view pytouhou/formats/ecl.py @ 710:377c241be559

std_vm: Implement SetViewpos, SetViewpos2 and StartInterpolatinvViewpos2.
author Emmanuel Gil Peyrot <linkmauve@linkmauve.fr>
date Sun, 08 Sep 2019 18:09:05 +0200
parents d1f0bb0b7a17
children d18c0bf11138
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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.
##

"""ECL files handling.

This module provides classes for handling the ECL file format.
The ECL format is a format used in Touhou 6: EoSD to script most of the gameplay
aspects of the game, such as enemy movements, attacks, and so on.
"""

import struct
from struct import pack, unpack, calcsize

from pytouhou.utils.helpers import get_logger

logger = get_logger(__name__)

class ECL:
    """Handle Touhou 6 ECL files.

    ECL files are binary script files used to describe the behavior of enemies.
    They are basically composed of a header and two additional sections.
    The first section is a list of subroutines, each composed of a list of timed
    instructions.
    The second section is a list of a different set of instructions describing
    enemy waves, triggering dialogs and level completion.

    Instance variables:
    mains -- list of lists of instructions describing waves and triggering dialogs
    subs -- list of subroutines
    """

    _instructions = {0: ('', 'noop?'),
                     1: ('I', 'delete?'),
                     2: ('Ii', 'relative_jump'),
                     3: ('Iii', 'relative_jump_ex'),
                     4: ('ii', 'set_int'),
                     5: ('if', 'set_float'),
                     6: ('ii', 'set_random_int'),
                     8: ('if', 'set_random_float'),
                     9: ('iff', 'set_random_float2'),
                     10: ('i', 'store_x'),
                     13: ('iii', 'add_int'),
                     14: ('iii', 'substract_int'),
                     15: ('iii', 'multiply_int'),
                     16: ('iii', 'divide_int'),
                     17: ('iii', 'modulo'),
                     18: ('i', 'increment'),
                     20: ('iff', 'add_float'),
                     21: ('iff', 'substract_float'),
                     23: ('iff', 'divide_float'),
                     25: ('iffff', 'get_direction'),
                     26: ('i', 'float_to_unit_circle'), #TODO: find a better name
                     27: ('ii', 'compare_ints'),
                     28: ('ff', 'compare_floats'),
                     29: ('ii', 'relative_jump_if_lower_than'),
                     30: ('ii', 'relative_jump_if_lower_or_equal'),
                     31: ('ii', 'relative_jump_if_equal'),
                     32: ('ii', 'relative_jump_if_greater_than'),
                     33: ('ii', 'relative_jump_if_greater_or_equal'),
                     34: ('ii', 'relative_jump_if_not_equal'),
                     35: ('iif', 'call'),
                     36: ('', 'return'),
                     39: ('iifii', 'call_if_equal'),
                     43: ('fff', 'set_position'),
                     45: ('ff', 'set_angle_and_speed'),
                     46: ('f', 'set_rotation_speed'),
                     47: ('f', 'set_speed'),
                     48: ('f', 'set_acceleration'),
                     49: ('ff', 'set_random_angle'),
                     50: ('ff', 'set_random_angle_ex'),
                     51: ('ff', 'set_speed_towards_player'),
                     52: ('iff', 'move_in_decel'),
                     56: ('ifff', 'move_to_linear'),
                     57: ('ifff', 'move_to_decel'),
                     59: ('iffi', 'move_to_accel'),
                     61: ('i', 'stop_in'),
                     63: ('i', 'stop_in_accel'),
                     65: ('ffff', 'set_screen_box'),
                     66: ('', 'clear_screen_box'),
                     67: ('hhiiffffi', 'set_bullet_attributes'),
                     68: ('hhiiffffi', 'set_bullet_attributes2'),
                     69: ('hhiiffffi', 'set_bullet_attributes3'),
                     70: ('hhiiffffi', 'set_bullet_attributes4'),
                     71: ('hhiiffffi', 'set_bullet_attributes5'),
                     74: ('hhiiffffi', 'set_bullet_attributes6'),
                     75: ('hhiiffffi', 'set_bullet_attributes7'),
                     76: ('i', 'set_bullet_interval'),
                     77: ('i', 'set_bullet_interval_ex'),
                     78: ('', 'delay_attack'),
                     79: ('', 'no_delay_attack'),
                     81: ('fff', 'set_bullet_launch_offset'),
                     82: ('iiiiffff', 'set_extended_bullet_attributes'),
                     83: ('', 'change_bullets_in_star_bonus'),
                     84: ('i', None),
                     85: ('hhffffffiiiiii', 'laser'),
                     86: ('hhffffffiiiiii', 'laser2'),
                     87: ('i', 'set_upcoming_id'),
                     88: ('if','alter_laser_angle'),
                     90: ('ifff', 'reposition_laser'),
                     92: ('i', 'cancel_laser'),
                     93: ('hhs', 'set_spellcard'),
                     94: ('', 'end_spellcard'),
                     95: ('ifffhhi', 'spawn_enemy'),
                     96: ('', 'kill_all_enemies'),
                     97: ('i', 'set_anim'),
                     98: ('hhhhhxx', 'set_multiple_anims'),
                     99: ('ii', None),
                     100: ('i', 'set_death_anim'),
                     101: ('i', 'set_boss_mode?'),
                     102: ('iffff', 'create_squares'),
                     103: ('fff', 'set_enemy_hitbox'),
                     104: ('i', 'set_collidable'),
                     105: ('i', 'set_damageable'),
                     106: ('i', 'play_sound'),
                     107: ('i', 'set_death_flags'),
                     108: ('i', 'set_death_callback?'),
                     109: ('ii', 'memory_write_int'),
                     111: ('i', 'set_life'),
                     112: ('i', 'set_ellapsed_time'),
                     113: ('i', 'set_low_life_trigger'),
                     114: ('i', 'set_low_life_callback'),
                     115: ('i', 'set_timeout'),
                     116: ('i', 'set_timeout_callback'),
                     117: ('i', 'set_touchable'),
                     118: ('iIbbbb', 'drop_particles'),
                     119: ('i', 'drop_bonus'),
                     120: ('i', 'set_automatic_orientation'),
                     121: ('ii', 'call_special_function'),
                     122: ('i', None),
                     123: ('i', 'skip_frames'),
                     124: ('i', 'drop_specific_bonus'),
                     125: ('', None),
                     126: ('i', 'set_remaining_lives'),
                     127: ('i', None),
                     128: ('i', 'set_smooth_disappear'),
                     129: ('ii', None),
                     130: ('i', None),
                     131: ('ffiiii', 'set_difficulty_coeffs'),
                     132: ('i', 'set_invisible'),
                     133: ('', 'copy_callbacks?'),
                     134: ('', None),
                     135: ('i', 'enable_spellcard_bonus')} #TODO

    _main_instructions = {0: ('fffhhI', 'spawn_enemy'),
                          2: ('fffhhI', 'spawn_enemy_mirrored'),
                          4: ('fffhhI', 'spawn_enemy_random'),
                          6: ('fffhhI', 'spawn_enemy_mirrored_random'),
                          8: ('', 'call_msg'),
                          9: ('', 'wait_msg'),
                          10: ('II', 'resume_ecl'),
                          12: ('', 'stop_time')}

    _parameters = {6: {'main_count': 1,
                       'nb_main_offsets': 3,
                       'jumps_list': {2: 1, 3: 1, 29: 1, 30: 1, 31: 1, 32: 1, 33: 1, 34: 1}}}


    def __init__(self):
        self.mains = []
        self.subs = []


    @classmethod
    def read(cls, file, version=6):
        """Read an ECL file.

        Raise an exception if the file is invalid.
        Return a ECL instance otherwise.
        """

        parameters = cls._parameters[version]

        sub_count, main_count = unpack('<HH', file.read(4))

        main_offsets = unpack('<%dI' % parameters['nb_main_offsets'], file.read(4 * parameters['nb_main_offsets']))
        sub_offsets = unpack('<%dI' % sub_count, file.read(4 * sub_count))

        ecl = cls()

        # Read subs
        for sub_offset in sub_offsets:
            file.seek(sub_offset)
            ecl.subs.append([])

            instruction_offsets = []

            while True:
                instruction_offsets.append(file.tell() - sub_offset)

                time, opcode = unpack('<IH', file.read(6))
                if time == 0xffffffff or opcode == 0xffff:
                    break

                size, rank_mask, param_mask = unpack('<HHH', file.read(6))
                data = file.read(size - 12)
                if opcode in cls._instructions:
                    fmt = '<%s' % cls._instructions[opcode][0]
                    if fmt.endswith('s'):
                        fmt = fmt[:-1]
                        fmt = '%s%ds' % (fmt, size - 12 - calcsize(fmt))
                    args = unpack(fmt, data)
                    if fmt.endswith('s'):
                        args = args[:-1] + (args[-1].decode('shift_jis'),)
                else:
                    args = (data, )
                    logger.warn('unknown opcode %d', opcode)

                ecl.subs[-1].append((time, opcode, rank_mask, param_mask, args))


            # Translate offsets to instruction pointers.
            # Indeed, jump instructions are relative and byte-based.
            # Since our representation doesn't conserve offsets, we have to
            # keep trace of where the jump is supposed to end up.
            for instr_offset, (i, instr) in zip(instruction_offsets, enumerate(ecl.subs[-1])):
                time, opcode, rank_mask, param_mask, args = instr
                if opcode in parameters['jumps_list']:
                    num = parameters['jumps_list'][opcode]
                    args = list(args)
                    args[num] = instruction_offsets.index(instr_offset + args[num])
                    ecl.subs[-1][i] = time, opcode, rank_mask, param_mask, tuple(args)


        # Read main
        for main_offset in main_offsets:
            if main_offset == 0:
                break

            file.seek(main_offset)
            ecl.mains.append([])
            while True:
                time, sub = unpack('<HH', file.read(4))
                if time == 0xffff and sub == 4:
                    break

                opcode, size = unpack('<HH', file.read(4))
                data = file.read(size - 8)

                if opcode in cls._main_instructions:
                    args = unpack('<%s' % cls._main_instructions[opcode][0], data)
                else:
                    args = (data,)
                    logger.warn('unknown main opcode %d', opcode)

                ecl.mains[-1].append((time, sub, opcode, args))

        return ecl


    def write(self, file, version=6):
        """Write to an ECL file."""

        parameters = self._parameters[version]

        sub_count = len(self.subs)
        sub_offsets = []
        main_offset = 0

        # Skip header, it will be written later
        file.seek(8+8+4*sub_count)

        # Write subs
        for sub in self.subs:
            sub_offsets.append(file.tell())

            instruction_offsets = []
            instruction_datas = []
            for time, opcode, rank_mask, param_mask, args in sub:
                format = self._instructions[opcode][0]
                if format.endswith('s'):
                    args = list(args)
                    args[-1] = args[-1].encode('shift_jis')
                    format = '%s%ds' % (format[:-1], len(args[-1]))
                format = '<IHHHH%s' % format
                size = calcsize(format)
                instruction_offsets.append((instruction_offsets[-1] + len(instruction_datas[-1])) if instruction_offsets else 0)
                try:
                    instruction_datas.append(pack(format, time, opcode, size, rank_mask, param_mask, *args))
                except struct.error:
                    logger.error('Failed to assemble opcode %d' % opcode)
                    raise

            #TODO: clean up this mess
            for instruction, data, offset in zip(sub, instruction_datas, instruction_offsets):
                time, opcode, rank_mask, param_mask, args = instruction
                if opcode in parameters['jumps_list']:
                    num = parameters['jumps_list'][opcode]
                    args = list(args)
                    args[num] = instruction_offsets[args[num]] - offset
                    format = '<IHHHH%s' % self._instructions[opcode][0]
                    size = calcsize(format)
                    data = pack(format, time, opcode, size, rank_mask, param_mask, *args)
                file.write(data)
            file.write(b'\xff' * 6 + b'\x0c\x00\x00\xff\xff\x00')

        # Write main
        main_offsets = [0] * parameters['nb_main_offsets']
        for i, main in enumerate(self.mains):
            main_offsets[i] = file.tell()
            for time, sub, opcode, args in main:
                format = '<HHHH%s' % self._main_instructions[opcode][0]
                size = calcsize(format)

                file.write(pack(format, time, sub, opcode, size, *args))
            file.write(b'\xff\xff\x04\x00')

        # Patch header
        file.seek(0)
        file.write(pack('<I%dI%dI' % (parameters['nb_main_offsets'], sub_count), sub_count, *(main_offsets + sub_offsets)))