0

First off, I have researched this topic on stackoverflow beforehand, but I would like more information about it so I'm asking a new question.

So basically, I've been working in Pygame 1.9.3 and I've succeeded in making a simple 2D game with graphics. I am using the Sprite class, and thus I use Group() methods often. I draw my graphics to the screen using groupName.draw(screen).

A component of my game is the ability to interact with the terrain, such as removing tiles and placing tiles. Each tile is a part of my block Sprite Group that is drawn to the screen.

However, my program begins to visibly lag as the number of block tiles increases. Here's what I have done to try to counteract the problem:

  • Used .convert_alpha() for all of my loaded images
  • Load images only once
  • Change the target FPS (using 60 atm)
  • Change my program such that the blockGroup.draw() command is ONLY called when the environment changes. Basically, if the environment changes, I redraw the blocks, screenshot my window, then blit this image until the environment changes again (this, as expected, causes lag when screenshots are taken)

However, my game continues to lag.

Naturally, if I increase the size of my block sprites (meaning how I resize them when loading their respective images), I can end up placing more blocks without lag occurring until later, since there are less sprites total, but this is not ideal for what I want to accomplish.

Furthermore, I have implemented 2 teams of NPCs who interact with this terrain. Thus, it is understandable that my program needs to check a lot of collisions in my main game loop, but nonetheless, I wasn't expecting my program to lag unless I added in a team of ~30 NPCs (I am currently working with only 10 NPCs, 5 on each team).

When my program begins to lag, I calculated the number of sprites total (adding up all the sprites in each group) to be 170.

So, finally, my question: if I plan to have a program that uses multiple sprites (multiple being ~170) at the same time, is pygame simply not cut out for the job in terms of speed?

I believe I have used good implementation practices, such as deleting sprites from their respective groups after they are removed and the brief list above.

I have had a request to provide some code, so here are some important parts that I have included.

The Main Game Loop:

# Main Game Loop
while gameRunning:
for event in pygame.event.get():
    if event.type == pygame.QUIT:
        gameRunning = False

    keys = pygame.key.get_pressed()
    if keys[LEFT_KEY]:
        player1.goLeft()

    if keys[RIGHT_KEY]:
        player1.goRight()

    if keys[JUMP_KEY]:
        player1.jump()

    if keys[DOWN_KEY]:
        player1.ducking = True

    if keys[SPRINT_KEY] and player1.movementKeyPressed:
        player1.startSprinting()

    if keys[SHOW_SCORES_KEY]:
        Screen.DISPLAY_SCORES = True

    # KEYUP EVENT
    elif event.type == pygame.KEYUP:
        if event.key == LEFT_KEY or event.key == RIGHT_KEY or event.key == SPRINT_KEY:
            player1.stopMovingX()
            player1.isSprinting = False

        if event.key == DOWN_KEY:
            player1.ducking = False

        if event.key == SHOW_SCORES_KEY:
            Screen.DISPLAY_SCORES = False

    # MOUSE
    if event.type == pygame.MOUSEBUTTONDOWN:
        # Left Click
        if event.button == ATTACK_KEY:
            player1.attack()

        # Right Click
        elif event.button == PLACE_BLOCK_KEY:
            player1.requestToPlaceBlock()

# Clear the screen
Screen.gameScreen.fill(Colors.WHITE)

# Update Sprites
EntityLists.npcGroup.update()
EntityLists.redTeamGroup.update()
EntityLists.blackTeamGroup.update()
EntityLists.corpseGroup.update()

# Update Blocks
EntityLists.blockGroup.update()

#
print(len(EntityLists.blockGroup) + len(EntityLists.redTeamGroup) + len(EntityLists.blackTeamGroup) +
      len(EntityLists.npcGroup) + len(EntityLists.wallGroup))

if Screen.takeScreenShot:
    # Blit background first
    Screen.gameScreen.blit(background, (0, 0))
    # Draw blocks and wall next
    EntityLists.wallGroup.draw(Screen.gameScreen)
    EntityLists.blockGroup.draw(Screen.gameScreen)

    # Next, take screenshot
    pygame.image.save(Screen.gameScreen, "BACKGROUND_AND_BLOCKS.png")
    backgroundAndBlocks = pygame.image.load('BACKGROUND_AND_BLOCKS.png')
    # Reset variable
    Screen.takeScreenShot = False

# Blit
Screen.gameScreen.blit(backgroundAndBlocks, (0, 0))

# Draw Entities
EntityLists.npcGroup.draw(Screen.gameScreen)
EntityLists.redTeamGroup.draw(Screen.gameScreen)
EntityLists.corpseGroup.draw(Screen.gameScreen)
EntityLists.blackTeamGroup.draw(Screen.gameScreen)

# Player names
Screen.drawNames()

# Draw Death Messages
Screen.displayDeathMessages()

# Draw scores if viable
if Screen.DISPLAY_SCORES:
    Screen.displayScores()

# Update screen
pygame.display.flip()

# FPS
clock.tick(Screen.TARGET_FPS)

pygame.quit()

Thank you so much for your time.

  • show us the code, preferably a MCVE – depperm Apr 27 '18 at 19:19
  • @depperm will do my best, one minute – Suricata Apr 27 '18 at 19:21
  • Do you make use of dirty sprites? And did you time the different aspects of the code (with, for example the time library, or just profile) to find out where the delays actually happen? – Martijn Apr 27 '18 at 19:29
  • @Martijn I had never heard about dirty sprites until now. So no, I do not use dirty sprites. As for time, no, but I do use the clock.tick() for my FPS. I will attempt to implement dirty sprites and see if that makes a difference. – Suricata Apr 27 '18 at 19:33
  • @Martijn So do I understand this correctly concerning dirty sprites? I do the following: get the return value of the draw function, then call pygame.display.update() passing in the return val as a parameter – Suricata Apr 27 '18 at 19:40

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Browse other questions tagged or ask your own question.