def read(self, reader: ByteIO):
entry = reader.tell()
self.name = reader.read_ascii_string()
reader.seek(entry + 36)
self.format = DXGI_FORMAT(reader.read_int32())
self.offset = reader.read_uint32()
reader.skip(12)
def read_header00(self, reader: ByteIO):
self.id = ''.join(list([chr(reader.read_uint8()) for _ in range(4)]))
self.version = reader.read_uint32()
print('Found MDL version', self.version)
# self.checksum = reader.read_uint32()
self.name = reader.read_ascii_string(64)
self.file_size = reader.read_uint32()
def read(self, reader: ByteIO, mdl: SourceMdlFileDataV10):
self.boneOffset = reader.tell()
self.name = reader.read_ascii_string(32)
self.parentBoneIndex = reader.read_int32()
self.flags = reader.read_int32()
self.boneControllerIndex = [reader.read_int32() for _ in range(6)]
self.position.read(reader)
self.rotation.read(reader)
self.scale = [reader.read_float() for _ in range(6)]
mdl.bones.append(self)
class BinaryKeyValue(Dummy):
ENCODING = (0x46, 0x1A, 0x79, 0x95, 0xBC, 0x95, 0x6C, 0x4F, 0xA7, 0x0B,
0x05, 0xBC, 0xA1, 0xB7, 0xDF, 0xD2)
FORMAT = (0x7C, 0x16, 0x12, 0x74, 0xE9, 0x06, 0x98, 0x46, 0xAF, 0xF2, 0xE6,
0x3E, 0xB5, 0x90, 0x37, 0xE7)
SIG = (0x56, 0x4B, 0x56, 0x03)
def __init__(self, block_info: InfoBlock = None):
self.strings = []
self.info_block = block_info
self.kv = []
self.flags = 0
self.buffer = ByteIO() # type: ByteIO
def read(self, reader: ByteIO):
fourcc = reader.read_bytes(4)
assert tuple(fourcc) == self.SIG, 'Invalid KV Signature'
encoding = reader.read_bytes(16)
assert tuple(encoding) == self.ENCODING, 'Unrecognized KV3 Encoding'
format = reader.read_bytes(16)
assert tuple(format) == self.FORMAT, 'Unrecognised KV3 Format'
self.flags = reader.read_bytes(4)
if self.flags[3] & 0x80:
self.buffer.write_bytes(
reader.read_bytes(self.info_block.block_size -
(reader.tell() -
self.info_block.absolute_offset)))
working = True
while reader.tell() != reader.size() and working:
block_mask = reader.read_uint16()
for i in range(16):
if block_mask & (1 << i) > 0:
offset_and_size = reader.read_uint16()
offset = ((offset_and_size & 0xFFF0) >> 4) + 1
size = (offset_and_size & 0x000F) + 3
lookup_size = offset if offset < size else size
entry = self.buffer.tell()
self.buffer.seek(entry - offset)
data = self.buffer.read_bytes(lookup_size)
self.buffer.seek(entry)
while size > 0:
self.buffer.write_bytes(
data[:lookup_size if lookup_size < size else size])
size -= lookup_size
else:
data = reader.read_int8()
self.buffer.write_int8(data)
if self.buffer.size() == (self.flags[2] << 16) + (
self.flags[1] << 8) + self.flags[0]:
working = False
break
self.buffer.seek(0)
string_count = self.buffer.read_uint32()
for i in range(string_count):
self.strings.append(self.buffer.read_ascii_string())
self.parse(self.buffer, self.kv, True)
self.buffer.close()
del self.buffer
def parse(self, reader: ByteIO, parent=None, in_array=False):
name = None
parent = parent
if not in_array:
string_id = reader.read_uint32()
name = "ERROR" if string_id == -1 else self.strings[string_id]
add = lambda v: parent.update({name: v}
) if not in_array else parent.append(v)
data_type = reader.read_int8()
flag_info = KVFlag.Nothing
if data_type & 0x80:
data_type &= 0x7F
flag_info = KVFlag(reader.read_int8())
if data_type == KVType.NULL:
add(None)
return
if data_type == KVType.BOOLEAN:
add(reader.read_int8() > 0)
return
if data_type == KVType.INTEGER:
add(reader.read_int64())
return
if data_type == KVType.DOUBLE:
add(reader.read_double())
return
if data_type == KVType.STRING:
string_id = reader.read_int32()
if string_id == -1:
add(None)
return
add(self.strings[string_id])
return
if data_type == KVType.ARRAY:
size = reader.read_uint32()
arr = []
for _ in range(size):
self.parse(reader, arr, True)
add(arr)
return
if data_type == KVType.OBJECT:
size = reader.read_uint32()
tmp = {}
for _ in range(size):
self.parse(reader, tmp, False)
add(tmp)
if not parent:
parent = tmp
return parent