I'm trying to simulate basic collision between a player sprite and wall sprite group. Player-wall collisions are detected using a separate function (several functions are stored in a separate library: 'game_functions.py', which are all displayed in detail and are commented out).

The program loops through all walls in the group, and if there is a collision, check for which side of the player sprite has collided with the corresponding wall side.

During a collision, the program seems to check for collisions based on all the walls in the group. I'd like to know how to only address the walls being touched.

I've tried assigning labels to each wall in the group, but the problem remains (and it may be tedious to do this with a large number of walls).

I'm still new to pygame and this website, so any help is appreciated!

import pygame
import sys
from pygame.sprite import Sprite, Group
from settings import Settings
import game_functions as gf

# I'M TRYING TO SIMULATE BASIC COLLISIONS BETWEEN PLAYER AND WALL SPRITES

# ALL LARGE COMMENTED BLOCKS REPRESENT CODE FROM "GAME_FUNCTION"S FILE
# IF NEEDED I CAN SHOW THE OTHER FUNCTIONS IN GREATER DETAIL

class Wall(Sprite):
    """Creates basic walls for wall_demo.py"""
    def __init__(self, ai_settings, screen,x=0, y=0, width=64, height=64):
        super(Wall, self).__init__()
        self.ai_settings = ai_settings
        self.screen = screen
        self.screen_rect = self.screen.get_rect()

        # Create rect and set position
        self.rect = pygame.Rect(x, y, width, height)

    def draw_wall(self):
        """Draw wall to screen"""
        pygame.draw.rect(self.screen, self.ai_settings.wall_color, self.rect)

class Player(Sprite):
    """Represents player sprite for wall_demo.py"""
    def __init__(self, ai_settings, screen):
        super(Player, self).__init__()
        self.ai_settings = ai_settings
        self.screen = screen
        self.screen_rect = self.screen.get_rect()

        # Create rect and set position
        self.rect = pygame.Rect(0, 0, ai_settings.player_width,
                                ai_settings.player_height)
        self.rect.center = self.screen_rect.center

        # Convert rect position to float
        self.centerx = float(self.rect.centerx)
        self.centery = float(self.rect.centery)

        # Set flags for movement and acceleration
        self.moving_up = False
        self.moving_down = False
        self.moving_left = False
        self.moving_right = False

        self.accelerate = False
        self.speedx = self.ai_settings.player_speed
        self.speedy = self.ai_settings.player_speed

    def update(self):
        """Move player based on movement flags"""
        # Set player speed
        if self.accelerate:
            self.speedx = self.ai_settings.player_accelerate
            self.speedy = self.ai_settings.player_accelerate
        else:
            self.speedx = self.ai_settings.player_speed
            self.speedy = self.ai_settings.player_speed

        # Move across x and y axis
        if self.moving_up and self.rect.top > 0:
            self.centery -= self.speedy
        if self.moving_down and self.rect.bottom < self.screen_rect.bottom:
            self.centery += self.speedy
        if self.moving_left and self.rect.left > 0:
            self.centerx -= self.speedx
        if self.moving_right and self.rect.right < self.screen_rect.right:
            self.centerx += self.speedx

        # Convert rect back to int
        self.rect.centerx = self.centerx
        self.rect.centery = self.centery

    def draw_player(self):
        """Draw player to screen"""
        pygame.draw.rect(self.screen, self.ai_settings.player_color, self.rect)



def main():
    pygame.init()
    ai_settings = Settings()

    screen = pygame.display.set_mode((ai_settings.screen_width,
                                      ai_settings.screen_height))
    player = Player(ai_settings, screen)
    walls = gf.make_border(ai_settings, screen)
    """
    def make_border(ai_settings, screen):
        '''Creates a border of walls around screen'''
        # Top wall
        wall_top = Wall(ai_settings, screen, width=ai_settings.screen_width,
                        height=16)
        # Bottom wall
        wall_bottom = Wall(ai_settings, screen, width=ai_settings.screen_width,
                           height = 16)
        wall_bottom.rect.bottom = wall_bottom.screen_rect.bottom
        # Left wall
        wall_left = Wall(ai_settings, screen, width=16,
                         height=ai_settings.screen_height)
        # Right wall
        wall_right = Wall(ai_settings, screen, width=16,
                          height=ai_settings.screen_height)
        wall_right.rect.right = wall_right.screen_rect.right

        walls = Group(wall_top, wall_bottom, wall_left, wall_right)

        return walls
    """

    clock = pygame.time.Clock()
    while True:
        clock.tick(60)

        gf.check_events(player)
        """
        def check_events(player)
            for event in pygame.event.get():
                if event.type == pygame.QUIT:
                    sys.exit()

                elif event.type == pygame.KEYDOWN:
                    if event.key == pygame.K_ESCAPE:
                        sys.exit()
                    elif event.key == pygame.K_LSHIFT:
                        player.accelerate = True
                    elif event.key == pygame.K_UP:
                        player.moving_up = True
                    elif event.key == pygame.K_DOWN:
                        player.moving_down = True
                    elif event.key == pygame.K_LEFT:
                        player.moving_left = True
                    elif event.key == pygame.K_RIGHT:
                        player.moving_right = True

                elif event.type == pygame.KEYUP:
                    if event.key == pygame.K_UP:
                        player.moving_up = False
                    elif event.key == pygame.K_LSHIFT:
                        player.accelerate = False
                    elif event.key == pygame.K_DOWN:
                        player.moving_down = False
                    elif event.key == pygame.K_LEFT:
                        player.moving_left = False
                    elif event.key == pygame.K_RIGHT:
                        player.moving_right = False
        """
        gf.player_wall_collide(player, walls)
        """

        def player_wall_collide(player, walls):                   
            ''' Respond to collisions between
                player and walls'''
            for wall in walls:
                if pygame.sprite.spritecollide(player, walls, False):
                    print("HIT")
                    if player.rect.top <= wall.rect.bottom:
                        player.rect.top = wall.rect.bottom

                    if player.rect.bottom >= wall.rect.top:
                        player.rect.bottom = wall.rect.top

                    if player.rect.left <= wall.rect.right:
                        player.rect.left = wall.rect.right

                    if player.rect.right >= wall.rect.left:
                        player.rect.right = wall.rect.left
        """
        player.update()

        gf.update_screen(ai_settings, screen, player, walls)

main()
  • Welcome to Stack Overflow. Please read the minimal, complete and verifiable example page. We like examples that we can copy, paste and run without any modifications. – skrx Dec 5 at 5:00
  • Looping through all walls in the group is the default way to do this. If you have performance problems, you can look into spatial partitioning. – skrx Dec 5 at 5:08
  • Take a look at this question. While the question is on another topic, you may want to look at the collision handling that is used (the code itself is copy/pasted from a blog post that I can no longer find). – sloth Dec 5 at 12:15

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