from fontTools.misc.py23 import * from fontTools.misc import sstruct from . import DefaultTable try: import xml.etree.cElementTree as ET except ImportError: import xml.etree.ElementTree as ET import struct import re import logging log = logging.getLogger(__name__) __doc__=""" Compiles/decompiles version 0 and 1 SVG tables from/to XML. Version 1 is the first SVG definition, implemented in Mozilla before Aug 2013, now deprecated. This module will decompile this correctly, but will compile a version 1 table only if you add the secret element "" to the SVG element in the TTF file. Version 0 is the joint Adobe-Mozilla proposal, which supports color palettes. The XML format is: <complete SVG doc> ]] </svgDoc> ... <svgDoc endGlyphID="n" startGlyphID="m"> <![CDATA[ <complete SVG doc> ]] </svgDoc> <colorPalettes> <colorParamUINameID>n</colorParamUINameID> ... <colorParamUINameID>m</colorParamUINameID> <colorPalette uiNameID="n"> <colorRecord red="<int>" green="<int>" blue="<int>" alpha="<int>" /> ... <colorRecord red="<int>" green="<int>" blue="<int>" alpha="<int>" /> </colorPalette> ... <colorPalette uiNameID="m"> <colorRecord red="<int> green="<int>" blue="<int>" alpha="<int>" /> ... <colorRecord red=<int>" green="<int>" blue="<int>" alpha="<int>" /> </colorPalette> </colorPalettes> </SVG> Color values must be less than 256. The number of color records in each </colorPalette> must be the same as the number of <colorParamUINameID> elements. """ XML = ET.XML XMLElement = ET.Element xmlToString = ET.tostring SVG_format_0 = """ > # big endian version: H offsetToSVGDocIndex: L offsetToColorPalettes: L """ SVG_format_0Size = sstruct.calcsize(SVG_format_0) SVG_format_1 = """ > # big endian version: H numIndicies: H """ SVG_format_1Size = sstruct.calcsize(SVG_format_1) doc_index_entry_format_0 = """ > # big endian startGlyphID: H endGlyphID: H svgDocOffset: L svgDocLength: L """ doc_index_entry_format_0Size = sstruct.calcsize(doc_index_entry_format_0) colorRecord_format_0 = """ red: B green: B blue: B alpha: B """ class table_S_V_G_(DefaultTable.DefaultTable): def __init__(self, tag=None): DefaultTable.DefaultTable.__init__(self, tag) self.colorPalettes = None def decompile(self, data, ttFont): self.docList = None self.colorPalettes = None pos = 0 self.version = struct.unpack(">H", data[pos:pos+2])[0] if self.version == 1: # This is pre-standardization version of the table; and obsolete. But we decompile it for now. # https://wiki.mozilla.org/SVGOpenTypeFonts self.decompile_format_1(data, ttFont) else: if self.version != 0: log.warning( "Unknown SVG table version '%s'. Decompiling as version 0.", self.version) # This is the standardized version of the table; and current. # https://www.microsoft.com/typography/otspec/svg.htm self.decompile_format_0(data, ttFont) def decompile_format_0(self, data, ttFont): dummy, data2 = sstruct.unpack2(SVG_format_0, data, self) # read in SVG Documents Index self.decompileEntryList(data) # read in colorPalettes table. self.colorPalettes = colorPalettes = ColorPalettes() pos = self.offsetToColorPalettes if pos > 0: colorPalettes.numColorParams = numColorParams = struct.unpack(">H", data[pos:pos+2])[0] if numColorParams > 0: colorPalettes.colorParamUINameIDs = colorParamUINameIDs = [] pos = pos + 2 for i in range(numColorParams): nameID = struct.unpack(">H", data[pos:pos+2])[0] colorParamUINameIDs.append(nameID) pos = pos + 2 colorPalettes.numColorPalettes = numColorPalettes = struct.unpack(">H", data[pos:pos+2])[0] pos = pos + 2 if numColorPalettes > 0: colorPalettes.colorPaletteList = colorPaletteList = [] for i in range(numColorPalettes): colorPalette = ColorPalette() colorPaletteList.append(colorPalette) colorPalette.uiNameID = struct.unpack(">H", data[pos:pos+2])[0] pos = pos + 2 colorPalette.paletteColors = paletteColors = [] for j in range(numColorParams): colorRecord, colorPaletteData = sstruct.unpack2(colorRecord_format_0, data[pos:], ColorRecord()) paletteColors.append(colorRecord) pos += 4 def decompile_format_1(self, data, ttFont): self.offsetToSVGDocIndex = 2 self.decompileEntryList(data) def decompileEntryList(self, data): # data starts with the first entry of the entry list. pos = subTableStart = self.offsetToSVGDocIndex self.numEntries = numEntries = struct.unpack(">H", data[pos:pos+2])[0] pos += 2 if self.numEntries > 0: data2 = data[pos:] self.docList = [] self.entries = entries = [] for i in range(self.numEntries): docIndexEntry, data2 = sstruct.unpack2(doc_index_entry_format_0, data2, DocumentIndexEntry()) entries.append(docIndexEntry) for entry in entries: start = entry.svgDocOffset + subTableStart end = start + entry.svgDocLength doc = data[start:end] if doc.startswith(b"\x1f\x8b"): import gzip bytesIO = BytesIO(doc) with gzip.GzipFile(None, "r", fileobj=bytesIO) as gunzipper: doc = gunzipper.read() self.compressed = True del bytesIO doc = tostr(doc, "utf_8") self.docList.append( [doc, entry.startGlyphID, entry.endGlyphID] ) def compile(self, ttFont): if hasattr(self, "version1"): data = self.compileFormat1(ttFont) else: data = self.compileFormat0(ttFont) return data def compileFormat0(self, ttFont): version = 0 offsetToSVGDocIndex = SVG_format_0Size # I start the SVGDocIndex right after the header. # get SGVDoc info. docList = [] entryList = [] numEntries = len(self.docList) datum = struct.pack(">H",numEntries) entryList.append(datum) curOffset = len(datum) + doc_index_entry_format_0Size*numEntries for doc, startGlyphID, endGlyphID in self.docList: docOffset = curOffset docBytes = tobytes(doc, encoding="utf_8") if getattr(self, "compressed", False) and not docBytes.startswith(b"\x1f\x8b"): import gzip bytesIO = BytesIO() with gzip.GzipFile(None, "w", fileobj=bytesIO) as gzipper: gzipper.write(docBytes) gzipped = bytesIO.getvalue() if len(gzipped) < len(docBytes): docBytes = gzipped del gzipped, bytesIO docLength = len(docBytes) curOffset += docLength entry = struct.pack(">HHLL", startGlyphID, endGlyphID, docOffset, docLength) entryList.append(entry) docList.append(docBytes) entryList.extend(docList) svgDocData = bytesjoin(entryList) # get colorpalette info. if self.colorPalettes is None: offsetToColorPalettes = 0 palettesData = "" else: offsetToColorPalettes = SVG_format_0Size + len(svgDocData) dataList = [] numColorParams = len(self.colorPalettes.colorParamUINameIDs) datum = struct.pack(">H", numColorParams) dataList.append(datum) for uiNameId in self.colorPalettes.colorParamUINameIDs: datum = struct.pack(">H", uiNameId) dataList.append(datum) numColorPalettes = len(self.colorPalettes.colorPaletteList) datum = struct.pack(">H", numColorPalettes) dataList.append(datum) for colorPalette in self.colorPalettes.colorPaletteList: datum = struct.pack(">H", colorPalette.uiNameID) dataList.append(datum) for colorRecord in colorPalette.paletteColors: data = struct.pack(">BBBB", colorRecord.red, colorRecord.green, colorRecord.blue, colorRecord.alpha) dataList.append(data) palettesData = bytesjoin(dataList) header = struct.pack(">HLL", version, offsetToSVGDocIndex, offsetToColorPalettes) data = [header, svgDocData, palettesData] data = bytesjoin(data) return data def compileFormat1(self, ttFont): version = 1 numEntries = len(self.docList) header = struct.pack(">HH", version, numEntries) dataList = [header] docList = [] curOffset = SVG_format_1Size + doc_index_entry_format_0Size*numEntries for doc, startGlyphID, endGlyphID in self.docList: docOffset = curOffset docBytes = tobytes(doc, encoding="utf_8") docLength = len(docBytes) curOffset += docLength entry = struct.pack(">HHLL", startGlyphID, endGlyphID, docOffset, docLength) dataList.append(entry) docList.append(docBytes) dataList.extend(docList) data = bytesjoin(dataList) return data def toXML(self, writer, ttFont): writer.newline() for doc, startGID, endGID in self.docList: writer.begintag("svgDoc", startGlyphID=startGID, endGlyphID=endGID) writer.newline() writer.writecdata(doc) writer.newline() writer.endtag("svgDoc") writer.newline() if (self.colorPalettes is not None) and (self.colorPalettes.numColorParams is not None): writer.begintag("colorPalettes") writer.newline() for uiNameID in self.colorPalettes.colorParamUINameIDs: writer.begintag("colorParamUINameID") writer._writeraw(str(uiNameID)) writer.endtag("colorParamUINameID") writer.newline() for colorPalette in self.colorPalettes.colorPaletteList: writer.begintag("colorPalette", [("uiNameID", str(colorPalette.uiNameID))]) writer.newline() for colorRecord in colorPalette.paletteColors: colorAttributes = [ ("red", hex(colorRecord.red)), ("green", hex(colorRecord.green)), ("blue", hex(colorRecord.blue)), ("alpha", hex(colorRecord.alpha)), ] writer.begintag("colorRecord", colorAttributes) writer.endtag("colorRecord") writer.newline() writer.endtag("colorPalette") writer.newline() writer.endtag("colorPalettes") writer.newline() def fromXML(self, name, attrs, content, ttFont): if name == "svgDoc": if not hasattr(self, "docList"): self.docList = [] doc = strjoin(content) doc = doc.strip() startGID = int(attrs["startGlyphID"]) endGID = int(attrs["endGlyphID"]) self.docList.append( [doc, startGID, endGID] ) elif name == "colorPalettes": self.colorPalettes = ColorPalettes() self.colorPalettes.fromXML(name, attrs, content, ttFont) if self.colorPalettes.numColorParams == 0: self.colorPalettes = None else: log.warning("Unknown %s %s", name, content) class DocumentIndexEntry(object): def __init__(self): self.startGlyphID = None # USHORT self.endGlyphID = None # USHORT self.svgDocOffset = None # ULONG self.svgDocLength = None # ULONG def __repr__(self): return "startGlyphID: %s, endGlyphID: %s, svgDocOffset: %s, svgDocLength: %s" % (self.startGlyphID, self.endGlyphID, self.svgDocOffset, self.svgDocLength) class ColorPalettes(object): def __init__(self): self.numColorParams = None # USHORT self.colorParamUINameIDs = [] # list of name table name ID values that provide UI description of each color palette. self.numColorPalettes = None # USHORT self.colorPaletteList = [] # list of ColorPalette records def fromXML(self, name, attrs, content, ttFont): for element in content: if not isinstance(element, tuple): continue name, attrib, content = element if name == "colorParamUINameID": uiNameID = int(content[0]) self.colorParamUINameIDs.append(uiNameID) elif name == "colorPalette": colorPalette = ColorPalette() self.colorPaletteList.append(colorPalette) colorPalette.fromXML(name, attrib, content, ttFont) self.numColorParams = len(self.colorParamUINameIDs) self.numColorPalettes = len(self.colorPaletteList) for colorPalette in self.colorPaletteList: if len(colorPalette.paletteColors) != self.numColorParams: raise ValueError("Number of color records in a colorPalette ('%s') does not match the number of colorParamUINameIDs elements ('%s')." % (len(colorPalette.paletteColors), self.numColorParams)) class ColorPalette(object): def __init__(self): self.uiNameID = None # USHORT. name table ID that describes user interface strings associated with this color palette. self.paletteColors = [] # list of ColorRecords def fromXML(self, name, attrs, content, ttFont): self.uiNameID = int(attrs["uiNameID"]) for element in content: if isinstance(element, type("")): continue name, attrib, content = element if name == "colorRecord": colorRecord = ColorRecord() self.paletteColors.append(colorRecord) colorRecord.red = eval(attrib["red"]) colorRecord.green = eval(attrib["green"]) colorRecord.blue = eval(attrib["blue"]) colorRecord.alpha = eval(attrib["alpha"]) class ColorRecord(object): def __init__(self): self.red = 255 # all are one byte values. self.green = 255 self.blue = 255 self.alpha = 255