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cpumove.py
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cpumove.py
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import random
import math
PI = 3.141592
class Sample1():
def move():
return left()
class Sample2():
def __init__(self):
self.count = 0
def move(self):
dx, dy = -2.5, 3 - (6 * (15 <= self.count <= 30))
self.count += 1
if self.count == 31:
self.count = 0
return dx, dy
class Sample3():
def __init__(self):
self.count = 0
self.curve_count = 0
def move(self, dx, dy):
if self.count <= 100:
self.count += 1
return left()
dx, dy, self.curve_count = curve(-10, -5, 200, self.curve_count, dx, dy)
return dx, dy
class Sample4():
def __init__(self):
self.count = 0
self.curve_count = 0
def move(self, dx, dy):
if self.count <= 150:
self.count += 1
return left()
elif self.count <= 220:
self.count += 1
return rightup()
elif self.count >= 221:
dx, dy, self.curve_count = curve(-10, -6, 160, self.curve_count, dx, dy)
return dx, dy
class Sample5():
def __init__(self):
self.count = 0
self.curve_count = 0
def move(self, dx, dy):
if self.count <= 150:
self.count += 1
return left()
elif self.count <= 220:
self.count += 1
return rightdown()
elif self.count >= 221:
dx, dy, self.curve_count = curve(-10, 6, 160, self.curve_count, dx, dy)
return dx, dy
class Sample6():
def __init__(self):
self.count = 0
self.circle_count = 0
def move(self, dx, dy):
if self.count <= 80:
self.count += 1
return left()
elif self.count <= 400:
self.count += 1
dx, dy, self.circle_count = circle(-7, -7, 50, self.circle_count)
return dx, dy
elif self.count >= 401:
return dx, dy
class Sample7():
def __init__(self):
self.count = 0
self.circle_count = 0
def move(self, dx, dy):
if self.count <= 80:
self.count += 1
return left()
elif self.count <= 400:
self.count += 1
dx, dy, self.circle_count = circle(-7, 7, 50, self.circle_count)
return dx, dy
elif self.count >= 401:
return dx, dy
class Sample8():
def __init__(self):
self.count = 0
self.circle_count = 0
def move(self, dx, dy):
if self.count <= 80:
self.count += 1
return left()
elif self.count <= 400:
self.count += 1
dx, dy, self.circle_count = circle(7, 7, 50, self.circle_count)
return dx, dy
elif self.count >= 401:
return dx, dy
class Sample9():
def __init__(self):
self.count = 0
self.circle_count = 0
def move(self, dx, dy):
if self.count <= 80:
self.count += 1
return left()
elif self.count <= 400:
self.count += 1
dx, dy, self.circle_count = circle(7, -7, 50, self.circle_count)
return dx, dy
elif self.count >= 401:
return dx, dy
def left():
return -5, 0
def right():
return 2.5, 0
def up():
return 0, 2.5
def down():
return 0, -2.5
def leftup():
return -2, -2
def leftdown():
return -2, 2
def rightup():
return 3, -3
def rightdown():
return 3, 3
def curve(velx, vely, cycle, count, dx, dy):
if count != cycle/2:
dx = math.sin(PI * (count) / cycle) * velx
dy = math.sin(PI * (count+(cycle/2)) / cycle) *vely
count += 1
return dx, dy, count
return dx, dy, count
def circle(velx, vely, cycle, count):
dx = math.sin(PI * (count) / cycle) * velx
dy = math.sin(PI * (count+(cycle/2)) / cycle) *vely
count += 1
return dx, dy, count
def acceleration(dx, dy, acceleNum):
return dx * acceleNum, dy * acceleNum
def random_move(dx,dy, count, move_count):
if count == move_count:
count = 0
num = random.randint(1, 8)
if num == 1:
list = left()
return list[0], list[1], count
elif num == 2:
list = right()
return list[0],list[1], count
elif num == 3:
list = up()
return list[0], list[1], count
elif num == 4:
list = down()
return list[0], list[1], count
elif num == 5:
list = leftup()
return list[0], list[1], count
elif num == 6:
list = leftdown()
return list[0], list[1], count
elif num == 7:
list = rightup()
return list[0], list[1], count
elif num == 8:
list = rightup()
return list[0], list[1], count
return dx, dy, count+1