"蛇形平台虎隱伏"

class Bink(pygame.sprite.Sprite): """ This class represents the bar at the bottom that the player controls. """ # -- Methods def __init__(self): """ Constructor function """ # Call the parent's constructor super().__init__() # -- Attributes # Set speed vector of player self.change_x = 0 self.change_y = 0 # Set fall rate self.y_speedup = .45 # Double jump functions self.jump_no = 0 # Set the players height and length self.length = 40 self.height = 60 # Set crouching to false self.crouching = False # This holds all the images for the animated walk left/right # of our player self.walking_frames_l = [] self.walking_frames_r = [] self.standing_frames_l = [] self.standing_frames_r = [] self.jumping_frames_l = [] self.jumping_frames_r = [] self.falling_frames_l = [] self.falling_frames_r = [] self.crouching_frames_l = [] self.crouching_frames_r = [] # What direction is the player facing? self.direction = "Right" # What 'state' is the player in self.state = "Stand" # List of sprites we can bump against self.level = None sprite_sheet = SpriteSheet("player_sprite_sheet.png") # Load all the right walking images into a list image = sprite_sheet.get_image(419, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(460, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(501, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(542, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(583, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(624, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(665, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(706, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(747, 65, 40, 60) self.walking_frames_r.append(image) image = sprite_sheet.get_image(788, 65, 40, 60) self.walking_frames_r.append(image) # Load all the left walking images image = sprite_sheet.get_image(419, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(460, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(501, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(542, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(583, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(624, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(665, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(706, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(747, 0, 40, 60) self.walking_frames_l.append(image) image = sprite_sheet.get_image(788, 0, 40, 60) self.walking_frames_l.append(image) # Load all the left standing sprites image = sprite_sheet.get_image(0, 0, 40, 60) self.standing_frames_l.append(image) # Load all the right standing sprites image = sprite_sheet.get_image(419, 195, 40, 60) self.standing_frames_r.append(image) # Load all the left jumping sprites image = sprite_sheet.get_image(0, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(41, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(82, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(123, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(164, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(205, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(246, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(287, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(328, 65, 40, 60) self.jumping_frames_l.append(image) image = sprite_sheet.get_image(369, 65, 40, 60) self.jumping_frames_l.append(image) # Load all the right jumping sprites image = sprite_sheet.get_image(419, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(460, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(501, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(542, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(583, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(624, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(665, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(706, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(747, 130, 40, 60) self.jumping_frames_r.append(image) image = sprite_sheet.get_image(788, 130, 40, 60) self.jumping_frames_r.append(image) # Load all left falling sprites image = sprite_sheet.get_image(0, 130, 40, 60) self.falling_frames_l.append(image) image = sprite_sheet.get_image(41, 130, 40, 60) self.falling_frames_l.append(image) image = sprite_sheet.get_image(82, 130, 40, 60) self.falling_frames_l.append(image) image = sprite_sheet.get_image(123, 130, 40, 60) self.falling_frames_l.append(image) image = sprite_sheet.get_image(164, 130, 40, 60) self.falling_frames_l.append(image) # Load all right falling sprites image = sprite_sheet.get_image(205, 130, 40, 60) self.falling_frames_r.append(image) image = sprite_sheet.get_image(246, 130, 40, 60) self.falling_frames_r.append(image) image = sprite_sheet.get_image(287, 130, 40, 60) self.falling_frames_r.append(image) image = sprite_sheet.get_image(328, 130, 40, 60) self.falling_frames_r.append(image) image = sprite_sheet.get_image(369, 130, 40, 60) self.falling_frames_r.append(image) # Load all the left crouching sprites image = sprite_sheet.get_image(0, 195, 45, 40) self.crouching_frames_l.append(image) image = sprite_sheet.get_image(46, 195, 45, 40) self.crouching_frames_l.append(image) image = sprite_sheet.get_image(92, 195, 45, 40) self.crouching_frames_l.append(image) image = sprite_sheet.get_image(138, 195, 45, 40) self.crouching_frames_l.append(image) image = sprite_sheet.get_image(184, 195, 45, 40) self.crouching_frames_l.append(image) # Load all right crouching sprites image = sprite_sheet.get_image(0, 240, 45, 40) self.crouching_frames_r.append(image) image = sprite_sheet.get_image(46, 240, 45, 40) self.crouching_frames_r.append(image) image = sprite_sheet.get_image(92, 240, 45, 40) self.crouching_frames_r.append(image) image = sprite_sheet.get_image(138, 240, 45, 40) self.crouching_frames_r.append(image) image = sprite_sheet.get_image(184, 240, 45, 40) self.crouching_frames_r.append(image) # Set the image the player starts with self.image = self.standing_frames_r[0] # Set a reference to the image rect. self.rect = self.image.get_rect() # Build a hitbox that objects collide with self.hitbox = self.rect.inflate(0, 0) # Add or subtract to see if the player is crouching self.is_crouching = 0 def update(self): """ Move the player. """ # Gravity self.calc_grav() # Set the hitbox on top of the player self.hitbox.center = self.rect.center # Check for the direction if self.change_x < 0: self.direction = "Left" elif self.change_x > 0: self.direction = "Right" # Check for the state # See if we hit anything self.rect.y += 2 platform_hit_list = pygame.sprite.spritecollide(self, self.level.platform_list, False) self.rect.y -= 2 # If it is ok to jump, set our speed upwards if len(platform_hit_list) > 0 or self.hitbox.bottom >= SCREEN_HEIGHT and self.change_x == 0: self.state = "Stand" elif len(platform_hit_list) > 0 or self.hitbox.bottom >= SCREEN_HEIGHT and self.change_x != 0: self.state = "Walk" elif self.change_y < 0 or self.change_y < 0 and self.change_x != 0: self.state = "Jump" elif self.change_y > 0 or self.change_y > 0 and self.change_x != 0: self.state = "Fall" if self.is_crouching == 1: self.state = "Crouch" # Move left/right self.rect.x += self.change_x x_pos = self.rect.x + self.level.world_shift y_pos = self.rect.y + self.level.world_shift # "If" in 'this' state and 'this' direction use 'that' sprite list for reference if self.direction == "Right" and self.state == "Stand": frame = (x_pos // 30) % len(self.standing_frames_r) self.image = self.standing_frames_r[frame] elif self.direction == "Left" and self.state == "Stand": frame = (x_pos // 30) % len(self.standing_frames_l) self.image = self.standing_frames_l[frame] elif self.direction == "Right" and self.state == "Walk": frame = (x_pos // 30) % len(self.walking_frames_r) self.image = self.walking_frames_r[frame] elif self.direction == "Left" and self.state == "Walk": frame = (x_pos // 30) % len(self.walking_frames_l) self.image = self.walking_frames_l[frame] elif self.direction == "Right" and self.state == "Jump": frame = (y_pos // 30) % len(self.jumping_frames_r) self.image = self.jumping_frames_r[frame] elif self.direction == "Left" and self.state == "Jump": frame = (y_pos // 30) % len(self.jumping_frames_l) self.image = self.jumping_frames_l[frame] elif self.direction == "Right" and self.state == "Fall": frame = (y_pos // 30) % len(self.falling_frames_r) self.image = self.falling_frames_r[frame] elif self.direction == "Left" and self.state == "Fall": frame = (y_pos // 30) % len(self.falling_frames_l) self.image = self.falling_frames_l[frame] elif self.direction == "Right" and self.state == "Crouch": frame = (x_pos // 30) % len(self.crouching_frames_r) self.rect.inflate(5, -20) # if self.length != 40: # self.rect.inflate(0, 0) self.image = self.crouching_frames_r[frame] elif self.direction == "Left" and self.state == "Crouch": frame = (x_pos // 30) % len(self.crouching_frames_l) self.image = self.crouching_frames_l[frame] # See if we hit anything block_hit_list = pygame.sprite.spritecollide(self, self.level.platform_list, False) for block in block_hit_list: # If we are moving right, # set our right side to the left side of the item we hit if self.change_x > 0: self.rect.right = block.rect.left elif self.change_x < 0: # Otherwise if we are moving left, do the opposite. self.rect.left = block.rect.right # Move up/down self.rect.y += self.change_y # Check and see if we hit anything block_hit_list = pygame.sprite.spritecollide(self, self.level.platform_list, False) for block in block_hit_list: # Reset our position based on the top/bottom of the object. if self.change_y > 0: self.rect.bottom = block.rect.top elif self.change_y < 0: self.rect.top = block.rect.bottom # Stop our vertical movement self.change_y = 0 if isinstance(block, MovingPlatform): self.rect.x += block.change_x self.length = self.rect.right - self.rect.left print(self.length) def calc_grav(self): """ Calculate effect of gravity. """ # Import the wallslide method self.wall_slide() if self.change_y == 0: self.change_y = 1.75 else: self.change_y += .45 # See if we are on the ground. if self.rect.y >= SCREEN_HEIGHT - self.rect.height and self.change_y >= 0: self.change_y = 0 self.rect.y = SCREEN_HEIGHT - self.rect.height

1条回答

网友

1楼 · 发布于 2024-04-19 18:42:20

我决定把我的评论扩展成一个答案。你知道吗

所以程序从一个精灵表中加载了一堆精灵。让我们注意到，“标准”字符图像似乎是40 x 60像素，“蹲伏”图像是45 x 40。相差20像素（蜷缩的图像也宽5像素）

当精灵进入“蹲伏”模式时，self.state == "Crouch"，代码只会更改精灵图像。它不能解释位置的变化。如果角色“蹲伏”通过拉它的腿/轮子/触手向上，并保持同样的高度很好，这是很好的。但是如果它是传统意义上的蹲伏，则Y位置需要根据精灵图像高度的不同而增加。这是因为PyGame从左上角绘制精灵。你知道吗

问题中没有包含代码，但是无论是什么操作导致self.state更改为"Crouch"，这也需要在进入蹲伏模式时，通过20 pixels调整角色的Y位置，在返回直立形式时，通过-20 pixels调整角色的Y位置。这种差异最好在加载的图像上计算，而不是作为常量。另外，sprite rect需要重新设置，因为sprite图像大小现在不同了，需要调整碰撞框。你知道吗

我写了一些关于如何在精灵上工作的快速演示代码。它仅仅是一个螺旋弹簧-它被证明是一个像素化很差的位图，但它说明了压缩/未压缩的状态。代码的重要部分是SpringSprite.crouch()函数，它通过图像高度的差异来实现Y位置的改变。由于此代码位于精灵中心矩形上，因此更改的高度明显减半。你知道吗

向上/向下按压可压缩和松开弹簧。你知道吗

import pygame

# Window size
WINDOW_WIDTH  = 400
WINDOW_HEIGHT = 400
GREY = ( 226, 232, 233 )


### 
### Spring sprite that is either upright or compressed 
###
class SpringSprite( pygame.sprite.Sprite ):
    def __init__( self ):
        pygame.sprite.Sprite.__init__( self )
        self.upright     = pygame.image.load("spring.png").convert_alpha()            # 64 x 100
        self.compressed  = pygame.image.load("spring_compressed.png").convert_alpha() # 64 x  70
        self.image       = self.upright
        self.rect        = self.image.get_rect()
        self.rect.center = ( WINDOW_WIDTH//2, WINDOW_HEIGHT//2 )
        self.crouched    = False
        self.height_delta= ( self.upright.get_height() - self.compressed.get_height() ) // 2 # 15 pixels (centred)

    def crouch( self, crouch=True ):
        if ( self.crouched != crouch ):
            x,y = self.rect.center
            if ( crouch ):
                # We've changed from upright to crouched
                self.image = self.compressed
                y += self.height_delta # difference is centred sprite height
            else:
                # Changed from crouched back to upright
                self.image = self.upright
                y -= self.height_delta # difference is centred-sprite height
            self.crouched    = crouch;
            self.rect        = self.image.get_rect()
            self.rect.center = ( x, y )

    def update( self ):
        pass

### MAIN
# Open the window
pygame.init()
WINDOW  = pygame.display.set_mode( ( WINDOW_WIDTH, WINDOW_HEIGHT ), pygame.HWSURFACE|pygame.DOUBLEBUF|pygame.RESIZABLE )
SPRITES = pygame.sprite.Group()
pygame.display.set_caption("Coiled Spring")
# Add a sprite
spring = SpringSprite()
SPRITES.add( spring )


clock = pygame.time.Clock()
done = False
# Main loop
while not done:

    for event in pygame.event.get():
        if ( event.type == pygame.QUIT ):
            done = True
        elif ( event.type == pygame.VIDEORESIZE ):
            WINDOW_WIDTH  = event.w
            WINDOW_HEIGHT = event.h
            WINDOW  = pygame.display.set_mode( ( WINDOW_WIDTH, WINDOW_HEIGHT ), pygame.HWSURFACE|pygame.DOUBLEBUF|pygame.RESIZABLE )

    # Movement keys
    keys = pygame.key.get_pressed()
    if ( keys[pygame.K_UP] ):
        spring.crouch( False ) # Upright
    elif ( keys[pygame.K_DOWN] ):
        spring.crouch( True )  # Compressed

    WINDOW.fill( GREY )
    SPRITES.draw( WINDOW )
    pygame.display.update()
    pygame.display.flip()
    clock.tick_busy_loop(60)

pygame.quit()

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