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opt
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gsutil
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third_party
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idna
/
tools
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#!/usr/bin/env python3 import argparse, collections, datetime, os, re, sys, unicodedata from urllib.request import urlopen # Use intranges.intranges_from_list() from the sibling idna directory sys.path.append( os.path.join( os.path.dirname(os.path.dirname(os.path.abspath(__file__))), "idna" ) ) from intranges import intranges_from_list if sys.version_info[0] < 3: print("Only Python 3 supported.") sys.exit(2) PREFERRED_VERSION = '16.0.0' UCD_URL = 'http://www.unicode.org/Public/{version}/ucd/{filename}' UTS46_URL = 'http://www.unicode.org/Public/idna/{version}/{filename}' DEFAULT_CACHE_DIR = '~/.cache/unidata' # Scripts affected by IDNA contextual rules SCRIPT_WHITELIST = sorted(['Greek', 'Han', 'Hebrew', 'Hiragana', 'Katakana']) # Used to piece apart UTS#46 data for Jython compatibility UTS46_SEGMENT_SIZE = 100 UTS46_STATUSES = { 'valid': ('V', False), 'ignored': ('I', False), 'mapped': ('M', True), 'deviation': ('D', True), 'disallowed': ('X', False), 'disallowed_STD3_valid': ('3', False), 'disallowed_STD3_mapped': ('3', True) } # Exceptions are manually assigned in Section 2.6 of RFC 5892. exceptions = { 0x00DF: 'PVALID', # LATIN SMALL LETTER SHARP S 0x03C2: 'PVALID', # GREEK SMALL LETTER FINAL SIGMA 0x06FD: 'PVALID', # ARABIC SIGN SINDHI AMPERSAND 0x06FE: 'PVALID', # ARABIC SIGN SINDHI POSTPOSITION MEN 0x0F0B: 'PVALID', # TIBETAN MARK INTERSYLLABIC TSHEG 0x3007: 'PVALID', # IDEOGRAPHIC NUMBER ZERO 0x00B7: 'CONTEXTO', # MIDDLE DOT 0x0375: 'CONTEXTO', # GREEK LOWER NUMERAL SIGN (KERAIA) 0x05F3: 'CONTEXTO', # HEBREW PUNCTUATION GERESH 0x05F4: 'CONTEXTO', # HEBREW PUNCTUATION GERSHAYIM 0x30FB: 'CONTEXTO', # KATAKANA MIDDLE DOT 0x0660: 'CONTEXTO', # ARABIC-INDIC DIGIT ZERO 0x0661: 'CONTEXTO', # ARABIC-INDIC DIGIT ONE 0x0662: 'CONTEXTO', # ARABIC-INDIC DIGIT TWO 0x0663: 'CONTEXTO', # ARABIC-INDIC DIGIT THREE 0x0664: 'CONTEXTO', # ARABIC-INDIC DIGIT FOUR 0x0665: 'CONTEXTO', # ARABIC-INDIC DIGIT FIVE 0x0666: 'CONTEXTO', # ARABIC-INDIC DIGIT SIX 0x0667: 'CONTEXTO', # ARABIC-INDIC DIGIT SEVEN 0x0668: 'CONTEXTO', # ARABIC-INDIC DIGIT EIGHT 0x0669: 'CONTEXTO', # ARABIC-INDIC DIGIT NINE 0x06F0: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT ZERO 0x06F1: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT ONE 0x06F2: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT TWO 0x06F3: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT THREE 0x06F4: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT FOUR 0x06F5: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT FIVE 0x06F6: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT SIX 0x06F7: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT SEVEN 0x06F8: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT EIGHT 0x06F9: 'CONTEXTO', # EXTENDED ARABIC-INDIC DIGIT NINE 0x0640: 'DISALLOWED', # ARABIC TATWEEL 0x07FA: 'DISALLOWED', # NKO LAJANYALAN 0x302E: 'DISALLOWED', # HANGUL SINGLE DOT TONE MARK 0x302F: 'DISALLOWED', # HANGUL DOUBLE DOT TONE MARK 0x3031: 'DISALLOWED', # VERTICAL KANA REPEAT MARK 0x3032: 'DISALLOWED', # VERTICAL KANA REPEAT WITH VOICED SOUND MARK 0x3033: 'DISALLOWED', # VERTICAL KANA REPEAT MARK UPPER HALF 0x3034: 'DISALLOWED', # VERTICAL KANA REPEAT WITH VOICED SOUND MARK UPPER HA 0x3035: 'DISALLOWED', # VERTICAL KANA REPEAT MARK LOWER HALF 0x303B: 'DISALLOWED', # VERTICAL IDEOGRAPHIC ITERATION MARK } backwardscompatible = {} def hexrange(start, end): return range(int(start, 16), int(end, 16) + 1) def hexvalue(value): return int(value, 16) class UnicodeVersion(object): def __init__(self, version): result = re.match(r'^(?P<major>\d+)\.(?P<minor>\d+)\.(?P<patch>\d+)$', version) if result: self.major = int(result.group('major')) self.minor = int(result.group('minor')) self.patch = int(result.group('patch')) self.numerical = (self.major << 8) + (self.minor << 4) + self.patch self.latest = False elif version == 'latest': self.latest = True else: raise ValueError('Unrecognized Unicode version') def __repr__(self, with_date=True): if self.latest: if with_date: return 'latest@{}'.format(datetime.datetime.now().strftime('%Y-%m-%d')) else: return 'latest' else: return '{}.{}.{}'.format(self.major, self.minor, self.patch) @property def tag(self): return self.__repr__(with_date=False) def __gt__(self, other): if self.latest: return True return self.numerical > other.numerical def __eq__(self, other): if self.latest: return False return self.numerical == other.numerical class UnicodeData(object): def __init__(self, version, cache, args): self.version = UnicodeVersion(version) self.system_version = UnicodeVersion(unicodedata.unidata_version) self.source = args.source self.cache = cache self.max = 0 if self.system_version < self.version: print('Warning: Character stability not guaranteed as Python Unicode data {}' ' older than requested {}'.format(self.system_version, self.version)) self._load_unicodedata() self._load_proplist() self._load_derivedcoreprops() self._load_blocks() self._load_casefolding() self._load_hangulst() self._load_arabicshaping() self._load_scripts() self._load_uts46mapping() def _load_unicodedata(self): f_ud = self._ucdfile('UnicodeData.txt') self.ucd_data = {} range_begin = None for line in f_ud.splitlines(): fields = line.split(';') value = int(fields[0], 16) start_marker = re.match('^<(?P<name>.*?), First>$', fields[1]) end_marker = re.match('^<(?P<name>.*?), Last>$', fields[1]) if start_marker: range_begin = value elif end_marker: for i in range(range_begin, value+1): fields[1] = '<{}>'.format(end_marker.group('name')) self.ucd_data[i] = fields[1:] range_begin = None else: self.ucd_data[value] = fields[1:] def _load_proplist(self): f_pl = self._ucdfile('PropList.txt') self.ucd_props = collections.defaultdict(list) for line in f_pl.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})(|\.\.(?P<end>[0-9A-F]{4,6}))\s*;\s*(?P<prop>\S+)\s*(|\#.*)$', line) if result: if result.group('end'): for i in hexrange(result.group('start'), result.group('end')): self.ucd_props[i].append(result.group('prop')) else: i = hexvalue(result.group('start')) self.ucd_props[i].append(result.group('prop')) def _load_derivedcoreprops(self): f_dcp = self._ucdfile('DerivedCoreProperties.txt') for line in f_dcp.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})(|\.\.(?P<end>[0-9A-F]{4,6}))\s*;\s*(?P<prop>\S+)\s*(|\#.*)$', line) if result: if result.group('end'): for i in hexrange(result.group('start'), result.group('end')): self.ucd_props[i].append(result.group('prop')) else: i = hexvalue(result.group('start')) self.ucd_props[i].append(result.group('prop')) def _load_blocks(self): self.ucd_block = {} f_b = self._ucdfile('Blocks.txt') for line in f_b.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})\.\.(?P<end>[0-9A-F]{4,6})\s*;\s*(?P<block>.*)\s*$', line) if result: for i in hexrange(result.group('start'), result.group('end')): self.ucd_block[i] = result.group('block') self.max = max(self.max, i) def _load_casefolding(self): self.ucd_cf = {} f_cf = self._ucdfile('CaseFolding.txt') for line in f_cf.splitlines(): result = re.match( r'^(?P<cp>[0-9A-F]{4,6})\s*;\s*(?P<type>\S+)\s*;\s*(?P<subst>[0-9A-F\s]+)\s*', line) if result: if result.group('type') in ('C', 'F'): self.ucd_cf[int(result.group('cp'), 16)] = \ ''.join([chr(int(x, 16)) for x in result.group('subst').split(' ')]) def _load_hangulst(self): self.ucd_hst = {} f_hst = self._ucdfile('HangulSyllableType.txt') for line in f_hst.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})\.\.(?P<end>[0-9A-F]{4,6})\s*;\s*(?P<type>\S+)\s*(|\#.*)$', line) if result: for i in hexrange(result.group('start'), result.group('end')): self.ucd_hst[i] = result.group('type') def _load_arabicshaping(self): self.ucd_as = {} f_as = self._ucdfile('extracted/DerivedJoiningType.txt') for line in f_as.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})(|\.\.(?P<end>[0-9A-F]{4,6}))\s*;\s*(?P<jt>\S+)\s*(|\#.*)$', line) if result: if result.group('end'): for i in hexrange(result.group('start'), result.group('end')): self.ucd_as[i] = result.group('jt') else: i = hexvalue(result.group('start')) self.ucd_as[i] = result.group('jt') def _load_scripts(self): self.ucd_s = {} f_s = self._ucdfile('Scripts.txt') for line in f_s.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})(|\.\.(?P<end>[0-9A-F]{4,6}))\s*;\s*(?P<script>\S+)\s*(|\#.*)$', line) if result: if not result.group('script') in self.ucd_s: self.ucd_s[result.group('script')] = set() if result.group('end'): for i in hexrange(result.group('start'), result.group('end')): self.ucd_s[result.group('script')].add(i) else: i = hexvalue(result.group('start')) self.ucd_s[result.group('script')].add(i) def _load_uts46mapping(self): self.ucd_idnamt = {} f_idnamt = self._ucdfile('IdnaMappingTable.txt', urlbase=UTS46_URL) for line in f_idnamt.splitlines(): result = re.match( r'^(?P<start>[0-9A-F]{4,6})(|\.\.(?P<end>[0-9A-F]{4,6}))\s*;\s*(?P<fields>[^#]+)', line) if result: fields = [x.strip() for x in result.group('fields').split(';')] if result.group('end'): for i in hexrange(result.group('start'), result.group('end')): self.ucd_idnamt[i] = fields else: i = hexvalue(result.group('start')) self.ucd_idnamt[i] = fields def _ucdfile(self, filename, urlbase=UCD_URL): if self.source: f = open('{}/{}'.format(self.source, filename)) return f.read() else: cache_file = None if self.cache: cache_file = os.path.expanduser('{}/{}/{}'.format( self.cache, self.version.tag, filename)) if os.path.isfile(cache_file): f = open(cache_file) return f.read() version_path = self.version.tag if version_path == 'latest': version_path = 'UCD/latest' url = urlbase.format( version=version_path, filename=filename, ) content = urlopen(url).read().decode('utf-8') if cache_file: if not os.path.isdir(os.path.dirname(cache_file)): os.makedirs(os.path.dirname(cache_file)) f = open(cache_file, 'wb') f.write(content.encode('utf-8')) f.close() return str(content) def codepoints(self): for i in range(0, self.max + 1): yield CodePoint(i, ucdata=self) class CodePoint: def __init__(self, value=None, ucdata=None): self.value = value self.ucdata = ucdata def _casefold(self, s): r = '' for c in s: r += self.ucdata.ucd_cf.get(ord(c), c) return r @property def exception_value(self): return exceptions.get(self.value, False) @property def compat_value(self): return backwardscompatible.get(self.value, False) @property def name(self): if self.value in self.ucdata.ucd_data: return self.ucdata.ucd_data[self.value][0] elif 'Noncharacter_Code_Point' in self.ucdata.ucd_props[self.value]: return '<noncharacter>' else: return '<reserved>' @property def general_category(self): return self.ucdata.ucd_data.get(self.value, [None, None])[1] @property def unassigned(self): return not ('Noncharacter_Code_Point' in self.ucdata.ucd_props[self.value] or \ self.value in self.ucdata.ucd_data) @property def ldh(self): if self.value == 0x002d or \ self.value in range(0x0030, 0x0039+1) or \ self.value in range(0x0061, 0x007a+1): return True return False @property def join_control(self): return 'Join_Control' in self.ucdata.ucd_props[self.value] @property def joining_type(self): return self.ucdata.ucd_as.get(self.value, None) @property def char(self): return chr(self.value) @property def nfkc_cf(self): return unicodedata.normalize('NFKC', self._casefold(unicodedata.normalize('NFKC', self.char))) @property def unstable(self): return self.char != self.nfkc_cf @property def in_ignorableproperties(self): for prop in ['Default_Ignorable_Code_Point', 'White_Space', 'Noncharacter_Code_Point']: if prop in self.ucdata.ucd_props[self.value]: return True return False @property def in_ignorableblocks(self): return self.ucdata.ucd_block.get(self.value) in ( 'Combining Diacritical Marks for Symbols', 'Musical Symbols', 'Ancient Greek Musical Notation' ) @property def oldhanguljamo(self): return self.ucdata.ucd_hst.get(self.value) in ('L', 'V', 'T') @property def in_lettersdigits(self): return self.general_category in ('Ll', 'Lu', 'Lo', 'Nd', 'Lm', 'Mn', 'Mc') @property def idna2008_status(self): if self.exception_value: return self.exception_value elif self.compat_value: return self.compat_value elif self.unassigned: return 'UNASSIGNED' elif self.ldh: return 'PVALID' elif self.join_control: return 'CONTEXTJ' elif self.unstable: return 'DISALLOWED' elif self.in_ignorableproperties: return 'DISALLOWED' elif self.in_ignorableblocks: return 'DISALLOWED' elif self.oldhanguljamo: return 'DISALLOWED' elif self.in_lettersdigits: return 'PVALID' else: return 'DISALLOWED' @property def uts46_data(self): return self.ucdata.ucd_idnamt.get(self.value, None) @property def uts46_status(self): return ' '.join(self.uts46_data) def diagnose_codepoint(codepoint, args, ucdata): cp = CodePoint(codepoint, ucdata=ucdata) print('U+{:04X}:'.format(codepoint)) print(' Name: {}'.format(cp.name)) print('1 Exceptions: {}'.format(exceptions.get(codepoint, False))) print('2 Backwards Compat: {}'.format(backwardscompatible.get(codepoint, False))) print('3 Unassigned: {}'.format(cp.unassigned)) print('4 LDH: {}'.format(cp.ldh)) print(' Properties: {}'.format(' '.join(sorted(ucdata.ucd_props.get(codepoint, ['None']))))) print('5 .Join Control: {}'.format(cp.join_control)) print(' NFKC CF: {}'.format(' '.join(['U+{:04X}'.format(ord(x)) for x in cp.nfkc_cf]))) print('6 .Unstable: {}'.format(cp.unstable)) print('7 .Ignorable Prop: {}'.format(cp.in_ignorableproperties)) print(' Block: {}'.format(ucdata.ucd_block.get(codepoint, None))) print('8 .Ignorable Block: {}'.format(cp.in_ignorableblocks)) print(' Hangul Syll Type: {}'.format(ucdata.ucd_hst.get(codepoint, None))) print('9 .Old Hangul Jamo: {}'.format(cp.oldhanguljamo)) print(' General Category: {}'.format(cp.general_category)) print('10 .Letters Digits: {}'.format(cp.in_lettersdigits)) print('== IDNA 2008: {}'.format(cp.idna2008_status)) print('== UTS 46: {}'.format(cp.uts46_status)) print('(Unicode {} [sys:{}])'.format(ucdata.version, ucdata.system_version)) def ucdrange(start, end): if start == end: return ('{:04X}'.format(start.value), start.name) else: return ('{:04X}..{:04X}'.format(start.value, end.value), '{}..{}'.format(start.name, end.name)) def upper_hex(value): num = hex(value) return num[:2] + num[2:].upper() def optimised_list(d): values = intranges_from_list(d) if len(values) == 1: for value in values: # Respect ruff format style yield '({},),'.format(upper_hex(value)) else: yield '(' for value in values: yield ' {},'.format(upper_hex(value)) yield ' ),' def make_table(args, ucdata): last_status = None cps = [] table_data = [] for cp in ucdata.codepoints(): status = cp.idna2008_status if (last_status and last_status != status): (values, description) = ucdrange(cps[0], cps[-1]) table_data.append([values, last_status, description]) cps = [] last_status = status cps.append(cp) (values, description) = ucdrange(cps[0], cps[-1]) table_data.append([values, last_status, description]) if args.dir: f = open('{}/idna-table-{}.txt'.format(args.dir, ucdata.version), 'wb') for row in table_data: f.write('{:12}; {:12}# {:.44}\n'.format(*row).encode('ascii')) f.close() else: for row in table_data: print('{:12}; {:12}# {:.44}'.format(*row)) def idna_libdata(ucdata): yield '# This file is automatically generated by tools/idna-data\n' yield '__version__ = "{}"\n'.format(ucdata.version) # # Script classifications are used by some CONTEXTO rules in RFC 5891 # yield 'scripts = {' for script in SCRIPT_WHITELIST: prefix = ' "{}": '.format(script) for line in optimised_list(ucdata.ucd_s[script]): yield prefix + line prefix = '' yield '}' # # Joining types are used by CONTEXTJ rule A.1 # yield 'joining_types = {' for cp in ucdata.codepoints(): if cp.joining_type: yield ' 0x{:X}: {},'.format(cp.value, ord(cp.joining_type)) yield '}' # # These are the classification of codepoints into PVALID, CONTEXTO, CONTEXTJ, etc. # yield 'codepoint_classes = {' classes = {} for cp in ucdata.codepoints(): status = cp.idna2008_status if status in ('UNASSIGNED', 'DISALLOWED'): continue if not status in classes: classes[status] = set() classes[status].add(cp.value) for status in ['PVALID', 'CONTEXTJ', 'CONTEXTO']: prefix = ' "{}": '.format(status) for line in optimised_list(classes[status]): yield prefix + line prefix = '' yield '}' def uts46_ranges(ucdata): last = (None, None) for cp in ucdata.codepoints(): fields = cp.uts46_data if not fields: continue status, mapping = UTS46_STATUSES[fields[0]] if mapping: mapping = ''.join(chr(int(codepoint, 16)) for codepoint in fields[1].split()) mapping = mapping.replace('\\', '\\\\') else: mapping = None if cp.value > 255 and (status, mapping) == last: continue last = (status, mapping) if mapping is not None: if '"' in mapping: yield '(0x{:X}, "{}", \'{}\')'.format(cp.value, status, mapping) else: yield '(0x{:X}, "{}", "{}")'.format(cp.value, status, mapping) else: yield '(0x{:X}, "{}")'.format(cp.value, status) def uts46_libdata(ucdata): yield '# This file is automatically generated by tools/idna-data' yield '# vim: set fileencoding=utf-8 :\n' yield 'from typing import List, Tuple, Union\n' yield '"""IDNA Mapping Table from UTS46."""\n\n' yield '__version__ = "{}"\n'.format(ucdata.version) idx = -1 for row in uts46_ranges(ucdata): idx += 1 if idx % UTS46_SEGMENT_SIZE == 0: if idx != 0: yield ' ]\n' yield '\ndef _seg_{}() -> List[Union[Tuple[int, str], Tuple[int, str, str]]]:\n return ['.format(idx // UTS46_SEGMENT_SIZE) yield ' {},'.format(row) yield ' ]\n' yield '\nuts46data = tuple(' yield ' _seg_0()' for i in range(1, idx // UTS46_SEGMENT_SIZE + 1): yield ' + _seg_{}()'.format(i) yield ') # type: Tuple[Union[Tuple[int, str], Tuple[int, str, str]], ...]' def make_libdata(args, ucdata): dest_dir = args.dir or '.' target_filename = os.path.join(dest_dir, 'idnadata.py') with open(target_filename, 'wb') as target: for line in idna_libdata(ucdata): target.write((line + '\n').encode('utf-8')) target_filename = os.path.join(dest_dir, 'uts46data.py') with open(target_filename, 'wb') as target: for line in uts46_libdata(ucdata): target.write((line + '\n').encode('utf-8')) def arg_error(message, parser): parser.print_usage() print('{}: error: {}'.format(sys.argv[0], message)) sys.exit(2) def main(): parser = argparse.ArgumentParser(description='Determine IDNA code-point validity data') parser.add_argument('action', type=str, default='preferred', help='Task to perform (make-libdata, make-tables, <codepoint>)') parser.add_argument('--version', type=str, default='preferred', help='Unicode version to use (preferred, latest, <x.y.z>)') parser.add_argument('--source', type=str, default=None, help='Where to fetch Unicode data (file path)') parser.add_argument('--dir', type=str, default=None, help='Where to export the output') parser.add_argument('--cache', type=str, default=None, help='Where to cache Unicode data') parser.add_argument('--no-cache', action='store_true', help='Don\'t cache Unicode data') libdata = parser.add_argument_group('make-libdata', 'Make module data for Python IDNA library') tables = parser.add_argument_group('make-table', 'Make IANA-style reference table') codepoint = parser.add_argument_group('codepoint', 'Display related data for given codepoint (e.g. U+0061)') args = parser.parse_args() if args.version == 'preferred': target_version = PREFERRED_VERSION else: target_version = args.version if args.cache and args.no_cache: arg_error('I can\'t both --cache and --no-cache', parser) cache = args.cache or DEFAULT_CACHE_DIR if args.no_cache: cache = None ucdata = UnicodeData(target_version, cache, args) if args.action == 'make-table': make_table(args, ucdata) elif args.action == 'make-libdata': make_libdata(args, ucdata) else: result = re.match(r'(?i)^(U\+|)(?P<cp>[0-9A-F]{4,6})$', args.action) if result: codepoint = int(result.group('cp'), 16) diagnose_codepoint(codepoint, args, ucdata) sys.exit(0) arg_error('Don\'t recognize action or codepoint value', parser) if __name__ == '__main__': main()
Ukuran: 24.4 KB