Commit a580185c authored by Christoph Reiter's avatar Christoph Reiter 🐍

tests: Port gen-casefold-txt.pl and gen-casemap-txt.pl to Python 3. See #1332

I've tried to keep the code structure roughly the same.
parent 603d4046
......@@ -146,8 +146,8 @@ endif
EXTRA_DIST += \
$(test_scripts) \
gen-casefold-txt.pl \
gen-casemap-txt.pl \
gen-casefold-txt.py \
gen-casemap-txt.py \
iochannel-test-infile \
timeloop-basic.c \
assert-msg-test.gdb
......
# Test cases generated from Unicode 10.0.0 data
# by gen-casefold-test.pl. Do not edit.
# by gen-casefold-txt.py. Do not edit.
#
# Some special hand crafted tests
#
......
# Test cases generated from Unicode 10.0.0 data
# by gen-case-tests.pl. Do not edit.
# by gen-casemap-txt.py. Do not edit.
#
# Some special hand crafted tests
#
......
#! /usr/bin/perl -w
# Copyright (C) 1998, 1999 Tom Tromey
# Copyright (C) 2001 Red Hat Software
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2, or (at your option)
# any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program; if not, see <http://www.gnu.org/licenses/>.
# gen-casefold-test.pl - Generate test cases for casefolding from Unicode data.
# See http://www.unicode.org/Public/UNIDATA/UnicodeCharacterDatabase.html
# Usage:
# I consider the output of this program to be unrestricted. Use it as
# you will.
require 5.006;
# Names of fields in the CaseFolding table
$FOLDING_CODE = 0;
$FOLDING_STATUS = 1;
$FOLDING_MAPPING = 2;
my $casefoldlen = 0;
my @casefold;
if (@ARGV != 2) {
$0 =~ s@.*/@@;
die "Usage: $0 UNICODE-VERSION CaseFolding.txt\n";
}
print <<EOT;
# Test cases generated from Unicode $ARGV[0] data
# by gen-casefold-test.pl. Do not edit.
#
# Some special hand crafted tests
#
AaBbCc@@\taabbcc@@
#
# Now the automatic tests
#
EOT
binmode STDOUT, ":utf8";
open (INPUT, "< $ARGV[1]") || exit 1;
while (<INPUT>)
{
chop;
next if /^#/;
next if /^\s*$/;
s/\s*#.*//;
my @fields = split ('\s*;\s*', $_, 30);
my $raw_code = $fields[$FOLDING_CODE];
my $code = hex ($raw_code);
if ($#fields != 3)
{
printf STDERR ("Entry for $raw_code has wrong number of fields (%d)\n", $#fields);
next;
}
# skip simple and Turkic mappings
next if ($fields[$FOLDING_STATUS] =~ /^[ST]$/);
@values = map { hex ($_) } split /\s+/, $fields[$FOLDING_MAPPING];
printf ("%s\t%s\n", pack ("U", $code), pack ("U*", @values));
}
close INPUT;
#!/usr/bin/env python3
# Copyright (C) 1998, 1999 Tom Tromey
# Copyright (C) 2001 Red Hat Software
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, see <http://www.gnu.org/licenses/>.
"""
gen-casefold-txt.py - Generate test cases for casefolding from Unicode data.
See http://www.unicode.org/Public/UNIDATA/UnicodeCharacterDatabase.html
Usage:
I consider the output of this program to be unrestricted.
Use it as you will.
"""
import sys
import argparse
def main(argv):
parser = argparse.ArgumentParser(
description="Generate test cases for casefolding from Unicode data")
parser.add_argument("UNICODE-VERSION")
parser.add_argument("CaseFolding.txt")
args = parser.parse_args(argv[1:])
version = getattr(args, "UNICODE-VERSION")
filename = getattr(args, "CaseFolding.txt")
print("""\
# Test cases generated from Unicode {} data
# by gen-casefold-txt.py. Do not edit.
#
# Some special hand crafted tests
#
AaBbCc@@\taabbcc@@
#
# Now the automatic tests
#""".format(version))
# Names of fields in the CaseFolding table
CODE, STATUS, MAPPING = range(3)
with open(filename, encoding="utf-8") as fileobj:
for line in fileobj:
# strip comments and skip empty lines
line = line.split("#", 1)[0].strip()
if not line:
continue
fields = [f.strip() for f in line.split(";", 3)[:3]]
if len(fields) != 3:
raise SystemExit(
"Entry for %s has wrong number of fields (%d)" % (
fields[CODE], len(fields)))
status = fields[STATUS]
# skip simple and Turkic mappings
if status in "ST":
continue
code = chr(int(fields[CODE], 16))
values = "".join(
[chr(int(v, 16)) for v in fields[MAPPING].split()])
print("{}\t{}".format(code, values))
if __name__ == "__main__":
sys.exit(main(sys.argv))
#! /usr/bin/perl -w
# Copyright (C) 1998, 1999 Tom Tromey
# Copyright (C) 2001 Red Hat Software
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2, or (at your option)
# any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program; if not, see <http://www.gnu.org/licenses/>.
# gen-casemap-test.pl - Generate test cases for case mapping from Unicode data.
# See http://www.unicode.org/Public/UNIDATA/UnicodeCharacterDatabase.html
# I consider the output of this program to be unrestricted. Use it as
# you will.
require 5.006;
use utf8;
if (@ARGV != 3) {
$0 =~ s@.*/@@;
die "Usage: $0 UNICODE-VERSION UnicodeData.txt SpecialCasing.txt\n";
}
use vars qw($CODE $NAME $CATEGORY $COMBINING_CLASSES $BIDI_CATEGORY $DECOMPOSITION $DECIMAL_VALUE $DIGIT_VALUE $NUMERIC_VALUE $MIRRORED $OLD_NAME $COMMENT $UPPER $LOWER $TITLE $BREAK_CODE $BREAK_CATEGORY $BREAK_NAME $CASE_CODE $CASE_LOWER $CASE_TITLE $CASE_UPPER $CASE_CONDITION);
# Names of fields in Unicode data table.
$CODE = 0;
$NAME = 1;
$CATEGORY = 2;
$COMBINING_CLASSES = 3;
$BIDI_CATEGORY = 4;
$DECOMPOSITION = 5;
$DECIMAL_VALUE = 6;
$DIGIT_VALUE = 7;
$NUMERIC_VALUE = 8;
$MIRRORED = 9;
$OLD_NAME = 10;
$COMMENT = 11;
$UPPER = 12;
$LOWER = 13;
$TITLE = 14;
# Names of fields in the SpecialCasing table
$CASE_CODE = 0;
$CASE_LOWER = 1;
$CASE_TITLE = 2;
$CASE_UPPER = 3;
$CASE_CONDITION = 4;
my @upper;
my @title;
my @lower;
binmode STDOUT, ":utf8";
open (INPUT, "< $ARGV[1]") || exit 1;
$last_code = -1;
while (<INPUT>)
{
chop;
@fields = split (';', $_, 30);
if ($#fields != 14)
{
printf STDERR ("Entry for $fields[$CODE] has wrong number of fields (%d)\n", $#fields);
}
$code = hex ($fields[$CODE]);
if ($code > $last_code + 1)
{
# Found a gap.
if ($fields[$NAME] =~ /Last>/)
{
# Fill the gap with the last character read,
# since this was a range specified in the char database
@gfields = @fields;
}
else
{
# The gap represents undefined characters. Only the type
# matters.
@gfields = ('', '', 'Cn', '0', '', '', '', '', '', '', '',
'', '', '', '');
}
for (++$last_code; $last_code < $code; ++$last_code)
{
$gfields{$CODE} = sprintf ("%04x", $last_code);
&process_one ($last_code, @gfields);
}
}
&process_one ($code, @fields);
$last_code = $code;
}
close INPUT;
open (INPUT, "< $ARGV[2]") || exit 1;
while (<INPUT>)
{
my $code;
chop;
next if /^#/;
next if /^\s*$/;
s/\s*#.*//;
@fields = split ('\s*;\s*', $_, 30);
$raw_code = $fields[$CASE_CODE];
$code = hex ($raw_code);
if ($#fields != 4 && $#fields != 5)
{
printf STDERR ("Entry for $raw_code has wrong number of fields (%d)\n", $#fields);
next;
}
if (defined $fields[5]) {
# Ignore conditional special cases - we'll handle them manually
next;
}
$upper[$code] = &make_hex ($fields[$CASE_UPPER]);
$lower[$code] = &make_hex ($fields[$CASE_LOWER]);
$title[$code] = &make_hex ($fields[$CASE_TITLE]);
}
close INPUT;
print <<EOT;
# Test cases generated from Unicode $ARGV[0] data
# by gen-case-tests.pl. Do not edit.
#
# Some special hand crafted tests
#
tr_TR\ti\ti\t\x{0130}\t\x{0130}\t# i => LATIN CAPITAL LETTER I WITH DOT ABOVE
tr_TR\tI\t\x{0131}\tI\tI\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR\tI\x{0307}\ti\tI\x{0307}\tI\x{0307}\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR.UTF-8\ti\ti\t\x{0130}\t\x{0130}\t# i => LATIN CAPITAL LETTER I WITH DOT ABOVE
tr_TR.UTF-8\tI\t\x{0131}\tI\tI\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR.UTF-8\tI\x{0307}\ti\tI\x{0307}\tI\x{0307}\t# I => LATIN SMALL LETTER DOTLESS I
# Test reordering of YPOGEGRAMMENI across other accents
\t\x{03b1}\x{0345}\x{0314}\t\x{03b1}\x{0345}\x{314}\t\x{0391}\x{0345}\x{0314}\t\x{0391}\x{0314}\x{0399}\t
\t\x{03b1}\x{0314}\x{0345}\t\x{03b1}\x{314}\x{0345}\t\x{0391}\x{0314}\x{0345}\t\x{0391}\x{0314}\x{0399}\t
# Handling of final and nonfinal sigma
ΜΆΙΟΣ μάιος Μάιος ΜΆΙΟΣ
ΜΆΙΟΣ μάιος Μάιος ΜΆΙΟΣ
ΣΙΓΜΑ σιγμα Σιγμα ΣΙΓΜΑ
# Lithuanian rule of i followed by letter with dot. Not at all sure
# about the titlecase part here
lt_LT\ti\x{117}\ti\x{117}\tIe\tIE\t
lt_LT\tie\x{307}\tie\x{307}\tIe\tIE\t
lt_LT\t\x{00cc}\ti\x{0307}\x{0300}\t\x{00cc}\t\x{00cc}\t # LATIN CAPITAL LETTER I WITH GRAVE
lt_LT\t\x{00CD}\ti\x{0307}\x{0301}\t\x{00CD}\t\x{00CD}\t # LATIN CAPITAL LETTER I WITH ACUTE
lt_LT\t\x{0128}\ti\x{0307}\x{0303}\t\x{0128}\t\x{0128}\t # LATIN CAPITAL LETTER I WITH TILDE
lt_LT\tI\x{0301}\ti\x{0307}\x{0301}\tI\x{0301}\tI\x{0301}\t # LATIN CAPITAL LETTER I (with acute accent)
lt_LT\tI\x{0300}\ti\x{0307}\x{0300}\tI\x{0300}\tI\x{0300}\t # LATIN CAPITAL LETTER I (with grave accent)
lt_LT\tI\x{0303}\ti\x{0307}\x{0303}\tI\x{0303}\tI\x{0303}\t # LATIN CAPITAL LETTER I (with tilde above)
lt_LT\tI\x{0328}\x{0301}\ti\x{0307}\x{0328}\x{0301}\tI\x{0328}\x{0301}\tI\x{0328}\x{0301}\t # LATIN CAPITAL LETTER I (with ogonek and acute accent)
lt_LT\tJ\x{0301}\tj\x{0307}\x{0301}\tJ\x{0301}\tJ\x{0301}\t # LATIN CAPITAL LETTER J (with acute accent)
lt_LT\t\x{012e}\x{0301}\t\x{012f}\x{0307}\x{0301}\t\x{012e}\x{0301}\t\x{012e}\x{0301}\t # LATIN CAPITAL LETTER I WITH OGONEK (with acute accent)
lt_LT.UTF-8\ti\x{117}\ti\x{117}\tIe\tIE\t
lt_LT.UTF-8\tie\x{307}\tie\x{307}\tIe\tIE\t
lt_LT.UTF-8\t\x{00cc}\ti\x{0307}\x{0300}\t\x{00cc}\t\x{00cc}\t # LATIN CAPITAL LETTER I WITH GRAVE
lt_LT.UTF-8\t\x{00CD}\ti\x{0307}\x{0301}\t\x{00CD}\t\x{00CD}\t # LATIN CAPITAL LETTER I WITH ACUTE
lt_LT.UTF-8\t\x{0128}\ti\x{0307}\x{0303}\t\x{0128}\t\x{0128}\t # LATIN CAPITAL LETTER I WITH TILDE
lt_LT.UTF-8\tI\x{0301}\ti\x{0307}\x{0301}\tI\x{0301}\tI\x{0301}\t # LATIN CAPITAL LETTER I (with acute accent)
lt_LT.UTF-8\tI\x{0300}\ti\x{0307}\x{0300}\tI\x{0300}\tI\x{0300}\t # LATIN CAPITAL LETTER I (with grave accent)
lt_LT.UTF-8\tI\x{0303}\ti\x{0307}\x{0303}\tI\x{0303}\tI\x{0303}\t # LATIN CAPITAL LETTER I (with tilde above)
lt_LT.UTF-8\tI\x{0328}\x{0301}\ti\x{0307}\x{0328}\x{0301}\tI\x{0328}\x{0301}\tI\x{0328}\x{0301}\t # LATIN CAPITAL LETTER I (with ogonek and acute accent)
lt_LT.UTF-8\tJ\x{0301}\tj\x{0307}\x{0301}\tJ\x{0301}\tJ\x{0301}\t # LATIN CAPITAL LETTER J (with acute accent)
lt_LT.UTF-8\t\x{012e}\x{0301}\t\x{012f}\x{0307}\x{0301}\t\x{012e}\x{0301}\t\x{012e}\x{0301}\t # LATIN CAPITAL LETTER I WITH OGONEK (with acute accent)
# Special case not at initial position
\ta\x{fb04}\ta\x{fb04}\tAffl\tAFFL\t# FB04
#
# Now the automatic tests
#
EOT
&print_tests;
exit 0;
# Process a single character.
sub process_one
{
my ($code, @fields) = @_;
my $type = $fields[$CATEGORY];
if ($type eq 'Ll')
{
$upper[$code] = make_hex ($fields[$UPPER]);
$lower[$code] = pack ("U", $code);
$title[$code] = make_hex ($fields[$TITLE]);
}
elsif ($type eq 'Lu')
{
$lower[$code] = make_hex ($fields[$LOWER]);
$upper[$code] = pack ("U", $code);
$title[$code] = make_hex ($fields[$TITLE]);
}
if ($type eq 'Lt')
{
$upper[$code] = make_hex ($fields[$UPPER]);
$lower[$code] = pack ("U", hex ($fields[$LOWER]));
$title[$code] = make_hex ($fields[$LOWER]);
}
}
sub print_tests
{
for ($i = 0; $i < 0x10ffff; $i++) {
if ($i == 0x3A3) {
# Greek sigma needs special tests
next;
}
my $lower = $lower[$i];
my $title = $title[$i];
my $upper = $upper[$i];
if (defined $upper || defined $lower || defined $title) {
printf "\t%s\t%s\t%s\t%s\t# %4X\n",
pack ("U", $i),
(defined $lower ? $lower : ""),
(defined $title ? $title : ""),
(defined $upper ? $upper : ""),
$i;
}
}
}
sub make_hex
{
my $codes = shift;
$codes =~ s/^\s+//;
$codes =~ s/\s+$//;
if ($codes eq "0" || $codes eq "") {
return "";
} else {
return pack ("U*", map { hex ($_) } split /\s+/, $codes);
}
}
#!/usr/bin/env python3
# Copyright (C) 1998, 1999 Tom Tromey
# Copyright (C) 2001 Red Hat Software
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, see <http://www.gnu.org/licenses/>.
"""
gen-casemap-txt.py - Generate test cases for case mapping from Unicode data.
See http://www.unicode.org/Public/UNIDATA/UnicodeCharacterDatabase.html
Usage:
I consider the output of this program to be unrestricted.
Use it as you will.
"""
import sys
import argparse
def main(argv):
parser = argparse.ArgumentParser(
description="Generate test cases for case mapping from Unicode data")
parser.add_argument("UNICODE-VERSION")
parser.add_argument("UnicodeData.txt")
parser.add_argument("SpecialCasing.txt")
args = parser.parse_args(argv[1:])
version = getattr(args, "UNICODE-VERSION")
filename_udata = getattr(args, "UnicodeData.txt")
filename_casing = getattr(args, "SpecialCasing.txt")
# Names of fields in Unicode data table.
CODE, NAME, CATEGORY, COMBINING_CLASSES, BIDI_CATEGORY, DECOMPOSITION, \
DECIMAL_VALUE, DIGIT_VALUE, NUMERIC_VALUE, MIRRORED, OLD_NAME, \
COMMENT, UPPER, LOWER, TITLE = range(15)
# Names of fields in the SpecialCasing table
CASE_CODE, CASE_LOWER, CASE_TITLE, CASE_UPPER, CASE_CONDITION = range(5)
upper = {}
title = {}
lower = {}
def make_hex(codes):
"""Converts a string of white space separated code points encoded as
hex values to a Unicode string. Any extra white space is ignored.
"""
return "".join([chr(int(c, 16)) for c in codes.split()])
def process_one(code, fields):
type_ = fields[CATEGORY]
if type_ == "Ll":
upper[code] = make_hex(fields[UPPER])
lower[code] = chr(code)
title[code] = make_hex(fields[TITLE])
elif type_ == "Lu":
lower[code] = make_hex(fields[LOWER])
upper[code] = chr(code)
title[code] = make_hex(fields[TITLE])
elif type_ == "Lt":
upper[code] = make_hex(fields[UPPER])
lower[code] = make_hex(fields[LOWER])
title[code] = make_hex(fields[LOWER])
with open(filename_udata, encoding="utf-8") as fileobj:
last_code = -1
for line in fileobj:
line = line.strip()
fields = [f.strip() for f in line.split(";")]
if len(fields) != 15:
raise SystemExit(
"Entry for %s has wrong number of fields (%d)" % (
fields[CODE], len(fields)))
code = int(fields[CODE], 16)
if code > last_code + 1:
# Found a gap
if fields[NAME].endswith("Last>"):
# Fill the gap with the last character read,
# since this was a range specified in the char database
gfields = fields
else:
# The gap represents undefined characters. Only the type
# matters.
gfields = ['', '', 'Cn', '0', '', '', '', '', '', '', '',
'', '', '', '']
last_code += 1
while last_code < code:
gfields[CODE] = "%04x" % last_code
process_one(last_code, gfields)
last_code += 1
process_one(code, fields)
last_code = code
with open(filename_casing, encoding="utf-8") as fileobj:
last_code = -1
for line in fileobj:
# strip comments and skip empty lines
line = line.split("#", 1)[0].strip()
if not line:
continue
# all lines end with ";" so just remove it
line = line.rstrip(";").rstrip()
fields = [f.strip() for f in line.split(";")]
if len(fields) not in (4, 5):
raise SystemExit(
"Entry for %s has wrong number of fields (%d)" % (
fields[CASE_CODE], len(fields)))
if len(fields) == 5:
# Ignore conditional special cases - we'll handle them manually
continue
code = int(fields[CASE_CODE], 16)
upper[code] = make_hex(fields[CASE_UPPER])
lower[code] = make_hex(fields[CASE_LOWER])
title[code] = make_hex(fields[CASE_TITLE])
print_tests(version, upper, title, lower)
def print_tests(version, upper, title, lower):
print("""\
# Test cases generated from Unicode {} data
# by gen-casemap-txt.py. Do not edit.
#
# Some special hand crafted tests
#
tr_TR\ti\ti\t\u0130\t\u0130\t# i => LATIN CAPITAL LETTER I WITH DOT ABOVE
tr_TR\tI\t\u0131\tI\tI\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR\tI\u0307\ti\tI\u0307\tI\u0307\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR.UTF-8\ti\ti\t\u0130\t\u0130\t# i => LATIN CAPITAL LETTER I WITH DOT ABOVE
tr_TR.UTF-8\tI\t\u0131\tI\tI\t# I => LATIN SMALL LETTER DOTLESS I
tr_TR.UTF-8\tI\u0307\ti\tI\u0307\tI\u0307\t# I => LATIN SMALL LETTER DOTLESS I
# Test reordering of YPOGEGRAMMENI across other accents
\t\u03b1\u0345\u0314\t\u03b1\u0345\u0314\t\u0391\u0345\u0314\t\u0391\u0314\u0399\t
\t\u03b1\u0314\u0345\t\u03b1\u0314\u0345\t\u0391\u0314\u0345\t\u0391\u0314\u0399\t
# Handling of final and nonfinal sigma
\tΜΆΙΟΣ μάιος Μάιος ΜΆΙΟΣ
\tΜΆΙΟΣ μάιος Μάιος ΜΆΙΟΣ
\tΣΙΓΜΑ σιγμα Σιγμα ΣΙΓΜΑ
# Lithuanian rule of i followed by letter with dot. Not at all sure
# about the titlecase part here
lt_LT\ti\u0117\ti\u0117\tIe\tIE\t
lt_LT\tie\u0307\tie\u0307\tIe\tIE\t
lt_LT\t\u00cc\ti\u0307\u0300\t\u00cc\t\u00cc\t # LATIN CAPITAL LETTER I WITH GRAVE
lt_LT\t\u00CD\ti\u0307\u0301\t\u00CD\t\u00CD\t # LATIN CAPITAL LETTER I WITH ACUTE
lt_LT\t\u0128\ti\u0307\u0303\t\u0128\t\u0128\t # LATIN CAPITAL LETTER I WITH TILDE
lt_LT\tI\u0301\ti\u0307\u0301\tI\u0301\tI\u0301\t # LATIN CAPITAL LETTER I (with acute accent)
lt_LT\tI\u0300\ti\u0307\u0300\tI\u0300\tI\u0300\t # LATIN CAPITAL LETTER I (with grave accent)
lt_LT\tI\u0303\ti\u0307\u0303\tI\u0303\tI\u0303\t # LATIN CAPITAL LETTER I (with tilde above)
lt_LT\tI\u0328\u0301\ti\u0307\u0328\u0301\tI\u0328\u0301\tI\u0328\u0301\t # LATIN CAPITAL LETTER I (with ogonek and acute accent)
lt_LT\tJ\u0301\tj\u0307\u0301\tJ\u0301\tJ\u0301\t # LATIN CAPITAL LETTER J (with acute accent)
lt_LT\t\u012e\u0301\t\u012f\u0307\u0301\t\u012e\u0301\t\u012e\u0301\t # LATIN CAPITAL LETTER I WITH OGONEK (with acute accent)
lt_LT.UTF-8\ti\u0117\ti\u0117\tIe\tIE\t
lt_LT.UTF-8\tie\u0307\tie\u0307\tIe\tIE\t
lt_LT.UTF-8\t\u00cc\ti\u0307\u0300\t\u00cc\t\u00cc\t # LATIN CAPITAL LETTER I WITH GRAVE
lt_LT.UTF-8\t\u00CD\ti\u0307\u0301\t\u00CD\t\u00CD\t # LATIN CAPITAL LETTER I WITH ACUTE
lt_LT.UTF-8\t\u0128\ti\u0307\u0303\t\u0128\t\u0128\t # LATIN CAPITAL LETTER I WITH TILDE
lt_LT.UTF-8\tI\u0301\ti\u0307\u0301\tI\u0301\tI\u0301\t # LATIN CAPITAL LETTER I (with acute accent)
lt_LT.UTF-8\tI\u0300\ti\u0307\u0300\tI\u0300\tI\u0300\t # LATIN CAPITAL LETTER I (with grave accent)
lt_LT.UTF-8\tI\u0303\ti\u0307\u0303\tI\u0303\tI\u0303\t # LATIN CAPITAL LETTER I (with tilde above)
lt_LT.UTF-8\tI\u0328\u0301\ti\u0307\u0328\u0301\tI\u0328\u0301\tI\u0328\u0301\t # LATIN CAPITAL LETTER I (with ogonek and acute accent)
lt_LT.UTF-8\tJ\u0301\tj\u0307\u0301\tJ\u0301\tJ\u0301\t # LATIN CAPITAL LETTER J (with acute accent)
lt_LT.UTF-8\t\u012e\u0301\t\u012f\u0307\u0301\t\u012e\u0301\t\u012e\u0301\t # LATIN CAPITAL LETTER I WITH OGONEK (with acute accent)
# Special case not at initial position
\ta\ufb04\ta\ufb04\tAffl\tAFFL\t# FB04
#
# Now the automatic tests
#""".format(version))
for i in range(0x10ffff):
if i == 0x3A3:
# Greek sigma needs special tests
continue
up = upper.get(i, "")
lo = lower.get(i, "")
ti = title.get(i, "")
if any([up, lo, ti]):
print("\t%s\t%s\t%s\t%s\t# %4X" % (chr(i), lo, ti, up, i))
if __name__ == "__main__":
sys.exit(main(sys.argv))
......@@ -57,7 +57,7 @@ int main (int argc, char **argv)
test = strings[1];
/* gen-casemap-txt.pl uses an empty string when a single character
/* gen-casemap-txt.py uses an empty string when a single character
* doesn't have an equivalent in a particular case; since that behavior
* is nonsense for multicharacter strings, it would make more sense
* to put the expected result .. the original character unchanged. But
......
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