如何在碰撞后实现超时/冷却机制

import pygame from pygame.math import Vector2 import time, datetime import sys pygame.font.init() pygame.init() WIDTH = 1150 HEIGHT = 800 screen = pygame.display.set_mode((WIDTH, HEIGHT)) clock = pygame.time.Clock() REDCAR_ORIGINAL = pygame.Surface((50, 30), pygame.SRCALPHA) pygame.draw.polygon( REDCAR_ORIGINAL, (255, 0, 0), [(0, 30), (50, 20), (50, 10), (0, 0)]) redangle = 180 redcar = pygame.transform.rotate(REDCAR_ORIGINAL, redangle) redangle = 180 booster = pygame.Surface((50, 150), pygame.SRCALPHA) booster.fill((255, 255, 0)) booster1 = booster.get_rect(topleft=(0, 340)) boostermask = pygame.mask.from_surface(booster) redspeed = 5 dx = 0 dy = 0 x = 800 y = 500 redscore = 0 pos_red = Vector2(x,y) vel_red = Vector2(-redspeed,0) redrect = redcar.get_rect(center=pos_red) redangle = 180 redcar = pygame.transform.rotate(REDCAR_ORIGINAL, redangle) pos_blue = Vector2(275,300) # Masks. mask_red = pygame.mask.from_surface(redcar) def redboosts(): global vel_red global timer global dt if timer > 0: vel_red.scale_to_length(10) timer -= dt def slowdown(): vel_red.scale_to_length(5) timer = 3 dt = 1 run = True while run: for event in pygame.event.get(): if event.type == pygame.QUIT: run = False elif event.type == pygame.KEYDOWN: if event.key == pygame.K_r: # Reset the car to the start position. redangle = 180 redcar = pygame.transform.rotate(REDCAR_ORIGINAL, redangle) pos_red = Vector2(800, 500) vel_red = Vector2(-redspeed, 0) redrect = redcar.get_rect(center=pos_red) mask_red = pygame.mask.from_surface(redcar) #elif event.key == pygame.K_s: # vel_blue.scale_to_length(2) elif event.type == pygame.KEYUP: if event.key == pygame.K_UP: vel_red.scale_to_length(5) elif event.key == pygame.K_DOWN: vel_red.scale_to_length(5) print(timer) keys = pygame.key.get_pressed() if keys[pygame.K_LEFT]: redangle += 5 vel_red.rotate_ip(-5) redcar = pygame.transform.rotate(REDCAR_ORIGINAL, redangle) redrect = redcar.get_rect(center=redrect.center) # We need a new mask after the rotation. mask_red = pygame.mask.from_surface(redcar) elif keys[pygame.K_RIGHT]: redangle -= 5 vel_red.rotate_ip(5) redcar = pygame.transform.rotate(REDCAR_ORIGINAL, redangle) redrect = redcar.get_rect(center=redrect.center) mask_red = pygame.mask.from_surface(redcar) if keys[pygame.K_UP]: redboosts() if keys[pygame.K_DOWN]: vel_red.scale_to_length(2) if keys[pygame.K_s]: vel_blue.scale_to_length(2) if y <0: y = 10 if y > 450: y = 440 if x > 480: x = 470 if redrect.top < 0 and vel_red.y < 0: redrect.top = 0 pos_red = Vector2(redrect.center) elif redrect.bottom > screen.get_height() and vel_red.y > 0: redrect.bottom = screen.get_height() pos_red = Vector2(redrect.center) if redrect.left < 0 and vel_red.x < 0: redrect.left = 0 pos_red = Vector2(redrect.center) elif redrect.right > screen.get_width() and vel_red.x > 0: redrect.right = screen.get_width() pos_red = Vector2(redrect.center) pos_red += vel_red redrect.center = pos_red offset = booster1[0] - redrect[0], booster1[1] - redrect[1] collectboost = mask_red.overlap(boostermask, offset) if timer <= 0: timer = 0 vel_red.scale_to_length(5) slowdown() if collectboost: timer += 3 screen.fill((50,200,50)) screen.blit(redcar, redrect) screen.blit(booster, booster1) pygame.display.flip() dt = clock.tick(120)/1000 pygame.quit()

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1楼 · 发布于 2024-04-24 02:48:51

不错，但是让我们用一些面向对象的编程来整理一下代码。这意味着对数据结构和行为进行分组，并利用多态性。既然我们使用pygame，就让我们使用它的^{}类，但是现在我们先忽略增强功能。你知道吗

我补充了一些解释意见。你知道吗

import pygame
from pygame.math import Vector2
import time, datetime
import sys

pygame.font.init()
pygame.init()

WIDTH = 1150
HEIGHT = 800
screen = pygame.display.set_mode((WIDTH, HEIGHT))
clock = pygame.time.Clock()

REDCAR_ORIGINAL = pygame.Surface((50, 30), pygame.SRCALPHA)
pygame.draw.polygon(REDCAR_ORIGINAL, (255, 0, 0), [(0, 30), (50, 20), (50, 10), (0, 0)])

# Everything car related goes into this class
class Car(pygame.sprite.Sprite):
    def __init__(self):
        super().__init__()
        self.speed = 5
        # since we want to reset the car on a press of a button, 
        # let's have a reset function so we don't have duplicate code
        self.reset()

    def reset(self):
        self.angle = 180
        self.vel = Vector2(-self.speed, 0)
        self.update_image((800, 500))

    def update_image(self, center):
        # since we update the image, rect and mask a lot, 
        # let's do this in a function, also
        self.image = pygame.transform.rotate(REDCAR_ORIGINAL, self.angle)
        self.rect = self.image.get_rect(center=center)
        self.mask = pygame.mask.from_surface(self.image)

    def update(self):
        # basic input handling
        keys = pygame.key.get_pressed()
        if keys[pygame.K_LEFT]:
              self.angle += 5
              self.vel.rotate_ip(-5)
        elif keys[pygame.K_RIGHT]:
              self.angle -= 5
              self.vel.rotate_ip(5)

        self.update_image(self.rect.center)

        # ensure the car does not go out of screen
        self.rect.move_ip(self.vel)
        self.rect.clamp_ip(pygame.display.get_surface().get_rect())

red_car = Car()
all_sprites = pygame.sprite.Group(red_car)

run = True
while run:
    for event in pygame.event.get():
        if event.type == pygame.QUIT:
            run = False
        elif event.type == pygame.KEYDOWN:
          if event.key == pygame.K_r:
              red_car.reset()

    # clean little main loop, yeah
    all_sprites.update()

    screen.fill((50,200,50))

    all_sprites.draw(screen)

    pygame.display.flip()
    dt = clock.tick(120)/1000

pygame.quit()

现在，我们来看Boost类。因为我们使用类，所以很容易添加多个类。每个都有自己的状态；我们使用简单的减法来实现超时：

import pygame
from pygame.math import Vector2
import time, datetime
import sys
import pygame.freetype

pygame.font.init()
pygame.init()

WIDTH = 1150
HEIGHT = 800
screen = pygame.display.set_mode((WIDTH, HEIGHT))
clock = pygame.time.Clock()

REDCAR_ORIGINAL = pygame.Surface((50, 30), pygame.SRCALPHA)
pygame.draw.polygon(REDCAR_ORIGINAL, (255, 0, 0), [(0, 30), (50, 20), (50, 10), (0, 0)])

FONT = pygame.freetype.SysFont(None, 34)

# Everything car related goes into this class
class Car(pygame.sprite.Sprite):
    def __init__(self):
        super().__init__()
        self.speed = 3
        # since we want to reset the car on a press of a button, 
        # let's have a reset function so we don't have duplicate code
        self.reset()

    def reset(self):
        # if boost is > 0, we can drive faster
        self.boost = 0
        self.angle = 180
        self.vel = Vector2(-self.speed, 0)
        self.update_image((800, 500))

    def update_image(self, center):
        # since we update the image, rect and mask a lot, 
        # let's do this in a function, also
        self.image = pygame.transform.rotate(REDCAR_ORIGINAL, self.angle)
        self.rect = self.image.get_rect(center=center)
        self.mask = pygame.mask.from_surface(self.image)

    def update(self, dt):

        if self.boost > 0:
            self.boost -= dt
        if self.boost < 0:
            self.boost = 0

        # basic input handling
        keys = pygame.key.get_pressed()
        if keys[pygame.K_LEFT]:
              self.angle += 5
              self.vel.rotate_ip(-5)
        elif keys[pygame.K_RIGHT]:
              self.angle -= 5
              self.vel.rotate_ip(5)

        self.update_image(self.rect.center)

        # double the speed if we have boost
        self.rect.move_ip(self.vel * (2 if self.boost else 1))

        # ensure the car does not go out of screen
        self.rect.clamp_ip(pygame.display.get_surface().get_rect())

class Booster(pygame.sprite.Sprite):
    def __init__(self, rect, cars):
        super().__init__()
        rect = pygame.rect.Rect(rect)
        # a simple timeout. We do nothing if timeout > 0
        self.timeout = 0
        self.image = pygame.Surface(rect.size, pygame.SRCALPHA)
        self.image.fill(pygame.color.Color('yellow'))
        self.rect = rect
        self.mask = pygame.mask.from_surface(self.image)
        self.cars = cars

    def update(self, dt):
        disabled = self.timeout > 0

        if disabled:
            self.timeout -= dt
            self.image.fill(pygame.color.Color('grey'))
            FONT.render_to(self.image, (10, 10), str((self.timeout // 1000) + 1), pygame.color.Color('white'))

        if self.timeout < 0:
            self.timeout = 0

        if disabled and self.timeout == 0:
            # let's reactive
            self.image.fill(pygame.color.Color('yellow'))
        if not disabled:
            for car in pygame.sprite.spritecollide(self, self.cars, False, pygame.sprite.collide_mask):
                # let's boost the car
                car.boost += 1000
                # let's deactivate
                self.timeout = 3000
                break

red_car = Car()
cars = pygame.sprite.Group(red_car)
all_sprites = pygame.sprite.OrderedUpdates()

# see how easy it is now to create multiple Booster
for r in [(0, 340, 50, 150), (200, 200, 150, 50), (600, 600, 100, 100)]:
    all_sprites.add(Booster(r, cars))

all_sprites.add(red_car)

dt = 0
run = True
while run:
    for event in pygame.event.get():
        if event.type == pygame.QUIT:
            run = False
        elif event.type == pygame.KEYDOWN:
          if event.key == pygame.K_r:
              red_car.reset()

    # clean little main loop, yeah
    all_sprites.update(dt)

    screen.fill((50,200,50))

    all_sprites.draw(screen)

    pygame.display.flip()
    dt = clock.tick(120)

pygame.quit()

每个助推器有3秒的超时时间，它会持续1秒。你知道吗

我们使用^{}按正确的顺序绘制精灵，使用^{}和^{}进行碰撞检测。你知道吗

下面是我们正在进行的小游戏的拙劣gif：

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