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#!/usr/bin/python
# -*- coding: utf-8 -*-
# make_unicode_property_data.py
# Copyright (c) 2016-2018 K.Kosako
import sys
import re
INCLUDE_GRAPHEME_CLUSTER_DATA = False
POSIX_LIST = [
'NEWLINE', 'Alpha', 'Blank', 'Cntrl', 'Digit', 'Graph', 'Lower',
'Print', 'Punct', 'Space', 'Upper', 'XDigit', 'Word', 'Alnum', 'ASCII'
]
MAX_CODE_POINT = 0x10ffff
GRAPHEME_CLUSTER_BREAK_NAME_PREFIX = 'Grapheme_Cluster_Break_'
UD_FIRST_REG = re.compile("<.+,\s*First>")
UD_LAST_REG = re.compile("<.+,\s*Last>")
PR_TOTAL_REG = re.compile("#\s*Total\s+(?:code\s+points|elements):")
PR_LINE_REG = re.compile("([0-9A-Fa-f]+)(?:..([0-9A-Fa-f]+))?\s*;\s*(\w+)")
PA_LINE_REG = re.compile("(\w+)\s*;\s*(\w+)")
PVA_LINE_REG = re.compile("(sc|gc)\s*;\s*(\w+)\s*;\s*(\w+)(?:\s*;\s*(\w+))?")
BL_LINE_REG = re.compile("([0-9A-Fa-f]+)\.\.([0-9A-Fa-f]+)\s*;\s*(.*)")
VERSION_REG = re.compile("#\s*.*-(\d+\.\d+\.\d+)\.txt")
VERSION_INFO = None
DIC = { }
KDIC = { }
PropIndex = { }
PROPERTY_NAME_MAX_LEN = 0
PROPS = None
def normalize_prop_name(name):
name = re.sub(r'[ _]', '', name)
name = name.lower()
return name
def fix_block_name(name):
s = re.sub(r'[- ]+', '_', name)
return 'In_' + s
def check_version_info(s):
global VERSION_INFO
m = VERSION_REG.match(s)
if m is not None:
VERSION_INFO = m.group(1)
def print_ranges(ranges):
for (start, end) in ranges:
print "0x%06x, 0x%06x" % (start, end)
print len(ranges)
def print_prop_and_index(prop, i):
print "%-35s %3d" % (prop + ',', i)
PropIndex[prop] = i
PRINT_CACHE = { }
def print_property(prop, data, desc):
print ''
print "/* PROPERTY: '%s': %s */" % (prop, desc)
prev_prop = dic_find_by_value(PRINT_CACHE, data)
if prev_prop is not None:
print "#define CR_%s CR_%s" % (prop, prev_prop)
else:
PRINT_CACHE[prop] = data
print "static const OnigCodePoint"
print "CR_%s[] = { %d," % (prop, len(data))
for (start, end) in data:
print "0x%04x, 0x%04x," % (start, end)
print "}; /* END of CR_%s */" % prop
def dic_find_by_value(dic, v):
for key, val in dic.items():
if val == v:
return key
return None
def make_reverse_dic(dic):
rev = {}
for key, val in dic.items():
d = rev.get(val, None)
if d is None:
rev[val] = [key]
else:
d.append(key)
return rev
def normalize_ranges(in_ranges, sort=False):
if sort:
ranges = sorted(in_ranges)
else:
ranges = in_ranges
r = []
prev = None
for (start, end) in ranges:
if prev >= start - 1:
(pstart, pend) = r.pop()
end = max(pend, end)
start = pstart
r.append((start, end))
prev = end
return r
def inverse_ranges(in_ranges):
r = []
prev = 0x000000
for (start, end) in in_ranges:
if prev < start:
r.append((prev, start - 1))
prev = end + 1
if prev < MAX_CODE_POINT:
r.append((prev, MAX_CODE_POINT))
return r
def add_ranges(r1, r2):
r = r1 + r2
return normalize_ranges(r, True)
def sub_one_range(one_range, rs):
r = []
(s1, e1) = one_range
n = len(rs)
for i in range(0, n):
(s2, e2) = rs[i]
if s2 >= s1 and s2 <= e1:
if s2 > s1:
r.append((s1, s2 - 1))
if e2 >= e1:
return r
s1 = e2 + 1
elif s2 < s1 and e2 >= s1:
if e2 < e1:
s1 = e2 + 1
else:
return r
r.append((s1, e1))
return r
def sub_ranges(r1, r2):
r = []
for one_range in r1:
rs = sub_one_range(one_range, r2)
r.extend(rs)
return r
def add_ranges_in_dic(dic):
r = []
for k, v in dic.items():
r = r + v
return normalize_ranges(r, True)
def normalize_ranges_in_dic(dic, sort=False):
for k, v in dic.items():
r = normalize_ranges(v, sort)
dic[k] = r
def merge_dic(to_dic, from_dic):
to_keys = to_dic.keys()
from_keys = from_dic.keys()
common = list(set(to_keys) & set(from_keys))
if len(common) != 0:
print >> sys.stderr, "merge_dic: collision: %s" % sorted(common)
to_dic.update(from_dic)
def merge_props(to_props, from_props):
common = list(set(to_props) & set(from_props))
if len(common) != 0:
print >> sys.stderr, "merge_props: collision: %s" % sorted(common)
to_props.extend(from_props)
def add_range_into_dic(dic, name, start, end):
d = dic.get(name, None)
if d is None:
d = [(start, end)]
dic[name] = d
else:
d.append((start, end))
def list_sub(a, b):
x = set(a) - set(b)
return list(x)
def parse_unicode_data_file(f):
dic = { }
assigned = []
for line in f:
s = line.strip()
if len(s) == 0:
continue
if s[0] == '#':
continue
a = s.split(';')
code = int(a[0], 16)
desc = a[1]
prop = a[2]
if UD_FIRST_REG.match(desc) is not None:
start = code
end = None
elif UD_LAST_REG.match(desc) is not None:
end = code
else:
start = end = code
if end is not None:
assigned.append((start, end))
add_range_into_dic(dic, prop, start, end)
if len(prop) == 2:
add_range_into_dic(dic, prop[0:1], start, end)
normalize_ranges_in_dic(dic)
return dic, assigned
def parse_properties(path, klass, prop_prefix = None):
with open(path, 'r') as f:
dic = { }
prop = None
props = []
for line in f:
s = line.strip()
if len(s) == 0:
continue
if s[0] == '#':
if VERSION_INFO is None:
check_version_info(s)
m = PR_LINE_REG.match(s)
if m:
prop = m.group(3)
if prop_prefix is not None:
prop = prop_prefix + prop
if m.group(2):
start = int(m.group(1), 16)
end = int(m.group(2), 16)
add_range_into_dic(dic, prop, start, end)
else:
start = int(m.group(1), 16)
add_range_into_dic(dic, prop, start, start)
elif PR_TOTAL_REG.match(s) is not None:
KDIC[prop] = klass
props.append(prop)
normalize_ranges_in_dic(dic)
return (dic, props)
def parse_property_aliases(path):
a = { }
with open(path, 'r') as f:
for line in f:
s = line.strip()
if len(s) == 0:
continue
m = PA_LINE_REG.match(s)
if not(m):
continue
if m.group(1) == m.group(2):
continue
a[m.group(1)] = m.group(2)
return a
def parse_property_value_aliases(path):
a = { }
with open(path, 'r') as f:
for line in f:
s = line.strip()
if len(s) == 0:
continue
m = PVA_LINE_REG.match(s)
if not(m):
continue
cat = m.group(1)
x2 = m.group(2)
x3 = m.group(3)
x4 = m.group(4)
if cat == 'sc':
if x2 != x3:
a[x2] = x3
if x4 and x4 != x3:
a[x4] = x3
else:
if x2 != x3:
a[x3] = x2
if x4 and x4 != x2:
a[x4] = x2
return a
def parse_blocks(path):
dic = { }
blocks = []
with open(path, 'r') as f:
for line in f:
s = line.strip()
if len(s) == 0:
continue
m = BL_LINE_REG.match(s)
if not(m):
continue
start = int(m.group(1), 16)
end = int(m.group(2), 16)
block = fix_block_name(m.group(3))
add_range_into_dic(dic, block, start, end)
blocks.append(block)
noblock = fix_block_name('No_Block')
dic[noblock] = inverse_ranges(add_ranges_in_dic(dic))
blocks.append(noblock)
return dic, blocks
def add_primitive_props(assigned):
DIC['Assigned'] = normalize_ranges(assigned)
DIC['Any'] = [(0x000000, 0x10ffff)]
DIC['ASCII'] = [(0x000000, 0x00007f)]
DIC['NEWLINE'] = [(0x00000a, 0x00000a)]
DIC['Cn'] = inverse_ranges(DIC['Assigned'])
DIC['C'].extend(DIC['Cn'])
DIC['C'] = normalize_ranges(DIC['C'], True)
d = []
d.extend(DIC['Ll'])
d.extend(DIC['Lt'])
d.extend(DIC['Lu'])
DIC['LC'] = normalize_ranges(d, True)
def add_posix_props(dic):
alnum = []
alnum.extend(dic['Alphabetic'])
alnum.extend(dic['Nd']) # Nd == Decimal_Number
alnum = normalize_ranges(alnum, True)
blank = [(0x0009, 0x0009)]
blank.extend(dic['Zs']) # Zs == Space_Separator
blank = normalize_ranges(blank, True)
word = []
word.extend(dic['Alphabetic'])
word.extend(dic['M']) # M == Mark
word.extend(dic['Nd'])
word.extend(dic['Pc']) # Pc == Connector_Punctuation
word = normalize_ranges(word, True)
graph = sub_ranges(dic['Any'], dic['White_Space'])
graph = sub_ranges(graph, dic['Cc'])
graph = sub_ranges(graph, dic['Cs']) # Cs == Surrogate
graph = sub_ranges(graph, dic['Cn']) # Cn == Unassigned
graph = normalize_ranges(graph, True)
p = []
p.extend(graph)
p.extend(dic['Zs'])
p = normalize_ranges(p, True)
dic['Alpha'] = dic['Alphabetic']
dic['Upper'] = dic['Uppercase']
dic['Lower'] = dic['Lowercase']
dic['Punct'] = dic['P'] # P == Punctuation
dic['Digit'] = dic['Nd']
dic['XDigit'] = [(0x0030, 0x0039), (0x0041, 0x0046), (0x0061, 0x0066)]
dic['Alnum'] = alnum
dic['Space'] = dic['White_Space']
dic['Blank'] = blank
dic['Cntrl'] = dic['Cc']
dic['Word'] = word
dic['Graph'] = graph
dic['Print'] = p
def set_max_prop_name(name):
global PROPERTY_NAME_MAX_LEN
n = len(name)
if n > PROPERTY_NAME_MAX_LEN:
PROPERTY_NAME_MAX_LEN = n
def entry_prop_name(name, index):
set_max_prop_name(name)
if OUTPUT_LIST_MODE and index >= len(POSIX_LIST):
print >> UPF, "%3d: %s" % (index, name)
def entry_and_print_prop_and_index(name, index):
entry_prop_name(name, index)
nname = normalize_prop_name(name)
print_prop_and_index(nname, index)
def parse_and_merge_properties(path, klass):
dic, props = parse_properties(path, klass)
merge_dic(DIC, dic)
merge_props(PROPS, props)
return dic, props
### main ###
argv = sys.argv
argc = len(argv)
POSIX_ONLY = False
if argc >= 2:
if argv[1] == '-posix':
POSIX_ONLY = True
OUTPUT_LIST_MODE = not(POSIX_ONLY)
with open('UnicodeData.txt', 'r') as f:
dic, assigned = parse_unicode_data_file(f)
DIC = dic
add_primitive_props(assigned)
PROPS = DIC.keys()
PROPS = list_sub(PROPS, POSIX_LIST)
dic, props = parse_and_merge_properties('DerivedCoreProperties.txt', 'Derived Property')
dic, props = parse_and_merge_properties('Scripts.txt', 'Script')
DIC['Unknown'] = inverse_ranges(add_ranges_in_dic(dic))
dic, props = parse_and_merge_properties('PropList.txt', 'Binary Property')
dic, props = parse_and_merge_properties('emoji-data.txt', 'Emoji Property')
PROPS.append('Unknown')
KDIC['Unknown'] = 'Script'
ALIASES = parse_property_aliases('PropertyAliases.txt')
a = parse_property_value_aliases('PropertyValueAliases.txt')
merge_dic(ALIASES, a)
dic, BLOCKS = parse_blocks('Blocks.txt')
merge_dic(DIC, dic)
if INCLUDE_GRAPHEME_CLUSTER_DATA:
dic, props = parse_properties('GraphemeBreakProperty.txt',
'GraphemeBreak Property',
GRAPHEME_CLUSTER_BREAK_NAME_PREFIX)
merge_dic(DIC, dic)
merge_props(PROPS, props)
#prop = GRAPHEME_CLUSTER_BREAK_NAME_PREFIX + 'Other'
#DIC[prop] = inverse_ranges(add_ranges_in_dic(dic))
#PROPS.append(prop)
#KDIC[prop] = 'GrapemeBreak Property'
add_posix_props(DIC)
PROPS = sorted(PROPS)
s = '''%{
/* Generated by make_unicode_property_data.py. */
'''
print s
for prop in POSIX_LIST:
print_property(prop, DIC[prop], "POSIX [[:%s:]]" % prop)
print ''
if not(POSIX_ONLY):
for prop in PROPS:
klass = KDIC.get(prop, None)
if klass is None:
n = len(prop)
if n == 1:
klass = 'Major Category'
elif n == 2:
klass = 'General Category'
else:
klass = '-'
print_property(prop, DIC[prop], klass)
for block in BLOCKS:
print_property(block, DIC[block], 'Block')
print ''
print "static const OnigCodePoint*\nconst CodeRanges[] = {"
for prop in POSIX_LIST:
print " CR_%s," % prop
if not(POSIX_ONLY):
for prop in PROPS:
print " CR_%s," % prop
for prop in BLOCKS:
print " CR_%s," % prop
s = '''};
#define pool_offset(s) offsetof(struct unicode_prop_name_pool_t, unicode_prop_name_pool_str##s)
%}
struct PoolPropertyNameCtype {
short int name;
short int ctype;
};
%%
'''
sys.stdout.write(s)
if OUTPUT_LIST_MODE:
UPF = open("UNICODE_PROPERTIES", "w")
if VERSION_INFO is not None:
print >> UPF, "Unicode Properties (from Unicode Version: %s)" % VERSION_INFO
print >> UPF, ''
index = -1
for prop in POSIX_LIST:
index += 1
entry_and_print_prop_and_index(prop, index)
if not(POSIX_ONLY):
for prop in PROPS:
index += 1
entry_and_print_prop_and_index(prop, index)
NALIASES = map(lambda (k,v):(normalize_prop_name(k), k, v), ALIASES.items())
NALIASES = sorted(NALIASES)
for (nk, k, v) in NALIASES:
nv = normalize_prop_name(v)
if PropIndex.get(nk, None) is not None:
print >> sys.stderr, "ALIASES: already exists: %s => %s" % (k, v)
continue
aindex = PropIndex.get(nv, None)
if aindex is None:
#print >> sys.stderr, "ALIASES: value is not exist: %s => %s" % (k, v)
continue
entry_prop_name(k, aindex)
print_prop_and_index(nk, aindex)
for name in BLOCKS:
index += 1
entry_and_print_prop_and_index(name, index)
print '%%'
print ''
if not(POSIX_ONLY):
if VERSION_INFO is not None:
print "#define UNICODE_PROPERTY_VERSION %s" % re.sub(r'[\.-]', '_', VERSION_INFO)
print ''
print "#define PROPERTY_NAME_MAX_SIZE %d" % (PROPERTY_NAME_MAX_LEN + 10)
print "#define CODE_RANGES_NUM %d" % (index + 1)
index_props = make_reverse_dic(PropIndex)
print ''
for i in range(index + 1):
for p in index_props[i]:
print "#define PROP_INDEX_%s %d" % (p.upper(), i)
if OUTPUT_LIST_MODE:
UPF.close()
sys.exit(0)
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