#!/usr/bin/env python # # Copyright 2016 Google Inc. 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. """Compare emoji image file namings against unicode property data.""" import argparse import collections import glob import os from os import path import re import sys from nototools import unicode_data def _is_regional_indicator(cp): return 0x1f1e6 <= cp <= 0x1f1ff def _is_skintone_modifier(cp): return 0x1f3fb <= cp <= 0x1f3ff def _seq_string(seq): return '_'.join('%04x' % cp for cp in seq) def _check_valid_emoji(sorted_seq_to_filepath): """Ensure all emoji are either valid emoji or specific chars.""" valid_cps = set(unicode_data.get_emoji() | unicode_data.proposed_emoji_cps()) valid_cps.add(0x200d) # ZWJ valid_cps.add(0x20e3) # combining enclosing keycap valid_cps.add(0xfe0f) # variation selector (emoji presentation) valid_cps.add(0xfe82b) # PUA value for unknown flag not_emoji = {} for seq, fp in sorted_seq_to_filepath.iteritems(): for cp in seq: if cp not in valid_cps: if cp not in not_emoji: not_emoji[cp] = [] not_emoji[cp].append(fp) if len(not_emoji): print >> sys.stderr, '%d non-emoji found:' % len(not_emoji) for cp in sorted(not_emoji): print >> sys.stderr, '%04x (in %s)' % (cp, ', '.join(not_emoji[cp])) def _check_zwj(sorted_seq_to_filepath): """Ensure zwj is only between two appropriate emoji.""" ZWJ = 0x200D EMOJI_PRESENTATION_VS = 0xFE0F for seq, fp in sorted_seq_to_filepath.iteritems(): if ZWJ not in seq: continue if seq[0] == 0x200d: print >> sys.stderr, 'zwj at head of sequence in %s' % fp if len(seq) == 1: continue if seq[-1] == 0x200d: print >> sys.stderr, 'zwj at end of sequence in %s' % fp for i, cp in enumerate(seq): if cp == ZWJ: if i > 0: pcp = seq[i-1] if pcp != EMOJI_PRESENTATION_VS and not unicode_data.is_emoji(pcp): print >> sys.stderr, 'non-emoji %04x preceeds ZWJ in %s' % (pcp, fp) if i < len(seq) - 1: fcp = seq[i+1] if not unicode_data.is_emoji(fcp): print >> sys.stderr, 'non-emoji %04x follows ZWJ in %s' % (fcp, fp) def _check_flags(sorted_seq_to_filepath): """Ensure regional indicators are only in sequences of one or two, and never mixed.""" for seq, fp in sorted_seq_to_filepath.iteritems(): have_reg = None for cp in seq: is_reg = _is_regional_indicator(cp) if have_reg == None: have_reg = is_reg elif have_reg != is_reg: print >> sys.stderr, 'mix of regional and non-regional in %s' % fp if have_reg and len(seq) > 2: # We provide dummy glyphs for regional indicators, so there are sequences # with single regional indicator symbols. print >> sys.stderr, 'regional indicator sequence length != 2 in %s' % fp def _check_skintone(sorted_seq_to_filepath): """Ensure skin tone modifiers are not applied to emoji that are not defined to take them. May appear standalone, though. Also check that emoji that take skin tone modifiers have a complete set.""" base_to_modifiers = collections.defaultdict(set) for seq, fp in sorted_seq_to_filepath.iteritems(): for i, cp in enumerate(seq): if _is_skintone_modifier(cp): if i == 0: if len(seq) > 1: print >> sys.stderr, 'skin color selector first in sequence %s' % fp # standalone are ok continue pcp = seq[i-1] if not unicode_data.is_emoji_modifier_base(pcp): print >> sys.stderr, ( 'emoji skintone modifier applied to non-base at %d: %s' % (i, fp)) elif unicode_data.is_emoji_modifier_base(cp): if i < len(seq) - 1 and _is_skintone_modifier(seq[i+1]): base_to_modifiers[cp].add(seq[i+1]) elif cp not in base_to_modifiers: base_to_modifiers[cp] = set() for cp, modifiers in sorted(base_to_modifiers.iteritems()): if len(modifiers) != 5: print 'emoji base %04x has %d modifiers defined (%s) in %s' % ( cp, len(modifiers), ', '.join('%04x' % cp for cp in sorted(modifiers)), fp) def check_sequence_to_filepath(seq_to_filepath): sorted_seq_to_filepath = collections.OrderedDict( sorted(seq_to_filepath.items())) _check_valid_emoji(sorted_seq_to_filepath) _check_zwj(sorted_seq_to_filepath) _check_flags(sorted_seq_to_filepath) _check_skintone(sorted_seq_to_filepath) def create_sequence_to_filepath(name_to_dirpath, prefix, suffix): """Check names, and convert name to sequences for names that are ok, returning a sequence to file path mapping. Reports bad segments of a name to stderr.""" segment_re = re.compile(r'^[0-9a-f]{4,6}$') result = {} for name, dirname in name_to_dirpath.iteritems(): if not name.startswith(prefix): print 'expected prefix "%s" for "%s"' % (prefix, name) continue segments = name[len(prefix): -len(suffix)].split('_') segfail = False seq = [] for s in segments: if not segment_re.match(s): print 'bad codepoint name "%s" in %s/%s' % (s, dirname, name) segfail = True continue n = int(s, 16) if n > 0x10ffff: print 'codepoint "%s" out of range in %s/%s' % (s, dirname, name) segfail = True continue seq.append(n) if not segfail: result[tuple(seq)] = path.join(dirname, name) return result def collect_name_to_dirpath(directory, prefix, suffix): """Return a mapping from filename to path rooted at directory, ignoring files that don't match suffix. Report when a filename appears in more than one subdir; the first path found is kept.""" result = {} for dirname, _, files in os.walk(directory): if directory != '.': dirname = path.join(directory, dirname) for f in files: if not f.endswith(suffix): continue if f in result: print >> sys.stderr, 'duplicate file "%s" in %s and %s ' % ( f, dirname, result[f]) continue result[f] = dirname return result def collect_name_to_dirpath_with_override(dirs, prefix, suffix): """Return a mapping from filename to a directory path rooted at a directory in dirs, using collect_name_to_filepath. The last directory is retained. This does not report an error if a file appears under more than one root directory, so lets later root directories override earlier ones.""" result = {} for d in dirs: result.update(collect_name_to_dirpath(d, prefix, suffix)) return result def run_check(dirs, prefix, suffix): print 'Checking files with prefix "%s" and suffix "%s" in:\n %s' % ( prefix, suffix, '\n '.join(dirs)) name_to_dirpath = collect_name_to_dirpath_with_override( dirs, prefix=prefix, suffix=suffix) print 'checking %d names' % len(name_to_dirpath) seq_to_filepath = create_sequence_to_filepath(name_to_dirpath, prefix, suffix) print 'checking %d sequences' % len(seq_to_filepath) check_sequence_to_filepath(seq_to_filepath) print 'done.' def main(): parser = argparse.ArgumentParser() parser.add_argument( '-d', '--dirs', help='directories containing emoji images', metavar='dir', nargs='+', required=True) parser.add_argument( '-p', '--prefix', help='prefix to match, default "emoji_u"', metavar='pfx', default='emoji_u') parser.add_argument( '-s', '--suffix', help='suffix to match, default ".png"', metavar='sfx', default='.png') args = parser.parse_args() run_check(args.dirs, args.prefix, args.suffix) if __name__ == '__main__': main()