409 lines
13 KiB
Python
409 lines
13 KiB
Python
#!/usr/bin/env python3
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"""Extend a ttx file with additional data.
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Takes a ttx file and one or more directories containing image files named
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after sequences of codepoints, extends the cmap, hmtx, GSUB, and GlyphOrder
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tables in the source ttx file based on these sequences, and writes out a new
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ttx file.
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This can also apply aliases from an alias file."""
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import argparse
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import collections
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import os
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from os import path
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import re
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import sys
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from fontTools import ttx
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from fontTools.ttLib.tables import otTables
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import add_emoji_gsub
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import add_aliases
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sys.path.append(
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path.join(os.path.dirname(__file__), 'third_party', 'color_emoji'))
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from png import PNG
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def get_seq_to_file(image_dir, prefix, suffix):
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"""Return a mapping from codepoint sequences to files in the given directory,
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for files that match the prefix and suffix. File names with this prefix and
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suffix should consist of codepoints in hex separated by underscore. 'fe0f'
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(the codepoint of the emoji presentation variation selector) is stripped from
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the sequence.
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"""
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start = len(prefix)
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limit = -len(suffix)
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seq_to_file = {}
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for name in os.listdir(image_dir):
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if not (name.startswith(prefix) and name.endswith(suffix)):
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continue
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try:
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cps = [int(s, 16) for s in name[start:limit].split('_')]
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seq = tuple(cp for cp in cps if cp != 0xfe0f)
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except:
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raise Exception('could not parse "%s"' % name)
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for cp in cps:
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if not (0 <= cp <= 0x10ffff):
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raise Exception('bad codepoint(s) in "%s"' % name)
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if seq in seq_to_file:
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raise Exception('duplicate sequence for "%s" in %s' % (name, image_dir))
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seq_to_file[seq] = path.join(image_dir, name)
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return seq_to_file
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def collect_seq_to_file(image_dirs, prefix, suffix):
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"""Return a sequence to file mapping by calling get_seq_to_file on a list
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of directories. When sequences for files in later directories match those
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from earlier directories, the later file replaces the earlier one.
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"""
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seq_to_file = {}
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for image_dir in image_dirs:
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seq_to_file.update(get_seq_to_file(image_dir, prefix, suffix))
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return seq_to_file
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def remap_values(seq_to_file, map_fn):
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return {k: map_fn(v) for k, v in seq_to_file.items()}
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def get_png_file_to_advance_mapper(lineheight):
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def map_fn(filename):
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wid, ht = PNG(filename).get_size()
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return int(round(float(lineheight) * wid / ht))
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return map_fn
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def cp_name(cp):
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"""return uniXXXX or uXXXXX(X) as a name for the glyph mapped to this cp."""
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return '%s%04X' % ('u' if cp > 0xffff else 'uni', cp)
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def seq_name(seq):
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"""Sequences of length one get the cp_name. Others start with 'u' followed by
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two or more 4-to-6-digit hex strings separated by underscore."""
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if len(seq) == 1:
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return cp_name(seq[0])
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return 'u' + '_'.join('%04X' % cp for cp in seq)
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def collect_cps(seqs):
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cps = set()
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for seq in seqs:
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cps.update(seq)
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return cps
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def get_glyphorder_cps_and_truncate(glyphOrder):
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"""This scans glyphOrder for names that correspond to a single codepoint
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using the 'u(ni)XXXXXX' syntax. All names that don't match are moved
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to the front the glyphOrder list in their original order, and the
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list is truncated. The ones that do match are returned as a set of
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codepoints."""
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glyph_name_re = re.compile(r'^u(?:ni)?([0-9a-fA-F]{4,6})$')
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cps = set()
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write_ix = 0
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for ix, name in enumerate(glyphOrder):
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m = glyph_name_re.match(name)
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if m:
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cps.add(int(m.group(1), 16))
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else:
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glyphOrder[write_ix] = name
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write_ix += 1
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del glyphOrder[write_ix:]
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return cps
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def get_all_seqs(font, seq_to_advance):
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"""Copies the sequences from seq_to_advance and extends it with single-
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codepoint sequences from the GlyphOrder table as well as those internal
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to sequences in seq_to_advance. Reduces the GlyphOrder table. """
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all_seqs = set(seq_to_advance.keys())
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# using collect_cps includes cps internal to a seq
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cps = collect_cps(all_seqs)
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glyphOrder = font.getGlyphOrder()
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# extract cps in glyphOrder and reduce glyphOrder to only those that remain
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glyphOrder_cps = get_glyphorder_cps_and_truncate(glyphOrder)
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cps.update(glyphOrder_cps)
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# add new single codepoint sequences from glyphOrder and sequences
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all_seqs.update((cp,) for cp in cps)
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return all_seqs
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def get_font_cmap(font):
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"""Return the first cmap in the font, we assume it exists and is a unicode
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cmap."""
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return font['cmap'].tables[0].cmap
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def add_glyph_data(font, seqs, seq_to_advance, vadvance):
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"""Add hmtx and GlyphOrder data for all sequences in seqs, and ensures there's
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a cmap entry for each single-codepoint sequence. Seqs not in seq_to_advance
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will get a zero advance."""
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# We allow the template cmap to omit mappings for single-codepoint glyphs
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# defined in the template's GlyphOrder table. Similarly, the hmtx table can
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# omit advances. We assume glyphs named 'uniXXXX' or 'uXXXXX(X)' in the
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# GlyphOrder table correspond to codepoints based on the name; we don't
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# attempt to handle other types of names and these must occur in the cmap and
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# hmtx tables in the template.
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#
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# seq_to_advance maps sequences (including single codepoints) to advances.
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# All codepoints in these sequences will be added to the cmap. Some cps
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# in these sequences have no corresponding single-codepoint sequence, they
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# will also get added.
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#
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# The added codepoints have no advance information, so will get a zero
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# advance.
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cmap = get_font_cmap(font)
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hmtx = font['hmtx'].metrics
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vmtx = font['vmtx'].metrics
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# We don't expect sequences to be in the glyphOrder, since we removed all the
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# single-cp sequences from it and don't expect it to already contain names
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# corresponding to multiple-cp sequencess. But just in case, we use
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# reverseGlyphMap to avoid duplicating names accidentally.
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updatedGlyphOrder = False
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reverseGlyphMap = font.getReverseGlyphMap()
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# Order the glyphs by grouping all the single-codepoint sequences first,
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# then order by sequence so that related sequences are together. We group
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# by single-codepoint sequence first in order to keep these glyphs together--
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# they're used in the coverage tables for some of the substitutions, and
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# those tables can be more compact this way.
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for seq in sorted(seqs, key=lambda s: (0 if len(s) == 1 else 1, s)):
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name = seq_name(seq)
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if len(seq) == 1:
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cmap[seq[0]] = name
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advance = seq_to_advance.get(seq, 0)
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hmtx[name] = [advance, 0]
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vmtx[name] = [vadvance, 0]
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if name not in reverseGlyphMap:
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font.glyphOrder.append(name)
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updatedGlyphOrder=True
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if updatedGlyphOrder:
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delattr(font, '_reverseGlyphOrderDict')
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def add_aliases_to_cmap(font, aliases):
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"""Some aliases might map a single codepoint to some other sequence. These
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should map directly to the glyph for that sequence in the cmap. (Others will
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map via GSUB).
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"""
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if not aliases:
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return
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cp_aliases = [seq for seq in aliases if len(seq) == 1]
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if not cp_aliases:
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return
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cmap = get_font_cmap(font)
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for src_seq in cp_aliases:
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cp = src_seq[0]
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name = seq_name(aliases[src_seq])
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cmap[cp] = name
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def get_rtl_seq(seq):
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"""Return the rtl variant of the sequence, if it has one, else the empty
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sequence.
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"""
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# Sequences with ZWJ in them will reflect. Fitzpatrick modifiers
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# however do not, so if we reflect we make a pass to swap them back into their
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# logical order.
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# Used to check for TAG_END 0xe007f as well but Android fontchain_lint
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# dislikes the resulting mangling of flags for England, Scotland, Wales.
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ZWJ = 0x200d
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def is_fitzpatrick(cp):
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return 0x1f3fb <= cp <= 0x1f3ff
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if ZWJ not in seq:
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return ()
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rev_seq = list(seq)
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rev_seq.reverse()
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for i in range(1, len(rev_seq)):
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if is_fitzpatrick(rev_seq[i-1]):
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tmp = rev_seq[i]
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rev_seq[i] = rev_seq[i-1]
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rev_seq[i-1] = tmp
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return tuple(rev_seq)
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def get_gsub_ligature_lookup(font):
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"""If the font does not have a GSUB table, create one with a ligature
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substitution lookup. If it does, ensure the first lookup is a properly
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initialized ligature substitution lookup. Return the lookup."""
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# The template might include more lookups after lookup 0, if it has a
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# GSUB table.
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if 'GSUB' not in font:
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ligature_subst = otTables.LigatureSubst()
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ligature_subst.ligatures = {}
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lookup = otTables.Lookup()
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lookup.LookupType = 4
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lookup.LookupFlag = 0
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lookup.SubTableCount = 1
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lookup.SubTable = [ligature_subst]
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font['GSUB'] = add_emoji_gsub.create_simple_gsub([lookup])
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else:
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lookup = font['GSUB'].table.LookupList.Lookup[0]
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assert lookup.LookupFlag == 0
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# importXML doesn't fully init GSUB structures, so help it out
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st = lookup.SubTable[0]
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if not hasattr(lookup, 'LookupType'):
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assert st.LookupType == 4
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setattr(lookup, 'LookupType', 4)
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if not hasattr(st, 'ligatures'):
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setattr(st, 'ligatures', {})
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return lookup
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def add_ligature_sequences(font, seqs, aliases):
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"""Add ligature sequences."""
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seq_to_target_name = {
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seq: seq_name(seq) for seq in seqs if len(seq) > 1}
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if aliases:
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seq_to_target_name.update({
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seq: seq_name(aliases[seq]) for seq in aliases if len(seq) > 1})
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if not seq_to_target_name:
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return
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rtl_seq_to_target_name = {
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get_rtl_seq(seq): name for seq, name in seq_to_target_name.items()}
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seq_to_target_name.update(rtl_seq_to_target_name)
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# sequences that don't have rtl variants get mapped to the empty sequence,
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# delete it.
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if () in seq_to_target_name:
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del seq_to_target_name[()]
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# organize by first codepoint in sequence
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keyed_ligatures = collections.defaultdict(list)
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for t in seq_to_target_name.items():
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first_cp = t[0][0]
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keyed_ligatures[first_cp].append(t)
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def add_ligature(lookup, cmap, seq, name):
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# The sequences consist of codepoints, but the entries in the ligature table
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# are glyph names. Aliasing can give single codepoints names based on
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# sequences (e.g. 'guardsman' with 'male guardsman') so we map the
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# codepoints through the cmap to get the glyph names.
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glyph_names = [cmap[cp] for cp in seq]
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lig = otTables.Ligature()
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lig.CompCount = len(seq)
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lig.Component = glyph_names[1:]
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lig.LigGlyph = name
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ligatures = lookup.SubTable[0].ligatures
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first_name = glyph_names[0]
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try:
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ligatures[first_name].append(lig)
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except KeyError:
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ligatures[first_name] = [lig]
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lookup = get_gsub_ligature_lookup(font)
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cmap = get_font_cmap(font)
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for first_cp in sorted(keyed_ligatures):
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pairs = keyed_ligatures[first_cp]
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# Sort longest first, this ensures longer sequences with common prefixes
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# are handled before shorter ones. The secondary sort is a standard
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# sort on the codepoints in the sequence.
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pairs.sort(key = lambda pair: (-len(pair[0]), pair[0]))
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for seq, name in pairs:
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add_ligature(lookup, cmap, seq, name)
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def update_font_data(font, seq_to_advance, vadvance, aliases):
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"""Update the font's cmap, hmtx, GSUB, and GlyphOrder tables."""
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seqs = get_all_seqs(font, seq_to_advance)
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add_glyph_data(font, seqs, seq_to_advance, vadvance)
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add_aliases_to_cmap(font, aliases)
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add_ligature_sequences(font, seqs, aliases)
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def apply_aliases(seq_dict, aliases):
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"""Aliases is a mapping from sequence to replacement sequence. We can use
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an alias if the target is a key in the dictionary. Furthermore, if the
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source is a key in the dictionary, we can delete it. This updates the
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dictionary and returns the usable aliases."""
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usable_aliases = {}
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for k, v in aliases.items():
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if v in seq_dict:
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usable_aliases[k] = v
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if k in seq_dict:
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del seq_dict[k]
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return usable_aliases
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def update_ttx(in_file, out_file, image_dirs, prefix, ext, aliases_file):
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if ext != '.png':
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raise Exception('extension "%s" not supported' % ext)
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seq_to_file = collect_seq_to_file(image_dirs, prefix, ext)
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if not seq_to_file:
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raise ValueError(
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'no sequences with prefix "%s" and extension "%s" in %s' % (
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prefix, ext, ', '.join(image_dirs)))
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aliases = None
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if aliases_file:
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aliases = add_aliases.read_emoji_aliases(aliases_file)
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aliases = apply_aliases(seq_to_file, aliases)
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font = ttx.TTFont()
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font.importXML(in_file)
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lineheight = font['hhea'].ascent - font['hhea'].descent
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map_fn = get_png_file_to_advance_mapper(lineheight)
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seq_to_advance = remap_values(seq_to_file, map_fn)
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vadvance = font['vhea'].advanceHeightMax if 'vhea' in font else lineheight
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update_font_data(font, seq_to_advance, vadvance, aliases)
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font.saveXML(out_file)
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def main():
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parser = argparse.ArgumentParser()
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parser.add_argument(
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'-f', '--in_file', help='ttx input file', metavar='file', required=True)
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parser.add_argument(
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'-o', '--out_file', help='ttx output file', metavar='file', required=True)
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parser.add_argument(
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'-d', '--image_dirs', help='directories containing image files',
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nargs='+', metavar='dir', required=True)
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parser.add_argument(
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'-p', '--prefix', help='file prefix (default "emoji_u")',
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metavar='pfx', default='emoji_u')
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parser.add_argument(
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'-e', '--ext', help='file extension (default ".png", currently only '
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'".png" is supported', metavar='ext', default='.png')
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parser.add_argument(
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'-a', '--aliases', help='process alias table', const='emoji_aliases.txt',
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nargs='?', metavar='file')
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args = parser.parse_args()
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update_ttx(
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args.in_file, args.out_file, args.image_dirs, args.prefix, args.ext,
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args.aliases)
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if __name__ == '__main__':
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main()
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