Primeiro, assim que o mouse é clicado, guarda-se na lista bullets_array o ângulo do tiro ( que é o mesmo ângulo do player). Segundo, é dado velocidade ao tiro através do 'cos' e 'sin' e depois limita-se seu movimento para no máximo 640px e 480px pelo loop (assim, se ultrapassar o tiro será apagado). Terceiro, é mostrado na tela o tiro na posição do Jogador (player_x, player_y)
Era suposto que o tiro começasse no player_x, player_y, caminhasse em linha reta através do cosseno e seno e depois "morresse" nos limites da tela.
Mas é mostrado a seguinte sentença:
line 53
vel_x = math.cos(bullet[0])*10
TypeError: 'float' object has no attribute 'getitem'
Aqui está o código:
#
# Title: Shoot The Zombies
# Author(s): John Redbeard, ("http://john-redbeard.tumblr.com/")
#
import pygame
from pygame.locals import *
import math
# Initiate Pygame
pygame.init()
width, height = 640, 480
screen=pygame.display.set_mode((width, height))
pygame.display.set_caption("Shoot the Zombies")
fps = 60
fpsclock = pygame.time.Clock()
# Load images
player = pygame.image.load("images/player.png")
player_x = 100
player_y = 100
posplayer_x = 0
posplayer_y = 0
grass = pygame.image.load("images/grass.png")
bullet = pygame.image.load("images/bullet.png")
bullets_array = []
target = pygame.image.load("images/target.png")
# Main Loop Game
while True:
pygame.mouse.set_visible(False)
screen.fill(False)
# Load on screen the grass in isometric way
for x in range(width/grass.get_width()+1):
for y in range(height/grass.get_height()+1):
screen.blit(grass,(x*100,y*100))
# Load on screen the rotated-positioned-player
mouse_position = pygame.mouse.get_pos()
angle = math.atan2(mouse_position[0] - player_x, mouse_position[1] - player_y)
player_rotate = pygame.transform.rotate(player, 360+angle*57.29)
player_position = (player_x - player_rotate.get_rect().width/2, player_y - player_rotate.get_rect().height/2)
screen.blit(player_rotate, player_position)
# load on screen the rotated-posioted-bullets
for bullet in bullets_array:
vel_x = math.cos(bullet[0])*10
vel_y = math.sin(bullet[1])*10
bullet[0] += vel_x
bullet[1] += vel_y
if bullet[0] >640 or bullet[1] > 480:
bullets_array.remove(bullet)
bullet1 = pygame.transform.rotate(bullet, 360+angle*57.29)
screen.blit(bullet1, (player_x, player_y))
# Load on screen the target
screen.blit(target, (mouse_position))
# Display window
pygame.display.flip()
# Run events
for event in pygame.event.get():
if event.type==pygame.QUIT:
pygame.quit()
exit(False)
# Event: W/A/S/D (Keyboard) moving player
elif event.type == KEYDOWN:
if event.key == K_w:
posplayer_y -= 3
elif event.key == K_a:
posplayer_x -= 3
elif event.key == K_s:
posplayer_y += 3
elif event.key == K_d:
posplayer_x += 3
elif event.type == KEYUP:
if event.key == K_w:
posplayer_y = 0
elif event.key == K_a:
posplayer_x = 0
elif event.key == K_s:
posplayer_y= 0
elif event.key == K_d:
posplayer_x = 0
# Event: Mouse click shoot the bullet
elif event.type == MOUSEBUTTONDOWN:
bullets_array.append(math.atan2(mouse_position[0] - player_x, mouse_position[1] - player_y))
player_x += posplayer_x
player_y +=posplayer_y
fpsclock.tick(fps)