"Zou Si Er" kebanyakannya aktif di Jinan, Liaocheng, Heze dan tempat-tempat lain di Wilayah Shandong Ia adalah permainan catur, terutamanya sesuai untuk dicuba oleh kanak-kanak.
Pada papan catur 4×4, setiap sisi mempunyai 4 keping, yang diletakkan di empat kedudukan pada dua garisan hujung atas papan catur. Gambar di bawah
ialah rupa permainan "Go Four" pada mulanya.
Peraturan permainan "Go Four" ialah:
1. Kedua-dua belah pihak bergilir-gilir untuk bergerak, dan setiap langkah hanya boleh menggerakkan satu petak dalam salah satu arah atas, bawah, kiri dan kanan, dan tidak boleh bergerak secara menyerong. Jika satu pihak tidak boleh bergerak, pihak yang lain pergi.
2. Apabila salah satu keping Parti A bergerak ke satu baris, hanya terdapat dua keping Parti A dan satu keping Pihak B pada baris ini, dan dua keping Pihak A disambungkan, dan kepingan Pihak B disambungkan ke satu daripada dua keping Pihak A . Jika kepingan itu disambung, maka kepingan Parti B akan dimakan.
Gambar di bawah adalah contoh gaya yang boleh ditangkap:
3. Bahagian yang kurang daripada 2 keping adalah yang kalah. Jika kedua-dua pihak tidak dapat mengalahkan pihak lain, ia boleh dianggap seri.
1) Bahan (gambar)
2) Persekitaran berjalan Persekitaran yang digunakan oleh editor: Python3, Pycharm Versi komuniti, Pygame dan modul numpy disertakan jadi saya tidak akan menunjukkannya satu per satu.
Pemasangan modul: pemasangan pip -i https://pypi.douban.com/simple/+nama modul
import pygame as pg from pygame.locals import * import sys import time import numpy as np pg.init() size = width, height = 600, 400 screen = pg.display.set_mode(size) f_clock = pg.time.Clock() fps = 30 pg.display.set_caption("走四棋儿") background = pg.image.load("background.png").convert_alpha() glb_pos = [[(90, 40), (190, 40), (290, 40), (390, 40)], [(90, 140), (190, 140), (290, 140), (390, 140)], [(90, 240), (190, 240), (290, 240), (390, 240)], [(90, 340), (190, 340), (290, 340), (390, 340)]] class ChessPieces(): def __init__(self, img_name): self.name = img_name self.id = None if self.name == 'heart': self.id = 2 elif self.name == 'spade': self.id = 3 self.img = pg.image.load(img_name + ".png").convert_alpha() self.rect = self.img.get_rect() self.pos_x, self.pos_y = 0, 0 self.alive_state = True def get_rect(self): return (self.rect[0], self.rect[1]) def get_pos(self): return (self.pos_x, self.pos_y) def update(self): if self.alive_state == True: self.rect[0] = glb_pos[self.pos_y][self.pos_x][0] self.rect[1] = glb_pos[self.pos_y][self.pos_x][1] screen.blit(self.img, self.rect) class Pointer(): def __init__(self): self.img = pg.image.load("pointer.png").convert_alpha() self.rect = self.img.get_rect() self.show = False self.selecting_item = False def point_to(self, Heart_Blade_class): if Heart_Blade_class.alive_state: self.pointing_to_item = Heart_Blade_class self.item_pos = Heart_Blade_class.get_rect() self.rect[0], self.rect[1] = self.item_pos[0], self.item_pos[1] - 24 def update(self): screen.blit(self.img, self.rect) class GlobalSituation(): def __init__(self): self.glb_situation = np.array([[2, 2, 2, 2], [0, 0, 0, 0], [0, 0, 0, 0], [3, 3, 3, 3]], dtype=np.uint8) self.spade_turn = None def refresh_situation(self): self.glb_situation = np.zeros([4, 4], np.uint8) for i in range(4): if heart[i].alive_state: self.glb_situation[heart[i].pos_y, heart[i].pos_x] = heart[i].id for i in range(4): if spade[i].alive_state: self.glb_situation[spade[i].pos_y, spade[i].pos_x] = spade[i].id for i in range(4): print(self.glb_situation[i][:]) print('=' * 12) if self.spade_turn != None: self.spade_turn = not self.spade_turn def check_situation(self, moved_item): curr_pos_x, curr_pos_y = moved_item.get_pos() curr_pos_col = self.glb_situation[:, curr_pos_x] curr_pos_raw = self.glb_situation[curr_pos_y, :] enemy_die = False if moved_item.id == 2: if np.sum(curr_pos_col) == 7: if (curr_pos_col == np.array([0, 2, 2, 3])).all(): enemy_die = True self.glb_situation[3, curr_pos_x] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == curr_pos_x and spade_i.pos_y == 3: spade_i.alive_state = False elif (curr_pos_col == np.array([2, 2, 3, 0])).all(): enemy_die = True self.glb_situation[2, curr_pos_x] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == curr_pos_x and spade_i.pos_y == 2: spade_i.alive_state = False elif (curr_pos_col == np.array([0, 3, 2, 2])).all(): enemy_die = True self.glb_situation[1, curr_pos_x] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == curr_pos_x and spade_i.pos_y == 1: spade_i.alive_state = False elif (curr_pos_col == np.array([3, 2, 2, 0])).all(): enemy_die = True self.glb_situation[0, curr_pos_x] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == curr_pos_x and spade_i.pos_y == 0: spade_i.alive_state = False if np.sum(curr_pos_raw) == 7: if (curr_pos_raw == np.array([0, 2, 2, 3])).all(): enemy_die = True self.glb_situation[curr_pos_y, 3] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == 3 and spade_i.pos_y == curr_pos_y: spade_i.alive_state = False elif (curr_pos_raw == np.array([2, 2, 3, 0])).all(): enemy_die = True self.glb_situation[curr_pos_y, 2] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == 2 and spade_i.pos_y == curr_pos_y: spade_i.alive_state = False elif (curr_pos_raw == np.array([0, 3, 2, 2])).all(): enemy_die = True self.glb_situation[curr_pos_y, 1] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == 1 and spade_i.pos_y == curr_pos_y: spade_i.alive_state = False elif (curr_pos_raw == np.array([3, 2, 2, 0])).all(): enemy_die = True self.glb_situation[curr_pos_y, 0] = 0 for spade_i in spade: if spade_i.alive_state and spade_i.pos_x == 0 and spade_i.pos_y == curr_pos_y: spade_i.alive_state = False elif moved_item.id == 3: if np.sum(curr_pos_col) == 8: if (curr_pos_col == np.array([0, 3, 3, 2])).all(): enemy_die = True self.glb_situation[3, curr_pos_x] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == curr_pos_x and heart_i.pos_y == 3: heart_i.alive_state = False elif (curr_pos_col == np.array([3, 3, 2, 0])).all(): enemy_die = True self.glb_situation[2, curr_pos_x] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == curr_pos_x and heart_i.pos_y == 2: heart_i.alive_state = False elif (curr_pos_col == np.array([0, 2, 3, 3])).all(): enemy_die = True self.glb_situation[1, curr_pos_x] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == curr_pos_x and heart_i.pos_y == 1: heart_i.alive_state = False elif (curr_pos_col == np.array([2, 3, 3, 0])).all(): enemy_die = True self.glb_situation[0, curr_pos_x] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == curr_pos_x and heart_i.pos_y == 0: heart_i.alive_state = False if np.sum(curr_pos_raw) == 8: if (curr_pos_raw == np.array([0, 3, 3, 2])).all(): enemy_die = True self.glb_situation[curr_pos_y, 3] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == 3 and heart_i.pos_y == curr_pos_y: heart_i.alive_state = False elif (curr_pos_raw == np.array([3, 3, 2, 0])).all(): enemy_die = True self.glb_situation[curr_pos_y, 2] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == 2 and heart_i.pos_y == curr_pos_y: heart_i.alive_state = False elif (curr_pos_raw == np.array([0, 2, 3, 3])).all(): enemy_die = True self.glb_situation[curr_pos_y, 1] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == 1 and heart_i.pos_y == curr_pos_y: heart_i.alive_state = False elif (curr_pos_raw == np.array([2, 3, 3, 0])).all(): enemy_die = True self.glb_situation[curr_pos_y, 0] = 0 for heart_i in heart: if heart_i.alive_state and heart_i.pos_x == 0 and heart_i.pos_y == curr_pos_y: heart_i.alive_state = False if enemy_die == True: self.glb_situation = np.zeros([4, 4], np.uint8) for i in range(4): if heart[i].alive_state: self.glb_situation[heart[i].pos_y, heart[i].pos_x] = heart[i].id for i in range(4): if spade[i].alive_state: self.glb_situation[spade[i].pos_y, spade[i].pos_x] = spade[i].id for i in range(4): print(self.glb_situation[i][:]) print('=' * 12) def check_game_over(self): heart_alive_num, spade_alive_num = 0, 0 for heart_i in heart: if heart_i.alive_state: heart_alive_num += 1 for spade_i in spade: if spade_i.alive_state: spade_alive_num += 1 if heart_alive_num <= 1: print('Spades win!') GlobalSituation.__init__(self) Pointer.__init__(self) chess_pieces_init() if spade_alive_num <= 1: print('Hearts win!') GlobalSituation.__init__(self) Pointer.__init__(self) chess_pieces_init() heart, spade = [None] * 4, [None] * 4 for i in range(4): heart[i] = ChessPieces('heart') spade[i] = ChessPieces('spade') def chess_pieces_init(): for i in range(4): heart[i].pos_y, heart[i].pos_x = 0, i spade[i].pos_y, spade[i].pos_x = 3, i heart[i].alive_state = True spade[i].alive_state = True chess_pieces_init() pointer = Pointer() situation = GlobalSituation() def check_click_item(c_x, c_y): selected_item = None if situation.spade_turn==None: for heart_i in heart: if heart_i.alive_state and heart_i.rect.collidepoint(c_x, c_y): situation.spade_turn = False selected_item = heart_i for spade_i in spade: if spade_i.alive_state and spade_i.rect.collidepoint(c_x, c_y): situation.spade_turn = True selected_item = spade_i else: if situation.spade_turn: for spade_i in spade: if spade_i.alive_state and spade_i.rect.collidepoint(c_x, c_y): selected_item = spade_i else: for heart_i in heart: if heart_i.alive_state and heart_i.rect.collidepoint(c_x, c_y): selected_item = heart_i return selected_item def move_to_dst_pos(selected_item, c_x, c_y): update_situation = False enemy_exist = False if selected_item.name == 'heart': for spade_i in spade: if spade_i.rect.collidepoint(c_x, c_y) and spade_i.alive_state: enemy_exist = True elif selected_item.name == 'spade': for heart_i in heart: if heart_i.rect.collidepoint(c_x, c_y) and heart_i.alive_state: enemy_exist = True if enemy_exist == False: delta_y, delta_x = c_y - selected_item.rect[1], c_x - selected_item.rect[0] if 80 <= abs(delta_x) <= 120 and abs(delta_y) <= 20: if delta_x < 0: if selected_item.pos_x > 0: selected_item.pos_x -= 1 else: if selected_item.pos_x < 3: selected_item.pos_x += 1 update_situation = True if 80 <= abs(delta_y) <= 120 and abs(delta_x) <= 20: if delta_y < 0: if selected_item.pos_y > 0: selected_item.pos_y -= 1 else: if selected_item.pos_y < 3: selected_item.pos_y += 1 update_situation = True return update_situation while True: for event in pg.event.get(): if event.type == pg.QUIT: sys.exit() elif event.type == pg.MOUSEBUTTONDOWN: cursor_x, cursor_y = pg.mouse.get_pos() clicked_item = check_click_item(cursor_x, cursor_y) if clicked_item != None: pointer.selecting_item = True pointer.point_to(clicked_item) else: if pointer.selecting_item: update_situation_flag = move_to_dst_pos(pointer.pointing_to_item, cursor_x, cursor_y) if update_situation_flag: situation.refresh_situation() situation.check_situation(pointer.pointing_to_item) situation.check_game_over() pointer.selecting_item = False screen.blit(background, (0, 0)) for heart_i in heart: heart_i.update() for spade_i in spade: spade_i.update() if pointer.selecting_item: pointer.update() f_clock.tick(fps) pg.display.update()
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