dragonpilot/selfdrive/controls/tests/test_lateral_mpc.py

import unittest
import numpy as np
from selfdrive.controls.lib.lateral_mpc_lib.lat_mpc import LateralMpc
from selfdrive.controls.lib.drive_helpers import LAT_MPC_N, CAR_ROTATION_RADIUS


def run_mpc(lat_mpc=None, v_ref=30., x_init=0., y_init=0., psi_init=0., curvature_init=0.,
            lane_width=3.6, poly_shift=0.):

  if lat_mpc is None:
    lat_mpc = LateralMpc()
  lat_mpc.set_weights(1., 1., 1.)

  y_pts = poly_shift * np.ones(LAT_MPC_N + 1)
  heading_pts = np.zeros(LAT_MPC_N + 1)

  x0 = np.array([x_init, y_init, psi_init, curvature_init])
  p = np.array([v_ref, CAR_ROTATION_RADIUS])

  # converge in no more than 10 iterations
  for _ in range(10):
    lat_mpc.run(x0, p,
                y_pts, heading_pts)
  return lat_mpc.x_sol


class TestLateralMpc(unittest.TestCase):

  def _assert_null(self, sol, curvature=1e-6):
    for i in range(len(sol)):
      self.assertAlmostEqual(sol[0,i,1], 0., delta=curvature)
      self.assertAlmostEqual(sol[0,i,2], 0., delta=curvature)
      self.assertAlmostEqual(sol[0,i,3], 0., delta=curvature)

  def _assert_simmetry(self, sol, curvature=1e-6):
    for i in range(len(sol)):
      self.assertAlmostEqual(sol[0,i,1], -sol[1,i,1], delta=curvature)
      self.assertAlmostEqual(sol[0,i,2], -sol[1,i,2], delta=curvature)
      self.assertAlmostEqual(sol[0,i,3], -sol[1,i,3], delta=curvature)
      self.assertAlmostEqual(sol[0,i,0], sol[1,i,0], delta=curvature)

  def test_straight(self):
    sol = run_mpc()
    self._assert_null(np.array([sol]))

  def test_y_symmetry(self):
    sol = []
    for y_init in [-0.5, 0.5]:
      sol.append(run_mpc(y_init=y_init))
    self._assert_simmetry(np.array(sol))

  def test_poly_symmetry(self):
    sol = []
    for poly_shift in [-1., 1.]:
      sol.append(run_mpc(poly_shift=poly_shift))
    self._assert_simmetry(np.array(sol))

  def test_curvature_symmetry(self):
    sol = []
    for curvature_init in [-0.1, 0.1]:
      sol.append(run_mpc(curvature_init=curvature_init))
    self._assert_simmetry(np.array(sol))

  def test_psi_symmetry(self):
    sol = []
    for psi_init in [-0.1, 0.1]:
      sol.append(run_mpc(psi_init=psi_init))
    self._assert_simmetry(np.array(sol))

  def test_no_overshoot(self):
    y_init = 1.
    sol = run_mpc(y_init=y_init)
    for y in list(sol[:,1]):
      self.assertGreaterEqual(y_init, abs(y))

  def test_switch_convergence(self):
    lat_mpc = LateralMpc()
    sol = run_mpc(lat_mpc=lat_mpc, poly_shift=30.0, v_ref=7.0)
    right_psi_deg = np.degrees(sol[:,2])
    sol = run_mpc(lat_mpc=lat_mpc, poly_shift=-30.0, v_ref=7.0)
    left_psi_deg = np.degrees(sol[:,2])
    np.testing.assert_almost_equal(right_psi_deg, -left_psi_deg, decimal=3)


if __name__ == "__main__":
  unittest.main()
selfdrive/controls 6 years ago			`import unittest`
			`import numpy as np`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`from selfdrive.controls.lib.lateral_mpc_lib.lat_mpc import LateralMpc`
Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`from selfdrive.controls.lib.drive_helpers import LAT_MPC_N, CAR_ROTATION_RADIUS`
selfdrive/controls 6 years ago

Less QP iterations for lateral acados (#22231) * Less QP iterations for lateral acados * update ref 4 years ago			`def run_mpc(lat_mpc=None, v_ref=30., x_init=0., y_init=0., psi_init=0., curvature_init=0.,`
selfdrive/controls 6 years ago			`lane_width=3.6, poly_shift=0.):`

Less QP iterations for lateral acados (#22231) * Less QP iterations for lateral acados * update ref 4 years ago			`if lat_mpc is None:`
			`lat_mpc = LateralMpc()`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`lat_mpc.set_weights(1., 1., 1.)`
selfdrive/controls 6 years ago
Refactor lateral lag compensation (#21334) * add T_IDXS * refactor * fix test * unused * typo * needs casting * Update selfdrive/controls/lib/drive_helpers.py Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> * deprecate field * regen all * new segs * add todo * split back * clean * bad names * do in controls * add arg Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> 4 years ago			`y_pts = poly_shift * np.ones(LAT_MPC_N + 1)`
			`heading_pts = np.zeros(LAT_MPC_N + 1)`
selfdrive/controls 6 years ago
work on acados lateral MPC (#23558) * lat_mpc: make v_ego, rotation_radius parameters instead of states * lat_mpc: remove rotation_radius argument, since it is part of the parameters * lat_mpc: use qp_solver_cond_N = 1 slightly faster and in line with case study in Fig. 2/ 3 in Frison2016 - https://cdn.syscop.de/publications/Frison2016.pdf An Efficient Implementation of Partial Condensing for Nonlinear Model Predictive Control * adapt test_lateral_mpc to formulation with parameters * lat_mpc: set parameters in reset() and copy values * acados_ocp_solver_pyx: make options_set useable * update ref Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`x0 = np.array([x_init, y_init, psi_init, curvature_init])`
			`p = np.array([v_ref, CAR_ROTATION_RADIUS])`
selfdrive/controls 6 years ago
Less QP iterations for lateral acados (#22231) * Less QP iterations for lateral acados * update ref 4 years ago			`# converge in no more than 10 iterations`
			`for _ in range(10):`
work on acados lateral MPC (#23558) * lat_mpc: make v_ego, rotation_radius parameters instead of states * lat_mpc: remove rotation_radius argument, since it is part of the parameters * lat_mpc: use qp_solver_cond_N = 1 slightly faster and in line with case study in Fig. 2/ 3 in Frison2016 - https://cdn.syscop.de/publications/Frison2016.pdf An Efficient Implementation of Partial Condensing for Nonlinear Model Predictive Control * adapt test_lateral_mpc to formulation with parameters * lat_mpc: set parameters in reset() and copy values * acados_ocp_solver_pyx: make options_set useable * update ref Co-authored-by: Willem Melching <willem.melching@gmail.com> 4 years ago			`lat_mpc.run(x0, p,`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`y_pts, heading_pts)`
			`return lat_mpc.x_sol`
selfdrive/controls 6 years ago

			`class TestLateralMpc(unittest.TestCase):`

Remove curv factor (#20011) * cleaning crew * need that to match * smooth factor * that didn't really work * closer to previous * new ref * new names 5 years ago			`def _assert_null(self, sol, curvature=1e-6):`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`for i in range(len(sol)):`
			`self.assertAlmostEqual(sol[0,i,1], 0., delta=curvature)`
			`self.assertAlmostEqual(sol[0,i,2], 0., delta=curvature)`
			`self.assertAlmostEqual(sol[0,i,3], 0., delta=curvature)`
selfdrive/controls 6 years ago
Remove curv factor (#20011) * cleaning crew * need that to match * smooth factor * that didn't really work * closer to previous * new ref * new names 5 years ago			`def _assert_simmetry(self, sol, curvature=1e-6):`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`for i in range(len(sol)):`
			`self.assertAlmostEqual(sol[0,i,1], -sol[1,i,1], delta=curvature)`
			`self.assertAlmostEqual(sol[0,i,2], -sol[1,i,2], delta=curvature)`
			`self.assertAlmostEqual(sol[0,i,3], -sol[1,i,3], delta=curvature)`
			`self.assertAlmostEqual(sol[0,i,0], sol[1,i,0], delta=curvature)`
selfdrive/controls 6 years ago
			`def test_straight(self):`
			`sol = run_mpc()`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`self._assert_null(np.array([sol]))`
selfdrive/controls 6 years ago
			`def test_y_symmetry(self):`
			`sol = []`
			`for y_init in [-0.5, 0.5]:`
			`sol.append(run_mpc(y_init=y_init))`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`self._assert_simmetry(np.array(sol))`
selfdrive/controls 6 years ago
			`def test_poly_symmetry(self):`
			`sol = []`
			`for poly_shift in [-1., 1.]:`
			`sol.append(run_mpc(poly_shift=poly_shift))`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`self._assert_simmetry(np.array(sol))`
selfdrive/controls 6 years ago
Remove curv factor (#20011) * cleaning crew * need that to match * smooth factor * that didn't really work * closer to previous * new ref * new names 5 years ago			`def test_curvature_symmetry(self):`
selfdrive/controls 6 years ago			`sol = []`
Remove curv factor (#20011) * cleaning crew * need that to match * smooth factor * that didn't really work * closer to previous * new ref * new names 5 years ago			`for curvature_init in [-0.1, 0.1]:`
			`sol.append(run_mpc(curvature_init=curvature_init))`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`self._assert_simmetry(np.array(sol))`
selfdrive/controls 6 years ago
			`def test_psi_symmetry(self):`
			`sol = []`
			`for psi_init in [-0.1, 0.1]:`
			`sol.append(run_mpc(psi_init=psi_init))`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`self._assert_simmetry(np.array(sol))`
selfdrive/controls 6 years ago
			`def test_no_overshoot(self):`
			`y_init = 1.`
			`sol = run_mpc(y_init=y_init)`
Port lateral planning to ACADOS (#22080) * lateral acados * looks good! * add another solve, needed for init somehow * use copy * init correctly * cleanup sconstruct * Update files_common * update cpu usage * reset when invalid * fix cpu usage * cost_set doesnt leak * new ref * non leaky reset Co-authored-by: Adeeb Shihadeh <adeebshihadeh@gmail.com> Co-authored-by: Comma Device <device@comma.ai> 4 years ago			`for y in list(sol[:,1]):`
selfdrive/controls 6 years ago			`self.assertGreaterEqual(y_init, abs(y))`

Less QP iterations for lateral acados (#22231) * Less QP iterations for lateral acados * update ref 4 years ago			`def test_switch_convergence(self):`
			`lat_mpc = LateralMpc()`
			`sol = run_mpc(lat_mpc=lat_mpc, poly_shift=30.0, v_ref=7.0)`
			`right_psi_deg = np.degrees(sol[:,2])`
			`sol = run_mpc(lat_mpc=lat_mpc, poly_shift=-30.0, v_ref=7.0)`
			`left_psi_deg = np.degrees(sol[:,2])`
			`np.testing.assert_almost_equal(right_psi_deg, -left_psi_deg, decimal=3)`

selfdrive/controls 6 years ago
			`if __name__ == "__main__":`
			`unittest.main()`