def toFakeLZO(self, path, tabPath, outBinPath, outTabPath):
"""Convert a file's contents to "fake LZO" format.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
offs = tabFile.readu32()
while True:
nextOffs = tabFile.readu32()
if nextOffs == 0xFFFFFFFF: break
high = offs & 0xFF000000
offs &= 0xFFFFFF
size = (nextOffs & 0xFFFFFF) - offs
if size > 0:
inFile.seek(offs)
data = inZlb.decompress()
header = b'LZO\0' + struct.pack('>3I', 1, len(data), len(data)) + b'Rena'
pad = len(data) & 0xF
if pad: data += b'\0' * (16-pad)
outTab.writeu32(outBin.tell() | high)
if size > 0: outBin.write(header + data)
offs = nextOffs
outTab.writeu32(outBin.tell()) # XXX verify
outTab.writeu32(0xFFFFFFFF)
def toLZO(self, path, tabPath, outBinPath, outTabPath):
"""Convert a file's contents to LZO.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
outLzo = DPLZO(outBin)
while True:
offs = tabFile.readu32()
if offs == 0xFFFFFFFF: break
high = offs & 0xFF000000
inFile.seek(offs & 0xFFFFFF)
data = inZlb.decompress()
pad = len(data) & 0xF
if pad: data += b'\0' * (16-pad)
outTab.writeu32(outBin.tell() | high)
outBin.write(outLzo.compress(data))
outTab.writeu32(outBin.tell()) # XXX verify
outTab.writeu32(0xFFFFFFFF)
def modelstoFakeLZO(self, path, tabPath, outBinPath, outTabPath):
"""Convert a model file's contents to "fake LZO" format.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
tabCksum = 0
while True:
offs = tabFile.readu32()
if offs == 0xFFFFFFFF: break
high = offs & 0xFF000000
if high & 0x10000000:
#printf("Model %08X\r\n", offs)
offs = offs & 0xFFFFFF
inFile.seek(offs)
data = inFile.read(4)
if data == b'\xFA\xCE\xFE\xED':
while data not in (b'ZLB\0', b'DIR\0', b'\xE0\xE0\xE0\xE0', b'\xF0\xF0\xF0\xF0'):
outBin.write(data)
data = inFile.read(4)
inFile.seek(offs)
data = inZlb.decompress()
header = b'ZLB\0' + struct.pack('>3I', 1, len(data), len(data)) + b'Rena'
data = header + data
tabVal = outBin.tell() | high
outBin.write(data)
while outBin.tell() & 0xF: outBin.writeu8(0)
else: # don't use this model
tabVal = 0x00000000
tabCksum += ((tabVal >> 24) & 0xFF)
tabCksum += ((tabVal >> 16) & 0xFF)
tabCksum += ((tabVal >> 8) & 0xFF)
tabCksum += ( tabVal & 0xFF)
outTab.writeu32(tabVal)
tabVal = outBin.tell()
outTab.writeu32(tabVal)
tabCksum += ((tabVal >> 24) & 0xFF)
tabCksum += ((tabVal >> 16) & 0xFF)
tabCksum += ((tabVal >> 8) & 0xFF)
tabCksum += ( tabVal & 0xFF)
outTab.writeu32(0xFFFFFFFF)
tabCksum += (0xFF * 4)
outTab.writeu32(tabCksum & 0xFFFFFFFF)
for i in range(7):
outTab.writeu32(0)
def mapstoFakeLZO(self, path, tabPath, outBinPath, outTabPath):
"""Convert MAPS.BIN file's contents to "fake LZO" format.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
offs = tabFile.readu32()
while offs != 0xFFFFFFFF:
nextOffs = tabFile.readu32()
inLen = nextOffs - offs
inFile.seek(offs)
tabVal = outBin.tell()
outTab.writeu32(tabVal)
while offs < nextOffs:
inFile.seek(offs)
data = inFile.read(4)
if len(data) == 0: break
elif data == b'\xFA\xCE\xFE\xED':
rawLen, zlbOffs, compLen = inFile.readStruct('3I')
dOut = data + struct.pack('>3I', rawLen+0x28, zlbOffs, rawLen+4)
printf("Write FACEFEED at %08X: %s\r\n", outBin.tell(),
dOut.hex())
outBin.write(dOut)
for i in range(zlbOffs):
outBin.writeu16(inFile.readu16())
offs += len(data)
elif data == b'ZLB\0':
inFile.seek(offs)
data = inZlb.decompress()
dl = len(data) + 4
outBin.write(b'LZO\0' + struct.pack('3I', 0, 0, dl) + b'Rena' + data)
else:
outBin.write(data)
offs = inFile.tell()
offs = nextOffs
tabVal = outBin.tell()
outTab.writeu32(tabVal)
outTab.writeu32(0xFFFFFFFF)
for i in range(3):
outTab.writeu32(0)
def textoDIR(self, path, tabPath, outBinPath, outTabPath):
"""Convert a texture file's contents to uncompressed DIR format.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
tabCksum = 0
while True:
offs = tabFile.readu32()
if offs == 0xFFFFFFFF: break
high = offs & 0xFF000000
if high & 0x80000000:
offs = (offs & 0xFFFFFF) * 2
nFrames = (high >> 24) & 0x3F
inFile.seek(offs)
# read frame values
if nFrames > 1: frameData = inFile.readu32(nFrames+1)
else: frameData = []
data = inZlb.decompress()
#data = b'\0\0\0\0' + b'\0\0\0\0' + b'\0\0\0\0' + data
dl = len(data)
header = b'DIR\0' + struct.pack('>3I', 0, dl, dl)
header += b'\0\0\0\0' + b'\0\0\0\0' + b'\0\0\0\0' + b'\0\0\0\0'
data = header + data
tabVal = (outBin.tell() >> 1) | high
if nFrames > 1: outBin.writeu32(*frameData)
outBin.write(data)
while outBin.tell() & 0xF: outBin.writeu8(0)
else: # don't use this texture
tabVal = 0x01000000
tabCksum += ((tabVal >> 24) & 0xFF)
tabCksum += ((tabVal >> 16) & 0xFF)
tabCksum += ((tabVal >> 8) & 0xFF)
tabCksum += ( tabVal & 0xFF)
outTab.writeu32(tabVal)
outTab.writeu32(0xFFFFFFFF)
tabCksum += (0xFF * 4)
outTab.writeu32(tabCksum & 0xFFFFFFFF)
for i in range(7):
outTab.writeu32(0)
def textoLZO(self, path, tabPath, outBinPath, outTabPath):
"""Convert a texture file's contents to LZO.
path: input file to convert.
tabPath: table for input file.
outBinPath: output path for .bin file.
outTabPath: output path for .tab file.
"""
inFile = BinaryFile(path, 'rb')
tabFile = BinaryFile(tabPath, 'rb')
outBin = BinaryFile(outBinPath, 'wb')
outTab = BinaryFile(outTabPath, 'wb')
inZlb = Zlb(inFile)
outLzo = DPLZO(outBin)
tabCksum = 0
while True:
offs = tabFile.readu32()
if offs == 0xFFFFFFFF: break
high = offs & 0xFF000000
if high & 0x80000000:
offs = (offs & 0xFFFFFF) * 2
nFrames = (high >> 24) & 0x3F
inFile.seek(offs)
# read frame values
if nFrames > 1: frameData = inFile.readu32(nFrames+1)
else: frameData = []
data = outLzo.compress(inZlb.decompress())
tabVal = (outBin.tell() >> 1) | (high & 0xC0000000) | ((nFrames-1) << 24)
if nFrames > 1: outBin.writeu32(*frameData)
outBin.write(data)
while outBin.tell() & 0xF: outBin.writeu8(0)
else: # don't use this texture
tabVal = 0x01000000
tabCksum += ((tabVal >> 24) & 0xFF)
tabCksum += ((tabVal >> 16) & 0xFF)
tabCksum += ((tabVal >> 8) & 0xFF)
tabCksum += ( tabVal & 0xFF)
outTab.writeu32(tabVal)
outTab.writeu32(0xFFFFFFFF)
tabCksum += (0xFF * 4)
outTab.writeu32(tabCksum & 0xFFFFFFFF)
for i in range(7):
outTab.writeu32(0)
def packTextures(self, path, outPath, which):
"""Pack images in `path` to TEXn.bin, TEXn.tab files, where n=which."""
textures = {} # ID => tex
# get list of files to pack
for name in os.listdir(path):
if re.match(r'^[0-9a-fA-F]+\.[0-9a-fA-F]+\.', name):
fields = name.split('.')
tid = int(fields[0], 16) # texture ID
mid = int(fields[1], 16) # mipmap ID
if tid not in textures: textures[tid] = {}
textures[tid][mid] = name
printf("Packing %d textures to %s.bin/tab\n", len(textures), outPath)
# write out bin and tab files
binFile = BinaryFile(outPath+'.bin', 'wb')
tabFile = BinaryFile(outPath+'.tab', 'wb')
maxId = self.MAX_TEX0_ID if str(which) == '0' else self.MAX_TEX1_ID
for tid in range(maxId):
if tid in textures:
printf("%04X... ", tid)
mips = textures[tid]
offs = binFile.tell()
nMips = len(mips)
printf("%2d mips, %08X ", nMips, offs)
tabFile.writeu32(
0x80000000 | (offs>>1) | (nMips << 24))
mipData = []
for mip in range(nMips):
name = mips[mip]
fPath = os.path.join(path, name)
if name.endswith('.tex') or name.endswith('.bin'):
with open(fPath, 'rb') as file:
data = file.read()
else: # image file
fields = name.split('.')
fmt = ImageFormat[fields[2]]
img = Image.open(fPath)
tex = SfaTexture.fromImage(img, fmt=format, numMipMaps=numMipMaps)
data = tex.toData()
data = Zlb(None).compress(data)
pad = len(data) & 0x3
if pad: data += b'\0' * (4 - pad)
mipData.append(data)
# write the mipmap offsets
if nMips > 1:
mipOffs = 4 * (nMips+1)
for data in mipData:
binFile.writeu32(mipOffs)
mipOffs += len(data)
binFile.writeu32(mipOffs)
# write the data
for data in mipData:
binFile.write(data)
# align to 32 bytes - required by game
pad = binFile.tell() & 0x1F
if pad: binFile.write(b'\0' * (32 - pad))
printf("OK\n")
else:
tabFile.writeu32(0x01000000)
# write size of last item and terminator
tabFile.writeu32(binFile.tell() >> 1)
tabFile.writeu32(0xFFFFFFFF)
tabFile.writeu32(0xCFA2) # XXX what is this? never read?
tabFile.writeu32(0, 0, 0, 0, 0, 0, 0)
binFile.close()
tabFile.close()