Ejemplo n.º 1
0
 def steer(self, mytanks, num, goal):
     desired_angle = self.angle(
         mytanks.position(num), self.generate_field_function(
             150, goal))  #, r.Obstacles().get_Obstacles()))
     angadj = self.angveladj(mytanks.angle(num), mytanks.angvel(num),
                             desired_angle)
     r.Angvel(num, angadj)
Ejemplo n.º 2
0
 def straight(desired_angle, start):
     r.Speed(num1, 1)
     r.Speed(num2, 1)
     while True:
         mytanks = r.Mytanks()
         angadj = self.angveladj(mytanks.angle(num1), mytanks.angvel(num1), desired_angle) 
         r.Angvel(num1, angadj)
         r.Angvel(num2, angadj)
         end = time.time()
         delta_time = end - start
         if -.1 < delta_time % 2 < .1:
             r.Shoot(num1)
             r.Shoot(num2)
         if delta_time > 5:
             print "got out of straight"
             return
Ejemplo n.º 3
0
    def dumbagent(self, num1, num2):
        mytanks = r.Mytanks()
        desired_angle = 1

        for idx in range(len(mytanks.list)):
            r.Speed(idx, 0)
            r.Angvel(idx, 0)

        def straight(desired_angle, start):
            r.Speed(num1, 1)
            r.Speed(num2, 1)
            while True:
                mytanks = r.Mytanks()
                angadj = self.angveladj(mytanks.angle(num1),
                                        mytanks.angvel(num1), desired_angle)
                r.Angvel(num1, angadj)
                r.Angvel(num2, angadj)
                end = time.time()
                delta_time = end - start
                if -.1 < delta_time % 2 < .1:
                    r.Shoot(num1)
                    r.Shoot(num2)
                if delta_time > 5:
                    print "got out of straight"
                    return

        def turn(desired_angle, start):
            r.Speed(num1, 0)
            r.Speed(num2, 0)
            while True:
                mytanks = r.Mytanks()
                angadj = self.angveladj(mytanks.angle(num1),
                                        mytanks.angvel(num1), desired_angle)
                r.Angvel(num1, angadj)
                r.Angvel(num2, angadj)
                end = time.time()
                delta_angle = desired_angle - mytanks.angle(num1)
                #                 print "angle"
                #                 print desired_angle
                #                 print mytanks.angle(num)
                delta_time = end - start
                if -.1 < delta_time % 2 < .1:
                    r.Shoot(num1)
                    r.Shoot(num2)
                if -.1 < delta_angle < .1:
                    return

        while True:
            start = time.time()
            straight(desired_angle, start)
            desired_angle += 1
            if desired_angle < math.pi:
                desired_angle = desired_angle % math.pi
            else:
                desired_angle = -1 * (desired_angle % math.pi)
            print "desired"
            print desired_angle
            turn(desired_angle, start)
Ejemplo n.º 4
0
        def turn(desired_angle, start):
            r.Speed(num1, 0)
            r.Speed(num2, 0)
            while True:
                mytanks = r.Mytanks()
                angadj = self.angveladj(mytanks.angle(num1), mytanks.angvel(num1), desired_angle) 
                r.Angvel(num1, angadj)
                r.Angvel(num2, angadj)
                end = time.time()
                delta_angle = desired_angle - mytanks.angle(num1)
#                 print "angle"
#                 print desired_angle
#                 print mytanks.angle(num)
                delta_time = end - start
                if -.1 < delta_time % 2 < .1:
                    r.Shoot(num1) 
                    r.Shoot(num2)
                if -.1 < delta_angle < .1:
                    return