Mercurial > touhou
view pytouhou/formats/std.py @ 192:5e84dfd153ab
Use the right “random” item drop function.
author | Emmanuel Gil Peyrot <linkmauve@linkmauve.fr> |
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date | Thu, 27 Oct 2011 15:17:21 -0700 |
parents | c596a1a69402 |
children | 88361534c77e |
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# -*- encoding: utf-8 -*- ## ## Copyright (C) 2011 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, calcsize from pytouhou.utils.helpers import read_string, get_logger logger = get_logger(__name__) class Model(object): def __init__(self, unknown=0, bounding_box=None, quads=None): self.unknown = 0 self.bounding_box = bounding_box or (0., 0., 0., 0., 0., 0.) self.quads = quads or [] class Stage(object): _instructions = {0: ('fff', 'set_viewpos'), 1: ('BBBxff', 'set_fog'), 2: ('fff', 'set_viewpos2'), 3: ('Ixxxxxxxx', 'start_interpolating_viewpos2'), 4: ('Ixxxxxxxx', 'start_interpolating_fog')} def __init__(self): self.name = '' self.bgms = (('', ''), ('', ''), ('', ''), ('', '')) self.models = [] self.object_instances = [] self.script = [] @classmethod def read(cls, file): stage = Stage() nb_models, nb_faces = unpack('<HH', file.read(4)) object_instances_offset, script_offset = unpack('<II', file.read(8)) if file.read(4) != b'\x00\x00\x00\x00': raise Exception #TODO stage.name = read_string(file, 128, 'shift_jis') bgm_a = read_string(file, 128, 'shift_jis') bgm_b = read_string(file, 128, 'shift_jis') bgm_c = read_string(file, 128, 'shift_jis') bgm_d = read_string(file, 128, 'shift_jis') bgm_a_path = read_string(file, 128, 'ascii') bgm_b_path = read_string(file, 128, 'ascii') bgm_c_path = read_string(file, 128, 'ascii') bgm_d_path = read_string(file, 128, 'ascii') stage.bgms = [(bgm_a, bgm_a_path), (bgm_b, bgm_b_path), (bgm_c, bgm_c_path), (bgm_d, bgm_d_path)] #TODO: handle ' ' # Read model definitions offsets = unpack('<%s' % ('I' * nb_models), file.read(4 * nb_models)) for offset in offsets: model = Model() file.seek(offset) id_, unknown, x, y, z, width, height, depth = unpack('<HHffffff', file.read(28)) model.unknown = unknown model.bounding_box = x, y, z, width, height, depth #TODO: check while True: unknown, size = unpack('<HH', file.read(4)) if unknown == 0xffff: break if size != 0x1c: raise Exception #TODO script_index, x, y, z, width, height = unpack('<Hxxfffff', file.read(24)) model.quads.append((script_index, x, y, z, width, height)) stage.models.append(model) # Read object usages file.seek(object_instances_offset) while True: obj_id, unknown, x, y, z = unpack('<HHfff', file.read(16)) if (obj_id, unknown) == (0xffff, 0xffff): break if unknown != 256: raise Exception #TODO stage.object_instances.append((obj_id, x, y, z)) # Read other funny things (script) file.seek(script_offset) while True: frame, opcode, size = unpack('<IHH', file.read(8)) if (frame, opcode, size) == (0xffffffff, 0xffff, 0xffff): break if size != 0x0c: raise Exception #TODO data = file.read(size) if opcode in cls._instructions: args = unpack('<%s' % cls._instructions[opcode][0], data) else: args = (data,) logger.warn('unknown opcode %d', opcode) stage.script.append((frame, opcode, args)) return stage def write(self, file): model_offsets = [] second_section_offset = 0 third_section_offset = 0 nb_faces = sum(len(model.quads) for model in self.models) # Write header file.write(pack('<HH', len(self.models), nb_faces)) #TODO: nb_faces file.write(pack('<II', 0, 0)) file.write(pack('<I', 0)) file.write(pack('<128s', self.name.encode('shift_jis'))) for bgm_name, bgm_path in self.bgms: file.write(pack('<128s', bgm_name.encode('shift_jis'))) for bgm_name, bgm_path in self.bgms: file.write(pack('<128s', bgm_path.encode('ascii'))) file.write(b'\x00\x00\x00\x00' * len(self.models)) # Write first section for i, model in enumerate(self.models): model_offsets.append(file.tell()) file.write(pack('<HHffffff', i, model.unknown, *model.bounding_box)) for quad in model.quads: file.write(pack('<HH', 0x00, 0x1c)) file.write(pack('<Hxxfffff', *quad)) file.write(pack('<HH', 0xffff, 4)) # Write second section second_section_offset = file.tell() for obj_id, x, y, z in self.object_instances: file.write(pack('<HHfff', obj_id, 256, x, y, z)) file.write(b'\xff' * 16) # Write third section third_section_offset = file.tell() for frame, opcode, args in self.script: size = calcsize(self._instructions[opcode][0]) file.write(pack('<IHH%s' % self._instructions[opcode][0], frame, opcode, size, *args)) file.write(b'\xff' * 20) # Fix offsets file.seek(4) file.write(pack('<II', second_section_offset, third_section_offset)) file.seek(16+128+128*2*4) file.write(pack('<%sI' % len(self.models), *model_offsets))