crashtest-r0ket/tools/game/py-pong/pypong/player.py

import pygame, random

class BasicAIPlayer(object):
    def __init__(self):
        self.bias = random.random() - 0.5
        self.hit_count = 0
        
    def update(self, paddle, game):
        # Dead simple AI, waits until the ball is on its side of the screen then moves the paddle to intercept.
        # A bias is used to decide which edge of the paddle is going to be favored.
        if (paddle.rect.x < game.bounds.centerx and game.ball.rect.x < game.bounds.centerx) or (paddle.rect.x > game.bounds.centerx and game.ball.rect.x > game.bounds.centerx):
            delta = (paddle.rect.centery + self.bias * paddle.rect.height) - game.ball.rect.centery 
            if abs(delta) > paddle.velocity:
                if delta > 0:
                    paddle.direction = -1
                else:
                    paddle.direction = 1
            else:
                paddle.direction = 0
        else:
            paddle.direction = 0

    def hit(self):
        self.hit_count += 1
        if self.hit_count > 6:
            self.bias = random.random() - 0.5 # Recalculate our bias, this game is going on forever
            self.hit_count = 0
            
    def lost(self):
        # If we lose, randomise the bias again
        self.bias = random.random() - 0.5
        
    def won(self):
        pass
        
class KeyboardPlayer(object):
    def __init__(self, input_state, up_key=None, down_key=None):
        self.input_state = input_state
        self.up_key = up_key
        self.down_key = down_key
        
    def update(self, paddle, game):
        if self.input_state['key'][self.up_key]:
            paddle.direction = -1
        elif self.input_state['key'][self.down_key]:
            paddle.direction = 1
        else:
            paddle.direction = 0

    def hit(self):
        pass

    def lost(self):
        pass
        
    def won(self):
        pass
        
class MousePlayer(object):
    def __init__(self, input_state):
        self.input_state = input_state
        pygame.mouse.set_visible(False)
        
    def update(self, paddle, game):
        centery = paddle.rect.centery/int(paddle.velocity)
        mousey = self.input_state['mouse'][1]/int(paddle.velocity)
        if centery > mousey:
            paddle.direction = -1
        elif centery < mousey:
            paddle.direction = 1
        else:
            paddle.direction = 0

    def hit(self):
        pass

    def lost(self):
        pass

    def won(self):
        pass
added py-pong 2011-12-15 20:08:02 +00:00			`import pygame, random`

			`class BasicAIPlayer(object):`
			`def __init__(self):`
			`self.bias = random.random() - 0.5`
			`self.hit_count = 0`

			`def update(self, paddle, game):`
			`# Dead simple AI, waits until the ball is on its side of the screen then moves the paddle to intercept.`
			`# A bias is used to decide which edge of the paddle is going to be favored.`
			`if (paddle.rect.x < game.bounds.centerx and game.ball.rect.x < game.bounds.centerx) or (paddle.rect.x > game.bounds.centerx and game.ball.rect.x > game.bounds.centerx):`
			`delta = (paddle.rect.centery + self.bias * paddle.rect.height) - game.ball.rect.centery`
			`if abs(delta) > paddle.velocity:`
			`if delta > 0:`
			`paddle.direction = -1`
			`else:`
			`paddle.direction = 1`
			`else:`
			`paddle.direction = 0`
			`else:`
			`paddle.direction = 0`

			`def hit(self):`
			`self.hit_count += 1`
			`if self.hit_count > 6:`
			`self.bias = random.random() - 0.5 # Recalculate our bias, this game is going on forever`
			`self.hit_count = 0`

			`def lost(self):`
			`# If we lose, randomise the bias again`
			`self.bias = random.random() - 0.5`

			`def won(self):`
			`pass`

			`class KeyboardPlayer(object):`
			`def __init__(self, input_state, up_key=None, down_key=None):`
			`self.input_state = input_state`
			`self.up_key = up_key`
			`self.down_key = down_key`

			`def update(self, paddle, game):`
			`if self.input_state['key'][self.up_key]:`
			`paddle.direction = -1`
			`elif self.input_state['key'][self.down_key]:`
			`paddle.direction = 1`
			`else:`
			`paddle.direction = 0`

			`def hit(self):`
			`pass`

			`def lost(self):`
			`pass`

			`def won(self):`
			`pass`

			`class MousePlayer(object):`
			`def __init__(self, input_state):`
			`self.input_state = input_state`
			`pygame.mouse.set_visible(False)`

			`def update(self, paddle, game):`
			`centery = paddle.rect.centery/int(paddle.velocity)`
			`mousey = self.input_state['mouse'][1]/int(paddle.velocity)`
			`if centery > mousey:`
			`paddle.direction = -1`
			`elif centery < mousey:`
			`paddle.direction = 1`
			`else:`
			`paddle.direction = 0`

			`def hit(self):`
			`pass`

			`def lost(self):`
			`pass`

			`def won(self):`
			`pass`