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bullet3/examples/pybullet/minitaur.py

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Python
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import pybullet as p
import numpy as np
class Minitaur:
def __init__(self, urdfRootPath=''):
self.urdfRootPath = urdfRootPath
self.reset()
def buildJointNameToIdDict(self):
nJoints = p.getNumJoints(self.quadruped)
self.jointNameToId = {}
for i in range(nJoints):
jointInfo = p.getJointInfo(self.quadruped, i)
self.jointNameToId[jointInfo[1].decode('UTF-8')] = jointInfo[0]
self.resetPose()
for i in range(100):
p.stepSimulation()
def buildMotorIdList(self):
self.motorIdList.append(self.jointNameToId['motor_front_leftR_joint'])
self.motorIdList.append(self.jointNameToId['motor_front_leftL_joint'])
self.motorIdList.append(self.jointNameToId['motor_back_leftR_joint'])
self.motorIdList.append(self.jointNameToId['motor_back_leftL_joint'])
self.motorIdList.append(self.jointNameToId['motor_front_rightL_joint'])
self.motorIdList.append(self.jointNameToId['motor_front_rightR_joint'])
self.motorIdList.append(self.jointNameToId['motor_back_rightL_joint'])
self.motorIdList.append(self.jointNameToId['motor_back_rightR_joint'])
def reset(self):
self.quadruped = p.loadURDF("%s/quadruped/quadruped.urdf" % self.urdfRootPath,0,0,.3)
self.kp = 1
self.kd = 0.1
self.maxForce = 3.5
self.nMotors = 8
self.motorIdList = []
self.motorDir = [1, -1, 1, -1, -1, 1, -1, 1]
self.buildJointNameToIdDict()
self.buildMotorIdList()
def disableAllMotors(self):
nJoints = p.getNumJoints(self.quadruped)
for i in range(nJoints):
p.setJointMotorControl2(bodyIndex=self.quadruped, jointIndex=i, controlMode=p.VELOCITY_CONTROL, force=0)
def setMotorAngleById(self, motorId, desiredAngle):
p.setJointMotorControl2(bodyIndex=self.quadruped, jointIndex=motorId, controlMode=p.POSITION_CONTROL, targetPosition=desiredAngle, positionGain=self.kp, velocityGain=self.kd, force=self.maxForce)
def setMotorAngleByName(self, motorName, desiredAngle):
self.setMotorAngleById(self.jointNameToId[motorName], desiredAngle)
def resetPose(self):
#right front leg
self.disableAllMotors()
p.resetJointState(self.quadruped,self.jointNameToId['motor_front_rightR_joint'],1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_front_rightR_link'],-2.2)
p.resetJointState(self.quadruped,self.jointNameToId['motor_front_rightL_joint'],-1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_front_rightL_link'],2.2)
p.createConstraint(self.quadruped,self.jointNameToId['knee_front_rightR_link'],self.quadruped,self.jointNameToId['knee_front_rightL_link'],p.JOINT_POINT2POINT,[0,0,0],[0,0.01,0.2],[0,-0.015,0.2])
self.setMotorAngleByName('motor_front_rightR_joint', 1.57)
self.setMotorAngleByName('motor_front_rightL_joint',-1.57)
#left front leg
p.resetJointState(self.quadruped,self.jointNameToId['motor_front_leftR_joint'],1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_front_leftR_link'],-2.2)
p.resetJointState(self.quadruped,self.jointNameToId['motor_front_leftL_joint'],-1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_front_leftL_link'],2.2)
p.createConstraint(self.quadruped,self.jointNameToId['knee_front_leftR_link'],self.quadruped,self.jointNameToId['knee_front_leftL_link'],p.JOINT_POINT2POINT,[0,0,0],[0,-0.01,0.2],[0,0.015,0.2])
self.setMotorAngleByName('motor_front_leftR_joint', 1.57)
self.setMotorAngleByName('motor_front_leftL_joint',-1.57)
#right back leg
p.resetJointState(self.quadruped,self.jointNameToId['motor_back_rightR_joint'],1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_back_rightR_link'],-2.2)
p.resetJointState(self.quadruped,self.jointNameToId['motor_back_rightL_joint'],-1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_back_rightL_link'],2.2)
p.createConstraint(self.quadruped,self.jointNameToId['knee_back_rightR_link'],self.quadruped,self.jointNameToId['knee_back_rightL_link'],p.JOINT_POINT2POINT,[0,0,0],[0,0.01,0.2],[0,-0.015,0.2])
self.setMotorAngleByName('motor_back_rightR_joint', 1.57)
self.setMotorAngleByName('motor_back_rightL_joint',-1.57)
#left back leg
p.resetJointState(self.quadruped,self.jointNameToId['motor_back_leftR_joint'],1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_back_leftR_link'],-2.2)
p.resetJointState(self.quadruped,self.jointNameToId['motor_back_leftL_joint'],-1.57)
p.resetJointState(self.quadruped,self.jointNameToId['knee_back_leftL_link'],2.2)
p.createConstraint(self.quadruped,self.jointNameToId['knee_back_leftR_link'],self.quadruped,self.jointNameToId['knee_back_leftL_link'],p.JOINT_POINT2POINT,[0,0,0],[0,-0.01,0.2],[0,0.015,0.2])
self.setMotorAngleByName('motor_back_leftR_joint', 1.57)
self.setMotorAngleByName('motor_back_leftL_joint',-1.57)
def getBasePosition(self):
position, orientation = p.getBasePositionAndOrientation(self.quadruped)
return position
def getBaseOrientation(self):
position, orientation = p.getBasePositionAndOrientation(self.quadruped)
return orientation
def applyAction(self, motorCommands):
motorCommandsWithDir = np.multiply(motorCommands, self.motorDir)
for i in range(self.nMotors):
self.setMotorAngleById(self.motorIdList[i], motorCommandsWithDir[i])
def getMotorAngles(self):
motorAngles = []
for i in range(self.nMotors):
jointState = p.getJointState(self.quadruped, self.motorIdList[i])
motorAngles.append(jointState[0])
motorAngles = np.multiply(motorAngles, self.motorDir)
return motorAngles
def getMotorVelocities(self):
motorVelocities = []
for i in range(self.nMotors):
jointState = p.getJointState(self.quadruped, self.motorIdList[i])
motorVelocities.append(jointState[1])
motorVelocities = np.multiply(motorVelocities, self.motorDir)
return motorVelocities
def getMotorTorques(self):
motorTorques = []
for i in range(self.nMotors):
jointState = p.getJointState(self.quadruped, self.motorIdList[i])
motorTorques.append(jointState[3])
motorTorques = np.multiply(motorTorques, self.motorDir)
return motorTorques
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