from __future__ import print_function, division, absolute_import from fontTools.misc.py23 import * from fontTools.misc.fixedTools import ( fixedToFloat as fi2fl, floatToFixed as fl2fi, ensureVersionIsLong as fi2ve, versionToFixed as ve2fi) from fontTools.misc.textTools import pad, safeEval from fontTools.ttLib import getSearchRange from .otBase import (CountReference, FormatSwitchingBaseTable, OTTableReader, OTTableWriter, ValueRecordFactory) from .otTables import (lookupTypes, AATStateTable, AATState, AATAction, ContextualMorphAction, LigatureMorphAction, InsertionMorphAction, MorxSubtable) from functools import partial import struct import logging log = logging.getLogger(__name__) istuple = lambda t: isinstance(t, tuple) def buildConverters(tableSpec, tableNamespace): """Given a table spec from otData.py, build a converter object for each field of the table. This is called for each table in otData.py, and the results are assigned to the corresponding class in otTables.py.""" converters = [] convertersByName = {} for tp, name, repeat, aux, descr in tableSpec: tableName = name if name.startswith("ValueFormat"): assert tp == "uint16" converterClass = ValueFormat elif name.endswith("Count") or name in ("StructLength", "MorphType"): converterClass = { "uint8": ComputedUInt8, "uint16": ComputedUShort, "uint32": ComputedULong, }[tp] elif name == "SubTable": converterClass = SubTable elif name == "ExtSubTable": converterClass = ExtSubTable elif name == "SubStruct": converterClass = SubStruct elif name == "FeatureParams": converterClass = FeatureParams elif name in ("CIDGlyphMapping", "GlyphCIDMapping"): converterClass = StructWithLength else: if not tp in converterMapping and '(' not in tp: tableName = tp converterClass = Struct else: converterClass = eval(tp, tableNamespace, converterMapping) if tp in ('MortChain', 'MortSubtable', 'MorxChain'): tableClass = tableNamespace.get(tp) else: tableClass = tableNamespace.get(tableName) if tableClass is not None: conv = converterClass(name, repeat, aux, tableClass=tableClass) else: conv = converterClass(name, repeat, aux) if name in ["SubTable", "ExtSubTable", "SubStruct"]: conv.lookupTypes = tableNamespace['lookupTypes'] # also create reverse mapping for t in conv.lookupTypes.values(): for cls in t.values(): convertersByName[cls.__name__] = Table(name, repeat, aux, cls) if name == "FeatureParams": conv.featureParamTypes = tableNamespace['featureParamTypes'] conv.defaultFeatureParams = tableNamespace['FeatureParams'] for cls in conv.featureParamTypes.values(): convertersByName[cls.__name__] = Table(name, repeat, aux, cls) converters.append(conv) assert name not in convertersByName, name convertersByName[name] = conv return converters, convertersByName class _MissingItem(tuple): __slots__ = () try: from collections import UserList except ImportError: from UserList import UserList class _LazyList(UserList): def __getslice__(self, i, j): return self.__getitem__(slice(i, j)) def __getitem__(self, k): if isinstance(k, slice): indices = range(*k.indices(len(self))) return [self[i] for i in indices] item = self.data[k] if isinstance(item, _MissingItem): self.reader.seek(self.pos + item[0] * self.recordSize) item = self.conv.read(self.reader, self.font, {}) self.data[k] = item return item def __add__(self, other): if isinstance(other, _LazyList): other = list(other) elif isinstance(other, list): pass else: return NotImplemented return list(self) + other def __radd__(self, other): if not isinstance(other, list): return NotImplemented return other + list(self) class BaseConverter(object): """Base class for converter objects. Apart from the constructor, this is an abstract class.""" def __init__(self, name, repeat, aux, tableClass=None): self.name = name self.repeat = repeat self.aux = aux self.tableClass = tableClass self.isCount = name.endswith("Count") or name in ['DesignAxisRecordSize', 'ValueRecordSize'] self.isLookupType = name.endswith("LookupType") or name == "MorphType" self.isPropagated = name in ["ClassCount", "Class2Count", "FeatureTag", "SettingsCount", "VarRegionCount", "MappingCount", "RegionAxisCount", 'DesignAxisCount', 'DesignAxisRecordSize', 'AxisValueCount', 'ValueRecordSize', 'AxisCount'] def readArray(self, reader, font, tableDict, count): """Read an array of values from the reader.""" lazy = font.lazy and count > 8 if lazy: recordSize = self.getRecordSize(reader) if recordSize is NotImplemented: lazy = False if not lazy: l = [] for i in range(count): l.append(self.read(reader, font, tableDict)) return l else: l = _LazyList() l.reader = reader.copy() l.pos = l.reader.pos l.font = font l.conv = self l.recordSize = recordSize l.extend(_MissingItem([i]) for i in range(count)) reader.advance(count * recordSize) return l def getRecordSize(self, reader): if hasattr(self, 'staticSize'): return self.staticSize return NotImplemented def read(self, reader, font, tableDict): """Read a value from the reader.""" raise NotImplementedError(self) def writeArray(self, writer, font, tableDict, values): for i, value in enumerate(values): self.write(writer, font, tableDict, value, i) def write(self, writer, font, tableDict, value, repeatIndex=None): """Write a value to the writer.""" raise NotImplementedError(self) def xmlRead(self, attrs, content, font): """Read a value from XML.""" raise NotImplementedError(self) def xmlWrite(self, xmlWriter, font, value, name, attrs): """Write a value to XML.""" raise NotImplementedError(self) class SimpleValue(BaseConverter): def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.simpletag(name, attrs + [("value", value)]) xmlWriter.newline() def xmlRead(self, attrs, content, font): return attrs["value"] class IntValue(SimpleValue): def xmlRead(self, attrs, content, font): return int(attrs["value"], 0) class Long(IntValue): staticSize = 4 def read(self, reader, font, tableDict): return reader.readLong() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeLong(value) class ULong(IntValue): staticSize = 4 def read(self, reader, font, tableDict): return reader.readULong() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeULong(value) class Flags32(ULong): def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.simpletag(name, attrs + [("value", "0x%08X" % value)]) xmlWriter.newline() class Short(IntValue): staticSize = 2 def read(self, reader, font, tableDict): return reader.readShort() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeShort(value) class UShort(IntValue): staticSize = 2 def read(self, reader, font, tableDict): return reader.readUShort() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeUShort(value) class Int8(IntValue): staticSize = 1 def read(self, reader, font, tableDict): return reader.readInt8() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeInt8(value) class UInt8(IntValue): staticSize = 1 def read(self, reader, font, tableDict): return reader.readUInt8() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeUInt8(value) class UInt24(IntValue): staticSize = 3 def read(self, reader, font, tableDict): return reader.readUInt24() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeUInt24(value) class ComputedInt(IntValue): def xmlWrite(self, xmlWriter, font, value, name, attrs): if value is not None: xmlWriter.comment("%s=%s" % (name, value)) xmlWriter.newline() class ComputedUInt8(ComputedInt, UInt8): pass class ComputedUShort(ComputedInt, UShort): pass class ComputedULong(ComputedInt, ULong): pass class Tag(SimpleValue): staticSize = 4 def read(self, reader, font, tableDict): return reader.readTag() def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeTag(value) class GlyphID(SimpleValue): staticSize = 2 def readArray(self, reader, font, tableDict, count): glyphOrder = font.getGlyphOrder() gids = reader.readUShortArray(count) try: l = [glyphOrder[gid] for gid in gids] except IndexError: # Slower, but will not throw an IndexError on an invalid glyph id. l = [font.getGlyphName(gid) for gid in gids] return l def read(self, reader, font, tableDict): return font.getGlyphName(reader.readUShort()) def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeUShort(font.getGlyphID(value)) class NameID(UShort): def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.simpletag(name, attrs + [("value", value)]) if font and value: nameTable = font.get("name") if nameTable: name = nameTable.getDebugName(value) xmlWriter.write(" ") if name: xmlWriter.comment(name) else: xmlWriter.comment("missing from name table") log.warning("name id %d missing from name table" % value) xmlWriter.newline() class FloatValue(SimpleValue): def xmlRead(self, attrs, content, font): return float(attrs["value"]) class DeciPoints(FloatValue): staticSize = 2 def read(self, reader, font, tableDict): return reader.readUShort() / 10 def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeUShort(round(value * 10)) class Fixed(FloatValue): staticSize = 4 def read(self, reader, font, tableDict): return fi2fl(reader.readLong(), 16) def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeLong(fl2fi(value, 16)) class F2Dot14(FloatValue): staticSize = 2 def read(self, reader, font, tableDict): return fi2fl(reader.readShort(), 14) def write(self, writer, font, tableDict, value, repeatIndex=None): writer.writeShort(fl2fi(value, 14)) class Version(BaseConverter): staticSize = 4 def read(self, reader, font, tableDict): value = reader.readLong() assert (value >> 16) == 1, "Unsupported version 0x%08x" % value return value def write(self, writer, font, tableDict, value, repeatIndex=None): value = fi2ve(value) assert (value >> 16) == 1, "Unsupported version 0x%08x" % value writer.writeLong(value) def xmlRead(self, attrs, content, font): value = attrs["value"] value = ve2fi(value) return value def xmlWrite(self, xmlWriter, font, value, name, attrs): value = fi2ve(value) value = "0x%08x" % value xmlWriter.simpletag(name, attrs + [("value", value)]) xmlWriter.newline() @staticmethod def fromFloat(v): return fl2fi(v, 16) class Char64(SimpleValue): """An ASCII string with up to 64 characters. Unused character positions are filled with 0x00 bytes. Used in Apple AAT fonts in the `gcid` table. """ staticSize = 64 def read(self, reader, font, tableDict): data = reader.readData(self.staticSize) zeroPos = data.find(b"\0") if zeroPos >= 0: data = data[:zeroPos] s = tounicode(data, encoding="ascii", errors="replace") if s != tounicode(data, encoding="ascii", errors="ignore"): log.warning('replaced non-ASCII characters in "%s"' % s) return s def write(self, writer, font, tableDict, value, repeatIndex=None): data = tobytes(value, encoding="ascii", errors="replace") if data != tobytes(value, encoding="ascii", errors="ignore"): log.warning('replacing non-ASCII characters in "%s"' % value) if len(data) > self.staticSize: log.warning('truncating overlong "%s" to %d bytes' % (value, self.staticSize)) data = (data + b"\0" * self.staticSize)[:self.staticSize] writer.writeData(data) class Struct(BaseConverter): def getRecordSize(self, reader): return self.tableClass and self.tableClass.getRecordSize(reader) def read(self, reader, font, tableDict): table = self.tableClass() table.decompile(reader, font) return table def write(self, writer, font, tableDict, value, repeatIndex=None): value.compile(writer, font) def xmlWrite(self, xmlWriter, font, value, name, attrs): if value is None: if attrs: # If there are attributes (probably index), then # don't drop this even if it's NULL. It will mess # up the array indices of the containing element. xmlWriter.simpletag(name, attrs + [("empty", 1)]) xmlWriter.newline() else: pass # NULL table, ignore else: value.toXML(xmlWriter, font, attrs, name=name) def xmlRead(self, attrs, content, font): if "empty" in attrs and safeEval(attrs["empty"]): return None table = self.tableClass() Format = attrs.get("Format") if Format is not None: table.Format = int(Format) noPostRead = not hasattr(table, 'postRead') if noPostRead: # TODO Cache table.hasPropagated. cleanPropagation = False for conv in table.getConverters(): if conv.isPropagated: cleanPropagation = True if not hasattr(font, '_propagator'): font._propagator = {} propagator = font._propagator assert conv.name not in propagator, (conv.name, propagator) setattr(table, conv.name, None) propagator[conv.name] = CountReference(table.__dict__, conv.name) for element in content: if isinstance(element, tuple): name, attrs, content = element table.fromXML(name, attrs, content, font) else: pass table.populateDefaults(propagator=getattr(font, '_propagator', None)) if noPostRead: if cleanPropagation: for conv in table.getConverters(): if conv.isPropagated: propagator = font._propagator del propagator[conv.name] if not propagator: del font._propagator return table def __repr__(self): return "Struct of " + repr(self.tableClass) class StructWithLength(Struct): def read(self, reader, font, tableDict): pos = reader.pos table = self.tableClass() table.decompile(reader, font) reader.seek(pos + table.StructLength) return table def write(self, writer, font, tableDict, value, repeatIndex=None): for convIndex, conv in enumerate(value.getConverters()): if conv.name == "StructLength": break lengthIndex = len(writer.items) + convIndex if isinstance(value, FormatSwitchingBaseTable): lengthIndex += 1 # implicit Format field deadbeef = {1:0xDE, 2:0xDEAD, 4:0xDEADBEEF}[conv.staticSize] before = writer.getDataLength() value.StructLength = deadbeef value.compile(writer, font) length = writer.getDataLength() - before lengthWriter = writer.getSubWriter() conv.write(lengthWriter, font, tableDict, length) assert(writer.items[lengthIndex] == b"\xde\xad\xbe\xef"[:conv.staticSize]) writer.items[lengthIndex] = lengthWriter.getAllData() class Table(Struct): longOffset = False staticSize = 2 def readOffset(self, reader): return reader.readUShort() def writeNullOffset(self, writer): if self.longOffset: writer.writeULong(0) else: writer.writeUShort(0) def read(self, reader, font, tableDict): offset = self.readOffset(reader) if offset == 0: return None table = self.tableClass() reader = reader.getSubReader(offset) if font.lazy: table.reader = reader table.font = font else: table.decompile(reader, font) return table def write(self, writer, font, tableDict, value, repeatIndex=None): if value is None: self.writeNullOffset(writer) else: subWriter = writer.getSubWriter() subWriter.longOffset = self.longOffset subWriter.name = self.name if repeatIndex is not None: subWriter.repeatIndex = repeatIndex writer.writeSubTable(subWriter) value.compile(subWriter, font) class LTable(Table): longOffset = True staticSize = 4 def readOffset(self, reader): return reader.readULong() # TODO Clean / merge the SubTable and SubStruct class SubStruct(Struct): def getConverter(self, tableType, lookupType): tableClass = self.lookupTypes[tableType][lookupType] return self.__class__(self.name, self.repeat, self.aux, tableClass) def xmlWrite(self, xmlWriter, font, value, name, attrs): super(SubStruct, self).xmlWrite(xmlWriter, font, value, None, attrs) class SubTable(Table): def getConverter(self, tableType, lookupType): tableClass = self.lookupTypes[tableType][lookupType] return self.__class__(self.name, self.repeat, self.aux, tableClass) def xmlWrite(self, xmlWriter, font, value, name, attrs): super(SubTable, self).xmlWrite(xmlWriter, font, value, None, attrs) class ExtSubTable(LTable, SubTable): def write(self, writer, font, tableDict, value, repeatIndex=None): writer.Extension = True # actually, mere presence of the field flags it as an Ext Subtable writer. Table.write(self, writer, font, tableDict, value, repeatIndex) class FeatureParams(Table): def getConverter(self, featureTag): tableClass = self.featureParamTypes.get(featureTag, self.defaultFeatureParams) return self.__class__(self.name, self.repeat, self.aux, tableClass) class ValueFormat(IntValue): staticSize = 2 def __init__(self, name, repeat, aux, tableClass=None): BaseConverter.__init__(self, name, repeat, aux, tableClass) self.which = "ValueFormat" + ("2" if name[-1] == "2" else "1") def read(self, reader, font, tableDict): format = reader.readUShort() reader[self.which] = ValueRecordFactory(format) return format def write(self, writer, font, tableDict, format, repeatIndex=None): writer.writeUShort(format) writer[self.which] = ValueRecordFactory(format) class ValueRecord(ValueFormat): def getRecordSize(self, reader): return 2 * len(reader[self.which]) def read(self, reader, font, tableDict): return reader[self.which].readValueRecord(reader, font) def write(self, writer, font, tableDict, value, repeatIndex=None): writer[self.which].writeValueRecord(writer, font, value) def xmlWrite(self, xmlWriter, font, value, name, attrs): if value is None: pass # NULL table, ignore else: value.toXML(xmlWriter, font, self.name, attrs) def xmlRead(self, attrs, content, font): from .otBase import ValueRecord value = ValueRecord() value.fromXML(None, attrs, content, font) return value class AATLookup(BaseConverter): BIN_SEARCH_HEADER_SIZE = 10 def __init__(self, name, repeat, aux, tableClass): BaseConverter.__init__(self, name, repeat, aux, tableClass) if issubclass(self.tableClass, SimpleValue): self.converter = self.tableClass(name='Value', repeat=None, aux=None) else: self.converter = Table(name='Value', repeat=None, aux=None, tableClass=self.tableClass) def read(self, reader, font, tableDict): format = reader.readUShort() if format == 0: return self.readFormat0(reader, font) elif format == 2: return self.readFormat2(reader, font) elif format == 4: return self.readFormat4(reader, font) elif format == 6: return self.readFormat6(reader, font) elif format == 8: return self.readFormat8(reader, font) else: assert False, "unsupported lookup format: %d" % format def write(self, writer, font, tableDict, value, repeatIndex=None): values = list(sorted([(font.getGlyphID(glyph), val) for glyph, val in value.items()])) # TODO: Also implement format 4. formats = list(sorted(filter(None, [ self.buildFormat0(writer, font, values), self.buildFormat2(writer, font, values), self.buildFormat6(writer, font, values), self.buildFormat8(writer, font, values), ]))) # We use the format ID as secondary sort key to make the output # deterministic when multiple formats have same encoded size. dataSize, lookupFormat, writeMethod = formats[0] pos = writer.getDataLength() writeMethod() actualSize = writer.getDataLength() - pos assert actualSize == dataSize, ( "AATLookup format %d claimed to write %d bytes, but wrote %d" % (lookupFormat, dataSize, actualSize)) @staticmethod def writeBinSearchHeader(writer, numUnits, unitSize): writer.writeUShort(unitSize) writer.writeUShort(numUnits) searchRange, entrySelector, rangeShift = \ getSearchRange(n=numUnits, itemSize=unitSize) writer.writeUShort(searchRange) writer.writeUShort(entrySelector) writer.writeUShort(rangeShift) def buildFormat0(self, writer, font, values): numGlyphs = len(font.getGlyphOrder()) if len(values) != numGlyphs: return None valueSize = self.converter.staticSize return (2 + numGlyphs * valueSize, 0, lambda: self.writeFormat0(writer, font, values)) def writeFormat0(self, writer, font, values): writer.writeUShort(0) for glyphID_, value in values: self.converter.write( writer, font, tableDict=None, value=value, repeatIndex=None) def buildFormat2(self, writer, font, values): segStart, segValue = values[0] segEnd = segStart segments = [] for glyphID, curValue in values[1:]: if glyphID != segEnd + 1 or curValue != segValue: segments.append((segStart, segEnd, segValue)) segStart = segEnd = glyphID segValue = curValue else: segEnd = glyphID segments.append((segStart, segEnd, segValue)) valueSize = self.converter.staticSize numUnits, unitSize = len(segments) + 1, valueSize + 4 return (2 + self.BIN_SEARCH_HEADER_SIZE + numUnits * unitSize, 2, lambda: self.writeFormat2(writer, font, segments)) def writeFormat2(self, writer, font, segments): writer.writeUShort(2) valueSize = self.converter.staticSize numUnits, unitSize = len(segments), valueSize + 4 self.writeBinSearchHeader(writer, numUnits, unitSize) for firstGlyph, lastGlyph, value in segments: writer.writeUShort(lastGlyph) writer.writeUShort(firstGlyph) self.converter.write( writer, font, tableDict=None, value=value, repeatIndex=None) writer.writeUShort(0xFFFF) writer.writeUShort(0xFFFF) writer.writeData(b'\x00' * valueSize) def buildFormat6(self, writer, font, values): valueSize = self.converter.staticSize numUnits, unitSize = len(values), valueSize + 2 return (2 + self.BIN_SEARCH_HEADER_SIZE + (numUnits + 1) * unitSize, 6, lambda: self.writeFormat6(writer, font, values)) def writeFormat6(self, writer, font, values): writer.writeUShort(6) valueSize = self.converter.staticSize numUnits, unitSize = len(values), valueSize + 2 self.writeBinSearchHeader(writer, numUnits, unitSize) for glyphID, value in values: writer.writeUShort(glyphID) self.converter.write( writer, font, tableDict=None, value=value, repeatIndex=None) writer.writeUShort(0xFFFF) writer.writeData(b'\x00' * valueSize) def buildFormat8(self, writer, font, values): minGlyphID, maxGlyphID = values[0][0], values[-1][0] if len(values) != maxGlyphID - minGlyphID + 1: return None valueSize = self.converter.staticSize return (6 + len(values) * valueSize, 8, lambda: self.writeFormat8(writer, font, values)) def writeFormat8(self, writer, font, values): firstGlyphID = values[0][0] writer.writeUShort(8) writer.writeUShort(firstGlyphID) writer.writeUShort(len(values)) for _, value in values: self.converter.write( writer, font, tableDict=None, value=value, repeatIndex=None) def readFormat0(self, reader, font): numGlyphs = len(font.getGlyphOrder()) data = self.converter.readArray( reader, font, tableDict=None, count=numGlyphs) return {font.getGlyphName(k): value for k, value in enumerate(data)} def readFormat2(self, reader, font): mapping = {} pos = reader.pos - 2 # start of table is at UShort for format unitSize, numUnits = reader.readUShort(), reader.readUShort() assert unitSize >= 4 + self.converter.staticSize, unitSize for i in range(numUnits): reader.seek(pos + i * unitSize + 12) last = reader.readUShort() first = reader.readUShort() value = self.converter.read(reader, font, tableDict=None) if last != 0xFFFF: for k in range(first, last + 1): mapping[font.getGlyphName(k)] = value return mapping def readFormat4(self, reader, font): mapping = {} pos = reader.pos - 2 # start of table is at UShort for format unitSize = reader.readUShort() assert unitSize >= 6, unitSize for i in range(reader.readUShort()): reader.seek(pos + i * unitSize + 12) last = reader.readUShort() first = reader.readUShort() offset = reader.readUShort() if last != 0xFFFF: dataReader = reader.getSubReader(0) # relative to current position dataReader.seek(pos + offset) # relative to start of table data = self.converter.readArray( dataReader, font, tableDict=None, count=last - first + 1) for k, v in enumerate(data): mapping[font.getGlyphName(first + k)] = v return mapping def readFormat6(self, reader, font): mapping = {} pos = reader.pos - 2 # start of table is at UShort for format unitSize = reader.readUShort() assert unitSize >= 2 + self.converter.staticSize, unitSize for i in range(reader.readUShort()): reader.seek(pos + i * unitSize + 12) glyphID = reader.readUShort() value = self.converter.read( reader, font, tableDict=None) if glyphID != 0xFFFF: mapping[font.getGlyphName(glyphID)] = value return mapping def readFormat8(self, reader, font): first = reader.readUShort() count = reader.readUShort() data = self.converter.readArray( reader, font, tableDict=None, count=count) return {font.getGlyphName(first + k): value for (k, value) in enumerate(data)} def xmlRead(self, attrs, content, font): value = {} for element in content: if isinstance(element, tuple): name, a, eltContent = element if name == "Lookup": value[a["glyph"]] = self.converter.xmlRead(a, eltContent, font) return value def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.begintag(name, attrs) xmlWriter.newline() for glyph, value in sorted(value.items()): self.converter.xmlWrite( xmlWriter, font, value=value, name="Lookup", attrs=[("glyph", glyph)]) xmlWriter.endtag(name) xmlWriter.newline() # The AAT 'ankr' table has an unusual structure: An offset to an AATLookup # followed by an offset to a glyph data table. Other than usual, the # offsets in the AATLookup are not relative to the beginning of # the beginning of the 'ankr' table, but relative to the glyph data table. # So, to find the anchor data for a glyph, one needs to add the offset # to the data table to the offset found in the AATLookup, and then use # the sum of these two offsets to find the actual data. class AATLookupWithDataOffset(BaseConverter): def read(self, reader, font, tableDict): lookupOffset = reader.readULong() dataOffset = reader.readULong() lookupReader = reader.getSubReader(lookupOffset) lookup = AATLookup('DataOffsets', None, None, UShort) offsets = lookup.read(lookupReader, font, tableDict) result = {} for glyph, offset in offsets.items(): dataReader = reader.getSubReader(offset + dataOffset) item = self.tableClass() item.decompile(dataReader, font) result[glyph] = item return result def write(self, writer, font, tableDict, value, repeatIndex=None): # We do not work with OTTableWriter sub-writers because # the offsets in our AATLookup are relative to our data # table, for which we need to provide an offset value itself. # It might have been possible to somehow make a kludge for # performing this indirect offset computation directly inside # OTTableWriter. But this would have made the internal logic # of OTTableWriter even more complex than it already is, # so we decided to roll our own offset computation for the # contents of the AATLookup and associated data table. offsetByGlyph, offsetByData, dataLen = {}, {}, 0 compiledData = [] for glyph in sorted(value, key=font.getGlyphID): subWriter = OTTableWriter() value[glyph].compile(subWriter, font) data = subWriter.getAllData() offset = offsetByData.get(data, None) if offset == None: offset = dataLen dataLen = dataLen + len(data) offsetByData[data] = offset compiledData.append(data) offsetByGlyph[glyph] = offset # For calculating the offsets to our AATLookup and data table, # we can use the regular OTTableWriter infrastructure. lookupWriter = writer.getSubWriter() lookupWriter.longOffset = True lookup = AATLookup('DataOffsets', None, None, UShort) lookup.write(lookupWriter, font, tableDict, offsetByGlyph, None) dataWriter = writer.getSubWriter() dataWriter.longOffset = True writer.writeSubTable(lookupWriter) writer.writeSubTable(dataWriter) for d in compiledData: dataWriter.writeData(d) def xmlRead(self, attrs, content, font): lookup = AATLookup('DataOffsets', None, None, self.tableClass) return lookup.xmlRead(attrs, content, font) def xmlWrite(self, xmlWriter, font, value, name, attrs): lookup = AATLookup('DataOffsets', None, None, self.tableClass) lookup.xmlWrite(xmlWriter, font, value, name, attrs) class MorxSubtableConverter(BaseConverter): _PROCESSING_ORDERS = { # bits 30 and 28 of morx.CoverageFlags; see morx spec (False, False): "LayoutOrder", (True, False): "ReversedLayoutOrder", (False, True): "LogicalOrder", (True, True): "ReversedLogicalOrder", } _PROCESSING_ORDERS_REVERSED = { val: key for key, val in _PROCESSING_ORDERS.items() } def __init__(self, name, repeat, aux): BaseConverter.__init__(self, name, repeat, aux) def _setTextDirectionFromCoverageFlags(self, flags, subtable): if (flags & 0x20) != 0: subtable.TextDirection = "Any" elif (flags & 0x80) != 0: subtable.TextDirection = "Vertical" else: subtable.TextDirection = "Horizontal" def read(self, reader, font, tableDict): pos = reader.pos m = MorxSubtable() m.StructLength = reader.readULong() flags = reader.readUInt8() orderKey = ((flags & 0x40) != 0, (flags & 0x10) != 0) m.ProcessingOrder = self._PROCESSING_ORDERS[orderKey] self._setTextDirectionFromCoverageFlags(flags, m) m.Reserved = reader.readUShort() m.Reserved |= (flags & 0xF) << 16 m.MorphType = reader.readUInt8() m.SubFeatureFlags = reader.readULong() tableClass = lookupTypes["morx"].get(m.MorphType) if tableClass is None: assert False, ("unsupported 'morx' lookup type %s" % m.MorphType) # To decode AAT ligatures, we need to know the subtable size. # The easiest way to pass this along is to create a new reader # that works on just the subtable as its data. headerLength = reader.pos - pos data = reader.data[ reader.pos : reader.pos + m.StructLength - headerLength] assert len(data) == m.StructLength - headerLength subReader = OTTableReader(data=data, tableTag=reader.tableTag) m.SubStruct = tableClass() m.SubStruct.decompile(subReader, font) reader.seek(pos + m.StructLength) return m def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.begintag(name, attrs) xmlWriter.newline() xmlWriter.comment("StructLength=%d" % value.StructLength) xmlWriter.newline() xmlWriter.simpletag("TextDirection", value=value.TextDirection) xmlWriter.newline() xmlWriter.simpletag("ProcessingOrder", value=value.ProcessingOrder) xmlWriter.newline() if value.Reserved != 0: xmlWriter.simpletag("Reserved", value="0x%04x" % value.Reserved) xmlWriter.newline() xmlWriter.comment("MorphType=%d" % value.MorphType) xmlWriter.newline() xmlWriter.simpletag("SubFeatureFlags", value="0x%08x" % value.SubFeatureFlags) xmlWriter.newline() value.SubStruct.toXML(xmlWriter, font) xmlWriter.endtag(name) xmlWriter.newline() def xmlRead(self, attrs, content, font): m = MorxSubtable() covFlags = 0 m.Reserved = 0 for eltName, eltAttrs, eltContent in filter(istuple, content): if eltName == "CoverageFlags": # Only in XML from old versions of fonttools. covFlags = safeEval(eltAttrs["value"]) orderKey = ((covFlags & 0x40) != 0, (covFlags & 0x10) != 0) m.ProcessingOrder = self._PROCESSING_ORDERS[ orderKey] self._setTextDirectionFromCoverageFlags( covFlags, m) elif eltName == "ProcessingOrder": m.ProcessingOrder = eltAttrs["value"] assert m.ProcessingOrder in self._PROCESSING_ORDERS_REVERSED, "unknown ProcessingOrder: %s" % m.ProcessingOrder elif eltName == "TextDirection": m.TextDirection = eltAttrs["value"] assert m.TextDirection in {"Horizontal", "Vertical", "Any"}, "unknown TextDirection %s" % m.TextDirection elif eltName == "Reserved": m.Reserved = safeEval(eltAttrs["value"]) elif eltName == "SubFeatureFlags": m.SubFeatureFlags = safeEval(eltAttrs["value"]) elif eltName.endswith("Morph"): m.fromXML(eltName, eltAttrs, eltContent, font) else: assert False, eltName m.Reserved = (covFlags & 0xF) << 16 | m.Reserved return m def write(self, writer, font, tableDict, value, repeatIndex=None): covFlags = (value.Reserved & 0x000F0000) >> 16 reverseOrder, logicalOrder = self._PROCESSING_ORDERS_REVERSED[ value.ProcessingOrder] covFlags |= 0x80 if value.TextDirection == "Vertical" else 0 covFlags |= 0x40 if reverseOrder else 0 covFlags |= 0x20 if value.TextDirection == "Any" else 0 covFlags |= 0x10 if logicalOrder else 0 value.CoverageFlags = covFlags lengthIndex = len(writer.items) before = writer.getDataLength() value.StructLength = 0xdeadbeef # The high nibble of value.Reserved is actuallly encoded # into coverageFlags, so we need to clear it here. origReserved = value.Reserved # including high nibble value.Reserved = value.Reserved & 0xFFFF # without high nibble value.compile(writer, font) value.Reserved = origReserved # restore original value assert writer.items[lengthIndex] == b"\xde\xad\xbe\xef" length = writer.getDataLength() - before writer.items[lengthIndex] = struct.pack(">L", length) # https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6Tables.html#ExtendedStateHeader # TODO: Untangle the implementation of the various lookup-specific formats. class STXHeader(BaseConverter): def __init__(self, name, repeat, aux, tableClass): BaseConverter.__init__(self, name, repeat, aux, tableClass) assert issubclass(self.tableClass, AATAction) self.classLookup = AATLookup("GlyphClasses", None, None, UShort) if issubclass(self.tableClass, ContextualMorphAction): self.perGlyphLookup = AATLookup("PerGlyphLookup", None, None, GlyphID) else: self.perGlyphLookup = None def read(self, reader, font, tableDict): table = AATStateTable() pos = reader.pos classTableReader = reader.getSubReader(0) stateArrayReader = reader.getSubReader(0) entryTableReader = reader.getSubReader(0) actionReader = None ligaturesReader = None table.GlyphClassCount = reader.readULong() classTableReader.seek(pos + reader.readULong()) stateArrayReader.seek(pos + reader.readULong()) entryTableReader.seek(pos + reader.readULong()) if self.perGlyphLookup is not None: perGlyphTableReader = reader.getSubReader(0) perGlyphTableReader.seek(pos + reader.readULong()) if issubclass(self.tableClass, LigatureMorphAction): actionReader = reader.getSubReader(0) actionReader.seek(pos + reader.readULong()) ligComponentReader = reader.getSubReader(0) ligComponentReader.seek(pos + reader.readULong()) ligaturesReader = reader.getSubReader(0) ligaturesReader.seek(pos + reader.readULong()) numLigComponents = (ligaturesReader.pos - ligComponentReader.pos) // 2 assert numLigComponents >= 0 table.LigComponents = \ ligComponentReader.readUShortArray(numLigComponents) table.Ligatures = self._readLigatures(ligaturesReader, font) elif issubclass(self.tableClass, InsertionMorphAction): actionReader = reader.getSubReader(0) actionReader.seek(pos + reader.readULong()) table.GlyphClasses = self.classLookup.read(classTableReader, font, tableDict) numStates = int((entryTableReader.pos - stateArrayReader.pos) / (table.GlyphClassCount * 2)) for stateIndex in range(numStates): state = AATState() table.States.append(state) for glyphClass in range(table.GlyphClassCount): entryIndex = stateArrayReader.readUShort() state.Transitions[glyphClass] = \ self._readTransition(entryTableReader, entryIndex, font, actionReader) if self.perGlyphLookup is not None: table.PerGlyphLookups = self._readPerGlyphLookups( table, perGlyphTableReader, font) return table def _readTransition(self, reader, entryIndex, font, actionReader): transition = self.tableClass() entryReader = reader.getSubReader( reader.pos + entryIndex * transition.staticSize) transition.decompile(entryReader, font, actionReader) return transition def _readLigatures(self, reader, font): limit = len(reader.data) numLigatureGlyphs = (limit - reader.pos) // 2 return [font.getGlyphName(g) for g in reader.readUShortArray(numLigatureGlyphs)] def _countPerGlyphLookups(self, table): # Somewhat annoyingly, the morx table does not encode # the size of the per-glyph table. So we need to find # the maximum value that MorphActions use as index # into this table. numLookups = 0 for state in table.States: for t in state.Transitions.values(): if isinstance(t, ContextualMorphAction): if t.MarkIndex != 0xFFFF: numLookups = max( numLookups, t.MarkIndex + 1) if t.CurrentIndex != 0xFFFF: numLookups = max( numLookups, t.CurrentIndex + 1) return numLookups def _readPerGlyphLookups(self, table, reader, font): pos = reader.pos lookups = [] for _ in range(self._countPerGlyphLookups(table)): lookupReader = reader.getSubReader(0) lookupReader.seek(pos + reader.readULong()) lookups.append( self.perGlyphLookup.read(lookupReader, font, {})) return lookups def write(self, writer, font, tableDict, value, repeatIndex=None): glyphClassWriter = OTTableWriter() self.classLookup.write(glyphClassWriter, font, tableDict, value.GlyphClasses, repeatIndex=None) glyphClassData = pad(glyphClassWriter.getAllData(), 2) glyphClassCount = max(value.GlyphClasses.values()) + 1 glyphClassTableOffset = 16 # size of STXHeader if self.perGlyphLookup is not None: glyphClassTableOffset += 4 glyphClassTableOffset += self.tableClass.actionHeaderSize actionData, actionIndex = \ self.tableClass.compileActions(font, value.States) stateArrayData, entryTableData = self._compileStates( font, value.States, glyphClassCount, actionIndex) stateArrayOffset = glyphClassTableOffset + len(glyphClassData) entryTableOffset = stateArrayOffset + len(stateArrayData) perGlyphOffset = entryTableOffset + len(entryTableData) perGlyphData = \ pad(self._compilePerGlyphLookups(value, font), 4) if actionData is not None: actionOffset = entryTableOffset + len(entryTableData) else: actionOffset = None ligaturesOffset, ligComponentsOffset = None, None ligComponentsData = self._compileLigComponents(value, font) ligaturesData = self._compileLigatures(value, font) if ligComponentsData is not None: assert len(perGlyphData) == 0 ligComponentsOffset = actionOffset + len(actionData) ligaturesOffset = ligComponentsOffset + len(ligComponentsData) writer.writeULong(glyphClassCount) writer.writeULong(glyphClassTableOffset) writer.writeULong(stateArrayOffset) writer.writeULong(entryTableOffset) if self.perGlyphLookup is not None: writer.writeULong(perGlyphOffset) if actionOffset is not None: writer.writeULong(actionOffset) if ligComponentsOffset is not None: writer.writeULong(ligComponentsOffset) writer.writeULong(ligaturesOffset) writer.writeData(glyphClassData) writer.writeData(stateArrayData) writer.writeData(entryTableData) writer.writeData(perGlyphData) if actionData is not None: writer.writeData(actionData) if ligComponentsData is not None: writer.writeData(ligComponentsData) if ligaturesData is not None: writer.writeData(ligaturesData) def _compileStates(self, font, states, glyphClassCount, actionIndex): stateArrayWriter = OTTableWriter() entries, entryIDs = [], {} for state in states: for glyphClass in range(glyphClassCount): transition = state.Transitions[glyphClass] entryWriter = OTTableWriter() transition.compile(entryWriter, font, actionIndex) entryData = entryWriter.getAllData() assert len(entryData) == transition.staticSize, ( \ "%s has staticSize %d, " "but actually wrote %d bytes" % ( repr(transition), transition.staticSize, len(entryData))) entryIndex = entryIDs.get(entryData) if entryIndex is None: entryIndex = len(entries) entryIDs[entryData] = entryIndex entries.append(entryData) stateArrayWriter.writeUShort(entryIndex) stateArrayData = pad(stateArrayWriter.getAllData(), 4) entryTableData = pad(bytesjoin(entries), 4) return stateArrayData, entryTableData def _compilePerGlyphLookups(self, table, font): if self.perGlyphLookup is None: return b"" numLookups = self._countPerGlyphLookups(table) assert len(table.PerGlyphLookups) == numLookups, ( "len(AATStateTable.PerGlyphLookups) is %d, " "but the actions inside the table refer to %d" % (len(table.PerGlyphLookups), numLookups)) writer = OTTableWriter() for lookup in table.PerGlyphLookups: lookupWriter = writer.getSubWriter() lookupWriter.longOffset = True self.perGlyphLookup.write(lookupWriter, font, {}, lookup, None) writer.writeSubTable(lookupWriter) return writer.getAllData() def _compileLigComponents(self, table, font): if not hasattr(table, "LigComponents"): return None writer = OTTableWriter() for component in table.LigComponents: writer.writeUShort(component) return writer.getAllData() def _compileLigatures(self, table, font): if not hasattr(table, "Ligatures"): return None writer = OTTableWriter() for glyphName in table.Ligatures: writer.writeUShort(font.getGlyphID(glyphName)) return writer.getAllData() def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.begintag(name, attrs) xmlWriter.newline() xmlWriter.comment("GlyphClassCount=%s" %value.GlyphClassCount) xmlWriter.newline() for g, klass in sorted(value.GlyphClasses.items()): xmlWriter.simpletag("GlyphClass", glyph=g, value=klass) xmlWriter.newline() for stateIndex, state in enumerate(value.States): xmlWriter.begintag("State", index=stateIndex) xmlWriter.newline() for glyphClass, trans in sorted(state.Transitions.items()): trans.toXML(xmlWriter, font=font, attrs={"onGlyphClass": glyphClass}, name="Transition") xmlWriter.endtag("State") xmlWriter.newline() for i, lookup in enumerate(value.PerGlyphLookups): xmlWriter.begintag("PerGlyphLookup", index=i) xmlWriter.newline() for glyph, val in sorted(lookup.items()): xmlWriter.simpletag("Lookup", glyph=glyph, value=val) xmlWriter.newline() xmlWriter.endtag("PerGlyphLookup") xmlWriter.newline() if hasattr(value, "LigComponents"): xmlWriter.begintag("LigComponents") xmlWriter.newline() for i, val in enumerate(getattr(value, "LigComponents")): xmlWriter.simpletag("LigComponent", index=i, value=val) xmlWriter.newline() xmlWriter.endtag("LigComponents") xmlWriter.newline() self._xmlWriteLigatures(xmlWriter, font, value, name, attrs) xmlWriter.endtag(name) xmlWriter.newline() def _xmlWriteLigatures(self, xmlWriter, font, value, name, attrs): if not hasattr(value, "Ligatures"): return xmlWriter.begintag("Ligatures") xmlWriter.newline() for i, g in enumerate(getattr(value, "Ligatures")): xmlWriter.simpletag("Ligature", index=i, glyph=g) xmlWriter.newline() xmlWriter.endtag("Ligatures") xmlWriter.newline() def xmlRead(self, attrs, content, font): table = AATStateTable() for eltName, eltAttrs, eltContent in filter(istuple, content): if eltName == "GlyphClass": glyph = eltAttrs["glyph"] value = eltAttrs["value"] table.GlyphClasses[glyph] = safeEval(value) elif eltName == "State": state = self._xmlReadState(eltAttrs, eltContent, font) table.States.append(state) elif eltName == "PerGlyphLookup": lookup = self.perGlyphLookup.xmlRead( eltAttrs, eltContent, font) table.PerGlyphLookups.append(lookup) elif eltName == "LigComponents": table.LigComponents = \ self._xmlReadLigComponents( eltAttrs, eltContent, font) elif eltName == "Ligatures": table.Ligatures = \ self._xmlReadLigatures( eltAttrs, eltContent, font) table.GlyphClassCount = max(table.GlyphClasses.values()) + 1 return table def _xmlReadState(self, attrs, content, font): state = AATState() for eltName, eltAttrs, eltContent in filter(istuple, content): if eltName == "Transition": glyphClass = safeEval(eltAttrs["onGlyphClass"]) transition = self.tableClass() transition.fromXML(eltName, eltAttrs, eltContent, font) state.Transitions[glyphClass] = transition return state def _xmlReadLigComponents(self, attrs, content, font): ligComponents = [] for eltName, eltAttrs, _eltContent in filter(istuple, content): if eltName == "LigComponent": ligComponents.append( safeEval(eltAttrs["value"])) return ligComponents def _xmlReadLigatures(self, attrs, content, font): ligs = [] for eltName, eltAttrs, _eltContent in filter(istuple, content): if eltName == "Ligature": ligs.append(eltAttrs["glyph"]) return ligs class CIDGlyphMap(BaseConverter): def read(self, reader, font, tableDict): numCIDs = reader.readUShort() result = {} for cid, glyphID in enumerate(reader.readUShortArray(numCIDs)): if glyphID != 0xFFFF: result[cid] = font.getGlyphName(glyphID) return result def write(self, writer, font, tableDict, value, repeatIndex=None): items = {cid: font.getGlyphID(glyph) for cid, glyph in value.items()} count = max(items) + 1 if items else 0 writer.writeUShort(count) for cid in range(count): writer.writeUShort(items.get(cid, 0xFFFF)) def xmlRead(self, attrs, content, font): result = {} for eName, eAttrs, _eContent in filter(istuple, content): if eName == "CID": result[safeEval(eAttrs["cid"])] = \ eAttrs["glyph"].strip() return result def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.begintag(name, attrs) xmlWriter.newline() for cid, glyph in sorted(value.items()): if glyph is not None and glyph != 0xFFFF: xmlWriter.simpletag( "CID", cid=cid, glyph=glyph) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() class GlyphCIDMap(BaseConverter): def read(self, reader, font, tableDict): glyphOrder = font.getGlyphOrder() count = reader.readUShort() cids = reader.readUShortArray(count) if count > len(glyphOrder): log.warning("GlyphCIDMap has %d elements, " "but the font has only %d glyphs; " "ignoring the rest" % (count, len(glyphOrder))) result = {} for glyphID in range(min(len(cids), len(glyphOrder))): cid = cids[glyphID] if cid != 0xFFFF: result[glyphOrder[glyphID]] = cid return result def write(self, writer, font, tableDict, value, repeatIndex=None): items = {font.getGlyphID(g): cid for g, cid in value.items() if cid is not None and cid != 0xFFFF} count = max(items) + 1 if items else 0 writer.writeUShort(count) for glyphID in range(count): writer.writeUShort(items.get(glyphID, 0xFFFF)) def xmlRead(self, attrs, content, font): result = {} for eName, eAttrs, _eContent in filter(istuple, content): if eName == "CID": result[eAttrs["glyph"]] = \ safeEval(eAttrs["value"]) return result def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.begintag(name, attrs) xmlWriter.newline() for glyph, cid in sorted(value.items()): if cid is not None and cid != 0xFFFF: xmlWriter.simpletag( "CID", glyph=glyph, value=cid) xmlWriter.newline() xmlWriter.endtag(name) xmlWriter.newline() class DeltaValue(BaseConverter): def read(self, reader, font, tableDict): StartSize = tableDict["StartSize"] EndSize = tableDict["EndSize"] DeltaFormat = tableDict["DeltaFormat"] assert DeltaFormat in (1, 2, 3), "illegal DeltaFormat" nItems = EndSize - StartSize + 1 nBits = 1 << DeltaFormat minusOffset = 1 << nBits mask = (1 << nBits) - 1 signMask = 1 << (nBits - 1) DeltaValue = [] tmp, shift = 0, 0 for i in range(nItems): if shift == 0: tmp, shift = reader.readUShort(), 16 shift = shift - nBits value = (tmp >> shift) & mask if value & signMask: value = value - minusOffset DeltaValue.append(value) return DeltaValue def write(self, writer, font, tableDict, value, repeatIndex=None): StartSize = tableDict["StartSize"] EndSize = tableDict["EndSize"] DeltaFormat = tableDict["DeltaFormat"] DeltaValue = value assert DeltaFormat in (1, 2, 3), "illegal DeltaFormat" nItems = EndSize - StartSize + 1 nBits = 1 << DeltaFormat assert len(DeltaValue) == nItems mask = (1 << nBits) - 1 tmp, shift = 0, 16 for value in DeltaValue: shift = shift - nBits tmp = tmp | ((value & mask) << shift) if shift == 0: writer.writeUShort(tmp) tmp, shift = 0, 16 if shift != 16: writer.writeUShort(tmp) def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.simpletag(name, attrs + [("value", value)]) xmlWriter.newline() def xmlRead(self, attrs, content, font): return safeEval(attrs["value"]) class VarIdxMapValue(BaseConverter): def read(self, reader, font, tableDict): fmt = tableDict['EntryFormat'] nItems = tableDict['MappingCount'] innerBits = 1 + (fmt & 0x000F) innerMask = (1<> 4) read = { 1: reader.readUInt8, 2: reader.readUShort, 3: reader.readUInt24, 4: reader.readULong, }[entrySize] mapping = [] for i in range(nItems): raw = read() idx = ((raw & outerMask) << outerShift) | (raw & innerMask) mapping.append(idx) return mapping def write(self, writer, font, tableDict, value, repeatIndex=None): fmt = tableDict['EntryFormat'] mapping = value writer['MappingCount'].setValue(len(mapping)) innerBits = 1 + (fmt & 0x000F) innerMask = (1<> 4) write = { 1: writer.writeUInt8, 2: writer.writeUShort, 3: writer.writeUInt24, 4: writer.writeULong, }[entrySize] for idx in mapping: raw = ((idx & 0xFFFF0000) >> outerShift) | (idx & innerMask) write(raw) class VarDataValue(BaseConverter): def read(self, reader, font, tableDict): values = [] regionCount = tableDict["VarRegionCount"] shortCount = tableDict["NumShorts"] for i in range(min(regionCount, shortCount)): values.append(reader.readShort()) for i in range(min(regionCount, shortCount), regionCount): values.append(reader.readInt8()) for i in range(regionCount, shortCount): reader.readInt8() return values def write(self, writer, font, tableDict, value, repeatIndex=None): regionCount = tableDict["VarRegionCount"] shortCount = tableDict["NumShorts"] for i in range(min(regionCount, shortCount)): writer.writeShort(value[i]) for i in range(min(regionCount, shortCount), regionCount): writer.writeInt8(value[i]) for i in range(regionCount, shortCount): writer.writeInt8(0) def xmlWrite(self, xmlWriter, font, value, name, attrs): xmlWriter.simpletag(name, attrs + [("value", value)]) xmlWriter.newline() def xmlRead(self, attrs, content, font): return safeEval(attrs["value"]) converterMapping = { # type class "int8": Int8, "int16": Short, "uint8": UInt8, "uint8": UInt8, "uint16": UShort, "uint24": UInt24, "uint32": ULong, "char64": Char64, "Flags32": Flags32, "Version": Version, "Tag": Tag, "GlyphID": GlyphID, "NameID": NameID, "DeciPoints": DeciPoints, "Fixed": Fixed, "F2Dot14": F2Dot14, "struct": Struct, "Offset": Table, "LOffset": LTable, "ValueRecord": ValueRecord, "DeltaValue": DeltaValue, "VarIdxMapValue": VarIdxMapValue, "VarDataValue": VarDataValue, # AAT "CIDGlyphMap": CIDGlyphMap, "GlyphCIDMap": GlyphCIDMap, "MortChain": StructWithLength, "MortSubtable": StructWithLength, "MorxChain": StructWithLength, "MorxSubtable": MorxSubtableConverter, # "Template" types "AATLookup": lambda C: partial(AATLookup, tableClass=C), "AATLookupWithDataOffset": lambda C: partial(AATLookupWithDataOffset, tableClass=C), "STXHeader": lambda C: partial(STXHeader, tableClass=C), "OffsetTo": lambda C: partial(Table, tableClass=C), "LOffsetTo": lambda C: partial(LTable, tableClass=C), }