Пример #1
0
 def decompileCoord_(axisTags, data, offset):
     coord = {}
     pos = offset
     for axis in axisTags:
         coord[axis] = fi2fl(struct.unpack(">h", data[pos:pos + 2])[0], 14)
         pos += 2
     return coord, pos
Пример #2
0
	def decompile(self, data, ttFont):
		version, nTables = struct.unpack(">HH", data[:4])
		apple = False
		if (len(data) >= 8) and (version == 1):
			# AAT Apple's "new" format. Hm.
			version, nTables = struct.unpack(">LL", data[:8])
			self.version = fi2fl(version, 16)
			data = data[8:]
			apple = True
		else:
			self.version = version
			data = data[4:]
		tablesIndex = []
		self.kernTables = []
		for i in range(nTables):
			if self.version == 1.0:
				# Apple
				length, coverage, tupleIndex = struct.unpack(">lHH", data[:8])
				version = coverage & 0xff
			else:
				version, length = struct.unpack(">HH", data[:4])
			length = int(length)
			if version not in kern_classes:
				subtable = KernTable_format_unkown(version)
			else:
				subtable = kern_classes[version]()
			subtable.apple = apple
			subtable.decompile(data[:length], ttFont)
			self.kernTables.append(subtable)
			data = data[length:]
Пример #3
0
	def decompile(self, data, ttFont):
		version, nTables = struct.unpack(">HH", data[:4])
		apple = False
		if (len(data) >= 8) and (version == 1):
			# AAT Apple's "new" format. Hm.
			version, nTables = struct.unpack(">LL", data[:8])
			self.version = fi2fl(version, 16)
			data = data[8:]
			apple = True
		else:
			self.version = version
			data = data[4:]
		self.kernTables = []
		for i in range(nTables):
			if self.version == 1.0:
				# Apple
				length, coverage, subtableFormat = struct.unpack(
					">LBB", data[:6])
			else:
				# in OpenType spec the "version" field refers to the common
				# subtable header; the actual subtable format is stored in
				# the 8-15 mask bits of "coverage" field.
				# This "version" is always 0 so we ignore it here
				_, length, subtableFormat, coverage = struct.unpack(
					">HHBB", data[:6])
			if subtableFormat not in kern_classes:
				subtable = KernTable_format_unkown(subtableFormat)
			else:
				subtable = kern_classes[subtableFormat](apple)
			subtable.decompile(data[:length], ttFont)
			self.kernTables.append(subtable)
			data = data[length:]
Пример #4
0
 def decompile(self, data, ttFont):
     version, nTables = struct.unpack(">HH", data[:4])
     apple = False
     if (len(data) >= 8) and (version == 1):
         # AAT Apple's "new" format. Hm.
         version, nTables = struct.unpack(">LL", data[:8])
         self.version = fi2fl(version, 16)
         data = data[8:]
         apple = True
     else:
         self.version = version
         data = data[4:]
     self.kernTables = []
     for i in range(nTables):
         if self.version == 1.0:
             # Apple
             length, coverage, subtableFormat = struct.unpack(
                 ">LBB", data[:6])
         else:
             # in OpenType spec the "version" field refers to the common
             # subtable header; the actual subtable format is stored in
             # the 8-15 mask bits of "coverage" field.
             # This "version" is always 0 so we ignore it here
             _, length, subtableFormat, coverage = struct.unpack(
                 ">HHBB", data[:6])
         if subtableFormat not in kern_classes:
             subtable = KernTable_format_unkown(subtableFormat)
         else:
             subtable = kern_classes[subtableFormat](apple)
         subtable.decompile(data[:length], ttFont)
         self.kernTables.append(subtable)
         data = data[length:]
Пример #5
0
	def xmlWrite(self, xmlWriter, font, value, name, attrs):
		if value >= 0x10000:
			value = fi2fl(value, 16)
		if value % 1 != 0:
			# Write as hex
			value = "0x%08x" % fl2fi(value, 16)
		xmlWriter.simpletag(name, attrs + [("value", value)])
		xmlWriter.newline()
Пример #6
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 def xmlWrite(self, xmlWriter, font, value, name, attrs):
     if value >= 0x10000:
         value = fi2fl(value, 16)
     if value % 1 != 0:
         # Write as hex
         value = "0x%08x" % fl2fi(value, 16)
     xmlWriter.simpletag(name, attrs + [("value", value)])
     xmlWriter.newline()
Пример #7
0
 def decompile(self, data, ttFont):
     axisTags = [axis.axisTag for axis in ttFont["fvar"].axes]
     header = {}
     headerSize = sstruct.calcsize(AVAR_HEADER_FORMAT)
     header = sstruct.unpack(AVAR_HEADER_FORMAT, data[0:headerSize])
     majorVersion = header["majorVersion"]
     if majorVersion != 1:
         raise TTLibError("unsupported 'avar' version %d" % majorVersion)
     pos = headerSize
     for axis in axisTags:
         segments = self.segments[axis] = {}
         numPairs = struct.unpack(">H", data[pos:pos + 2])[0]
         pos = pos + 2
         for _ in range(numPairs):
             fromValue, toValue = struct.unpack(">hh", data[pos:pos + 4])
             segments[fi2fl(fromValue, 14)] = fi2fl(toValue, 14)
             pos = pos + 4
Пример #8
0
 def decompile(self, data, axisTags):
     sstruct.unpack2(FVAR_INSTANCE_FORMAT, data, self)
     pos = sstruct.calcsize(FVAR_INSTANCE_FORMAT)
     for axis in axisTags:
         value = struct.unpack(">l", data[pos:pos + 4])[0]
         self.coordinates[axis] = fi2fl(value, 16)
         pos += 4
     if pos + 2 <= len(data):
         self.postscriptNameID = struct.unpack(">H", data[pos:pos + 2])[0]
     else:
         self.postscriptNameID = 0xFFFF
Пример #9
0
    def decompile(self, data, glyfTable):
        flags, glyphID = struct.unpack(">HH", data[:4])
        self.flags = int(flags)
        glyphID = int(glyphID)
        self.glyphName = glyfTable.getGlyphName(int(glyphID))
        #print ">>", reprflag(self.flags)
        data = data[4:]

        if self.flags & ARG_1_AND_2_ARE_WORDS:
            if self.flags & ARGS_ARE_XY_VALUES:
                self.x, self.y = struct.unpack(">hh", data[:4])
            else:
                x, y = struct.unpack(">HH", data[:4])
                self.firstPt, self.secondPt = int(x), int(y)
            data = data[4:]
        else:
            if self.flags & ARGS_ARE_XY_VALUES:
                self.x, self.y = struct.unpack(">bb", data[:2])
            else:
                x, y = struct.unpack(">BB", data[:2])
                self.firstPt, self.secondPt = int(x), int(y)
            data = data[2:]

        if self.flags & WE_HAVE_A_SCALE:
            scale, = struct.unpack(">h", data[:2])
            self.transform = [[fi2fl(scale, 14), 0],
                              [0, fi2fl(scale, 14)]]  # fixed 2.14
            data = data[2:]
        elif self.flags & WE_HAVE_AN_X_AND_Y_SCALE:
            xscale, yscale = struct.unpack(">hh", data[:4])
            self.transform = [[fi2fl(xscale, 14), 0],
                              [0, fi2fl(yscale, 14)]]  # fixed 2.14
            data = data[4:]
        elif self.flags & WE_HAVE_A_TWO_BY_TWO:
            (xscale, scale01, scale10,
             yscale) = struct.unpack(">hhhh", data[:8])
            self.transform = [[fi2fl(xscale, 14),
                               fi2fl(scale01, 14)],
                              [fi2fl(scale10, 14),
                               fi2fl(yscale, 14)]]  # fixed 2.14
            data = data[8:]
        more = self.flags & MORE_COMPONENTS
        haveInstructions = self.flags & WE_HAVE_INSTRUCTIONS
        self.flags = self.flags & (ROUND_XY_TO_GRID | USE_MY_METRICS
                                   | SCALED_COMPONENT_OFFSET |
                                   UNSCALED_COMPONENT_OFFSET | NON_OVERLAPPING)
        return more, haveInstructions, data
Пример #10
0
    def decompile(self, data, glyfTable):
        flags, glyphID = struct.unpack(">HH", data[:4])
        self.flags = int(flags)
        glyphID = int(glyphID)
        self.glyphName = glyfTable.getGlyphName(int(glyphID))
        # print ">>", reprflag(self.flags)
        data = data[4:]

        if self.flags & ARG_1_AND_2_ARE_WORDS:
            if self.flags & ARGS_ARE_XY_VALUES:
                self.x, self.y = struct.unpack(">hh", data[:4])
            else:
                x, y = struct.unpack(">HH", data[:4])
                self.firstPt, self.secondPt = int(x), int(y)
            data = data[4:]
        else:
            if self.flags & ARGS_ARE_XY_VALUES:
                self.x, self.y = struct.unpack(">bb", data[:2])
            else:
                x, y = struct.unpack(">BB", data[:2])
                self.firstPt, self.secondPt = int(x), int(y)
            data = data[2:]

        if self.flags & WE_HAVE_A_SCALE:
            scale, = struct.unpack(">h", data[:2])
            self.transform = [[fi2fl(scale, 14), 0], [0, fi2fl(scale, 14)]]  # fixed 2.14
            data = data[2:]
        elif self.flags & WE_HAVE_AN_X_AND_Y_SCALE:
            xscale, yscale = struct.unpack(">hh", data[:4])
            self.transform = [[fi2fl(xscale, 14), 0], [0, fi2fl(yscale, 14)]]  # fixed 2.14
            data = data[4:]
        elif self.flags & WE_HAVE_A_TWO_BY_TWO:
            (xscale, scale01, scale10, yscale) = struct.unpack(">hhhh", data[:8])
            self.transform = [
                [fi2fl(xscale, 14), fi2fl(scale01, 14)],
                [fi2fl(scale10, 14), fi2fl(yscale, 14)],
            ]  # fixed 2.14
            data = data[8:]
        more = self.flags & MORE_COMPONENTS
        haveInstructions = self.flags & WE_HAVE_INSTRUCTIONS
        self.flags = self.flags & (
            ROUND_XY_TO_GRID | USE_MY_METRICS | SCALED_COMPONENT_OFFSET | UNSCALED_COMPONENT_OFFSET | NON_OVERLAPPING
        )
        return more, haveInstructions, data
Пример #11
0
	def decompile(self, data, ttFont):
		version, nTables = struct.unpack(">HH", data[:4])
		apple = False
		if (len(data) >= 8) and (version == 1):
			# AAT Apple's "new" format. Hm.
			version, nTables = struct.unpack(">LL", data[:8])
			self.version = fi2fl(version, 16)
			data = data[8:]
			apple = True
		else:
			self.version = version
			data = data[4:]
		self.kernTables = []
		for i in range(nTables):
			if self.version == 1.0:
				# Apple
				length, coverage, subtableFormat = struct.unpack(
					">LBB", data[:6])
			else:
				# in OpenType spec the "version" field refers to the common
				# subtable header; the actual subtable format is stored in
				# the 8-15 mask bits of "coverage" field.
				# This "version" is always 0 so we ignore it here
				_, length, subtableFormat, coverage = struct.unpack(
					">HHBB", data[:6])
				if nTables == 1 and subtableFormat == 0:
					# The "length" value is ignored since some fonts
					# (like OpenSans and Calibri) have a subtable larger than
					# its value.
					nPairs, = struct.unpack(">H", data[6:8])
					calculated_length = (nPairs * 6) + 14
					if length != calculated_length:
						log.warning(
							"'kern' subtable longer than defined: "
							"%d bytes instead of %d bytes" %
							(calculated_length, length)
						)
					length = calculated_length
			if subtableFormat not in kern_classes:
				subtable = KernTable_format_unkown(subtableFormat)
			else:
				subtable = kern_classes[subtableFormat](apple)
			subtable.decompile(data[:length], ttFont)
			self.kernTables.append(subtable)
			data = data[length:]
Пример #12
0
 def decompile(self, data, ttFont):
     version, nTables = struct.unpack(">HH", data[:4])
     apple = False
     if (len(data) >= 8) and (version == 1):
         # AAT Apple's "new" format. Hm.
         version, nTables = struct.unpack(">LL", data[:8])
         self.version = fi2fl(version, 16)
         data = data[8:]
         apple = True
     else:
         self.version = version
         data = data[4:]
     self.kernTables = []
     for i in range(nTables):
         if self.version == 1.0:
             # Apple
             length, coverage, subtableFormat = struct.unpack(
                 ">LBB", data[:6])
         else:
             # in OpenType spec the "version" field refers to the common
             # subtable header; the actual subtable format is stored in
             # the 8-15 mask bits of "coverage" field.
             # This "version" is always 0 so we ignore it here
             _, length, subtableFormat, coverage = struct.unpack(
                 ">HHBB", data[:6])
             if nTables == 1 and subtableFormat == 0:
                 # The "length" value is ignored since some fonts
                 # (like OpenSans and Calibri) have a subtable larger than
                 # its value.
                 nPairs, = struct.unpack(">H", data[6:8])
                 calculated_length = (nPairs * 6) + 14
                 if length != calculated_length:
                     log.warning("'kern' subtable longer than defined: "
                                 "%d bytes instead of %d bytes" %
                                 (calculated_length, length))
                 length = calculated_length
         if subtableFormat not in kern_classes:
             subtable = KernTable_format_unkown(subtableFormat)
         else:
             subtable = kern_classes[subtableFormat](apple)
         subtable.decompile(data[:length], ttFont)
         self.kernTables.append(subtable)
         data = data[length:]
Пример #13
0
    def decompile(self, data, offset):
        # initial offset is from the start of trak table to the current TrackData
        trackDataHeader = data[offset:offset + TRACK_DATA_FORMAT_SIZE]
        if len(trackDataHeader) != TRACK_DATA_FORMAT_SIZE:
            raise TTLibError('not enough data to decompile TrackData header')
        sstruct.unpack(TRACK_DATA_FORMAT, trackDataHeader, self)
        offset += TRACK_DATA_FORMAT_SIZE

        nSizes = self.nSizes
        sizeTableOffset = self.sizeTableOffset
        sizeTable = []
        for i in range(nSizes):
            sizeValueData = data[sizeTableOffset:sizeTableOffset +
                                 SIZE_VALUE_FORMAT_SIZE]
            if len(sizeValueData) < SIZE_VALUE_FORMAT_SIZE:
                raise TTLibError(
                    'not enough data to decompile TrackData size subtable')
            sizeValue, = struct.unpack(SIZE_VALUE_FORMAT, sizeValueData)
            sizeTable.append(fi2fl(sizeValue, 16))
            sizeTableOffset += SIZE_VALUE_FORMAT_SIZE

        for i in range(self.nTracks):
            entry = TrackTableEntry()
            entryData = data[offset:offset + TRACK_TABLE_ENTRY_FORMAT_SIZE]
            if len(entryData) < TRACK_TABLE_ENTRY_FORMAT_SIZE:
                raise TTLibError(
                    'not enough data to decompile TrackTableEntry record')
            sstruct.unpack(TRACK_TABLE_ENTRY_FORMAT, entryData, entry)
            perSizeOffset = entry.offset
            for j in range(nSizes):
                size = sizeTable[j]
                perSizeValueData = data[perSizeOffset:perSizeOffset +
                                        PER_SIZE_VALUE_FORMAT_SIZE]
                if len(perSizeValueData) < PER_SIZE_VALUE_FORMAT_SIZE:
                    raise TTLibError(
                        'not enough data to decompile per-size track values')
                perSizeValue, = struct.unpack(PER_SIZE_VALUE_FORMAT,
                                              perSizeValueData)
                entry[size] = perSizeValue
                perSizeOffset += PER_SIZE_VALUE_FORMAT_SIZE
            self[entry.track] = entry
            offset += TRACK_TABLE_ENTRY_FORMAT_SIZE
Пример #14
0
def unpack(fmt, data, obj=None):
	if obj is None:
		obj = {}
	data = tobytes(data)
	formatstring, names, fixes = getformat(fmt)
	if isinstance(obj, dict):
		d = obj
	else:
		d = obj.__dict__
	elements = struct.unpack(formatstring, data)
	for i in range(len(names)):
		name = names[i]
		value = elements[i]
		if name in fixes:
			# fixed point conversion
			value = fi2fl(value, fixes[name])
		elif isinstance(value, bytes):
			try:
				value = tostr(value)
			except UnicodeDecodeError:
				pass
		d[name] = value
	return obj
Пример #15
0
def unpack(fmt, data, obj=None):
    if obj is None:
        obj = {}
    data = tobytes(data)
    formatstring, names, fixes = getformat(fmt)
    if isinstance(obj, dict):
        d = obj
    else:
        d = obj.__dict__
    elements = struct.unpack(formatstring, data)
    for i in range(len(names)):
        name = names[i]
        value = elements[i]
        if name in fixes:
            # fixed point conversion
            value = fi2fl(value, fixes[name])
        elif isinstance(value, bytes):
            try:
                value = tostr(value)
            except UnicodeDecodeError:
                pass
        d[name] = value
    return obj
Пример #16
0
	def decompile(self, data, offset):
		# initial offset is from the start of trak table to the current TrackData
		trackDataHeader = data[offset:offset+TRACK_DATA_FORMAT_SIZE]
		if len(trackDataHeader) != TRACK_DATA_FORMAT_SIZE:
			raise TTLibError('not enough data to decompile TrackData header')
		sstruct.unpack(TRACK_DATA_FORMAT, trackDataHeader, self)
		offset += TRACK_DATA_FORMAT_SIZE

		nSizes = self.nSizes
		sizeTableOffset = self.sizeTableOffset
		sizeTable = []
		for i in range(nSizes):
			sizeValueData = data[sizeTableOffset:sizeTableOffset+SIZE_VALUE_FORMAT_SIZE]
			if len(sizeValueData) < SIZE_VALUE_FORMAT_SIZE:
				raise TTLibError('not enough data to decompile TrackData size subtable')
			sizeValue, = struct.unpack(SIZE_VALUE_FORMAT, sizeValueData)
			sizeTable.append(fi2fl(sizeValue, 16))
			sizeTableOffset += SIZE_VALUE_FORMAT_SIZE

		for i in range(self.nTracks):
			entry = TrackTableEntry()
			entryData = data[offset:offset+TRACK_TABLE_ENTRY_FORMAT_SIZE]
			if len(entryData) < TRACK_TABLE_ENTRY_FORMAT_SIZE:
				raise TTLibError('not enough data to decompile TrackTableEntry record')
			sstruct.unpack(TRACK_TABLE_ENTRY_FORMAT, entryData, entry)
			perSizeOffset = entry.offset
			for j in range(nSizes):
				size = sizeTable[j]
				perSizeValueData = data[perSizeOffset:perSizeOffset+PER_SIZE_VALUE_FORMAT_SIZE]
				if len(perSizeValueData) < PER_SIZE_VALUE_FORMAT_SIZE:
					raise TTLibError('not enough data to decompile per-size track values')
				perSizeValue, = struct.unpack(PER_SIZE_VALUE_FORMAT, perSizeValueData)
				entry[size] = perSizeValue
				perSizeOffset += PER_SIZE_VALUE_FORMAT_SIZE
			self[entry.track] = entry
			offset += TRACK_TABLE_ENTRY_FORMAT_SIZE
Пример #17
0
 def read(self, reader, font, tableDict):
     value = reader.readLong()
     assert (value >> 16) == 1, "Unsupported version 0x%08x" % value
     return fi2fl(value, 16)
Пример #18
0
 def read(self, reader, font, tableDict):
     return fi2fl(reader.readLong(), 16)
Пример #19
0
	def read(self, reader, font, tableDict):
		return  fi2fl(reader.readLong(), 16)
Пример #20
0
	def read(self, reader, font, tableDict):
		return  fi2fl(reader.readShort(), 14)
Пример #21
0
 def read(self, reader, font, tableDict):
     return fi2fl(reader.readShort(), 14)
Пример #22
0
	def xmlRead(self, attrs, content, font):
		value = attrs["value"]
		value = float(int(value, 0)) if value.startswith("0") else float(value)
		if value >= 0x10000:
			value = fi2fl(value, 16)
		return value
Пример #23
0
	def read(self, reader, font, tableDict):
		value = reader.readLong()
		assert (value >> 16) == 1, "Unsupported version 0x%08x" % value
		return  fi2fl(value, 16)
Пример #24
0
 def xmlRead(self, attrs, content, font):
     value = attrs["value"]
     value = float(int(value, 0)) if value.startswith("0") else float(value)
     if value >= 0x10000:
         value = fi2fl(value, 16)
     return value
Пример #25
0
	def read(self, reader, font, tableDict):
		value = reader.readLong()
		return  fi2fl(value, 16)
Пример #26
0
 def read(self, reader, font, tableDict):
     value = reader.readLong()
     return fi2fl(value, 16)