from pyrosim import PYROSIM import matplotlib.pyplot as plt sim = PYROSIM(playPaused=True , evalTime=100) sim.Send_Cylinder( objectID=0, x=0 , y=0 , z=.6 , length=1.0 , radius=0.1 ) sim.Send_Cylinder( objectID=1 , x=0 , y=.5 , z=1.1 , r1=0 , r2=1, r3=0 , length=1.0 , radius=0.1 , r=1, g=0, b=0) sim.Send_Joint( jointID = 0 , firstObjectID = 0 , secondObjectID = 1, x=0 , y=0 , z=1.1, n1 = -1 , n2 = 0 , n3 = 0, lo=-3.14159/2 , hi=3.14159/2 ) sim.Send_Touch_Sensor( sensorID = 0 , objectID = 0 ) sim.Send_Touch_Sensor( sensorID = 1 , objectID = 1 ) sim.Start() sim.Wait_To_Finish() sensorData = sim.Get_Sensor_Data(sensorID = 1) print sensorData #f = plt.figure() #pn = f.add_subplot(111) #plt.plot(sensorData) #plt.show()
from pyrosim import PYROSIM sim = PYROSIM() sim.Send_Cylinder() sim.Start()
from pyrosim import PYROSIM ARM_LENGTH = 0.5 ARM_RADIUS = ARM_LENGTH / 10.0 sim = PYROSIM(playPaused=True, evalTime=1000) sim.Send_Cylinder(ID=0, x=0, y=0, z=ARM_LENGTH / 2.0 + ARM_RADIUS, r1=0, r2=0, r3=1, length=ARM_LENGTH, radius=ARM_RADIUS) sim.Send_Cylinder(ID=1, x=0, y=ARM_LENGTH / 2.0, z=ARM_LENGTH + ARM_RADIUS, r1=0, r2=1, r3=0, length=ARM_LENGTH, radius=ARM_RADIUS) sim.Send_Joint(ID=0, firstObjectID=0, secondObjectID=1,
from pyrosim import PYROSIM sim = PYROSIM(playPaused = True , evalTime = 1000) x = 0 y = 0 z = 0.1 for i in range(0,10): sim.Send_Cylinder(x=x, y=y, z=z, r1=0, r2=1, r3=0, length=1.0, radius=0.1) z = z + 2.0 * 0.1 sim.Start()
from pyrosim import PYROSIM WHEEL_RADIUS = 0.1 sim = PYROSIM(playPaused=False, evalTime=1000) sim.Send_Cylinder(objectID=0, x=-2 * WHEEL_RADIUS, y=-2 * WHEEL_RADIUS, z=WHEEL_RADIUS, length=0, radius=WHEEL_RADIUS) sim.Send_Box(objectID=1, x=0, y=0, z=WHEEL_RADIUS, length=4 * WHEEL_RADIUS, width=4 * WHEEL_RADIUS, height=WHEEL_RADIUS) sim.Send_Joint(jointID=0, firstObjectID=0, secondObjectID=1, x=-2 * WHEEL_RADIUS, y=-2 * WHEEL_RADIUS, z=WHEEL_RADIUS, n1=1, n2=0, n3=0, lo=-3.14159 / 4.0,
from pyrosim import PYROSIM sim = PYROSIM(playPaused=True, evalTime=1000) sim.Send_Cylinder(x=0, y=0, z=0.5, r1=0, r2=1, r3=0) sim.Start()
from pyrosim import PYROSIM sim = PYROSIM(playPaused = True , evalTime = 1000) sim.Send_Cylinder(x=0, y=0, z=0.1, r1=0, r2=1, r3=0, length=1.0, radius=0.1) sim.Start()
ARM_RADIUS = ARM_LENGTH / 10.0 sim = PYROSIM(playPaused = False , evalTime = 250) z = 0.5 x_1 = 0 y_1 = ARM_LENGTH/2.0 z_1 = z x_2 = ARM_LENGTH*math.cos(math.pi/4.)/2.0 y_2 = ARM_LENGTH*math.sin(math.pi/4.)/2.0+ARM_LENGTH print x_2, y_2 x_3 = -x_2 y_3 = y_2 sim.Send_Cylinder(ID = 0 , x=x_1, y=y_1, z=z, r1=0, r2=1, r3=0, length=ARM_LENGTH, radius=ARM_RADIUS) sim.Send_Cylinder(ID = 1 , x=x_2, y=y_2, z=z, r1=1, r2=1, r3=0, length=ARM_LENGTH, radius=ARM_RADIUS) sim.Send_Cylinder(ID = 2 , x=x_3, y=y_3, z=z, r1=-1,r2=1,r3=0, length=ARM_LENGTH,radius =ARM_RADIUS) sim.Send_Joint(ID = 0, firstObjectID=0, x=0, y=0, z=z, n1=0, n2=0, n3=1, lo=-3.14159/4.0, hi=+3.14159/4.0) sim.Send_Joint(ID = 1, firstObjectID=0, secondObjectID=1,x=0, y=1, z=z, n1=0, n2=0, n3=1, lo=-3.14159/4.0, hi=+3.14159/4.0) sim.Send_Joint(ID = 2, firstObjectID=0, secondObjectID=2,x=0, y=1, z=z, n1=0, n2=0, n3=1, lo=-3.14159/4.0, hi=+3.14159/4.0) sim.Send_Touch_Sensor(ID = 0 , objectIndex = 0) sim.Send_Touch_Sensor(ID = 1 , objectIndex = 1) sim.Send_Sensor_Neuron(ID=0, sensorID=0 ) sim.Send_Sensor_Neuron(ID=1, sensorID=1 )
ARM_RADIUS = ARM_LENGTH / 10.0 for torque in [0.1, 0.5, 1.0]: for speed in [0.1, 1.0, 10.0]: sim = PYROSIM(playPaused=False, evalTime=500, dt=.05, debug=False, hpr=[121, 5, 0]) sim.Send_Cylinder(objectID=0, x=0, y=0, z=2.0 * ARM_LENGTH, r1=0, r2=0, r3=1, length=ARM_LENGTH, radius=ARM_RADIUS) sim.Send_Box(objectID=2, x=0, y=0, z=1.25 * ARM_LENGTH, length=ARM_RADIUS * 7., width=ARM_RADIUS * 7.0, height=ARM_RADIUS * 7.0) sim.Send_Joint(jointID=0, firstObjectID=-1, secondObjectID=0,
from pyrosim import PYROSIM sim = PYROSIM(playPaused=True, evalTime=1000) sim.Send_Cylinder(r1=0, r2=1, r3=0) sim.Start()