本文整理汇总了Python中turtle.Screen.reset方法的典型用法代码示例。如果您正苦于以下问题:Python Screen.reset方法的具体用法?Python Screen.reset怎么用?Python Screen.reset使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类turtle.Screen的用法示例。
在下文中一共展示了Screen.reset方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: main
# 需要导入模块: from turtle import Screen [as 别名]
# 或者: from turtle.Screen import reset [as 别名]
def main():
global d, SHS, SF, A
A = 42 # answer to the ultimate question ... (you know)
SHS = A / 20.
SF = 1.0
DSF = 1.0038582416
s = Screen()
s.setup(800, 600)
s.reset()
s.tracer(0)
d = Turtle(visible=False)
for i in range(6):
d.fd(500)
d.bk(500)
d.left(60)
triangles = []
for c in range(-5,6,2):
if abs(c) != 1:
triangles.append(TriTurtle(c, 1, 1))
triangles.append(TriTurtle(c, -1, 2))
for c in range(-4,5,2):
if c != 0:
triangles.append(TriTurtle(c, 2, 2))
triangles.append(TriTurtle(c, -2, 1))
triangles.append(TriTurtle(c, -4, 2))
triangles.append(TriTurtle(c, 4, 1))
for c in range(-3,4,2):
triangles.append(TriTurtle(c, 5, 2))
triangles.append(TriTurtle(c, -5, 1))
triangles.append(TriTurtle(c, -7, 2))
triangles.append(TriTurtle(c, 7, 1))
for c in range(-2,3,2):
triangles.append(TriTurtle(c, 8, 2))
triangles.append(TriTurtle(c, -8, 1))
for c in (-1, 1):
triangles.append(TriTurtle(c, 1, 1))
triangles.append(TriTurtle(c, -1, 2))
triangles.append(TriTurtle(0, 2, 2))
triangles.append(TriTurtle(0, -2, 1))
s.tracer(1)
for phi in range(1,361):
SF = SF*DSF
s.tracer(0)
for t in triangles:
t.setturn(phi)
#s.tracer(1)
s.update()
return "DONE!"示例2: main
# 需要导入模块: from turtle import Screen [as 别名]
# 或者: from turtle.Screen import reset [as 别名]
def main():
## create compound yellow/blue turtleshape for planets
global s
s = Screen()
s.setup(1120,840)
s.reset()
s.tracer(0, 0)
t = Turtle()
t.ht()
t.pu()
t.fd(6)
t.lt(90)
t.begin_poly()
t.circle(6, 180)
t.end_poly()
m1 = t.get_poly()
t.begin_poly()
t.circle(6,180)
t.end_poly()
m2 = t.get_poly()
planetshape = Shape("compound")
planetshape.addcomponent(m1,"orange")
planetshape.addcomponent(m2,"blue")
s.register_shape("planet", planetshape)
#s.tracer(1,0)
s.update()
## setup gravitational system
gs = GravSys()
sun = Star(1000000, Vec(-250,0), Vec(0,-0.35), gs, "circle")
sun.color("yellow")
sun.pensize(1.8)
sun.pu()
earth = Star(5000, Vec(450,0), Vec(0,70), gs, "planet")
earth.pencolor("green")
earth.shapesize(0.8)
rm=12.0583
vm=(8.0*5000/rm)**.5
moon = Star(1, Vec(450+rm,0), Vec(0,70+vm), gs, "planet")
moon.pencolor("blue")
moon.shapesize(0.5)
gs.init()
gs.start()
return "Done!"示例3: setturn
# 需要导入模块: from turtle import Screen [as 别名]
# 或者: from turtle.Screen import reset [as 别名]
self.goto(c*A, r*A*3**.5/3)
self.shapesize(SHS, SHS, 1)
self.D = self.distance(0,0)
self.e = (1/self.D)*self.pos()
def setturn(self, phi):
self.goto(SF*self.D*dsin(90-phi)*self.e)
self.settiltangle(phi*self.f)
self.shapesize(SHS*SF)
if abs(self.c) + abs(self.r) > 2:
self.fillcolor([x + (1-x)*phi/360 for x in self.basecolor])
bc = phi/360.
self.pencolor(bc, bc, bc)
s = Screen()
s.reset()
s.tracer(0)
d = Turtle(visible=False)
lines(500)
triangles = []
for c in range(-5,6,2):
triangles.append(TriTurtle(c, 1, 1))
triangles.append(TriTurtle(c, -1, 2))
for c in range(-4,5,2):
triangles.append(TriTurtle(c, 2, 2))
triangles.append(TriTurtle(c, -2, 1))
triangles.append(TriTurtle(c, -4, 2))
triangles.append(TriTurtle(c, 4, 1))
for c in range(-3,4,2):
triangles.append(TriTurtle(c, 5, 2))