def Test():
ball = tableballdefs.Ball(1, 1, 0, 0, 0, 105)
table = tableballdefs.Table()
plot = plotballs.PlotBalls(1, table)
timeStep = 0.1
frictionForce = Solve(ball, table, timeStep)
while frictionForce != 0:
print("topSpin ", ball.topSpin * ball.radius, " velocity ",
ball.Vel.getLength(), " friction force ", frictionForce)
frictionForce = Solve(ball, table, timeStep)
def __init__(self, numballs, ballList, shot, table = tableballdefs.Table()):
self.table = table
self.ballList = ballList
self.numballs = numballs
self.shot = shot
self.plot = plotballs.PlotBalls(self.numballs, self.table)
def __init__(self, numballs=4, ballList=[], table=tableballdefs.Table()):
self.numballs = numballs
self.table = table
self.ballList = Rack(numballs, table)
def __init__(self, numBalls=1, table = tableballdefs.Table()):
self.table = table
self.markerList = ['ro', 'bo', 'go', 'mo', 'co', 'yo', 'ko']
if numBalls > len(self.markerList): raise "too many balls to plot"
v = [0, self.table.length, 0, self.table.width]
plt.axis(v)
ball.Vel.x += (accX * timeStep)
ball.english += (alpha * timeStep)
return True
return False
def CalcFF(v0, v1, timeStep, mass, coef):
acc = (v0 - v1) / timeStep
norm = acc * mass
return norm * coef
def CalcAccPara(ff, mass):
return ff / mass
def CalcAlpha(ff, radius, moi):
torq = ff * radius
return torq / moi
if __name__ == "__main__":
table = tableballdefs.Table()
ball = tableballdefs.Ball(1, +2, table.length, table.width / 2, 0, 2)
Carom(ball, table, 0.01)
print(ball.Vel.x, ball.Vel.y, ball.english)