#!/usr/bin/env python # # Copyright 2016 The Android Open Source Project. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # """Generate a C++ data table containing locale data.""" import collections import glob import os.path import sys def get_locale_parts(locale): """Split a locale into three parts, for langauge, script, and region.""" parts = locale.split('_') if len(parts) == 1: return (parts[0], None, None) elif len(parts) == 2: if len(parts[1]) == 4: # parts[1] is a script return (parts[0], parts[1], None) else: return (parts[0], None, parts[1]) else: assert len(parts) == 3 return tuple(parts) def read_likely_subtags(input_file_name): """Read and parse ICU's likelySubtags.txt.""" with open(input_file_name) as input_file: likely_script_dict = { # Android's additions for pseudo-locales. These internal codes make # sure that the pseudo-locales would not match other English or # Arabic locales. (We can't use private-use ISO 15924 codes, since # they may be used by apps for other purposes.) "en_XA": "~~~A", "ar_XB": "~~~B", # Removed data from later versions of ICU "ji": "Hebr", # Old code for Yiddish, still used in Java and Android } representative_locales = { # Android's additions "en_Latn_GB", # representative for en_Latn_001 "es_Latn_MX", # representative for es_Latn_419 "es_Latn_US", # representative for es_Latn_419 (not the best idea, # but Android has been shipping with it for quite a # while. Fortunately, MX < US, so if both exist, MX # would be chosen.) } for line in input_file: line = unicode(line, 'UTF-8').strip(u' \n\uFEFF').encode('UTF-8') if line.startswith('//'): continue if '{' in line and '}' in line: from_locale = line[:line.index('{')] to_locale = line[line.index('"')+1:line.rindex('"')] from_lang, from_scr, from_region = get_locale_parts(from_locale) _, to_scr, to_region = get_locale_parts(to_locale) if from_lang == 'und': continue # not very useful for our purposes if from_region is None and to_region not in ['001', 'ZZ']: representative_locales.add(to_locale) if from_scr is None: likely_script_dict[from_locale] = to_scr return likely_script_dict, frozenset(representative_locales) # From packLanguageOrRegion() in ResourceTypes.cpp def pack_language_or_region(inp, base): """Pack langauge or region in a two-byte tuple.""" if inp is None: return (0, 0) elif len(inp) == 2: return ord(inp[0]), ord(inp[1]) else: assert len(inp) == 3 base = ord(base) first = ord(inp[0]) - base second = ord(inp[1]) - base third = ord(inp[2]) - base return (0x80 | (third << 2) | (second >>3), ((second << 5) | first) & 0xFF) # From packLanguage() in ResourceTypes.cpp def pack_language(language): """Pack language in a two-byte tuple.""" return pack_language_or_region(language, 'a') # From packRegion() in ResourceTypes.cpp def pack_region(region): """Pack region in a two-byte tuple.""" return pack_language_or_region(region, '0') def pack_to_uint32(locale): """Pack language+region of locale into a 32-bit unsigned integer.""" lang, _, region = get_locale_parts(locale) plang = pack_language(lang) pregion = pack_region(region) return (plang[0] << 24) | (plang[1] << 16) | (pregion[0] << 8) | pregion[1] def dump_script_codes(all_scripts): """Dump the SCRIPT_CODES table.""" print 'const char SCRIPT_CODES[][4] = {' for index, script in enumerate(all_scripts): print " /* %-2d */ {'%c', '%c', '%c', '%c'}," % ( index, script[0], script[1], script[2], script[3]) print '};' print def dump_script_data(likely_script_dict, all_scripts): """Dump the script data.""" print print 'const std::unordered_map LIKELY_SCRIPTS({' for locale in sorted(likely_script_dict.keys()): script = likely_script_dict[locale] print ' {0x%08Xu, %2du}, // %s -> %s' % ( pack_to_uint32(locale), all_scripts.index(script), locale.replace('_', '-'), script) print '});' def pack_to_uint64(locale): """Pack a full locale into a 64-bit unsigned integer.""" _, script, _ = get_locale_parts(locale) return ((pack_to_uint32(locale) << 32) | (ord(script[0]) << 24) | (ord(script[1]) << 16) | (ord(script[2]) << 8) | ord(script[3])) def dump_representative_locales(representative_locales): """Dump the set of representative locales.""" print print 'std::unordered_set REPRESENTATIVE_LOCALES({' for locale in sorted(representative_locales): print ' 0x%08XLLU, // %s' % ( pack_to_uint64(locale), locale) print '});' def read_and_dump_likely_data(icu_data_dir): """Read and dump the likely-script data.""" likely_subtags_txt = os.path.join(icu_data_dir, 'misc', 'likelySubtags.txt') likely_script_dict, representative_locales = read_likely_subtags( likely_subtags_txt) all_scripts = list(set(likely_script_dict.values())) assert len(all_scripts) <= 256 all_scripts.sort() dump_script_codes(all_scripts) dump_script_data(likely_script_dict, all_scripts) dump_representative_locales(representative_locales) return likely_script_dict def read_parent_data(icu_data_dir): """Read locale parent data from ICU data files.""" all_icu_data_files = glob.glob(os.path.join(icu_data_dir, '*', '*.txt')) parent_dict = {} for data_file in all_icu_data_files: locale = os.path.splitext(os.path.basename(data_file))[0] with open(data_file) as input_file: for line in input_file: if '%%Parent' in line: parent = line[line.index('"')+1:line.rindex('"')] if locale in parent_dict: # Different files shouldn't have different parent info assert parent_dict[locale] == parent else: parent_dict[locale] = parent elif locale.startswith('ar_') and 'default{"latn"}' in line: # Arabic parent overrides for ASCII digits. Since # Unicode extensions are not supported in ResourceTypes, # we will use ar-015 (Arabic, Northern Africa) instead # of the more correct ar-u-nu-latn. parent_dict[locale] = 'ar_015' return parent_dict def get_likely_script(locale, likely_script_dict): """Find the likely script for a locale, given the likely-script dictionary. """ if locale.count('_') == 2: # it already has a script return locale.split('_')[1] elif locale in likely_script_dict: return likely_script_dict[locale] else: language = locale.split('_')[0] return likely_script_dict[language] def dump_parent_data(script_organized_dict): """Dump information for parents of locales.""" sorted_scripts = sorted(script_organized_dict.keys()) print for script in sorted_scripts: parent_dict = script_organized_dict[script] print ('const std::unordered_map %s_PARENTS({' % script.upper()) for locale in sorted(parent_dict.keys()): parent = parent_dict[locale] print ' {0x%08Xu, 0x%08Xu}, // %s -> %s' % ( pack_to_uint32(locale), pack_to_uint32(parent), locale.replace('_', '-'), parent.replace('_', '-')) print '});' print print 'const struct {' print ' const char script[4];' print ' const std::unordered_map* map;' print '} SCRIPT_PARENTS[] = {' for script in sorted_scripts: print " {{'%c', '%c', '%c', '%c'}, &%s_PARENTS}," % ( script[0], script[1], script[2], script[3], script.upper()) print '};' def dump_parent_tree_depth(parent_dict): """Find and dump the depth of the parent tree.""" max_depth = 1 for locale, _ in parent_dict.items(): depth = 1 while locale in parent_dict: locale = parent_dict[locale] depth += 1 max_depth = max(max_depth, depth) assert max_depth < 5 # Our algorithms assume small max_depth print print 'const size_t MAX_PARENT_DEPTH = %d;' % max_depth def read_and_dump_parent_data(icu_data_dir, likely_script_dict): """Read parent data from ICU and dump it.""" parent_dict = read_parent_data(icu_data_dir) script_organized_dict = collections.defaultdict(dict) for locale in parent_dict: parent = parent_dict[locale] if parent == 'root': continue script = get_likely_script(locale, likely_script_dict) script_organized_dict[script][locale] = parent_dict[locale] dump_parent_data(script_organized_dict) dump_parent_tree_depth(parent_dict) def main(): """Read the data files from ICU and dump the output to a C++ file.""" source_root = sys.argv[1] icu_data_dir = os.path.join( source_root, 'external', 'icu', 'icu4c', 'source', 'data') print '// Auto-generated by %s' % sys.argv[0] print likely_script_dict = read_and_dump_likely_data(icu_data_dir) read_and_dump_parent_data(icu_data_dir, likely_script_dict) if __name__ == '__main__': main()