from fontTools.misc.py23 import bytechr, byteord, tobytes, tostr from fontTools import ttLib from fontTools.ttLib.standardGlyphOrder import standardGlyphOrder from fontTools.misc import sstruct from fontTools.misc.textTools import safeEval, readHex from . import DefaultTable import sys import struct import array postFormat = """ > formatType: 16.16F italicAngle: 16.16F # italic angle in degrees underlinePosition: h underlineThickness: h isFixedPitch: L minMemType42: L # minimum memory if TrueType font is downloaded maxMemType42: L # maximum memory if TrueType font is downloaded minMemType1: L # minimum memory if Type1 font is downloaded maxMemType1: L # maximum memory if Type1 font is downloaded """ postFormatSize = sstruct.calcsize(postFormat) class table__p_o_s_t(DefaultTable.DefaultTable): def decompile(self, data, ttFont): sstruct.unpack(postFormat, data[:postFormatSize], self) data = data[postFormatSize:] if self.formatType == 1.0: self.decode_format_1_0(data, ttFont) elif self.formatType == 2.0: self.decode_format_2_0(data, ttFont) elif self.formatType == 3.0: self.decode_format_3_0(data, ttFont) elif self.formatType == 4.0: self.decode_format_4_0(data, ttFont) else: # supported format raise ttLib.TTLibError("'post' table format %f not supported" % self.formatType) def compile(self, ttFont): data = sstruct.pack(postFormat, self) if self.formatType == 1.0: pass # we're done elif self.formatType == 2.0: data = data + self.encode_format_2_0(ttFont) elif self.formatType == 3.0: pass # we're done elif self.formatType == 4.0: data = data + self.encode_format_4_0(ttFont) else: # supported format raise ttLib.TTLibError("'post' table format %f not supported" % self.formatType) return data def getGlyphOrder(self): """This function will get called by a ttLib.TTFont instance. Do not call this function yourself, use TTFont().getGlyphOrder() or its relatives instead! """ if not hasattr(self, "glyphOrder"): raise ttLib.TTLibError("illegal use of getGlyphOrder()") glyphOrder = self.glyphOrder del self.glyphOrder return glyphOrder def decode_format_1_0(self, data, ttFont): self.glyphOrder = standardGlyphOrder[:ttFont["maxp"].numGlyphs] def decode_format_2_0(self, data, ttFont): numGlyphs, = struct.unpack(">H", data[:2]) numGlyphs = int(numGlyphs) if numGlyphs > ttFont['maxp'].numGlyphs: # Assume the numGlyphs field is bogus, so sync with maxp. # I've seen this in one font, and if the assumption is # wrong elsewhere, well, so be it: it's hard enough to # work around _one_ non-conforming post format... numGlyphs = ttFont['maxp'].numGlyphs data = data[2:] indices = array.array("H") indices.frombytes(data[:2*numGlyphs]) if sys.byteorder != "big": indices.byteswap() data = data[2*numGlyphs:] self.extraNames = extraNames = unpackPStrings(data) self.glyphOrder = glyphOrder = [""] * int(ttFont['maxp'].numGlyphs) for glyphID in range(numGlyphs): index = indices[glyphID] if index > 257: try: name = extraNames[index-258] except IndexError: name = "" else: # fetch names from standard list name = standardGlyphOrder[index] glyphOrder[glyphID] = name self.build_psNameMapping(ttFont) def build_psNameMapping(self, ttFont): mapping = {} allNames = {} for i in range(ttFont['maxp'].numGlyphs): glyphName = psName = self.glyphOrder[i] if glyphName == "": glyphName = "glyph%.5d" % i if glyphName in allNames: # make up a new glyphName that's unique n = allNames[glyphName] while (glyphName + "#" + str(n)) in allNames: n += 1 allNames[glyphName] = n + 1 glyphName = glyphName + "#" + str(n) self.glyphOrder[i] = glyphName allNames[glyphName] = 1 if glyphName != psName: mapping[glyphName] = psName self.mapping = mapping def decode_format_3_0(self, data, ttFont): # Setting self.glyphOrder to None will cause the TTFont object # try and construct glyph names from a Unicode cmap table. self.glyphOrder = None def decode_format_4_0(self, data, ttFont): from fontTools import agl numGlyphs = ttFont['maxp'].numGlyphs indices = array.array("H") indices.frombytes(data) if sys.byteorder != "big": indices.byteswap() # In some older fonts, the size of the post table doesn't match # the number of glyphs. Sometimes it's bigger, sometimes smaller. self.glyphOrder = glyphOrder = [''] * int(numGlyphs) for i in range(min(len(indices),numGlyphs)): if indices[i] == 0xFFFF: self.glyphOrder[i] = '' elif indices[i] in agl.UV2AGL: self.glyphOrder[i] = agl.UV2AGL[indices[i]] else: self.glyphOrder[i] = "uni%04X" % indices[i] self.build_psNameMapping(ttFont) def encode_format_2_0(self, ttFont): numGlyphs = ttFont['maxp'].numGlyphs glyphOrder = ttFont.getGlyphOrder() assert len(glyphOrder) == numGlyphs indices = array.array("H") extraDict = {} extraNames = self.extraNames = [ n for n in self.extraNames if n not in standardGlyphOrder] for i in range(len(extraNames)): extraDict[extraNames[i]] = i for glyphID in range(numGlyphs): glyphName = glyphOrder[glyphID] if glyphName in self.mapping: psName = self.mapping[glyphName] else: psName = glyphName if psName in extraDict: index = 258 + extraDict[psName] elif psName in standardGlyphOrder: index = standardGlyphOrder.index(psName) else: index = 258 + len(extraNames) extraDict[psName] = len(extraNames) extraNames.append(psName) indices.append(index) if sys.byteorder != "big": indices.byteswap() return struct.pack(">H", numGlyphs) + indices.tobytes() + packPStrings(extraNames) def encode_format_4_0(self, ttFont): from fontTools import agl numGlyphs = ttFont['maxp'].numGlyphs glyphOrder = ttFont.getGlyphOrder() assert len(glyphOrder) == numGlyphs indices = array.array("H") for glyphID in glyphOrder: glyphID = glyphID.split('#')[0] if glyphID in agl.AGL2UV: indices.append(agl.AGL2UV[glyphID]) elif len(glyphID) == 7 and glyphID[:3] == 'uni': indices.append(int(glyphID[3:],16)) else: indices.append(0xFFFF) if sys.byteorder != "big": indices.byteswap() return indices.tobytes() def toXML(self, writer, ttFont): formatstring, names, fixes = sstruct.getformat(postFormat) for name in names: value = getattr(self, name) writer.simpletag(name, value=value) writer.newline() if hasattr(self, "mapping"): writer.begintag("psNames") writer.newline() writer.comment("This file uses unique glyph names based on the information\n" "found in the 'post' table. Since these names might not be unique,\n" "we have to invent artificial names in case of clashes. In order to\n" "be able to retain the original information, we need a name to\n" "ps name mapping for those cases where they differ. That's what\n" "you see below.\n") writer.newline() items = sorted(self.mapping.items()) for name, psName in items: writer.simpletag("psName", name=name, psName=psName) writer.newline() writer.endtag("psNames") writer.newline() if hasattr(self, "extraNames"): writer.begintag("extraNames") writer.newline() writer.comment("following are the name that are not taken from the standard Mac glyph order") writer.newline() for name in self.extraNames: writer.simpletag("psName", name=name) writer.newline() writer.endtag("extraNames") writer.newline() if hasattr(self, "data"): writer.begintag("hexdata") writer.newline() writer.dumphex(self.data) writer.endtag("hexdata") writer.newline() def fromXML(self, name, attrs, content, ttFont): if name not in ("psNames", "extraNames", "hexdata"): setattr(self, name, safeEval(attrs["value"])) elif name == "psNames": self.mapping = {} for element in content: if not isinstance(element, tuple): continue name, attrs, content = element if name == "psName": self.mapping[attrs["name"]] = attrs["psName"] elif name == "extraNames": self.extraNames = [] for element in content: if not isinstance(element, tuple): continue name, attrs, content = element if name == "psName": self.extraNames.append(attrs["name"]) else: self.data = readHex(content) def unpackPStrings(data): strings = [] index = 0 dataLen = len(data) while index < dataLen: length = byteord(data[index]) strings.append(tostr(data[index+1:index+1+length], encoding="latin1")) index = index + 1 + length return strings def packPStrings(strings): data = b"" for s in strings: data = data + bytechr(len(s)) + tobytes(s, encoding="latin1") return data