import random from pathlib import Path import pyray as ray from libs.animation import Animation from libs.utils import load_all_textures_from_zip class Background: def __init__(self, screen_width: int, screen_height: int): self.screen_width = screen_width self.screen_height = screen_height self.donbg = DonBG.create(self.screen_width, self.screen_height, random.randint(6, 6), 1) self.bg_normal = BGNormal.create(self.screen_width, self.screen_height, random.randint(1, 5)) self.bg_fever = BGFever.create(self.screen_width, self.screen_height, 4) self.footer = Footer(self.screen_width, self.screen_height, random.randint(1, 3)) self.is_clear = False def update(self, current_time_ms: float, is_clear: bool): self.is_clear = is_clear self.donbg.update(current_time_ms, is_clear) self.bg_normal.update(current_time_ms) self.bg_fever.update(current_time_ms) def draw(self): self.bg_normal.draw() if self.is_clear: self.bg_fever.draw() self.footer.draw() self.donbg.draw() class DonBG: @staticmethod def create(screen_width: int, screen_height: int, index: int, player_num: int): map = [None, DonBG1, DonBG1, DonBG1, DonBG1, DonBG1, DonBG6] selected_obj = map[index] return selected_obj(index, screen_width, screen_height, player_num) class DonBGBase: def __init__(self, index: int, screen_width: int, screen_height: int, player_num: int): self.screen_width = screen_width self.screen_height = screen_height self.player_num = player_num self.name = 'donbg_a_' + str(index).zfill(2) self.textures = (load_all_textures_from_zip(Path(f'Graphics/lumendata/enso_original/{self.name}_{self.player_num}p.zip'))) self.move = Animation.create_move(3000, start_position=0, total_distance=-self.textures[self.name + f'_{self.player_num}p'][0].width) self.is_clear = False def update(self, current_time_ms: float, is_clear: bool): self.is_clear = is_clear self.move.update(current_time_ms) if self.move.is_finished: self.move.restart() class DonBG1(DonBGBase): def __init__(self, index: int, screen_width: int, screen_height: int, player_num: int): super().__init__(index, screen_width, screen_height, player_num) self.overlay_move = Animation.create_move(1000, start_position=0, total_distance=20, reverse_delay=0) def update(self, current_time_ms: float, is_clear: bool): super().update(current_time_ms, is_clear) self.overlay_move.update(current_time_ms) if self.overlay_move.is_finished: self.overlay_move.restart() def draw(self): texture_index = 0 if self.is_clear: texture_index = 2 top_texture = self.textures[self.name + f'_{self.player_num}p'][0 + texture_index] for i in range(0, self.screen_width + top_texture.width, top_texture.width): ray.draw_texture(top_texture, i + int(self.move.attribute), 0, ray.WHITE) texture = self.textures[self.name + f'_{self.player_num}p'][1 + texture_index] for i in range(0, self.screen_width + texture.width, texture.width): ray.draw_texture(texture, i + int(self.move.attribute), int(self.overlay_move.attribute) - 50, ray.WHITE) class DonBG6(DonBGBase): def __init__(self, index: int, screen_width: int, screen_height: int, player_num: int): super().__init__(index, screen_width, screen_height, player_num) self.overlay_move = Animation.create_move(1000, start_position=0, total_distance=20, reverse_delay=0) def update(self, current_time_ms: float, is_clear: bool): super().update(current_time_ms, is_clear) self.overlay_move.update(current_time_ms) if self.overlay_move.is_finished: self.overlay_move.restart() def draw(self): texture_index = 0 if self.is_clear: texture_index = 3 top_texture = self.textures[self.name + f'_{self.player_num}p'][0 + texture_index] for i in range(0, self.screen_width + top_texture.width, top_texture.width): ray.draw_texture(top_texture, i + int(self.move.attribute), 0, ray.WHITE) texture_flowers = self.textures[self.name + f'_{self.player_num}p'][1 + texture_index] for i in range(0, self.screen_width, texture_flowers.width): if i % (2 * texture_flowers.width) != 0: ray.draw_texture(texture_flowers, i + int(self.move.attribute*3) + 100, -int(self.move.attribute*0.85)-100, ray.WHITE) texture = self.textures[self.name + f'_{self.player_num}p'][2 + texture_index] for i in range(0, self.screen_width + texture.width, texture.width): ray.draw_texture(texture, i + int(self.move.attribute), int(self.overlay_move.attribute) - 50, ray.WHITE) class BGNormal: @staticmethod def create(screen_width: int, screen_height: int, index: int): map = [None, BGNormal1, BGNormal2, BGNormal3, BGNormal4, BGNormal5] selected_obj = map[index] return selected_obj(index, screen_width, screen_height) class BGNormalBase: def __init__(self, index: int, screen_width: int, screen_height: int): self.screen_width = screen_width self.screen_height = screen_height self.name = 'bg_nomal_a_' + str(index).zfill(2) self.textures = (load_all_textures_from_zip(Path(f'Graphics/lumendata/enso_original/{self.name}.zip'))) class BGNormal1(BGNormalBase): def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) self.flicker = Animation.create_fade(16.67*4, initial_opacity=0.5, final_opacity=0.4, reverse_delay=0) def update(self, current_time_ms: float): self.flicker.update(current_time_ms) if self.flicker.is_finished: self.flicker.restart() def draw(self): ray.draw_texture(self.textures[self.name][0], 0, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][1], 0, 360, ray.fade(ray.WHITE, self.flicker.attribute)) class BGNormal2(BGNormalBase): def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) self.flicker = Animation.create_fade(16.67*4, initial_opacity=0.5, final_opacity=0.4, reverse_delay=0) def update(self, current_time_ms: float): self.flicker.update(current_time_ms) if self.flicker.is_finished: self.flicker.restart() def draw(self): ray.draw_texture(self.textures[self.name][0], 0, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][1], 0, 360, ray.fade(ray.WHITE, self.flicker.attribute)) class BGNormal3(BGNormalBase): def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) self.flicker = Animation.create_fade(16.67*10, initial_opacity=0.5, final_opacity=0.4, reverse_delay=0) def update(self, current_time_ms): self.flicker.update(current_time_ms) if self.flicker.is_finished: self.flicker.restart() def draw(self): src = ray.Rectangle(0, 0, self.textures[self.name][0].width, self.textures[self.name][0].height) dest = ray.Rectangle(0, 360, self.screen_width, self.textures[self.name][0].height) ray.draw_texture_pro(self.textures[self.name][0], src, dest, ray.Vector2(0, 0), 0, ray.WHITE) ray.draw_texture(self.textures[self.name][3], (self.screen_width//2) - (self.textures[self.name][3].width//2), 360, ray.WHITE) ray.draw_texture(self.textures[self.name][6], 0, 360, ray.WHITE) src = ray.Rectangle(0, 0, -self.textures[self.name][7].width, self.textures[self.name][7].height) dest = ray.Rectangle((self.screen_width//2) - 170, 490, self.textures[self.name][7].width, self.textures[self.name][7].height) ray.draw_texture_pro(self.textures[self.name][7], src, dest, ray.Vector2(0, 0), 0, ray.WHITE) ray.draw_texture(self.textures[self.name][7], (self.screen_width//2) + 50, 490, ray.WHITE) #Orange color = ray.fade(ray.WHITE, self.flicker.attribute) ray.draw_texture(self.textures[self.name][1], (self.screen_width//2) + 180, 300, color) ray.draw_texture(self.textures[self.name][1], (self.screen_width//2) - 380, 300, color) #Red Green Orange ray.draw_texture(self.textures[self.name][2], (self.screen_width//2) - 220, 350, color) ray.draw_texture(self.textures[self.name][4], (self.screen_width//2) - 100, 350, color) ray.draw_texture(self.textures[self.name][1], (self.screen_width//2) + 10, 350, color) #Yellow ray.draw_texture(self.textures[self.name][5], (self.screen_width//2) - 220, 500, color) ray.draw_texture(self.textures[self.name][5], (self.screen_width//2) + 10, 500, color) ray.draw_texture(self.textures[self.name][9], (self.screen_width//2) - 320, 520, ray.WHITE) ray.draw_texture(self.textures[self.name][10], 100, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][11], self.screen_width - 100 - self.textures[self.name][11].width, 360, ray.WHITE) class BGNormal4(BGNormalBase): class Petal: def __init__(self): self.spawn_point = self.random_excluding_range() duration = random.randint(1400, 2000) self.move_y = Animation.create_move(duration, total_distance=360) self.move_x = Animation.create_move(duration, total_distance=random.randint(-300, 300)) def random_excluding_range(self): while True: num = random.randint(0, 1280) if num < 260 or num > 540: return num def update(self, current_time_ms): self.move_x.update(current_time_ms) self.move_y.update(current_time_ms) def draw(self, texture): ray.draw_texture(texture, self.spawn_point + int(self.move_x.attribute), 360+int(self.move_y.attribute), ray.fade(ray.WHITE, 0.75)) def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) self.flicker = Animation.create_fade(16.67*3, initial_opacity=0.5, final_opacity=0.4, reverse_delay=0) self.turtle_move = Animation.create_move(3333*2, start_position=screen_width+112, total_distance=-(screen_width+(112*4))) textures = ((0, 100, 3), (100, 200, 4), (200, 300, 5), (300, 400, 6), (400, 500, 7), (500, 600, 8)) self.turtle_change = Animation.create_texture_change(600, textures=textures) self.petals = {self.Petal(), self.Petal(), self.Petal(), self.Petal(), self.Petal()} def update(self, current_time_ms: float): self.flicker.update(current_time_ms) if self.flicker.is_finished: self.flicker.restart() self.turtle_move.update(current_time_ms) if self.turtle_move.is_finished: self.turtle_move.restart() self.turtle_change.update(current_time_ms) if self.turtle_change.is_finished: self.turtle_change.restart() for petal in self.petals: petal.update(current_time_ms) if petal.move_y.is_finished: self.petals.remove(petal) self.petals.add(self.Petal()) def draw(self): ray.draw_texture(self.textures[self.name][0], 0, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][2], self.screen_width//2 - 20, 380, ray.WHITE) ray.draw_texture(self.textures[self.name][self.turtle_change.attribute], int(self.turtle_move.attribute), 550, ray.WHITE) ray.draw_texture(self.textures[self.name][9], 0, 360, ray.WHITE) for petal in self.petals: petal.draw(self.textures[self.name][10]) class BGNormal5(BGNormalBase): def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) self.flicker = Animation.create_fade(16.67*10, initial_opacity=0.75, final_opacity=0.4, reverse_delay=0) def update(self, current_time_ms: float): self.flicker.update(current_time_ms) if self.flicker.is_finished: self.flicker.restart() def draw(self): ray.draw_texture(self.textures[self.name][0], 0, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][13], -35, 340, ray.WHITE) ray.draw_texture(self.textures[self.name][12], 103, 380, ray.WHITE) ray.draw_texture(self.textures[self.name][11], 241, 400, ray.WHITE) ray.draw_texture(self.textures[self.name][10], 380, 380, ray.WHITE) ray.draw_texture(self.textures[self.name][9], 518, 340, ray.WHITE) ray.draw_texture(self.textures[self.name][4], 657, 340, ray.WHITE) ray.draw_texture(self.textures[self.name][5], 795, 380, ray.WHITE) ray.draw_texture(self.textures[self.name][6], 934, 400, ray.WHITE) ray.draw_texture(self.textures[self.name][7], 1072, 380, ray.WHITE) ray.draw_texture(self.textures[self.name][8], 1211, 340, ray.WHITE) color = ray.fade(ray.WHITE, self.flicker.attribute) ray.draw_texture(self.textures[self.name][14], -35 - 10, 340 - 10, color) ray.draw_texture(self.textures[self.name][14], 103 - 10, 380 - 10, color) ray.draw_texture(self.textures[self.name][14], 241 - 10, 400 - 10, color) ray.draw_texture(self.textures[self.name][14], 380 - 10, 380 - 10, color) ray.draw_texture(self.textures[self.name][14], 518 - 10, 340 - 10, color) ray.draw_texture(self.textures[self.name][14], 657 - 10, 340 - 10, color) ray.draw_texture(self.textures[self.name][14], 795 - 10, 380 - 10, color) ray.draw_texture(self.textures[self.name][14], 934 - 10, 400 - 10, color) ray.draw_texture(self.textures[self.name][14], 1072 - 10, 380 - 10, color) ray.draw_texture(self.textures[self.name][14], 1211 - 10, 340 - 10, color) ray.draw_texture(self.textures[self.name][3], (self.screen_width//2) - (self.textures[self.name][3].width//2), 360+172, ray.fade(ray.WHITE, 0.75)) ray.draw_texture(self.textures[self.name][1], 50, 600, ray.fade(ray.WHITE, 0.75)) ray.draw_texture(self.textures[self.name][1], self.screen_width-50 - self.textures[self.name][2].width, 600, ray.fade(ray.WHITE, 0.75)) ray.draw_texture(self.textures[self.name][2], self.screen_width-50 - self.textures[self.name][2].width, 600, ray.WHITE) ray.draw_texture(self.textures[self.name][2], 50, 600, ray.WHITE) class BGFever: @staticmethod def create(screen_width: int, screen_height: int, index: int): map = [None, None, None, None, BGFever4] selected_obj = map[index] return selected_obj(index, screen_width, screen_height) class BGFeverBase: def __init__(self, index: int, screen_width: int, screen_height: int): self.screen_width = screen_width self.screen_height = screen_height self.name = 'bg_fever_a_' + str(index).zfill(2) self.textures = (load_all_textures_from_zip(Path(f'Graphics/lumendata/enso_original/{self.name}.zip'))) self.vertical_move = Animation.create_move(1300, start_position=0, total_distance=50, reverse_delay=0) self.horizontal_move = Animation.create_move(5000, start_position=0, total_distance=self.textures[self.name][2].width) class BGFever4(BGFeverBase): def __init__(self, index: int, screen_width: int, screen_height: int): super().__init__(index, screen_width, screen_height) def update(self, current_time_ms: float): self.vertical_move.update(current_time_ms) if self.vertical_move.is_finished: self.vertical_move.restart() self.horizontal_move.update(current_time_ms) if self.horizontal_move.is_finished: self.horizontal_move.restart() def draw(self): texture = self.textures[self.name][0] for i in range(0, self.screen_width + texture.width, texture.width): ray.draw_texture(texture, i, 360, ray.WHITE) ray.draw_texture(self.textures[self.name][1], 0, 360 + 50 - int(self.vertical_move.attribute), ray.WHITE) ray.draw_texture(self.textures[self.name][2], -int(self.horizontal_move.attribute), 360, ray.WHITE) ray.draw_texture(self.textures[self.name][2], self.textures[self.name][2].width -int(self.horizontal_move.attribute), 360, ray.WHITE) class Footer: def __init__(self, screen_width: int, screen_height: int, index: int): self.screen_width = screen_width self.screen_height = screen_height self.name = 'dodai_a_' + str(index).zfill(2) self.textures = (load_all_textures_from_zip(Path(f'Graphics/lumendata/enso_original/{self.name}.zip'))) def draw(self): ray.draw_texture(self.textures[self.name][0], 0, self.screen_height - self.textures[self.name][0].height + 20, ray.WHITE)