| #!/usr/bin/env python |
| |
| import collections |
| import copy |
| import glob |
| import itertools |
| from os import path |
| import sys |
| from xml.etree import ElementTree |
| |
| from fontTools import ttLib |
| |
| EMOJI_VS = 0xFE0F |
| |
| LANG_TO_SCRIPT = { |
| 'as': 'Beng', |
| 'bn': 'Beng', |
| 'cy': 'Latn', |
| 'da': 'Latn', |
| 'de': 'Latn', |
| 'en': 'Latn', |
| 'es': 'Latn', |
| 'et': 'Latn', |
| 'eu': 'Latn', |
| 'fr': 'Latn', |
| 'ga': 'Latn', |
| 'gu': 'Gujr', |
| 'hi': 'Deva', |
| 'hr': 'Latn', |
| 'hu': 'Latn', |
| 'hy': 'Armn', |
| 'ja': 'Jpan', |
| 'kn': 'Knda', |
| 'ko': 'Kore', |
| 'ml': 'Mlym', |
| 'mn': 'Cyrl', |
| 'mr': 'Deva', |
| 'nb': 'Latn', |
| 'nn': 'Latn', |
| 'or': 'Orya', |
| 'pa': 'Guru', |
| 'pt': 'Latn', |
| 'sl': 'Latn', |
| 'ta': 'Taml', |
| 'te': 'Telu', |
| 'tk': 'Latn', |
| } |
| |
| def lang_to_script(lang_code): |
| lang = lang_code.lower() |
| while lang not in LANG_TO_SCRIPT: |
| hyphen_idx = lang.rfind('-') |
| assert hyphen_idx != -1, ( |
| 'We do not know what script the "%s" language is written in.' |
| % lang_code) |
| assumed_script = lang[hyphen_idx+1:] |
| if len(assumed_script) == 4 and assumed_script.isalpha(): |
| # This is actually the script |
| return assumed_script.title() |
| lang = lang[:hyphen_idx] |
| return LANG_TO_SCRIPT[lang] |
| |
| |
| def printable(inp): |
| if type(inp) is set: # set of character sequences |
| return '{' + ', '.join([printable(seq) for seq in inp]) + '}' |
| if type(inp) is tuple: # character sequence |
| return '<' + (', '.join([printable(ch) for ch in inp])) + '>' |
| else: # single character |
| return 'U+%04X' % inp |
| |
| |
| def open_font(font): |
| font_file, index = font |
| font_path = path.join(_fonts_dir, font_file) |
| if index is not None: |
| return ttLib.TTFont(font_path, fontNumber=index) |
| else: |
| return ttLib.TTFont(font_path) |
| |
| |
| def get_best_cmap(font): |
| ttfont = open_font(font) |
| all_unicode_cmap = None |
| bmp_cmap = None |
| for cmap in ttfont['cmap'].tables: |
| specifier = (cmap.format, cmap.platformID, cmap.platEncID) |
| if specifier == (4, 3, 1): |
| assert bmp_cmap is None, 'More than one BMP cmap in %s' % (font, ) |
| bmp_cmap = cmap |
| elif specifier == (12, 3, 10): |
| assert all_unicode_cmap is None, ( |
| 'More than one UCS-4 cmap in %s' % (font, )) |
| all_unicode_cmap = cmap |
| |
| return all_unicode_cmap.cmap if all_unicode_cmap else bmp_cmap.cmap |
| |
| |
| def get_variation_sequences_cmap(font): |
| ttfont = open_font(font) |
| vs_cmap = None |
| for cmap in ttfont['cmap'].tables: |
| specifier = (cmap.format, cmap.platformID, cmap.platEncID) |
| if specifier == (14, 0, 5): |
| assert vs_cmap is None, 'More than one VS cmap in %s' % (font, ) |
| vs_cmap = cmap |
| return vs_cmap |
| |
| |
| def get_emoji_map(font): |
| # Add normal characters |
| emoji_map = copy.copy(get_best_cmap(font)) |
| reverse_cmap = {glyph: code for code, glyph in emoji_map.items()} |
| |
| # Add variation sequences |
| vs_dict = get_variation_sequences_cmap(font).uvsDict |
| for vs in vs_dict: |
| for base, glyph in vs_dict[vs]: |
| if glyph is None: |
| emoji_map[(base, vs)] = emoji_map[base] |
| else: |
| emoji_map[(base, vs)] = glyph |
| |
| # Add GSUB rules |
| ttfont = open_font(font) |
| for lookup in ttfont['GSUB'].table.LookupList.Lookup: |
| assert lookup.LookupType == 4, 'We only understand type 4 lookups' |
| for subtable in lookup.SubTable: |
| ligatures = subtable.ligatures |
| for first_glyph in ligatures: |
| for ligature in ligatures[first_glyph]: |
| sequence = [first_glyph] + ligature.Component |
| sequence = [reverse_cmap[glyph] for glyph in sequence] |
| sequence = tuple(sequence) |
| # Make sure no starting subsequence of 'sequence' has been |
| # seen before. |
| for sub_len in range(2, len(sequence)+1): |
| subsequence = sequence[:sub_len] |
| assert subsequence not in emoji_map |
| emoji_map[sequence] = ligature.LigGlyph |
| |
| return emoji_map |
| |
| |
| def assert_font_supports_any_of_chars(font, chars): |
| best_cmap = get_best_cmap(font) |
| for char in chars: |
| if char in best_cmap: |
| return |
| sys.exit('None of characters in %s were found in %s' % (chars, font)) |
| |
| |
| def assert_font_supports_all_of_chars(font, chars): |
| best_cmap = get_best_cmap(font) |
| for char in chars: |
| assert char in best_cmap, ( |
| 'U+%04X was not found in %s' % (char, font)) |
| |
| |
| def assert_font_supports_none_of_chars(font, chars): |
| best_cmap = get_best_cmap(font) |
| for char in chars: |
| assert char not in best_cmap, ( |
| 'U+%04X was found in %s' % (char, font)) |
| |
| |
| def assert_font_supports_all_sequences(font, sequences): |
| vs_dict = get_variation_sequences_cmap(font).uvsDict |
| for base, vs in sorted(sequences): |
| assert vs in vs_dict and (base, None) in vs_dict[vs], ( |
| '<U+%04X, U+%04X> was not found in %s' % (base, vs, font)) |
| |
| |
| def check_hyphens(hyphens_dir): |
| # Find all the scripts that need automatic hyphenation |
| scripts = set() |
| for hyb_file in glob.iglob(path.join(hyphens_dir, '*.hyb')): |
| hyb_file = path.basename(hyb_file) |
| assert hyb_file.startswith('hyph-'), ( |
| 'Unknown hyphenation file %s' % hyb_file) |
| lang_code = hyb_file[hyb_file.index('-')+1:hyb_file.index('.')] |
| scripts.add(lang_to_script(lang_code)) |
| |
| HYPHENS = {0x002D, 0x2010} |
| for script in scripts: |
| fonts = _script_to_font_map[script] |
| assert fonts, 'No fonts found for the "%s" script' % script |
| for font in fonts: |
| assert_font_supports_any_of_chars(font, HYPHENS) |
| |
| |
| class FontRecord(object): |
| def __init__(self, name, scripts, variant, weight, style, font): |
| self.name = name |
| self.scripts = scripts |
| self.variant = variant |
| self.weight = weight |
| self.style = style |
| self.font = font |
| |
| |
| def parse_fonts_xml(fonts_xml_path): |
| global _script_to_font_map, _fallback_chain |
| _script_to_font_map = collections.defaultdict(set) |
| _fallback_chain = [] |
| tree = ElementTree.parse(fonts_xml_path) |
| for family in tree.findall('family'): |
| name = family.get('name') |
| variant = family.get('variant') |
| langs = family.get('lang') |
| if name: |
| assert variant is None, ( |
| 'No variant expected for LGC font %s.' % name) |
| assert langs is None, ( |
| 'No language expected for LGC fonts %s.' % name) |
| else: |
| assert variant in {None, 'elegant', 'compact'}, ( |
| 'Unexpected value for variant: %s' % variant) |
| |
| if langs: |
| langs = langs.split() |
| scripts = {lang_to_script(lang) for lang in langs} |
| else: |
| scripts = set() |
| |
| for child in family: |
| assert child.tag == 'font', ( |
| 'Unknown tag <%s>' % child.tag) |
| font_file = child.text |
| weight = int(child.get('weight')) |
| assert weight % 100 == 0, ( |
| 'Font weight "%d" is not a multiple of 100.' % weight) |
| |
| style = child.get('style') |
| assert style in {'normal', 'italic'}, ( |
| 'Unknown style "%s"' % style) |
| |
| index = child.get('index') |
| if index: |
| index = int(index) |
| |
| _fallback_chain.append(FontRecord( |
| name, |
| frozenset(scripts), |
| variant, |
| weight, |
| style, |
| (font_file, index))) |
| |
| if name: # non-empty names are used for default LGC fonts |
| map_scripts = {'Latn', 'Grek', 'Cyrl'} |
| else: |
| map_scripts = scripts |
| for script in map_scripts: |
| _script_to_font_map[script].add((font_file, index)) |
| |
| |
| def check_emoji_coverage(all_emoji, equivalent_emoji): |
| emoji_fonts = [ |
| record.font for record in _fallback_chain |
| if 'Zsye' in record.scripts] |
| assert len(emoji_fonts) == 1, 'There are %d emoji fonts.' % len(emoji_fonts) |
| emoji_font = emoji_fonts[0] |
| coverage = get_emoji_map(emoji_font) |
| |
| for sequence in all_emoji: |
| assert sequence in coverage, ( |
| '%s is not supported in the emoji font.' % printable(sequence)) |
| |
| for sequence in coverage: |
| if sequence in {0x0000, 0x000D, 0x0020}: |
| # The font needs to support a few extra characters, which is OK |
| continue |
| assert sequence in all_emoji, ( |
| 'Emoji font should not support %s.' % printable(sequence)) |
| |
| for first, second in sorted(equivalent_emoji.items()): |
| assert coverage[first] == coverage[second], ( |
| '%s and %s should map to the same glyph.' % ( |
| printable(first), |
| printable(second))) |
| |
| for glyph in set(coverage.values()): |
| maps_to_glyph = [seq for seq in coverage if coverage[seq] == glyph] |
| if len(maps_to_glyph) > 1: |
| # There are more than one sequences mapping to the same glyph. We |
| # need to make sure they were expected to be equivalent. |
| equivalent_seqs = set() |
| for seq in maps_to_glyph: |
| equivalent_seq = seq |
| while equivalent_seq in equivalent_emoji: |
| equivalent_seq = equivalent_emoji[equivalent_seq] |
| equivalent_seqs.add(equivalent_seq) |
| assert len(equivalent_seqs) == 1, ( |
| 'The sequences %s should not result in the same glyph %s' % ( |
| printable(equivalent_seqs), |
| glyph)) |
| |
| |
| def check_emoji_defaults(default_emoji): |
| missing_text_chars = _emoji_properties['Emoji'] - default_emoji |
| emoji_font_seen = False |
| for record in _fallback_chain: |
| if 'Zsye' in record.scripts: |
| emoji_font_seen = True |
| # No need to check the emoji font |
| continue |
| # For later fonts, we only check them if they have a script |
| # defined, since the defined script may get them to a higher |
| # score even if they appear after the emoji font. |
| if emoji_font_seen and not record.scripts: |
| continue |
| |
| # Check default emoji-style characters |
| assert_font_supports_none_of_chars(record.font, sorted(default_emoji)) |
| |
| # Mark default text-style characters appearing in fonts above the emoji |
| # font as seen |
| if not emoji_font_seen: |
| missing_text_chars -= set(get_best_cmap(record.font)) |
| |
| # Noto does not have monochrome glyphs for Unicode 7.0 wingdings and |
| # webdings yet. |
| missing_text_chars -= _chars_by_age['7.0'] |
| # TODO: Remove these after b/26113320 is fixed |
| missing_text_chars -= { |
| 0x263A, # WHITE SMILING FACE |
| 0x270C, # VICTORY HAND |
| 0x2744, # SNOWFLAKE |
| 0x2764, # HEAVY BLACK HEART |
| } |
| assert missing_text_chars == set(), ( |
| 'Text style version of some emoji characters are missing: ' + repr(missing_text_chars)) |
| |
| |
| # Setting reverse to true returns a dictionary that maps the values to sets of |
| # characters, useful for some binary properties. Otherwise, we get a |
| # dictionary that maps characters to the property values, assuming there's only |
| # one property in the file. |
| def parse_unicode_datafile(file_path, reverse=False): |
| if reverse: |
| output_dict = collections.defaultdict(set) |
| else: |
| output_dict = {} |
| with open(file_path) as datafile: |
| for line in datafile: |
| if '#' in line: |
| line = line[:line.index('#')] |
| line = line.strip() |
| if not line: |
| continue |
| |
| chars, prop = line.split(';') |
| chars = chars.strip() |
| prop = prop.strip() |
| |
| if ' ' in chars: # character sequence |
| sequence = [int(ch, 16) for ch in chars.split(' ')] |
| additions = [tuple(sequence)] |
| elif '..' in chars: # character range |
| char_start, char_end = chars.split('..') |
| char_start = int(char_start, 16) |
| char_end = int(char_end, 16) |
| additions = xrange(char_start, char_end+1) |
| else: # singe character |
| additions = [int(chars, 16)] |
| if reverse: |
| output_dict[prop].update(additions) |
| else: |
| for addition in additions: |
| assert addition not in output_dict |
| output_dict[addition] = prop |
| return output_dict |
| |
| |
| def parse_standardized_variants(file_path): |
| emoji_set = set() |
| text_set = set() |
| with open(file_path) as datafile: |
| for line in datafile: |
| if '#' in line: |
| line = line[:line.index('#')] |
| line = line.strip() |
| if not line: |
| continue |
| sequence, description, _ = line.split(';') |
| sequence = sequence.strip().split(' ') |
| base = int(sequence[0], 16) |
| vs = int(sequence[1], 16) |
| description = description.strip() |
| if description == 'text style': |
| text_set.add((base, vs)) |
| elif description == 'emoji style': |
| emoji_set.add((base, vs)) |
| return text_set, emoji_set |
| |
| |
| def parse_ucd(ucd_path): |
| global _emoji_properties, _chars_by_age |
| global _text_variation_sequences, _emoji_variation_sequences |
| global _emoji_sequences, _emoji_zwj_sequences |
| _emoji_properties = parse_unicode_datafile( |
| path.join(ucd_path, 'emoji-data.txt'), reverse=True) |
| _chars_by_age = parse_unicode_datafile( |
| path.join(ucd_path, 'DerivedAge.txt'), reverse=True) |
| sequences = parse_standardized_variants( |
| path.join(ucd_path, 'StandardizedVariants.txt')) |
| _text_variation_sequences, _emoji_variation_sequences = sequences |
| _emoji_sequences = parse_unicode_datafile( |
| path.join(ucd_path, 'emoji-sequences.txt')) |
| _emoji_zwj_sequences = parse_unicode_datafile( |
| path.join(ucd_path, 'emoji-zwj-sequences.txt')) |
| |
| # filter modern pentathlon, as it seems likely to be removed from final spec |
| # also filter rifle |
| def is_excluded(n): |
| return n in [0x1f93b, 0x1f946] |
| |
| def contains_excluded(t): |
| if type(t) == int: |
| return is_excluded(t) |
| return any(is_excluded(cp) for cp in t) |
| |
| # filter modern pentathlon, as it seems likely to be removed from final spec |
| _emoji_properties['Emoji'] = set( |
| t for t in _emoji_properties['Emoji'] if not contains_excluded(t)) |
| _emoji_sequences = dict( |
| (t, v) for (t, v) in _emoji_sequences.items() if not contains_excluded(t)) |
| |
| def flag_sequence(territory_code): |
| return tuple(0x1F1E6 + ord(ch) - ord('A') for ch in territory_code) |
| |
| |
| UNSUPPORTED_FLAGS = frozenset({ |
| flag_sequence('BL'), flag_sequence('BQ'), flag_sequence('DG'), |
| flag_sequence('EA'), flag_sequence('EH'), flag_sequence('FK'), |
| flag_sequence('GF'), flag_sequence('GP'), flag_sequence('GS'), |
| flag_sequence('MF'), flag_sequence('MQ'), flag_sequence('NC'), |
| flag_sequence('PM'), flag_sequence('RE'), flag_sequence('TF'), |
| flag_sequence('WF'), flag_sequence('XK'), flag_sequence('YT'), |
| }) |
| |
| EQUIVALENT_FLAGS = { |
| flag_sequence('BV'): flag_sequence('NO'), |
| flag_sequence('CP'): flag_sequence('FR'), |
| flag_sequence('HM'): flag_sequence('AU'), |
| flag_sequence('SJ'): flag_sequence('NO'), |
| flag_sequence('UM'): flag_sequence('US'), |
| } |
| |
| COMBINING_KEYCAP = 0x20E3 |
| |
| LEGACY_ANDROID_EMOJI = { |
| 0xFE4E5: flag_sequence('JP'), |
| 0xFE4E6: flag_sequence('US'), |
| 0xFE4E7: flag_sequence('FR'), |
| 0xFE4E8: flag_sequence('DE'), |
| 0xFE4E9: flag_sequence('IT'), |
| 0xFE4EA: flag_sequence('GB'), |
| 0xFE4EB: flag_sequence('ES'), |
| 0xFE4EC: flag_sequence('RU'), |
| 0xFE4ED: flag_sequence('CN'), |
| 0xFE4EE: flag_sequence('KR'), |
| 0xFE82C: (ord('#'), COMBINING_KEYCAP), |
| 0xFE82E: (ord('1'), COMBINING_KEYCAP), |
| 0xFE82F: (ord('2'), COMBINING_KEYCAP), |
| 0xFE830: (ord('3'), COMBINING_KEYCAP), |
| 0xFE831: (ord('4'), COMBINING_KEYCAP), |
| 0xFE832: (ord('5'), COMBINING_KEYCAP), |
| 0xFE833: (ord('6'), COMBINING_KEYCAP), |
| 0xFE834: (ord('7'), COMBINING_KEYCAP), |
| 0xFE835: (ord('8'), COMBINING_KEYCAP), |
| 0xFE836: (ord('9'), COMBINING_KEYCAP), |
| 0xFE837: (ord('0'), COMBINING_KEYCAP), |
| } |
| |
| ZWJ_IDENTICALS = { |
| # KISS |
| (0x1F469, 0x200D, 0x2764, 0x200D, 0x1F48B, 0x200D, 0x1F468): 0x1F48F, |
| # COUPLE WITH HEART |
| (0x1F469, 0x200D, 0x2764, 0x200D, 0x1F468): 0x1F491, |
| # FAMILY |
| (0x1F468, 0x200D, 0x1F469, 0x200D, 0x1F466): 0x1F46A, |
| } |
| |
| def compute_expected_emoji(): |
| equivalent_emoji = {} |
| sequence_pieces = set() |
| all_sequences = set() |
| all_sequences.update(_emoji_variation_sequences) |
| |
| for sequence in _emoji_sequences.keys(): |
| sequence = tuple(ch for ch in sequence if ch != EMOJI_VS) |
| all_sequences.add(sequence) |
| sequence_pieces.update(sequence) |
| |
| for sequence in _emoji_zwj_sequences.keys(): |
| sequence = tuple(ch for ch in sequence if ch != EMOJI_VS) |
| all_sequences.add(sequence) |
| sequence_pieces.update(sequence) |
| # Add reverse of all emoji ZWJ sequences, which are added to the fonts |
| # as a workaround to get the sequences work in RTL text. |
| reversed_seq = tuple(reversed(sequence)) |
| all_sequences.add(reversed_seq) |
| equivalent_emoji[reversed_seq] = sequence |
| |
| # Add all two-letter flag sequences, as even the unsupported ones should |
| # resolve to a flag tofu. |
| all_letters = [chr(code) for code in range(ord('A'), ord('Z')+1)] |
| all_two_letter_codes = itertools.product(all_letters, repeat=2) |
| all_flags = {flag_sequence(code) for code in all_two_letter_codes} |
| all_sequences.update(all_flags) |
| tofu_flags = UNSUPPORTED_FLAGS | (all_flags - set(_emoji_sequences.keys())) |
| |
| all_emoji = ( |
| _emoji_properties['Emoji'] | |
| all_sequences | |
| sequence_pieces | |
| set(LEGACY_ANDROID_EMOJI.keys())) |
| default_emoji = ( |
| _emoji_properties['Emoji_Presentation'] | |
| all_sequences | |
| set(LEGACY_ANDROID_EMOJI.keys())) |
| |
| first_tofu_flag = sorted(tofu_flags)[0] |
| for flag in tofu_flags: |
| if flag != first_tofu_flag: |
| equivalent_emoji[flag] = first_tofu_flag |
| equivalent_emoji.update(EQUIVALENT_FLAGS) |
| equivalent_emoji.update(LEGACY_ANDROID_EMOJI) |
| equivalent_emoji.update(ZWJ_IDENTICALS) |
| for seq in _emoji_variation_sequences: |
| equivalent_emoji[seq] = seq[0] |
| |
| return all_emoji, default_emoji, equivalent_emoji |
| |
| |
| def main(): |
| target_out = sys.argv[1] |
| global _fonts_dir |
| _fonts_dir = path.join(target_out, 'fonts') |
| |
| fonts_xml_path = path.join(target_out, 'etc', 'fonts.xml') |
| parse_fonts_xml(fonts_xml_path) |
| |
| hyphens_dir = path.join(target_out, 'usr', 'hyphen-data') |
| check_hyphens(hyphens_dir) |
| |
| check_emoji = sys.argv[2] |
| if check_emoji == 'true': |
| ucd_path = sys.argv[3] |
| parse_ucd(ucd_path) |
| all_emoji, default_emoji, equivalent_emoji = compute_expected_emoji() |
| check_emoji_coverage(all_emoji, equivalent_emoji) |
| check_emoji_defaults(default_emoji) |
| |
| |
| if __name__ == '__main__': |
| main() |