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	"""
	A Pillow loader for .dds files (S3TC-compressed aka DXTC)
	Jerome Leclanche <jerome@leclan.ch>

	Documentation:
	https://web.archive.org/web/20170802060935/http://oss.sgi.com/projects/ogl-sample/registry/EXT/texture_compression_s3tc.txt

	The contents of this file are hereby released in the public domain (CC0)
	Full text of the CC0 license:
	https://creativecommons.org/publicdomain/zero/1.0/
	"""

	from __future__ import annotations

	import io
	import struct
	import sys
	from enum import IntEnum, IntFlag

	from . import Image, ImageFile, ImagePalette
	from ._binary import i32le as i32
	from ._binary import o8
	from ._binary import o32le as o32

	# Magic ("DDS ")
	DDS_MAGIC = 0x20534444


	# DDS flags
	class DDSD(IntFlag):
	CAPS = 0x1
	HEIGHT = 0x2
	WIDTH = 0x4
	PITCH = 0x8
	PIXELFORMAT = 0x1000
	MIPMAPCOUNT = 0x20000
	LINEARSIZE = 0x80000
	DEPTH = 0x800000


	# DDS caps
	class DDSCAPS(IntFlag):
	COMPLEX = 0x8
	TEXTURE = 0x1000
	MIPMAP = 0x400000


	class DDSCAPS2(IntFlag):
	CUBEMAP = 0x200
	CUBEMAP_POSITIVEX = 0x400
	CUBEMAP_NEGATIVEX = 0x800
	CUBEMAP_POSITIVEY = 0x1000
	CUBEMAP_NEGATIVEY = 0x2000
	CUBEMAP_POSITIVEZ = 0x4000
	CUBEMAP_NEGATIVEZ = 0x8000
	VOLUME = 0x200000


	# Pixel Format
	class DDPF(IntFlag):
	ALPHAPIXELS = 0x1
	ALPHA = 0x2
	FOURCC = 0x4
	PALETTEINDEXED8 = 0x20
	RGB = 0x40
	LUMINANCE = 0x20000


	# dxgiformat.h
	class DXGI_FORMAT(IntEnum):
	UNKNOWN = 0
	R32G32B32A32_TYPELESS = 1
	R32G32B32A32_FLOAT = 2
	R32G32B32A32_UINT = 3
	R32G32B32A32_SINT = 4
	R32G32B32_TYPELESS = 5
	R32G32B32_FLOAT = 6
	R32G32B32_UINT = 7
	R32G32B32_SINT = 8
	R16G16B16A16_TYPELESS = 9
	R16G16B16A16_FLOAT = 10
	R16G16B16A16_UNORM = 11
	R16G16B16A16_UINT = 12
	R16G16B16A16_SNORM = 13
	R16G16B16A16_SINT = 14
	R32G32_TYPELESS = 15
	R32G32_FLOAT = 16
	R32G32_UINT = 17
	R32G32_SINT = 18
	R32G8X24_TYPELESS = 19
	D32_FLOAT_S8X24_UINT = 20
	R32_FLOAT_X8X24_TYPELESS = 21
	X32_TYPELESS_G8X24_UINT = 22
	R10G10B10A2_TYPELESS = 23
	R10G10B10A2_UNORM = 24
	R10G10B10A2_UINT = 25
	R11G11B10_FLOAT = 26
	R8G8B8A8_TYPELESS = 27
	R8G8B8A8_UNORM = 28
	R8G8B8A8_UNORM_SRGB = 29
	R8G8B8A8_UINT = 30
	R8G8B8A8_SNORM = 31
	R8G8B8A8_SINT = 32
	R16G16_TYPELESS = 33
	R16G16_FLOAT = 34
	R16G16_UNORM = 35
	R16G16_UINT = 36
	R16G16_SNORM = 37
	R16G16_SINT = 38
	R32_TYPELESS = 39
	D32_FLOAT = 40
	R32_FLOAT = 41
	R32_UINT = 42
	R32_SINT = 43
	R24G8_TYPELESS = 44
	D24_UNORM_S8_UINT = 45
	R24_UNORM_X8_TYPELESS = 46
	X24_TYPELESS_G8_UINT = 47
	R8G8_TYPELESS = 48
	R8G8_UNORM = 49
	R8G8_UINT = 50
	R8G8_SNORM = 51
	R8G8_SINT = 52
	R16_TYPELESS = 53
	R16_FLOAT = 54
	D16_UNORM = 55
	R16_UNORM = 56
	R16_UINT = 57
	R16_SNORM = 58
	R16_SINT = 59
	R8_TYPELESS = 60
	R8_UNORM = 61
	R8_UINT = 62
	R8_SNORM = 63
	R8_SINT = 64
	A8_UNORM = 65
	R1_UNORM = 66
	R9G9B9E5_SHAREDEXP = 67
	R8G8_B8G8_UNORM = 68
	G8R8_G8B8_UNORM = 69
	BC1_TYPELESS = 70
	BC1_UNORM = 71
	BC1_UNORM_SRGB = 72
	BC2_TYPELESS = 73
	BC2_UNORM = 74
	BC2_UNORM_SRGB = 75
	BC3_TYPELESS = 76
	BC3_UNORM = 77
	BC3_UNORM_SRGB = 78
	BC4_TYPELESS = 79
	BC4_UNORM = 80
	BC4_SNORM = 81
	BC5_TYPELESS = 82
	BC5_UNORM = 83
	BC5_SNORM = 84
	B5G6R5_UNORM = 85
	B5G5R5A1_UNORM = 86
	B8G8R8A8_UNORM = 87
	B8G8R8X8_UNORM = 88
	R10G10B10_XR_BIAS_A2_UNORM = 89
	B8G8R8A8_TYPELESS = 90
	B8G8R8A8_UNORM_SRGB = 91
	B8G8R8X8_TYPELESS = 92
	B8G8R8X8_UNORM_SRGB = 93
	BC6H_TYPELESS = 94
	BC6H_UF16 = 95
	BC6H_SF16 = 96
	BC7_TYPELESS = 97
	BC7_UNORM = 98
	BC7_UNORM_SRGB = 99
	AYUV = 100
	Y410 = 101
	Y416 = 102
	NV12 = 103
	P010 = 104
	P016 = 105
	OPAQUE_420 = 106
	YUY2 = 107
	Y210 = 108
	Y216 = 109
	NV11 = 110
	AI44 = 111
	IA44 = 112
	P8 = 113
	A8P8 = 114
	B4G4R4A4_UNORM = 115
	P208 = 130
	V208 = 131
	V408 = 132
	SAMPLER_FEEDBACK_MIN_MIP_OPAQUE = 189
	SAMPLER_FEEDBACK_MIP_REGION_USED_OPAQUE = 190


	class D3DFMT(IntEnum):
	UNKNOWN = 0
	R8G8B8 = 20
	A8R8G8B8 = 21
	X8R8G8B8 = 22
	R5G6B5 = 23
	X1R5G5B5 = 24
	A1R5G5B5 = 25
	A4R4G4B4 = 26
	R3G3B2 = 27
	A8 = 28
	A8R3G3B2 = 29
	X4R4G4B4 = 30
	A2B10G10R10 = 31
	A8B8G8R8 = 32
	X8B8G8R8 = 33
	G16R16 = 34
	A2R10G10B10 = 35
	A16B16G16R16 = 36
	A8P8 = 40
	P8 = 41
	L8 = 50
	A8L8 = 51
	A4L4 = 52
	V8U8 = 60
	L6V5U5 = 61
	X8L8V8U8 = 62
	Q8W8V8U8 = 63
	V16U16 = 64
	A2W10V10U10 = 67
	D16_LOCKABLE = 70
	D32 = 71
	D15S1 = 73
	D24S8 = 75
	D24X8 = 77
	D24X4S4 = 79
	D16 = 80
	D32F_LOCKABLE = 82
	D24FS8 = 83
	D32_LOCKABLE = 84
	S8_LOCKABLE = 85
	L16 = 81
	VERTEXDATA = 100
	INDEX16 = 101
	INDEX32 = 102
	Q16W16V16U16 = 110
	R16F = 111
	G16R16F = 112
	A16B16G16R16F = 113
	R32F = 114
	G32R32F = 115
	A32B32G32R32F = 116
	CxV8U8 = 117
	A1 = 118
	A2B10G10R10_XR_BIAS = 119
	BINARYBUFFER = 199

	UYVY = i32(b"UYVY")
	R8G8_B8G8 = i32(b"RGBG")
	YUY2 = i32(b"YUY2")
	G8R8_G8B8 = i32(b"GRGB")
	DXT1 = i32(b"DXT1")
	DXT2 = i32(b"DXT2")
	DXT3 = i32(b"DXT3")
	DXT4 = i32(b"DXT4")
	DXT5 = i32(b"DXT5")
	DX10 = i32(b"DX10")
	BC4S = i32(b"BC4S")
	BC4U = i32(b"BC4U")
	BC5S = i32(b"BC5S")
	BC5U = i32(b"BC5U")
	ATI1 = i32(b"ATI1")
	ATI2 = i32(b"ATI2")
	MULTI2_ARGB8 = i32(b"MET1")


	# Backward compatibility layer
	module = sys.modules[__name__]
	for item in DDSD:
	assert item.name is not None
	setattr(module, "DDSD_" + item.name, item.value)
	for item1 in DDSCAPS:
	assert item1.name is not None
	setattr(module, "DDSCAPS_" + item1.name, item1.value)
	for item2 in DDSCAPS2:
	assert item2.name is not None
	setattr(module, "DDSCAPS2_" + item2.name, item2.value)
	for item3 in DDPF:
	assert item3.name is not None
	setattr(module, "DDPF_" + item3.name, item3.value)

	DDS_FOURCC = DDPF.FOURCC
	DDS_RGB = DDPF.RGB
	DDS_RGBA = DDPF.RGB \| DDPF.ALPHAPIXELS
	DDS_LUMINANCE = DDPF.LUMINANCE
	DDS_LUMINANCEA = DDPF.LUMINANCE \| DDPF.ALPHAPIXELS
	DDS_ALPHA = DDPF.ALPHA
	DDS_PAL8 = DDPF.PALETTEINDEXED8

	DDS_HEADER_FLAGS_TEXTURE = DDSD.CAPS \| DDSD.HEIGHT \| DDSD.WIDTH \| DDSD.PIXELFORMAT
	DDS_HEADER_FLAGS_MIPMAP = DDSD.MIPMAPCOUNT
	DDS_HEADER_FLAGS_VOLUME = DDSD.DEPTH
	DDS_HEADER_FLAGS_PITCH = DDSD.PITCH
	DDS_HEADER_FLAGS_LINEARSIZE = DDSD.LINEARSIZE

	DDS_HEIGHT = DDSD.HEIGHT
	DDS_WIDTH = DDSD.WIDTH

	DDS_SURFACE_FLAGS_TEXTURE = DDSCAPS.TEXTURE
	DDS_SURFACE_FLAGS_MIPMAP = DDSCAPS.COMPLEX \| DDSCAPS.MIPMAP
	DDS_SURFACE_FLAGS_CUBEMAP = DDSCAPS.COMPLEX

	DDS_CUBEMAP_POSITIVEX = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_POSITIVEX
	DDS_CUBEMAP_NEGATIVEX = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_NEGATIVEX
	DDS_CUBEMAP_POSITIVEY = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_POSITIVEY
	DDS_CUBEMAP_NEGATIVEY = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_NEGATIVEY
	DDS_CUBEMAP_POSITIVEZ = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_POSITIVEZ
	DDS_CUBEMAP_NEGATIVEZ = DDSCAPS2.CUBEMAP \| DDSCAPS2.CUBEMAP_NEGATIVEZ

	DXT1_FOURCC = D3DFMT.DXT1
	DXT3_FOURCC = D3DFMT.DXT3
	DXT5_FOURCC = D3DFMT.DXT5

	DXGI_FORMAT_R8G8B8A8_TYPELESS = DXGI_FORMAT.R8G8B8A8_TYPELESS
	DXGI_FORMAT_R8G8B8A8_UNORM = DXGI_FORMAT.R8G8B8A8_UNORM
	DXGI_FORMAT_R8G8B8A8_UNORM_SRGB = DXGI_FORMAT.R8G8B8A8_UNORM_SRGB
	DXGI_FORMAT_BC5_TYPELESS = DXGI_FORMAT.BC5_TYPELESS
	DXGI_FORMAT_BC5_UNORM = DXGI_FORMAT.BC5_UNORM
	DXGI_FORMAT_BC5_SNORM = DXGI_FORMAT.BC5_SNORM
	DXGI_FORMAT_BC6H_UF16 = DXGI_FORMAT.BC6H_UF16
	DXGI_FORMAT_BC6H_SF16 = DXGI_FORMAT.BC6H_SF16
	DXGI_FORMAT_BC7_TYPELESS = DXGI_FORMAT.BC7_TYPELESS
	DXGI_FORMAT_BC7_UNORM = DXGI_FORMAT.BC7_UNORM
	DXGI_FORMAT_BC7_UNORM_SRGB = DXGI_FORMAT.BC7_UNORM_SRGB


	class DdsImageFile(ImageFile.ImageFile):
	format = "DDS"
	format_description = "DirectDraw Surface"

	def _open(self):
	if not _accept(self.fp.read(4)):
	msg = "not a DDS file"
	raise SyntaxError(msg)
	(header_size,) = struct.unpack("<I", self.fp.read(4))
	if header_size != 124:
	msg = f"Unsupported header size {repr(header_size)}"
	raise OSError(msg)
	header_bytes = self.fp.read(header_size - 4)
	if len(header_bytes) != 120:
	msg = f"Incomplete header: {len(header_bytes)} bytes"
	raise OSError(msg)
	header = io.BytesIO(header_bytes)

	flags, height, width = struct.unpack("<3I", header.read(12))
	self._size = (width, height)
	extents = (0, 0) + self.size

	pitch, depth, mipmaps = struct.unpack("<3I", header.read(12))
	struct.unpack("<11I", header.read(44)) # reserved

	# pixel format
	pfsize, pfflags, fourcc, bitcount = struct.unpack("<4I", header.read(16))
	n = 0
	rawmode = None
	if pfflags & DDPF.RGB:
	# Texture contains uncompressed RGB data
	if pfflags & DDPF.ALPHAPIXELS:
	self._mode = "RGBA"
	mask_count = 4
	else:
	self._mode = "RGB"
	mask_count = 3

	masks = struct.unpack(f"<{mask_count}I", header.read(mask_count * 4))
	self.tile = [("dds_rgb", extents, 0, (bitcount, masks))]
	return
	elif pfflags & DDPF.LUMINANCE:
	if bitcount == 8:
	self._mode = "L"
	elif bitcount == 16 and pfflags & DDPF.ALPHAPIXELS:
	self._mode = "LA"
	else:
	msg = f"Unsupported bitcount {bitcount} for {pfflags}"
	raise OSError(msg)
	elif pfflags & DDPF.PALETTEINDEXED8:
	self._mode = "P"
	self.palette = ImagePalette.raw("RGBA", self.fp.read(1024))
	elif pfflags & DDPF.FOURCC:
	offset = header_size + 4
	if fourcc == D3DFMT.DXT1:
	self._mode = "RGBA"
	self.pixel_format = "DXT1"
	n = 1
	elif fourcc == D3DFMT.DXT3:
	self._mode = "RGBA"
	self.pixel_format = "DXT3"
	n = 2
	elif fourcc == D3DFMT.DXT5:
	self._mode = "RGBA"
	self.pixel_format = "DXT5"
	n = 3
	elif fourcc in (D3DFMT.BC4U, D3DFMT.ATI1):
	self._mode = "L"
	self.pixel_format = "BC4"
	n = 4
	elif fourcc == D3DFMT.BC5S:
	self._mode = "RGB"
	self.pixel_format = "BC5S"
	n = 5
	elif fourcc in (D3DFMT.BC5U, D3DFMT.ATI2):
	self._mode = "RGB"
	self.pixel_format = "BC5"
	n = 5
	elif fourcc == D3DFMT.DX10:
	offset += 20
	# ignoring flags which pertain to volume textures and cubemaps
	(dxgi_format,) = struct.unpack("<I", self.fp.read(4))
	self.fp.read(16)
	if dxgi_format in (
	DXGI_FORMAT.BC1_UNORM,
	DXGI_FORMAT.BC1_TYPELESS,
	):
	self._mode = "RGBA"
	self.pixel_format = "BC1"
	n = 1
	elif dxgi_format in (DXGI_FORMAT.BC4_TYPELESS, DXGI_FORMAT.BC4_UNORM):
	self._mode = "L"
	self.pixel_format = "BC4"
	n = 4
	elif dxgi_format in (DXGI_FORMAT.BC5_TYPELESS, DXGI_FORMAT.BC5_UNORM):
	self._mode = "RGB"
	self.pixel_format = "BC5"
	n = 5
	elif dxgi_format == DXGI_FORMAT.BC5_SNORM:
	self._mode = "RGB"
	self.pixel_format = "BC5S"
	n = 5
	elif dxgi_format == DXGI_FORMAT.BC6H_UF16:
	self._mode = "RGB"
	self.pixel_format = "BC6H"
	n = 6
	elif dxgi_format == DXGI_FORMAT.BC6H_SF16:
	self._mode = "RGB"
	self.pixel_format = "BC6HS"
	n = 6
	elif dxgi_format in (
	DXGI_FORMAT.BC7_TYPELESS,
	DXGI_FORMAT.BC7_UNORM,
	DXGI_FORMAT.BC7_UNORM_SRGB,
	):
	self._mode = "RGBA"
	self.pixel_format = "BC7"
	n = 7
	if dxgi_format == DXGI_FORMAT.BC7_UNORM_SRGB:
	self.info["gamma"] = 1 / 2.2
	elif dxgi_format in (
	DXGI_FORMAT.R8G8B8A8_TYPELESS,
	DXGI_FORMAT.R8G8B8A8_UNORM,
	DXGI_FORMAT.R8G8B8A8_UNORM_SRGB,
	):
	self._mode = "RGBA"
	if dxgi_format == DXGI_FORMAT.R8G8B8A8_UNORM_SRGB:
	self.info["gamma"] = 1 / 2.2
	else:
	msg = f"Unimplemented DXGI format {dxgi_format}"
	raise NotImplementedError(msg)
	else:
	msg = f"Unimplemented pixel format {repr(fourcc)}"
	raise NotImplementedError(msg)
	else:
	msg = f"Unknown pixel format flags {pfflags}"
	raise NotImplementedError(msg)

	if n:
	self.tile = [
	ImageFile._Tile("bcn", extents, offset, (n, self.pixel_format))
	]
	else:
	self.tile = [ImageFile._Tile("raw", extents, 0, rawmode or self.mode)]

	def load_seek(self, pos):
	pass


	class DdsRgbDecoder(ImageFile.PyDecoder):
	_pulls_fd = True

	def decode(self, buffer):
	bitcount, masks = self.args

	# Some masks will be padded with zeros, e.g. R 0b11 G 0b1100
	# Calculate how many zeros each mask is padded with
	mask_offsets = []
	# And the maximum value of each channel without the padding
	mask_totals = []
	for mask in masks:
	offset = 0
	if mask != 0:
	while mask >> (offset + 1) << (offset + 1) == mask:
	offset += 1
	mask_offsets.append(offset)
	mask_totals.append(mask >> offset)

	data = bytearray()
	bytecount = bitcount // 8
	dest_length = self.state.xsize * self.state.ysize * len(masks)
	while len(data) < dest_length:
	value = int.from_bytes(self.fd.read(bytecount), "little")
	for i, mask in enumerate(masks):
	masked_value = value & mask
	# Remove the zero padding, and scale it to 8 bits
	data += o8(
	int(((masked_value >> mask_offsets[i]) / mask_totals[i]) * 255)
	)
	self.set_as_raw(data)
	return -1, 0


	def _save(im, fp, filename):
	if im.mode not in ("RGB", "RGBA", "L", "LA"):
	msg = f"cannot write mode {im.mode} as DDS"
	raise OSError(msg)

	alpha = im.mode[-1] == "A"
	if im.mode[0] == "L":
	pixel_flags = DDPF.LUMINANCE
	rawmode = im.mode
	if alpha:
	rgba_mask = [0x000000FF, 0x000000FF, 0x000000FF]
	else:
	rgba_mask = [0xFF000000, 0xFF000000, 0xFF000000]
	else:
	pixel_flags = DDPF.RGB
	rawmode = im.mode[::-1]
	rgba_mask = [0x00FF0000, 0x0000FF00, 0x000000FF]

	if alpha:
	r, g, b, a = im.split()
	im = Image.merge("RGBA", (a, r, g, b))
	if alpha:
	pixel_flags \|= DDPF.ALPHAPIXELS
	rgba_mask.append(0xFF000000 if alpha else 0)

	flags = DDSD.CAPS \| DDSD.HEIGHT \| DDSD.WIDTH \| DDSD.PITCH \| DDSD.PIXELFORMAT
	bitcount = len(im.getbands()) * 8
	pitch = (im.width * bitcount + 7) // 8

	fp.write(
	o32(DDS_MAGIC)
	+ struct.pack(
	"<7I",
	124, # header size
	flags, # flags
	im.height,
	im.width,
	pitch,
	0, # depth
	0, # mipmaps
	)
	+ struct.pack("11I", ((0,) 11)) # reserved
	# pfsize, pfflags, fourcc, bitcount
	+ struct.pack("<4I", 32, pixel_flags, 0, bitcount)
	+ struct.pack("<4I", *rgba_mask) # dwRGBABitMask
	+ struct.pack("<5I", DDSCAPS.TEXTURE, 0, 0, 0, 0)
	)
	ImageFile._save(
	im, fp, [ImageFile._Tile("raw", (0, 0) + im.size, 0, (rawmode, 0, 1))]
	)


	def _accept(prefix):
	return prefix[:4] == b"DDS "


	Image.register_open(DdsImageFile.format, DdsImageFile, _accept)
	Image.register_decoder("dds_rgb", DdsRgbDecoder)
	Image.register_save(DdsImageFile.format, _save)
	Image.register_extension(DdsImageFile.format, ".dds")