import pybullet as p
import pybullet_data as pd

import time

p.connect(p.GUI)
p.setAdditionalSearchPath(pd.getDataPath())

p.setPhysicsEngineParameter(enableConeFriction=0)
plane = p.loadURDF("plane.urdf")
p.setGravity(0, 0, -9.8)
p.setTimeStep(1. / 500)
#p.setDefaultContactERP(0)
#urdfFlags = p.URDF_USE_SELF_COLLISION+p.URDF_USE_SELF_COLLISION_EXCLUDE_ALL_PARENTS
urdfFlags = p.URDF_USE_SELF_COLLISION
quadruped = p.loadURDF("laikago/laikago_toes.urdf", [0, 0, .5], [0, 0.5, 0.5, 0],
                       flags=urdfFlags,
                       useFixedBase=False)

#enable collision between lower legs

for j in range(p.getNumJoints(quadruped)):
  print(p.getJointInfo(quadruped, j))

#2,5,8 and 11 are the lower legs
lower_legs = [2, 5, 8, 11]
for l0 in lower_legs:
  for l1 in lower_legs:
    if (l1 > l0):
      enableCollision = 1
      print("collision for pair", l0, l1,
            p.getJointInfo(quadruped, l0)[12],
            p.getJointInfo(quadruped, l1)[12], "enabled=", enableCollision)
      p.setCollisionFilterPair(quadruped, quadruped, 2, 5, enableCollision)

jointIds = []
paramIds = []
jointOffsets = []
jointDirections = [-1, 1, 1, 1, 1, 1, -1, 1, 1, 1, 1, 1]
jointAngles = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]

for i in range(4):
  jointOffsets.append(0)
  jointOffsets.append(-0.7)
  jointOffsets.append(0.7)

maxForceId = p.addUserDebugParameter("maxForce", 0, 100, 20)

for j in range(p.getNumJoints(quadruped)):
  p.changeDynamics(quadruped, j, linearDamping=0, angularDamping=0)
  info = p.getJointInfo(quadruped, j)
  #print(info)
  jointName = info[1]
  jointType = info[2]
  if (jointType == p.JOINT_PRISMATIC or jointType == p.JOINT_REVOLUTE):
    jointIds.append(j)

p.getCameraImage(480, 320)
p.setRealTimeSimulation(0)

joints = []

with open(pd.getDataPath() + "/laikago/data1.txt", "r") as filestream:
  for line in filestream:
    print("line=", line)
    maxForce = p.readUserDebugParameter(maxForceId)
    currentline = line.split(",")
    #print (currentline)
    #print("-----")
    frame = currentline[0]
    t = currentline[1]
    #print("frame[",frame,"]")
    joints = currentline[2:14]
    #print("joints=",joints)
    for j in range(12):
      targetPos = float(joints[j])
      p.setJointMotorControl2(quadruped,
                              jointIds[j],
                              p.POSITION_CONTROL,
                              jointDirections[j] * targetPos + jointOffsets[j],
                              force=maxForce)
    p.stepSimulation()
    for lower_leg in lower_legs:
      #print("points for ", quadruped, " link: ", lower_leg)
      pts = p.getContactPoints(quadruped, -1, lower_leg)
      #print("num points=",len(pts))
      #for pt in pts:
      # print(pt[9])
    time.sleep(1. / 500.)

index = 0
for j in range(p.getNumJoints(quadruped)):
  p.changeDynamics(quadruped, j, linearDamping=0, angularDamping=0)
  info = p.getJointInfo(quadruped, j)
  js = p.getJointState(quadruped, j)
  #print(info)
  jointName = info[1]
  jointType = info[2]
  if (jointType == p.JOINT_PRISMATIC or jointType == p.JOINT_REVOLUTE):
    paramIds.append(p.addUserDebugParameter(jointName.decode("utf-8"), -4, 4,
                                (js[0] - jointOffsets[index]) / jointDirections[index]))
    index = index+1
                       

p.setRealTimeSimulation(1)

while (1):

  for i in range(len(paramIds)):
    c = paramIds[i]
    targetPos = p.readUserDebugParameter(c)
    maxForce = p.readUserDebugParameter(maxForceId)
    p.setJointMotorControl2(quadruped,
                            jointIds[i],
                            p.POSITION_CONTROL,
                            jointDirections[i] * targetPos + jointOffsets[i],
                            force=maxForce)