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Asteroid.py
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Asteroid.py
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import random as r
import time
from tkinter import *
import Spaceship as M
from Intersection import *
class asteroid():
def __init__(self, canvas, spaceship):
from math import sin, cos, radians
self.canvas = canvas
self.spaceship = M.spaceship(canvas)
self.vectors = list(range(-2, 2))
self.angle = 0
colors = ['gray40', 'gray50', 'gray60', 'gray70', 'gray75', 'gray80', 'gray90']
# pointsbad = [r.randint(20, 50), r.randint(20, 40), # 1
# r.randint(-50, 10), r.randint(40, 50), # 2
# r.randint(-40, -10), r.randint(-10, 30), # 3
# r.randint(-50, -30), r.randint(-50, -30), # 4
# r.randint(-10, 20), r.randint(-50, -30), # 5
# r.randint(30, 40), r.randint(-50, -40), # 6
# r.randint(0, 50), r.randint(-10, 10)] # 7
# self.points = list(map(lambda x: x // 2, points))
self.points = [r.randint(10, 50) * cos(radians(self.angle + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 0 + r.randint(-15, 15))),
r.randint(10, 50) * cos(radians(self.angle + 60 + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 60 + r.randint(-15, 15))),
r.randint(10, 50) * cos(radians(self.angle + 120 + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 120 + r.randint(-15, 15))),
r.randint(10, 50) * cos(radians(self.angle + 180 + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 180 + r.randint(-15, 15))),
r.randint(10, 50) * cos(radians(self.angle + 240 + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 240 + r.randint(-15, 15))),
r.randint(10, 50) * cos(radians(self.angle + 300 + r.randint(-15, 15))),
r.randint(10, 50) * sin(radians(self.angle + 300 + r.randint(-15, 15)))]
self.points=list(map(lambda x: int(round(x)), self.points))
self.id = self.canvas.create_polygon(self.points, fill=r.choices(colors), width=2)
self.x = r.choice(self.vectors)
self.y = r.choice(self.vectors)
self.canvas_height = self.canvas.winfo_height()
self.speed = 1
self.speedlimit = 4
self.canvas.move(self.id, r.randint(100, 900), r.randint(100, 900))
def draw(self):
self.canvas.move(self.id, self.x, self.y)
pos = self.canvas.coords(self.id)
posx = pos[0::2]
posy = pos[1::2]
self.angle += r.randint(-10, 10)
if min(posx) <= 0:
self.x = 1 * abs(self.x) + r.randint(-self.speed, self.speed)
if min(posy) <= 0:
self.y = 1 * abs(self.y) + r.randint(-self.speed, self.speed)
if max(posx) >= self.canvas_height:
self.x = -1 * abs(self.x) + r.randint(-self.speed, self.speed)
if max(posy) >= self.canvas_height:
self.y = -1 * abs(self.x) + r.randint(-self.speed, self.speed)
if self.x > self.speedlimit:
self.x -= r.randint(1, self.speed)
if self.x < -self.speedlimit:
self.x += r.randint(1, self.speed)
if self.y > self.speedlimit:
self.y -= r.randint(1, self.speed)
if self.y < -self.speedlimit:
self.y += r.randint(1, self.speed)
def hit(self, polygon):
for i in range(6):
for j in range(6):
if intersection(self.points[i:i + 4] + polygon.points[j:j + 4]):
print('BANG!')
break
break
def __del__(self):
self.canvas.itemconfigure(self.id, fill="Grey17")
self.canvas.delete(self.id)
del self
if __name__ == "__main__":
tk = Tk()
tk.title('Test')
tk.resizable(0, 0)
tk.wm_attributes('-topmost', 1)
canvas = Canvas(tk, width=1000, height=1000, bd=0, bg="Grey17", highlightthickness=0)
canvas.pack()
tk.update()
a = asteroid(canvas, 1)
b = asteroid(canvas, 1)
c = asteroid(canvas, 1)
print(a.points)
tstart = time.time()
flag = True
while 1:
a.draw()
if time.time() - tstart > 5 and flag:
print('Yes')
tstart = time.time()
del b
# canvas.delete(b)
# b=None
flag = False
elif flag:
b.draw()
else:
c.draw()
tk.update_idletasks()
tk.update()
time.sleep(0.01)
canvas.delete(a)