diff --git a/TPL.py b/TPL.py deleted file mode 100644 index 854e1fa..0000000 --- a/TPL.py +++ /dev/null @@ -1,801 +0,0 @@ -import os, struct, subprocess, fnmatch, shutil, urllib, array -from PIL import Image - -from Struct import Struct - -from common import * - -def flatten(myTuple): - if (len(myTuple) == 4): - return myTuple[0] << 0 | myTuple[1] << 8 | myTuple[2] << 16 | myTuple[3] << 24 - else: - return myTuple[0] << 0 | myTuple[1] << 8 | myTuple[2] << 16 | 0xff << 24 - -def round_up(x, n): - left = x % n - return x + left - -def avg(w0, w1, c0, c1): - a0 = c0 >> 11 - a1 = c1 >> 11 - a = (w0*a0 + w1*a1) / (w0 + w1) - c = (a << 11) & 0xffff - - a0 = (c0 >> 5) & 63 - a1 = (c1 >> 5) & 63 - a = (w0*a0 + w1*a1) / (w0 + w1) - c = c | ((a << 5) & 0xffff) - - a0 = c0 & 31 - a1 = c1 & 31 - a = (w0*a0 + w1*a1) / (w0 + w1) - c = c | a - - return c - - -class TPL(): - """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. - - Currently supported are the following formats to convert from TPL: RGBA8, RGB565, I4, IA4, I8, IA8, CI4, CI8, CMP, CI14X2. Currently not working is RBG5A3. RBG5A3 is having alpha issues, i'm working on it. - - Currently support to convert to TPL: I4, I8, IA4, IA8, RBG565, RBGA8. Currently not working/done are CI4, CI8, CMP, CI14X2, and RBG5A3. RBG5A3 is having alpha issues.""" - - - class TPLHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.magic = Struct.uint32 - self.ntextures = Struct.uint32 - self.header_size = Struct.uint32 - class TPLTexture(Struct): - __endian__ = Struct.BE - def __format__(self): - self.header_offset = Struct.uint32 - self.palette_offset = Struct.uint32 - class TPLTextureHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.height = Struct.uint16 - self.width = Struct.uint16 - self.format = Struct.uint32 - self.data_off = Struct.uint32 - self.wrap = Struct.uint32[2] - self.filter = Struct.uint32[2] - self.lod_bias = Struct.float - self.edge_lod = Struct.uint8 - self.min_lod = Struct.uint8 - self.max_lod = Struct.uint8 - self.unpacked = Struct.uint8 - class TPLPaletteHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.nitems = Struct.uint16 - self.unpacked = Struct.uint8 - self.pad = Struct.uint8 - self.format = Struct.uint32 - self.offset = Struct.uint32 - def __init__(self, file): - if(os.path.isfile(file)): - self.file = file - self.data = None - else: - self.file = None - self.data = file - def toTPL(self, outfile, (width, height) = (None, None), format = "RGBA8"): #single texture only - """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. - - This only can create TPL images with a single texture.""" - head = self.TPLHeader() - head.magic = 0x0020AF30 - head.ntextures = 1 - head.header_size = 0x0C - - tex = self.TPLTexture() - tex.header_offset = 0x14 - tex.pallete_offset = 0 - - img = Image.open(self.file) - theWidth, theHeight = img.size - if(width != None and height != None and (width != theWidth or height != theHeight)): - img = img.resize((width, height), Image.ANTIALIAS) - w, h = img.size - - texhead = self.TPLTextureHeader() - texhead.height = h - texhead.width = w - if format == "I4": - texhead.format = 0 - tpldata = self.toI4((w, h), img) - elif format == "I8": - texhead.format = 1 - tpldata = self.toI8((w, h), img) - elif format == "IA4": - texhead.format = 2 - tpldata = self.toIA4((w, h), img) - elif format == "IA8": - texhead.format = 3 - tpldata = self.toIA8((w, h), img) - elif format == "RGB565": - texhead.format = 4 - tpldata = self.toRGB565((w, h), img) - elif format == "RGB5A3": - texhead.format = 5 - tpldata = self.toRGB5A3((w, h), img) - elif format == "RGBA8": - texhead.format = 6 - tpldata = self.toRGBA8((w, h), img) - elif format == "CI4": - texhead.format = 8 - ''' ADD toCI4 ''' - raise Exception("toCI4 not done") - #tpldata = self.toCI4((w, h), img) - elif format == "CI8": - texhead.format = 9 - ''' ADD toCI8 ''' - raise Exception("toCI8 not done") - #tpldata = self.toCI8((w, h), img) - elif format == "CI14X2": - texhead.format = 10 - ''' ADD toCI14X2 ''' - raise Exception("toCI14X2 not done") - #tpldata = self.toCI14X2((w, h), img) - elif format == "CMP": - texhead.format = 14 - ''' ADD toCMP ''' - raise Exception("toCMP not done") - #tpldata = self.toCMP((w, h), img) - - texhead.data_off = 0x14 + len(texhead) - texhead.wrap = [0, 0] - texhead.filter = [1, 1] - texhead.lod_bias = 0 - texhead.edge_lod = 0 - texhead.min_lod = 0 - texhead.max_lod = 0 - texhead.unpacked = 0 - - f = open(outfile, "wb") - f.write(head.pack()) - f.write(tex.pack()) - f.write(texhead.pack()) - if format == "I4": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) / 2) + "B", *tpldata)) - if format == "I8": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "B", *tpldata)) - if format == "IA4": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "B", *tpldata)) - if format == "IA8": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata)) - if format == "RGB565": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata)) - if format == "RGB5A3": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 1) + "H", *tpldata)) - if format == "RGBA8": - f.write(struct.pack(">" + str(align(w,4) * align(h,4) * 4) + "B", *tpldata)) - if format == "CI4": - ''' ADD toCI4 ''' - #f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata)) - if format == "CI8": - ''' ADD toCI8 ''' - #f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata)) - if format == "CI14X2": - ''' ADD toCI14X2 ''' - #f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata)) - if format == "CMP": - ''' ADD toCMP ''' - #f.write(struct.pack(">"+ str(align(w,4) * align(h,4) * 4) + "B", *tpldata)) - f.close() - - return outfile - def toI4(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4) / 2)] - outp = 0 - inp = list(img.getdata()) - for y1 in range(0, h, 8): - for x1 in range(0, w, 8): - for y in range(y1, y1+8, 1): - for x in range(x1, x1+8, 2): - if x>=w or y>=h: - newpixel = 0 - else: - rgba = flatten(inp[x+y*w]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - i1 = ((r + g + b) / 3) & 0xff - rgba = flatten(inp[x+1+y*w]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - i2 = ((r + g + b) / 3) & 0xff - - newpixel = (((i1 * 15) / 255) << 4) - newpixel |= (((i2 * 15) / 255) & 0xf) - out[outp] = newpixel - outp += 1 - return out - def toI8(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4))] - outp = 0 - inp = list(img.getdata()) - for y1 in range(0, h, 4): - for x1 in range(0, w, 8): - for y in range(y1, y1+4, 1): - for x in range(x1, x1+8, 1): - rgba = flatten(inp[x + (y * w)]) - if x>= w or y>=h: - i1 = 0 - else: - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - i1 = ((r + g + b) / 3) & 0xff - out[outp] = i1 - outp += 1 - return out - def toIA4(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4))] - outp = 0 - inp = list(img.getdata()) - for y1 in range(0, h, 4): - for x1 in range(0, w, 8): - for y in range(y1, y1+4, 1): - for x in range(x1, x1+8, 1): - if x>=w or y>=h: - newpixel = 0 - else: - rgba = flatten(inp[x + (y * w)]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - i1 = ((r + g + b) / 3) & 0xff - a1 = (rgba >> 24) & 0xff - - newpixel = (((i1 * 15) / 255) & 0xf) - newpixel = newpixel | (((a1 * 15) / 255) << 4) - out[outp] = newpixel - outp += 1 - return out - def toIA8(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4))] - outp = 0 - inp = list(img.getdata()) - for y1 in range(0, h, 4): - for x1 in range(0, w, 4): - for y in range(y1, y1+4, 1): - for x in range(x1, x1+4, 1): - if x>=w or y>=h: - newpixel = 0 - else: - rgba = flatten(inp[x + (y * w)]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - i1 = ((r + g + b) / 3) & 0xff - a1 = (rgba >> 24) & 0xff - - newpixel = i1 << 8 - newpixel = newpixel | a1 - out[outp] = newpixel - outp += 1 - return out - def toRGB565(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4))] - outp = 0 - inp = img.getdata() - for y1 in range(0, h, 4): - for x1 in range(0, w, 4): - for y in range(y1, y1+4, 1): - for x in range(x1, x1+4, 1): - newpixel = 0 - if x>=w or y>=h: - newpixel = 0 - else: - rgba = flatten(inp[x+y*w]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - newpixel = ((b >>3) << 11) | ((g >>2) << 5) | ((r >>3) << 0) - out[outp] = newpixel - outp += 1 - return out - def toRGB5A3(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4))] - outp = 0 - inp = list(img.getdata()) - for y1 in range(0, h, 4): - for x1 in range(0, w, 4): - for y in range(y1, y1+4, 1): - for x in range(x1, x1+4, 1): - newpixel = 0 - if x>=w or y>=h: - newpixel = 0 - else: - rgba = flatten(inp[x + (y * h)]) - r = (rgba >> 0) & 0xff - g = (rgba >> 8) & 0xff - b = (rgba >> 16) & 0xff - a = (rgba >> 24) & 0xff - if (a <= 0xda): - newpixel &= ~(1 << 15) - r = ((r * 15) / 255) & 0xf - g = ((g * 15) / 255) & 0xf - b = ((b * 15) / 255) & 0xf - a = ((a * 7) / 255) & 0x7 - #newpixel |= r << 12 - #newpixel |= g << 8 - #newpixel |= b << 4 - #newpixel |= a << 0 - newpixel |= a << 12 - newpixel |= b << 8 - newpixel |= g << 4 - newpixel |= r << 0 - else: - newpixel |= (1 << 15) - r = ((r * 31) / 255) & 0x1f - g = ((g * 31) / 255) & 0x1f - b = ((b * 31) / 255) & 0x1f - newpixel |= b << 10 - newpixel |= g << 5 - newpixel |= r << 0 - out[outp] = newpixel - outp += 1 - return out - def toRGBA8(self, (w, h), img): - out = [0 for i in range(align(w, 4) * align(h, 4) * 4)] - inp = list(img.getdata()) - iv = 0 - z = 0 - lr = [0 for i in range(32)] - lg = [0 for i in range(32)] - lb = [0 for i in range(32)] - la = [0 for i in range(32)] - for y1 in range(0, h, 4): - for x1 in range(0, w, 4): - for y in range(y1, y1 + 4, 1): - for x in range(x1, x1 + 4, 1): - if(y >= h or x >= w): - lr[z] = 0 - lg[z] = 0 - lb[z] = 0 - la[z] = 0 - else: - rgba = flatten(inp[x + (y * w)]) - lr[z] = (rgba >> 0) & 0xff - lg[z] = (rgba >> 8) & 0xff - lb[z] = (rgba >> 16) & 0xff - la[z] = (rgba >> 24) & 0xff - z += 1 - if(z == 16): - for i in range(16): - out[iv] = la[i] & 0xff - iv += 1 - out[iv] = lr[i] & 0xff - iv += 1 - for i in range(16): - out[iv] = lg[i] & 0xff - iv += 1 - out[iv] = lb[i] & 0xff - iv += 1 - z = 0 - return out - def toImage(self, outfile): - """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. - - This only supports single textured TPL images.""" - if(self.file): - data = open(self.file, "rb").read() - else: - data = self.data - - header = self.TPLHeader() - textures = [] - pos = 0 - - header.unpack(data[pos:pos + len(header)]) - pos += len(header) - - palette_offsets = [] - - for i in range(header.ntextures): - tmp = self.TPLTexture() - tmp.unpack(data[pos:pos + len(tmp)]) - textures.append(tmp) - pos += len(tmp) - if(tmp.palette_offset > 0): - palette_offsets.append(tmp.palette_offset) - - if(header.ntextures > 1): - raise ValueError("Only one texture supported. Don't touch me!") - - 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 - - if(tex.format == 0): #I4, 4-bit - tpldata = struct.unpack(">" + str((w * h) / 2) + "B", data[tex.data_off:tex.data_off + ((w * h) / 2)]) - rgbdata = self.I4((w, h), tpldata) - - elif(tex.format == 1): #I8, 8-bit - tpldata = struct.unpack(">" + str(w * h) + "B", data[tex.data_off:tex.data_off + (w * h * 1)]) - rgbdata = self.I8((w, h), tpldata) - elif(tex.format == 2): #IA4, 8-bit - tpldata = struct.unpack(">" + str(w * h) + "B", data[tex.data_off:tex.data_off + (w * h * 1)]) - rgbdata = self.IA4((w, h), tpldata) - - elif(tex.format == 4): #RGB565, 16-bit - tpldata = data[tex.data_off:] - rgbdata = self.RGB565((w, h), tpldata) - elif(tex.format == 5): #RGB5A3, 16-bit - tpldata = data[tex.data_off:] - rgbdata = self.RGB5A3((w, h), tpldata) - elif(tex.format == 3): #IA8, 16-bit - tpldata = data[tex.data_off:] - rgbdata = self.IA8((w, h), tpldata) - - elif(tex.format == 6): #RGBA8, 32-bit, but for easyness's sake lets do it with 16-bit - tpldata = data[tex.data_off:] - 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)] = out[m + (l * x)] | ((r<<0) | (a<<24)) - else: - g = (texel >> 8) & 0xff - b = (texel >> 0) & 0xff - out[m + (l * x)] = 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 = 255 - - 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 = 255 - - 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) diff --git a/U8.py b/U8.py deleted file mode 100644 index 7f30fa2..0000000 --- a/U8.py +++ /dev/null @@ -1,377 +0,0 @@ -import os, struct, subprocess, fnmatch, shutil, urllib, array - -from Struct import Struct - -from common import * - - -class U8(): - """This class can unpack and pack U8 archives, which are used all over the Wii. They are often used in Banners and contents in Downloadable Titles. Please remove all headers and compression first, kthx. - - The f parameter is either the source folder to pack, or the source file to unpack.""" - class U8Header(Struct): - __endian__ = Struct.BE - def __format__(self): - self.tag = Struct.string(4) - self.rootnode_offset = Struct.uint32 - self.header_size = Struct.uint32 - self.data_offset = Struct.uint32 - self.zeroes = Struct.string(16) - class U8Node(Struct): - __endian__ = Struct.BE - def __format__(self): - self.type = Struct.uint16 - self.name_offset = Struct.uint16 - self.data_offset = Struct.uint32 - self.size = Struct.uint32 - def __init__(self, f): - self.f = f - def _pack(self, file, recursion, is_root = 0): #internal - node = self.U8Node() - node.name_offset = len(self.strings) - if(is_root != 1): - self.strings += (file) - self.strings += ("\x00") - - if(os.path.isdir(file)): - node.type = 0x0100 - node.data_offset = recursion - 1 - recursion += 1 - files = sorted(os.listdir(file)) - #if(sorted(files) == ["banner.bin", "icon.bin", "sound.bin"]): - # files = ["icon.bin", "banner.bin", "sound.bin"] - - oldsz = len(self.nodes) - if(is_root != 1): - self.nodes.append(node) - - os.chdir(file) - for entry in files: - if(entry != ".DS_Store" and entry[len(entry) - 4:] != "_out"): - self._pack(entry, recursion) - os.chdir("..") - - self.nodes[oldsz].size = len(self.nodes) + 1 - else: - f = open(file, "rb") - data = f.read() - f.close() - sz = len(data) - data += "\x00" * (align(sz, 32) - sz) #32 seems to work best for fuzzyness? I'm still really not sure - node.data_offset = len(self.data) - self.data += data - node.size = sz - node.type = 0x0000 - if(is_root != 1): - self.nodes.append(node) - - def pack(self, fn = ""): - """This function will pack a folder into a U8 archive. The output file name is specified in the parameter fn. If fn is an empty string, the filename is deduced from the input folder name. Returns the output filename. - - This creates valid U8 archives for all purposes.""" - header = self.U8Header() - rootnode = self.U8Node() - - header.tag = "U\xAA8-" - header.rootnode_offset = 0x20 - header.zeroes = "\x00" * 16 - - self.nodes = [] - self.strings = "\x00" - self.data = "" - origdir = os.getcwd() - os.chdir(self.f) - self._pack(".", 0, 1) - os.chdir(origdir) - - header.header_size = (len(self.nodes) + 1) * len(rootnode) + len(self.strings) - header.data_offset = align(header.header_size + header.rootnode_offset, 64) - rootnode.size = len(self.nodes) + 1 - rootnode.type = 0x0100 - - for i in range(len(self.nodes)): - if(self.nodes[i].type == 0x0000): - self.nodes[i].data_offset += header.data_offset - - if(fn == ""): - if(self.f[len(self.f) - 4:] == "_out"): - fn = os.path.dirname(self.f) + "/" + os.path.basename(self.f)[:-4].replace("_", ".") - else: - fn = self.f - - fd = open(fn, "wb") - fd.write(header.pack()) - fd.write(rootnode.pack()) - for node in self.nodes: - fd.write(node.pack()) - fd.write(self.strings) - fd.write("\x00" * (header.data_offset - header.rootnode_offset - header.header_size)) - fd.write(self.data) - fd.close() - - return fn - - def unpack(self, fn = ""): - """This will unpack the U8 archive specified by the initialization parameter into either the folder specified by the parameter fn, or into a folder created with this formula: - ``filename_extension_out`` - - This will recreate the directory structure, including the initial root folder in the U8 archive (such as "arc" or "meta"). Returns the output directory name.""" - data = open(self.f, "rb").read() - - offset = 0 - - header = self.U8Header() - header.unpack(data[offset:offset + len(header)]) - offset += len(header) - - if(header.tag != "U\xAA8-"): - raise NameError("Bad U8 Tag") - offset = header.rootnode_offset - - rootnode = self.U8Node() - rootnode.unpack(data[offset:offset + len(rootnode)]) - offset += len(rootnode) - - nodes = [] - for i in range(rootnode.size - 1): - node = self.U8Node() - node.unpack(data[offset:offset + len(node)]) - offset += len(node) - nodes.append(node) - - strings = data[offset:offset + header.data_offset - len(header) - (len(rootnode) * rootnode.size)] - offset += len(strings) - - if(fn == ""): - fn = os.path.dirname(self.f) + "/" + os.path.basename(self.f).replace(".", "_") + "_out" - try: - origdir = os.getcwd() - os.mkdir(fn) - except: - pass - os.chdir(fn) - - recursion = [rootnode.size] - counter = 0 - for node in nodes: - counter += 1 - name = strings[node.name_offset:].split('\0', 1)[0] - - if(node.type == 0x0100): #folder - recursion.append(node.size) - try: - os.mkdir(name) - except: - pass - os.chdir(name) - continue - elif(node.type == 0): #file - file = open(name, "wb") - file.write(data[node.data_offset:node.data_offset + node.size]) - offset += node.size - else: #unknown - pass #ignore - - sz = recursion.pop() - if(sz == counter + 1): - os.chdir("..") - else: - recursion.append(sz) - os.chdir("..") - - os.chdir(origdir) - return fn - def __str__(self): - data = open(self.f, "rb").read() - - offset = 0 - - header = self.U8Header() - header.unpack(data[offset:offset + len(header)]) - offset += len(header) - - if(header.tag != "U\xAA8-"): - raise NameError("Bad U8 Tag") - offset = header.rootnode_offset - - rootnode = self.U8Node() - rootnode.unpack(data[offset:offset + len(rootnode)]) - offset += len(rootnode) - - nodes = [] - for i in xrange(rootnode.size - 1): - node = self.U8Node() - node.unpack(data[offset:offset + len(node)]) - offset += len(node) - nodes.append(node) - - strings = data[offset:offset + header.data_offset - len(header) - (len(rootnode) * rootnode.size)] - offset += len(strings) - - out = "[root]\n" - recursion = [rootnode.size] - counter = 0 - for node in nodes: - counter += 1 - name = strings[node.name_offset:].split('\0', 1)[0] - out += " " * len(recursion) - if(node.type == 0x0100): #folder - recursion.append(node.size) - out += "[%s]\n" % name - continue - elif(node.type == 0): #file - out += "%s\n" % name - offset += node.size - else: #unknown, ignore - pass - - sz = recursion.pop() - if(sz == counter + 1): - pass - else: - recursion.append(sz) - return out - -class IMD5(): - """This class can add and remove IMD5 headers to files. The parameter f is the file to use for the addition or removal of the header. IMD5 headers are found in banner.bin, icon.bin, and sound.bin.""" - class IMD5Header(Struct): - __endian__ = Struct.BE - def __format__(self): - self.tag = Struct.string(4) - self.size = Struct.uint32 - self.zeroes = Struct.uint8[8] - self.crypto = Struct.string(16) - def __init__(self, f): - self.f = f - def add(self, fn = ""): - """This function adds an IMD5 header to the file specified by f in the initializer. The output file is specified with fn, if it is empty, it will overwrite the input file. If the file already has an IMD5 header, it will now have two. Returns the output filename.""" - data = open(self.f, "rb").read() - - imd5 = self.IMD5Header() - for i in range(8): - imd5.zeroes[i] = 0x00 - imd5.tag = "IMD5" - imd5.size = len(data) - imd5.crypto = str(Crypto().createMD5Hash(data)) - data = imd5.pack() + data - - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - open(self.f, "wb").write(data) - return self.f - def remove(self, fn = ""): - """This will remove an IMD5 header from the file specified in f, if one exists. If there is no IMD5 header, it will output the file as it is. It will output in the parameter fn if available, otherwise it will overwrite the source. Returns the output filename.""" - data = open(self.f, "rb").read() - imd5 = self.IMD5Header() - if(data[:4] != "IMD5"): - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - return self.f - data = data[len(imd5):] - - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - open(self.f, "wb").write(data) - return self.f - -class IMET(): - """IMET headers are found in Opening.bnr and 0000000.app files. They contain the channel titles and more metadata about channels. They are in two different formats with different amounts of padding before the start of the IMET header. This class suports both. - - The parameter f is used to specify the input file name.""" - class IMETHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.zeroes = Struct.uint8[128] - self.tag = Struct.string(4) - self.unk = Struct.uint64 - self.sizes = Struct.uint32[3] #icon, banner, sound - self.unk2 = Struct.uint32 - self.names = Struct.string(84, encoding = "utf-16-be", stripNulls = True)[7] - self.zeroes2 = Struct.uint8[840] - self.hash = Struct.string(16) - def __init__(self, f): - self.f = f - def add(self, iconsz, bannersz, soundsz, name = "", langs = [], fn = ""): - """This function adds an IMET header to the file specified with f in the initializer. The file will be output to fn if it is not empty, otherwise it will overwrite the input file. You must specify the size of banner.bin in bannersz, and respectivly for iconsz and soundsz. langs is an optional arguement that is a list of different langauge channel titles. name is the english name that is copied everywhere in langs that there is an empty string. Returns the output filename.""" - data = open(self.f, "rb").read() - imet = self.IMETHeader() - - for i in imet.zeroes: - imet.zeroes[i] = 0x00 - imet.tag = "IMET" - imet.unk = 0x0000060000000003 - imet.sizes[0] = iconsz - imet.sizes[1] = bannersz - imet.sizes[2] = soundsz - imet.unk2 = 0 - for i in range(len(imet.names)): - if(len(langs) > 0 and langs[i] != ""): - imet.names[i] = langs[i] - else: - imet.names[i] = name - for i in imet.zeroes2: - imet.zeroes2[i] = 0x00 - imet.hash = "\x00" * 16 - - tmp = imet.pack() - imet.hash = Crypto().createMD5Hash(tmp[0x40:0x640]) #0x00 or 0x40? - - data = imet.pack() + data - - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - open(self.f, "wb").write(data) - return self.f - - def remove(self, fn = ""): - """This method removes an IMET header from a file specified with f in the initializer. fn is the output file name if it isn't an empty string, if it is, it will overwrite the input. If the input has no IMD5 header, it is output as is. Returns the output filename.""" - data = open(self.f, "rb").read() - if(data[0x80:0x84] == "IMET"): - data = data[0x640:] - elif(data[0x40:0x44] == "IMET"): - data = data[0x640:] - else: - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - return self.f - if(fn != ""): - open(fn, "wb").write(data) - return fn - else: - open(self.f, "wb").write(data) - return self.f - def getTitle(self): - imet = self.IMETHeader() - data = open(self.f, "rb").read() - - if(data[0x40:0x44] == "IMET"): - pass - elif(data[0x80:0x84] == "IMET"): - data = data[0x40:] - else: - return "" - - imet.unpack(data[:len(imet)]) - name = imet.names[1] - topop = [] - for i in range(len(name)): - if(name[i] == "\x00"): - topop.append(i) - name = list(name) - popped = 0 #don't ask me why I did this - for pop in topop: - name.pop(pop - popped) - popped += 1 - - name = ''.join(name) - return name diff --git a/banner.py b/banner.py deleted file mode 100755 index 32f5e4f..0000000 --- a/banner.py +++ /dev/null @@ -1,1803 +0,0 @@ -#!/usr/bin/python - -import sys, struct, re, os - -''' STOLEN FROM COMEX ''' -def nullterm(str_plus): - z = str_plus.find('\0') - if z != -1: - return str_plus[:z] - else: - return str_plus - -def unnullterm(var, size): - if len(var) > size: - raise Exception('unnullterm: "%s" too long' % var) - return var.ljust(size, '\0') - -def bit_extract(num, start, end=None): - if end is None: - end = start - mask = (2**(31 - start + 1) - 1) - (2**(31 - end) - 1) - ret = (num & mask) >> (31 - end) - - return ret - -def bit_place(num, start, end=None): - # Just for sanity - if end is None: - end = start - assert num <= 2**(end - start) - return num << (31 - end) - -def untv(name): - #assert '\0' not in name - lex = len(name) + 16 - lex -= lex % 16 - return name.ljust(lex, '\0') -''' END THEFT FROM COMEX ''' - -class BRLYT_Numoffs: - def __init__(self): - self.number = 0x00 - self.offset = 0x00 - def eat_numoffs(self, file, offset): - self.number, self.offset = struct.unpack('>HH', file[offset:offset+4]) - return - def show_numoffs(self): - print "Number: %04x" % self.number - print "Offset: %04x" % self.offset - return - def add(self): - self.number = self.number + 1 - return - def get_length(self): - templength = 2 + 2 - return templength - def write_to_file(self, file): - file.write(struct.pack('>H', self.number)) - file.write(struct.pack('>H', self.offset)) - -class BRLYT_SignedColor: - def __init__(self): - self.color1 = 255 - self.color2 = 255 - self.color3 = 255 - self.color4 = 255 - def eat_signedcolor(self, file, offset): - self.color1, self.color2, self.color3, self.color4 = struct.unpack('>hhhh', file[offset:offset+8]) - return - def show_signedcolor(self): - print "\tColor: %d" % self.color1 - print "\tColor: %d" % self.color2 - print "\tColor: %d" % self.color3 - print "\tColor: %d" % self.color4 - return - def get_length(self): - templength = 2 + 2 + 2 + 2 - return templength - def write_to_file(self, file): - file.write(struct.pack('>h', self.color1)) - file.write(struct.pack('>h', self.color2)) - file.write(struct.pack('>h', self.color3)) - file.write(struct.pack('>h', self.color4)) - return - -class BRLYT_Color: - def __init__(self): - self.color1 = 0xFFFFFFFF - self.color2 = 0xFFFFFFFF - self.color3 = 0xFFFFFFFF - self.color4 = 0xFFFFFFFF - def eat_color(self, file, offset): - self.color1, self.color2, self.color3, self.color4 = struct.unpack('>IIII', file[offset:offset+16]) - return - def show_color(self): - print "\tColor: %08x" % self.color1 - print "\tColor: %08x" % self.color2 - print "\tColor: %08x" % self.color3 - print "\tColor: %08x" % self.color4 - return - def get_length(self): - templength = 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>I', self.color1)) - file.write(struct.pack('>I', self.color2)) - file.write(struct.pack('>I', self.color3)) - file.write(struct.pack('>I', self.color4)) - return - -class BRLYT_Coordinates: - def __init__(self): - self.coord1 = 0.0 - self.coord2 = 0.0 - self.coord3 = 1.0 - self.coord4 = 0.0 - self.coord5 = 0.0 - self.coord6 = 1.0 - self.coord7 = 1.0 - self.coord8 = 1.0 - def eat_coordinates(self, file, offset): - self.coord1, self.coord2, self.coord3, self.coord4, self.coord5, self.coord6, self.coord7, self.coord8 = struct.unpack('>8f', file[offset:offset+32]) - return - def show_coordinates(self): - print "Coordinate: %f , %f" % ( self.coord1 , self.coord2 ) - print "Coordinate: %f , %f" % ( self.coord3 , self.coord4 ) - print "Coordinate: %f , %f" % ( self.coord5 , self.coord6 ) - print "Coordinate: %f , %f" % ( self.coord7 , self.coord8 ) - return - def get_length(self): - templength = 4 + 4 + 4 + 4 + 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>f', self.coord1)) - file.write(struct.pack('>f', self.coord2)) - file.write(struct.pack('>f', self.coord3)) - file.write(struct.pack('>f', self.coord4)) - file.write(struct.pack('>f', self.coord5)) - file.write(struct.pack('>f', self.coord6)) - file.write(struct.pack('>f', self.coord7)) - file.write(struct.pack('>f', self.coord8)) - return - -class BRLYT_Uab: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x05 - self.byte4 = 0x00 - def eat_uab(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_uab(self): - print "UAb: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Uaa: - def __init__(self): - self.byte1 = 0x77 - self.byte2 = 0x00 - self.byte3 = 0x00 - self.byte4 = 0x00 - def eat_uaa(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_uaa(self): - print "UAa: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Ua9: - def __init__(self): - self.byte01 = 0x00 - self.byte02 = 0x00 - self.byte03 = 0x00 - self.byte04 = 0x00 - self.byte05 = 0x00 - self.byte06 = 0x00 - self.byte07 = 0x00 - self.byte08 = 0x00 - self.byte09 = 0x00 - self.byte10 = 0x00 - def eat_ua9(self, file, offset): - self.byte01, self.byte02, self.byte03, self.byte04, self.byte05, self.byte06, self.byte07, self.byte08, self.byte09, self.byte10 = struct.unpack('>10B', file[offset:offset+10]) - return - def show_ua9(self): - print "UA9: %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x" % ( self.byte01, self.byte02, self.byte03, self.byte04, self.byte05, self.byte06, self.byte07, self.byte08, self.byte09, self.byte10 ) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte01)) - file.write(struct.pack('>B', self.byte02)) - file.write(struct.pack('>B', self.byte03)) - file.write(struct.pack('>B', self.byte04)) - file.write(struct.pack('>B', self.byte05)) - file.write(struct.pack('>B', self.byte06)) - file.write(struct.pack('>B', self.byte07)) - file.write(struct.pack('>B', self.byte08)) - file.write(struct.pack('>B', self.byte09)) - file.write(struct.pack('>B', self.byte10)) - return - -class BRLYT_Ua8: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x05 - self.byte4 = 0x00 - def eat_ua8(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_ua8(self): - print "UA8: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Ua7: - def __init__(self): - self.a = 0x00000000 - self.b = 0x00000000 - self.c = 0.0 - self.d = 0.0 - self.e = 0.0 - def eat_ua7(self, file, offset): - self.a, self.b, self.c, self.d, self.e = struct.unpack('>IIfff', file[offset:offset+20]) - return - def show_ua7(self): - print "UA7: %08x %08x %f %f %f" % ( self.a , self.b , self.c , self.d , self.e ) - return - def get_length(self): - templength = 4 + 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>I', self.a)) - file.write(struct.pack('>I', self.b)) - file.write(struct.pack('>f', self.c)) - file.write(struct.pack('>f', self.d)) - file.write(struct.pack('>f', self.e)) - return - -class BRLYT_Ua6: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x05 - self.byte4 = 0x00 - def eat_ua6(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_ua6(self): - print "UA6: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Ua5: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x05 - self.byte4 = 0x00 - def eat_ua5(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_ua5(self): - print "UA5: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Ua4: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x05 - self.byte4 = 0x00 - def eat_ua4(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_ua4(self): - print "UA4: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - return - -class BRLYT_Ua3: - def __init__(self): - self.byte1 = 0x01 - self.byte2 = 0x04 - self.byte3 = 0x1e - self.byte4 = 0x00 - def eat_ua3(self, file, offset): - self.byte1, self.byte2, self.byte3, self.byte4 = struct.unpack('BBBB', file[offset:offset+4]) - return - def show_ua3(self): - print "UA3: %02x %02x %02x %02x" % ( self.byte1, self.byte2, self.byte3, self.byte4) - return - def get_length(self): - templength = 1 + 1 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.byte1)) - file.write(struct.pack('>B', self.byte2)) - file.write(struct.pack('>B', self.byte3)) - file.write(struct.pack('>B', self.byte4)) - -class BRLYT_TextureMap: - def __init__(self): - self.x1 = 0.0 - self.y1 = 0.0 - self.angle = 0.0 - self.x2 = 1.0 - self.y2 = 1.0 - def eat_texturemap(self, file, offset): - self.x1, self.y1, self.angle, self.x2, self.y2 = struct.unpack('>fffff', file[offset:offset+20]) - return - def show_texturemap(self): - print "Coordinate 1: %f %f" % ( self.x1 , self.y1 ) - print "Angle: %f" % self.angle - print "Coordinate 2: %f %f" % ( self.x2 , self.y2 ) - return - def get_length(self): - templength = 4 + 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>f', self.x1)) - file.write(struct.pack('>f', self.y1)) - file.write(struct.pack('>f', self.angle)) - file.write(struct.pack('>f', self.x2)) - file.write(struct.pack('>f', self.y2)) - return - -class BRLYT_TexRef: - def __init__(self): - self.texture_offset = 0x0000 - self.wrap_s = 0x00 - self.wrap_t = 0x00 - def eat_texref(self, file, offset): - self.texture_offset, self.wrap_s, self.wrap_t = struct.unpack('>HBB', file[offset:offset+4]) - return - def show_texref(self): - print "Texture Offset: %04x" % self.texture_offset - print "Wrap_S: %02x" % self.wrap_s - print "Wrap_T: %02x" % self.wrap_t - return - def set_texture(self, texture, wrap_s=0, wrap_t=0): - self.texture_offset = texture - self.wrap_s = wrap_s - self.wrap_s = wrap_t - def get_length(self): - templength = 2 + 1 + 1 - return templength - def write_to_file(self, file): - file.write(struct.pack('>H', self.texture_offset)) - file.write(struct.pack('>B', self.wrap_s)) - file.write(struct.pack('>B', self.wrap_t)) - return - -class BRLYT_Material: - def __init__(self): - self.name = "material00" - self.forecolor = BRLYT_SignedColor() - self.backcolor = BRLYT_SignedColor() - self.unknowncolor = BRLYT_SignedColor() - self.tevcolor = BRLYT_Color() - self.flags = 0x00000000 - self.texrefs = { } - self.texturemaps = { } - self.ua3s = { } - self.ua4s = { } - self.ua5s = { } - self.ua6s = { } - self.ua7s = { } - self.ua8s = { } - self.ua9s = { } - self.uaas = { } - self.uabs = { } - def eat_material(self, file, offset): - dummy, self.name = struct.unpack('>I20s', file[offset-4:offset+20]) - self.forecolor.eat_signedcolor(file, offset+20) - self.backcolor.eat_signedcolor(file, offset+28) - self.unknowncolor.eat_signedcolor(file, offset+36) - self.tevcolor.eat_color(file, offset+44) - dummy, self.flags = struct.unpack('>II', file[offset+60-4:offset+60+4]) - file_offset = offset + 64 - for x in range(bit_extract(self.flags, 28, 31)): - self.texrefs[x] = BRLYT_TexRef() - self.texrefs[x].eat_texref(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 24, 27)): - self.texturemaps[x] = BRLYT_TextureMap() - self.texturemaps[x].eat_texturemap(file, file_offset) - file_offset = file_offset + 20 - for x in range(bit_extract(self.flags, 20, 23)): - self.ua3s[x] = BRLYT_Ua3() - self.ua3s[x].eat_ua3(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 6)): - self.ua4s[x] = BRLYT_Ua4() - self.ua4s[x].eat_ua4(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 4)): - self.ua5s[x] = BRLYT_Ua5() - self.ua5s[x].eat_ua5(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 19)): - self.ua6s[x] = BRLYT_Ua6() - self.ua6s[x].eat_ua6(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 17, 18)): - self.ua7s[x] = BRLYT_Ua7() - self.ua7s[x].eat_ua7(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 14, 16)): - self.ua8s[x] = BRLYT_Ua8() - self.ua8s[x].eat_ua8(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 9, 13)): - self.ua9s[x] = BRLYT_Ua9() - self.ua9s[x].eat_ua9(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 8)): - self.uaas[x] = BRLYT_Uaa() - self.uaas[x].eat_uaa(file, file_offset) - file_offset = file_offset + 4 - for x in range(bit_extract(self.flags, 7)): - self.uabs[x] = BRLYT_Uab() - self.uabs[x].eat_uab(file, file_offset) - file_offset = file_offset + 4 - return - def show_material(self): - print "Name: %s" % self.name.rstrip('\x00') - print "Forecolor: " - self.forecolor.show_signedcolor() - print "Backcolor: " - self.backcolor.show_signedcolor() - print "Unknown Color: " - self.unknowncolor.show_signedcolor() - print "Tev Color: " - self.tevcolor.show_color() - print "Flags: %08x" % self.flags - for x in range(bit_extract(self.flags, 28, 31)): - self.texrefs[x].show_texref() - for x in range(bit_extract(self.flags, 24, 27)): - self.texturemaps[x].show_texturemap() - for x in range(bit_extract(self.flags, 20, 23)): - self.ua3s[x].show_ua3() - for x in range(bit_extract(self.flags, 6)): - self.ua4s[x].show_ua4() - for x in range(bit_extract(self.flags, 4)): - self.ua5s[x].show_ua5() - for x in range(bit_extract(self.flags, 19)): - self.ua6s[x].show_ua6() - for x in range(bit_extract(self.flags, 17, 18)): - self.ua7s[x].show_ua7() - for x in range(bit_extract(self.flags, 14, 16)): - self.ua8s[x].show_ua8() - for x in range(bit_extract(self.flags, 9, 13)): - self.ua9s[x].show_ua9() - for x in range(bit_extract(self.flags, 8)): - self.uaas[x].show_uaa() - for x in range(bit_extract(self.flags, 7)): - self.uabs[x].show_uab() - return - def set_texture(self, texture, wrap_s=0, wrap_t=0): - self.texrefs[0] = BRLYT_TexRef() - self.texrefs[0].set_texture(texture, wrap_s, wrap_t) - def get_length(self): - templength = 20 + self.forecolor.get_length() + self.backcolor.get_length() - templength = templength + self.unknowncolor.get_length() + self.tevcolor.get_length() + 4 - for x in range(len(self.texrefs)): - templength = templength + self.texrefs[x].get_length() - for x in range(len(self.texturemaps)): - templength = templength + self.texturemaps[x].get_length() - for x in range(len(self.ua3s)): - templength = templength + self.ua3s[x].get_length() - for x in range(len(self.ua4s)): - templength = templength + self.ua4s[x].get_length() - for x in range(len(self.ua5s)): - templength = templength + self.ua5s[x].get_length() - for x in range(len(self.ua6s)): - templength = templength + self.ua6s[x].get_length() - for x in range(len(self.ua7s)): - templength = templength + self.ua7s[x].get_length() - for x in range(len(self.ua8s)): - templength = templength + self.ua8s[x].get_length() - for x in range(len(self.ua9s)): - templength = templength + self.ua9s[x].get_length() - for x in range(len(self.uaas)): - templength = templength + self.uaas[x].get_length() - for x in range(len(self.uabs)): - templength = templength + self.uabs[x].get_length() - return templength - def write_to_file(self, file): - file.write(struct.pack('>20s', self.name)) - self.forecolor.write_to_file(file) - self.backcolor.write_to_file(file) - self.unknowncolor.write_to_file(file) - self.tevcolor.write_to_file(file) - file.write(struct.pack('>I', self.flags)) - for x in range(bit_extract(self.flags, 28, 31)): - self.texrefs[x].write_to_file(file) - for x in range(bit_extract(self.flags, 24, 27)): - self.texturemaps[x].write_to_file(file) - for x in range(bit_extract(self.flags, 20, 23)): - self.ua3s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 6)): - self.ua4s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 4)): - self.ua5s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 19)): - self.ua6s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 17, 18)): - self.ua7s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 14, 16)): - self.ua8s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 9, 13)): - self.ua9s[x].write_to_file(file) - for x in range(bit_extract(self.flags, 8)): - self.uaas[x].write_to_file(file) - for x in range(bit_extract(self.flags, 7)): - self.uabs[x].write_to_file(file) - return - -class BRLYT_Pane: - def __init__(self, name = "RootPane", x = 0, y = 0, z = 0, w = 608, h = 456): - self.orientation1 = 0x01 - self.orientation2 = 0x04 - self.alpha1 = 0xff - self.alpha2 = 0x00 - self.name = name - self.x = x - self.y = y - self.z = z - self.flipx = 0.0 - self.flipy = 0.0 - self.angle = 0.0 - self.xmag = 1.0 - self.ymag = 1.0 - self.width = w - self.height = h - def eat_pane(self, file, offset): - self.orientation1, self.orientation2, self.alpha1, self.alpha2 = struct.unpack('BBBB', file[offset:offset+4]) - self.name, self.x, self.y, self.z = struct.unpack('>24sfff', file[offset+0x04:offset+0x04+36]) - self.flipx, self.flipy, self.angle = struct.unpack('>fff', file[offset+0x28:offset+0x28+12]) - self.xmag, self.ymag = struct.unpack('>ff', file[offset+0x34:offset+0x34+8]) - self.width, self.height = struct.unpack('>ff', file[offset+0x3C:offset+0x3C+8]) - return - def show_pane(self): - print "Orientation: %02x %02x" % (self.orientation1 , self.orientation2) - print "Alpha: %02x %02x" % (self.alpha1 , self.alpha2) - print "Name: %s" % self.name.rstrip('\x00') - print "X: %f" % self.x - print "y: %f" % self.y - print "z: %f" % self.z - print "flip x: %f" % self.flipx - print "flip y: %f" % self.flipy - print "angle: %f" % self.angle - print "x zoom: %f" % self.xmag - print "y zoom: %f" % self.ymag - print "width: %f" % self.width - print "height: %f" % self.height - return - def get_length(self): - templength = 1 + 1 + 1 + 1 + 24 + 4 + 4 + 4 + 4 + 4 + 4 + 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.orientation1)) - file.write(struct.pack('>B', self.orientation2)) - file.write(struct.pack('>B', self.alpha1)) - file.write(struct.pack('>B', self.alpha2)) - file.write(struct.pack('>24s', self.name)) - file.write(struct.pack('>f', self.x)) - file.write(struct.pack('>f', self.y)) - file.write(struct.pack('>f', self.z)) - file.write(struct.pack('>f', self.flipx)) - file.write(struct.pack('>f', self.flipy)) - file.write(struct.pack('>f', self.angle)) - file.write(struct.pack('>f', self.xmag)) - file.write(struct.pack('>f', self.ymag)) - file.write(struct.pack('>f', self.width)) - file.write(struct.pack('>f', self.height)) - return - -class BRLYT_gre1: - def __init__(self): - self.magic = "gre1" - self.length = 0x08 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - return - def get_length(self): - self.length = 4 + 4 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - return - -class BRLYT_grs1: - def __init__(self): - self.magic = "grs1" - self.length = 0x08 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - return - def get_length(self): - self.length = 4 + 4 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - return - -class BRLYT_grp1: - def __init__(self): - self.magic = "grp1" - self.length = 0x00000000 - self.name = "RootGroup" - self.numsubs = 0x0000 - self.unknown = 0x0000 - self.subs = [] - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.name, self.numsubs, self.unknown = struct.unpack('>16sHH', file[offset+0x08:offset+0x08+20]) - for x in range(self.numsubs): - dummy, subname = struct.unpack('>I16s', file[offset+0x1C+16*x-4:offset+0x1C+16*x+16]) - self.subs.append(subname) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - print "Name: %s" % self.name.rstrip('\x00') - print "Number of Subs: %04x" % self.numsubs - print "Unknown: %04x" % self.unknown - for x in self.subs: - print "Sub: %s" % x.rstrip('\x00') - return - def get_length(self): - self.length = 4 + 4 + 16 + 2 + 2 + self.numsubs * 16 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - file.write(struct.pack('>16s', self.name)) - file.write(struct.pack('>H', self.numsubs)) - file.write(struct.pack('>H', self.unknown)) - for x in self.subs: - file.write(struct.pack('>16s', x)) - return - -class BRLYT_txt1: - def __init__(self): - self.magic = "txt1" - self.pane = BRLYT_Pane() - len1 = 0x0000 - len2 = 0x0000 - mat_off = 0x0000 - font = 0x0000 - unknown = 0x00 - padding1 = 0 - padding2 = 0 - padding3 = 0 - name_offs = 0x00000000 - color1 = 0xFFFFFFFF - color2 = 0x00000000 - font_size_x = 32.0 - font_size_y = 32.0 - char_space = 32.0 - line_space = 32.0 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.pane.eat_pane(file, offset+8) - self.len1, self.len2, self.mat_off, self.font = struct.unpack('>HHHH', file[offset+0x4C:offset+0x4C+8]) - self.unknown, self.padding1, self.padding2, self.padding3 = struct.unpack('>BBBB', file[offset+0x54:offset+0x54+4]) - self.name_offs, self.color1, self.color2 = struct.unpack('>III', file[offset+0x58:offset+0x58+12]) - self.font_size_x, self.font_size_y = struct.unpack('>ff', file[offset+0x64:offset+0x64+8]) - self.char_space, self.line_space = struct.unpack('>ff', file[offset+0x6C:offset+0x6C+8]) - text = file[offset+0x74:offset+0x74+self.len2] - self.text = unicode(text, 'utf_16_be').rstrip('\x00') - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.pane.show_pane() - print "Length: %04x %04x" % ( self.len1 , self.len2 ) - print "Material: %04x" % self.mat_off - print "Font: %04x" % self.font - print "Unknown: %02x" % self.unknown - print "Padding: %02x %02x %02x" % ( self.padding1 , self.padding2 , self.padding3 ) - print "Name offset: %08x" % self.name_offs - print "Color1: %08x" % self.color1 - print "Color2: %08x" % self.color2 - print "Font Size X: %f" % self.font_size_x - print "Font Size Y: %f" % self.font_size_y - print "Character Spacing: %f" % self.char_space - print "Line Spacing: %f" % self.line_space - print "Text: ", self.text # N E E D S S O M E W O R K - return - def get_text_length(self): - return len(self.text) - def get_length(self): - templength = 4 + 4 + self.pane.get_length() - templength = templength + 2 + 2 + 2 + 2 + 1 + 1 + 1 + 1 - templength = templength + 4 + 4 + 4 + 4 + 4 + 4 + 4 - templength = templength + self.get_text_length() - self.length = templength - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.pane.write_to_file(file) - file.write(struct.pack('>H', self.len1)) - file.write(struct.pack('>H', self.len2)) - file.write(struct.pack('>H', self.mat_off)) - file.write(struct.pack('>H', self.font)) - file.write(struct.pack('>B', self.unknown)) - file.write(struct.pack('>B', self.padding1)) - file.write(struct.pack('>B', self.padding2)) - file.write(struct.pack('>B', self.padding3)) - file.write(struct.pack('>I', self.name_offs)) - file.write(struct.pack('>I', self.color1)) - file.write(struct.pack('>I', self.color2)) - file.write(struct.pack('>f', self.font_size_x)) - file.write(struct.pack('>f', self.font_size_y)) - file.write(struct.pack('>f', self.char_space)) - file.write(struct.pack('>f', self.line_space)) - text = untv(unicode(self.text).encode('utf_16_be')) - file.write(text) - return - -class BRLYT_pic1: - def __init__(self, name = "Picture", x = 0, y = 0, z = 0, w = 608, h = 456, material_offs = 0): - self.magic = "pic1" - self.length = 0x0000000 - self.pane = BRLYT_Pane(name, x, y, z, w, h) - self.vtx_color1 = 0xFFFFFFFF - self.vtx_color2 = 0xFFFFFFFF - self.vtx_color3 = 0xFFFFFFFF - self.vtx_color4 = 0xFFFFFFFF - self.mat_off = material_offs - self.num_coordinates = 0x01 - self.padding = 0x00 - self.coordinates = { } - self.coordinates[0] = BRLYT_Coordinates() - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.pane.eat_pane(file, offset+8) - self.vtx_color1, self.vtx_color2, self.vtx_color3, self.vtx_color4 = struct.unpack('>IIII', file[offset+0x4C:offset+0x4C+16]) - self.mat_off, self.num_coordinates, self.padding = struct.unpack('>HBB', file[offset+0x5C:offset+0x5C+4]) - for x in range(self.num_coordinates): - self.coordinates[x] = BRLYT_Coordinates() - self.coordinates[x].eat_coordinates(file, offset+0x60+x*32) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.pane.show_pane() - print "Vertex Colors: %08x %08x %08x %08x" % (self.vtx_color1, self.vtx_color2, self.vtx_color3, self.vtx_color4) - print "Material Offset: %04x" % self.mat_off - print "Number of Coordinates: %02x" % self.num_coordinates - print "Padding: %02x" % self.padding - for x in range(len(self.coordinates)): - self.coordinates[x].show_coordinates() - return - def get_length(self): - templength = 4 + 4 + self.pane.get_length() - templength = templength + 4 + 4 + 4 + 2 + 1 + 1 - for x in range(len(self.coordinates)): - templength = templength + self.coordinates[x].get_length() - self.length = templength - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.pane.write_to_file(file) - file.write(struct.pack('>I', self.vtx_color1)) - file.write(struct.pack('>I', self.vtx_color2)) - file.write(struct.pack('>I', self.vtx_color3)) - file.write(struct.pack('>I', self.vtx_color4)) - file.write(struct.pack('>H', self.mat_off)) - file.write(struct.pack('>B', self.num_coordinates)) - file.write(struct.pack('>B', self.padding)) - for x in range(len(self.coordinates)): - self.coordinates[x].write_to_file(file) - return - -class BRLYT_WindowAddon3: - def __init__(self): - self.unknown1 = 0x0000 - self.unknown2 = 0x0000 - def eat_windowaddon3(self, file, offset): - self.unknown1, self.unknown2 = struct.unpack('>HH', file[offset:offset+4]) - return - def show_windowaddon3(self): - print "Unknown: %04x %04x" % ( self.unknown1 , self.unknown2 ) - return - def get_length(self): - templength = 2 + 2 - return templength - def write_to_file(self, file): - file.write(struct.pack('>H', self.unknown1)) - file.write(struct.pack('>H', self.unknown2)) - return - -class BRLYT_WindowAddon2: - def __init__(self): - self.unknown1 = 0x00000000 - self.unknown2 = 0x00000000 - self.unknown3 = 0x00000000 - self.unknown4 = 0x00000000 - def eat_windowaddon2(self, file, offset): - self.unknown1, self.unknown2, self.unknown3, self.unknown4 = struct.unpack('>IIII', file[offset:offset+16]) - return - def show_windowaddon2(self): - print "Unknown: %08x %08x %08x %08x" % ( self.unknown1, self.unknown2, self.unknown3, self.unknown4 ) - return - def get_length(self): - templength = 4 + 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>I', self.unknown1)) - file.write(struct.pack('>I', self.unknown2)) - file.write(struct.pack('>I', self.unknown3)) - file.write(struct.pack('>I', self.unknown4)) - return - -class BRLYT_WindowAddon1: - def __init__(self): - self.unknown1 = 0.0 - self.unknown2 = 0.0 - self.unknown3 = 0.0 - self.unknown4 = 0.0 - self.count = 0x01 - self.padding1 = 0x00 - self.padding2 = 0x00 - self.padding3 = 0x00 - self.offset1 = 0x00000068 - self.offset2 = 0x0000007C - def eat_windowaddon1(self, file, offset): - self.unknown1, self.unknown2, self.unknown3, self.unknown4 = struct.unpack('>ffff', file[offset:offset+16]) - self.count, self.padding1, self.padding2, self.padding3 = struct.unpack('>BBBB', file[offset+0x10:offset+0x10+4]) - self.offset1, self.offset2 = struct.unpack('>II', file[offset+0x14:offset+0x14+8]) - return - def show_windowaddon1(self): - print "Unknown: %f %f %f %f" % ( self.unknown1, self.unknown2, self.unknown3, self.unknown4 ) - print "Count: %02x" % self.count - print "Padding %02x %02x %02x" % ( self.padding1, self.padding2, self.padding3 ) - print "Offset 1: %08x" % self.offset1 - print "Offset 2: %08x" % self.offset2 - return - def get_length(self): - templength = 4 + 4 + 4 + 4 + 1 + 1 + 1 + 1 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>B', self.count)) - file.write(struct.pack('>B', self.padding1)) - file.write(struct.pack('>B', self.padding2)) - file.write(struct.pack('>B', self.padding3)) - file.write(struct.pack('>I', self.offset1)) - file.write(struct.pack('>I', self.offset2)) - return - -class BRLYT_wnd1: - def __init__(self): - self.magic = "wnd1" - self.pane = BRLYT_Pane() - self.addon1 = BRLYT_WindowAddon1() - self.addon2 = BRLYT_WindowAddon2() - self.addon3 = BRLYT_WindowAddon3() - self.offsets = [] - self.materials = [] - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.pane.eat_pane(file, offset+8) - self.addon1.eat_windowaddon1(file, offset+0x4c) - self.addon2.eat_windowaddon2(file, offset+0x4c+28) - self.addon3.eat_windowaddon3(file, offset+0x4c+44) - if self.addon1.offset1 == 0x9c: - self.addon4 = BRLYT_Coordinates() - self.addon4.eat_coordinates(file, offset+0x4c+48) - for x in range(self.addon1.count): - dummy, offs = struct.unpack('>II', file[offset+0x4c+48+32-4:offset+0x4c+48+32+4]) - self.offsets.append(offs) - for x in range(self.addon1.count): - dummy, mat = struct.unpack('>II', file[offset+0x4c+48+32+self.addon1.count*4-4:offset+0x4c+48+32+self.addon1.count*4+4]) - self.materials.append(mat) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.pane.show_pane() - self.addon1.show_windowaddon1() - self.addon2.show_windowaddon2() - self.addon3.show_windowaddon3() - if self.addon1.offset1 == 0x9c: - self.addon4.show_coordinates() - for x in range(self.addon1.count): - print "Offset: %08x" % self.offsets[x] - print "Material: %08x" % self.materials[x] - return - def get_length(self): - templength = 4 + 4 + self.addon1.get_length() + self.addon2.get_length() + self.addon3.get_length() - if self.addon1.offset1 == 0x9c: - templength = templength + self.addon4.get_length() - templength = templength + self.addon1.count * 8 - self.length = templength - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.pane.write_to_file(file) - self.addon1.write_to_file(file) - self.addon2.write_to_file(file) - self.addon3.write_to_file(file) - if self.addon1.offset1 == 0x9c: - self.addon4.write_to_file(file) - tempOffset = self.addon1.count * 4 - for x in range(self.addon1.count): - file.write(struct.pack('>I', tempOffset)) - self.offsets[x] = tempOffset - for x in self.materials: - file.write(struct.pack('>I', x)) - return - -class BRLYT_bnd1: - def __init__(self): - self.magic = "bnd1" - self.pane = BRLYT_Pane() - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.pane.eat_pane(file, offset+8) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.pane.show_pane() - return - def get_length(self): - self.length = 4 + 4 + self.pane.get_length() - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.pane.write_to_file(file) - return - -class BRLYT_pae1: - def __init__(self): - self.magic = "pae1" - self.length = 0x08 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - return - def get_length(self): - self.length = 4 + 4 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - return - -class BRLYT_pas1: - def __init__(self): - self.magic = "pas1" - self.length = 0x08 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - return - def get_length(self): - self.length = 4 + 4 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - return - -class BRLYT_pan1: - def __init__(self, name = "RootPane", x = 0, y = 0, z = 0, w = 608, h = 456): - self.magic = "pan1" - self.pane = BRLYT_Pane(name, x, y, z, w, h) - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.pane.eat_pane(file, offset+8) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.pane.show_pane() - return - def get_length(self): - self.length = 4 + 4 + self.pane.get_length() - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.pane.write_to_file(file) - return - -class BRLYT_mat1: - def __init__(self): - self.magic = "mat1" - self.numoffs = BRLYT_Numoffs() - self.offsets = [] - self.materials = { } - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.numoffs.eat_numoffs(file, offset+8) - for x in range(self.numoffs.number): - dummy, offs = struct.unpack('>II', file[offset+0x0C+4*x-4:offset+0x0C+4*x+4]) - self.offsets.append(offs) - self.materials[x] = BRLYT_Material() - self.materials[x].eat_material(file, offset+self.offsets[x]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.numoffs.show_numoffs() - for x in range(self.numoffs.number): - print "Offsets[%d]: %08x" % ( x , self.offsets[x] ) - self.materials[x].show_material() - return - def add_material(self, material, texture): - self.materials[self.numoffs.number] = BRLYT_Material() - self.offsets.append(self.numoffs.number) - self.numoffs.add() - self.materials[self.numoffs.number - 1].name = material - self.materials[self.numoffs.number - 1].set_texture(texture) - def get_length(self): - templength = 4 + 4 + 4 + self.numoffs.number * 4 - for x in range(self.numoffs.number): - templength = templength + self.materials[x].get_length() - self.length = templength - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.numoffs.write_to_file(file) - tempOffset = self.numoffs.number * 4 + 0xC - for x in range(self.numoffs.number): - file.write(struct.pack('>I', tempOffset)) - #self.offsets[x] = tempOffset - tempOffset = tempOffset + self.materials[x].get_length() - for x in range(len(self.materials)): - self.materials[x].write_to_file(file) - return - -class BRLYT_fnl1: - def __init__(self): - self.magic = "fnl1" - self.numoffs = BRLYT_Numoffs() - self.offsets = [] - self.fonts = [] - self.padding_to_add = 0 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.numoffs.eat_numoffs(file, offset+8) - for x in range(self.numoffs.number): - ''' Grab font name ''' - offs, unknown = struct.unpack('>II', file[offset+8+4+x*8:offset+8+4+x*8+8]) - self.offsets.append(offs) - font = nullterm(file[offset+12+self.offsets[x]:]) - self.fonts.append(font) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.numoffs.show_numoffs() - for x in range(len(self.fonts)): - print "Font: %s offset: %08x" % ( self.fonts[x] , self.offsets[x] ) - return - def add_font(self, font): - self.fonts.append(font) - self.numoffs.add() - if len(self.fonts) > 1: - self.offsets.append(self.offsets[-1] + len(self.textures[-2]) + 1) - else: - self.offsets.appen(4) - return - def get_length(self): - templength = 4 + 4 + 4 + self.numoffs.number * 8 - for x in self.fonts: - templength = templength + len(x) + 1 - self.length = templength - self.padding_to_add = 4 - (self.length % 4) - self.padding_to_add = self.padding_to_add % 4 - self.length = self.length + self.padding_to_add - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.numoffs.write_to_file(file) - tempOffset = self.numoffs.number * 4 - unknown = 0x00000000 - for x in range(len(self.offsets)): - file.write(struct.pack('>I', tempOffset)) - file.write(struct.pack('>I', unknown)) - self.offsets[x] = tempOffset - tempOffset = tempOffset + len(self.fonts[x]) + 1 - for x in self.fonts: - file.write(x) - file.write(struct.pack('s', '\x00')) - for x in range(self.padding_to_add): - file.write(struct.pack('s', "\0")) - return - -class BRLYT_txl1: - def __init__(self): - self.magic = "txl1" - self.numoffs = BRLYT_Numoffs() - self.offsets = [] - self.textures = [] - self.padding_to_add = 0 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.numoffs.eat_numoffs(file, offset+8) - for x in range(self.numoffs.number): - ''' Grab texture name ''' - offs, unknown = struct.unpack('>II', file[offset+8+4+x*8:offset+8+4+x*8+8]) - self.offsets.append(offs) - texture = nullterm(file[offset+12+self.offsets[x]:]) - self.textures.append(texture) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - self.numoffs.show_numoffs() - for x in range(len(self.textures)): - print "Texture: %s offset: %08x" % ( self.textures[x] , self.offsets[x] ) - return - def add_texture(self, texture): - self.textures.append(texture) - self.numoffs.add() - if len(self.textures) > 1: - self.offsets.append(self.offsets[-1] + len(self.textures[-2]) + 1) - else: - self.offsets.append(4) - return - def get_texoffset(self, texture): - texoffset = -1 - for x in range(len(self.textures)): - if self.textures[x] == texture: - texoffset = x - return texoffset - def get_length(self): - templength = 4 + 4 + 4 + self.numoffs.number * 8 - for x in self.textures: - templength = templength + len(x) + 1 - self.length = templength - self.padding_to_add = 4 - (self.length % 4) - self.padding_to_add = self.padding_to_add % 4 - self.length = self.length + self.padding_to_add - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - self.numoffs.write_to_file(file) - tempOffset = self.numoffs.number * 8 - unknown = 0x00000000 - for x in range(len(self.offsets)): - file.write(struct.pack('>I', tempOffset)) - file.write(struct.pack('>I', unknown)) - self.offsets[x] = tempOffset - tempOffset = tempOffset + len(self.textures[x]) + 1 - for x in self.textures: - file.write(x) - file.write(struct.pack('s', "\0")) - for x in range(self.padding_to_add): - file.write(struct.pack('s', "\0")) - return - -class BRLYT_lyt1: - def __init__(self): - self.magic = "lyt1" - self.length = 0x14 - self.a = 1 - self.pad1 = 0 - self.pad2 = 0 - self.pad3 = 0 - self.width = 608.0 - self.height = 456.0 - def eat_tag(self, file, offset): - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.a, self.pad1, self.pad2, self.pad3 = struct.unpack('>4B', file[offset+0x08:offset+0x08+4]) - self.width, self.height = struct.unpack('>ff', file[offset+0x0C:offset+0x0C+8]) - return - def show_tag(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - print "a: %02x" % self.a - print "width: %f" % self.width - print "height: %f" % self.height - return - def get_length(self): - self.length = 4 + 4 + 1 + 1 + 1 + 1 + 4 + 4 - return self.length - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - file.write(struct.pack('>B', self.a)) - file.write(struct.pack('>B', self.pad1)) - file.write(struct.pack('>B', self.pad2)) - file.write(struct.pack('>B', self.pad3)) - file.write(struct.pack('>f', self.width)) - file.write(struct.pack('>f', self.width)) - return - -class BRLYT_Header: - def __init__(self): - self.data = [] - def eat_header(self, buffer, offset): - self.magic, self.length = struct.unpack('>4sI', buffer[offset:offset+8]) - return - def show_header(self, offset): - print "Offset: %08x" % offset - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - return - -class BRLYT: - def __init__(self): - self.tags_filled = 0 - self.data = [] - self.magic = "RLYT" - self.version = 0xfeff0101 - self.offset = 0x10 - self.chunks = 0x0000 - self.tags = { } - def grab_brlyt(self, file): - for x in file: - self.data.append(x) - return - def eat_brlyt(self, file): - file_offset = 0 - self.magic, self.version = struct.unpack('>4sI', file[0x00:0x08]) - self.length, self.offset, self.count = struct.unpack('>IHH', file[0x08:0x10]) - file_offset = 0x10 - tempHeader = BRLYT_Header() - for x in range(self.count): - tempHeader.eat_header(file, file_offset) - ''' DO BIG CASE IF FOR TYPE ''' - if tempHeader.magic == "lyt1": - self.tags[x] = BRLYT_lyt1() - elif tempHeader.magic == "txl1": - self.tags[x] = BRLYT_txl1() - elif tempHeader.magic == "fnl1": - self.tags[x] = BRLYT_fnl1() - elif tempHeader.magic == "mat1": - self.tags[x] = BRLYT_mat1() - elif tempHeader.magic == "pan1": - self.tags[x] = BRLYT_pan1() - elif tempHeader.magic == "pas1": - self.tags[x] = BRLYT_pas1() - elif tempHeader.magic == "pae1": - self.tags[x] = BRLYT_pae1() - elif tempHeader.magic == "wnd1": - self.tags[x] = BRLYT_wnd1() - elif tempHeader.magic == "bnd1": - self.tags[x] = BRLYT_bnd1() - elif tempHeader.magic == "pic1": - self.tags[x] = BRLYT_pic1() - elif tempHeader.magic == "txt1": - self.tags[x] = BRLYT_txt1() - elif tempHeader.magic == "grp1": - self.tags[x] = BRLYT_grp1() - elif tempHeader.magic == "grs1": - self.tags[x] = BRLYT_grs1() - elif tempHeader.magic == "gre1": - self.tags[x] = BRLYT_gre1() - else: - print "BAD TAG" - break - self.tags[x].eat_tag(file, file_offset) - file_offset = file_offset + self.tags[x].length - self.tags_filled = self.chunks - return - def get_texoffset(self, texture): - texoffset = self.tags[1].get_texoffset(texture) - return texoffset - def add_material(self, material, texture): - texoffset = self.get_texoffset(texture) - if texoffset == -1: - print "texture not found in txl1" - return - for x in range(self.tags_filled): - if isinstance(self.tags[x], BRLYT_mat1): - self.tags[x].add_material(material, texoffset) - return - def add_picture(self, name, (x, y), (w, h), material): - self.add_pas1() - - mat_offs = None - for i in range(len(self.tags[2].materials)): - if(self.tags[2].materials[i].name == material): - mat_offs = self.tags[2].offsets[i] - if(mat_offs == None): - raise IndexError("Material not found!") - self.tags[self.tags_filled] = BRLYT_pic1(name, x, y, 0, w, h, mat_offs) - self.tags_filled = self.tags_filled + 1 - self.add_pae1() - def add_rootpane(self, (w, h)): - self.tags[self.tags_filled] = BRLYT_pan1("RootPane", 0, 0, 0, w, h) - self.tags_filled = self.tags_filled + 1 - def add_grp1(self): - self.tags[self.tags_filled] = BRLYT_grp1() - self.tags_filled = self.tags_filled + 1 - def add_txt1(self): - self.tags[self.tags_filled] = BRLYT_txt1() - self.tags_filled = self.tags_filled + 1 - def add_pic1(self): - self.tags[self.tags_filled] = BRLYT_pic1() - self.tags_filled = self.tags_filled + 1 - def add_pae1(self): - self.tags[self.tags_filled] = BRLYT_pae1() - self.tags_filled = self.tags_filled + 1 - def add_pas1(self): - self.tags[self.tags_filled] = BRLYT_pas1() - self.tags_filled = self.tags_filled + 1 - def add_pan1(self): - self.tags[self.tags_filled] = BRLYT_pan1() - self.tags_filled = self.tags_filled + 1 - def add_mat1(self): - self.tags[self.tags_filled] = BRLYT_mat1() - self.tags_filled = self.tags_filled + 1 - def add_txl1(self): - self.tags[self.tags_filled] = BRLYT_txl1() - self.tags_filled = self.tags_filled + 1 - return - def add_lyt1(self): - self.tags[self.tags_filled] = BRLYT_lyt1() - self.tags_filled = self.tags_filled + 1 - return - def add_texture(self, texture): - self.tags[1].add_texture(texture) - return - def add_font(self, font): - self.tags[2].add_font(font) - return - def get_length(self): - templength = 4 + 4 + 4 + 2 + 2 - for x in range(len(self.tags)): - templength = templength + self.tags[x].get_length() - self.length = templength - def write_brlyt(self, filename): - self.get_length() - file = open(filename, 'wb') - if file: - file.write(self.magic) - file.write(struct.pack('>I', self.version)) - file.write(struct.pack('>I', self.length)) - file.write(struct.pack('>H', self.offset)) - file.write(struct.pack('>H', self.chunks)) - for x in range(len(self.tags)): - self.tags[x].write_to_file(file) - file.close() - else: - print "could not open file for write" - return - def show_brlyt(self): - print "Magic: %s" % self.magic - print "Version: %08x" % self.version - print "File size: %08x" % self.length - print "Header size: %04x" % self.offset - print "Chunk count: %04x" % self.count - for x in range(len(self.tags)): - self.tags[x].show_tag() - print - return - -class BRLAN_TagData: - def __init__(self): - self.part1 = 0x0 - self.part2 = 0x0 - self.part3 = 0x0 - def eat_tagdata(self, file, offset): - pass - def get_length(self): - pass - def write_to_file(self, file): - pass - -class BRLAN_TagDataTriplet(BRLAN_TagData): - def eat_tagdata(self, file, offset): - self.part1, self.part2, self.part3 = struct.unpack('>fff', file[offset:offset+12]) - return - def show_tagdata(self): - print "Frame: %f" % self.part1 - print "Value: %f" % self.part2 - print "Blend: %f" % self.part3 - return - def get_length(self): - templength = 4 + 4 + 4 - return templength - def write_to_file(self, file): - file.write(struct.pack('>f', self.part1)) - file.write(struct.pack('>f', self.part2)) - file.write(struct.pack('>f', self.part3)) - return - -class BRLAN_TagDataPair(BRLAN_TagData): - def eat_tagdata(self, file, offset): - self.part1, self.part2, self.part3 = struct.unpack('>IHH', file[offset:offset+8]) - return - def show_tagdata(self): - print "Pair 1: %08x" % self.part1 - print "Pair 2: %04x" % self.part2 - print "Padding: %04x" % self.part3 - return - def get_length(self): - templength = 4 + 2 + 2 - return templength - def write_to_file(self, file): - file.write(struct.pack('>I', self.part1)) - file.write(struct.pack('>H', self.part2)) - file.write(struct.pack('>H', self.part3)) - return - -class BRLAN_TagEntryInfo: - def __init__(self): - self.type = 0x0000 - self.data_type = 0x0020 # 0x20 is triplet 0x10 is pair - self.coord_count = 0x0000 - self.pad1 = 0x0000 - self.unknown = 0x0000000C - self.tag_data = { } - def eat_tagentryinfo(self, file, offset): - file_offset = offset - self.type, self.data_type, self.coord_count, self.pad1, self.unknown = struct.unpack('>HHHHI', file[offset:offset+12]) - file_offset = file_offset + 12 - for x in range(self.coord_count): - if self.data_type == 0x0200: - self.tag_data[x] = BRLAN_TagDataTriplet() - self.tag_data[x].eat_tagdata(file, file_offset) - file_offset = file_offset + 12 - elif self.data_type == 0x0100: - self.tag_data[x] = BRLAN_TagDataPair() - self.tag_data[x].eat_tagdata(file, file_offset) - file_offset = file_offset + 8 - return - def show_tagentryinfo(self): - print "Type: %04x" % self.type - print "Data Type: %04x" % self.data_type - print "Coordinate Count: %04x" % self.coord_count - print "Padding: %04x" % self.pad1 - print "Unknown: %08x" % self.unknown - for x in range(len(self.tag_data)): - self.tag_data[x].show_tagdata() - return - def get_length(self): - templength = 2 + 2 + 2 + 2 + 4 - for x in range(len(self.tag_data)): - templength = templength + self.tag_data[x].get_length() - return templength - def write_to_file(self, file): - file.write(struct.pack('>H', self.type)) - file.write(struct.pack('>H', self.data_type)) - file.write(struct.pack('>H', self.coord_count)) - file.write(struct.pack('>H', self.pad1)) - file.write(struct.pack('>I', self.unknown)) - for x in range(len(self.tag_data)): - self.tag_data[x].write_to_file(file) - return - -class BRLAN_TagHeader: - def __init__(self): - self.magic = "RLPA" - self.entry_count = 0x00 - self.pad1 = 0x00 - self.pad2 = 0x00 - self.pad3 = 0x00 - self.tag_entry_offsets = [] - self.tag_entries = { } - def eat_tagheader(self, file, offset): - self.magic, self.entry_count, self.pad1, self.pad2, self.pad3 = struct.unpack('>4sBBBB', file[offset:offset+8]) - for x in range(self.entry_count): - dummy, offs = struct.unpack('>II', file[offset+8+x*4-4:offset+8+x*4+4]) - self.tag_entry_offsets.append(offs) - self.tag_entries[x] = BRLAN_TagEntryInfo() - self.tag_entries[x].eat_tagentryinfo(file, offset+self.tag_entry_offsets[x]) - return - def show_tagheader(self): - print "Magic: %s" % self.magic - print "Entry Count: %02x" % self.entry_count - print "Padding: %02x %02x %02x" % ( self.pad1 , self.pad2 , self.pad3 ) - for x in range(self.entry_count): - print "Offset: %08x" % self.tag_entry_offsets[x] - self.tag_entries[x].show_tagentryinfo() - return - def get_length(self): - templength = 4 + 1 + 1 + 1 + 1 - templength = templength + self.entry_count * 4 - for x in range(self.entry_count): - templength = templength + self.tag_entries[x].get_length() - return templength - def write_to_file(self, file): - file.write(struct.pack('>4s', self.magic)) - file.write(struct.pack('>B', self.entry_count)) - file.write(struct.pack('>B', self.pad1)) - file.write(struct.pack('>B', self.pad2)) - file.write(struct.pack('>B', self.pad3)) - for x in range(self.entry_count): - file.write(struct.pack('>I', self.tag_entry_offsets[x])) - for x in range(self.entry_count): - self.tag_entries[x].write_to_file(file) - return - -class BRLAN_entry(): - def __init__(self): - self.name = "name" - self.num_tags = 0x00 - self.is_material = 0x00 - self.pad1 = 0x00 - self.pad2 = 0x00 - self.tag_offsets = [] - self.tags = { } - def eat_entry(self, file, offset): - file_offset = offset - self.name, self.num_tags, self.is_material, self.pad1, self.pad2 = struct.unpack('>20sBBBB', file[offset:offset+24]) - file_offset = file_offset + 24 - for x in range(self.num_tags): - dummy, offs = struct.unpack('>II', file[offset+24+x*4-4:offset+24+x*4+4]) - self.tag_offsets.append(offs) - self.tags[x] = BRLAN_TagHeader() - self.tags[x].eat_tagheader(file, offset+self.tag_offsets[x]) - return - def show_entry(self): - print "Name: %s" % nullterm(self.name) - print "Number of Tags: %02x" % self.num_tags - print "Is a Material: %02x" % self.is_material - print "Padding: %02x %02x" % ( self.pad1, self.pad2 ) - for x in range(self.num_tags): - self.tags[x].show_tagheader() - return - def get_length(self): - templength = 20 + 1 + 1 + 1 + 1 - for x in range(self.num_tags): - templength = templength + 4 + self.tags[x].get_length() - return templength - def write_to_file(self, file): - file.write(struct.pack('>20s', self.name)) - file.write(struct.pack('>B', self.num_tags)) - file.write(struct.pack('>B', self.is_material)) - file.write(struct.pack('>B', self.pad1)) - file.write(struct.pack('>B', self.pad2)) - for x in range(self.num_tags): - file.write(struct.pack('>I', self.tag_offsets[x])) - for x in range(self.num_tags): - self.tags[x].write_to_file(file) - return - -class BRLAN_pai1(): - def __init__(self): - self.magic = "pai1" - self.length = 0x00000000 - self.framesize = 0x0000 - self.flags = 0x00 - self.unknown = 0x00 - self.num_timgs = 0x0000 - self.num_entries = 0x0000 - self.entry_offset = 0x00000000 - self.timg_offsets = [] - self.timgs = [] - self.entry_offsets = [] - self.entries = { } - def eat_pai1(self, file, offset): - file_offset = offset - self.magic, self.length = struct.unpack('>4sI', file[offset:offset+8]) - self.framesize, self.flags, self.unknown = struct.unpack('>HBB', file[offset+0x08:offset+0x08+4]) - self.num_timgs, self.num_entries = struct.unpack('>HH', file[offset+0x0C:offset+0x0C+4]) - file_offset = file_offset + 0x10 - if bit_extract(self.flags, 25): - self.unknown2, self.entry_offset = struct.unpack('>II', file[offset+0x10:offset+0x10+8]) - file_offset = file_offset + 8 - else: - dummy, self.entry_offset = struct.unpack('>II', file[offset+0x10-4:offset+0x10+4]) - file_offset = file_offset + 4 - for x in range(self.num_timgs): - dummy, offs = struct.unpack('>II', file[file_offset+x*4-4:file_offset+x*4+4]) - self.timg_offsets.append(offs) - name = nullterm(file[file_offset+self.timg_offsets[x]:]) - self.timgs.append(name) - for x in range(self.num_entries): - dummy, offs = struct.unpack('>II', file[offset+self.entry_offset+x*4-4:offset+self.entry_offset+x*4+4]) - self.entry_offsets.append(offs) - self.entries[x] = BRLAN_entry() - self.entries[x].eat_entry(file, offset+self.entry_offsets[x]) - return - def show_pai1(self): - print "Magic: %s" % self.magic - print "Length: %08x" % self.length - print "Framesize: %04x" % self.framesize - print "Flags: %02x" % self.flags - print "Unknown: %02x" % self.unknown - print "Number of Images: %04x" % self.num_timgs - print "Number of Entries: %04x" % self.num_entries - if bit_extract(self.flags, 25): - print "Unknown2: %08x" % self.unknown2 - print "Entry Offset: %08x" % self.entry_offset - for x in range(len(self.timgs)): - print "Image: %s offset: %08x" % ( self.timgs[x] , self.offsets[x] ) - for x in range(len(self.entry_offsets)): - print "Offset: %08x" % self.entry_offsets[x] - self.entries[x].show_entry() - return - def get_length(self): - templength = 4 + 4 + 2 + 1 + 1 + 2 + 2 - if bit_extract(self.flags, 25): - templength = templength + 4 - templength = templength + 4 - templegnth = templength + self.num_timgs * 4 - for x in range(self.num_timgs): - templength = templength + len(self.timgs[x]) + 1 - templength = templength + self.num_entries * 4 - for x in range(self.num_entries): - templength = templength + self.entries[x].get_length() - self.length = templength - return templength - def write_to_file(self, file): - file.write(self.magic) - file.write(struct.pack('>I', self.length)) - file.write(struct.pack('>H', self.framesize)) - file.write(struct.pack('>B', self.flags)) - file.write(struct.pack('>B', self.unknown)) - file.write(struct.pack('>H', self.num_timgs)) - file.write(struct.pack('>H', self.num_entries)) - if bit_extract(self.flags, 25): - file.write(struct.pack('>I', self.unknown2)) - file.write(struct.pack('>I', self.entry_offset)) - tempOffset = self.num_timgs * 4 + self.entry_offset - for x in range(len(self.timgs)): - file.write(struct.pack('>I', tempOffset)) - self.timg_offsets[x] = tempOffset - tempOffset = tempOffset + len(self.timgs[x]) + 1 - for x in self.timgs: - file.write(x) - file.write(struct.pack('s', '\x00')) - tempOffset = self.num_entries * 4 + self.entry_offset - for x in range(len(self.entry_offsets)): - file.write(struct.pack('>I', tempOffset)) - self.entry_offsets[x] = tempOffset - tempOffset = tempOffset + self.entries[x].get_length() - for x in range(self.num_entries): - self.entries[x].write_to_file(file) - return - -class BRLAN: - def __init__(self): - self.magic = "RLAN" - self.version = 0xfeff0008 - self.length = 0x00000000 - self.offset = 0x0010 - self.chunks = 0x0001 - self.pai1 = BRLAN_pai1() - def eat_brlan(self, file): - self.magic, self.version, self.length = struct.unpack('>4sII', file[0x00:0x00+12]) - self.offset, self.chunks = struct.unpack('>HH', file[0x0c:0x0c+4]) - self.pai1.eat_pai1(file, self.offset) - return - def show_brlan(self): - print "Magic: %s" % self.magic - print "Version: %08x" % self.version - print "File Size: %08x" % self.length - print "Header Size: %04x" % self.offset - print "Chunk Count: %04x" % self.chunks - self.pai1.show_pai1() - return - def get_length(self): - templength = 4 + 4 + 4 + 2 + 2 - templength = templength + self.pai1.get_length() - self.length = templength - return self.templength - def write_brlan(self, filename): - self.get_length() - file = open(filename, 'wb') - if file: - file.write(self.magic) - file.write(struct.pack('>I', self.version)) - file.write(struct.pack('>I', self.length)) - file.write(struct.pack('>H', self.offset)) - file.write(struct.pack('>H', self.chunks)) - self.pai1.write_to_file(file) - file.close() - else: - print "could now open file for writing" - return - -if(__name__ == "__main__"): - - if len(sys.argv) != 2: - print 'Usage: python banner.py ' - sys.exit(1) - - ''' START BRLAN READING TEST ''' ''' - f = open(sys.argv[1], 'rb') - if f: - rlan = f.read() - f.close() - else: - print "could not open file for reading" - - brlan = BRLAN() - brlan.eat_brlan(rlan) - brlan.show_brlan() - brlan.write_brlan("testout.brlan") - ''' ''' END BRLAN READING TEST ''' - - ''' START BRLYT READING TEST ''' #''' - f = open(sys.argv[1], 'rb') - if f: - rlyt = f.read() - f.close() - else: - print "could not open file" - - brlyt = BRLYT() - brlyt.eat_brlyt(rlyt) - brlyt.show_brlyt() - brlyt.write_brlyt("testout.brlyt") - #''' ''' END BRLYT READING TEST ''' - - ''' TEST FOR WRITING A BRLYT FROM SCRATCH ''' ''' - brlyt2 = BRLYT() - brlyt2.add_lyt1() - brlyt2.add_txl1() - brlyt2.add_texture("texture1.tpl") - brlyt2.add_mat1() - brlyt2.add_material("material1", "texture1.tpl") - brlyt2.add_pan1() - brlyt2.add_pas1() - brlyt2.add_pic1() - brlyt2.add_pae1() - brlyt2.add_grp1() - brlyt2.write_brlyt("testout.brlyt") - ''' '''END TEST FOR BRLYT WRITING ''' - - ''' T O D O ''' ''' - fix txt1 text output - add brlan making methods - ''' diff --git a/savedata.py b/savedata.py deleted file mode 100644 index b6ec61a..0000000 --- a/savedata.py +++ /dev/null @@ -1,260 +0,0 @@ -import os, struct, subprocess, fnmatch, shutil, urllib, array - -from Struct import Struct - -from common import * -from title import * -from TPL import * -from PIL import Image - -class Savegame(): - class savegameHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.savegameId = Struct.uint32[2] - self.bannerSize = Struct.uint32 - self.permissions = Struct.uint8 - self.unknown1 = Struct.uint8 - self.md5hash = Struct.string(16) - self.unknown2 = Struct.uint16 - - class savegameBanner(Struct): - __endian__ = Struct.BE - def __format__(self): - self.magic = Struct.string(4) - self.reserved = Struct.uint8[4] - self.flags = Struct.uint32 - self.reserved = Struct.uint32[5] - self.gameTitle = Struct.string(64) - self.gameSubTitle = Struct.string(64) - self.banner = Struct.string(24576) - self.icon0 = Struct.string(4608) - self.icon1 = Struct.string(4608) - self.icon2 = Struct.string(4608) - self.icon3 = Struct.string(4608) - self.icon4 = Struct.string(4608) - self.icon5 = Struct.string(4608) - self.icon6 = Struct.string(4608) - self.icon7 = Struct.string(4608) - - class backupHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.hdrSize = Struct.uint32 - self.magic = Struct.string(2) - self.version = Struct.uint16 - self.NGid = Struct.uint32 - self.filesCount = Struct.uint32 - self.filesSize = Struct.uint32 - self.unknown1 = Struct.uint32 - self.unknown2 = Struct.uint32 - self.totalSize = Struct.uint32 - self.unknown3 = Struct.uint8[64] - self.unknown4 = Struct.uint32 - self.gameId = Struct.string(4) - self.wiiMacAddr = Struct.uint8[6] - self.unknown6 = Struct.uint16 - self.padding = Struct.uint32[4] - - class fileHeader(Struct): - __endian__ = Struct.BE - def __format__(self): - self.magic = Struct.uint32 - self.size = Struct.uint32 - self.permissions = Struct.uint8 - self.attribute = Struct.uint8 - self.type = Struct.uint8 - self.nameIV = Struct.string(0x45) - - def __init__(self, f): - self.f = f - try: - self.fd = open(f, 'r+b') - except: - raise Exception('Cannot open input') - - self.sdKey = '\xab\x01\xb9\xd8\xe1\x62\x2b\x08\xaf\xba\xd8\x4d\xbf\xc2\xa5\x5d' - self.sdIv = '\x21\x67\x12\xe6\xaa\x1f\x68\x9f\x95\xc5\xa2\x23\x24\xdc\x6a\x98' - - self.iconCount = 1 - - def __str__(self): - ret = '' - ret += '\nSavegame header \n' - - ret += 'Savegame ID : 0x%x%x\n' % (self.hdr.savegameId[0], self.hdr.savegameId[1]) - ret += 'Banner size : 0x%x\n' % self.hdr.bannerSize - ret += 'Permissions : 0x%x\n' % self.hdr.permissions - ret += 'Unknown : 0x%x\n' % self.hdr.unknown1 - ret += 'MD5 hash : %s\n' % hexdump(self.hdr.md5hash) - ret += 'Unknown : 0x%x\n' % self.hdr.unknown2 - - ret += '\nBanner header \n' - - ret += 'Flags : 0x%x\n' % self.bnr.flags - ret += 'Game title : %s\n' % self.bnr.gameTitle - ret += 'Game subtitle : %s\n' % self.bnr.gameSubTitle - ret += 'Icons found : %i\n' % self.iconCount - - ret += '\nBackup header \n' - - ret += 'Header size : 0x%x (+ 0x10 of padding) version 0x%x\n' % (self.bkHdr.hdrSize, self.bkHdr.version) - if self.bkHdr.gameId[3] == 'P': - ret += 'Region : PAL\n' - elif self.bkHdr.gameId[3] == 'E': - ret += 'Region : NTSC\n' - elif self.bkHdr.gameId[3] == 'J': - ret += 'Region : JAP\n' - ret += 'Game ID : %s\n' % self.bkHdr.gameId - ret += 'Wii unique ID : 0x%x\n' % self.bkHdr.NGid - ret += 'Wii MAC address %02x:%02x:%02x:%02x:%02x:%02x\n' % (self.bkHdr.wiiMacAddr[0], self.bkHdr.wiiMacAddr[1], self.bkHdr.wiiMacAddr[2], self.bkHdr.wiiMacAddr[3], self.bkHdr.wiiMacAddr[4], self.bkHdr.wiiMacAddr[5]) - ret += 'Found %i files for %i bytes\n' % (self.bkHdr.filesCount, self.bkHdr.filesSize) - ret += 'Total size : %i bytes\n' % self.bkHdr.totalSize - ret += 'This save is %i blocks wise' % (self.bkHdr.totalSize / 0x20000) - - return ret - - def extractFiles(self): - - try: - os.mkdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - except: - pass - - os.chdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - - self.fd.seek(self.fileStartOffset) - - for i in range(self.bkHdr.filesCount): - - fileHdr = self.fd.read(0x80) - fileHdr = self.fileHeader().unpack(fileHdr) - - if fileHdr.magic != 0x03adf17e: - raise Exception('Wrong file magic') - - fileHdr.size = align(fileHdr.size, 64) - - ivpos = 0 - name = "" - i = 0 - for char in list(fileHdr.nameIV): - if(char == "\x00"): - i -= 1 - ivpos = i - break - else: - name += char - i += 1 - - - fileIV = fileHdr.nameIV[ivpos:ivpos + 16] - - if len(fileIV) != 16: - raise Exception('IV alignment issue') - - if fileHdr.type == 1: - print 'Extracted %s (%ib)' % (name, fileHdr.size) - - fileBuffer = self.fd.read(fileHdr.size) - fileBuffer = Crypto().decryptData(self.sdKey, fileIV, fileBuffer, True) - try: - open(name, 'w+b').write(fileBuffer) - except: - raise Exception('Cannot write the output') - elif fileHdr.type == 2: - print 'Extracted folder %s' % name - try: - os.mkdir(name) - except: - pass - - print 'Attribute %i Permission %i' % (fileHdr.attribute, fileHdr.permissions) - print 'File IV : 0x%s' % hexdump(fileIV, '') - - os.chdir('..') - - def analyzeHeader(self): - headerBuffer = self.fd.read(0xF0C0) - headerBuffer = Crypto().decryptData(self.sdKey, self.sdIv, headerBuffer, True) - - self.hdr = self.savegameHeader().unpack(headerBuffer[:0x20]) - - #headerBuffer.replace(self.hdr.md5hash, '\x0e\x65\x37\x81\x99\xbe\x45\x17\xab\x06\xec\x22\x45\x1a\x57\x93') - #print 'Reashed md5 : %s' % hexdump(Crypto().createMD5Hash(headerBuffer)) - - self.bnr = self.savegameBanner().unpack(headerBuffer[0x20:]) - - if self.bnr.magic != 'WIBN': - raise Exception ('Wrong magic, should be WIBN') - - if self.hdr.bannerSize != 0x72A0: - self.iconCount += 7 - - bkHdrBuffer = self.fd.read(0x80) - self.bkHdr = self.backupHeader().unpack(bkHdrBuffer) - - if self.bkHdr.magic != 'Bk' or self.bkHdr.hdrSize != 0x70: - raise Exception ('Bk header error') - - self.fileStartOffset = self.fd.tell() - - def eraseWiiMac(self): - self.fd.seek(0xF128) - print self.fd.write('\x00' * 6) - - def getBanner(self): - try: - os.mkdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - except: - pass - - os.chdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - - return Image.fromstring("RGBA", (192, 64), TPL('').RGB5A3((192, 64), self.bnr.banner)).save('banner', 'png') - - def getIcon(self, index): - if index < 0 or index > 7 or index > self.iconCount: - return -1 - - try: - os.mkdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - except: - pass - - os.chdir(os.path.dirname(self.f) + '/' + self.bkHdr.gameId) - - if index == 0: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon0)).save('icon' + str(index), 'png') - if index == 1: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon1)).save('icon' + str(index), 'png') - if index == 2: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon2)).save('icon' + str(index), 'png') - if index == 3: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon3)).save('icon' + str(index), 'png') - if index == 4: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon4)).save('icon' + str(index), 'png') - if index == 5: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon5)).save('icon' + str(index), 'png') - if index == 6: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon6)).save('icon' + str(index), 'png') - if index == 7: - return Image.fromstring("RGBA", (48, 48), TPL('').RGB5A3((48, 48), self.bnr.icon7)).save('icon' + str(index), 'png') - - def getIconsCount(self): - return self.iconCount - - def getSaveString(self, string): - if string == 'id': - return self.bkHdr.gameId - elif string == 'title': - return self.bnr.gameTitle - elif string == 'subtitle': - return self.bnr.gameSubTitle - elif string == 'mac': - return self.bkHdr.wiiMacAddr[0] + ':' + self.bkHdr.wiiMacAddr[1] + ':' + self.bkHdr.wiiMacAddr[2] + ':' + self.bkHdr.wiiMacAddr[3] + ':' + self.bkHdr.wiiMacAddr[4] + ':' + self.bkHdr.wiiMacAddr[5] - - def getFilesCount(self): - return self.bkHdr.filesCount - -