# Copyright 2013 Google, Inc. All Rights Reserved.
#
# Google Author(s): Behdad Esfahbod

from fontTools.misc.textTools import bytesjoin, safeEval
from . import DefaultTable
import array
from collections import namedtuple
import struct
import sys


class table_C_P_A_L_(DefaultTable.DefaultTable):

	NO_NAME_ID = 0xFFFF
	DEFAULT_PALETTE_TYPE = 0

	def __init__(self, tag=None):
		DefaultTable.DefaultTable.__init__(self, tag)
		self.palettes = []
		self.paletteTypes = []
		self.paletteLabels = []
		self.paletteEntryLabels = []

	def decompile(self, data, ttFont):
		self.version, self.numPaletteEntries, numPalettes, numColorRecords, goffsetFirstColorRecord = struct.unpack(">HHHHL", data[:12])
		assert (self.version <= 1), "Version of CPAL table is higher than I know how to handle"
		self.palettes = []
		pos = 12
		for i in range(numPalettes):
			startIndex = struct.unpack(">H", data[pos:pos+2])[0]
			assert (startIndex + self.numPaletteEntries <= numColorRecords)
			pos += 2
			palette = []
			ppos = goffsetFirstColorRecord + startIndex * 4
			for j in range(self.numPaletteEntries):
				palette.append( Color(*struct.unpack(">BBBB", data[ppos:ppos+4])) )
				ppos += 4
			self.palettes.append(palette)
		if self.version == 0:
			offsetToPaletteTypeArray = 0
			offsetToPaletteLabelArray = 0
			offsetToPaletteEntryLabelArray = 0
		else:
			pos = 12 + numPalettes * 2
			(offsetToPaletteTypeArray, offsetToPaletteLabelArray,
			offsetToPaletteEntryLabelArray) = (
				struct.unpack(">LLL", data[pos:pos+12]))
		self.paletteTypes = self._decompileUInt32Array(
			data, offsetToPaletteTypeArray, numPalettes,
			default=self.DEFAULT_PALETTE_TYPE)
		self.paletteLabels = self._decompileUInt16Array(
			data, offsetToPaletteLabelArray, numPalettes, default=self.NO_NAME_ID)
		self.paletteEntryLabels = self._decompileUInt16Array(
			data, offsetToPaletteEntryLabelArray,
			self.numPaletteEntries, default=self.NO_NAME_ID)

	def _decompileUInt16Array(self, data, offset, numElements, default=0):
		if offset == 0:
			return [default] * numElements
		result = array.array("H", data[offset : offset + 2 * numElements])
		if sys.byteorder != "big": result.byteswap()
		assert len(result) == numElements, result
		return result.tolist()

	def _decompileUInt32Array(self, data, offset, numElements, default=0):
		if offset == 0:
			return [default] * numElements
		result = array.array("I", data[offset : offset + 4 * numElements])
		if sys.byteorder != "big": result.byteswap()
		assert len(result) == numElements, result
		return result.tolist()

	def compile(self, ttFont):
		colorRecordIndices, colorRecords = self._compileColorRecords()
		paletteTypes = self._compilePaletteTypes()
		paletteLabels = self._compilePaletteLabels()
		paletteEntryLabels = self._compilePaletteEntryLabels()
		numColorRecords = len(colorRecords) // 4
		offsetToFirstColorRecord = 12 + len(colorRecordIndices)
		if self.version >= 1:
			offsetToFirstColorRecord += 12
		header = struct.pack(">HHHHL", self.version,
                                     self.numPaletteEntries, len(self.palettes),
                                     numColorRecords, offsetToFirstColorRecord)
		if self.version == 0:
			dataList = [header, colorRecordIndices, colorRecords]
		else:
			pos = offsetToFirstColorRecord + len(colorRecords)
			if len(paletteTypes) == 0:
				offsetToPaletteTypeArray = 0
			else:
				offsetToPaletteTypeArray = pos
				pos += len(paletteTypes)
			if len(paletteLabels) == 0:
				offsetToPaletteLabelArray = 0
			else:
				offsetToPaletteLabelArray = pos
				pos += len(paletteLabels)
			if len(paletteEntryLabels) == 0:
				offsetToPaletteEntryLabelArray = 0
			else:
				offsetToPaletteEntryLabelArray = pos
				pos += len(paletteLabels)
			header1 = struct.pack(">LLL",
				offsetToPaletteTypeArray,
				offsetToPaletteLabelArray,
				offsetToPaletteEntryLabelArray)
			dataList = [header, colorRecordIndices, header1,
				    colorRecords, paletteTypes, paletteLabels,
                                    paletteEntryLabels]
		return bytesjoin(dataList)

	def _compilePalette(self, palette):
		assert(len(palette) == self.numPaletteEntries)
		pack = lambda c: struct.pack(">BBBB", c.blue, c.green, c.red, c.alpha)
		return bytesjoin([pack(color) for color in palette])

	def _compileColorRecords(self):
		colorRecords, colorRecordIndices, pool = [], [], {}
		for palette in self.palettes:
			packedPalette = self._compilePalette(palette)
			if packedPalette in pool:
				index = pool[packedPalette]
			else:
				index = len(colorRecords)
				colorRecords.append(packedPalette)
				pool[packedPalette] = index
			colorRecordIndices.append(struct.pack(">H", index * self.numPaletteEntries))
		return bytesjoin(colorRecordIndices), bytesjoin(colorRecords)

	def _compilePaletteTypes(self):
		if self.version == 0 or not any(self.paletteTypes):
			return b''
		assert len(self.paletteTypes) == len(self.palettes)
		result = bytesjoin([struct.pack(">I", ptype)
                                    for ptype in self.paletteTypes])
		assert len(result) == 4 * len(self.palettes)
		return result

	def _compilePaletteLabels(self):
		if self.version == 0 or all(l == self.NO_NAME_ID for l in self.paletteLabels):
			return b''
		assert len(self.paletteLabels) == len(self.palettes)
		result = bytesjoin([struct.pack(">H", label)
                                    for label in self.paletteLabels])
		assert len(result) == 2 * len(self.palettes)
		return result

	def _compilePaletteEntryLabels(self):
		if self.version == 0 or all(l == self.NO_NAME_ID for l in self.paletteEntryLabels):
			return b''
		assert len(self.paletteEntryLabels) == self.numPaletteEntries
		result = bytesjoin([struct.pack(">H", label)
                                    for label in self.paletteEntryLabels])
		assert len(result) == 2 * self.numPaletteEntries
		return result

	def toXML(self, writer, ttFont):
		numPalettes = len(self.palettes)
		paletteLabels = {i: nameID
				for (i, nameID) in enumerate(self.paletteLabels)}
		paletteTypes = {i: typ for (i, typ) in enumerate(self.paletteTypes)}
		writer.simpletag("version", value=self.version)
		writer.newline()
		writer.simpletag("numPaletteEntries",
				 value=self.numPaletteEntries)
		writer.newline()
		for index, palette in enumerate(self.palettes):
			attrs = {"index": index}
			paletteType = paletteTypes.get(index, self.DEFAULT_PALETTE_TYPE)
			paletteLabel = paletteLabels.get(index, self.NO_NAME_ID)
			if self.version > 0 and paletteLabel != self.NO_NAME_ID:
				attrs["label"] = paletteLabel
			if self.version > 0 and paletteType != self.DEFAULT_PALETTE_TYPE:
				attrs["type"] = paletteType
			writer.begintag("palette", **attrs)
			writer.newline()
			if (self.version > 0 and paletteLabel != self.NO_NAME_ID and
			    ttFont and "name" in ttFont):
				name = ttFont["name"].getDebugName(paletteLabel)
				if name is not None:
					writer.comment(name)
					writer.newline()
			assert(len(palette) == self.numPaletteEntries)
			for cindex, color in enumerate(palette):
				color.toXML(writer, ttFont, cindex)
			writer.endtag("palette")
			writer.newline()
		if self.version > 0 and not all(l == self.NO_NAME_ID for l in self.paletteEntryLabels):
			writer.begintag("paletteEntryLabels")
			writer.newline()
			for index, label in enumerate(self.paletteEntryLabels):
				if label != self.NO_NAME_ID:
					writer.simpletag("label", index=index, value=label)
					if (self.version > 0 and label and ttFont and "name" in ttFont):
						name = ttFont["name"].getDebugName(label)
						if name is not None:
							writer.comment(name)
					writer.newline()
			writer.endtag("paletteEntryLabels")
			writer.newline()

	def fromXML(self, name, attrs, content, ttFont):
		if name == "palette":
			self.paletteLabels.append(int(attrs.get("label", self.NO_NAME_ID)))
			self.paletteTypes.append(int(attrs.get("type", self.DEFAULT_PALETTE_TYPE)))
			palette = []
			for element in content:
				if isinstance(element, str):
					continue
				attrs = element[1]
				color = Color.fromHex(attrs["value"])
				palette.append(color)
			self.palettes.append(palette)
		elif name == "paletteEntryLabels":
			colorLabels = {}
			for element in content:
				if isinstance(element, str):
					continue
				elementName, elementAttr, _ = element
				if elementName == "label":
					labelIndex = safeEval(elementAttr["index"])
					nameID = safeEval(elementAttr["value"])
					colorLabels[labelIndex] = nameID
			self.paletteEntryLabels = [
				colorLabels.get(i, self.NO_NAME_ID)
				for i in range(self.numPaletteEntries)]
		elif "value" in attrs:
			value = safeEval(attrs["value"])
			setattr(self, name, value)
			if name == "numPaletteEntries":
				self.paletteEntryLabels = [self.NO_NAME_ID] * self.numPaletteEntries


class Color(namedtuple("Color", "blue green red alpha")):

	def hex(self):
		return "#%02X%02X%02X%02X" % (self.red, self.green, self.blue, self.alpha)

	def __repr__(self):
		return self.hex()

	def toXML(self, writer, ttFont, index=None):
		writer.simpletag("color", value=self.hex(), index=index)
		writer.newline()

	@classmethod
	def fromHex(cls, value):
		if value[0] == '#':
			value = value[1:]
		red = int(value[0:2], 16)
		green = int(value[2:4], 16)
		blue = int(value[4:6], 16)
		alpha = int(value[6:8], 16) if len (value) >= 8 else 0xFF
		return cls(red=red, green=green, blue=blue, alpha=alpha)

	@classmethod
	def fromRGBA(cls, red, green, blue, alpha):
		return cls(red=red, green=green, blue=blue, alpha=alpha)