction> 0033 2044 0034');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '3/4');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, 'FRACTION THREE QUARTERS');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Latin-1 Supplement');
is($charinfo->{script}, 'Common');
# This is to test a case where both simple and full lowercases exist and
# differ
$charinfo = charinfo(0x130);
is($charinfo->{code}, '0130', 'LATIN CAPITAL LETTER I WITH DOT ABOVE');
is($charinfo->{name}, 'LATIN CAPITAL LETTER I WITH DOT ABOVE');
is($charinfo->{category}, 'Lu');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '0049 0307');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, 'LATIN CAPITAL LETTER I DOT');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '');
is($charinfo->{lower}, '0069');
is($charinfo->{title}, '');
is($charinfo->{block}, 'Latin Extended-A');
is($charinfo->{script}, 'Latin');
# This is to test a case where both simple and full uppercases exist and
# differ
$charinfo = charinfo(0x1F80);
is($charinfo->{code}, '1F80', 'GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI');
is($charinfo->{name}, 'GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI');
is($charinfo->{category}, 'Ll');
is($charinfo->{combining}, '0');
is($charinfo->{bidi}, 'L');
is($charinfo->{decomposition}, '1F00 0345');
is($charinfo->{decimal}, '');
is($charinfo->{digit}, '');
is($charinfo->{numeric}, '');
is($charinfo->{mirrored}, 'N');
is($charinfo->{unicode10}, '');
is($charinfo->{comment}, '');
is($charinfo->{upper}, '1F88');
is($charinfo->{lower}, '');
is($charinfo->{title}, '1F88');
is($charinfo->{block}, 'Greek Extended');
is($charinfo->{script}, 'Greek');
use Unicode::UCD qw(charblocks charscripts);
my $charblocks = charblocks();
ok(exists $charblocks->{Thai}, 'Thai charblock exists');
is($charblocks->{Thai}->[0]->[0], hex('0e00'));
ok(!exists $charblocks->{PigLatin}, 'PigLatin charblock does not exist');
my $charscripts = charscripts();
ok(exists $charscripts->{Armenian}, 'Armenian charscript exists');
is($charscripts->{Armenian}->[0]->[0], hex('0531'));
ok(!exists $charscripts->{PigLatin}, 'PigLatin charscript does not exist');
my $charscript;
$charscript = charscript("12ab");
is($charscript, 'Ethiopic', 'Ethiopic charscript');
$charscript = charscript("0x12ab");
is($charscript, 'Ethiopic');
$charscript = charscript("U+12ab");
is($charscript, 'Ethiopic');
my $ranges;
$ranges = charscript('Ogham');
is($ranges->[0]->[0], hex('1680'), 'Ogham charscript');
is($ranges->[0]->[1], hex('169C'));
use Unicode::UCD qw(charinrange);
$ranges = charscript('Cherokee');
ok(!charinrange($ranges, "139f"), 'Cherokee charscript');
ok( charinrange($ranges, "13a0"));
ok( charinrange($ranges, "13f4"));
ok(!charinrange($ranges, "13f5"));
use Unicode::UCD qw(general_categories);
my $gc = general_categories();
ok(exists $gc->{L}, 'has L');
is($gc->{L}, 'Letter', 'L is Letter');
is($gc->{Lu}, 'UppercaseLetter', 'Lu is UppercaseLetter');
use Unicode::UCD qw(bidi_types);
my $bt = bidi_types();
ok(exists $bt->{L}, 'has L');
is($bt->{L}, 'Left-to-Right', 'L is Left-to-Right');
is($bt->{AL}, 'Right-to-Left Arabic', 'AL is Right-to-Left Arabic');
# If this fails, then maybe one should look at the Unicode changes to see
# what else might need to be updated.
is(Unicode::UCD::UnicodeVersion, '6.2.0', 'UnicodeVersion');
use Unicode::UCD qw(compexcl);
ok(!compexcl(0x0100), 'compexcl');
ok(!compexcl(0xD801), 'compexcl of surrogate');
ok(!compexcl(0x110000), 'compexcl of non-Unicode code point');
ok( compexcl(0x0958));
use Unicode::UCD qw(casefold);
my $casefold;
$casefold = casefold(0x41);
is($casefold->{code}, '0041', 'casefold 0x41 code');
is($casefold->{status}, 'C', 'casefold 0x41 status');
is($casefold->{mapping}, '0061', 'casefold 0x41 mapping');
is($casefold->{full}, '0061', 'casefold 0x41 full');
is($casefold->{simple}, '0061', 'casefold 0x41 simple');
is($casefold->{turkic}, "", 'casefold 0x41 turkic');
$casefold = casefold(0xdf);
is($casefold->{code}, '00DF', 'casefold 0xDF code');
is($casefold->{status}, 'F', 'casefold 0xDF status');
is($casefold->{mapping}, '0073 0073', 'casefold 0xDF mapping');
is($casefold->{full}, '0073 0073', 'casefold 0xDF full');
is($casefold->{simple}, "", 'casefold 0xDF simple');
is($casefold->{turkic}, "", 'casefold 0xDF turkic');
# Do different tests depending on if version < 3.2, or not.
my $v_unicode_version = pack "C*", split /\./, Unicode::UCD::UnicodeVersion();
if ($v_unicode_version lt v3.2.0) {
$casefold = casefold(0x130);
is($casefold->{code}, '0130', 'casefold 0x130 code');
is($casefold->{status}, 'I' , 'casefold 0x130 status');
is($casefold->{mapping}, '0069', 'casefold 0x130 mapping');
is($casefold->{full}, '0069', 'casefold 0x130 full');
is($casefold->{simple}, "0069", 'casefold 0x130 simple');
is($casefold->{turkic}, "0069", 'casefold 0x130 turkic');
$casefold = casefold(0x131);
is($casefold->{code}, '0131', 'casefold 0x131 code');
is($casefold->{status}, 'I' , 'casefold 0x131 status');
is($casefold->{mapping}, '0069', 'casefold 0x131 mapping');
is($casefold->{full}, '0069', 'casefold 0x131 full');
is($casefold->{simple}, "0069", 'casefold 0x131 simple');
is($casefold->{turkic}, "0069", 'casefold 0x131 turkic');
} else {
$casefold = casefold(0x49);
is($casefold->{code}, '0049', 'casefold 0x49 code');
is($casefold->{status}, 'C' , 'casefold 0x49 status');
is($casefold->{mapping}, '0069', 'casefold 0x49 mapping');
is($casefold->{full}, '0069', 'casefold 0x49 full');
is($casefold->{simple}, "0069", 'casefold 0x49 simple');
is($casefold->{turkic}, "0131", 'casefold 0x49 turkic');
$casefold = casefold(0x130);
is($casefold->{code}, '0130', 'casefold 0x130 code');
is($casefold->{status}, 'F' , 'casefold 0x130 status');
is($casefold->{mapping}, '0069 0307', 'casefold 0x130 mapping');
is($casefold->{full}, '0069 0307', 'casefold 0x130 full');
is($casefold->{simple}, "", 'casefold 0x130 simple');
is($casefold->{turkic}, "0069", 'casefold 0x130 turkic');
}
$casefold = casefold(0x1F88);
is($casefold->{code}, '1F88', 'casefold 0x1F88 code');
is($casefold->{status}, 'S' , 'casefold 0x1F88 status');
is($casefold->{mapping}, '1F80', 'casefold 0x1F88 mapping');
is($casefold->{full}, '1F00 03B9', 'casefold 0x1F88 full');
is($casefold->{simple}, '1F80', 'casefold 0x1F88 simple');
is($casefold->{turkic}, "", 'casefold 0x1F88 turkic');
ok(!casefold(0x20));
use Unicode::UCD qw(casespec);
my $casespec;
ok(!casespec(0x41));
$casespec = casespec(0xdf);
ok($casespec->{code} eq '00DF' &&
$casespec->{lower} eq '00DF' &&
$casespec->{title} eq '0053 0073' &&
$casespec->{upper} eq '0053 0053' &&
!defined $casespec->{condition}, 'casespec 0xDF');
$casespec = casespec(0x307);
ok($casespec->{az}->{code} eq '0307' &&
!defined $casespec->{az}->{lower} &&
$casespec->{az}->{title} eq '0307' &&
$casespec->{az}->{upper} eq '0307' &&
$casespec->{az}->{condition} eq 'az After_I',
'casespec 0x307');
# perl #7305 UnicodeCD::compexcl is weird
for (1) {my $a=compexcl $_}
ok(1, 'compexcl read-only $_: perl #7305');
map {compexcl $_} %{{1=>2}};
ok(1, 'compexcl read-only hash: perl #7305');
is(Unicode::UCD::_getcode('123'), 123, "_getcode(123)");
is(Unicode::UCD::_getcode('0123'), 0x123, "_getcode(0123)");
is(Unicode::UCD::_getcode('0x123'), 0x123, "_getcode(0x123)");
is(Unicode::UCD::_getcode('0X123'), 0x123, "_getcode(0X123)");
is(Unicode::UCD::_getcode('U+123'), 0x123, "_getcode(U+123)");
is(Unicode::UCD::_getcode('u+123'), 0x123, "_getcode(u+123)");
is(Unicode::UCD::_getcode('U+1234'), 0x1234, "_getcode(U+1234)");
is(Unicode::UCD::_getcode('U+12345'), 0x12345, "_getcode(U+12345)");
is(Unicode::UCD::_getcode('123x'), undef, "_getcode(123x)");
is(Unicode::UCD::_getcode('x123'), undef, "_getcode(x123)");
is(Unicode::UCD::_getcode('0x123x'), undef, "_getcode(x123)");
is(Unicode::UCD::_getcode('U+123x'), undef, "_getcode(x123)");
{
my $r1 = charscript('Latin');
if (ok(defined $r1, "Found Latin script")) {
my $n1 = @$r1;
is($n1, 30, "number of ranges in Latin script (Unicode 6.1.0)");
shift @$r1 while @$r1;
my $r2 = charscript('Latin');
is(@$r2, $n1, "modifying results should not mess up internal caches");
}
}
{
is(charinfo(0xdeadbeef), undef, "[perl #23273] warnings in Unicode::UCD");
}
use Unicode::UCD qw(namedseq);
is(namedseq("KATAKANA LETTER AINU P"), "\x{31F7}\x{309A}", "namedseq");
is(namedseq("KATAKANA LETTER AINU Q"), undef);
is(namedseq(), undef);
is(namedseq(qw(foo bar)), undef);
my @ns = namedseq("KATAKANA LETTER AINU P");
is(scalar @ns, 2);
is($ns[0], 0x31F7);
is($ns[1], 0x309A);
my %ns = namedseq();
is($ns{"KATAKANA LETTER AINU P"}, "\x{31F7}\x{309A}");
@ns = namedseq(42);
is(@ns, 0);
use Unicode::UCD qw(num);
use charnames ":full";
is(num("0"), 0, 'Verify num("0") == 0');
is(num("98765"), 98765, 'Verify num("98765") == 98765');
ok(! defined num("98765\N{FULLWIDTH DIGIT FOUR}"), 'Verify num("98765\N{FULLWIDTH DIGIT FOUR}") isnt defined');
is(num("\N{NEW TAI LUE DIGIT TWO}\N{NEW TAI LUE DIGIT ONE}"), 21, 'Verify num("\N{NEW TAI LUE DIGIT TWO}\N{NEW TAI LUE DIGIT ONE}") == 21');
ok(! defined num("\N{NEW TAI LUE DIGIT TWO}\N{NEW TAI LUE THAM DIGIT ONE}"), 'Verify num("\N{NEW TAI LUE DIGIT TWO}\N{NEW TAI LUE THAM DIGIT ONE}") isnt defined');
is(num("\N{CHAM DIGIT ZERO}\N{CHAM DIGIT THREE}"), 3, 'Verify num("\N{CHAM DIGIT ZERO}\N{CHAM DIGIT THREE}") == 3');
ok(! defined num("\N{CHAM DIGIT ZERO}\N{JAVANESE DIGIT NINE}"), 'Verify num("\N{CHAM DIGIT ZERO}\N{JAVANESE DIGIT NINE}") isnt defined');
is(num("\N{SUPERSCRIPT TWO}"), 2, 'Verify num("\N{SUPERSCRIPT TWO} == 2');
is(num("\N{ETHIOPIC NUMBER TEN THOUSAND}"), 10000, 'Verify num("\N{ETHIOPIC NUMBER TEN THOUSAND}") == 10000');
is(num("\N{NORTH INDIC FRACTION ONE HALF}"), .5, 'Verify num("\N{NORTH INDIC FRACTION ONE HALF}") == .5');
is(num("\N{U+12448}"), 9, 'Verify num("\N{U+12448}") == 9');
is(num("\N{U+5146}"), 1000000000000, 'Verify num("\N{U+5146}") == 1000000000000');
# Create a user-defined property
sub InKana {<<'END'}
3040 309F
30A0 30FF
END
use Unicode::UCD qw(prop_aliases);
is(prop_aliases(undef), undef, "prop_aliases(undef) returns <undef>");
is(prop_aliases("unknown property"), undef,
"prop_aliases(<unknown property>) returns <undef>");
is(prop_aliases("InKana"), undef,
"prop_aliases(<user-defined property>) returns <undef>");
is(prop_aliases("Perl_Decomposition_Mapping"), undef, "prop_aliases('Perl_Decomposition_Mapping') returns <undef> since internal-Perl-only");
is(prop_aliases("Perl_Charnames"), undef,
"prop_aliases('Perl_Charnames') returns <undef> since internal-Perl-only");
is(prop_aliases("isgc"), undef,
"prop_aliases('isgc') returns <undef> since is not covered Perl extension");
is(prop_aliases("Is_Is_Any"), undef,
"prop_aliases('Is_Is_Any') returns <undef> since two is's");
require 'utf8_heavy.pl';
require "unicore/Heavy.pl";
# Keys are lists of properties. Values are defined if have been tested.
my %props;
# To test for loose matching, add in the characters that are ignored there.
my $extra_chars = "-_ ";
# The one internal property we accept
$props{'Perl_Decimal_Digit'} = 1;
my @list = prop_aliases("perldecimaldigit");
is_deeply(\@list,
[ "Perl_Decimal_Digit",
"Perl_Decimal_Digit"
], "prop_aliases('perldecimaldigit') returns Perl_Decimal_Digit as both short and full names");
# Get the official Unicode property name synonyms and test them.
SKIP: {
skip "PropertyAliases.txt is not in this Unicode version", 1 if $v_unicode_version lt v3.2.0;
open my $props, "<", "../lib/unicore/PropertyAliases.txt"
or die "Can't open Unicode PropertyAliases.txt";
local $/ = "\n";
while (<$props>) {
s/\s*#.*//; # Remove comments
next if /^\s* $/x; # Ignore empty and comment lines
chomp;
local $/ = $input_record_separator;
my $count = 0; # 0th field in line is short name; 1th is long name
my $short_name;
my $full_name;
my @names_via_short;
foreach my $alias (split /\s*;\s*/) { # Fields are separated by
# semi-colons
# Add in the characters that are supposed to be ignored, to test loose
# matching, which the tested function does on all inputs.
my $mod_name = "$extra_chars$alias";
my $loose = &utf8::_loose_name(lc $alias);
# Indicate we have tested this.
$props{$loose} = 1;
my @all_names = prop_aliases($mod_name);
if (grep { $_ eq $loose } @Unicode::UCD::suppressed_properties) {
is(@all_names, 0, "prop_aliases('$mod_name') returns undef since $alias is not installed");
next;
}
elsif (! @all_names) {
fail("prop_aliases('$mod_name')");
diag("'$alias' is unknown to prop_aliases()");
next;
}
if ($count == 0) { # Is short name
@names_via_short = prop_aliases($mod_name);
# If the 0th test fails, no sense in continuing with the others
last unless is($names_via_short[0], $alias,
"prop_aliases: '$alias' is the short name for '$mod_name'");
$short_name = $alias;
}
elsif ($count == 1) { # Is full name
# Some properties have the same short and full name; no sense
# repeating the test if the same.
if ($alias ne $short_name) {
my @names_via_full = prop_aliases($mod_name);
is_deeply(\@names_via_full, \@names_via_short, "prop_aliases() returns the same list for both '$short_name' and '$mod_name'");
}
# Tests scalar context
is(prop_aliases($short_name), $alias,
"prop_aliases: '$alias' is the long name for '$short_name'");
}
else { # Is another alias
is_deeply(\@all_names, \@names_via_short, "prop_aliases() returns the same list for both '$short_name' and '$mod_name'");
ok((grep { $_ =~ /^$alias$/i } @all_names),
"prop_aliases: '$alias' is listed as an alias for '$mod_name'");
}
$count++;
}
}
} # End of SKIP block
# Now test anything we can find that wasn't covered by the tests of the
# official properties. We have no way of knowing if mktables omitted a Perl
# extension or not, but we do the best we can from its generated lists
foreach my $alias (keys %utf8::loose_to_file_of) {
next if $alias =~ /=/;
my $lc_name = lc $alias;
my $loose = &utf8::_loose_name($lc_name);
next if exists $props{$loose}; # Skip if already tested
$props{$loose} = 1;
my $mod_name = "$extra_chars$alias"; # Tests loose matching
my @aliases = prop_aliases($mod_name);
my $found_it = grep { &utf8::_loose_name(lc $_) eq $lc_name } @aliases;
if ($found_it) {
pass("prop_aliases: '$lc_name' is listed as an alias for '$mod_name'");
}
elsif ($lc_name =~ /l[_&]$/) {
# These two names are special in that they don't appear in the
# returned list because they are discouraged from use. Verify
# that they return the same list as a non-discouraged version.
my @LC = prop_aliases('Is_LC');
is_deeply(\@aliases, \@LC, "prop_aliases: '$lc_name' returns the same list as 'Is_LC'");
}
else {
my $stripped = $lc_name =~ s/^is//;
# Could be that the input includes a prefix 'is', which is rarely
# returned as an alias, so having successfully stripped it off above,
# try again.
if ($stripped) {
$found_it = grep { &utf8::_loose_name(lc $_) eq $lc_name } @aliases;
}
# If that didn't work, it could be that it's a block, which is always
# returned with a leading 'In_' to avoid ambiguity. Try comparing
# with that stripped off.
if (! $found_it) {
$found_it = grep { &utf8::_loose_name(s/^In_(.*)/\L$1/r) eq $lc_name }
@aliases;
# Could check that is a real block, but tests for invmap will
# likely pickup any errors, since this will be tested there.
$lc_name = "in$lc_name" if $found_it; # Change for message below
}
my $message = "prop_aliases: '$lc_name' is listed as an alias for '$mod_name'";
($found_it) ? pass($message) : fail($message);
}
}
my $done_equals = 0;
foreach my $alias (keys %utf8::stricter_to_file_of) {
if ($alias =~ /=/) { # Only test one case where there is an equals
next if $done_equals;
$done_equals = 1;
}
my $lc_name = lc $alias;
my @list = prop_aliases($alias);
if ($alias =~ /^_/) {
is(@list, 0, "prop_aliases: '$lc_name' returns an empty list since it is internal_only");
}
elsif ($alias =~ /=/) {
is(@list, 0, "prop_aliases: '$lc_name' returns an empty list since is illegal property name");
}
else {
ok((grep { lc $_ eq $lc_name } @list),
"prop_aliases: '$lc_name' is listed as an alias for '$alias'");
}
}
use Unicode::UCD qw(prop_value_aliases);
is(prop_value_aliases("unknown property", "unknown value"), undef,
"prop_value_aliases(<unknown property>, <unknown value>) returns <undef>");
is(prop_value_aliases(undef, undef), undef,
"prop_value_aliases(undef, undef) returns <undef>");
is((prop_value_aliases("na", "A")), "A", "test that prop_value_aliases returns its input for properties that don't have synonyms");
is(prop_value_aliases("isgc", "C"), undef, "prop_value_aliases('isgc', 'C') returns <undef> since is not covered Perl extension");
is(prop_value_aliases("gc", "isC"), undef, "prop_value_aliases('gc', 'isC') returns <undef> since is not covered Perl extension");
# We have no way of knowing if mktables omitted a Perl extension that it
# shouldn't have, but we can check if it omitted an official Unicode property
# name synonym. And for those, we can check if the short and full names are
# correct.
my %pva_tested; # List of things already tested.
SKIP: {
skip "PropValueAliases.txt is not in this Unicode version", 1 if $v_unicode_version lt v3.2.0;
open my $propvalues, "<", "../lib/unicore/PropValueAliases.txt"
or die "Can't open Unicode PropValueAliases.txt";
local $/ = "\n";
while (<$propvalues>) {
s/\s*#.*//; # Remove comments
next if /^\s* $/x; # Ignore empty and comment lines
chomp;
local $/ = $input_record_separator;
# Fix typo in official input file
s/CCC133/CCC132/g if $v_unicode_version eq v6.1.0;
my @fields = split /\s*;\s*/; # Fields are separated by semi-colons
my $prop = shift @fields; # 0th field is the property,
my $count = 0; # 0th field in line (after shifting off the property) is
# short name; 1th is long name
my $short_name;
my @names_via_short; # Saves the values between iterations
# The property on the lhs of the = is always loosely matched. Add in
# characters that are ignored under loose matching to test that
my $mod_prop = "$extra_chars$prop";
if ($fields[0] eq 'n/a') { # See comments in input file, essentially
# means full name and short name are identical
$fields[0] = $fields[1];
}
elsif ($fields[0] ne $fields[1]
&& &utf8::_loose_name(lc $fields[0])
eq &utf8::_loose_name(lc $fields[1])
&& $fields[1] !~ /[[:upper:]]/)
{
# Also, there is a bug in the file in which "n/a" is omitted, and
# the two fields are identical except for case, and the full name
# is all lower case. Copy the "short" name unto the full one to
# give it some upper case.
$fields[1] = $fields[0];
}
# The ccc property in the file is special; has an extra numeric field
# (0th), which should go at the end, since we use the next two fields as
# the short and full names, respectively. See comments in input file.
splice (@fields, 0, 0, splice(@fields, 1, 2)) if $prop eq 'ccc';
my $loose_prop = &utf8::_loose_name(lc $prop);
my $suppressed = grep { $_ eq $loose_prop }
@Unicode::UCD::suppressed_properties;
foreach my $value (@fields) {
if ($suppressed) {
is(prop_value_aliases($prop, $value), undef, "prop_value_aliases('$prop', '$value') returns undef for suppressed property $prop");
next;
}
elsif (grep { $_ eq ("$loose_prop=" . &utf8::_loose_name(lc $value)) } @Unicode::UCD::suppressed_properties) {
is(prop_value_aliases($prop, $value), undef, "prop_value_aliases('$prop', '$value') returns undef for suppressed property $prop=$value");
next;
}
# Add in test for loose matching.
my $mod_value = "$extra_chars$value";
# If the value is a number, optionally negative, including a floating
# point or rational numer, it should be only strictly matched, so the
# loose matching should fail.
if ($value =~ / ^ -? \d+ (?: [\/.] \d+ )? $ /x) {
is(prop_value_aliases($mod_prop, $mod_value), undef, "prop_value_aliases('$mod_prop', '$mod_value') returns undef because '$mod_value' should be strictly matched");
# And reset so below tests just the strict matching.
$mod_value = $value;
}
if ($count == 0) {
@names_via_short = prop_value_aliases($mod_prop, $mod_value);
# If the 0th test fails, no sense in continuing with the others
last unless is($names_via_short[0], $value, "prop_value_aliases: In '$prop', '$value' is the short name for '$mod_value'");
$short_name = $value;
}
elsif ($count == 1) {
# Some properties have the same short and full name; no sense
# repeating the test if the same.
if ($value ne $short_name) {
my @names_via_full =
prop_value_aliases($mod_prop, $mod_value);
is_deeply(\@names_via_full, \@names_via_short, "In '$prop', prop_value_aliases() returns the same list for both '$short_name' and '$mod_value'");
}
# Tests scalar context
is(prop_value_aliases($prop, $short_name), $value, "'$value' is the long name for prop_value_aliases('$prop', '$short_name')");
}
else {
my @all_names = prop_value_aliases($mod_prop, $mod_value);
is_deeply(\@all_names, \@names_via_short, "In '$prop', prop_value_aliases() returns the same list for both '$short_name' and '$mod_value'");
ok((grep { &utf8::_loose_name(lc $_) eq &utf8::_loose_name(lc $value) } prop_value_aliases($prop, $short_name)), "'$value' is listed as an alias for prop_value_aliases('$prop', '$short_name')");
}
$pva_tested{&utf8::_loose_name(lc $prop) . "=" . &utf8::_loose_name(lc $value)} = 1;
$count++;
}
}
} # End of SKIP block
# And test as best we can, the non-official pva's that mktables generates.
foreach my $hash (\%utf8::loose_to_file_of, \%utf8::stricter_to_file_of) {
foreach my $test (keys %$hash) {
next if exists $pva_tested{$test}; # Skip if already tested
my ($prop, $value) = split "=", $test;
next unless defined $value; # prop_value_aliases() requires an input
# 'value'
my $mod_value;
if ($hash == \%utf8::loose_to_file_of) {
# Add extra characters to test loose-match rhs value
$mod_value = "$extra_chars$value";
}
else { # Here value is strictly matched.
# Extra elements are added by mktables to this hash so that
# something like "age=6.0" has a synonym of "age=6". It's not
# clear to me (khw) if we should be encouraging those synonyms, so
# don't test for them.
next if $value !~ /\D/ && exists $hash->{"$prop=$value.0"};
# Verify that loose matching fails when only strict is called for.
next unless is(prop_value_aliases($prop, "$extra_chars$value"), undef,
"prop_value_aliases('$prop', '$extra_chars$value') returns undef since '$value' should be strictly matched"),
# Strict matching does allow for underscores between digits. Test
# for that.
$mod_value = $value;
while ($mod_value =~ s/(\d)(\d)/$1_$2/g) {}
}
# The lhs property is always loosely matched, so add in extra
# characters to test that.
my $mod_prop = "$extra_chars$prop";
if ($prop eq 'gc' && $value =~ /l[_&]$/) {
# These two names are special in that they don't appear in the
# returned list because they are discouraged from use. Verify
# that they return the same list as a non-discouraged version.
my @LC = prop_value_aliases('gc', 'lc');
my @l_ = prop_value_aliases($mod_prop, $mod_value);
is_deeply(\@l_, \@LC, "prop_value_aliases('$mod_prop', '$mod_value) returns the same list as prop_value_aliases('gc', 'lc')");
}
else {
ok((grep { &utf8::_loose_name(lc $_) eq &utf8::_loose_name(lc $value) }
prop_value_aliases($mod_prop, $mod_value)),
"'$value' is listed as an alias for prop_value_aliases('$mod_prop', '$mod_value')");
}
}
}
undef %pva_tested;
no warnings 'once'; # We use some values once from 'required' modules.
use Unicode::UCD qw(prop_invlist prop_invmap MAX_CP);
# There were some problems with caching interfering with prop_invlist() vs
# prop_invmap() on binary properties, and also between the 3 properties where
# Perl used the same 'To' name as another property (see utf8_heavy.pl).
# So, before testing all of prop_invlist(),
# 1) call prop_invmap() to try both orders of these name issues. This uses
# up two of the 3 properties; the third will be left so that invlist()
# on it gets called before invmap()
# 2) call prop_invmap() on a generic binary property, ahead of invlist().
# This should test that the caching works in both directions.
# These properties are not stable between Unicode versions, but the first few
# elements are; just look at the first element to see if are getting the
# distinction right. The general inversion map testing below will test the
# whole thing.
my $prop = "uc";
my ($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($prop);
is($format, 'al', "prop_invmap() format of '$prop' is 'al'");
is($missing, '0', "prop_invmap() missing of '$prop' is '0'");
is($invlist_ref->[1], 0x61, "prop_invmap('$prop') list[1] is 0x61");
is($invmap_ref->[1], 0x41, "prop_invmap('$prop') map[1] is 0x41");
$prop = "upper";
($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($prop);
is($format, 's', "prop_invmap() format of '$prop' is 's");
is($missing, 'N', "prop_invmap() missing of '$prop' is 'N'");
is($invlist_ref->[1], 0x41, "prop_invmap('$prop') list[1] is 0x41");
is($invmap_ref->[1], 'Y', "prop_invmap('$prop') map[1] is 'Y'");
$prop = "lower";
($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($prop);
is($format, 's', "prop_invmap() format of '$prop' is 's'");
is($missing, 'N', "prop_invmap() missing of '$prop' is 'N'");
is($invlist_ref->[1], 0x61, "prop_invmap('$prop') list[1] is 0x61");
is($invmap_ref->[1], 'Y', "prop_invmap('$prop') map[1] is 'Y'");
$prop = "lc";
($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($prop);
is($format, 'al', "prop_invmap() format of '$prop' is 'al'");
is($missing, '0', "prop_invmap() missing of '$prop' is '0'");
is($invlist_ref->[1], 0x41, "prop_invmap('$prop') list[1] is 0x41");
is($invmap_ref->[1], 0x61, "prop_invmap('$prop') map[1] is 0x61");
# This property is stable and small, so can test all of it
$prop = "ASCII_Hex_Digit";
($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($prop);
is($format, 's', "prop_invmap() format of '$prop' is 's'");
is($missing, 'N', "prop_invmap() missing of '$prop' is 'N'");
is_deeply($invlist_ref, [ 0x0000, 0x0030, 0x003A, 0x0041,
0x0047, 0x0061, 0x0067, 0x110000 ],
"prop_invmap('$prop') code point list is correct");
is_deeply($invmap_ref, [ 'N', 'Y', 'N', 'Y', 'N', 'Y', 'N', 'N' ] ,
"prop_invmap('$prop') map list is correct");
is(prop_invlist("Unknown property"), undef, "prop_invlist(<Unknown property>) returns undef");
is(prop_invlist(undef), undef, "prop_invlist(undef) returns undef");
is(prop_invlist("Any"), 2, "prop_invlist('Any') returns the number of elements in scalar context");
my @invlist = prop_invlist("Is_Any");
is_deeply(\@invlist, [ 0, 0x110000 ], "prop_invlist works on 'Is_' prefixes");
is(prop_invlist("Is_Is_Any"), undef, "prop_invlist('Is_Is_Any') returns <undef> since two is's");
use Storable qw(dclone);
is(prop_invlist("InKana"), undef, "prop_invlist(<user-defined property returns undef>)");
# The way both the tests for invlist and invmap work is that they take the
# lists returned by the functions and construct from them what the original
# file should look like, which are then compared with the file. If they are
# identical, the test passes. What this tests isn't that the results are
# correct, but that invlist and invmap haven't introduced errors beyond what
# are there in the files. As a small hedge against that, test some
# prop_invlist() tables fully with the known correct result. We choose
# ASCII_Hex_Digit again, as it is stable.
@invlist = prop_invlist("AHex");
is_deeply(\@invlist, [ 0x0030, 0x003A, 0x0041,
0x0047, 0x0061, 0x0067 ],
"prop_invlist('AHex') is exactly the expected set of points");
@invlist = prop_invlist("AHex=f");
is_deeply(\@invlist, [ 0x0000, 0x0030, 0x003A, 0x0041,
0x0047, 0x0061, 0x0067 ],
"prop_invlist('AHex=f') is exactly the expected set of points");
sub fail_with_diff ($$$$) {
# For use below to output better messages
my ($prop, $official, $constructed, $tested_function_name) = @_;
is($constructed, $official, "$tested_function_name('$prop')");
diag("Comment out lines " . (__LINE__ - 1) . " through " . (__LINE__ + 1) . " in '$0' on Un*x-like systems to see just the differences. Uses the 'diff' first in your \$PATH");
return;
fail("$tested_function_name('$prop')");
require File::Temp;
my $off = File::Temp->new();
local $/ = "\n";
chomp $official;
print $off $official, "\n";
close $off || die "Can't close official";
chomp $constructed;
my $gend = File::Temp->new();
print $gend $constructed, "\n";
close $gend || die "Can't close gend";
my $diff = File::Temp->new();
system("diff $off $gend > $diff");
open my $fh, "<", $diff || die "Can't open $diff";
my @diffs = <$fh>;
diag("In the diff output below '<' marks lines from the filesystem tables;\n'>' are from $tested_function_name()");
diag(@diffs);
}
my %tested_invlist;
# Look at everything we think that mktables tells us exists, both loose and
# strict
foreach my $set_of_tables (\%utf8::stricter_to_file_of, \%utf8::loose_to_file_of)
{
foreach my $table (keys %$set_of_tables) {
my $mod_table;
my ($prop_only, $value) = split "=", $table;
if (defined $value) {
# If this is to be loose matched, add in characters to test that.
if ($set_of_tables == \%utf8::loose_to_file_of) {
$value = "$extra_chars$value";
}
else { # Strict match
# Verify that loose matching fails when only strict is called
# for.
next unless is(prop_invlist("$prop_only=$extra_chars$value"), undef, "prop_invlist('$prop_only=$extra_chars$value') returns undef since should be strictly matched");
# Strict matching does allow for underscores between digits.
# Test for that.
while ($value =~ s/(\d)(\d)/$1_$2/g) {}
}
# The property portion in compound form specifications always
# matches loosely
$mod_table = "$extra_chars$prop_only = $value";
}
else { # Single-form.
# Like above, use looose if required, and insert underscores
# between digits if strict.
if ($set_of_tables == \%utf8::loose_to_file_of) {
$mod_table = "$extra_chars$table";
}
else {
$mod_table = $table;
while ($mod_table =~ s/(\d)(\d)/$1_$2/g) {}
}
}
my @tested = prop_invlist($mod_table);
if ($table =~ /^_/) {
is(@tested, 0, "prop_invlist('$mod_table') returns an empty list since is internal-only");
next;
}
# If we have already tested a property that uses the same file, this
# list should be identical to the one that was tested, and can bypass
# everything else.
my $file = $set_of_tables->{$table};
if (exists $tested_invlist{$file}) {
is_deeply(\@tested, $tested_invlist{$file}, "prop_invlist('$mod_table') gave same results as its name synonym");
next;
}
$tested_invlist{$file} = dclone \@tested;
# A leading '!' in the file name means that it is to be inverted.
my $invert = $file =~ s/^!//;
my $official = do "unicore/lib/$file.pl";
# Get rid of any trailing space and comments in the file.
$official =~ s/\s*(#.*)?$//mg;
local $/ = "\n";
chomp $official;
$/ = $input_record_separator;
# If we are to test against an inverted file, it is easier to invert
# our array than the file.
# The file only is valid for Unicode code points, while the inversion
# list is valid for all possible code points. Therefore, we must test
# just the Unicode part against the file. Later we will test for
# the non-Unicode part.
my $before_invert; # Saves the pre-inverted table.
if ($invert) {
$before_invert = dclone \@tested;
if (@tested && $tested[0] == 0) {
shift @tested;
} else {
unshift @tested, 0;
}
if (@tested && $tested[-1] == 0x110000) {
pop @tested;
}
else {
push @tested, 0x110000;
}
}
# Now construct a string from the list that should match the file.
# The file gives ranges of code points with starting and ending values
# in hex, like this:
# 0041\t005A
# 0061\t007A
# 00AA
# Our list has even numbered elements start ranges that are in the
# list, and odd ones that aren't in the list. Therefore the odd
# numbered ones are one beyond the end of the previous range, but
# otherwise don't get reflected in the file.
my $tested = "";
my $i = 0;
for (; $i < @tested - 1; $i += 2) {
my $start = $tested[$i];
my $end = $tested[$i+1] - 1;
if ($start == $end) {
$tested .= sprintf("%04X\n", $start);
}
else {
$tested .= sprintf "%04X\t%04X\n", $start, $end;
}
}
# As mentioned earlier, the disk files only go up through Unicode,
# whereas the prop_invlist() ones go as high as necessary. The
# comparison is only valid through max Unicode.
if ($i == @tested - 1 && $tested[$i] <= 0x10FFFF) {
$tested .= sprintf("%04X\t10FFFF\n", $tested[$i]);
}
local $/ = "\n";
chomp $tested;
$/ = $input_record_separator;
if ($tested ne $official) {
fail_with_diff($mod_table, $official, $tested, "prop_invlist");
next;
}
# Here, it matched the table. Now need to check for if it is correct
# for beyond Unicode. First, calculate if is the default table or
# not. This is the same algorithm as used internally in
# prop_invlist(), so if it is wrong there, this test won't catch it.
my $prop = lc $table;
($prop_only, $table) = split /\s*[:=]\s*/, $prop;
if (defined $table) {
# May have optional prefixed 'is'
$prop = &utf8::_loose_name($prop_only) =~ s/^is//r;
$prop = $utf8::loose_property_name_of{$prop};
$prop .= "=" . &utf8::_loose_name($table);
}
else {
$prop = &utf8::_loose_name($prop);
}
my $is_default = exists $Unicode::UCD::loose_defaults{$prop};
@tested = @$before_invert if $invert; # Use the original
if (@tested % 2 == 0) {
# If there are an even number of elements, the final one starts a
# range (going to infinity) of code points that are not in the
# list.
if ($is_default) {
fail("prop_invlist('$mod_table')");
diag("default table doesn't goto infinity");
use Data::Dumper;
diag Dumper \@tested;
next;
}
}
else {
# An odd number of elements means the final one starts a range
# (going to infinity of code points that are in the list.
if (! $is_default) {
fail("prop_invlist('$mod_table')");
diag("non-default table needs to stop in the Unicode range");
use Data::Dumper;
diag Dumper \@tested;
next;
}
}
pass("prop_invlist('$mod_table')");
}
}
# Now test prop_invmap().
@list = prop_invmap("Unknown property");
is (@list, 0, "prop_invmap(<Unknown property>) returns an empty list");
@list = prop_invmap(undef);
is (@list, 0, "prop_invmap(undef) returns an empty list");
ok (! eval "prop_invmap('gc')" && $@ ne "",
"prop_invmap('gc') dies in scalar context");
@list = prop_invmap("_X_Begin");
is (@list, 0, "prop_invmap(<internal property>) returns an empty list");
@list = prop_invmap("InKana");
is(@list, 0, "prop_invmap(<user-defined property returns undef>)");
@list = prop_invmap("Perl_Decomposition_Mapping"), undef,
is(@list, 0, "prop_invmap('Perl_Decomposition_Mapping') returns <undef> since internal-Perl-only");
@list = prop_invmap("Perl_Charnames"), undef,
is(@list, 0, "prop_invmap('Perl_Charnames') returns <undef> since internal-Perl-only");
@list = prop_invmap("Is_Is_Any");
is(@list, 0, "prop_invmap('Is_Is_Any') returns <undef> since two is's");
# The set of properties to test on has already been compiled into %props by
# the prop_aliases() tests.
my %tested_invmaps;
# Like prop_invlist(), prop_invmap() is tested by comparing the results
# returned by the function with the tables that mktables generates. Some of
# these tables are directly stored as files on disk, in either the unicore or
# unicore/To directories, and most should be listed in the mktables generated
# hash %utf8::loose_property_to_file_of, with a few additional ones that this
# handles specially. For these, the files are read in directly, massaged, and
# compared with what invmap() returns. The SPECIALS hash in some of these
# files overrides values in the main part of the file.
#
# The other properties are tested indirectly by generating all the possible
# inversion lists for the property, and seeing if those match the inversion
# lists returned by prop_invlist(), which has already been tested.
PROPERTY:
foreach my $prop (keys %props) {
my $loose_prop = &utf8::_loose_name(lc $prop);
my $suppressed = grep { $_ eq $loose_prop }
@Unicode::UCD::suppressed_properties;
# Find the short and full names that this property goes by
my ($name, $full_name) = prop_aliases($prop);
if (! $name) {
if (! $suppressed) {
fail("prop_invmap('$prop')");
diag("is unknown to prop_aliases(), and we need it in order to test prop_invmap");
}
next PROPERTY;
}
# Normalize the short name, as it is stored in the hashes under the
# normalized version.
$name = &utf8::_loose_name(lc $name);
# Add in the characters that are supposed to be ignored to test loose
# matching, which the tested function applies to all properties
my $mod_prop = "$extra_chars$prop";
my ($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($mod_prop);
my $return_ref = [ $invlist_ref, $invmap_ref, $format, $missing ];
# If have already tested this property under a different name, merely
# compare the return from now with the saved one from before.
if (exists $tested_invmaps{$name}) {
is_deeply($return_ref, $tested_invmaps{$name}, "prop_invmap('$mod_prop') gave same results as its synonym, '$name'");
next PROPERTY;
}
$tested_invmaps{$name} = dclone $return_ref;
# If prop_invmap() returned nothing, is ok iff is a property whose file is
# not generated.
if ($suppressed) {
if (defined $format) {
fail("prop_invmap('$mod_prop')");
diag("did not return undef for suppressed property $prop");
}
next PROPERTY;
}
elsif (!defined $format) {
fail("prop_invmap('$mod_prop')");
diag("'$prop' is unknown to prop_invmap()");
next PROPERTY;
}
# The two parallel arrays must have the same number of elements.
if (@$invlist_ref != @$invmap_ref) {
fail("prop_invmap('$mod_prop')");
diag("invlist has "
. scalar @$invlist_ref
. " while invmap has "
. scalar @$invmap_ref
. " elements");
next PROPERTY;
}
# The last element must be for the above-Unicode code points, and must be
# for the default value.
if ($invlist_ref->[-1] != 0x110000) {
fail("prop_invmap('$mod_prop')");
diag("The last inversion list element is not 0x110000");
next PROPERTY;
}
if ($invmap_ref->[-1] ne $missing) {
fail("prop_invmap('$mod_prop')");
diag("The last inversion list element is '$invmap_ref->[-1]', and should be '$missing'");
next PROPERTY;
}
if ($name eq 'bmg') { # This one has an atypical $missing
if ($missing ne "") {
fail("prop_invmap('$mod_prop')");
diag("The missings should be \"\"; got '$missing'");
next PROPERTY;
}
}
elsif ($format =~ /^ a (?!r) /x) {
if ($full_name eq 'Perl_Decimal_Digit') {
if ($missing ne "") {
fail("prop_invmap('$mod_prop')");
diag("The missings should be \"\"; got '$missing'");
next PROPERTY;
}
}
elsif ($missing ne "0") {
fail("prop_invmap('$mod_prop')");
diag("The missings should be '0'; got '$missing'");
next PROPERTY;
}
}
elsif ($missing =~ /[<>]/) {
fail("prop_invmap('$mod_prop')");
diag("The missings should NOT be something with <...>'");
next PROPERTY;
# I don't want to hard code in what all the missings should be, so
# those don't get fully tested.
}
# Certain properties don't have their own files, but must be constructed
# using proxies.
my $proxy_prop = $name;
if ($full_name eq 'Present_In') {
$proxy_prop = "age"; # The maps for these two props are identical
}
elsif ($full_name eq 'Simple_Case_Folding'
|| $full_name =~ /Simple_ (.) .*? case_Mapping /x)
{
if ($full_name eq 'Simple_Case_Folding') {
$proxy_prop = 'cf';
}
else {
# We captured the U, L, or T, leading to uc, lc, or tc.
$proxy_prop = lc $1 . "c";
}
if ($format ne "a") {
fail("prop_invmap('$mod_prop')");
diag("The format should be 'a'; got '$format'");
next PROPERTY;
}
}
if ($format !~ / ^ (?: a [der]? | ale? | n | sl? ) $ /x) {
fail("prop_invmap('$mod_prop')");
diag("Unknown format '$format'");
next PROPERTY;
}
my $base_file;
my $official;
# Handle the properties that have full disk files for them (except the
# Name property which is structurally enough different that it is handled
# separately below.)
if ($name ne 'na'
&& ($name eq 'blk'
|| defined
($base_file = $utf8::loose_property_to_file_of{$proxy_prop})
|| exists $utf8::loose_to_file_of{$proxy_prop}
|| $name eq "dm"))
{
# In the above, blk is done unconditionally, as we need to test that
# the old-style block names are returned, even if mktables has
# generated a file for the new-style; the test for dm comes afterward,
# so that if a file has been generated for it explicitly, we use that
# file (which is valid, unlike blk) instead of the combo
# Decomposition.pl files.
my $file;
my $is_binary = 0;
if ($name eq 'blk') {
# The blk property is special. The original file with old block
# names is retained, and the default is to not write out a
# new-name file. What we do is get the old names into a data
# structure, and from that create what the new file would look
# like. $base_file is needed to be defined, just to avoid a
# message below.
$base_file = "This is a dummy name";
my $blocks_ref = charblocks();
$official = "";
for my $range (sort { $a->[0][0] <=> $b->[0][0] }
values %$blocks_ref)
{
# Translate the charblocks() data structure to what the file
# would like.
$official .= sprintf"%04X\t%04X\t%s\n",
$range->[0][0],
$range->[0][1],
$range->[0][2];
}
}
else {
$base_file = "Decomposition" if $format eq 'ad';
# Above leaves $base_file undefined only if it came from the hash
# below. This should happen only when it is a binary property
# (and are accessing via a single-form name, like 'In_Latin1'),
# and so it is stored in a different directory than the To ones.
# XXX Currently, the only cases where it is complemented are the
# ones that have no code points. And it works out for these that
# 1) complementing them, and then 2) adding or subtracting the
# initial 0 and final 110000 cancel each other out. But further
# work would be needed in the unlikely event that an inverted
# property comes along without these characteristics
if (!defined $base_file) {
$base_file = $utf8::loose_to_file_of{$proxy_prop};
$is_binary = ($base_file =~ s/^!//) ? -1 : 1;
$base_file = "lib/$base_file";
}
# Read in the file
$file = "unicore/$base_file.pl";
$official = do $file;
# Get rid of any trailing space and comments in the file.
$official =~ s/\s*(#.*)?$//mg;
if ($format eq 'ad') {
my @official = split /\n/, $official;
$official = "";
foreach my $line (@official) {
my ($start, $end, $value)
= $line =~ / ^ (.+?) \t (.*?) \t (.+?)
\s* ( \# .* )? $ /x;
# Decomposition.pl also has the <compatible> types in it,
# which should be removed.
$value =~ s/<.*?> //;
$official .= "$start\t\t$value\n";
# If this is a multi-char range, we turn it into as many
# single character ranges as necessary. This makes things
# easier below.
if ($end ne "") {
for my $i (hex($start) + 1 .. hex $end) {
$official .= sprintf "%04X\t\t%s\n", $i, $value;
}
}
}
}
}
local $/ = "\n";
chomp $official;
$/ = $input_record_separator;
# Get the format for the file, and if there are any special elements,
# get a reference to them.
my $swash_name = $utf8::file_to_swash_name{$base_file};
my $specials_ref;
my $file_format;
if ($swash_name) {
$specials_ref = $utf8::SwashInfo{$swash_name}{'specials_name'};
if ($specials_ref) {
# Convert from the name to the actual reference.
no strict 'refs';
$specials_ref = \%{$specials_ref};
}
$file_format = $utf8::SwashInfo{$swash_name}{'format'};
}
# Certain of the proxy properties have to be adjusted to match the
# real ones.
if ($full_name =~ /^(Case_Folding|(Lower|Title|Upper)case_Mapping)/) {
# Here we have either
# 1) Case_Folding; or
# 2) a proxy that is a full mapping, which means that what the
# real property is is the equivalent simple mapping.
# In both cases, the file will have a standard list containing
# simple mappings (to a single code point), and a specials hash
# which contains all the mappings that are to multiple code
# points. First, extract a list containing all the file's simple
# mappings.
my @list;
for (split "\n", $official) {
my ($start, $end, $value) = / ^ (.+?) \t (.*?) \t (.+?)
\s* ( \# .* )? $ /x;
$end = $start if $end eq "";
push @list, [ hex $start, hex $end, $value ];
}
# For these mappings, the file contains all the simple mappings,
# including the ones that are overridden by the specials. These
# need to be removed as the list is for just the full ones.
# Go through any special mappings one by one. They are packed.
my $i = 0;
foreach my $utf8_cp (sort keys %$specials_ref) {
my $cp = unpack("C0U", $utf8_cp);
# Find the spot in the @list of simple mappings that this
# special applies to; uses a linear search.
while ($i < @list -1 ) {
last if $cp <= $list[$i][1];
$i++;
}
# Here $i is such that it points to the first range which ends
# at or above cp, and hence is the only range that could
# possibly contain it.
# If not in this range, no range contains it: nothing to
# remove.
next if $cp < $list[$i][0];
# Otherwise, remove the existing entry. If it is the first
# element of the range...
if ($cp == $list[$i][0]) {
# ... and there are other elements in the range, just shorten
# the range to exclude this code point.
if ($list[$i][1] > $list[$i][0]) {
$list[$i][0]++;
}
# ... but if it is the only element in the range, remove
# it entirely.
else {
splice @list, $i, 1;
}
}
else { # Is somewhere in the middle of the range
# Split the range into two, excluding this one in the
# middle
splice @list, $i, 1,
[ $list[$i][0], $cp - 1, $list[$i][2] ],
[ $cp + 1, $list[$i][1], $list[$i][2] ];
}
}
# Here, have gone through all the specials, modifying @list as
# needed. Turn it back into what the file should look like.
$official = "";
for my $element (@list) {
$official .= "\n" if $official;
if ($element->[1] == $element->[0]) {
$official .= sprintf "%04X\t\t%s", $element->[0], $element->[2];
}
else {
$official .= sprintf "%04X\t%04X\t%s", $element->[0], $element->[1], $element->[2];
}
}
}
elsif ($full_name =~ /Simple_(Case_Folding|(Lower|Title|Upper)case_Mapping)/)
{
# These properties have everything in the regular array, and the
# specials are superfluous.
undef $specials_ref;
}
elsif ($format !~ /^a/ && defined $file_format && $file_format eq 'x') {
# For these properties the file is output using hex notation for the
# map. Convert from hex to decimal.
my @lines = split "\n", $official;
foreach my $line (@lines) {
my ($lower, $upper, $map) = split "\t", $line;
$line = "$lower\t$upper\t" . hex $map;
}
$official = join "\n", @lines;
}
# Here, in $official, we have what the file looks like, or should like
# if we've had to fix it up. Now take the invmap() output and reverse
# engineer from that what the file should look like. Each iteration
# appends the next line to the running string.
my $tested_map = "";
# Create a copy of the file's specials hash. (It has been undef'd if
# we know it isn't relevant to this property, so if it exists, it's an
# error or is relevant). As we go along, we delete from that copy.
# If a delete fails, or something is left over after we are done,
# it's an error
my %specials = %$specials_ref if $specials_ref;
# The extra -1 is because the final element has been tested above to
# be for anything above Unicode. The file doesn't go that high.
for (my $i = 0; $i < @$invlist_ref - 1; $i++) {
# If the map element is a reference, have to stringify it (but
# don't do so if the format doesn't allow references, so that an
# improper format will generate an error.
if (ref $invmap_ref->[$i]
&& ($format eq 'ad' || $format =~ /^ . l /x))
{
# The stringification depends on the format.
if ($format eq 'sl') {
# At the time of this writing, there are two types of 'sl'
# format One, in Name_Alias, has multiple separate entries
# for each code point; the other, in Script_Extension, is space
# separated. Assume the latter for non-Name_Alias.
if ($full_name ne 'Name_Alias') {
$invmap_ref->[$i] = join " ", @{$invmap_ref->[$i]};
}
else {
# For Name_Alias, we emulate the file. Entries with
# just one value don't need any changes, but we
# convert the list entries into a series of lines for
# the file, starting with the first name. The
# succeeding entries are on separate lines, with the
# code point repeated for each one and then two tabs,
# then the value. Code at the end of the loop will
# set up the first line with its code point and two
# tabs before the value, just as it does for every
# other property; thus the special handling of the
# first line.
if (ref $invmap_ref->[$i]) {
my $hex_cp = sprintf("%04X", $invlist_ref->[$i]);
my $concatenated = $invmap_ref->[$i][0];
for (my $j = 1; $j < @{$invmap_ref->[$i]}; $j++) {
$concatenated .= "\n$hex_cp\t\t" . $invmap_ref->[$i][$j];
}
$invmap_ref->[$i] = $concatenated;
}
}
}
elsif ($format =~ / ^ al e? $/x) {
# For a al property, the stringified result should be in
# the specials hash. The key is the packed code point,
# and the value is the packed map.
my $value;
if (! defined ($value = delete $specials{pack("C0U", $invlist_ref->[$i]) })) {
fail("prop_invmap('$mod_prop')");
diag(sprintf "There was no specials element for %04X", $invlist_ref->[$i]);
next PROPERTY;
}
my $packed = pack "U*", @{$invmap_ref->[$i]};
if ($value ne $packed) {
fail("prop_invmap('$mod_prop')");
diag(sprintf "For %04X, expected the mapping to be '$packed', but got '$value'");
next PROPERTY;
}
# As this doesn't get tested when we later compare with
# the actual file, it could be out of order and we
# wouldn't know it.
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
next;
}
elsif ($format eq 'ad') {
# The decomposition mapping file has the code points as
# a string of space-separated hex constants.
$invmap_ref->[$i] = join " ", map { sprintf "%04X", $_ } @{$invmap_ref->[$i]};
}
else {
fail("prop_invmap('$mod_prop')");
diag("Can't handle format '$format'");
next PROPERTY;
}
}
elsif ($format eq 'ad' || $format eq 'ale') {
# The numerics in the returned map are stored as adjusted
# decimal integers. The defaults are 0, and don't appear in
# $official, and are excluded later, but the elements must be
# converted back to their hex values before comparing with
# $official, as these files, for backwards compatibility, are
# not stored as adjusted. (There currently is only one ale
# property, nfkccf. If that changed this would also have to.)
if ($invmap_ref->[$i] =~ / ^ -? \d+ $ /x
&& $invmap_ref->[$i] != 0)
{
my $next = $invmap_ref->[$i] + 1;
$invmap_ref->[$i] = sprintf("%04X", $invmap_ref->[$i]);
# If there are other elements in this range they need to
# be adjusted; they must individually be re-mapped. Do
# this by splicing in a new element into the list and the
# map containing the remainder of the range. Next time
# through we will look at that (possibly splicing again
# until the whole range is processed).
if ($invlist_ref->[$i+1] > $invlist_ref->[$i] + 1) {
splice @$invlist_ref, $i+1, 0,
$invlist_ref->[$i] + 1;
splice @$invmap_ref, $i+1, 0, $next;
}
}
if ($format eq 'ale' && $invmap_ref->[$i] eq "") {
# ale properties have maps to the empty string that also
# should be in the specials hash, with the key the packed
# code point, and the map just empty.
my $value;
if (! defined ($value = delete $specials{pack("C0U", $invlist_ref->[$i]) })) {
fail("prop_invmap('$mod_prop')");
diag(sprintf "There was no specials element for %04X", $invlist_ref->[$i]);
next PROPERTY;
}
if ($value ne "") {
fail("prop_invmap('$mod_prop')");
diag(sprintf "For %04X, expected the mapping to be \"\", but got '$value'", $invlist_ref->[$i]);
next PROPERTY;
}
# As this doesn't get tested when we later compare with
# the actual file, it could be out of order and we
# wouldn't know it.
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
next;
}
}
elsif ($is_binary) { # These binary files don't have an explicit Y
$invmap_ref->[$i] =~ s/Y//;
}
# The file doesn't include entries that map to $missing, so don't
# include it in the built-up string. But make sure that it is in
# the correct order in the input.
if ($invmap_ref->[$i] eq $missing) {
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
next;
}
# The ad property has one entry which isn't in the file.
# Ignore it, but make sure it is in order.
if ($format eq 'ad'
&& $invmap_ref->[$i] eq '<hangul syllable>'
&& $invlist_ref->[$i] == 0xAC00)
{
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
next;
}
# Finally have figured out what the map column in the file should
# be. Append the line to the running string.
my $start = $invlist_ref->[$i];
my $end = $invlist_ref->[$i+1] - 1;
$end = ($start == $end) ? "" : sprintf("%04X", $end);
if ($invmap_ref->[$i] ne "") {
$tested_map .= sprintf "%04X\t%s\t%s\n", $start, $end, $invmap_ref->[$i];
}
elsif ($end ne "") {
$tested_map .= sprintf "%04X\t%s\n", $start, $end;
}
else {
$tested_map .= sprintf "%04X\n", $start;
}
} # End of looping over all elements.
# Here are done with generating what the file should look like
local $/ = "\n";
chomp $tested_map;
$/ = $input_record_separator;
# And compare.
if ($tested_map ne $official) {
fail_with_diff($mod_prop, $official, $tested_map, "prop_invmap");
next PROPERTY;
}
# There shouldn't be any specials unaccounted for.
if (keys %specials) {
fail("prop_invmap('$mod_prop')");
diag("Unexpected specials: " . join ", ", keys %specials);
next PROPERTY;
}
}
elsif ($format eq 'n') {
# Handle the Name property similar to the above. But the file is
# sufficiently different that it is more convenient to make a special
# case for it. It is a combination of the Name, Unicode1_Name, and
# Name_Alias properties, and named sequences. We need to remove all
# but the Name in order to do the comparison.
if ($missing ne "") {
fail("prop_invmap('$mod_prop')");
diag("The missings should be \"\"; got \"missing\"");
next PROPERTY;
}
$official = do "unicore/Name.pl";
# Get rid of the named sequences portion of the file. These don't
# have a tab before the first blank on a line.
$official =~ s/ ^ [^\t]+ \ .*? \n //xmg;
# And get rid of the controls. These are named in the file, but
# shouldn't be in the property. This gets rid of the two ranges in
# one fell swoop, and also all the Unicode1_Name values that may not
# be in Name_Alias.
$official =~ s/ 00000 \t .* 0001F .*? \n//xs;
$official =~ s/ 0007F \t .* 0009F .*? \n//xs;
# And remove the aliases. We read in the Name_Alias property, and go
# through them one by one.
my ($aliases_code_points, $aliases_maps, undef, undef)
= &prop_invmap('Name_Alias');
for (my $i = 0; $i < @$aliases_code_points; $i++) {
my $code_point = $aliases_code_points->[$i];
# Already removed these above.
next if $code_point <= 0x1F
|| ($code_point >= 0x7F && $code_point <= 0x9F);
my $hex_code_point = sprintf "%05X", $code_point;
# Convert to a list if not already to make the following loop
# control uniform.
$aliases_maps->[$i] = [ $aliases_maps->[$i] ]
if ! ref $aliases_maps->[$i];
# Remove each alias for this code point from the file
foreach my $alias (@{$aliases_maps->[$i]}) {
# Remove the alias type from the entry, retaining just the name.
$alias =~ s/:.*//;
$alias = quotemeta($alias);
$official =~ s/$hex_code_point \t $alias \n //x;
}
}
local $/ = "\n";
chomp $official;
$/ = $input_record_separator;
# Here have adjusted the file. We also have to adjust the returned
# inversion map by checking and deleting all the lines in it that
# won't be in the file. These are the lines that have generated
# things, like <hangul syllable>.
my $tested_map = ""; # Current running string
my @code_point_in_names =
@Unicode::UCD::code_points_ending_in_code_point;
for my $i (0 .. @$invlist_ref - 1 - 1) {
my $start = $invlist_ref->[$i];
my $end = $invlist_ref->[$i+1] - 1;
if ($invmap_ref->[$i] eq $missing) {
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
next;
}
if ($invmap_ref->[$i] =~ / (.*) ( < .*? > )/x) {
my $name = $1;
my $type = $2;
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
if ($type eq "<hangul syllable>") {
if ($name ne "") {
fail("prop_invmap('$mod_prop')");
diag("Unexpected text in $invmap_ref->[$i]");
next PROPERTY;
}
if ($start != 0xAC00) {
fail("prop_invmap('$mod_prop')");
diag(sprintf("<hangul syllables> should begin at 0xAC00, got %04X", $start));
next PROPERTY;
}
if ($end != $start + 11172 - 1) {
fail("prop_invmap('$mod_prop')");
diag(sprintf("<hangul syllables> should end at %04X, got %04X", $start + 11172 -1, $end));
next PROPERTY;
}
}
elsif ($type ne "<code point>") {
fail("prop_invmap('$mod_prop')");
diag("Unexpected text '$type' in $invmap_ref->[$i]");
next PROPERTY;
}
else {
# Look through the array of names that end in code points,
# and look for this start and end. If not found is an
# error. If found, delete it, and at the end, make sure
# have deleted everything.
for my $i (0 .. @code_point_in_names - 1) {
my $hash = $code_point_in_names[$i];
if ($hash->{'low'} == $start
&& $hash->{'high'} == $end
&& "$hash->{'name'}-" eq $name)
{
splice @code_point_in_names, $i, 1;
last;
}
else {
fail("prop_invmap('$mod_prop')");
diag("Unexpected code-point-in-name line '$invmap_ref->[$i]'");
next PROPERTY;
}
}
}
next;
}
# Have adjusted the map, as needed. Append to running string.
$end = ($start == $end) ? "" : sprintf("%05X", $end);
$tested_map .= sprintf "%05X\t%s\n", $start, $invmap_ref->[$i];
}
# Finished creating the string from the inversion map. Can compare
# with what the file is.
local $/ = "\n";
chomp $tested_map;
$/ = $input_record_separator;
if ($tested_map ne $official) {
fail_with_diff($mod_prop, $official, $tested_map, "prop_invmap");
next PROPERTY;
}
if (@code_point_in_names) {
fail("prop_invmap('$mod_prop')");
use Data::Dumper;
diag("Missing code-point-in-name line(s)" . Dumper \@code_point_in_names);
next PROPERTY;
}
}
elsif ($format eq 's') {
# Here the map is not more or less directly from a file stored on
# disk. We try a different tack. These should all be properties that
# have just a few possible values (most of them are binary). We go
# through the map list, sorting each range into buckets, one for each
# map value. Thus for binary properties there will be a bucket for Y
# and one for N. The buckets are inversion lists. We compare each
# constructed inversion list with what we would get for it using
# prop_invlist(), which has already been tested. If they all match,
# the whole map must have matched.
my %maps;
my $previous_map;
# (The extra -1 is to not look at the final element in the loop, which
# we know is the one that starts just beyond Unicode and goes to
# infinity.)
for my $i (0 .. @$invlist_ref - 1 - 1) {
my $range_start = $invlist_ref->[$i];
# Because we are sorting into buckets, things could be
# out-of-order here, and still be in the correct order in the
# bucket, and hence wouldn't show up as an error; so have to
# check.
if (($i > 0 && $range_start <= $invlist_ref->[$i-1])
|| $range_start >= $invlist_ref->[$i+1])
{
fail("prop_invmap('$mod_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
# This new range closes out the range started in the previous
# iteration.
push @{$maps{$previous_map}}, $range_start if defined $previous_map;
# And starts a range which will be closed in the next iteration.
$previous_map = $invmap_ref->[$i];
push @{$maps{$previous_map}}, $range_start;
}
# The range we just started hasn't been closed, and we didn't look at
# the final element of the loop. If that range is for the default
# value, it shouldn't be closed, as it is to extend to infinity. But
# otherwise, it should end at the final Unicode code point, and the
# list that maps to the default value should have another element that
# does go to infinity for every above Unicode code point.
if (@$invlist_ref > 1) {
my $penultimate_map = $invmap_ref->[-2];
if ($penultimate_map ne $missing) {
# The -1th element contains the first non-Unicode code point.
push @{$maps{$penultimate_map}}, $invlist_ref->[-1];
push @{$maps{$missing}}, $invlist_ref->[-1];
}
}
# Here, we have the buckets (inversion lists) all constructed. Go
# through each and verify that matches what prop_invlist() returns.
# We could use is_deeply() for the comparison, but would get multiple
# messages for each $prop.
foreach my $map (keys %maps) {
my @off_invlist = prop_invlist("$prop = $map");
my $min = (@off_invlist >= @{$maps{$map}})
? @off_invlist
: @{$maps{$map}};
for my $i (0 .. $min- 1) {
if ($i > @off_invlist - 1) {
fail("prop_invmap('$mod_prop')");
diag("There is no element [$i] for $prop=$map from prop_invlist(), while [$i] in the implicit one constructed from prop_invmap() is '$maps{$map}[$i]'");
next PROPERTY;
}
elsif ($i > @{$maps{$map}} - 1) {
fail("prop_invmap('$mod_prop')");
diag("There is no element [$i] from the implicit $prop=$map constructed from prop_invmap(), while [$i] in the one from prop_invlist() is '$off_invlist[$i]'");
next PROPERTY;
}
elsif ($maps{$map}[$i] ne $off_invlist[$i]) {
fail("prop_invmap('$mod_prop')");
diag("Element [$i] of the implicit $prop=$map constructed from prop_invmap() is '$maps{$map}[$i]', and the one from prop_invlist() is '$off_invlist[$i]'");
next PROPERTY;
}
}
}
}
else { # Don't know this property nor format.
fail("prop_invmap('$mod_prop')");
diag("Unknown format '$format'");
}
pass("prop_invmap('$mod_prop')");
}
ok($/ eq $input_record_separator, "The record separator didn't get overridden");
done_testing();