Mercurial > touhou
view pytouhou/formats/score.py @ 435:878273a984c4
Improve Matrix representation, using float[16] instead of imbricated python lists.
author | Emmanuel Gil Peyrot <linkmauve@linkmauve.fr> |
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date | Wed, 07 Aug 2013 11:34:40 +0200 |
parents | 70e2ed71b09c |
children | d1f0bb0b7a17 |
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# -*- encoding: utf-8 -*- ## ## Copyright (C) 2012 Thibaut Girka <thib@sitedethib.com> ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published ## by the Free Software Foundation; version 3 only. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## from struct import pack, unpack, Struct from collections import namedtuple from io import BytesIO from pytouhou.formats import ChecksumError class TH6Score(object): entry_types = { b'TH6K': (Struct('<I'), namedtuple('TH6K', ('unknown',))), b'HSCR': (Struct('<IIBBB8sx'), namedtuple('HSCR', ('unknown', 'score', 'character', 'rank', 'stage', 'name'))), b'PSCR': (Struct('<IIBBBx'), namedtuple('PSCR', ('unknown', 'score', 'character', 'rank', 'stage'))), b'CLRD': (Struct('<I5B5BBx'), namedtuple('CLRD', ('unknown', 'easy', 'normal', 'hard', 'lunatic', 'extra', 'easy_continue', 'normal_continue', 'hard_continue', 'lunatic_continue', 'extra_continue', 'character'))), b'CATK': (Struct('<I I HH I 34s H HH'), namedtuple('CATK', ('unknown', 'unknown2', 'num', 'unknown3', 'padding', 'name', 'padding2', 'seen', 'defeated'))), } def __init__(self): self.key1 = 0 self.key2 = 0 self.unknown1 = 0 self.unknown2 = 16 self.unknown3 = 0 self.unknown4 = 0 self.entries = [] @classmethod def read(cls, file, decrypt=True, verify=True): self = cls() # Decrypt data if decrypt: decrypted_file = BytesIO() decrypted_file.write(file.read(1)) key = 0 for c in file.read(): encrypted = ord(c) key = ((key << 3) & 0xFF) | ((key >> 5) & 7) clear = encrypted ^ key key += clear decrypted_file.write(chr(clear)) file = decrypted_file # Read first-part header file.seek(0) self.unknown1, self.key1, checksum = unpack('<BBH', file.read(4)) # Verify checksum if verify: #TODO: is there more to it? real_sum = sum(ord(c) for c in file.read()) & 0xFFFF if checksum != real_sum: raise ChecksumError(checksum, real_sum) file.seek(4) # Read second-part header data = unpack('<HBBIII', file.read(16)) self.unknown2, self.key2, self.unknown3, offset, self.unknown4, size = data #TODO: verify size # Read tags file.seek(offset) while True: tag = file.read(4) if not tag: break size, size2 = unpack('<HH', file.read(4)) assert size == size2 assert size >= 8 data = file.read(size-8) data = cls.entry_types[tag][0].unpack(data) data = cls.entry_types[tag][1](*data) self.entries.append((tag, data)) return self def write(self, file, encrypt=True): if encrypt: clearfile = BytesIO() else: clearfile = file # Write data clearfile.seek(20) for entry in self.entries: #TODO tag, data = entry format = TH6Score.entry_types[tag][0] clearfile.write(tag) clearfile.write(pack('<H', format.size + 8) * 2) clearfile.write(format.pack(*data)) # Patch header size = clearfile.tell() clearfile.seek(0) clearfile.write(pack('<BBHHBBIII', self.unknown1, self.key1, 0, self.unknown2, self.key2, self.unknown3, 20, self.unknown4, size)) # Patch checksum clearfile.seek(4) checksum = sum(ord(c) for c in clearfile.read()) & 0xFFFF clearfile.seek(2) clearfile.write(pack('<H', checksum)) # Encrypt if encrypt: clearfile.seek(0) file.write(clearfile.read(1)) key = 0 for c in clearfile.read(): clear = ord(c) key = ((key << 3) & 0xFF) | ((key >> 5) & 7) encrypted = clear ^ key key += clear file.write(chr(encrypted))