mirror of
https://gitlab.com/Nanolx/qwad.git
synced 2024-11-22 10:39:19 +01:00
803 lines
25 KiB
Python
803 lines
25 KiB
Python
#!/usr/bin/env python
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from common import *
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import wx
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def flatten(myTuple):
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if (len(myTuple) == 4):
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return myTuple[0] << 0 | myTuple[1] << 8 | myTuple[2] << 16 | myTuple[3] << 24
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else:
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return myTuple[0] << 0 | myTuple[1] << 8 | myTuple[2] << 16 | 0xff << 24
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def round_up(x, n):
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left = x % n
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return x + left
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def avg(w0, w1, c0, c1):
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a0 = c0 >> 11
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a1 = c1 >> 11
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a = (w0*a0 + w1*a1) / (w0 + w1)
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c = (a << 11) & 0xffff
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a0 = (c0 >> 5) & 63
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a1 = (c1 >> 5) & 63
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a = (w0*a0 + w1*a1) / (w0 + w1)
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c = c | ((a << 5) & 0xffff)
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a0 = c0 & 31
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a1 = c1 & 31
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a = (w0*a0 + w1*a1) / (w0 + w1)
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c = c | a
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return c
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class TPL():
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"""This is the class to generate TPL texutres from PNG images, and to convert TPL textures to PNG images. The parameter file specifies the filename of the source, either a PNG image or a TPL image.
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Currently supported are the following formats to convert from TPL (all formats): RGBA8, RGB565, RGB5A3, I4, IA4, I8, IA8, CI4, CI8, CMP, CI14X2.
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Currently supported to convert to TPL: I4, I8, IA4, IA8, RBG565, RBGA8, RGB5A3. Currently not supported are CI4, CI8, CMP, CI14X2."""
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class TPLHeader(Struct):
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__endian__ = Struct.BE
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def __format__(self):
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self.magic = Struct.uint32
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self.ntextures = Struct.uint32
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self.header_size = Struct.uint32
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class TPLTexture(Struct):
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__endian__ = Struct.BE
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def __format__(self):
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self.header_offset = Struct.uint32
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self.palette_offset = Struct.uint32
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class TPLTextureHeader(Struct):
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__endian__ = Struct.BE
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def __format__(self):
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self.height = Struct.uint16
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self.width = Struct.uint16
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self.format = Struct.uint32
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self.data_off = Struct.uint32
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self.wrap = Struct.uint32[2]
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self.filter = Struct.uint32[2]
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self.lod_bias = Struct.float
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self.edge_lod = Struct.uint8
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self.min_lod = Struct.uint8
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self.max_lod = Struct.uint8
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self.unpacked = Struct.uint8
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class TPLPaletteHeader(Struct):
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__endian__ = Struct.BE
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def __format__(self):
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self.nitems = Struct.uint16
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self.unpacked = Struct.uint8
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self.pad = Struct.uint8
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self.format = Struct.uint32
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self.offset = Struct.uint32
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def __init__(self, file):
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if(not ("\x00" in file) and os.path.isfile(file)):
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self.file = file
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self.data = None
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else:
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self.file = None
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self.data = file
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def toTPL(self, outfile, (width, height) = (None, None), format = "RGBA8"): #single texture only
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"""This converts an image into a TPL. The image is specified as the file parameter to the class initializer, while the output filename is specified here as the parameter outfile. Width and height are optional parameters and specify the size to resize the image to, if needed. Returns the output filename.
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This only can create TPL images with a single texture."""
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head = self.TPLHeader()
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head.magic = 0x0020AF30
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head.ntextures = 1
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head.header_size = 0x0C
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tex = self.TPLTexture()
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tex.header_offset = 0x14
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tex.pallete_offset = 0
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img = Image.open(self.file)
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theWidth, theHeight = img.size
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if(width != None and height != None and (width != theWidth or height != theHeight)):
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img = img.resize((width, height), Image.ANTIALIAS)
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w, h = img.size
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texhead = self.TPLTextureHeader()
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texhead.height = h
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texhead.width = w
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if format == "I4":
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texhead.format = 0
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tpldata = self.toI4((w, h), img)
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elif format == "I8":
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texhead.format = 1
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tpldata = self.toI8((w, h), img)
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elif format == "IA4":
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texhead.format = 2
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tpldata = self.toIA4((w, h), img)
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elif format == "IA8":
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texhead.format = 3
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tpldata = self.toIA8((w, h), img)
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elif format == "RGB565":
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texhead.format = 4
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tpldata = self.toRGB565((w, h), img)
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elif format == "RGB5A3":
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texhead.format = 5
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tpldata = self.toRGB5A3((w, h), img)
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elif format == "RGBA8":
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texhead.format = 6
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tpldata = self.toRGBA8((w, h), img)
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elif format == "CI4":
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texhead.format = 8
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''' ADD toCI4 '''
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raise Exception("toCI4 not done")
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#tpldata = self.toCI4((w, h), img)
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elif format == "CI8":
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texhead.format = 9
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''' ADD toCI8 '''
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raise Exception("toCI8 not done")
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#tpldata = self.toCI8((w, h), img)
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elif format == "CI14X2":
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texhead.format = 10
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''' ADD toCI14X2 '''
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raise Exception("toCI14X2 not done")
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#tpldata = self.toCI14X2((w, h), img)
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elif format == "CMP":
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texhead.format = 14
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''' ADD toCMP '''
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raise Exception("toCMP not done")
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#tpldata = self.toCMP((w, h), img)
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texhead.data_off = 0x14 + len(texhead)
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texhead.wrap = [0, 0]
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texhead.filter = [1, 1]
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texhead.lod_bias = 0
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texhead.edge_lod = 0
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texhead.min_lod = 0
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texhead.max_lod = 0
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texhead.unpacked = 0
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f = open(outfile, "wb")
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f.write(head.pack())
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f.write(tex.pack())
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f.write(texhead.pack())
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if format == "I4":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) / 2) + "B", *tpldata))
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if format == "I8":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "B", *tpldata))
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if format == "IA4":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "B", *tpldata))
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if format == "IA8":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata))
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if format == "RGB565":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata))
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if format == "RGB5A3":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata))
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if format == "RGBA8":
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f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 4) + "B", *tpldata))
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if format == "CI4":
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''' ADD toCI4 '''
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#f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata))
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if format == "CI8":
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''' ADD toCI8 '''
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#f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata))
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if format == "CI14X2":
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''' ADD toCI14X2 '''
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#f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata))
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if format == "CMP":
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''' ADD toCMP '''
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#f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata))
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f.close()
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return outfile
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def toI4(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4) / 2)]
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outp = 0
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inp = list(img.getdata())
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for y1 in range(0, h, 8):
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for x1 in range(0, w, 8):
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for y in range(y1, y1+8, 1):
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for x in range(x1, x1+8, 2):
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if x>=w or y>=h:
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newpixel = 0
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else:
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rgba = flatten(inp[x+y*w])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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i1 = ((r + g + b) / 3) & 0xff
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rgba = flatten(inp[x+1+y*w])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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i2 = ((r + g + b) / 3) & 0xff
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newpixel = (((i1 * 15) / 255) << 4)
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newpixel |= (((i2 * 15) / 255) & 0xf)
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out[outp] = newpixel
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outp += 1
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return out
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def toI8(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4))]
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outp = 0
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inp = list(img.getdata())
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 8):
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for y in range(y1, y1+4, 1):
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for x in range(x1, x1+8, 1):
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rgba = flatten(inp[x + (y * w)])
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if x>= w or y>=h:
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i1 = 0
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else:
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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i1 = ((r + g + b) / 3) & 0xff
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out[outp] = i1
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outp += 1
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return out
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def toIA4(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4))]
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outp = 0
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inp = list(img.getdata())
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 8):
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for y in range(y1, y1+4, 1):
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for x in range(x1, x1+8, 1):
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if x>=w or y>=h:
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newpixel = 0
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else:
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rgba = flatten(inp[x + (y * w)])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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i1 = ((r + g + b) / 3) & 0xff
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a1 = (rgba >> 24) & 0xff
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newpixel = (((i1 * 15) / 255) & 0xf)
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newpixel = newpixel | (((a1 * 15) / 255) << 4)
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out[outp] = newpixel
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outp += 1
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return out
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def toIA8(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4))]
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outp = 0
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inp = list(img.getdata())
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 4):
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for y in range(y1, y1+4, 1):
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for x in range(x1, x1+4, 1):
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if x>=w or y>=h:
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newpixel = 0
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else:
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rgba = flatten(inp[x + (y * w)])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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i1 = ((r + g + b) / 3) & 0xff
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a1 = (rgba >> 24) & 0xff
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newpixel = i1 << 8
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newpixel = newpixel | a1
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out[outp] = newpixel
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outp += 1
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return out
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def toRGB565(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4))]
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outp = 0
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inp = img.getdata()
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 4):
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for y in range(y1, y1+4, 1):
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for x in range(x1, x1+4, 1):
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newpixel = 0
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if x>=w or y>=h:
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newpixel = 0
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else:
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rgba = flatten(inp[x+y*w])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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newpixel = ((b >>3) << 11) | ((g >>2) << 5) | ((r >>3) << 0)
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out[outp] = newpixel
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outp += 1
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return out
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def toRGB5A3(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4))]
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outp = 0
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inp = list(img.getdata())
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 4):
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for y in range(y1, y1+4, 1):
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for x in range(x1, x1+4, 1):
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newpixel = 0
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if x>=w or y>=h:
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newpixel = 0
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else:
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rgba = flatten(inp[x + (y * h)])
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r = (rgba >> 0) & 0xff
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g = (rgba >> 8) & 0xff
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b = (rgba >> 16) & 0xff
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a = (rgba >> 24) & 0xff
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if (a <= 0xda):
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newpixel &= ~(1 << 15)
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r = ((r * 15) / 255) & 0xf
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g = ((g * 15) / 255) & 0xf
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b = ((b * 15) / 255) & 0xf
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a = ((a * 7) / 255) & 0x7
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#newpixel |= r << 12
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#newpixel |= g << 8
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#newpixel |= b << 4
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#newpixel |= a << 0
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newpixel |= a << 12
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newpixel |= b << 8
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newpixel |= g << 4
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newpixel |= r << 0
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else:
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newpixel |= (1 << 15)
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r = ((r * 31) / 255) & 0x1f
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g = ((g * 31) / 255) & 0x1f
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b = ((b * 31) / 255) & 0x1f
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newpixel |= b << 10
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newpixel |= g << 5
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newpixel |= r << 0
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out[outp] = newpixel
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outp += 1
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return out
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def toRGBA8(self, (w, h), img):
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out = [0 for i in range(align(w, 4) * align(h, 4) * 4)]
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inp = list(img.getdata())
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iv = 0
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z = 0
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lr = [0 for i in range(32)]
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lg = [0 for i in range(32)]
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lb = [0 for i in range(32)]
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la = [0 for i in range(32)]
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for y1 in range(0, h, 4):
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for x1 in range(0, w, 4):
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for y in range(y1, y1 + 4, 1):
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for x in range(x1, x1 + 4, 1):
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if(y >= h or x >= w):
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lr[z] = 0
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lg[z] = 0
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lb[z] = 0
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la[z] = 0
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else:
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rgba = flatten(inp[x + (y * w)])
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lr[z] = (rgba >> 0) & 0xff
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lg[z] = (rgba >> 8) & 0xff
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lb[z] = (rgba >> 16) & 0xff
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la[z] = (rgba >> 24) & 0xff
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z += 1
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if(z == 16):
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for i in range(16):
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out[iv] = la[i] & 0xff
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iv += 1
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out[iv] = lr[i] & 0xff
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iv += 1
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for i in range(16):
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out[iv] = lg[i] & 0xff
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iv += 1
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out[iv] = lb[i] & 0xff
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iv += 1
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z = 0
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return out
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def toImage(self, outfile):
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"""This converts a TPL texture to a PNG image. You specify the input TPL filename in the initializer, and you specify the output filename in the outfile parameter to this method. Returns the output filename.
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This only supports single textured TPL images."""
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if(self.file):
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data = open(self.file, "rb").read()
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else:
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data = self.data
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header = self.TPLHeader()
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textures = []
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pos = 0
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header.unpack(data[pos:pos + len(header)])
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pos += len(header)
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palette_offsets = []
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for i in range(header.ntextures):
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tmp = self.TPLTexture()
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tmp.unpack(data[pos:pos + len(tmp)])
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textures.append(tmp)
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pos += len(tmp)
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if(tmp.palette_offset > 0):
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palette_offsets.append(tmp.palette_offset)
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if(header.ntextures > 1):
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raise ValueError("Only one texture supported. Don't touch me!")
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for i in range(header.ntextures):
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head = textures[i]
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tex = self.TPLTextureHeader()
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tex.unpack(data[head.header_offset:head.header_offset + len(tex)])
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w = tex.width
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h = tex.height
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print tex.format
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if(tex.format == 0): #I4, 4-bit
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tpldata = struct.unpack(">" + str((w * h) / 2) + "B", data[tex.data_off:tex.data_off + ((w * h) / 2)])
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rgbdata = self.I4((w, h), tpldata)
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elif(tex.format == 1): #I8, 8-bit
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tpldata = struct.unpack(">" + str(w * h) + "B", data[tex.data_off:tex.data_off + (w * h * 1)])
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rgbdata = self.I8((w, h), tpldata)
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elif(tex.format == 2): #IA4, 8-bit
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tpldata = struct.unpack(">" + str(w * h) + "B", data[tex.data_off:tex.data_off + (w * h * 1)])
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rgbdata = self.IA4((w, h), tpldata)
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elif(tex.format == 4): #RGB565, 16-bit
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tpldata = data[tex.data_off:]
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rgbdata = self.RGB565((w, h), tpldata)
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elif(tex.format == 5): #RGB5A3, 16-bit
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tpldata = data[tex.data_off:]
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rgbdata = self.RGB5A3((w, h), tpldata)
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elif(tex.format == 3): #IA8, 16-bit
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tpldata = data[tex.data_off:]
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rgbdata = self.IA8((w, h), tpldata)
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elif(tex.format == 6): #RGBA8, 32-bit, but for easyness's sake lets do it with 16-bit
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tpldata = data[tex.data_off:]
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rgbdata = self.RGBA8((w, h), tpldata)
|
|
|
|
elif(tex.format == 8 or tex.format == 9 or tex.format == 10):
|
|
palhead = self.TPLPaletteHeader()
|
|
offs = palette_offsets.pop(0)
|
|
palhead.unpack(data[offs:offs + len(palhead)])
|
|
|
|
tpldata = struct.unpack(">" + str(palhead.nitems) + "H", data[palhead.offset:palhead.offset + (palhead.nitems * 2)])
|
|
if(palhead.format == 0):
|
|
palette_data = self.IA8((palhead.nitems, 1), tpldata)[0]
|
|
elif(palhead.format == 1):
|
|
palette_data = self.RGB565((palhead.nitems, 1), tpldata)[0]
|
|
elif(palhead.format == 2):
|
|
palette_data = self.RGB5A3((palhead.nitems, 1), tpldata)[0]
|
|
|
|
paldata = []
|
|
for i in range(0, palhead.nitems * 4, 4):
|
|
tmp = 0
|
|
tmp |= palette_data[i + 0] << 24
|
|
tmp |= palette_data[i + 1] << 16
|
|
tmp |= palette_data[i + 2] << 8
|
|
tmp |= palette_data[i + 3] << 0
|
|
paldata.append(tmp)
|
|
|
|
if(tex.format == 8):
|
|
tpldata = struct.unpack(">" + str((w * h) / 2) + "B", data[tex.data_off:tex.data_off + ((w * h) / 2)])
|
|
rgbdata = self.CI4((w, h), tpldata, paldata)
|
|
if(tex.format == 9):
|
|
tpldata = struct.unpack(">" + str(w * h) + "B", data[tex.data_off:tex.data_off + (w * h * 1)])
|
|
rgbdata = self.CI8((w, h), tpldata, paldata)
|
|
if(tex.format == 10):
|
|
tpldata = struct.unpack(">" + str(w * h) + "H", data[tex.data_off:tex.data_off + (w * h * 2)])
|
|
rgbdata = self.CI14X2((w, h), tpldata, paldata)
|
|
elif(tex.format == 14):
|
|
tpldata = ''.join(data[tex.data_off:])
|
|
|
|
rgbdata = self.CMP((w, h), tpldata)
|
|
else:
|
|
raise TypeError("Unsupported TPL Format: " + str(tex.format))
|
|
|
|
output = Image.fromstring("RGBA", (w, h), rgbdata)
|
|
ext = outfile[outfile.rfind(".")+1:]
|
|
output.save(outfile, ext)
|
|
|
|
return outfile
|
|
def getSizes(self):
|
|
"""This returns a tuple containing the width and height of the TPL image filename in the class initializer. Will only return the size of single textured TPL images."""
|
|
data = open(self.file, "rb").read()
|
|
|
|
header = self.TPLHeader()
|
|
textures = []
|
|
pos = 0
|
|
|
|
header.unpack(data[pos:pos + len(header)])
|
|
pos += len(header)
|
|
|
|
for i in range(header.ntextures):
|
|
tmp = self.TPLTexture()
|
|
tmp.unpack(data[pos:pos + len(tmp)])
|
|
textures.append(tmp)
|
|
pos += len(tmp)
|
|
|
|
for i in range(header.ntextures):
|
|
head = textures[i]
|
|
tex = self.TPLTextureHeader()
|
|
tex.unpack(data[head.header_offset:head.header_offset + len(tex)])
|
|
w = tex.width
|
|
h = tex.height
|
|
return (w, h)
|
|
def toScreen(self): #single texture only
|
|
"""This will draw a simple window with the TPL image displayed on it. It uses WxPython for the window creation and management. The window has a minimum width and height of 300 x 200. Does not return a value.
|
|
|
|
Again, only a single texture is supported."""
|
|
import wx
|
|
class imp(wx.Dialog):
|
|
def __init__(self, title, im):
|
|
w = img.GetWidth()
|
|
h = img.GetHeight()
|
|
|
|
wx.Dialog.__init__(self, None, -1, title, size = (max(w, 300), max(h, 200)))
|
|
|
|
wx.StaticBitmap(self, -1, im, ( ((max(w, 300) - w) / 2), ((max(h, 200) - h) / 2) ), (w, h))
|
|
self.toImage("tmp.png")
|
|
img = wx.Image("tmp.png", wx.BITMAP_TYPE_ANY).ConvertToBitmap()
|
|
w = img.GetWidth()
|
|
h = img.GetHeight()
|
|
dialog = imp("TPL (" + str(w) + ", " + str(h) + ")", img)
|
|
dialog.ShowModal()
|
|
dialog.Destroy()
|
|
os.unlink("tmp.png")
|
|
def RGBA8(self, (x, y), data):
|
|
out = [0 for i in range(x * y)]
|
|
inp = 0
|
|
for i in xrange(0, y, 4):
|
|
for j in xrange(0, x, 4):
|
|
for k in xrange(2):
|
|
for l in xrange(i, i + 4, 1):
|
|
for m in xrange(j, j + 4, 1):
|
|
texel = Struct.uint16(data[inp * 2:inp * 2 + 2], endian = '>')
|
|
inp += 1
|
|
if (m >= x) or (l >= y):
|
|
continue
|
|
if k == 0:
|
|
a = (texel >> 8) & 0xff
|
|
r = (texel >> 0) & 0xff
|
|
out[m + (l * x)] |= ((r << 0) | (a << 24))
|
|
else:
|
|
g = (texel >> 8) & 0xff
|
|
b = (texel >> 0) & 0xff
|
|
out[m + (l * x)] |= ((g << 8) | (b << 16))
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def RGB5A3(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 4):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 4):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = Struct.uint16(jar[i * 2:i * 2 + 2], endian='>')
|
|
i += 1
|
|
|
|
if(pixel & (1 << 15)): #RGB555
|
|
b = (((pixel >> 10) & 0x1F) * 255) / 31
|
|
g = (((pixel >> 5) & 0x1F) * 255) / 31
|
|
r = (((pixel >> 0) & 0x1F) * 255) / 31
|
|
a = 255
|
|
else: #RGB4A3
|
|
a = (((pixel >> 12) & 0x07) * 255) / 7
|
|
b = (((pixel >> 8) & 0x0F) * 255) / 15
|
|
g = (((pixel >> 4) & 0x0F) * 255) / 15
|
|
r = (((pixel >> 0) & 0x0F) * 255)/ 15
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[(y1 * w) + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def RGB565(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 4):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 4):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = Struct.uint16(jar[i * 2:i * 2 + 2], endian='>')
|
|
i += 1
|
|
|
|
b = (((pixel >> 11) & 0x1F) << 3) & 0xff
|
|
g = (((pixel >> 5) & 0x3F) << 2) & 0xff
|
|
r = (((pixel >> 0) & 0x1F) << 3) & 0xff
|
|
a = 255
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def I4(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 8):
|
|
for x in range(0, w, 8):
|
|
for y1 in range(y, y + 8):
|
|
for x1 in range(x, x + 8, 2):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
|
|
r = (pixel >> 4) * 255 / 15
|
|
g = (pixel >> 4) * 255 / 15
|
|
b = (pixel >> 4) * 255 / 15
|
|
a = (pixel >> 4) * 255 / 15
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = (pixel & 0x0F) * 255 / 15
|
|
g = (pixel & 0x0F) * 255 / 15
|
|
b = (pixel & 0x0F) * 255 / 15
|
|
a = (pixel & 0x0F) * 255 / 15
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1 + 1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def IA4(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 8):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 8):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = ((pixel & 0x0F) * 255 / 15) & 0xff
|
|
g = ((pixel & 0x0F) * 255 / 15) & 0xff
|
|
b = ((pixel & 0x0F) * 255 / 15) & 0xff
|
|
a = (((pixel >> 4) * 255) / 15) & 0xff
|
|
|
|
rgba = ( r<< 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def I8(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 8):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 8):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = pixel
|
|
g = pixel
|
|
b = pixel
|
|
a = 255
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def IA8(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 4):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 4):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = Struct.uint16(jar[i * 2:i * 2 + 2], endian='>')
|
|
i += 1
|
|
|
|
r = (pixel >> 8) & 0xff
|
|
g = (pixel >> 8) & 0xff
|
|
b = (pixel >> 8) & 0xff
|
|
a = pixel & 0xff
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def CI4(self, (w, h), jar, pal):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 8):
|
|
for x in range(0, w, 8):
|
|
for y1 in range(y, y + 8):
|
|
for x1 in range(x, x + 8, 2):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
|
|
r = (pal[pixel] & 0xFF000000) >> 24
|
|
g = (pal[pixel] & 0x00FF0000) >> 16
|
|
b = (pal[pixel] & 0x0000FF00) >> 8
|
|
a = (pal[pixel] & 0x000000FF) >> 0
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = (pal[pixel] & 0xFF000000) >> 24
|
|
g = (pal[pixel] & 0x00FF0000) >> 16
|
|
b = (pal[pixel] & 0x0000FF00) >> 8
|
|
a = (pal[pixel] & 0x000000FF) >> 0
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1 + 1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def CI8(self, (w, h), jar, pal):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 8):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 8):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = (pal[pixel] & 0xFF000000) >> 24
|
|
g = (pal[pixel] & 0x00FF0000) >> 16
|
|
b = (pal[pixel] & 0x0000FF00) >> 8
|
|
a = (pal[pixel] & 0x000000FF) >> 0
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
def CMP(self, (w, h), data):
|
|
temp = [0 for i in range(w * h)]
|
|
pix = [ 0 , 0 , 0 ]
|
|
c = [ 0 , 0 , 0 , 0 ]
|
|
outp = 0
|
|
for y in xrange(h):
|
|
for x in xrange(w):
|
|
ww = round_up(w, 8)
|
|
|
|
x0 = x & 0x03
|
|
x1 = (x >> 2) & 0x01
|
|
x2 = x >> 3
|
|
|
|
y0 = y & 0x03
|
|
y1 = (y >> 2) & 0x01
|
|
y2 = y >> 3
|
|
|
|
off = (8 * x1) + (16 * y1) + (32 * x2) + (4 * ww * y2)
|
|
|
|
c[0] = Struct.uint16(data[off + 0:off + 2], endian='>')
|
|
c[1] = Struct.uint16(data[off + 2:off + 4], endian='>')
|
|
if(c[0] > c[1]):
|
|
c[2] = avg(2, 1, c[0], c[1])
|
|
c[3] = avg(1, 2, c[0], c[1])
|
|
else:
|
|
c[2] = avg(1, 1, c[0], c[1])
|
|
c[3] = 0
|
|
|
|
px = Struct.uint32(data[off+4:off + 8], endian='>')
|
|
ix = x0 + ( 4 * y0 )
|
|
raw = c[(px >> (30 - (2 * ix))) & 0x03]
|
|
|
|
pix[0] = (raw >> 8) & 0xf8
|
|
pix[1] = (raw >> 3) & 0xf8
|
|
pix[2] = (raw << 3) & 0xf8
|
|
|
|
temp[outp] = (pix[0] <<0) | (pix[1] << 8) | (pix[2] << 16) | (255 << 24)
|
|
outp += 1
|
|
return ''.join(Struct.uint32(p) for p in temp)
|
|
def CI14X2(self, (w, h), jar):
|
|
out = [0 for i in range(w * h)]
|
|
i = 0
|
|
for y in range(0, h, 4):
|
|
for x in range(0, w, 4):
|
|
for y1 in range(y, y + 4):
|
|
for x1 in range(x, x + 4):
|
|
if(y1 >= h or x1 >= w):
|
|
continue
|
|
pixel = jar[i]
|
|
i += 1
|
|
|
|
r = (pal[pixel & 0x3FFF] & 0xFF000000) >> 24
|
|
g = (pal[pixel & 0x3FFF] & 0x00FF0000) >> 16
|
|
b = (pal[pixel & 0x3FFF] & 0x0000FF00) >> 8
|
|
a = (pal[pixel & 0x3FFF] & 0x000000FF) >> 0
|
|
|
|
rgba = (r << 0) | (g << 8) | (b << 16) | (a << 24)
|
|
out[y1 * w + x1] = rgba
|
|
return ''.join(Struct.uint32(p) for p in out)
|
|
if __name__=='__main__':
|
|
app = wx.PySimpleApp()
|
|
app.MainLoop()
|
|
TPL(*sys.argv[1:]).toScreen()
|