# coding: utf-8 """fontTools.ttLib.tables.otTables -- A collection of classes representing the various OpenType subtables. Most are constructed upon import from data in otData.py, all are populated with converter objects from otConverters.py. """ import copy from enum import IntEnum from functools import reduce from math import radians import itertools from collections import defaultdict, namedtuple from fontTools.ttLib.tables.TupleVariation import TupleVariation from fontTools.ttLib.tables.otTraverse import dfs_base_table from fontTools.misc.arrayTools import quantizeRect from fontTools.misc.roundTools import otRound from fontTools.misc.transform import Transform, Identity, DecomposedTransform from fontTools.misc.textTools import bytesjoin, pad, safeEval from fontTools.misc.vector import Vector from fontTools.pens.boundsPen import ControlBoundsPen from fontTools.pens.transformPen import TransformPen from .otBase import ( BaseTable, FormatSwitchingBaseTable, ValueRecord, CountReference, getFormatSwitchingBaseTableClass, ) from fontTools.misc.fixedTools import ( fixedToFloat as fi2fl, floatToFixed as fl2fi, floatToFixedToStr as fl2str, strToFixedToFloat as str2fl, ) from fontTools.feaLib.lookupDebugInfo import LookupDebugInfo, LOOKUP_DEBUG_INFO_KEY import logging import struct import array import sys from enum import IntFlag from typing import TYPE_CHECKING, Iterator, List, Optional, Set if TYPE_CHECKING: from fontTools.ttLib.ttGlyphSet import _TTGlyphSet log = logging.getLogger(__name__) class VarComponentFlags(IntFlag): RESET_UNSPECIFIED_AXES = 1 << 0 HAVE_AXES = 1 << 1 AXIS_VALUES_HAVE_VARIATION = 1 << 2 TRANSFORM_HAS_VARIATION = 1 << 3 HAVE_TRANSLATE_X = 1 << 4 HAVE_TRANSLATE_Y = 1 << 5 HAVE_ROTATION = 1 << 6 HAVE_CONDITION = 1 << 7 HAVE_SCALE_X = 1 << 8 HAVE_SCALE_Y = 1 << 9 HAVE_TCENTER_X = 1 << 10 HAVE_TCENTER_Y = 1 << 11 GID_IS_24BIT = 1 << 12 HAVE_SKEW_X = 1 << 13 HAVE_SKEW_Y = 1 << 14 RESERVED_MASK = (1 << 32) - (1 << 15) VarTransformMappingValues = namedtuple( "VarTransformMappingValues", ["flag", "fractionalBits", "scale", "defaultValue"], ) VAR_TRANSFORM_MAPPING = { "translateX": VarTransformMappingValues( VarComponentFlags.HAVE_TRANSLATE_X, 0, 1, 0 ), "translateY": VarTransformMappingValues( VarComponentFlags.HAVE_TRANSLATE_Y, 0, 1, 0 ), "rotation": VarTransformMappingValues(VarComponentFlags.HAVE_ROTATION, 12, 180, 0), "scaleX": VarTransformMappingValues(VarComponentFlags.HAVE_SCALE_X, 10, 1, 1), "scaleY": VarTransformMappingValues(VarComponentFlags.HAVE_SCALE_Y, 10, 1, 1), "skewX": VarTransformMappingValues(VarComponentFlags.HAVE_SKEW_X, 12, -180, 0), "skewY": VarTransformMappingValues(VarComponentFlags.HAVE_SKEW_Y, 12, 180, 0), "tCenterX": VarTransformMappingValues(VarComponentFlags.HAVE_TCENTER_X, 0, 1, 0), "tCenterY": VarTransformMappingValues(VarComponentFlags.HAVE_TCENTER_Y, 0, 1, 0), } # Probably should be somewhere in fontTools.misc _packer = { 1: lambda v: struct.pack(">B", v), 2: lambda v: struct.pack(">H", v), 3: lambda v: struct.pack(">L", v)[1:], 4: lambda v: struct.pack(">L", v), } _unpacker = { 1: lambda v: struct.unpack(">B", v)[0], 2: lambda v: struct.unpack(">H", v)[0], 3: lambda v: struct.unpack(">L", b"\0" + v)[0], 4: lambda v: struct.unpack(">L", v)[0], } def _read_uint32var(data, i): """Read a variable-length number from data starting at index i. Return the number and the next index. """ b0 = data[i] if b0 < 0x80: return b0, i + 1 elif b0 < 0xC0: return (b0 - 0x80) << 8 | data[i + 1], i + 2 elif b0 < 0xE0: return (b0 - 0xC0) << 16 | data[i + 1] << 8 | data[i + 2], i + 3 elif b0 < 0xF0: return (b0 - 0xE0) << 24 | data[i + 1] << 16 | data[i + 2] << 8 | data[ i + 3 ], i + 4 else: return (b0 - 0xF0) << 32 | data[i + 1] << 24 | data[i + 2] << 16 | data[ i + 3 ] << 8 | data[i + 4], i + 5 def _write_uint32var(v): """Write a variable-length number. Return the data. """ if v < 0x80: return struct.pack(">B", v) elif v < 0x4000: return struct.pack(">H", (v | 0x8000)) elif v < 0x200000: return struct.pack(">L", (v | 0xC00000))[1:] elif v < 0x10000000: return struct.pack(">L", (v | 0xE0000000)) else: return struct.pack(">B", 0xF0) + struct.pack(">L", v) class VarComponent: def __init__(self): self.populateDefaults() def populateDefaults(self, propagator=None): self.flags = 0 self.glyphName = None self.conditionIndex = None self.axisIndicesIndex = None self.axisValues = () self.axisValuesVarIndex = NO_VARIATION_INDEX self.transformVarIndex = NO_VARIATION_INDEX self.transform = DecomposedTransform() def decompile(self, data, font, localState): i = 0 self.flags, i = _read_uint32var(data, i) flags = self.flags gidSize = 3 if flags & VarComponentFlags.GID_IS_24BIT else 2 glyphID = _unpacker[gidSize](data[i : i + gidSize]) i += gidSize self.glyphName = font.glyphOrder[glyphID] if flags & VarComponentFlags.HAVE_CONDITION: self.conditionIndex, i = _read_uint32var(data, i) if flags & VarComponentFlags.HAVE_AXES: self.axisIndicesIndex, i = _read_uint32var(data, i) else: self.axisIndicesIndex = None if self.axisIndicesIndex is None: numAxes = 0 else: axisIndices = localState["AxisIndicesList"].Item[self.axisIndicesIndex] numAxes = len(axisIndices) if flags & VarComponentFlags.HAVE_AXES: axisValues, i = TupleVariation.decompileDeltas_(numAxes, data, i) self.axisValues = tuple(fi2fl(v, 14) for v in axisValues) else: self.axisValues = () assert len(self.axisValues) == numAxes if flags & VarComponentFlags.AXIS_VALUES_HAVE_VARIATION: self.axisValuesVarIndex, i = _read_uint32var(data, i) else: self.axisValuesVarIndex = NO_VARIATION_INDEX if flags & VarComponentFlags.TRANSFORM_HAS_VARIATION: self.transformVarIndex, i = _read_uint32var(data, i) else: self.transformVarIndex = NO_VARIATION_INDEX self.transform = DecomposedTransform() def read_transform_component(values): nonlocal i if flags & values.flag: v = ( fi2fl( struct.unpack(">h", data[i : i + 2])[0], values.fractionalBits ) * values.scale ) i += 2 return v else: return values.defaultValue for attr_name, mapping_values in VAR_TRANSFORM_MAPPING.items(): value = read_transform_component(mapping_values) setattr(self.transform, attr_name, value) if not (flags & VarComponentFlags.HAVE_SCALE_Y): self.transform.scaleY = self.transform.scaleX n = flags & VarComponentFlags.RESERVED_MASK while n: _, i = _read_uint32var(data, i) n &= n - 1 return data[i:] def compile(self, font): data = [] flags = self.flags glyphID = font.getGlyphID(self.glyphName) if glyphID > 65535: flags |= VarComponentFlags.GID_IS_24BIT data.append(_packer[3](glyphID)) else: flags &= ~VarComponentFlags.GID_IS_24BIT data.append(_packer[2](glyphID)) if self.conditionIndex is not None: flags |= VarComponentFlags.HAVE_CONDITION data.append(_write_uint32var(self.conditionIndex)) numAxes = len(self.axisValues) if numAxes: flags |= VarComponentFlags.HAVE_AXES data.append(_write_uint32var(self.axisIndicesIndex)) data.append( TupleVariation.compileDeltaValues_( [fl2fi(v, 14) for v in self.axisValues] ) ) else: flags &= ~VarComponentFlags.HAVE_AXES if self.axisValuesVarIndex != NO_VARIATION_INDEX: flags |= VarComponentFlags.AXIS_VALUES_HAVE_VARIATION data.append(_write_uint32var(self.axisValuesVarIndex)) else: flags &= ~VarComponentFlags.AXIS_VALUES_HAVE_VARIATION if self.transformVarIndex != NO_VARIATION_INDEX: flags |= VarComponentFlags.TRANSFORM_HAS_VARIATION data.append(_write_uint32var(self.transformVarIndex)) else: flags &= ~VarComponentFlags.TRANSFORM_HAS_VARIATION def write_transform_component(value, values): if flags & values.flag: return struct.pack( ">h", fl2fi(value / values.scale, values.fractionalBits) ) else: return b"" for attr_name, mapping_values in VAR_TRANSFORM_MAPPING.items(): value = getattr(self.transform, attr_name) data.append(write_transform_component(value, mapping_values)) return _write_uint32var(flags) + bytesjoin(data) def toXML(self, writer, ttFont, attrs): writer.begintag("VarComponent", attrs) writer.newline() def write(name, value, attrs=()): if value is not None: writer.simpletag(name, (("value", value),) + attrs) writer.newline() write("glyphName", self.glyphName) if self.conditionIndex is not None: write("conditionIndex", self.conditionIndex) if self.axisIndicesIndex is not None: write("axisIndicesIndex", self.axisIndicesIndex) if ( self.axisIndicesIndex is not None or self.flags & VarComponentFlags.RESET_UNSPECIFIED_AXES ): if self.flags & VarComponentFlags.RESET_UNSPECIFIED_AXES: attrs = (("resetUnspecifiedAxes", 1),) else: attrs = () write("axisValues", [float(fl2str(v, 14)) for v in self.axisValues], attrs) if self.axisValuesVarIndex != NO_VARIATION_INDEX: write("axisValuesVarIndex", self.axisValuesVarIndex) if self.transformVarIndex != NO_VARIATION_INDEX: write("transformVarIndex", self.transformVarIndex) # Only write transform components that are specified in the # flags, even if they are the default value. for attr_name, mapping in VAR_TRANSFORM_MAPPING.items(): if not (self.flags & mapping.flag): continue v = getattr(self.transform, attr_name) write(attr_name, fl2str(v, mapping.fractionalBits)) writer.endtag("VarComponent") writer.newline() def fromXML(self, name, attrs, content, ttFont): content = [c for c in content if isinstance(c, tuple)] self.populateDefaults() for name, attrs, content in content: assert not content v = attrs["value"] if name == "glyphName": self.glyphName = v elif name == "conditionIndex": self.conditionIndex = safeEval(v) elif name == "axisIndicesIndex": self.axisIndicesIndex = safeEval(v) elif name == "axisValues": self.axisValues = tuple(str2fl(v, 14) for v in safeEval(v)) if safeEval(attrs.get("resetUnspecifiedAxes", "0")): self.flags |= VarComponentFlags.RESET_UNSPECIFIED_AXES elif name == "axisValuesVarIndex": self.axisValuesVarIndex = safeEval(v) elif name == "transformVarIndex": self.transformVarIndex = safeEval(v) elif name in VAR_TRANSFORM_MAPPING: setattr( self.transform, name, safeEval(v), ) self.flags |= VAR_TRANSFORM_MAPPING[name].flag else: assert False, name def applyTransformDeltas(self, deltas): i = 0 def read_transform_component_delta(values): nonlocal i if self.flags & values.flag: v = fi2fl(deltas[i], values.fractionalBits) * values.scale i += 1 return v else: return 0 for attr_name, mapping_values in VAR_TRANSFORM_MAPPING.items(): value = read_transform_component_delta(mapping_values) setattr( self.transform, attr_name, getattr(self.transform, attr_name) + value ) if not (self.flags & VarComponentFlags.HAVE_SCALE_Y): self.transform.scaleY = self.transform.scaleX assert i == len(deltas), (i, len(deltas)) def __eq__(self, other): if type(self) != type(other): return NotImplemented return self.__dict__ == other.__dict__ def __ne__(self, other): result = self.__eq__(other) return result if result is NotImplemented else not result class VarCompositeGlyph: def __init__(self, components=None): self.components = components if components is not None else [] def decompile(self, data, font, localState): self.components = [] while data: component = VarComponent() data = component.decompile(data, font, localState) self.components.append(component) def compile(self, font): data = [] for component in self.components: data.append(component.compile(font)) return bytesjoin(data) def toXML(self, xmlWriter, font, attrs, name): xmlWriter.begintag("VarCompositeGlyph", attrs) xmlWriter.newline() for i, component in enumerate(self.components): component.toXML(xmlWriter, font, [("index", i)]) xmlWriter.endtag("VarCompositeGlyph") xmlWriter.newline() def fromXML(self, name, attrs, content, font): content = [c for c in content if isinstance(c, tuple)] for name, attrs, content in content: assert name == "VarComponent" component = VarComponent() component.fromXML(name, attrs, content, font) self.components.append(component) class AATStateTable(object): def __init__(self): self.GlyphClasses = {} # GlyphID --> GlyphClass self.States = [] # List of AATState, indexed by state number self.PerGlyphLookups = [] # [{GlyphID:GlyphID}, ...] class AATState(object): def __init__(self): self.Transitions = {} # GlyphClass --> AATAction class AATAction(object): _FLAGS = None @staticmethod def compileActions(font, states): return (None, None) def _writeFlagsToXML(self, xmlWriter): flags = [f for f in self._FLAGS if self.__dict__[f]] if flags: xmlWriter.simpletag("Flags", value=",".join(flags)) xmlWriter.newline() if self.ReservedFlags != 0: xmlWriter.simpletag("ReservedFlags", value="0x%04X" % self.ReservedFlags) xmlWriter.newline() def _setFlag(self, flag): assert flag in self._FLAGS, "unsupported flag %s" % flag self.__dict__[flag] = True class RearrangementMorphAction(AATAction): staticSize = 4 actionHeaderSize = 0 _FLAGS = ["MarkFirst", "DontAdvance", "MarkLast"] _VERBS = { 0: "no change", 1: "Ax ⇒ xA", 2: "xD ⇒ Dx", 3: "AxD ⇒ DxA", 4: "ABx ⇒ xAB", 5: "ABx ⇒ xBA", 6: "xCD ⇒ CDx", 7: "xCD ⇒ DCx", 8: "AxCD ⇒ CDxA", 9: "AxCD ⇒ DCxA", 10: "ABxD ⇒ DxAB", 11: "ABxD ⇒ DxBA", 12: "ABxCD ⇒ CDxAB", 13: "ABxCD ⇒ CDxBA", 14: "ABxCD ⇒ DCxAB", 15: "ABxCD ⇒ DCxBA", } def __init__(self): self.NewState = 0 self.Verb = 0 self.MarkFirst = False self.DontAdvance = False self.MarkLast = False self.ReservedFlags = 0 def compile(self, writer, font, actionIndex): assert actionIndex is None writer.writeUShort(self.NewState) assert self.Verb >= 0 and self.Verb <= 15, self.Verb flags = self.Verb | self.ReservedFlags if self.MarkFirst: flags |= 0x8000 if self.DontAdvance: flags |= 0x4000 if self.MarkLast: flags |= 0x2000 writer.writeUShort(flags) def decompile(self, reader, font, actionReader): assert actionReader is None self.NewState = reader.readUShort() flags = reader.readUShort() self.Verb = flags & 0xF self.MarkFirst = bool(flags & 0x8000) self.DontAdvance = bool(flags & 0x4000) self.MarkLast = bool(flags & 0x2000) self.ReservedFlags = flags & 0x1FF0 def toXML(self, xmlWriter, font, attrs, name): xmlWriter.begintag(name, **attrs) xmlWriter.newline() xmlWriter.simpletag("NewState", value=self.NewState) xmlWriter.newline() self._writeFlagsToXML(xmlWriter) xmlWriter.simpletag("Verb", value=self.Verb) verbComment = self._VERBS.get(self.Verb) if verbComment is not None: xmlWriter.comment(verbComment) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() def fromXML(self, name, attrs, content, font): self.NewState = self.Verb = self.ReservedFlags = 0 self.MarkFirst = self.DontAdvance = self.MarkLast = False content = [t for t in content if isinstance(t, tuple)] for eltName, eltAttrs, eltContent in content: if eltName == "NewState": self.NewState = safeEval(eltAttrs["value"]) elif eltName == "Verb": self.Verb = safeEval(eltAttrs["value"]) elif eltName == "ReservedFlags": self.ReservedFlags = safeEval(eltAttrs["value"]) elif eltName == "Flags": for flag in eltAttrs["value"].split(","): self._setFlag(flag.strip()) class ContextualMorphAction(AATAction): staticSize = 8 actionHeaderSize = 0 _FLAGS = ["SetMark", "DontAdvance"] def __init__(self): self.NewState = 0 self.SetMark, self.DontAdvance = False, False self.ReservedFlags = 0 self.MarkIndex, self.CurrentIndex = 0xFFFF, 0xFFFF def compile(self, writer, font, actionIndex): assert actionIndex is None writer.writeUShort(self.NewState) flags = self.ReservedFlags if self.SetMark: flags |= 0x8000 if self.DontAdvance: flags |= 0x4000 writer.writeUShort(flags) writer.writeUShort(self.MarkIndex) writer.writeUShort(self.CurrentIndex) def decompile(self, reader, font, actionReader): assert actionReader is None self.NewState = reader.readUShort() flags = reader.readUShort() self.SetMark = bool(flags & 0x8000) self.DontAdvance = bool(flags & 0x4000) self.ReservedFlags = flags & 0x3FFF self.MarkIndex = reader.readUShort() self.CurrentIndex = reader.readUShort() def toXML(self, xmlWriter, font, attrs, name): xmlWriter.begintag(name, **attrs) xmlWriter.newline() xmlWriter.simpletag("NewState", value=self.NewState) xmlWriter.newline() self._writeFlagsToXML(xmlWriter) xmlWriter.simpletag("MarkIndex", value=self.MarkIndex) xmlWriter.newline() xmlWriter.simpletag("CurrentIndex", value=self.CurrentIndex) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() def fromXML(self, name, attrs, content, font): self.NewState = self.ReservedFlags = 0 self.SetMark = self.DontAdvance = False self.MarkIndex, self.CurrentIndex = 0xFFFF, 0xFFFF content = [t for t in content if isinstance(t, tuple)] for eltName, eltAttrs, eltContent in content: if eltName == "NewState": self.NewState = safeEval(eltAttrs["value"]) elif eltName == "Flags": for flag in eltAttrs["value"].split(","): self._setFlag(flag.strip()) elif eltName == "ReservedFlags": self.ReservedFlags = safeEval(eltAttrs["value"]) elif eltName == "MarkIndex": self.MarkIndex = safeEval(eltAttrs["value"]) elif eltName == "CurrentIndex": self.CurrentIndex = safeEval(eltAttrs["value"]) class LigAction(object): def __init__(self): self.Store = False # GlyphIndexDelta is a (possibly negative) delta that gets # added to the glyph ID at the top of the AAT runtime # execution stack. It is *not* a byte offset into the # morx table. The result of the addition, which is performed # at run time by the shaping engine, is an index into # the ligature components table. See 'morx' specification. # In the AAT specification, this field is called Offset; # but its meaning is quite different from other offsets # in either AAT or OpenType, so we use a different name. self.GlyphIndexDelta = 0 class LigatureMorphAction(AATAction): staticSize = 6 # 4 bytes for each of {action,ligComponents,ligatures}Offset actionHeaderSize = 12 _FLAGS = ["SetComponent", "DontAdvance"] def __init__(self): self.NewState = 0 self.SetComponent, self.DontAdvance = False, False self.ReservedFlags = 0 self.Actions = [] def compile(self, writer, font, actionIndex): assert actionIndex is not None writer.writeUShort(self.NewState) flags = self.ReservedFlags if self.SetComponent: flags |= 0x8000 if self.DontAdvance: flags |= 0x4000 if len(self.Actions) > 0: flags |= 0x2000 writer.writeUShort(flags) if len(self.Actions) > 0: actions = self.compileLigActions() writer.writeUShort(actionIndex[actions]) else: writer.writeUShort(0) def decompile(self, reader, font, actionReader): assert actionReader is not None self.NewState = reader.readUShort() flags = reader.readUShort() self.SetComponent = bool(flags & 0x8000) self.DontAdvance = bool(flags & 0x4000) performAction = bool(flags & 0x2000) # As of 2017-09-12, the 'morx' specification says that # the reserved bitmask in ligature subtables is 0x3FFF. # However, the specification also defines a flag 0x2000, # so the reserved value should actually be 0x1FFF. # TODO: Report this specification bug to Apple. self.ReservedFlags = flags & 0x1FFF actionIndex = reader.readUShort() if performAction: self.Actions = self._decompileLigActions(actionReader, actionIndex) else: self.Actions = [] @staticmethod def compileActions(font, states): result, actions, actionIndex = b"", set(), {} for state in states: for _glyphClass, trans in state.Transitions.items(): actions.add(trans.compileLigActions()) # Sort the compiled actions in decreasing order of # length, so that the longer sequence come before the # shorter ones. For each compiled action ABCD, its # suffixes BCD, CD, and D do not be encoded separately # (in case they occur); instead, we can just store an # index that points into the middle of the longer # sequence. Every compiled AAT ligature sequence is # terminated with an end-of-sequence flag, which can # only be set on the last element of the sequence. # Therefore, it is sufficient to consider just the # suffixes. for a in sorted(actions, key=lambda x: (-len(x), x)): if a not in actionIndex: for i in range(0, len(a), 4): suffix = a[i:] suffixIndex = (len(result) + i) // 4 actionIndex.setdefault(suffix, suffixIndex) result += a result = pad(result, 4) return (result, actionIndex) def compileLigActions(self): result = [] for i, action in enumerate(self.Actions): last = i == len(self.Actions) - 1 value = action.GlyphIndexDelta & 0x3FFFFFFF value |= 0x80000000 if last else 0 value |= 0x40000000 if action.Store else 0 result.append(struct.pack(">L", value)) return bytesjoin(result) def _decompileLigActions(self, actionReader, actionIndex): actions = [] last = False reader = actionReader.getSubReader(actionReader.pos + actionIndex * 4) while not last: value = reader.readULong() last = bool(value & 0x80000000) action = LigAction() actions.append(action) action.Store = bool(value & 0x40000000) delta = value & 0x3FFFFFFF if delta >= 0x20000000: # sign-extend 30-bit value delta = -0x40000000 + delta action.GlyphIndexDelta = delta return actions def fromXML(self, name, attrs, content, font): self.NewState = self.ReservedFlags = 0 self.SetComponent = self.DontAdvance = False self.ReservedFlags = 0 self.Actions = [] content = [t for t in content if isinstance(t, tuple)] for eltName, eltAttrs, eltContent in content: if eltName == "NewState": self.NewState = safeEval(eltAttrs["value"]) elif eltName == "Flags": for flag in eltAttrs["value"].split(","): self._setFlag(flag.strip()) elif eltName == "ReservedFlags": self.ReservedFlags = safeEval(eltAttrs["value"]) elif eltName == "Action": action = LigAction() flags = eltAttrs.get("Flags", "").split(",") flags = [f.strip() for f in flags] action.Store = "Store" in flags action.GlyphIndexDelta = safeEval(eltAttrs["GlyphIndexDelta"]) self.Actions.append(action) def toXML(self, xmlWriter, font, attrs, name): xmlWriter.begintag(name, **attrs) xmlWriter.newline() xmlWriter.simpletag("NewState", value=self.NewState) xmlWriter.newline() self._writeFlagsToXML(xmlWriter) for action in self.Actions: attribs = [("GlyphIndexDelta", action.GlyphIndexDelta)] if action.Store: attribs.append(("Flags", "Store")) xmlWriter.simpletag("Action", attribs) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() class InsertionMorphAction(AATAction): staticSize = 8 actionHeaderSize = 4 # 4 bytes for actionOffset _FLAGS = [ "SetMark", "DontAdvance", "CurrentIsKashidaLike", "MarkedIsKashidaLike", "CurrentInsertBefore", "MarkedInsertBefore", ] def __init__(self): self.NewState = 0 for flag in self._FLAGS: setattr(self, flag, False) self.ReservedFlags = 0 self.CurrentInsertionAction, self.MarkedInsertionAction = [], [] def compile(self, writer, font, actionIndex): assert actionIndex is not None writer.writeUShort(self.NewState) flags = self.ReservedFlags if self.SetMark: flags |= 0x8000 if self.DontAdvance: flags |= 0x4000 if self.CurrentIsKashidaLike: flags |= 0x2000 if self.MarkedIsKashidaLike: flags |= 0x1000 if self.CurrentInsertBefore: flags |= 0x0800 if self.MarkedInsertBefore: flags |= 0x0400 flags |= len(self.CurrentInsertionAction) << 5 flags |= len(self.MarkedInsertionAction) writer.writeUShort(flags) if len(self.CurrentInsertionAction) > 0: currentIndex = actionIndex[tuple(self.CurrentInsertionAction)] else: currentIndex = 0xFFFF writer.writeUShort(currentIndex) if len(self.MarkedInsertionAction) > 0: markedIndex = actionIndex[tuple(self.MarkedInsertionAction)] else: markedIndex = 0xFFFF writer.writeUShort(markedIndex) def decompile(self, reader, font, actionReader): assert actionReader is not None self.NewState = reader.readUShort() flags = reader.readUShort() self.SetMark = bool(flags & 0x8000) self.DontAdvance = bool(flags & 0x4000) self.CurrentIsKashidaLike = bool(flags & 0x2000) self.MarkedIsKashidaLike = bool(flags & 0x1000) self.CurrentInsertBefore = bool(flags & 0x0800) self.MarkedInsertBefore = bool(flags & 0x0400) self.CurrentInsertionAction = self._decompileInsertionAction( actionReader, font, index=reader.readUShort(), count=((flags & 0x03E0) >> 5) ) self.MarkedInsertionAction = self._decompileInsertionAction( actionReader, font, index=reader.readUShort(), count=(flags & 0x001F) ) def _decompileInsertionAction(self, actionReader, font, index, count): if index == 0xFFFF or count == 0: return [] reader = actionReader.getSubReader(actionReader.pos + index * 2) return font.getGlyphNameMany(reader.readUShortArray(count)) def toXML(self, xmlWriter, font, attrs, name): xmlWriter.begintag(name, **attrs) xmlWriter.newline() xmlWriter.simpletag("NewState", value=self.NewState) xmlWriter.newline() self._writeFlagsToXML(xmlWriter) for g in self.CurrentInsertionAction: xmlWriter.simpletag("CurrentInsertionAction", glyph=g) xmlWriter.newline() for g in self.MarkedInsertionAction: xmlWriter.simpletag("MarkedInsertionAction", glyph=g) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() def fromXML(self, name, attrs, content, font): self.__init__() content = [t for t in content if isinstance(t, tuple)] for eltName, eltAttrs, eltContent in content: if eltName == "NewState": self.NewState = safeEval(eltAttrs["value"]) elif eltName == "Flags": for flag in eltAttrs["value"].split(","): self._setFlag(flag.strip()) elif eltName == "CurrentInsertionAction": self.CurrentInsertionAction.append(eltAttrs["glyph"]) elif eltName == "MarkedInsertionAction": self.MarkedInsertionAction.append(eltAttrs["glyph"]) else: assert False, eltName @staticmethod def compileActions(font, states): actions, actionIndex, result = set(), {}, b"" for state in states: for _glyphClass, trans in state.Transitions.items(): if trans.CurrentInsertionAction is not None: actions.add(tuple(trans.CurrentInsertionAction)) if trans.MarkedInsertionAction is not None: actions.add(tuple(trans.MarkedInsertionAction)) # Sort the compiled actions in decreasing order of # length, so that the longer sequence come before the # shorter ones. for action in sorted(actions, key=lambda x: (-len(x), x)): # We insert all sub-sequences of the action glyph sequence # into actionIndex. For example, if one action triggers on # glyph sequence [A, B, C, D, E] and another action triggers # on [C, D], we return result=[A, B, C, D, E] (as list of # encoded glyph IDs), and actionIndex={('A','B','C','D','E'): 0, # ('C','D'): 2}. if action in actionIndex: continue for start in range(0, len(action)): startIndex = (len(result) // 2) + start for limit in range(start, len(action)): glyphs = action[start : limit + 1] actionIndex.setdefault(glyphs, startIndex) for glyph in action: glyphID = font.getGlyphID(glyph) result += struct.pack(">H", glyphID) return result, actionIndex class FeatureParams(BaseTable): def compile(self, writer, font): assert ( featureParamTypes.get(writer["FeatureTag"]) == self.__class__ ), "Wrong FeatureParams type for feature '%s': %s" % ( writer["FeatureTag"], self.__class__.__name__, ) BaseTable.compile(self, writer, font) def toXML(self, xmlWriter, font, attrs=None, name=None): BaseTable.toXML(self, xmlWriter, font, attrs, name=self.__class__.__name__) class FeatureParamsSize(FeatureParams): pass class FeatureParamsStylisticSet(FeatureParams): pass class FeatureParamsCharacterVariants(FeatureParams): pass class Coverage(FormatSwitchingBaseTable): # manual implementation to get rid of glyphID dependencies def populateDefaults(self, propagator=None): if not hasattr(self, "glyphs"): self.glyphs = [] def postRead(self, rawTable, font): if self.Format == 1: self.glyphs = rawTable["GlyphArray"] elif self.Format == 2: glyphs = self.glyphs = [] ranges = rawTable["RangeRecord"] # Some SIL fonts have coverage entries that don't have sorted # StartCoverageIndex. If it is so, fixup and warn. We undo # this when writing font out. sorted_ranges = sorted(ranges, key=lambda a: a.StartCoverageIndex) if ranges != sorted_ranges: log.warning("GSUB/GPOS Coverage is not sorted by glyph ids.") ranges = sorted_ranges del sorted_ranges for r in ranges: start = r.Start end = r.End startID = font.getGlyphID(start) endID = font.getGlyphID(end) + 1 glyphs.extend(font.getGlyphNameMany(range(startID, endID))) else: self.glyphs = [] log.warning("Unknown Coverage format: %s", self.Format) del self.Format # Don't need this anymore def preWrite(self, font): glyphs = getattr(self, "glyphs", None) if glyphs is None: glyphs = self.glyphs = [] format = 1 rawTable = {"GlyphArray": glyphs} if glyphs: # find out whether Format 2 is more compact or not glyphIDs = font.getGlyphIDMany(glyphs) brokenOrder = sorted(glyphIDs) != glyphIDs last = glyphIDs[0] ranges = [[last]] for glyphID in glyphIDs[1:]: if glyphID != last + 1: ranges[-1].append(last) ranges.append([glyphID]) last = glyphID ranges[-1].append(last) if brokenOrder or len(ranges) * 3 < len(glyphs): # 3 words vs. 1 word # Format 2 is more compact index = 0 for i in range(len(ranges)): start, end = ranges[i] r = RangeRecord() r.StartID = start r.Start = font.getGlyphName(start) r.End = font.getGlyphName(end) r.StartCoverageIndex = index ranges[i] = r index = index + end - start + 1 if brokenOrder: log.warning("GSUB/GPOS Coverage is not sorted by glyph ids.") ranges.sort(key=lambda a: a.StartID) for r in ranges: del r.StartID format = 2 rawTable = {"RangeRecord": ranges} # else: # fallthrough; Format 1 is more compact self.Format = format return rawTable def toXML2(self, xmlWriter, font): for glyphName in getattr(self, "glyphs", []): xmlWriter.simpletag("Glyph", value=glyphName) xmlWriter.newline() def fromXML(self, name, attrs, content, font): glyphs = getattr(self, "glyphs", None) if glyphs is None: glyphs = [] self.glyphs = glyphs glyphs.append(attrs["value"]) # The special 0xFFFFFFFF delta-set index is used to indicate that there # is no variation data in the ItemVariationStore for a given variable field NO_VARIATION_INDEX = 0xFFFFFFFF class DeltaSetIndexMap(getFormatSwitchingBaseTableClass("uint8")): def populateDefaults(self, propagator=None): if not hasattr(self, "mapping"): self.mapping = [] def postRead(self, rawTable, font): assert (rawTable["EntryFormat"] & 0xFFC0) == 0 self.mapping = rawTable["mapping"] @staticmethod def getEntryFormat(mapping): ored = 0 for idx in mapping: ored |= idx inner = ored & 0xFFFF innerBits = 0 while inner: innerBits += 1 inner >>= 1 innerBits = max(innerBits, 1) assert innerBits <= 16 ored = (ored >> (16 - innerBits)) | (ored & ((1 << innerBits) - 1)) if ored <= 0x000000FF: entrySize = 1 elif ored <= 0x0000FFFF: entrySize = 2 elif ored <= 0x00FFFFFF: entrySize = 3 else: entrySize = 4 return ((entrySize - 1) << 4) | (innerBits - 1) def preWrite(self, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = self.mapping = [] self.Format = 1 if len(mapping) > 0xFFFF else 0 rawTable = self.__dict__.copy() rawTable["MappingCount"] = len(mapping) rawTable["EntryFormat"] = self.getEntryFormat(mapping) return rawTable def toXML2(self, xmlWriter, font): # Make xml dump less verbose, by omitting no-op entries like: # xmlWriter.comment("Omitted values default to 0xFFFF/0xFFFF (no variations)") xmlWriter.newline() for i, value in enumerate(getattr(self, "mapping", [])): attrs = [("index", i)] if value != NO_VARIATION_INDEX: attrs.extend( [ ("outer", value >> 16), ("inner", value & 0xFFFF), ] ) xmlWriter.simpletag("Map", attrs) xmlWriter.newline() def fromXML(self, name, attrs, content, font): mapping = getattr(self, "mapping", None) if mapping is None: self.mapping = mapping = [] index = safeEval(attrs["index"]) outer = safeEval(attrs.get("outer", "0xFFFF")) inner = safeEval(attrs.get("inner", "0xFFFF")) assert inner <= 0xFFFF mapping.insert(index, (outer << 16) | inner) def __getitem__(self, i): return self.mapping[i] if i < len(self.mapping) else NO_VARIATION_INDEX class VarIdxMap(BaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "mapping"): self.mapping = {} def postRead(self, rawTable, font): assert (rawTable["EntryFormat"] & 0xFFC0) == 0 glyphOrder = font.getGlyphOrder() mapList = rawTable["mapping"] mapList.extend([mapList[-1]] * (len(glyphOrder) - len(mapList))) self.mapping = dict(zip(glyphOrder, mapList)) def preWrite(self, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = self.mapping = {} glyphOrder = font.getGlyphOrder() mapping = [mapping[g] for g in glyphOrder] while len(mapping) > 1 and mapping[-2] == mapping[-1]: del mapping[-1] rawTable = {"mapping": mapping} rawTable["MappingCount"] = len(mapping) rawTable["EntryFormat"] = DeltaSetIndexMap.getEntryFormat(mapping) return rawTable def toXML2(self, xmlWriter, font): for glyph, value in sorted(getattr(self, "mapping", {}).items()): attrs = ( ("glyph", glyph), ("outer", value >> 16), ("inner", value & 0xFFFF), ) xmlWriter.simpletag("Map", attrs) xmlWriter.newline() def fromXML(self, name, attrs, content, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = {} self.mapping = mapping try: glyph = attrs["glyph"] except: # https://github.com/fonttools/fonttools/commit/21cbab8ce9ded3356fef3745122da64dcaf314e9#commitcomment-27649836 glyph = font.getGlyphOrder()[attrs["index"]] outer = safeEval(attrs["outer"]) inner = safeEval(attrs["inner"]) assert inner <= 0xFFFF mapping[glyph] = (outer << 16) | inner def __getitem__(self, glyphName): return self.mapping.get(glyphName, NO_VARIATION_INDEX) class VarRegionList(BaseTable): def preWrite(self, font): # The OT spec says VarStore.VarRegionList.RegionAxisCount should always # be equal to the fvar.axisCount, and OTS < v8.0.0 enforces this rule # even when the VarRegionList is empty. We can't treat RegionAxisCount # like a normal propagated count (== len(Region[i].VarRegionAxis)), # otherwise it would default to 0 if VarRegionList is empty. # Thus, we force it to always be equal to fvar.axisCount. # https://github.com/khaledhosny/ots/pull/192 fvarTable = font.get("fvar") if fvarTable: self.RegionAxisCount = len(fvarTable.axes) return { **self.__dict__, "RegionAxisCount": CountReference(self.__dict__, "RegionAxisCount"), } class SingleSubst(FormatSwitchingBaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "mapping"): self.mapping = {} def postRead(self, rawTable, font): mapping = {} input = _getGlyphsFromCoverageTable(rawTable["Coverage"]) if self.Format == 1: delta = rawTable["DeltaGlyphID"] inputGIDS = font.getGlyphIDMany(input) outGIDS = [(glyphID + delta) % 65536 for glyphID in inputGIDS] outNames = font.getGlyphNameMany(outGIDS) for inp, out in zip(input, outNames): mapping[inp] = out elif self.Format == 2: assert ( len(input) == rawTable["GlyphCount"] ), "invalid SingleSubstFormat2 table" subst = rawTable["Substitute"] for inp, sub in zip(input, subst): mapping[inp] = sub else: assert 0, "unknown format: %s" % self.Format self.mapping = mapping del self.Format # Don't need this anymore def preWrite(self, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = self.mapping = {} items = list(mapping.items()) getGlyphID = font.getGlyphID gidItems = [(getGlyphID(a), getGlyphID(b)) for a, b in items] sortableItems = sorted(zip(gidItems, items)) # figure out format format = 2 delta = None for inID, outID in gidItems: if delta is None: delta = (outID - inID) % 65536 if (inID + delta) % 65536 != outID: break else: if delta is None: # the mapping is empty, better use format 2 format = 2 else: format = 1 rawTable = {} self.Format = format cov = Coverage() input = [item[1][0] for item in sortableItems] subst = [item[1][1] for item in sortableItems] cov.glyphs = input rawTable["Coverage"] = cov if format == 1: assert delta is not None rawTable["DeltaGlyphID"] = delta else: rawTable["Substitute"] = subst return rawTable def toXML2(self, xmlWriter, font): items = sorted(self.mapping.items()) for inGlyph, outGlyph in items: xmlWriter.simpletag("Substitution", [("in", inGlyph), ("out", outGlyph)]) xmlWriter.newline() def fromXML(self, name, attrs, content, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = {} self.mapping = mapping mapping[attrs["in"]] = attrs["out"] class MultipleSubst(FormatSwitchingBaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "mapping"): self.mapping = {} def postRead(self, rawTable, font): mapping = {} if self.Format == 1: glyphs = _getGlyphsFromCoverageTable(rawTable["Coverage"]) subst = [s.Substitute for s in rawTable["Sequence"]] mapping = dict(zip(glyphs, subst)) else: assert 0, "unknown format: %s" % self.Format self.mapping = mapping del self.Format # Don't need this anymore def preWrite(self, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = self.mapping = {} cov = Coverage() cov.glyphs = sorted(list(mapping.keys()), key=font.getGlyphID) self.Format = 1 rawTable = { "Coverage": cov, "Sequence": [self.makeSequence_(mapping[glyph]) for glyph in cov.glyphs], } return rawTable def toXML2(self, xmlWriter, font): items = sorted(self.mapping.items()) for inGlyph, outGlyphs in items: out = ",".join(outGlyphs) xmlWriter.simpletag("Substitution", [("in", inGlyph), ("out", out)]) xmlWriter.newline() def fromXML(self, name, attrs, content, font): mapping = getattr(self, "mapping", None) if mapping is None: mapping = {} self.mapping = mapping # TTX v3.0 and earlier. if name == "Coverage": self.old_coverage_ = [] for element in content: if not isinstance(element, tuple): continue element_name, element_attrs, _ = element if element_name == "Glyph": self.old_coverage_.append(element_attrs["value"]) return if name == "Sequence": index = int(attrs.get("index", len(mapping))) glyph = self.old_coverage_[index] glyph_mapping = mapping[glyph] = [] for element in content: if not isinstance(element, tuple): continue element_name, element_attrs, _ = element if element_name == "Substitute": glyph_mapping.append(element_attrs["value"]) return # TTX v3.1 and later. outGlyphs = attrs["out"].split(",") if attrs["out"] else [] mapping[attrs["in"]] = [g.strip() for g in outGlyphs] @staticmethod def makeSequence_(g): seq = Sequence() seq.Substitute = g return seq class ClassDef(FormatSwitchingBaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "classDefs"): self.classDefs = {} def postRead(self, rawTable, font): classDefs = {} if self.Format == 1: start = rawTable["StartGlyph"] classList = rawTable["ClassValueArray"] startID = font.getGlyphID(start) endID = startID + len(classList) glyphNames = font.getGlyphNameMany(range(startID, endID)) for glyphName, cls in zip(glyphNames, classList): if cls: classDefs[glyphName] = cls elif self.Format == 2: records = rawTable["ClassRangeRecord"] for rec in records: cls = rec.Class if not cls: continue start = rec.Start end = rec.End startID = font.getGlyphID(start) endID = font.getGlyphID(end) + 1 glyphNames = font.getGlyphNameMany(range(startID, endID)) for glyphName in glyphNames: classDefs[glyphName] = cls else: log.warning("Unknown ClassDef format: %s", self.Format) self.classDefs = classDefs del self.Format # Don't need this anymore def _getClassRanges(self, font): classDefs = getattr(self, "classDefs", None) if classDefs is None: self.classDefs = {} return getGlyphID = font.getGlyphID items = [] for glyphName, cls in classDefs.items(): if not cls: continue items.append((getGlyphID(glyphName), glyphName, cls)) if items: items.sort() last, lastName, lastCls = items[0] ranges = [[lastCls, last, lastName]] for glyphID, glyphName, cls in items[1:]: if glyphID != last + 1 or cls != lastCls: ranges[-1].extend([last, lastName]) ranges.append([cls, glyphID, glyphName]) last = glyphID lastName = glyphName lastCls = cls ranges[-1].extend([last, lastName]) return ranges def preWrite(self, font): format = 2 rawTable = {"ClassRangeRecord": []} ranges = self._getClassRanges(font) if ranges: startGlyph = ranges[0][1] endGlyph = ranges[-1][3] glyphCount = endGlyph - startGlyph + 1 if len(ranges) * 3 < glyphCount + 1: # Format 2 is more compact for i in range(len(ranges)): cls, start, startName, end, endName = ranges[i] rec = ClassRangeRecord() rec.Start = startName rec.End = endName rec.Class = cls ranges[i] = rec format = 2 rawTable = {"ClassRangeRecord": ranges} else: # Format 1 is more compact startGlyphName = ranges[0][2] classes = [0] * glyphCount for cls, start, startName, end, endName in ranges: for g in range(start - startGlyph, end - startGlyph + 1): classes[g] = cls format = 1 rawTable = {"StartGlyph": startGlyphName, "ClassValueArray": classes} self.Format = format return rawTable def toXML2(self, xmlWriter, font): items = sorted(self.classDefs.items()) for glyphName, cls in items: xmlWriter.simpletag("ClassDef", [("glyph", glyphName), ("class", cls)]) xmlWriter.newline() def fromXML(self, name, attrs, content, font): classDefs = getattr(self, "classDefs", None) if classDefs is None: classDefs = {} self.classDefs = classDefs classDefs[attrs["glyph"]] = int(attrs["class"]) class AlternateSubst(FormatSwitchingBaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "alternates"): self.alternates = {} def postRead(self, rawTable, font): alternates = {} if self.Format == 1: input = _getGlyphsFromCoverageTable(rawTable["Coverage"]) alts = rawTable["AlternateSet"] assert len(input) == len(alts) for inp, alt in zip(input, alts): alternates[inp] = alt.Alternate else: assert 0, "unknown format: %s" % self.Format self.alternates = alternates del self.Format # Don't need this anymore def preWrite(self, font): self.Format = 1 alternates = getattr(self, "alternates", None) if alternates is None: alternates = self.alternates = {} items = list(alternates.items()) for i in range(len(items)): glyphName, set = items[i] items[i] = font.getGlyphID(glyphName), glyphName, set items.sort() cov = Coverage() cov.glyphs = [item[1] for item in items] alternates = [] setList = [item[-1] for item in items] for set in setList: alts = AlternateSet() alts.Alternate = set alternates.append(alts) # a special case to deal with the fact that several hundred Adobe Japan1-5 # CJK fonts will overflow an offset if the coverage table isn't pushed to the end. # Also useful in that when splitting a sub-table because of an offset overflow # I don't need to calculate the change in the subtable offset due to the change in the coverage table size. # Allows packing more rules in subtable. self.sortCoverageLast = 1 return {"Coverage": cov, "AlternateSet": alternates} def toXML2(self, xmlWriter, font): items = sorted(self.alternates.items()) for glyphName, alternates in items: xmlWriter.begintag("AlternateSet", glyph=glyphName) xmlWriter.newline() for alt in alternates: xmlWriter.simpletag("Alternate", glyph=alt) xmlWriter.newline() xmlWriter.endtag("AlternateSet") xmlWriter.newline() def fromXML(self, name, attrs, content, font): alternates = getattr(self, "alternates", None) if alternates is None: alternates = {} self.alternates = alternates glyphName = attrs["glyph"] set = [] alternates[glyphName] = set for element in content: if not isinstance(element, tuple): continue name, attrs, content = element set.append(attrs["glyph"]) class LigatureSubst(FormatSwitchingBaseTable): def populateDefaults(self, propagator=None): if not hasattr(self, "ligatures"): self.ligatures = {} def postRead(self, rawTable, font): ligatures = {} if self.Format == 1: input = _getGlyphsFromCoverageTable(rawTable["Coverage"]) ligSets = rawTable["LigatureSet"] assert len(input) == len(ligSets) for i in range(len(input)): ligatures[input[i]] = ligSets[i].Ligature else: assert 0, "unknown format: %s" % self.Format self.ligatures = ligatures del self.Format # Don't need this anymore @staticmethod def _getLigatureSortKey(components): # Computes a key for ordering ligatures in a GSUB Type-4 lookup. # When building the OpenType lookup, we need to make sure that # the longest sequence of components is listed first, so we # use the negative length as the key for sorting. # Note, we no longer need to worry about deterministic order because the # ligature mapping `dict` remembers the insertion order, and this in # turn depends on the order in which the ligatures are written in the FEA. # Since python sort algorithm is stable, the ligatures of equal length # will keep the relative order in which they appear in the feature file. # For example, given the following ligatures (all starting with 'f' and # thus belonging to the same LigatureSet): # # feature liga { # sub f i by f_i; # sub f f f by f_f_f; # sub f f by f_f; # sub f f i by f_f_i; # } liga; # # this should sort to: f_f_f, f_f_i, f_i, f_f # This is also what fea-rs does, see: # https://github.com/adobe-type-tools/afdko/issues/1727 # https://github.com/fonttools/fonttools/issues/3428 # https://github.com/googlefonts/fontc/pull/680 return -len(components) def preWrite(self, font): self.Format = 1 ligatures = getattr(self, "ligatures", None) if ligatures is None: ligatures = self.ligatures = {} if ligatures and isinstance(next(iter(ligatures)), tuple): # New high-level API in v3.1 and later. Note that we just support compiling this # for now. We don't load to this API, and don't do XML with it. # ligatures is map from components-sequence to lig-glyph newLigatures = dict() for comps in sorted(ligatures.keys(), key=self._getLigatureSortKey): ligature = Ligature() ligature.Component = comps[1:] ligature.CompCount = len(comps) ligature.LigGlyph = ligatures[comps] newLigatures.setdefault(comps[0], []).append(ligature) ligatures = newLigatures items = list(ligatures.items()) for i in range(len(items)): glyphName, set = items[i] items[i] = font.getGlyphID(glyphName), glyphName, set items.sort() cov = Coverage() cov.glyphs = [item[1] for item in items] ligSets = [] setList = [item[-1] for item in items] for set in setList: ligSet = LigatureSet() ligs = ligSet.Ligature = [] for lig in set: ligs.append(lig) ligSets.append(ligSet) # Useful in that when splitting a sub-table because of an offset overflow # I don't need to calculate the change in subtabl offset due to the coverage table size. # Allows packing more rules in subtable. self.sortCoverageLast = 1 return {"Coverage": cov, "LigatureSet": ligSets} def toXML2(self, xmlWriter, font): items = sorted(self.ligatures.items()) for glyphName, ligSets in items: xmlWriter.begintag("LigatureSet", glyph=glyphName) xmlWriter.newline() for lig in ligSets: xmlWriter.simpletag( "Ligature", glyph=lig.LigGlyph, components=",".join(lig.Component) ) xmlWriter.newline() xmlWriter.endtag("LigatureSet") xmlWriter.newline() def fromXML(self, name, attrs, content, font): ligatures = getattr(self, "ligatures", None) if ligatures is None: ligatures = {} self.ligatures = ligatures glyphName = attrs["glyph"] ligs = [] ligatures[glyphName] = ligs for element in content: if not isinstance(element, tuple): continue name, attrs, content = element lig = Ligature() lig.LigGlyph = attrs["glyph"] components = attrs["components"] lig.Component = components.split(",") if components else [] lig.CompCount = len(lig.Component) ligs.append(lig) class COLR(BaseTable): def decompile(self, reader, font): # COLRv0 is exceptional in that LayerRecordCount appears *after* the # LayerRecordArray it counts, but the parser logic expects Count fields # to always precede the arrays. Here we work around this by parsing the # LayerRecordCount before the rest of the table, and storing it in # the reader's local state. subReader = reader.getSubReader(offset=0) for conv in self.getConverters(): if conv.name != "LayerRecordCount": subReader.advance(conv.staticSize) continue reader[conv.name] = conv.read(subReader, font, tableDict={}) break else: raise AssertionError("LayerRecordCount converter not found") return BaseTable.decompile(self, reader, font) def preWrite(self, font): # The writer similarly assumes Count values precede the things counted, # thus here we pre-initialize a CountReference; the actual count value # will be set to the lenght of the array by the time this is assembled. self.LayerRecordCount = None return { **self.__dict__, "LayerRecordCount": CountReference(self.__dict__, "LayerRecordCount"), } def computeClipBoxes(self, glyphSet: "_TTGlyphSet", quantization: int = 1): if self.Version == 0: return clips = {} for rec in self.BaseGlyphList.BaseGlyphPaintRecord: try: clipBox = rec.Paint.computeClipBox(self, glyphSet, quantization) except Exception as e: from fontTools.ttLib import TTLibError raise TTLibError( f"Failed to compute COLR ClipBox for {rec.BaseGlyph!r}" ) from e if clipBox is not None: clips[rec.BaseGlyph] = clipBox hasClipList = hasattr(self, "ClipList") and self.ClipList is not None if not clips: if hasClipList: self.ClipList = None else: if not hasClipList: self.ClipList = ClipList() self.ClipList.Format = 1 self.ClipList.clips = clips class LookupList(BaseTable): @property def table(self): for l in self.Lookup: for st in l.SubTable: if type(st).__name__.endswith("Subst"): return "GSUB" if type(st).__name__.endswith("Pos"): return "GPOS" raise ValueError def toXML2(self, xmlWriter, font): if ( not font or "Debg" not in font or LOOKUP_DEBUG_INFO_KEY not in font["Debg"].data ): return super().toXML2(xmlWriter, font) debugData = font["Debg"].data[LOOKUP_DEBUG_INFO_KEY][self.table] for conv in self.getConverters(): if conv.repeat: value = getattr(self, conv.name, []) for lookupIndex, item in enumerate(value): if str(lookupIndex) in debugData: info = LookupDebugInfo(*debugData[str(lookupIndex)]) tag = info.location if info.name: tag = f"{info.name}: {tag}" if info.feature: script, language, feature = info.feature tag = f"{tag} in {feature} ({script}/{language})" xmlWriter.comment(tag) xmlWriter.newline() conv.xmlWrite( xmlWriter, font, item, conv.name, [("index", lookupIndex)] ) else: if conv.aux and not eval(conv.aux, None, vars(self)): continue value = getattr( self, conv.name, None ) # TODO Handle defaults instead of defaulting to None! conv.xmlWrite(xmlWriter, font, value, conv.name, []) class BaseGlyphRecordArray(BaseTable): def preWrite(self, font): self.BaseGlyphRecord = sorted( self.BaseGlyphRecord, key=lambda rec: font.getGlyphID(rec.BaseGlyph) ) return self.__dict__.copy() class BaseGlyphList(BaseTable): def preWrite(self, font): self.BaseGlyphPaintRecord = sorted( self.BaseGlyphPaintRecord, key=lambda rec: font.getGlyphID(rec.BaseGlyph) ) return self.__dict__.copy() class ClipBoxFormat(IntEnum): Static = 1 Variable = 2 def is_variable(self): return self is self.Variable def as_variable(self): return self.Variable class ClipBox(getFormatSwitchingBaseTableClass("uint8")): formatEnum = ClipBoxFormat def as_tuple(self): return tuple(getattr(self, conv.name) for conv in self.getConverters()) def __repr__(self): return f"{self.__class__.__name__}{self.as_tuple()}" class ClipList(getFormatSwitchingBaseTableClass("uint8")): def populateDefaults(self, propagator=None): if not hasattr(self, "clips"): self.clips = {} def postRead(self, rawTable, font): clips = {} glyphOrder = font.getGlyphOrder() for i, rec in enumerate(rawTable["ClipRecord"]): if rec.StartGlyphID > rec.EndGlyphID: log.warning( "invalid ClipRecord[%i].StartGlyphID (%i) > " "EndGlyphID (%i); skipped", i, rec.StartGlyphID, rec.EndGlyphID, ) continue redefinedGlyphs = [] missingGlyphs = [] for glyphID in range(rec.StartGlyphID, rec.EndGlyphID + 1): try: glyph = glyphOrder[glyphID] except IndexError: missingGlyphs.append(glyphID) continue if glyph not in clips: clips[glyph] = copy.copy(rec.ClipBox) else: redefinedGlyphs.append(glyphID) if redefinedGlyphs: log.warning( "ClipRecord[%i] overlaps previous records; " "ignoring redefined clip boxes for the " "following glyph ID range: [%i-%i]", i, min(redefinedGlyphs), max(redefinedGlyphs), ) if missingGlyphs: log.warning( "ClipRecord[%i] range references missing " "glyph IDs: [%i-%i]", i, min(missingGlyphs), max(missingGlyphs), ) self.clips = clips def groups(self): glyphsByClip = defaultdict(list) uniqueClips = {} for glyphName, clipBox in self.clips.items(): key = clipBox.as_tuple() glyphsByClip[key].append(glyphName) if key not in uniqueClips: uniqueClips[key] = clipBox return { frozenset(glyphs): uniqueClips[key] for key, glyphs in glyphsByClip.items() } def preWrite(self, font): if not hasattr(self, "clips"): self.clips = {} clipBoxRanges = {} glyphMap = font.getReverseGlyphMap() for glyphs, clipBox in self.groups().items(): glyphIDs = sorted( glyphMap[glyphName] for glyphName in glyphs if glyphName in glyphMap ) if not glyphIDs: continue last = glyphIDs[0] ranges = [[last]] for glyphID in glyphIDs[1:]: if glyphID != last + 1: ranges[-1].append(last) ranges.append([glyphID]) last = glyphID ranges[-1].append(last) for start, end in ranges: assert (start, end) not in clipBoxRanges clipBoxRanges[(start, end)] = clipBox clipRecords = [] for (start, end), clipBox in sorted(clipBoxRanges.items()): record = ClipRecord() record.StartGlyphID = start record.EndGlyphID = end record.ClipBox = clipBox clipRecords.append(record) rawTable = { "ClipCount": len(clipRecords), "ClipRecord": clipRecords, } return rawTable def toXML(self, xmlWriter, font, attrs=None, name=None): tableName = name if name else self.__class__.__name__ if attrs is None: attrs = [] if hasattr(self, "Format"): attrs.append(("Format", self.Format)) xmlWriter.begintag(tableName, attrs) xmlWriter.newline() # sort clips alphabetically to ensure deterministic XML dump for glyphs, clipBox in sorted( self.groups().items(), key=lambda item: min(item[0]) ): xmlWriter.begintag("Clip") xmlWriter.newline() for glyphName in sorted(glyphs): xmlWriter.simpletag("Glyph", value=glyphName) xmlWriter.newline() xmlWriter.begintag("ClipBox", [("Format", clipBox.Format)]) xmlWriter.newline() clipBox.toXML2(xmlWriter, font) xmlWriter.endtag("ClipBox") xmlWriter.newline() xmlWriter.endtag("Clip") xmlWriter.newline() xmlWriter.endtag(tableName) xmlWriter.newline() def fromXML(self, name, attrs, content, font): clips = getattr(self, "clips", None) if clips is None: self.clips = clips = {} assert name == "Clip" glyphs = [] clipBox = None for elem in content: if not isinstance(elem, tuple): continue name, attrs, content = elem if name == "Glyph": glyphs.append(attrs["value"]) elif name == "ClipBox": clipBox = ClipBox() clipBox.Format = safeEval(attrs["Format"]) for elem in content: if not isinstance(elem, tuple): continue name, attrs, content = elem clipBox.fromXML(name, attrs, content, font) if clipBox: for glyphName in glyphs: clips[glyphName] = clipBox class ExtendMode(IntEnum): PAD = 0 REPEAT = 1 REFLECT = 2 # Porter-Duff modes for COLRv1 PaintComposite: # https://github.com/googlefonts/colr-gradients-spec/tree/off_sub_1#compositemode-enumeration class CompositeMode(IntEnum): CLEAR = 0 SRC = 1 DEST = 2 SRC_OVER = 3 DEST_OVER = 4 SRC_IN = 5 DEST_IN = 6 SRC_OUT = 7 DEST_OUT = 8 SRC_ATOP = 9 DEST_ATOP = 10 XOR = 11 PLUS = 12 SCREEN = 13 OVERLAY = 14 DARKEN = 15 LIGHTEN = 16 COLOR_DODGE = 17 COLOR_BURN = 18 HARD_LIGHT = 19 SOFT_LIGHT = 20 DIFFERENCE = 21 EXCLUSION = 22 MULTIPLY = 23 HSL_HUE = 24 HSL_SATURATION = 25 HSL_COLOR = 26 HSL_LUMINOSITY = 27 class PaintFormat(IntEnum): PaintColrLayers = 1 PaintSolid = 2 PaintVarSolid = 3 PaintLinearGradient = 4 PaintVarLinearGradient = 5 PaintRadialGradient = 6 PaintVarRadialGradient = 7 PaintSweepGradient = 8 PaintVarSweepGradient = 9 PaintGlyph = 10 PaintColrGlyph = 11 PaintTransform = 12 PaintVarTransform = 13 PaintTranslate = 14 PaintVarTranslate = 15 PaintScale = 16 PaintVarScale = 17 PaintScaleAroundCenter = 18 PaintVarScaleAroundCenter = 19 PaintScaleUniform = 20 PaintVarScaleUniform = 21 PaintScaleUniformAroundCenter = 22 PaintVarScaleUniformAroundCenter = 23 PaintRotate = 24 PaintVarRotate = 25 PaintRotateAroundCenter = 26 PaintVarRotateAroundCenter = 27 PaintSkew = 28 PaintVarSkew = 29 PaintSkewAroundCenter = 30 PaintVarSkewAroundCenter = 31 PaintComposite = 32 def is_variable(self): return self.name.startswith("PaintVar") def as_variable(self): if self.is_variable(): return self try: return PaintFormat.__members__[f"PaintVar{self.name[5:]}"] except KeyError: return None class Paint(getFormatSwitchingBaseTableClass("uint8")): formatEnum = PaintFormat def getFormatName(self): try: return self.formatEnum(self.Format).name except ValueError: raise NotImplementedError(f"Unknown Paint format: {self.Format}") def toXML(self, xmlWriter, font, attrs=None, name=None): tableName = name if name else self.__class__.__name__ if attrs is None: attrs = [] attrs.append(("Format", self.Format)) xmlWriter.begintag(tableName, attrs) xmlWriter.comment(self.getFormatName()) xmlWriter.newline() self.toXML2(xmlWriter, font) xmlWriter.endtag(tableName) xmlWriter.newline() def iterPaintSubTables(self, colr: COLR) -> Iterator[BaseTable.SubTableEntry]: if self.Format == PaintFormat.PaintColrLayers: # https://github.com/fonttools/fonttools/issues/2438: don't die when no LayerList exists layers = [] if colr.LayerList is not None: layers = colr.LayerList.Paint yield from ( BaseTable.SubTableEntry(name="Layers", value=v, index=i) for i, v in enumerate( layers[self.FirstLayerIndex : self.FirstLayerIndex + self.NumLayers] ) ) return if self.Format == PaintFormat.PaintColrGlyph: for record in colr.BaseGlyphList.BaseGlyphPaintRecord: if record.BaseGlyph == self.Glyph: yield BaseTable.SubTableEntry(name="BaseGlyph", value=record.Paint) return else: raise KeyError(f"{self.Glyph!r} not in colr.BaseGlyphList") for conv in self.getConverters(): if conv.tableClass is not None and issubclass(conv.tableClass, type(self)): value = getattr(self, conv.name) yield BaseTable.SubTableEntry(name=conv.name, value=value) def getChildren(self, colr) -> List["Paint"]: # this is kept for backward compatibility (e.g. it's used by the subsetter) return [p.value for p in self.iterPaintSubTables(colr)] def traverse(self, colr: COLR, callback): """Depth-first traversal of graph rooted at self, callback on each node.""" if not callable(callback): raise TypeError("callback must be callable") for path in dfs_base_table( self, iter_subtables_fn=lambda paint: paint.iterPaintSubTables(colr) ): paint = path[-1].value callback(paint) def getTransform(self) -> Transform: if self.Format == PaintFormat.PaintTransform: t = self.Transform return Transform(t.xx, t.yx, t.xy, t.yy, t.dx, t.dy) elif self.Format == PaintFormat.PaintTranslate: return Identity.translate(self.dx, self.dy) elif self.Format == PaintFormat.PaintScale: return Identity.scale(self.scaleX, self.scaleY) elif self.Format == PaintFormat.PaintScaleAroundCenter: return ( Identity.translate(self.centerX, self.centerY) .scale(self.scaleX, self.scaleY) .translate(-self.centerX, -self.centerY) ) elif self.Format == PaintFormat.PaintScaleUniform: return Identity.scale(self.scale) elif self.Format == PaintFormat.PaintScaleUniformAroundCenter: return ( Identity.translate(self.centerX, self.centerY) .scale(self.scale) .translate(-self.centerX, -self.centerY) ) elif self.Format == PaintFormat.PaintRotate: return Identity.rotate(radians(self.angle)) elif self.Format == PaintFormat.PaintRotateAroundCenter: return ( Identity.translate(self.centerX, self.centerY) .rotate(radians(self.angle)) .translate(-self.centerX, -self.centerY) ) elif self.Format == PaintFormat.PaintSkew: return Identity.skew(radians(-self.xSkewAngle), radians(self.ySkewAngle)) elif self.Format == PaintFormat.PaintSkewAroundCenter: return ( Identity.translate(self.centerX, self.centerY) .skew(radians(-self.xSkewAngle), radians(self.ySkewAngle)) .translate(-self.centerX, -self.centerY) ) if PaintFormat(self.Format).is_variable(): raise NotImplementedError(f"Variable Paints not supported: {self.Format}") return Identity def computeClipBox( self, colr: COLR, glyphSet: "_TTGlyphSet", quantization: int = 1 ) -> Optional[ClipBox]: pen = ControlBoundsPen(glyphSet) for path in dfs_base_table( self, iter_subtables_fn=lambda paint: paint.iterPaintSubTables(colr) ): paint = path[-1].value if paint.Format == PaintFormat.PaintGlyph: transformation = reduce( Transform.transform, (st.value.getTransform() for st in path), Identity, ) glyphSet[paint.Glyph].draw(TransformPen(pen, transformation)) if pen.bounds is None: return None cb = ClipBox() cb.Format = int(ClipBoxFormat.Static) cb.xMin, cb.yMin, cb.xMax, cb.yMax = quantizeRect(pen.bounds, quantization) return cb # For each subtable format there is a class. However, we don't really distinguish # between "field name" and "format name": often these are the same. Yet there's # a whole bunch of fields with different names. The following dict is a mapping # from "format name" to "field name". _buildClasses() uses this to create a # subclass for each alternate field name. # _equivalents = { "MarkArray": ("Mark1Array",), "LangSys": ("DefaultLangSys",), "Coverage": ( "MarkCoverage", "BaseCoverage", "LigatureCoverage", "Mark1Coverage", "Mark2Coverage", "BacktrackCoverage", "InputCoverage", "LookAheadCoverage", "VertGlyphCoverage", "HorizGlyphCoverage", "TopAccentCoverage", "ExtendedShapeCoverage", "MathKernCoverage", ), "ClassDef": ( "ClassDef1", "ClassDef2", "BacktrackClassDef", "InputClassDef", "LookAheadClassDef", "GlyphClassDef", "MarkAttachClassDef", ), "Anchor": ( "EntryAnchor", "ExitAnchor", "BaseAnchor", "LigatureAnchor", "Mark2Anchor", "MarkAnchor", ), "Device": ( "XPlaDevice", "YPlaDevice", "XAdvDevice", "YAdvDevice", "XDeviceTable", "YDeviceTable", "DeviceTable", ), "Axis": ( "HorizAxis", "VertAxis", ), "MinMax": ("DefaultMinMax",), "BaseCoord": ( "MinCoord", "MaxCoord", ), "JstfLangSys": ("DefJstfLangSys",), "JstfGSUBModList": ( "ShrinkageEnableGSUB", "ShrinkageDisableGSUB", "ExtensionEnableGSUB", "ExtensionDisableGSUB", ), "JstfGPOSModList": ( "ShrinkageEnableGPOS", "ShrinkageDisableGPOS", "ExtensionEnableGPOS", "ExtensionDisableGPOS", ), "JstfMax": ( "ShrinkageJstfMax", "ExtensionJstfMax", ), "MathKern": ( "TopRightMathKern", "TopLeftMathKern", "BottomRightMathKern", "BottomLeftMathKern", ), "MathGlyphConstruction": ("VertGlyphConstruction", "HorizGlyphConstruction"), } # # OverFlow logic, to automatically create ExtensionLookups # XXX This should probably move to otBase.py # def fixLookupOverFlows(ttf, overflowRecord): """Either the offset from the LookupList to a lookup overflowed, or an offset from a lookup to a subtable overflowed. The table layout is: GPSO/GUSB Script List Feature List LookUpList Lookup[0] and contents SubTable offset list SubTable[0] and contents ... SubTable[n] and contents ... Lookup[n] and contents SubTable offset list SubTable[0] and contents ... SubTable[n] and contents If the offset to a lookup overflowed (SubTableIndex is None) we must promote the *previous* lookup to an Extension type. If the offset from a lookup to subtable overflowed, then we must promote it to an Extension Lookup type. """ ok = 0 lookupIndex = overflowRecord.LookupListIndex if overflowRecord.SubTableIndex is None: lookupIndex = lookupIndex - 1 if lookupIndex < 0: return ok if overflowRecord.tableType == "GSUB": extType = 7 elif overflowRecord.tableType == "GPOS": extType = 9 lookups = ttf[overflowRecord.tableType].table.LookupList.Lookup lookup = lookups[lookupIndex] # If the previous lookup is an extType, look further back. Very unlikely, but possible. while lookup.SubTable[0].__class__.LookupType == extType: lookupIndex = lookupIndex - 1 if lookupIndex < 0: return ok lookup = lookups[lookupIndex] for lookupIndex in range(lookupIndex, len(lookups)): lookup = lookups[lookupIndex] if lookup.LookupType != extType: lookup.LookupType = extType for si in range(len(lookup.SubTable)): subTable = lookup.SubTable[si] extSubTableClass = lookupTypes[overflowRecord.tableType][extType] extSubTable = extSubTableClass() extSubTable.Format = 1 extSubTable.ExtSubTable = subTable lookup.SubTable[si] = extSubTable ok = 1 return ok def splitMultipleSubst(oldSubTable, newSubTable, overflowRecord): ok = 1 oldMapping = sorted(oldSubTable.mapping.items()) oldLen = len(oldMapping) if overflowRecord.itemName in ["Coverage", "RangeRecord"]: # Coverage table is written last. Overflow is to or within the # the coverage table. We will just cut the subtable in half. newLen = oldLen // 2 elif overflowRecord.itemName == "Sequence": # We just need to back up by two items from the overflowed # Sequence index to make sure the offset to the Coverage table # doesn't overflow. newLen = overflowRecord.itemIndex - 1 newSubTable.mapping = {} for i in range(newLen, oldLen): item = oldMapping[i] key = item[0] newSubTable.mapping[key] = item[1] del oldSubTable.mapping[key] return ok def splitAlternateSubst(oldSubTable, newSubTable, overflowRecord): ok = 1 if hasattr(oldSubTable, "sortCoverageLast"): newSubTable.sortCoverageLast = oldSubTable.sortCoverageLast oldAlts = sorted(oldSubTable.alternates.items()) oldLen = len(oldAlts) if overflowRecord.itemName in ["Coverage", "RangeRecord"]: # Coverage table is written last. overflow is to or within the # the coverage table. We will just cut the subtable in half. newLen = oldLen // 2 elif overflowRecord.itemName == "AlternateSet": # We just need to back up by two items # from the overflowed AlternateSet index to make sure the offset # to the Coverage table doesn't overflow. newLen = overflowRecord.itemIndex - 1 newSubTable.alternates = {} for i in range(newLen, oldLen): item = oldAlts[i] key = item[0] newSubTable.alternates[key] = item[1] del oldSubTable.alternates[key] return ok def splitLigatureSubst(oldSubTable, newSubTable, overflowRecord): ok = 1 oldLigs = sorted(oldSubTable.ligatures.items()) oldLen = len(oldLigs) if overflowRecord.itemName in ["Coverage", "RangeRecord"]: # Coverage table is written last. overflow is to or within the # the coverage table. We will just cut the subtable in half. newLen = oldLen // 2 elif overflowRecord.itemName == "LigatureSet": # We just need to back up by two items # from the overflowed AlternateSet index to make sure the offset # to the Coverage table doesn't overflow. newLen = overflowRecord.itemIndex - 1 newSubTable.ligatures = {} for i in range(newLen, oldLen): item = oldLigs[i] key = item[0] newSubTable.ligatures[key] = item[1] del oldSubTable.ligatures[key] return ok def splitPairPos(oldSubTable, newSubTable, overflowRecord): st = oldSubTable ok = False newSubTable.Format = oldSubTable.Format if oldSubTable.Format == 1 and len(oldSubTable.PairSet) > 1: for name in "ValueFormat1", "ValueFormat2": setattr(newSubTable, name, getattr(oldSubTable, name)) # Move top half of coverage to new subtable newSubTable.Coverage = oldSubTable.Coverage.__class__() coverage = oldSubTable.Coverage.glyphs records = oldSubTable.PairSet oldCount = len(oldSubTable.PairSet) // 2 oldSubTable.Coverage.glyphs = coverage[:oldCount] oldSubTable.PairSet = records[:oldCount] newSubTable.Coverage.glyphs = coverage[oldCount:] newSubTable.PairSet = records[oldCount:] oldSubTable.PairSetCount = len(oldSubTable.PairSet) newSubTable.PairSetCount = len(newSubTable.PairSet) ok = True elif oldSubTable.Format == 2 and len(oldSubTable.Class1Record) > 1: if not hasattr(oldSubTable, "Class2Count"): oldSubTable.Class2Count = len(oldSubTable.Class1Record[0].Class2Record) for name in "Class2Count", "ClassDef2", "ValueFormat1", "ValueFormat2": setattr(newSubTable, name, getattr(oldSubTable, name)) # The two subtables will still have the same ClassDef2 and the table # sharing will still cause the sharing to overflow. As such, disable # sharing on the one that is serialized second (that's oldSubTable). oldSubTable.DontShare = True # Move top half of class numbers to new subtable newSubTable.Coverage = oldSubTable.Coverage.__class__() newSubTable.ClassDef1 = oldSubTable.ClassDef1.__class__() coverage = oldSubTable.Coverage.glyphs classDefs = oldSubTable.ClassDef1.classDefs records = oldSubTable.Class1Record oldCount = len(oldSubTable.Class1Record) // 2 newGlyphs = set(k for k, v in classDefs.items() if v >= oldCount) oldSubTable.Coverage.glyphs = [g for g in coverage if g not in newGlyphs] oldSubTable.ClassDef1.classDefs = { k: v for k, v in classDefs.items() if v < oldCount } oldSubTable.Class1Record = records[:oldCount] newSubTable.Coverage.glyphs = [g for g in coverage if g in newGlyphs] newSubTable.ClassDef1.classDefs = { k: (v - oldCount) for k, v in classDefs.items() if v > oldCount } newSubTable.Class1Record = records[oldCount:] oldSubTable.Class1Count = len(oldSubTable.Class1Record) newSubTable.Class1Count = len(newSubTable.Class1Record) ok = True return ok def splitMarkBasePos(oldSubTable, newSubTable, overflowRecord): # split half of the mark classes to the new subtable classCount = oldSubTable.ClassCount if classCount < 2: # oh well, not much left to split... return False oldClassCount = classCount // 2 newClassCount = classCount - oldClassCount oldMarkCoverage, oldMarkRecords = [], [] newMarkCoverage, newMarkRecords = [], [] for glyphName, markRecord in zip( oldSubTable.MarkCoverage.glyphs, oldSubTable.MarkArray.MarkRecord ): if markRecord.Class < oldClassCount: oldMarkCoverage.append(glyphName) oldMarkRecords.append(markRecord) else: markRecord.Class -= oldClassCount newMarkCoverage.append(glyphName) newMarkRecords.append(markRecord) oldBaseRecords, newBaseRecords = [], [] for rec in oldSubTable.BaseArray.BaseRecord: oldBaseRecord, newBaseRecord = rec.__class__(), rec.__class__() oldBaseRecord.BaseAnchor = rec.BaseAnchor[:oldClassCount] newBaseRecord.BaseAnchor = rec.BaseAnchor[oldClassCount:] oldBaseRecords.append(oldBaseRecord) newBaseRecords.append(newBaseRecord) newSubTable.Format = oldSubTable.Format oldSubTable.MarkCoverage.glyphs = oldMarkCoverage newSubTable.MarkCoverage = oldSubTable.MarkCoverage.__class__() newSubTable.MarkCoverage.glyphs = newMarkCoverage # share the same BaseCoverage in both halves newSubTable.BaseCoverage = oldSubTable.BaseCoverage oldSubTable.ClassCount = oldClassCount newSubTable.ClassCount = newClassCount oldSubTable.MarkArray.MarkRecord = oldMarkRecords newSubTable.MarkArray = oldSubTable.MarkArray.__class__() newSubTable.MarkArray.MarkRecord = newMarkRecords oldSubTable.MarkArray.MarkCount = len(oldMarkRecords) newSubTable.MarkArray.MarkCount = len(newMarkRecords) oldSubTable.BaseArray.BaseRecord = oldBaseRecords newSubTable.BaseArray = oldSubTable.BaseArray.__class__() newSubTable.BaseArray.BaseRecord = newBaseRecords oldSubTable.BaseArray.BaseCount = len(oldBaseRecords) newSubTable.BaseArray.BaseCount = len(newBaseRecords) return True splitTable = { "GSUB": { # 1: splitSingleSubst, 2: splitMultipleSubst, 3: splitAlternateSubst, 4: splitLigatureSubst, # 5: splitContextSubst, # 6: splitChainContextSubst, # 7: splitExtensionSubst, # 8: splitReverseChainSingleSubst, }, "GPOS": { # 1: splitSinglePos, 2: splitPairPos, # 3: splitCursivePos, 4: splitMarkBasePos, # 5: splitMarkLigPos, # 6: splitMarkMarkPos, # 7: splitContextPos, # 8: splitChainContextPos, # 9: splitExtensionPos, }, } def fixSubTableOverFlows(ttf, overflowRecord): """ An offset has overflowed within a sub-table. We need to divide this subtable into smaller parts. """ table = ttf[overflowRecord.tableType].table lookup = table.LookupList.Lookup[overflowRecord.LookupListIndex] subIndex = overflowRecord.SubTableIndex subtable = lookup.SubTable[subIndex] # First, try not sharing anything for this subtable... if not hasattr(subtable, "DontShare"): subtable.DontShare = True return True if hasattr(subtable, "ExtSubTable"): # We split the subtable of the Extension table, and add a new Extension table # to contain the new subtable. subTableType = subtable.ExtSubTable.__class__.LookupType extSubTable = subtable subtable = extSubTable.ExtSubTable newExtSubTableClass = lookupTypes[overflowRecord.tableType][ extSubTable.__class__.LookupType ] newExtSubTable = newExtSubTableClass() newExtSubTable.Format = extSubTable.Format toInsert = newExtSubTable newSubTableClass = lookupTypes[overflowRecord.tableType][subTableType] newSubTable = newSubTableClass() newExtSubTable.ExtSubTable = newSubTable else: subTableType = subtable.__class__.LookupType newSubTableClass = lookupTypes[overflowRecord.tableType][subTableType] newSubTable = newSubTableClass() toInsert = newSubTable if hasattr(lookup, "SubTableCount"): # may not be defined yet. lookup.SubTableCount = lookup.SubTableCount + 1 try: splitFunc = splitTable[overflowRecord.tableType][subTableType] except KeyError: log.error( "Don't know how to split %s lookup type %s", overflowRecord.tableType, subTableType, ) return False ok = splitFunc(subtable, newSubTable, overflowRecord) if ok: lookup.SubTable.insert(subIndex + 1, toInsert) return ok # End of OverFlow logic def _buildClasses(): import re from .otData import otData formatPat = re.compile(r"([A-Za-z0-9]+)Format(\d+)$") namespace = globals() # populate module with classes for name, table in otData: baseClass = BaseTable m = formatPat.match(name) if m: # XxxFormatN subtable, we only add the "base" table name = m.group(1) # the first row of a format-switching otData table describes the Format; # the first column defines the type of the Format field. # Currently this can be either 'uint16' or 'uint8'. formatType = table[0][0] baseClass = getFormatSwitchingBaseTableClass(formatType) if name not in namespace: # the class doesn't exist yet, so the base implementation is used. cls = type(name, (baseClass,), {}) if name in ("GSUB", "GPOS"): cls.DontShare = True namespace[name] = cls # link Var{Table} <-> {Table} (e.g. ColorStop <-> VarColorStop, etc.) for name, _ in otData: if name.startswith("Var") and len(name) > 3 and name[3:] in namespace: varType = namespace[name] noVarType = namespace[name[3:]] varType.NoVarType = noVarType noVarType.VarType = varType for base, alts in _equivalents.items(): base = namespace[base] for alt in alts: namespace[alt] = base global lookupTypes lookupTypes = { "GSUB": { 1: SingleSubst, 2: MultipleSubst, 3: AlternateSubst, 4: LigatureSubst, 5: ContextSubst, 6: ChainContextSubst, 7: ExtensionSubst, 8: ReverseChainSingleSubst, }, "GPOS": { 1: SinglePos, 2: PairPos, 3: CursivePos, 4: MarkBasePos, 5: MarkLigPos, 6: MarkMarkPos, 7: ContextPos, 8: ChainContextPos, 9: ExtensionPos, }, "mort": { 4: NoncontextualMorph, }, "morx": { 0: RearrangementMorph, 1: ContextualMorph, 2: LigatureMorph, # 3: Reserved, 4: NoncontextualMorph, 5: InsertionMorph, }, } lookupTypes["JSTF"] = lookupTypes["GPOS"] # JSTF contains GPOS for lookupEnum in lookupTypes.values(): for enum, cls in lookupEnum.items(): cls.LookupType = enum global featureParamTypes featureParamTypes = { "size": FeatureParamsSize, } for i in range(1, 20 + 1): featureParamTypes["ss%02d" % i] = FeatureParamsStylisticSet for i in range(1, 99 + 1): featureParamTypes["cv%02d" % i] = FeatureParamsCharacterVariants # add converters to classes from .otConverters import buildConverters for name, table in otData: m = formatPat.match(name) if m: # XxxFormatN subtable, add converter to "base" table name, format = m.groups() format = int(format) cls = namespace[name] if not hasattr(cls, "converters"): cls.converters = {} cls.convertersByName = {} converters, convertersByName = buildConverters(table[1:], namespace) cls.converters[format] = converters cls.convertersByName[format] = convertersByName # XXX Add staticSize? else: cls = namespace[name] cls.converters, cls.convertersByName = buildConverters(table, namespace) # XXX Add staticSize? _buildClasses() def _getGlyphsFromCoverageTable(coverage): if coverage is None: # empty coverage table return [] else: return coverage.glyphs