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#!/usr/bin/python
# -*- coding: utf-8 -*-
# make_unicode_fold_data.py
# Copyright (c) 2016-2021 K.Kosako
import sys
import re
SOURCE_FILE = 'CaseFolding.txt'
GPERF_UNFOLD_KEY_FILE = 'unicode_unfold_key.gperf'
GPERF_FOLD_KEY_FILES = ['unicode_fold1_key.gperf', 'unicode_fold2_key.gperf', 'unicode_fold3_key.gperf']
DataName = 'OnigUnicodeFolds'
ENCODING = 'utf-8'
LINE_REG = re.compile("([0-9A-F]{1,6}); (.); ([0-9A-F]{1,6})(?: ([0-9A-F]{1,6}))?(?: ([0-9A-F]{1,6}))?;(?:\s*#\s*)(.*)")
VERSION_REG = re.compile("#.*-(\d+)\.(\d+)\.(\d+)\.txt")
VERSION_INFO = [-1, -1, -1]
FOLDS = {}
TURKISH_FOLDS = {}
LOCALE_FOLDS = {}
UNFOLDS = {}
TURKISH_UNFOLDS = {}
LOCALE_UNFOLDS = {}
COPYRIGHT = '''
/*-
* Copyright (c) 2017-2021 K.Kosako
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
'''.strip()
class Entry:
def __init__(self, fold):
self.fold = fold
self.unfolds = []
self.fold_len = len(fold)
self.index = -1
self.comment = None
def fold_key(fold):
sfold = map(lambda i: "%06x" % i, fold)
return ':'.join(sfold)
def form16(x, size):
form = "0x%06x" if x > 0xffff else "0x%04x"
s = form % x
rem = size - len(s)
if rem > 0:
s = ' ' * rem + s
return s
def form3bytes(x):
x0 = x & 0xff
x1 = (x>>8) & 0xff
x2 = (x>>16) & 0xff
return "\\x%02x\\x%02x\\x%02x" % (x2, x1, x0)
def enc_len(code, encode):
u = unichr(code)
s = u.encode(encode)
return len(s)
def check_version_info(s):
m = VERSION_REG.match(s)
if m is not None:
VERSION_INFO[0] = int(m.group(1))
VERSION_INFO[1] = int(m.group(2))
VERSION_INFO[2] = int(m.group(3))
def parse_line(s):
if len(s) == 0:
return False
if s[0] == '#':
if VERSION_INFO[0] < 0:
check_version_info(s)
return False
m = LINE_REG.match(s)
if m is None:
print >> sys.stderr, s.encode(ENCODING)
sys.exit(-1)
s_unfold = m.group(1)
s_type = m.group(2)
s_fold = m.group(3)
comment = m.group(6)
if s_type == 'S':
return False;
unfold = int(s_unfold, 16)
f1 = int(s_fold, 16)
fold = [f1]
if m.group(4) is not None:
f2 = int(m.group(4), 16)
fold.append(f2)
if m.group(5) is not None:
f3 = int(m.group(5), 16)
fold.append(f3)
if s_type == 'T':
dic = TURKISH_FOLDS
undic = TURKISH_UNFOLDS
else:
dic = FOLDS
undic = UNFOLDS
key = fold_key(fold)
e = dic.get(key, None)
if e is None:
e = Entry(fold)
e.comment = comment
dic[key] = e
e.unfolds.append(unfold)
if undic.get(unfold, None) is not None:
print >> sys.stderr, ("unfold dup: 0x%04x %s\n" % (unfold, s_type))
undic[unfold] = e
return True
def parse_file(f):
line = f.readline()
while line:
s = line.strip()
parse_line(s)
line = f.readline()
def make_locale():
for unfold, te in TURKISH_UNFOLDS.items():
e = UNFOLDS.get(unfold, None)
if e is None:
continue
fkey = fold_key(e.fold)
if len(e.unfolds) == 1:
del FOLDS[fkey]
else:
e.unfolds.remove(unfold)
e = Entry(e.fold)
e.unfolds.append(unfold)
LOCALE_FOLDS[fkey] = e
LOCALE_UNFOLDS[unfold] = e
del UNFOLDS[unfold]
def output_typedef(f):
s = """\
typedef unsigned long OnigCodePoint;
"""
print >> f, s
def divide_by_fold_len(d):
l = d.items()
l1 = filter(lambda (k,e):e.fold_len == 1, l)
l2 = filter(lambda (k,e):e.fold_len == 2, l)
l3 = filter(lambda (k,e):e.fold_len == 3, l)
sl1 = sorted(l1, key=lambda (k,e):k)
sl2 = sorted(l2, key=lambda (k,e):k)
sl3 = sorted(l3, key=lambda (k,e):k)
return (sl1, sl2, sl3)
def output_comment(f, s):
f.write(" /* %s */" % s)
def output_data_n1(f, n, fn, c, out_comment):
for k, e in fn:
e.index = c
if out_comment and n > 1 and e.comment is not None:
output_comment(f, e.comment)
print >> f, ''
f.write(' ')
f.write("/*%4d*/ " % c)
for i in range(0, n):
s = form16(e.fold[i], 8)
f.write(" %s," % s)
usize = len(e.unfolds)
f.write(" %d," % usize)
for u in e.unfolds:
s = form16(u, 8)
f.write(" %s," % s)
if out_comment and n == 1 and e.comment is not None:
if len(e.comment) < 35:
s = e.comment
else:
s = e.comment[0:33] + '..'
output_comment(f, s)
f.write("\n")
c += n + 1 + usize
return c
def output_data_n(f, name, n, fn, lfn, out_comment):
print >> f, "OnigCodePoint %s%d[] = {" % (name, n)
c = 0
c = output_data_n1(f, n, fn, c, out_comment)
print >> f, "#define FOLDS%d_NORMAL_END_INDEX %d" % (n, c)
print >> f, " /* ----- LOCALE ----- */"
c = output_data_n1(f, n, lfn, c, out_comment)
print >> f, "#define FOLDS%d_END_INDEX %d" % (n, c)
print >> f, "};"
def output_fold_data(f, name, out_comment):
f1, f2, f3 = divide_by_fold_len(FOLDS)
lf1, lf2, lf3 = divide_by_fold_len(LOCALE_FOLDS)
output_data_n(f, name, 1, f1, lf1, out_comment)
print >> f, ''
output_data_n(f, name, 2, f2, lf2, out_comment)
print >> f, ''
output_data_n(f, name, 3, f3, lf3, out_comment)
print >> f, ''
def output_macros(f, name):
print >> f, "#define FOLDS1_FOLD(i) (%s1 + (i))" % name
print >> f, "#define FOLDS2_FOLD(i) (%s2 + (i))" % name
print >> f, "#define FOLDS3_FOLD(i) (%s3 + (i))" % name
print >> f, "#define FOLDS1_UNFOLDS_NUM(i) %s1[(i)+1]" % name
print >> f, "#define FOLDS2_UNFOLDS_NUM(i) %s2[(i)+2]" % name
print >> f, "#define FOLDS3_UNFOLDS_NUM(i) %s3[(i)+3]" % name
print >> f, "#define FOLDS1_UNFOLDS(i) (%s1 + (i) + 2)" % name
print >> f, "#define FOLDS2_UNFOLDS(i) (%s2 + (i) + 3)" % name
print >> f, "#define FOLDS3_UNFOLDS(i) (%s3 + (i) + 4)" % name
print >> f, "#define FOLDS1_NEXT_INDEX(i) ((i) + 2 + %s1[(i)+1])" % name
print >> f, "#define FOLDS2_NEXT_INDEX(i) ((i) + 3 + %s1[(i)+2])" % name
print >> f, "#define FOLDS3_NEXT_INDEX(i) ((i) + 4 + %s1[(i)+3])" % name
def output_fold_source(f, out_comment):
print >> f, "/* This file was generated by make_unicode_fold_data.py. */"
print >> f, COPYRIGHT
print >> f, "\n"
print >> f, '#include "regenc.h"'
print >> f, ''
if VERSION_INFO[0] < 0:
raise RuntimeError("Version is not found")
print "#define UNICODE_CASEFOLD_VERSION %02d%02d%02d" % (VERSION_INFO[0], VERSION_INFO[1], VERSION_INFO[2])
print ''
#output_macros(f, DataName)
print >> f, ''
#output_typedef(f)
output_fold_data(f, DataName, out_comment)
def output_gperf_unfold_key(f):
head = "%{\n/* This gperf source file was generated by make_unicode_fold_data.py */\n\n" + COPYRIGHT + """\
#include "regint.h"
%}
struct ByUnfoldKey {
OnigCodePoint code;
short int index;
short int fold_len;
};
%%
"""
f.write(head)
UNFOLDS.update(LOCALE_UNFOLDS)
l = UNFOLDS.items()
sl = sorted(l, key=lambda (k,e):(e.fold_len, e.index))
for k, e in sl:
f.write('"%s", /*0x%04x*/ %4d, %d\n' %
(form3bytes(k), k, e.index, e.fold_len))
print >> f, '%%'
def output_gperf_fold_key(f, key_len):
head = "%{\n/* This gperf source file was generated by make_unicode_fold_data.py */\n\n" + COPYRIGHT + """\
#include "regint.h"
%}
short int
%%
"""
f.write(head)
l = FOLDS.items()
l = filter(lambda (k,e):e.fold_len == key_len, l)
sl = sorted(l, key=lambda (k,e):e.index)
for k, e in sl:
skey = ''.join(map(lambda i: form3bytes(i), e.fold))
f.write('"%s", %4d\n' % (skey, e.index))
print >> f, '%%'
def output_gperf_source():
with open(GPERF_UNFOLD_KEY_FILE, 'w') as f:
output_gperf_unfold_key(f)
FOLDS.update(LOCALE_FOLDS)
for i in range(1, 4):
with open(GPERF_FOLD_KEY_FILES[i-1], 'w') as f:
output_gperf_fold_key(f, i)
def unfolds_byte_length_check(encode):
l = UNFOLDS.items()
sl = sorted(l, key=lambda (k,e):(e.fold_len, e.index))
for unfold, e in sl:
key_len = enc_len(unfold, encode)
fold_len = sum(map(lambda c: enc_len(c, encode), e.fold))
if key_len > fold_len:
sfolds = ' '.join(map(lambda c: "0x%06x" % c, e.fold))
s = "%s byte length: %d > %d: 0x%06x => %s" % (encode, key_len, fold_len, unfold, sfolds)
print >> sys.stderr, s
def double_fold_check():
l = UNFOLDS.items()
sl = sorted(l, key=lambda (k,e):(e.fold_len, e.index))
for unfold, e in sl:
for f in e.fold:
#print >> sys.stderr, ("check 0x%06x" % f)
e2 = UNFOLDS.get(f)
if e2 is not None:
s = "double folds: 0x%06x => %s, 0x%06x => %s" % (unfold, e.fold, f, e2.fold)
print >> sys.stderr, s
def unfold_is_multi_code_folds_head_check():
l = UNFOLDS.items()
l2 = filter(lambda (k,e):e.fold_len == 2, l)
l3 = filter(lambda (k,e):e.fold_len == 3, l)
sl = sorted(l, key=lambda (k,e):(e.fold_len, e.index))
for unfold, _ in sl:
for k, e in l2:
if e.fold[0] == unfold:
s = "unfold 0x%06x is multi-code fold head in %s" % (unfold, e.fold)
print >> sys.stderr, s
for k, e in l3:
if e.fold[0] == unfold:
s = "unfold 0x%06x is multi-code fold head in %s" % (unfold, e.fold)
print >> sys.stderr, s
def make_one_folds(l):
h = {}
for unfold, e in l:
if e.fold_len != 1:
continue
fold = e.fold[0]
unfolds = h.get(fold)
if unfolds is None:
unfolds = [unfold]
h[fold] = unfolds
else:
unfolds.append(unfold)
return h
def make_foldn_heads(l, fold_len, one_folds):
h = {}
for unfold, e in l:
if e.fold_len != fold_len:
continue
unfolds = one_folds.get(e.fold[0])
h[e.fold[0]] = (e, unfolds)
return h
def fold2_expansion_num(e, one_folds):
n = len(e.unfolds)
n0 = 1
u0 = one_folds.get(e.fold[0])
if u0 is not None:
n0 += len(u0)
n1 = 1
u1 = one_folds.get(e.fold[1])
if u1 is not None:
n1 += len(u1)
n += (n0 * n1)
return n
def fold3_expansion_num(e, one_folds):
n = len(e.unfolds)
n0 = 1
u0 = one_folds.get(e.fold[0])
if u0 is not None:
n0 += len(u0)
n1 = 1
u1 = one_folds.get(e.fold[1])
if u1 is not None:
n1 += len(u1)
n2 = 1
u2 = one_folds.get(e.fold[2])
if u2 is not None:
n2 += len(u2)
n += (n0 * n1 * n2)
return n
def get_all_folds_expansion_num(x, one_folds, fold2_heads, fold3_heads):
e = UNFOLDS[x]
n = 0
if e.fold_len == 1:
n1 = len(e.unfolds) + 1 # +1: fold
fx = e.fold[0]
r = fold2_heads.get(fx)
n2 = n3 = 0
if r is not None:
e2, _ = r
n2 = fold2_expansion_num(e2, one_folds)
r = fold3_heads.get(fx)
if r is not None:
e3, _ = r
n3 = fold3_expansion_num(e3, one_folds)
n = max(n1, n2, n3)
elif e.fold_len == 2:
n = fold2_expansion_num(e, one_folds)
elif e.fold_len == 3:
n = fold3_expansion_num(e, one_folds)
else:
raise RuntimeError("Invalid fold_len %d" % (e.fold_len))
return n
def get_all_folds_expansion_max_num():
l = UNFOLDS.items()
one_folds = make_one_folds(l)
fold2_heads = make_foldn_heads(l, 2, one_folds)
fold3_heads = make_foldn_heads(l, 3, one_folds)
sl = sorted(l, key=lambda (k,e):(e.fold_len, e.index))
nmax = 0
max_unfold = None
for unfold, e in sl:
n = get_all_folds_expansion_num(unfold, one_folds, fold2_heads, fold3_heads)
if nmax < n:
nmax = n
max_unfold = unfold
return (nmax, max_unfold)
## main ##
with open(SOURCE_FILE, 'r') as f:
parse_file(f)
make_locale()
out_comment = True
output_fold_source(sys.stdout, out_comment)
output_gperf_source()
#unfolds_byte_length_check('utf-8')
#unfolds_byte_length_check('utf-16')
double_fold_check()
unfold_is_multi_code_folds_head_check()
#max_num, max_code = get_all_folds_expansion_max_num()
#max_num -= 1 # remove self
#print >> sys.stderr, "max expansion: 0x%06x: %d" % (max_code, max_num)
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