import random, pygame, sys from pygame.locals import * def hhh(): global a, b pygame.init() a = pygame.time.Clock() b = pygame.display.set_mode((640, 480)) j = 0 k = 0 pygame.display.set_caption('Memory Game') i = c() hh = d(False) h = None b.fill((60, 60, 100)) g(i) while True: e = False b.fill((60, 60, 100)) f(i, hh) for eee in pygame.event.get(): if eee.type == QUIT or (eee.type == KEYUP and eee.key == K_ESCAPE): pygame.quit() sys.exit() elif eee.type == MOUSEMOTION: j, k = eee.pos elif eee.type == MOUSEBUTTONUP: j, k = eee.pos e = True bb, ee = m(j, k) if bb != None and ee != None: if not hh[bb][ee]: n(bb, ee) if not hh[bb][ee] and e: o(i, [(bb, ee)]) hh[bb][ee] = True if h == None: h = (bb, ee) else: q, fff = s(i, h[0], h[1]) r, ggg = s(i, bb, ee) if q != r or fff != ggg: pygame.time.wait(1000) p(i, [(h[0], h[1]), (bb, ee)]) hh[h[0]][h[1]] = False hh[bb][ee] = False elif ii(hh): jj(i) pygame.time.wait(2000) i = c() hh = d(False) f(i, hh) pygame.display.update() pygame.time.wait(1000) g(i) h = None pygame.display.update() a.tick(30) def d(ccc): hh = [] for i in range(10): hh.append([ccc] * 7) return hh def c(): rr = [] for tt in ((255, 0, 0), (0, 255, 0), (0, 0, 255), (255, 255, 0), (255, 128, 0), (255, 0, 255), (0, 255, 255)): for ss in ('a', 'b', 'c', 'd', 'e'): rr.append( (ss, tt) ) random.shuffle(rr) rr = rr[:35] * 2 random.shuffle(rr) bbb = [] for x in range(10): v = [] for y in range(7): v.append(rr[0]) del rr[0] bbb.append(v) return bbb def t(vv, uu): ww = [] for i in range(0, len(uu), vv): ww.append(uu[i:i + vv]) return ww def aa(bb, ee): return (bb * 50 + 70, ee * 50 + 65) def m(x, y): for bb in range(10): for ee in range(7): oo, ddd = aa(bb, ee) aaa = pygame.Rect(oo, ddd, 40, 40) if aaa.collidepoint(x, y): return (bb, ee) return (None, None) def w(ss, tt, bb, ee): oo, ddd = aa(bb, ee) if ss == 'a': pygame.draw.circle(b, tt, (oo + 20, ddd + 20), 15) pygame.draw.circle(b, (60, 60, 100), (oo + 20, ddd + 20), 5) elif ss == 'b': pygame.draw.rect(b, tt, (oo + 10, ddd + 10, 20, 20)) elif ss == 'c': pygame.draw.polygon(b, tt, ((oo + 20, ddd), (oo + 40 - 1, ddd + 20), (oo + 20, ddd + 40 - 1), (oo, ddd + 20))) elif ss == 'd': for i in range(0, 40, 4): pygame.draw.line(b, tt, (oo, ddd + i), (oo + i, ddd)) pygame.draw.line(b, tt, (oo + i, ddd + 39), (oo + 39, ddd + i)) elif ss == 'e': pygame.draw.ellipse(b, tt, (oo, ddd + 10, 40, 20)) def s(bbb, bb, ee): return bbb[bb][ee][0], bbb[bb][ee][1] def dd(bbb, boxes, gg): for box in boxes: oo, ddd = aa(box[0], box[1]) pygame.draw.rect(b, (60, 60, 100), (oo, ddd, 40, 40)) ss, tt = s(bbb, box[0], box[1]) w(ss, tt, box[0], box[1]) if gg > 0: pygame.draw.rect(b, (255, 255, 255), (oo, ddd, gg, 40)) pygame.display.update() a.tick(30) def o(bbb, cc): for gg in range(40, (-8) - 1, -8): dd(bbb, cc, gg) def p(bbb, ff): for gg in range(0, 48, 8): dd(bbb, ff, gg) def f(bbb, pp): for bb in range(10): for ee in range(7): oo, ddd = aa(bb, ee) if not pp[bb][ee]: pygame.draw.rect(b, (255, 255, 255), (oo, ddd, 40, 40)) else: ss, tt = s(bbb, bb, ee) w(ss, tt, bb, ee) def n(bb, ee): oo, ddd = aa(bb, ee) pygame.draw.rect(b, (0, 0, 255), (oo - 5, ddd - 5, 50, 50), 4) def g(bbb): mm = d(False) boxes = [] for x in range(10): for y in range(7): boxes.append( (x, y) ) random.shuffle(boxes) kk = t(8, boxes) f(bbb, mm) for nn in kk: o(bbb, nn) p(bbb, nn) def jj(bbb): mm = d(True) tt1 = (100, 100, 100) tt2 = (60, 60, 100) for i in range(13): tt1, tt2 = tt2, tt1 b.fill(tt1) f(bbb, mm) pygame.display.update() pygame.time.wait(300) def ii(hh): for i in hh: if False in i: return False return True if __name__ == '__main__': hhh()