""" Merge OpenType Layout tables (GDEF / GPOS / GSUB). """ import os import copy import enum from operator import ior import logging from fontTools.colorLib.builder import MAX_PAINT_COLR_LAYER_COUNT, LayerReuseCache from fontTools.misc import classifyTools from fontTools.misc.roundTools import otRound from fontTools.misc.treeTools import build_n_ary_tree from fontTools.ttLib.tables import otTables as ot from fontTools.ttLib.tables import otBase as otBase from fontTools.ttLib.tables.otConverters import BaseFixedValue from fontTools.ttLib.tables.otTraverse import dfs_base_table from fontTools.ttLib.tables.DefaultTable import DefaultTable from fontTools.varLib import builder, models, varStore from fontTools.varLib.models import nonNone, allNone, allEqual, allEqualTo, subList from fontTools.varLib.varStore import VarStoreInstancer from functools import reduce from fontTools.otlLib.builder import buildSinglePos from fontTools.otlLib.optimize.gpos import ( _compression_level_from_env, compact_pair_pos, ) log = logging.getLogger("fontTools.varLib.merger") from .errors import ( ShouldBeConstant, FoundANone, MismatchedTypes, NotANone, LengthsDiffer, KeysDiffer, InconsistentGlyphOrder, InconsistentExtensions, InconsistentFormats, UnsupportedFormat, VarLibMergeError, ) class Merger(object): def __init__(self, font=None): self.font = font # mergeTables populates this from the parent's master ttfs self.ttfs = None @classmethod def merger(celf, clazzes, attrs=(None,)): assert celf != Merger, 'Subclass Merger instead.' if 'mergers' not in celf.__dict__: celf.mergers = {} if type(clazzes) in (type, enum.EnumMeta): clazzes = (clazzes,) if type(attrs) == str: attrs = (attrs,) def wrapper(method): assert method.__name__ == 'merge' done = [] for clazz in clazzes: if clazz in done: continue # Support multiple names of a clazz done.append(clazz) mergers = celf.mergers.setdefault(clazz, {}) for attr in attrs: assert attr not in mergers, \ "Oops, class '%s' has merge function for '%s' defined already." % (clazz.__name__, attr) mergers[attr] = method return None return wrapper @classmethod def mergersFor(celf, thing, _default={}): typ = type(thing) for celf in celf.mro(): mergers = getattr(celf, 'mergers', None) if mergers is None: break; m = celf.mergers.get(typ, None) if m is not None: return m return _default def mergeObjects(self, out, lst, exclude=()): if hasattr(out, "ensureDecompiled"): out.ensureDecompiled(recurse=False) for item in lst: if hasattr(item, "ensureDecompiled"): item.ensureDecompiled(recurse=False) keys = sorted(vars(out).keys()) if not all(keys == sorted(vars(v).keys()) for v in lst): raise KeysDiffer(self, expected=keys, got=[sorted(vars(v).keys()) for v in lst] ) mergers = self.mergersFor(out) defaultMerger = mergers.get('*', self.__class__.mergeThings) try: for key in keys: if key in exclude: continue value = getattr(out, key) values = [getattr(table, key) for table in lst] mergerFunc = mergers.get(key, defaultMerger) mergerFunc(self, value, values) except VarLibMergeError as e: e.stack.append('.'+key) raise def mergeLists(self, out, lst): if not allEqualTo(out, lst, len): raise LengthsDiffer(self, expected=len(out), got=[len(x) for x in lst]) for i,(value,values) in enumerate(zip(out, zip(*lst))): try: self.mergeThings(value, values) except VarLibMergeError as e: e.stack.append('[%d]' % i) raise def mergeThings(self, out, lst): if not allEqualTo(out, lst, type): raise MismatchedTypes(self, expected=type(out).__name__, got=[type(x).__name__ for x in lst] ) mergerFunc = self.mergersFor(out).get(None, None) if mergerFunc is not None: mergerFunc(self, out, lst) elif isinstance(out, enum.Enum): # need to special-case Enums as have __dict__ but are not regular 'objects', # otherwise mergeObjects/mergeThings get trapped in a RecursionError if not allEqualTo(out, lst): raise ShouldBeConstant(self, expected=out, got=lst) elif hasattr(out, '__dict__'): self.mergeObjects(out, lst) elif isinstance(out, list): self.mergeLists(out, lst) else: if not allEqualTo(out, lst): raise ShouldBeConstant(self, expected=out, got=lst) def mergeTables(self, font, master_ttfs, tableTags): for tag in tableTags: if tag not in font: continue try: self.ttfs = master_ttfs self.mergeThings(font[tag], [m.get(tag) for m in master_ttfs]) except VarLibMergeError as e: e.stack.append(tag) raise # # Aligning merger # class AligningMerger(Merger): pass @AligningMerger.merger(ot.GDEF, "GlyphClassDef") def merge(merger, self, lst): if self is None: if not allNone(lst): raise NotANone(merger, expected=None, got=lst) return lst = [l.classDefs for l in lst] self.classDefs = {} # We only care about the .classDefs self = self.classDefs allKeys = set() allKeys.update(*[l.keys() for l in lst]) for k in allKeys: allValues = nonNone(l.get(k) for l in lst) if not allEqual(allValues): raise ShouldBeConstant(merger, expected=allValues[0], got=lst, stack=["." + k]) if not allValues: self[k] = None else: self[k] = allValues[0] def _SinglePosUpgradeToFormat2(self): if self.Format == 2: return self ret = ot.SinglePos() ret.Format = 2 ret.Coverage = self.Coverage ret.ValueFormat = self.ValueFormat ret.Value = [self.Value for _ in ret.Coverage.glyphs] ret.ValueCount = len(ret.Value) return ret def _merge_GlyphOrders(font, lst, values_lst=None, default=None): """Takes font and list of glyph lists (must be sorted by glyph id), and returns two things: - Combined glyph list, - If values_lst is None, return input glyph lists, but padded with None when a glyph was missing in a list. Otherwise, return values_lst list-of-list, padded with None to match combined glyph lists. """ if values_lst is None: dict_sets = [set(l) for l in lst] else: dict_sets = [{g:v for g,v in zip(l,vs)} for l,vs in zip(lst,values_lst)] combined = set() combined.update(*dict_sets) sortKey = font.getReverseGlyphMap().__getitem__ order = sorted(combined, key=sortKey) # Make sure all input glyphsets were in proper order if not all(sorted(vs, key=sortKey) == vs for vs in lst): raise InconsistentGlyphOrder() del combined paddedValues = None if values_lst is None: padded = [[glyph if glyph in dict_set else default for glyph in order] for dict_set in dict_sets] else: assert len(lst) == len(values_lst) padded = [[dict_set[glyph] if glyph in dict_set else default for glyph in order] for dict_set in dict_sets] return order, padded @AligningMerger.merger(otBase.ValueRecord) def merge(merger, self, lst): # Code below sometimes calls us with self being # a new object. Copy it from lst and recurse. self.__dict__ = lst[0].__dict__.copy() merger.mergeObjects(self, lst) @AligningMerger.merger(ot.Anchor) def merge(merger, self, lst): # Code below sometimes calls us with self being # a new object. Copy it from lst and recurse. self.__dict__ = lst[0].__dict__.copy() merger.mergeObjects(self, lst) def _Lookup_SinglePos_get_effective_value(merger, subtables, glyph): for self in subtables: if self is None or \ type(self) != ot.SinglePos or \ self.Coverage is None or \ glyph not in self.Coverage.glyphs: continue if self.Format == 1: return self.Value elif self.Format == 2: return self.Value[self.Coverage.glyphs.index(glyph)] else: raise UnsupportedFormat(merger, subtable="single positioning lookup") return None def _Lookup_PairPos_get_effective_value_pair(merger, subtables, firstGlyph, secondGlyph): for self in subtables: if self is None or \ type(self) != ot.PairPos or \ self.Coverage is None or \ firstGlyph not in self.Coverage.glyphs: continue if self.Format == 1: ps = self.PairSet[self.Coverage.glyphs.index(firstGlyph)] pvr = ps.PairValueRecord for rec in pvr: # TODO Speed up if rec.SecondGlyph == secondGlyph: return rec continue elif self.Format == 2: klass1 = self.ClassDef1.classDefs.get(firstGlyph, 0) klass2 = self.ClassDef2.classDefs.get(secondGlyph, 0) return self.Class1Record[klass1].Class2Record[klass2] else: raise UnsupportedFormat(merger, subtable="pair positioning lookup") return None @AligningMerger.merger(ot.SinglePos) def merge(merger, self, lst): self.ValueFormat = valueFormat = reduce(int.__or__, [l.ValueFormat for l in lst], 0) if not (len(lst) == 1 or (valueFormat & ~0xF == 0)): raise UnsupportedFormat(merger, subtable="single positioning lookup") # If all have same coverage table and all are format 1, coverageGlyphs = self.Coverage.glyphs if all(v.Format == 1 for v in lst) and all(coverageGlyphs == v.Coverage.glyphs for v in lst): self.Value = otBase.ValueRecord(valueFormat, self.Value) if valueFormat != 0: merger.mergeThings(self.Value, [v.Value for v in lst]) self.ValueFormat = self.Value.getFormat() return # Upgrade everything to Format=2 self.Format = 2 lst = [_SinglePosUpgradeToFormat2(v) for v in lst] # Align them glyphs, padded = _merge_GlyphOrders(merger.font, [v.Coverage.glyphs for v in lst], [v.Value for v in lst]) self.Coverage.glyphs = glyphs self.Value = [otBase.ValueRecord(valueFormat) for _ in glyphs] self.ValueCount = len(self.Value) for i,values in enumerate(padded): for j,glyph in enumerate(glyphs): if values[j] is not None: continue # Fill in value from other subtables # Note!!! This *might* result in behavior change if ValueFormat2-zeroedness # is different between used subtable and current subtable! # TODO(behdad) Check and warn if that happens? v = _Lookup_SinglePos_get_effective_value(merger, merger.lookup_subtables[i], glyph) if v is None: v = otBase.ValueRecord(valueFormat) values[j] = v merger.mergeLists(self.Value, padded) # Merge everything else; though, there shouldn't be anything else. :) merger.mergeObjects(self, lst, exclude=('Format', 'Coverage', 'Value', 'ValueCount', 'ValueFormat')) self.ValueFormat = reduce(int.__or__, [v.getEffectiveFormat() for v in self.Value], 0) @AligningMerger.merger(ot.PairSet) def merge(merger, self, lst): # Align them glyphs, padded = _merge_GlyphOrders(merger.font, [[v.SecondGlyph for v in vs.PairValueRecord] for vs in lst], [vs.PairValueRecord for vs in lst]) self.PairValueRecord = pvrs = [] for glyph in glyphs: pvr = ot.PairValueRecord() pvr.SecondGlyph = glyph pvr.Value1 = otBase.ValueRecord(merger.valueFormat1) if merger.valueFormat1 else None pvr.Value2 = otBase.ValueRecord(merger.valueFormat2) if merger.valueFormat2 else None pvrs.append(pvr) self.PairValueCount = len(self.PairValueRecord) for i,values in enumerate(padded): for j,glyph in enumerate(glyphs): # Fill in value from other subtables v = ot.PairValueRecord() v.SecondGlyph = glyph if values[j] is not None: vpair = values[j] else: vpair = _Lookup_PairPos_get_effective_value_pair( merger, merger.lookup_subtables[i], self._firstGlyph, glyph ) if vpair is None: v1, v2 = None, None else: v1 = getattr(vpair, "Value1", None) v2 = getattr(vpair, "Value2", None) v.Value1 = otBase.ValueRecord(merger.valueFormat1, src=v1) if merger.valueFormat1 else None v.Value2 = otBase.ValueRecord(merger.valueFormat2, src=v2) if merger.valueFormat2 else None values[j] = v del self._firstGlyph merger.mergeLists(self.PairValueRecord, padded) def _PairPosFormat1_merge(self, lst, merger): assert allEqual([l.ValueFormat2 == 0 for l in lst if l.PairSet]), "Report bug against fonttools." # Merge everything else; makes sure Format is the same. merger.mergeObjects(self, lst, exclude=('Coverage', 'PairSet', 'PairSetCount', 'ValueFormat1', 'ValueFormat2')) empty = ot.PairSet() empty.PairValueRecord = [] empty.PairValueCount = 0 # Align them glyphs, padded = _merge_GlyphOrders(merger.font, [v.Coverage.glyphs for v in lst], [v.PairSet for v in lst], default=empty) self.Coverage.glyphs = glyphs self.PairSet = [ot.PairSet() for _ in glyphs] self.PairSetCount = len(self.PairSet) for glyph, ps in zip(glyphs, self.PairSet): ps._firstGlyph = glyph merger.mergeLists(self.PairSet, padded) def _ClassDef_invert(self, allGlyphs=None): if isinstance(self, dict): classDefs = self else: classDefs = self.classDefs if self and self.classDefs else {} m = max(classDefs.values()) if classDefs else 0 ret = [] for _ in range(m + 1): ret.append(set()) for k,v in classDefs.items(): ret[v].add(k) # Class-0 is special. It's "everything else". if allGlyphs is None: ret[0] = None else: # Limit all classes to glyphs in allGlyphs. # Collect anything without a non-zero class into class=zero. ret[0] = class0 = set(allGlyphs) for s in ret[1:]: s.intersection_update(class0) class0.difference_update(s) return ret def _ClassDef_merge_classify(lst, allGlyphses=None): self = ot.ClassDef() self.classDefs = classDefs = {} allGlyphsesWasNone = allGlyphses is None if allGlyphsesWasNone: allGlyphses = [None] * len(lst) classifier = classifyTools.Classifier() for classDef,allGlyphs in zip(lst, allGlyphses): sets = _ClassDef_invert(classDef, allGlyphs) if allGlyphs is None: sets = sets[1:] classifier.update(sets) classes = classifier.getClasses() if allGlyphsesWasNone: classes.insert(0, set()) for i,classSet in enumerate(classes): if i == 0: continue for g in classSet: classDefs[g] = i return self, classes def _PairPosFormat2_align_matrices(self, lst, font, transparent=False): matrices = [l.Class1Record for l in lst] # Align first classes self.ClassDef1, classes = _ClassDef_merge_classify([l.ClassDef1 for l in lst], [l.Coverage.glyphs for l in lst]) self.Class1Count = len(classes) new_matrices = [] for l,matrix in zip(lst, matrices): nullRow = None coverage = set(l.Coverage.glyphs) classDef1 = l.ClassDef1.classDefs class1Records = [] for classSet in classes: exemplarGlyph = next(iter(classSet)) if exemplarGlyph not in coverage: # Follow-up to e6125b353e1f54a0280ded5434b8e40d042de69f, # Fixes https://github.com/googlei18n/fontmake/issues/470 # Again, revert 8d441779e5afc664960d848f62c7acdbfc71d7b9 # when merger becomes selfless. nullRow = None if nullRow is None: nullRow = ot.Class1Record() class2records = nullRow.Class2Record = [] # TODO: When merger becomes selfless, revert e6125b353e1f54a0280ded5434b8e40d042de69f for _ in range(l.Class2Count): if transparent: rec2 = None else: rec2 = ot.Class2Record() rec2.Value1 = otBase.ValueRecord(self.ValueFormat1) if self.ValueFormat1 else None rec2.Value2 = otBase.ValueRecord(self.ValueFormat2) if self.ValueFormat2 else None class2records.append(rec2) rec1 = nullRow else: klass = classDef1.get(exemplarGlyph, 0) rec1 = matrix[klass] # TODO handle out-of-range? class1Records.append(rec1) new_matrices.append(class1Records) matrices = new_matrices del new_matrices # Align second classes self.ClassDef2, classes = _ClassDef_merge_classify([l.ClassDef2 for l in lst]) self.Class2Count = len(classes) new_matrices = [] for l,matrix in zip(lst, matrices): classDef2 = l.ClassDef2.classDefs class1Records = [] for rec1old in matrix: oldClass2Records = rec1old.Class2Record rec1new = ot.Class1Record() class2Records = rec1new.Class2Record = [] for classSet in classes: if not classSet: # class=0 rec2 = oldClass2Records[0] else: exemplarGlyph = next(iter(classSet)) klass = classDef2.get(exemplarGlyph, 0) rec2 = oldClass2Records[klass] class2Records.append(copy.deepcopy(rec2)) class1Records.append(rec1new) new_matrices.append(class1Records) matrices = new_matrices del new_matrices return matrices def _PairPosFormat2_merge(self, lst, merger): assert allEqual([l.ValueFormat2 == 0 for l in lst if l.Class1Record]), "Report bug against fonttools." merger.mergeObjects(self, lst, exclude=('Coverage', 'ClassDef1', 'Class1Count', 'ClassDef2', 'Class2Count', 'Class1Record', 'ValueFormat1', 'ValueFormat2')) # Align coverages glyphs, _ = _merge_GlyphOrders(merger.font, [v.Coverage.glyphs for v in lst]) self.Coverage.glyphs = glyphs # Currently, if the coverage of PairPosFormat2 subtables are different, # we do NOT bother walking down the subtable list when filling in new # rows for alignment. As such, this is only correct if current subtable # is the last subtable in the lookup. Ensure that. # # Note that our canonicalization process merges trailing PairPosFormat2's, # so in reality this is rare. for l,subtables in zip(lst,merger.lookup_subtables): if l.Coverage.glyphs != glyphs: assert l == subtables[-1] matrices = _PairPosFormat2_align_matrices(self, lst, merger.font) self.Class1Record = list(matrices[0]) # TODO move merger to be selfless merger.mergeLists(self.Class1Record, matrices) @AligningMerger.merger(ot.PairPos) def merge(merger, self, lst): merger.valueFormat1 = self.ValueFormat1 = reduce(int.__or__, [l.ValueFormat1 for l in lst], 0) merger.valueFormat2 = self.ValueFormat2 = reduce(int.__or__, [l.ValueFormat2 for l in lst], 0) if self.Format == 1: _PairPosFormat1_merge(self, lst, merger) elif self.Format == 2: _PairPosFormat2_merge(self, lst, merger) else: raise UnsupportedFormat(merger, subtable="pair positioning lookup") del merger.valueFormat1, merger.valueFormat2 # Now examine the list of value records, and update to the union of format values, # as merge might have created new values. vf1 = 0 vf2 = 0 if self.Format == 1: for pairSet in self.PairSet: for pairValueRecord in pairSet.PairValueRecord: pv1 = getattr(pairValueRecord, "Value1", None) if pv1 is not None: vf1 |= pv1.getFormat() pv2 = getattr(pairValueRecord, "Value2", None) if pv2 is not None: vf2 |= pv2.getFormat() elif self.Format == 2: for class1Record in self.Class1Record: for class2Record in class1Record.Class2Record: pv1 = getattr(class2Record, "Value1", None) if pv1 is not None: vf1 |= pv1.getFormat() pv2 = getattr(class2Record, "Value2", None) if pv2 is not None: vf2 |= pv2.getFormat() self.ValueFormat1 = vf1 self.ValueFormat2 = vf2 def _MarkBasePosFormat1_merge(self, lst, merger, Mark='Mark', Base='Base'): self.ClassCount = max(l.ClassCount for l in lst) MarkCoverageGlyphs, MarkRecords = \ _merge_GlyphOrders(merger.font, [getattr(l, Mark+'Coverage').glyphs for l in lst], [getattr(l, Mark+'Array').MarkRecord for l in lst]) getattr(self, Mark+'Coverage').glyphs = MarkCoverageGlyphs BaseCoverageGlyphs, BaseRecords = \ _merge_GlyphOrders(merger.font, [getattr(l, Base+'Coverage').glyphs for l in lst], [getattr(getattr(l, Base+'Array'), Base+'Record') for l in lst]) getattr(self, Base+'Coverage').glyphs = BaseCoverageGlyphs # MarkArray records = [] for g,glyphRecords in zip(MarkCoverageGlyphs, zip(*MarkRecords)): allClasses = [r.Class for r in glyphRecords if r is not None] # TODO Right now we require that all marks have same class in # all masters that cover them. This is not required. # # We can relax that by just requiring that all marks that have # the same class in a master, have the same class in every other # master. Indeed, if, say, a sparse master only covers one mark, # that mark probably will get class 0, which would possibly be # different from its class in other masters. # # We can even go further and reclassify marks to support any # input. But, since, it's unlikely that two marks being both, # say, "top" in one master, and one being "top" and other being # "top-right" in another master, we shouldn't do that, as any # failures in that case will probably signify mistakes in the # input masters. if not allEqual(allClasses): raise ShouldBeConstant(merger, expected=allClasses[0], got=allClasses) else: rec = ot.MarkRecord() rec.Class = allClasses[0] allAnchors = [None if r is None else r.MarkAnchor for r in glyphRecords] if allNone(allAnchors): anchor = None else: anchor = ot.Anchor() anchor.Format = 1 merger.mergeThings(anchor, allAnchors) rec.MarkAnchor = anchor records.append(rec) array = ot.MarkArray() array.MarkRecord = records array.MarkCount = len(records) setattr(self, Mark+"Array", array) # BaseArray records = [] for g,glyphRecords in zip(BaseCoverageGlyphs, zip(*BaseRecords)): if allNone(glyphRecords): rec = None else: rec = getattr(ot, Base+'Record')() anchors = [] setattr(rec, Base+'Anchor', anchors) glyphAnchors = [[] if r is None else getattr(r, Base+'Anchor') for r in glyphRecords] for l in glyphAnchors: l.extend([None] * (self.ClassCount - len(l))) for allAnchors in zip(*glyphAnchors): if allNone(allAnchors): anchor = None else: anchor = ot.Anchor() anchor.Format = 1 merger.mergeThings(anchor, allAnchors) anchors.append(anchor) records.append(rec) array = getattr(ot, Base+'Array')() setattr(array, Base+'Record', records) setattr(array, Base+'Count', len(records)) setattr(self, Base+'Array', array) @AligningMerger.merger(ot.MarkBasePos) def merge(merger, self, lst): if not allEqualTo(self.Format, (l.Format for l in lst)): raise InconsistentFormats( merger, subtable="mark-to-base positioning lookup", expected=self.Format, got=[l.Format for l in lst] ) if self.Format == 1: _MarkBasePosFormat1_merge(self, lst, merger) else: raise UnsupportedFormat(merger, subtable="mark-to-base positioning lookup") @AligningMerger.merger(ot.MarkMarkPos) def merge(merger, self, lst): if not allEqualTo(self.Format, (l.Format for l in lst)): raise InconsistentFormats( merger, subtable="mark-to-mark positioning lookup", expected=self.Format, got=[l.Format for l in lst] ) if self.Format == 1: _MarkBasePosFormat1_merge(self, lst, merger, 'Mark1', 'Mark2') else: raise UnsupportedFormat(merger, subtable="mark-to-mark positioning lookup") def _PairSet_flatten(lst, font): self = ot.PairSet() self.Coverage = ot.Coverage() # Align them glyphs, padded = _merge_GlyphOrders(font, [[v.SecondGlyph for v in vs.PairValueRecord] for vs in lst], [vs.PairValueRecord for vs in lst]) self.Coverage.glyphs = glyphs self.PairValueRecord = pvrs = [] for values in zip(*padded): for v in values: if v is not None: pvrs.append(v) break else: assert False self.PairValueCount = len(self.PairValueRecord) return self def _Lookup_PairPosFormat1_subtables_flatten(lst, font): assert allEqual([l.ValueFormat2 == 0 for l in lst if l.PairSet]), "Report bug against fonttools." self = ot.PairPos() self.Format = 1 self.Coverage = ot.Coverage() self.ValueFormat1 = reduce(int.__or__, [l.ValueFormat1 for l in lst], 0) self.ValueFormat2 = reduce(int.__or__, [l.ValueFormat2 for l in lst], 0) # Align them glyphs, padded = _merge_GlyphOrders(font, [v.Coverage.glyphs for v in lst], [v.PairSet for v in lst]) self.Coverage.glyphs = glyphs self.PairSet = [_PairSet_flatten([v for v in values if v is not None], font) for values in zip(*padded)] self.PairSetCount = len(self.PairSet) return self def _Lookup_PairPosFormat2_subtables_flatten(lst, font): assert allEqual([l.ValueFormat2 == 0 for l in lst if l.Class1Record]), "Report bug against fonttools." self = ot.PairPos() self.Format = 2 self.Coverage = ot.Coverage() self.ValueFormat1 = reduce(int.__or__, [l.ValueFormat1 for l in lst], 0) self.ValueFormat2 = reduce(int.__or__, [l.ValueFormat2 for l in lst], 0) # Align them glyphs, _ = _merge_GlyphOrders(font, [v.Coverage.glyphs for v in lst]) self.Coverage.glyphs = glyphs matrices = _PairPosFormat2_align_matrices(self, lst, font, transparent=True) matrix = self.Class1Record = [] for rows in zip(*matrices): row = ot.Class1Record() matrix.append(row) row.Class2Record = [] row = row.Class2Record for cols in zip(*list(r.Class2Record for r in rows)): col = next(iter(c for c in cols if c is not None)) row.append(col) return self def _Lookup_PairPos_subtables_canonicalize(lst, font): """Merge multiple Format1 subtables at the beginning of lst, and merge multiple consecutive Format2 subtables that have the same Class2 (ie. were split because of offset overflows). Returns new list.""" lst = list(lst) l = len(lst) i = 0 while i < l and lst[i].Format == 1: i += 1 lst[:i] = [_Lookup_PairPosFormat1_subtables_flatten(lst[:i], font)] l = len(lst) i = l while i > 0 and lst[i - 1].Format == 2: i -= 1 lst[i:] = [_Lookup_PairPosFormat2_subtables_flatten(lst[i:], font)] return lst def _Lookup_SinglePos_subtables_flatten(lst, font, min_inclusive_rec_format): glyphs, _ = _merge_GlyphOrders(font, [v.Coverage.glyphs for v in lst], None) num_glyphs = len(glyphs) new = ot.SinglePos() new.Format = 2 new.ValueFormat = min_inclusive_rec_format new.Coverage = ot.Coverage() new.Coverage.glyphs = glyphs new.ValueCount = num_glyphs new.Value = [None] * num_glyphs for singlePos in lst: if singlePos.Format == 1: val_rec = singlePos.Value for gname in singlePos.Coverage.glyphs: i = glyphs.index(gname) new.Value[i] = copy.deepcopy(val_rec) elif singlePos.Format == 2: for j, gname in enumerate(singlePos.Coverage.glyphs): val_rec = singlePos.Value[j] i = glyphs.index(gname) new.Value[i] = copy.deepcopy(val_rec) return [new] @AligningMerger.merger(ot.Lookup) def merge(merger, self, lst): subtables = merger.lookup_subtables = [l.SubTable for l in lst] # Remove Extension subtables for l,sts in list(zip(lst,subtables))+[(self,self.SubTable)]: if not sts: continue if sts[0].__class__.__name__.startswith('Extension'): if not allEqual([st.__class__ for st in sts]): raise InconsistentExtensions( merger, expected="Extension", got=[st.__class__.__name__ for st in sts] ) if not allEqual([st.ExtensionLookupType for st in sts]): raise InconsistentExtensions(merger) l.LookupType = sts[0].ExtensionLookupType new_sts = [st.ExtSubTable for st in sts] del sts[:] sts.extend(new_sts) isPairPos = self.SubTable and isinstance(self.SubTable[0], ot.PairPos) if isPairPos: # AFDKO and feaLib sometimes generate two Format1 subtables instead of one. # Merge those before continuing. # https://github.com/fonttools/fonttools/issues/719 self.SubTable = _Lookup_PairPos_subtables_canonicalize(self.SubTable, merger.font) subtables = merger.lookup_subtables = [_Lookup_PairPos_subtables_canonicalize(st, merger.font) for st in subtables] else: isSinglePos = self.SubTable and isinstance(self.SubTable[0], ot.SinglePos) if isSinglePos: numSubtables = [len(st) for st in subtables] if not all([nums == numSubtables[0] for nums in numSubtables]): # Flatten list of SinglePos subtables to single Format 2 subtable, # with all value records set to the rec format type. # We use buildSinglePos() to optimize the lookup after merging. valueFormatList = [t.ValueFormat for st in subtables for t in st] # Find the minimum value record that can accomodate all the singlePos subtables. mirf = reduce(ior, valueFormatList) self.SubTable = _Lookup_SinglePos_subtables_flatten(self.SubTable, merger.font, mirf) subtables = merger.lookup_subtables = [ _Lookup_SinglePos_subtables_flatten(st, merger.font, mirf) for st in subtables] flattened = True else: flattened = False merger.mergeLists(self.SubTable, subtables) self.SubTableCount = len(self.SubTable) if isPairPos: # If format-1 subtable created during canonicalization is empty, remove it. assert len(self.SubTable) >= 1 and self.SubTable[0].Format == 1 if not self.SubTable[0].Coverage.glyphs: self.SubTable.pop(0) self.SubTableCount -= 1 # If format-2 subtable created during canonicalization is empty, remove it. assert len(self.SubTable) >= 1 and self.SubTable[-1].Format == 2 if not self.SubTable[-1].Coverage.glyphs: self.SubTable.pop(-1) self.SubTableCount -= 1 # Compact the merged subtables # This is a good moment to do it because the compaction should create # smaller subtables, which may prevent overflows from happening. # Keep reading the value from the ENV until ufo2ft switches to the config system level = merger.font.cfg.get( "fontTools.otlLib.optimize.gpos:COMPRESSION_LEVEL", default=_compression_level_from_env(), ) if level != 0: log.info("Compacting GPOS...") self.SubTable = compact_pair_pos(merger.font, level, self.SubTable) self.SubTableCount = len(self.SubTable) elif isSinglePos and flattened: singlePosTable = self.SubTable[0] glyphs = singlePosTable.Coverage.glyphs # We know that singlePosTable is Format 2, as this is set # in _Lookup_SinglePos_subtables_flatten. singlePosMapping = { gname: valRecord for gname, valRecord in zip(glyphs, singlePosTable.Value) } self.SubTable = buildSinglePos(singlePosMapping, merger.font.getReverseGlyphMap()) merger.mergeObjects(self, lst, exclude=['SubTable', 'SubTableCount']) del merger.lookup_subtables # # InstancerMerger # class InstancerMerger(AligningMerger): """A merger that takes multiple master fonts, and instantiates an instance.""" def __init__(self, font, model, location): Merger.__init__(self, font) self.model = model self.location = location self.scalars = model.getScalars(location) @InstancerMerger.merger(ot.CaretValue) def merge(merger, self, lst): assert self.Format == 1 Coords = [a.Coordinate for a in lst] model = merger.model scalars = merger.scalars self.Coordinate = otRound(model.interpolateFromMastersAndScalars(Coords, scalars)) @InstancerMerger.merger(ot.Anchor) def merge(merger, self, lst): assert self.Format == 1 XCoords = [a.XCoordinate for a in lst] YCoords = [a.YCoordinate for a in lst] model = merger.model scalars = merger.scalars self.XCoordinate = otRound(model.interpolateFromMastersAndScalars(XCoords, scalars)) self.YCoordinate = otRound(model.interpolateFromMastersAndScalars(YCoords, scalars)) @InstancerMerger.merger(otBase.ValueRecord) def merge(merger, self, lst): model = merger.model scalars = merger.scalars # TODO Handle differing valueformats for name, tableName in [('XAdvance','XAdvDevice'), ('YAdvance','YAdvDevice'), ('XPlacement','XPlaDevice'), ('YPlacement','YPlaDevice')]: assert not hasattr(self, tableName) if hasattr(self, name): values = [getattr(a, name, 0) for a in lst] value = otRound(model.interpolateFromMastersAndScalars(values, scalars)) setattr(self, name, value) # # MutatorMerger # class MutatorMerger(AligningMerger): """A merger that takes a variable font, and instantiates an instance. While there's no "merging" to be done per se, the operation can benefit from many operations that the aligning merger does.""" def __init__(self, font, instancer, deleteVariations=True): Merger.__init__(self, font) self.instancer = instancer self.deleteVariations = deleteVariations @MutatorMerger.merger(ot.CaretValue) def merge(merger, self, lst): # Hack till we become selfless. self.__dict__ = lst[0].__dict__.copy() if self.Format != 3: return instancer = merger.instancer dev = self.DeviceTable if merger.deleteVariations: del self.DeviceTable if dev: assert dev.DeltaFormat == 0x8000 varidx = (dev.StartSize << 16) + dev.EndSize delta = otRound(instancer[varidx]) self.Coordinate += delta if merger.deleteVariations: self.Format = 1 @MutatorMerger.merger(ot.Anchor) def merge(merger, self, lst): # Hack till we become selfless. self.__dict__ = lst[0].__dict__.copy() if self.Format != 3: return instancer = merger.instancer for v in "XY": tableName = v+'DeviceTable' if not hasattr(self, tableName): continue dev = getattr(self, tableName) if merger.deleteVariations: delattr(self, tableName) if dev is None: continue assert dev.DeltaFormat == 0x8000 varidx = (dev.StartSize << 16) + dev.EndSize delta = otRound(instancer[varidx]) attr = v+'Coordinate' setattr(self, attr, getattr(self, attr) + delta) if merger.deleteVariations: self.Format = 1 @MutatorMerger.merger(otBase.ValueRecord) def merge(merger, self, lst): # Hack till we become selfless. self.__dict__ = lst[0].__dict__.copy() instancer = merger.instancer for name, tableName in [('XAdvance','XAdvDevice'), ('YAdvance','YAdvDevice'), ('XPlacement','XPlaDevice'), ('YPlacement','YPlaDevice')]: if not hasattr(self, tableName): continue dev = getattr(self, tableName) if merger.deleteVariations: delattr(self, tableName) if dev is None: continue assert dev.DeltaFormat == 0x8000 varidx = (dev.StartSize << 16) + dev.EndSize delta = otRound(instancer[varidx]) setattr(self, name, getattr(self, name, 0) + delta) # # VariationMerger # class VariationMerger(AligningMerger): """A merger that takes multiple master fonts, and builds a variable font.""" def __init__(self, model, axisTags, font): Merger.__init__(self, font) self.store_builder = varStore.OnlineVarStoreBuilder(axisTags) self.setModel(model) def setModel(self, model): self.model = model self.store_builder.setModel(model) def mergeThings(self, out, lst): masterModel = None origTTFs = None if None in lst: if allNone(lst): if out is not None: raise FoundANone(self, got=lst) return # temporarily subset the list of master ttfs to the ones for which # master values are not None origTTFs = self.ttfs if self.ttfs: self.ttfs = subList([v is not None for v in lst], self.ttfs) masterModel = self.model model, lst = masterModel.getSubModel(lst) self.setModel(model) super(VariationMerger, self).mergeThings(out, lst) if masterModel: self.setModel(masterModel) if origTTFs: self.ttfs = origTTFs def buildVarDevTable(store_builder, master_values): if allEqual(master_values): return master_values[0], None base, varIdx = store_builder.storeMasters(master_values) return base, builder.buildVarDevTable(varIdx) @VariationMerger.merger(ot.BaseCoord) def merge(merger, self, lst): if self.Format != 1: raise UnsupportedFormat(merger, subtable="a baseline coordinate") self.Coordinate, DeviceTable = buildVarDevTable(merger.store_builder, [a.Coordinate for a in lst]) if DeviceTable: self.Format = 3 self.DeviceTable = DeviceTable @VariationMerger.merger(ot.CaretValue) def merge(merger, self, lst): if self.Format != 1: raise UnsupportedFormat(merger, subtable="a caret") self.Coordinate, DeviceTable = buildVarDevTable(merger.store_builder, [a.Coordinate for a in lst]) if DeviceTable: self.Format = 3 self.DeviceTable = DeviceTable @VariationMerger.merger(ot.Anchor) def merge(merger, self, lst): if self.Format != 1: raise UnsupportedFormat(merger, subtable="an anchor") self.XCoordinate, XDeviceTable = buildVarDevTable(merger.store_builder, [a.XCoordinate for a in lst]) self.YCoordinate, YDeviceTable = buildVarDevTable(merger.store_builder, [a.YCoordinate for a in lst]) if XDeviceTable or YDeviceTable: self.Format = 3 self.XDeviceTable = XDeviceTable self.YDeviceTable = YDeviceTable @VariationMerger.merger(otBase.ValueRecord) def merge(merger, self, lst): for name, tableName in [('XAdvance','XAdvDevice'), ('YAdvance','YAdvDevice'), ('XPlacement','XPlaDevice'), ('YPlacement','YPlaDevice')]: if hasattr(self, name): value, deviceTable = buildVarDevTable(merger.store_builder, [getattr(a, name, 0) for a in lst]) setattr(self, name, value) if deviceTable: setattr(self, tableName, deviceTable) class COLRVariationMerger(VariationMerger): """A specialized VariationMerger that takes multiple master fonts containing COLRv1 tables, and builds a variable COLR font. COLR tables are special in that variable subtables can be associated with multiple delta-set indices (via VarIndexBase). They also contain tables that must change their type (not simply the Format) as they become variable (e.g. Affine2x3 -> VarAffine2x3) so this merger takes care of that too. """ def __init__(self, model, axisTags, font, allowLayerReuse=True): VariationMerger.__init__(self, model, axisTags, font) # maps {tuple(varIdxes): VarIndexBase} to facilitate reuse of VarIndexBase # between variable tables with same varIdxes. self.varIndexCache = {} # flat list of all the varIdxes generated while merging self.varIdxes = [] # set of id()s of the subtables that contain variations after merging # and need to be upgraded to the associated VarType. self.varTableIds = set() # we keep these around for rebuilding a LayerList while merging PaintColrLayers self.layers = [] self.layerReuseCache = None if allowLayerReuse: self.layerReuseCache = LayerReuseCache() # flag to ensure BaseGlyphList is fully merged before LayerList gets processed self._doneBaseGlyphs = False def mergeTables(self, font, master_ttfs, tableTags=("COLR",)): if "COLR" in tableTags and "COLR" in font: # The merger modifies the destination COLR table in-place. If this contains # multiple PaintColrLayers referencing the same layers from LayerList, it's # a problem because we may risk modifying the same paint more than once, or # worse, fail while attempting to do that. # We don't know whether the master COLR table was built with layer reuse # disabled, thus to be safe we rebuild its LayerList so that it contains only # unique layers referenced from non-overlapping PaintColrLayers throughout # the base paint graphs. self.expandPaintColrLayers(font["COLR"].table) VariationMerger.mergeTables(self, font, master_ttfs, tableTags) def checkFormatEnum(self, out, lst, validate=lambda _: True): fmt = out.Format formatEnum = out.formatEnum ok = False try: fmt = formatEnum(fmt) except ValueError: pass else: ok = validate(fmt) if not ok: raise UnsupportedFormat( self, subtable=type(out).__name__, value=fmt ) expected = fmt got = [] for v in lst: fmt = getattr(v, "Format", None) try: fmt = formatEnum(fmt) except ValueError: pass got.append(fmt) if not allEqualTo(expected, got): raise InconsistentFormats( self, subtable=type(out).__name__, expected=expected, got=got, ) return expected def mergeSparseDict(self, out, lst): for k in out.keys(): try: self.mergeThings(out[k], [v.get(k) for v in lst]) except VarLibMergeError as e: e.stack.append(f"[{k!r}]") raise def mergeAttrs(self, out, lst, attrs): for attr in attrs: value = getattr(out, attr) values = [getattr(item, attr) for item in lst] try: self.mergeThings(value, values) except VarLibMergeError as e: e.stack.append(f".{attr}") raise def storeMastersForAttr(self, out, lst, attr): master_values = [getattr(item, attr) for item in lst] # VarStore treats deltas for fixed-size floats as integers, so we # must convert master values to int before storing them in the builder # then back to float. is_fixed_size_float = False conv = out.getConverterByName(attr) if isinstance(conv, BaseFixedValue): is_fixed_size_float = True master_values = [conv.toInt(v) for v in master_values] baseValue = master_values[0] varIdx = ot.NO_VARIATION_INDEX if not allEqual(master_values): baseValue, varIdx = self.store_builder.storeMasters(master_values) if is_fixed_size_float: baseValue = conv.fromInt(baseValue) return baseValue, varIdx def storeVariationIndices(self, varIdxes) -> int: # try to reuse an existing VarIndexBase for the same varIdxes, or else # create a new one key = tuple(varIdxes) varIndexBase = self.varIndexCache.get(key) if varIndexBase is None: # scan for a full match anywhere in the self.varIdxes for i in range(len(self.varIdxes) - len(varIdxes) + 1): if self.varIdxes[i:i+len(varIdxes)] == varIdxes: self.varIndexCache[key] = varIndexBase = i break if varIndexBase is None: # try find a partial match at the end of the self.varIdxes for n in range(len(varIdxes)-1, 0, -1): if self.varIdxes[-n:] == varIdxes[:n]: varIndexBase = len(self.varIdxes) - n self.varIndexCache[key] = varIndexBase self.varIdxes.extend(varIdxes[n:]) break if varIndexBase is None: # no match found, append at the end self.varIndexCache[key] = varIndexBase = len(self.varIdxes) self.varIdxes.extend(varIdxes) return varIndexBase def mergeVariableAttrs(self, out, lst, attrs) -> int: varIndexBase = ot.NO_VARIATION_INDEX varIdxes = [] for attr in attrs: baseValue, varIdx = self.storeMastersForAttr(out, lst, attr) setattr(out, attr, baseValue) varIdxes.append(varIdx) if any(v != ot.NO_VARIATION_INDEX for v in varIdxes): varIndexBase = self.storeVariationIndices(varIdxes) return varIndexBase @classmethod def convertSubTablesToVarType(cls, table): for path in dfs_base_table( table, skip_root=True, predicate=lambda path: ( getattr(type(path[-1].value), "VarType", None) is not None ) ): st = path[-1] subTable = st.value varType = type(subTable).VarType newSubTable = varType() newSubTable.__dict__.update(subTable.__dict__) newSubTable.populateDefaults() parent = path[-2].value if st.index is not None: getattr(parent, st.name)[st.index] = newSubTable else: setattr(parent, st.name, newSubTable) @staticmethod def expandPaintColrLayers(colr): """Rebuild LayerList without PaintColrLayers reuse. Each base paint graph is fully DFS-traversed (with exception of PaintColrGlyph which are irrelevant for this); any layers referenced via PaintColrLayers are collected into a new LayerList and duplicated when reuse is detected, to ensure that all paints are distinct objects at the end of the process. PaintColrLayers's FirstLayerIndex/NumLayers are updated so that no overlap is left. Also, any consecutively nested PaintColrLayers are flattened. The COLR table's LayerList is replaced with the new unique layers. A side effect is also that any layer from the old LayerList which is not referenced by any PaintColrLayers is dropped. """ if not colr.LayerList: # if no LayerList, there's nothing to expand return uniqueLayerIDs = set() newLayerList = [] for rec in colr.BaseGlyphList.BaseGlyphPaintRecord: frontier = [rec.Paint] while frontier: paint = frontier.pop() if paint.Format == ot.PaintFormat.PaintColrGlyph: # don't traverse these, we treat them as constant for merging continue elif paint.Format == ot.PaintFormat.PaintColrLayers: # de-treeify any nested PaintColrLayers, append unique copies to # the new layer list and update PaintColrLayers index/count children = list(_flatten_layers(paint, colr)) first_layer_index = len(newLayerList) for layer in children: if id(layer) in uniqueLayerIDs: layer = copy.deepcopy(layer) assert id(layer) not in uniqueLayerIDs newLayerList.append(layer) uniqueLayerIDs.add(id(layer)) paint.FirstLayerIndex = first_layer_index paint.NumLayers = len(children) else: children = paint.getChildren(colr) frontier.extend(reversed(children)) # sanity check all the new layers are distinct objects assert len(newLayerList) == len(uniqueLayerIDs) colr.LayerList.Paint = newLayerList colr.LayerList.LayerCount = len(newLayerList) @COLRVariationMerger.merger(ot.BaseGlyphList) def merge(merger, self, lst): # ignore BaseGlyphCount, allow sparse glyph sets across masters out = {rec.BaseGlyph: rec for rec in self.BaseGlyphPaintRecord} masters = [{rec.BaseGlyph: rec for rec in m.BaseGlyphPaintRecord} for m in lst] for i, g in enumerate(out.keys()): try: # missing base glyphs don't participate in the merge merger.mergeThings(out[g], [v.get(g) for v in masters]) except VarLibMergeError as e: e.stack.append(f".BaseGlyphPaintRecord[{i}]") e.cause["location"] = f"base glyph {g!r}" raise merger._doneBaseGlyphs = True @COLRVariationMerger.merger(ot.LayerList) def merge(merger, self, lst): # nothing to merge for LayerList, assuming we have already merged all PaintColrLayers # found while traversing the paint graphs rooted at BaseGlyphPaintRecords. assert merger._doneBaseGlyphs, "BaseGlyphList must be merged before LayerList" # Simply flush the final list of layers and go home. self.LayerCount = len(merger.layers) self.Paint = merger.layers def _flatten_layers(root, colr): assert root.Format == ot.PaintFormat.PaintColrLayers for paint in root.getChildren(colr): if paint.Format == ot.PaintFormat.PaintColrLayers: yield from _flatten_layers(paint, colr) else: yield paint def _merge_PaintColrLayers(self, out, lst): # we only enforce that the (flat) number of layers is the same across all masters # but we allow FirstLayerIndex to differ to acommodate for sparse glyph sets. out_layers = list(_flatten_layers(out, self.font["COLR"].table)) # sanity check ttfs are subset to current values (see VariationMerger.mergeThings) # before matching each master PaintColrLayers to its respective COLR by position assert len(self.ttfs) == len(lst) master_layerses = [ list(_flatten_layers(lst[i], self.ttfs[i]["COLR"].table)) for i in range(len(lst)) ] try: self.mergeLists(out_layers, master_layerses) except VarLibMergeError as e: # NOTE: This attribute doesn't actually exist in PaintColrLayers but it's # handy to have it in the stack trace for debugging. e.stack.append(".Layers") raise # following block is very similar to LayerListBuilder._beforeBuildPaintColrLayers # but I couldn't find a nice way to share the code between the two... if self.layerReuseCache is not None: # successful reuse can make the list smaller out_layers = self.layerReuseCache.try_reuse(out_layers) # if the list is still too big we need to tree-fy it is_tree = len(out_layers) > MAX_PAINT_COLR_LAYER_COUNT out_layers = build_n_ary_tree(out_layers, n=MAX_PAINT_COLR_LAYER_COUNT) # We now have a tree of sequences with Paint leaves. # Convert the sequences into PaintColrLayers. def listToColrLayers(paint): if isinstance(paint, list): layers = [listToColrLayers(l) for l in paint] paint = ot.Paint() paint.Format = int(ot.PaintFormat.PaintColrLayers) paint.NumLayers = len(layers) paint.FirstLayerIndex = len(self.layers) self.layers.extend(layers) if self.layerReuseCache is not None: self.layerReuseCache.add(layers, paint.FirstLayerIndex) return paint out_layers = [listToColrLayers(l) for l in out_layers] if len(out_layers) == 1 and out_layers[0].Format == ot.PaintFormat.PaintColrLayers: # special case when the reuse cache finds a single perfect PaintColrLayers match # (it can only come from a successful reuse, _flatten_layers has gotten rid of # all nested PaintColrLayers already); we assign it directly and avoid creating # an extra table out.NumLayers = out_layers[0].NumLayers out.FirstLayerIndex = out_layers[0].FirstLayerIndex else: out.NumLayers = len(out_layers) out.FirstLayerIndex = len(self.layers) self.layers.extend(out_layers) # Register our parts for reuse provided we aren't a tree # If we are a tree the leaves registered for reuse and that will suffice if self.layerReuseCache is not None and not is_tree: self.layerReuseCache.add(out_layers, out.FirstLayerIndex) @COLRVariationMerger.merger((ot.Paint, ot.ClipBox)) def merge(merger, self, lst): fmt = merger.checkFormatEnum(self, lst, lambda fmt: not fmt.is_variable()) if fmt is ot.PaintFormat.PaintColrLayers: _merge_PaintColrLayers(merger, self, lst) return varFormat = fmt.as_variable() varAttrs = () if varFormat is not None: varAttrs = otBase.getVariableAttrs(type(self), varFormat) staticAttrs = (c.name for c in self.getConverters() if c.name not in varAttrs) merger.mergeAttrs(self, lst, staticAttrs) varIndexBase = merger.mergeVariableAttrs(self, lst, varAttrs) subTables = [st.value for st in self.iterSubTables()] # Convert table to variable if itself has variations or any subtables have isVariable = ( varIndexBase != ot.NO_VARIATION_INDEX or any(id(table) in merger.varTableIds for table in subTables) ) if isVariable: if varAttrs: # Some PaintVar* don't have any scalar attributes that can vary, # only indirect offsets to other variable subtables, thus have # no VarIndexBase of their own (e.g. PaintVarTransform) self.VarIndexBase = varIndexBase if subTables: # Convert Affine2x3 -> VarAffine2x3, ColorLine -> VarColorLine, etc. merger.convertSubTablesToVarType(self) assert varFormat is not None self.Format = int(varFormat) @COLRVariationMerger.merger((ot.Affine2x3, ot.ColorStop)) def merge(merger, self, lst): varType = type(self).VarType varAttrs = otBase.getVariableAttrs(varType) staticAttrs = (c.name for c in self.getConverters() if c.name not in varAttrs) merger.mergeAttrs(self, lst, staticAttrs) varIndexBase = merger.mergeVariableAttrs(self, lst, varAttrs) if varIndexBase != ot.NO_VARIATION_INDEX: self.VarIndexBase = varIndexBase # mark as having variations so the parent table will convert to Var{Type} merger.varTableIds.add(id(self)) @COLRVariationMerger.merger(ot.ColorLine) def merge(merger, self, lst): merger.mergeAttrs(self, lst, (c.name for c in self.getConverters())) if any(id(stop) in merger.varTableIds for stop in self.ColorStop): merger.convertSubTablesToVarType(self) merger.varTableIds.add(id(self)) @COLRVariationMerger.merger(ot.ClipList, "clips") def merge(merger, self, lst): # 'sparse' in that we allow non-default masters to omit ClipBox entries # for some/all glyphs (i.e. they don't participate) merger.mergeSparseDict(self, lst)