# Why are my balls sticking together? [closed]

I'm making a clone of Ballz, a mobile game where you have to shoot a whole bunch of balls at blocks that break after multiple hits. It's like BrickBreaker on steroids. I've got it working mostly, but I can't figure out how to shoot the balls one after another. I know from testing that at the time of shooting, the balls are at different places, but immediately after that they occupy the same space.

Oh btw, the way that I'm keeping them separate is by making the balls go further back outside of the screen. So you can imagine it like setting them all up one behind the other, off screen, below the bottom of the player.

Here's my code:

``````import pygame
import math
import random
from vector import *

backgroundColor = (0, 0, 0)
ballColor = (255, 255, 255)

sizeOfOneBlock = 50.0
realDimension = 600.0
blockNumberInLine = int(realDimension/sizeOfOneBlock)
size = [int(realDimension), int(realDimension)]

# eg. probability(1/3)
def probability(chance):
return random.random() <= chance

def abs(x):
if x>=0:
return x
else:
return -x

# the classes used:
# Block, BlockHandler, Ball, Player

class Block():
def __init__(self, strength, i, j):
self.strength = strength
# i and j are numbers between 0 and blockNumberInLine-1
self.i, self.j = i, j
self.refreshStats()

def refreshStats(self):
self.color = (100, 224, 89)

def display(self, Surface):
pygame.draw.rect(Surface, (0, 0, 255), (self.i*sizeOfOneBlock, self.j*sizeOfOneBlock, sizeOfOneBlock, sizeOfOneBlock), 0)

class BlockHandler():
def __init__(self):
self.blockList = []
self.blockPositions = []

def resetPositionArray(self):
self.blockPositions = []
for block in self.blockList:
self.blockPositions.append([block.i*sizeOfOneBlock, block.j*sizeOfOneBlock])

# move every existing block down
for block in self.blockList:
block.j += 1
for i in range(blockNumberInLine):
if probability(1/3):
# gameLevel determines the strength of the block
self.blockList.append(Block(gameLevel, i, 0))
# after all blocks are loaded, do this
self.resetPositionArray()

def displayBlocks(self, Surface):
for block in self.blockList:
block.display(Surface)

class Ball():
def __init__(self, posVector, moveVector):
self.posVector = posVector
self.moveVector = moveVector
self.x = int(self.posVector.x)
self.y = int(self.posVector.y)

def move(self):
self.x = int(self.posVector.x)
self.y = int(self.posVector.y)

def display(self, Surface):

def changeDirection(self, tuple):
# east
if tuple[0]>0:
self.moveVector.x = abs(self.moveVector.x)
# west
if tuple[0]<0:
self.moveVector.x = -abs(self.moveVector.x)
# south
if tuple[1]>0:
self.moveVector.y = abs(self.moveVector.y)
# north
if tuple[1]<0:
self.moveVector.y = -abs(self.moveVector.y)

def collisionDetect(self, blockX, blockY, blockSize, circleX, circleY, circleRadius):
xDeflect, yDeflect = 0, 0

# if in the same column
if (circleX>=blockX) and (circleX<=(blockX+blockSize)):
# if touching block from above or below
distance = circleY-(blockY+0.5*blockSize)
# either 1 or -1
if distance!=0:
yDeflect = distance/abs(distance)
# if in the same row
if (circleY>=blockY) and (circleY<=(blockY+blockSize)):
# if touching block from left or right
distance = circleX-(blockX+0.5*blockSize)
if distance!=0:
xDeflect = distance/abs(distance)

return [xDeflect, yDeflect]

def checkForCollisions(self, blockPositions):
# walls
# east
self.changeDirection([1,0])
# west
self.changeDirection([-1,0])
# south
self.changeDirection([0,1])

# blocks
for pos in blockPositions:
collision = self.collisionDetect(pos[0], pos[1], sizeOfOneBlock, self.x, self.y, self.radius)
self.changeDirection(collision)

class Player():
def __init__(self, posVector):
self.posVector = posVector
self.x = int(self.posVector.x)
self.y = int(self.posVector.y)

self.level = 1
self.numberOfBalls = 3
self.balls = []

def resetBalls(self):
self.balls = []
for j in range(self.numberOfBalls):
self.balls.append(Ball(self.posVector, moveVector=Vector(0.0, 0.0)))
# print(ball)

def placeBalls(self, separateVector):
# self.resetBalls()
for j in range(len(self.balls)):
ball = self.balls[j]
for i in range(j):
ball.posVector.subtract(separateVector)

def display(self, Surface):
# possibly change color
pygame.draw.circle(Surface, ballColor, (self.x, self.y), 20)

def displayBalls(self, Surface):
for ball in self.balls:
ball.display(Surface)

def updateBalls(self, blockHandler):
for ball in self.balls:
ball.move()
ball.checkForCollisions(blockPositions=blockHandler.blockPositions)

def main():
pygame.init()
screen = pygame.display.set_mode(size)
pygame.display.set_caption("Ballz")
done = False
clock = pygame.time.Clock()

blockHandler = BlockHandler()

playerPosition = Vector(realDimension/2, realDimension-10)
player = Player(posVector=playerPosition)
player.resetBalls()

# -------- Main Program Loop -----------
while not done:
for event in pygame.event.get():
if event.type == pygame.QUIT:
done = True

if event.type == pygame.KEYDOWN:
# JFF
if event.key == pygame.K_w:

# for debugging
if event.key == pygame.K_d:
for ball in player.balls:
print(ball.posVector.x, ball.posVector.y)
print(ball.moveVector.x, ball.moveVector.y)
print("")
if event.key == pygame.K_r:
player.resetBalls()

if event.type == pygame.MOUSEBUTTONUP:
mousePos = pygame.mouse.get_pos()
player.shootVector = Vector(mousePos[0]-player.x, mousePos[1]-player.y).shortenTo(1)

for ball in player.balls:
for i in range(player.balls.index(ball)*10):
ball.posVector.subtract(player.shootVector)
ball.moveVector = player.shootVector

# test
print(ball.posVector.x, ball.posVector.y)
print(ball.moveVector.x, ball.moveVector.y)
print("")

# LOGIC
player.updateBalls(blockHandler)

# DRAW
screen.fill(backgroundColor)

blockHandler.displayBlocks(screen)
player.displayBalls(screen)
player.display(screen)

pygame.display.flip()
# 60 frames per second
clock.tick(60)

pygame.quit()

if __name__ == "__main__":
main()
``````

Edit: Forgot to add the vector class.

``````class Vector():
def __init__(self, x=0, y=0):
self.x, self.y = x, y

def magnitude(self):
return ((self.x)**2 + (self.y)**2)**0.5

magnitude = self.magnitude()
unitX = self.x/magnitude
unitY = self.y/magnitude

def subtract(self, subtractedVector):
self.x -= subtractedVector.x
self.y -= subtractedVector.y

def printCoordinates(self):
print(self.x, self.y)
``````

## closed as too broad by melpomene, Andrew Medico, meagar♦Jun 12 '18 at 19:48

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

• after a cursory glance over far to much code to make this a good question for SO and a minimal verifyable complete example : shouldn't `ball.posVector.subtract(separateVector)` (in `def placeBalls(self, separateVector)`) be multiplied by `j` so the balls do not clump? – Patrick Artner Jun 9 '18 at 11:15
• Didn't work unfortunately. – Shiv Bhatia Jun 9 '18 at 11:32

Sorry, no reproduction, your balls are fine:

No, but the problem you have is with mutable objects. When you set

``````ball.moveVector = player.shootVector
``````

you set all `moveVector`'s to the same object, so every collision detection will change the direction of all balls simultaneosly. Simplest fix:

``````ball.moveVector = player.shootVector + Vector(x=0, y=0)
``````

### EDIT

I used a different `vector` module, in your case you can either use `copy.copy` or create a custom `__add__` method:

``````def __add__(self, other):
if not isinstance(other, Vector)
raise ValueError
return Vector(self.x+other.x, self.y+other.y)
``````

(This comes inside the `Vector` class, likewise for subtraction and mult.)

### END EDIT

Also there are some problems with the way you reset when the balls leave the image and you should prevent the player from clicking again until the balls are reset, but I guess that comes in later development.

### Appendix

Note: I'm working in Python 3 and either I installed a different `vector` module, or they changed a lot, so had to change some syntax there as well. Hope it helps :)

``````import pygame
import math
import random
from vector import *

backgroundColor = (0, 0, 0)
ballColor = (255, 255, 255)

sizeOfOneBlock = 50.0
realDimension = 600.0
blockNumberInLine = int(realDimension/sizeOfOneBlock)
size = [int(realDimension), int(realDimension)]

# eg. probability(1/3)
def probability(chance):
return random.random() <= chance

def abs(x):
if x>=0:
return x
else:
return -x

# the classes used:
# Block, BlockHandler, Ball, Player

class Block():
def __init__(self, strength, i, j):
self.strength = strength
# i and j are numbers between 0 and blockNumberInLine-1
self.i, self.j = i, j
self.refreshStats()

def refreshStats(self):
self.color = (100, 224, 89)

def display(self, Surface):
pygame.draw.rect(Surface, (0, 0, 255), (self.i*sizeOfOneBlock, self.j*sizeOfOneBlock, sizeOfOneBlock, sizeOfOneBlock), 0)

class BlockHandler():
def __init__(self):
self.blockList = []
self.blockPositions = []

def resetPositionArray(self):
self.blockPositions = []
for block in self.blockList:
self.blockPositions.append([block.i*sizeOfOneBlock, block.j*sizeOfOneBlock])

# move every existing block down
for block in self.blockList:
block.j += 1
for i in range(blockNumberInLine):
if probability(1/3):
# gameLevel determines the strength of the block
self.blockList.append(Block(gameLevel, i, 0))
# after all blocks are loaded, do this
self.resetPositionArray()

def displayBlocks(self, Surface):
for block in self.blockList:
block.display(Surface)

class Ball():
def __init__(self, posVector, moveVector):
self.posVector = posVector
self.moveVector = moveVector
self.x = int(self.posVector['x'])
self.y = int(self.posVector['y'])

def move(self):
self.posVector += self.moveVector
self.x = int(self.posVector['x'])
self.y = int(self.posVector['y'])

def display(self, Surface):

def changeDirection(self, tuple):
# east
if tuple[0]>0:
self.moveVector['x'] = abs(self.moveVector['x'])
# west
if tuple[0]<0:
self.moveVector['x'] = -abs(self.moveVector['x'])
# south
if tuple[1]>0:
self.moveVector['y'] = abs(self.moveVector['y'])
# north
if tuple[1]<0:
self.moveVector['y'] = -abs(self.moveVector['y'])

def collisionDetect(self, blockX, blockY, blockSize, circleX, circleY, circleRadius):
xDeflect, yDeflect = 0, 0

# if in the same column
if (circleX>=blockX) and (circleX<=(blockX+blockSize)):
# if touching block from above or below
distance = circleY-(blockY+0.5*blockSize)
# either 1 or -1
if distance!=0:
yDeflect = distance/abs(distance)
# if in the same row
if (circleY>=blockY) and (circleY<=(blockY+blockSize)):
# if touching block from left or right
distance = circleX-(blockX+0.5*blockSize)
if distance!=0:
xDeflect = distance/abs(distance)

return [xDeflect, yDeflect]

def checkForCollisions(self, blockPositions):
# walls
# east
self.changeDirection([1,0])
# west
self.changeDirection([-1,0])
# south
self.changeDirection([0,1])

# blocks
for pos in blockPositions:
collision = self.collisionDetect(pos[0], pos[1], sizeOfOneBlock, self.x, self.y, self.radius)
self.changeDirection(collision)

class Player():
def __init__(self, posVector):
self.posVector = posVector
self.x = int(self.posVector['x'])
self.y = int(self.posVector['y'])

self.level = 1
self.numberOfBalls = 3
self.balls = []

def resetBalls(self):
self.balls = []
for j in range(self.numberOfBalls):

x = Vector(x=j, y=j) - Vector(x=j, y=j)
self.balls.append(Ball(self.posVector, x))
# print(ball)

def placeBalls(self, separateVector):
# self.resetBalls()
for j in range(len(self.balls)):
ball = self.balls[j]
for i in range(j):
ball.posVector -= separateVector

def display(self, Surface):
# possibly change color
pygame.draw.circle(Surface, ballColor, (self.x, self.y), 20)

def displayBalls(self, Surface):
for ball in self.balls:
ball.display(Surface)

def updateBalls(self, blockHandler):

for ball in self.balls:

ball.move()

ball.checkForCollisions(blockPositions=blockHandler.blockPositions)

def main():
pygame.init()
screen = pygame.display.set_mode(size)
pygame.display.set_caption("Ballz")
done = False
clock = pygame.time.Clock()

blockHandler = BlockHandler()

playerPosition = Vector(x=realDimension/2, y=realDimension-10)
player = Player(posVector=playerPosition)
player.resetBalls()

# -------- Main Program Loop -----------
while not done:
for event in pygame.event.get():
if event.type == pygame.QUIT:
done = True

if event.type == pygame.KEYDOWN:
# JFF
if event.rrrr == pygame.K_w:

# for debugging
if event.key == pygame.K_d:
for ball in player.balls:
print(ball.posVector['x'], ball.posVector['y'])
print(ball.moveVector['x'], ball.moveVector['y'])
print("")
if event.key == pygame.K_r:
player.resetBalls()

if event.type == pygame.MOUSEBUTTONUP:
mousePos = pygame.mouse.get_pos()
player.shootVector = Vector(x=mousePos[0]-player.x, y=mousePos[1]-player.y) / ((mousePos[0]-player.x)**2 + (mousePos[1]-player.y))**.5

for ball in player.balls:
for i in range(player.balls.index(ball)*10):
ball.posVector -= player.shootVector
ball.moveVector = player.shootVector + Vector(x=0, y=0)

# test
print(ball.posVector['x'], ball.posVector['y'])
print(ball.moveVector['x'], ball.moveVector['y'])
print("")

# LOGIC
player.updateBalls(blockHandler)

# DRAW
screen.fill(backgroundColor)

blockHandler.displayBlocks(screen)
player.displayBalls(screen)
player.display(screen)

pygame.display.flip()
# 60 frames per second
clock.tick(60)
main()
``````
• Hey so I can't seem to make it work, could you post all the code that you've written? – Shiv Bhatia Jun 9 '18 at 13:37
• Of course, here you go :) – Snow bunting Jun 9 '18 at 15:51
• Ooh, so I assumed you installed `vector` using pip... – Snow bunting Jun 9 '18 at 15:54
• Added a fix above in case you want to stick to your custom `Vector`, which I suppose is more fun for learners than using pre-implemented stuff, so feel free to do so! – Snow bunting Jun 9 '18 at 16:03

Since you're passing the player's `self.posVector` to the ball instances and then just assign it to their `posVector` attributes, the positions of the player and the balls all refer to the same `Vector` object in the memory. You can instead make copies of the vector, for example with the `copy` module, so that every `ball.posVector` refers to a separate vector object.

First import the copy function (it creates shallow copies).

``````from copy import copy
``````

Then copy the vector objects before you pass them.

``````def resetBalls(self):
self.balls = []
for j in range(self.numberOfBalls):
self.balls.append(
Ball(copy(self.posVector), moveVector=Vector(0.0, 0.0)))

# ...

for ball in player.balls:
for i in range(player.balls.index(ball)*10):
ball.posVector.subtract(player.shootVector)
ball.moveVector = copy(player.shootVector)
``````

I also recommend using pygame's Vector2 class instead of your own `Vector`, because it is more feature-rich and efficient.

And `abs` is a built-in function.