Mercurial > touhou
view pytouhou/game/enemymanager.py @ 31:55973a3f1222
Some more optimization!
author | Thibaut Girka <thib@sitedethib.com> |
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date | Sat, 13 Aug 2011 00:02:11 +0200 |
parents | afa91be769ae |
children | 47543594ff66 |
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from itertools import chain from io import BytesIO import os from struct import unpack, pack from pytouhou.utils.interpolator import Interpolator from pytouhou.game.eclrunner import ECLRunner from pytouhou.game.sprite import Sprite from math import cos, sin, atan2 class Enemy(object): def __init__(self, pos, life, _type, ecl_runner, anm_wrapper): self.anm_wrapper = anm_wrapper self.anm = None self.ecl_runner = ecl_runner self.x, self.y = pos self.life = life self.type = _type self.frame = 0 self.sprite = None self.death_sprite = None self.movement_dependant_sprites = None self.direction = None self.interpolator = None #TODO self.angle = 0. self.speed = 0. self.rotation_speed = 0. self.acceleration = 0. self.hitbox = (0, 0) self.ecl_runner.implementation.update({97: ('I', self.set_sprite), 98: ('HHHHHH', self.set_multiple_sprites), 45: ('ff', self.set_angle_speed), 43: ('fff', self.set_pos), 46: ('f', self.set_rotation_speed), 47: ('f', self.set_speed), 48: ('f', self.set_acceleration), 51: ('If', self.target_player), 57: ('Ifff', self.move_to), 100: ('I', self.set_death_sprite), 103: ('fff', self.set_hitbox)}) #TODO def set_death_sprite(self, sprite_index): self.death_sprite = sprite_index % 256 #TODO def set_hitbox(self, width, height, depth): self.hitbox = (width, height) def set_sprite(self, sprite_index): self.anm, self.sprite = self.anm_wrapper.get_sprite(sprite_index) def set_multiple_sprites(self, default, end_left, end_right, left, right, unknown): self.movement_dependant_sprites = end_left, end_right, left, right, unknown self.anm, self.sprite = self.anm_wrapper.get_sprite(default) def set_angle_speed(self, angle, speed): self.angle, self.speed = angle, speed def set_pos(self, x, y, z): self.x, self.y = x, y self.interpolator = Interpolator((x, y)) self.interpolator.set_interpolation_start(self.frame, (x, y)) def set_rotation_speed(self, speed): self.rotation_speed = speed def set_speed(self, speed): self.speed = speed def set_acceleration(self, acceleration): self.acceleration = acceleration def target_player(self, unknown, speed): self.speed = speed #TODO: unknown player_x, player_y = 192., 400.#TODO self.angle = atan2(player_y - self.y, player_x - self.x) def move_to(self, duration, x, y, z): self.interpolator.set_interpolation_end(self.frame + duration, (x, y)) def is_visible(self, screen_width, screen_height): if not self.sprite: return False tx, ty, tw, th = self.sprite.texcoords if self.sprite.corner_relative_placement: raise Exception #TODO else: max_x = tw / 2. max_y = th / 2. min_x = -max_x min_y = -max_y if any((min_x >= screen_width - self.x, max_x <= -self.x, min_y >= screen_height - self.y, max_y <= -self.y)): return False return True def update(self, frame): #TODO #if not self.script: # return True #if self.script[0][0] == self.frame: # for instr_type, rank_mask, param_mask, args in self.script.pop(0)[1]: # if instr_type == 1: # delete # return False self.ecl_runner.update() x, y = self.x, self.y if self.interpolator: self.interpolator.update(self.frame) x, y = self.interpolator.values self.speed += self.acceleration #TODO: units? Execution order? self.angle += self.rotation_speed #TODO: units? Execution order? dx, dy = cos(self.angle) * self.speed, sin(self.angle) * self.speed if self.type & 2: x -= dx else: x += dx y += dy if self.movement_dependant_sprites: #TODO: is that really how it works? if x < self.x: self.anm, self.sprite = self.anm_wrapper.get_sprite(self.movement_dependant_sprites[2]) self.direction = -1 elif x > self.x: self.anm, self.sprite = self.anm_wrapper.get_sprite(self.movement_dependant_sprites[3]) self.direction = +1 #TODO: end_animation elif self.direction is not None: self.anm, self.sprite = self.anm_wrapper.get_sprite(self.movement_dependant_sprites[{-1: 0, +1:1}[self.direction]]) self.direction = None self.x, self.y = x, y if self.sprite: if self.sprite.update() and self.is_visible(384, 448): #TODO: screen size self.sprite.update_uvs_vertices() self.frame += 1 return True class EnemyManager(object): def __init__(self, stage, anm_wrapper, ecl): self.stage = stage self.anm_wrapper = anm_wrapper self.main = [] self.ecl = ecl self.objects_by_texture = {} self.enemies = [] # Populate main for frame, sub, instr_type, args in ecl.main: if not self.main or self.main[-1][0] < frame: self.main.append((frame, [(sub, instr_type, args)])) elif self.main[-1][0] == frame: self.main[-1][1].append((sub, instr_type, args)) def update(self, frame): if self.main and self.main[0][0] == frame: for sub, instr_type, args in self.main.pop(0)[1]: if instr_type in (0, 2, 4, 6): # Normal/mirrored enemy x, y, z, life, unknown1, unknown2, unknown3 = args ecl_runner = ECLRunner(self.ecl, sub) enemy = Enemy((x, y), life, instr_type, ecl_runner, self.anm_wrapper) def _enemy_deleter(unknown): #TOOD: unknown self.enemies.remove(enemy) ecl_runner.implementation[1] = ('I', _enemy_deleter) self.enemies.append(enemy) # Update enemies for enemy in tuple(self.enemies): if not enemy.update(frame): self.enemies.remove(enemy) continue # Add enemies to vertices/uvs self.objects_by_texture = {} for enemy in self.enemies: ox, oy = enemy.x, enemy.y if enemy.is_visible(384, 448): #TODO key = enemy.anm.first_name, enemy.anm.secondary_name if not key in self.objects_by_texture: self.objects_by_texture[key] = (0, [], []) vertices = tuple((x + ox, y + oy, z) for x, y, z in enemy.sprite._vertices) self.objects_by_texture[key][2].extend(enemy.sprite._uvs) self.objects_by_texture[key][1].extend(vertices) for key, (nb_vertices, vertices, uvs) in self.objects_by_texture.items(): nb_vertices = len(vertices) vertices = pack('f' * (3 * nb_vertices), *chain(*vertices)) uvs = pack('f' * (2 * nb_vertices), *chain(*uvs)) self.objects_by_texture[key] = (nb_vertices, vertices, uvs)