本文整理汇总了Python中pydrake.multibody.plant.MultibodyPlant.num_velocities方法的典型用法代码示例。如果您正苦于以下问题:Python MultibodyPlant.num_velocities方法的具体用法?Python MultibodyPlant.num_velocities怎么用?Python MultibodyPlant.num_velocities使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类pydrake.multibody.plant.MultibodyPlant
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在下文中一共展示了MultibodyPlant.num_velocities方法的10个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: test_multibody_state_access
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_state_access(self):
file_name = FindResourceOrThrow(
"drake/multibody/benchmarks/acrobot/acrobot.sdf")
plant = MultibodyPlant()
Parser(plant).AddModelFromFile(file_name)
plant.Finalize()
context = plant.CreateDefaultContext()
nq = 2
nv = 2
self.assertEqual(plant.num_positions(), nq)
self.assertEqual(plant.num_velocities(), nv)
q0 = np.array([3.14, 2.])
v0 = np.array([-0.5, 1.])
x0 = np.concatenate([q0, v0])
# The default state is all values set to zero.
x = plant.GetPositionsAndVelocities(context)
self.assertTrue(np.allclose(x, np.zeros(4)))
# Write into a mutable reference to the state vector.
x_ref = plant.GetMutablePositionsAndVelocities(context)
x_ref[:] = x0
# Verify that positions and velocities were set correctly.
self.assertTrue(np.allclose(plant.GetPositions(context), q0))
self.assertTrue(np.allclose(plant.GetVelocities(context), v0))
# Verify we did modify the state stored in context.
x = plant.GetPositionsAndVelocities(context)
self.assertTrue(np.allclose(x, x0))
# Now set positions and velocities independently and check them.
zeros_2 = np.zeros([2, 1])
x_ref.fill(0)
plant.SetPositions(context, q0)
self.assertTrue(np.allclose(plant.GetPositions(context), q0))
self.assertTrue(np.allclose(plant.GetVelocities(context), zeros_2))
x_ref.fill(0)
plant.SetVelocities(context, v0)
self.assertTrue(np.allclose(plant.GetPositions(context), zeros_2))
self.assertTrue(np.allclose(plant.GetVelocities(context), v0))
# Now test SetPositionsAndVelocities().
x_ref.fill(0)
plant.SetPositionsAndVelocities(context, x0)
self.assertTrue(np.allclose(
plant.GetPositionsAndVelocities(context), x0))
# Test existence of context resetting methods.
plant.SetDefaultState(context, state=context.get_mutable_state())
# Test existence of limits.
self.assertEqual(plant.GetPositionLowerLimits().shape, (nq,))
self.assertEqual(plant.GetPositionUpperLimits().shape, (nq,))
self.assertEqual(plant.GetVelocityLowerLimits().shape, (nv,))
self.assertEqual(plant.GetVelocityUpperLimits().shape, (nv,))
self.assertEqual(plant.GetAccelerationLowerLimits().shape, (nv,))
self.assertEqual(plant.GetAccelerationUpperLimits().shape, (nv,))
示例2: test_map_qdot_to_v_and_back
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_map_qdot_to_v_and_back(self):
plant = MultibodyPlant()
iiwa_sdf_path = FindResourceOrThrow(
"drake/manipulation/models/"
"iiwa_description/sdf/iiwa14_no_collision.sdf")
# Use floating base to effectively add a quatnerion in the generalized
# quaternion.
iiwa_model = Parser(plant=plant).AddModelFromFile(
file_name=iiwa_sdf_path, model_name='robot')
plant.Finalize()
context = plant.CreateDefaultContext()
# Try mapping velocity to qdot and back.
nq = plant.num_positions()
nv = plant.num_velocities()
q_init = np.linspace(start=1.0, stop=nq, num=nq)
plant.SetPositions(context, q_init)
# Overwrite the (invalid) base coordinates, wherever in `q` they are.
plant.SetFreeBodyPose(
context, plant.GetBodyByName("iiwa_link_0"),
RigidTransform(RollPitchYaw([0.1, 0.2, 0.3]),
p=[0.4, 0.5, 0.6]))
v_expected = np.linspace(start=-1.0, stop=-nv, num=nv)
qdot = plant.MapVelocityToQDot(context, v_expected)
v_remap = plant.MapQDotToVelocity(context, qdot)
self.assertTrue(np.allclose(v_expected, v_remap))
示例3: test_multibody_dynamics
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_dynamics(self):
file_name = FindResourceOrThrow(
"drake/multibody/benchmarks/acrobot/acrobot.sdf")
plant = MultibodyPlant()
Parser(plant).AddModelFromFile(file_name)
plant.Finalize()
context = plant.CreateDefaultContext()
H = plant.CalcMassMatrixViaInverseDynamics(context)
Cv = plant.CalcBiasTerm(context)
self.assertTrue(H.shape == (2, 2))
self.assert_sane(H)
self.assertTrue(Cv.shape == (2, ))
self.assert_sane(Cv, nonzero=False)
nv = plant.num_velocities()
vd_d = np.zeros(nv)
tau = plant.CalcInverseDynamics(
context, vd_d, MultibodyForces(plant))
self.assertEqual(tau.shape, (2,))
self.assert_sane(tau, nonzero=False)
# - Existence checks.
self.assertEqual(plant.CalcPotentialEnergy(context), 0)
plant.CalcConservativePower(context)
tau_g = plant.CalcGravityGeneralizedForces(context)
self.assertEqual(tau_g.shape, (nv,))
self.assert_sane(tau_g, nonzero=False)
forces = MultibodyForces(plant=plant)
plant.CalcForceElementsContribution(context=context, forces=forces)
示例4: test_multibody_dynamics
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_dynamics(self):
file_name = FindResourceOrThrow(
"drake/multibody/benchmarks/acrobot/acrobot.sdf")
plant = MultibodyPlant()
Parser(plant).AddModelFromFile(file_name)
# Getting ready for when we set foot on Mars :-).
plant.AddForceElement(UniformGravityFieldElement([0.0, 0.0, -3.71]))
plant.Finalize()
context = plant.CreateDefaultContext()
# Set an arbitrary configuration away from the model's fixed point.
plant.SetPositions(context, [0.1, 0.2])
H = plant.CalcMassMatrixViaInverseDynamics(context)
Cv = plant.CalcBiasTerm(context)
self.assertTrue(H.shape == (2, 2))
self.assert_sane(H)
self.assertTrue(Cv.shape == (2, ))
self.assert_sane(Cv, nonzero=False)
nv = plant.num_velocities()
vd_d = np.zeros(nv)
tau = plant.CalcInverseDynamics(
context, vd_d, MultibodyForces(plant))
self.assertEqual(tau.shape, (2,))
self.assert_sane(tau, nonzero=False)
# - Existence checks.
# Gravity leads to non-zero potential energy.
self.assertNotEqual(plant.CalcPotentialEnergy(context), 0)
plant.CalcConservativePower(context)
tau_g = plant.CalcGravityGeneralizedForces(context)
self.assertEqual(tau_g.shape, (nv,))
self.assert_sane(tau_g, nonzero=True)
forces = MultibodyForces(plant=plant)
plant.CalcForceElementsContribution(context=context, forces=forces)
示例5: test_multibody_dynamics
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_dynamics(self):
file_name = FindResourceOrThrow(
"drake/multibody/benchmarks/acrobot/acrobot.sdf")
plant = MultibodyPlant()
Parser(plant).AddModelFromFile(file_name)
# Getting ready for when we set foot on Mars :-).
gravity_vector = np.array([0.0, 0.0, -3.71])
plant.mutable_gravity_field().set_gravity_vector(gravity_vector)
np.testing.assert_equal(plant.gravity_field().gravity_vector(),
gravity_vector)
plant.Finalize()
context = plant.CreateDefaultContext()
# Set an arbitrary configuration away from the model's fixed point.
plant.SetPositions(context, [0.1, 0.2])
M = plant.CalcMassMatrixViaInverseDynamics(context)
Cv = plant.CalcBiasTerm(context)
self.assertTrue(M.shape == (2, 2))
self.assert_sane(M)
self.assertTrue(Cv.shape == (2, ))
self.assert_sane(Cv, nonzero=False)
nv = plant.num_velocities()
vd_d = np.zeros(nv)
tau = plant.CalcInverseDynamics(
context, vd_d, MultibodyForces(plant))
self.assertEqual(tau.shape, (2,))
self.assert_sane(tau, nonzero=False)
# - Existence checks.
# Gravity leads to non-zero potential energy.
self.assertNotEqual(plant.CalcPotentialEnergy(context), 0)
plant.CalcConservativePower(context)
tau_g = plant.CalcGravityGeneralizedForces(context)
self.assertEqual(tau_g.shape, (nv,))
self.assert_sane(tau_g, nonzero=True)
B = plant.MakeActuationMatrix()
np.testing.assert_equal(B, np.array([[0.], [1.]]))
forces = MultibodyForces(plant=plant)
plant.CalcForceElementsContribution(context=context, forces=forces)
# Test generalized forces.
forces.mutable_generalized_forces()[:] = 1
np.testing.assert_equal(forces.generalized_forces(), 1)
forces.SetZero()
np.testing.assert_equal(forces.generalized_forces(), 0)
# Test body force accessors and mutators.
link2 = plant.GetBodyByName("Link2")
self.assertIsInstance(
link2.GetForceInWorld(context, forces), SpatialForce)
forces.SetZero()
F_expected = np.array([1, 2, 3, 4, 5, 6])
link2.AddInForceInWorld(
context, F_Bo_W=SpatialForce(F=F_expected), forces=forces)
np.testing.assert_equal(
link2.GetForceInWorld(context, forces).get_coeffs(), F_expected)
link2.AddInForce(
context, p_BP_E=[0, 0, 0], F_Bp_E=SpatialForce(F=F_expected),
frame_E=plant.world_frame(), forces=forces)
# Also check accumulation.
np.testing.assert_equal(
link2.GetForceInWorld(context, forces).get_coeffs(),
2 * F_expected)
示例6: test_model_instance_state_access_by_array
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_model_instance_state_access_by_array(self):
# Create a MultibodyPlant with a kuka arm and a schunk gripper.
# the arm is welded to the world, the gripper is welded to the
# arm's end effector.
wsg50_sdf_path = FindResourceOrThrow(
"drake/manipulation/models/" +
"wsg_50_description/sdf/schunk_wsg_50.sdf")
iiwa_sdf_path = FindResourceOrThrow(
"drake/manipulation/models/" +
"iiwa_description/sdf/iiwa14_no_collision.sdf")
timestep = 0.0002
plant = MultibodyPlant(timestep)
parser = Parser(plant)
iiwa_model = parser.AddModelFromFile(
file_name=iiwa_sdf_path, model_name='robot')
gripper_model = parser.AddModelFromFile(
file_name=wsg50_sdf_path, model_name='gripper')
# Weld the base of arm and gripper to reduce the number of states.
X_EeGripper = RigidTransform(
RollPitchYaw(np.pi / 2, 0, np.pi / 2), [0, 0, 0.081])
plant.WeldFrames(
A=plant.world_frame(),
B=plant.GetFrameByName("iiwa_link_0", iiwa_model))
plant.WeldFrames(
A=plant.GetFrameByName("iiwa_link_7", iiwa_model),
B=plant.GetFrameByName("body", gripper_model),
X_AB=X_EeGripper)
plant.Finalize()
# Create a context of the MBP and set the state of the context
# to desired values.
context = plant.CreateDefaultContext()
nq = plant.num_positions()
nq_iiwa = plant.num_positions(iiwa_model)
nv = plant.num_velocities()
nv_iiwa = plant.num_velocities(iiwa_model)
q_iiwa_desired = np.linspace(0, 0.3, 7)
v_iiwa_desired = q_iiwa_desired + 0.4
q_gripper_desired = [0.4, 0.5]
v_gripper_desired = [-1., -2.]
x_desired = np.zeros(nq + nv)
x_desired[0:7] = q_iiwa_desired
x_desired[7:9] = q_gripper_desired
x_desired[nq:nq+7] = v_iiwa_desired
x_desired[nq+7:nq+nv] = v_gripper_desired
x = plant.GetMutablePositionsAndVelocities(context=context)
x[:] = x_desired
q = plant.GetPositions(context=context)
v = plant.GetVelocities(context=context)
# Get state from context.
x = plant.GetPositionsAndVelocities(context=context)
x_tmp = plant.GetMutablePositionsAndVelocities(context=context)
self.assertTrue(np.allclose(x_desired, x_tmp))
# Get positions and velocities of specific model instances
# from the position/velocity vector of the plant.
q_iiwa = plant.GetPositions(context=context, model_instance=iiwa_model)
q_iiwa_array = plant.GetPositionsFromArray(
model_instance=iiwa_model, q=q)
self.assertTrue(np.allclose(q_iiwa, q_iiwa_array))
q_gripper = plant.GetPositions(
context=context, model_instance=gripper_model)
v_iiwa = plant.GetVelocities(
context=context, model_instance=iiwa_model)
v_iiwa_array = plant.GetVelocitiesFromArray(
model_instance=iiwa_model, v=v)
self.assertTrue(np.allclose(v_iiwa, v_iiwa_array))
v_gripper = plant.GetVelocities(
context=context, model_instance=gripper_model)
# Assert that the `GetPositions` and `GetVelocities` return
# the desired values set earlier.
self.assertTrue(np.allclose(q_iiwa_desired, q_iiwa))
self.assertTrue(np.allclose(v_iiwa_desired, v_iiwa))
self.assertTrue(np.allclose(q_gripper_desired, q_gripper))
self.assertTrue(np.allclose(v_gripper_desired, v_gripper))
# Verify that SetPositionsInArray() and SetVelocitiesInArray() works.
plant.SetPositionsInArray(
model_instance=iiwa_model, q_instance=np.zeros(nq_iiwa), q=q)
self.assertTrue(np.allclose(
plant.GetPositionsFromArray(model_instance=iiwa_model, q=q),
np.zeros(nq_iiwa)))
plant.SetVelocitiesInArray(
model_instance=iiwa_model, v_instance=np.zeros(nv_iiwa), v=v)
self.assertTrue(np.allclose(
plant.GetVelocitiesFromArray(model_instance=iiwa_model, v=v),
np.zeros(nv_iiwa)))
# Check actuation.
nu = plant.num_actuated_dofs()
u = np.zeros(nu)
#.........这里部分代码省略.........
示例7: test_model_instance_state_access
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_model_instance_state_access(self):
# Create a MultibodyPlant with a kuka arm and a schunk gripper.
# the arm is welded to the world, the gripper is welded to the
# arm's end effector.
wsg50_sdf_path = FindResourceOrThrow(
"drake/manipulation/models/" +
"wsg_50_description/sdf/schunk_wsg_50.sdf")
iiwa_sdf_path = FindResourceOrThrow(
"drake/manipulation/models/" +
"iiwa_description/sdf/iiwa14_no_collision.sdf")
plant = MultibodyPlant()
parser = Parser(plant)
iiwa_model = parser.AddModelFromFile(
file_name=iiwa_sdf_path, model_name='robot')
gripper_model = parser.AddModelFromFile(
file_name=wsg50_sdf_path, model_name='gripper')
# Weld the base of arm and gripper to reduce the number of states.
X_EeGripper = RigidTransform(
RollPitchYaw(np.pi / 2, 0, np.pi / 2), [0, 0, 0.081])
plant.WeldFrames(A=plant.world_frame(),
B=plant.GetFrameByName("iiwa_link_0", iiwa_model))
plant.WeldFrames(
A=plant.GetFrameByName("iiwa_link_7", iiwa_model),
B=plant.GetFrameByName("body", gripper_model),
X_AB=X_EeGripper)
plant.Finalize()
# Create a context of the MBP and set the state of the context
# to desired values.
context = plant.CreateDefaultContext()
nq = plant.num_positions()
nv = plant.num_velocities()
nq_iiwa = 7
nv_iiwa = 7
nq_gripper = 2
nv_gripper = 2
q_iiwa_desired = np.zeros(nq_iiwa)
v_iiwa_desired = np.zeros(nv_iiwa)
q_gripper_desired = np.zeros(nq_gripper)
v_gripper_desired = np.zeros(nv_gripper)
q_iiwa_desired[2] = np.pi/3
q_gripper_desired[0] = 0.1
v_iiwa_desired[1] = 5.0
q_gripper_desired[0] = -0.3
x_iiwa_desired = np.zeros(nq_iiwa + nv_iiwa)
x_iiwa_desired[0:nq_iiwa] = q_iiwa_desired
x_iiwa_desired[nq_iiwa:nq_iiwa+nv_iiwa] = v_iiwa_desired
x_gripper_desired = np.zeros(nq_gripper + nv_gripper)
x_gripper_desired[0:nq_gripper] = q_gripper_desired
x_gripper_desired[nq_gripper:nq_gripper+nv_gripper] = v_gripper_desired
x_desired = np.zeros(nq + nv)
x_desired[0:7] = q_iiwa_desired
x_desired[7:9] = q_gripper_desired
x_desired[nq:nq+7] = v_iiwa_desired
x_desired[nq+7:nq+nv] = v_gripper_desired
# Check SetPositionsAndVelocities() for each model instance.
# Do the iiwa model first.
plant.SetPositionsAndVelocities(context, np.zeros(nq + nv))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(context),
np.zeros(nq + nv)))
plant.SetPositionsAndVelocities(context, iiwa_model, x_iiwa_desired)
self.assertTrue(np.allclose(
plant.GetPositionsAndVelocities(context, iiwa_model),
x_iiwa_desired))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(
context, gripper_model), np.zeros(nq_gripper + nv_gripper)))
# Do the gripper model.
plant.SetPositionsAndVelocities(context, np.zeros(nq + nv))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(context),
np.zeros(nq + nv)))
plant.SetPositionsAndVelocities(
context, gripper_model, x_gripper_desired)
self.assertTrue(np.allclose(
plant.GetPositionsAndVelocities(context, gripper_model),
x_gripper_desired))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(
context, iiwa_model), np.zeros(nq_iiwa + nv_iiwa)))
# Check SetPositions() for each model instance.
# Do the iiwa model first.
plant.SetPositionsAndVelocities(context, np.zeros(nq + nv))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(context),
np.zeros(nq + nv)))
plant.SetPositions(context, iiwa_model, q_iiwa_desired)
self.assertTrue(np.allclose(
plant.GetPositions(context, iiwa_model), q_iiwa_desired))
self.assertTrue(np.allclose(plant.GetVelocities(
context, iiwa_model), np.zeros(nv_iiwa)))
self.assertTrue(np.allclose(plant.GetPositionsAndVelocities(
context, gripper_model), np.zeros(nq_gripper + nv_gripper)))
#.........这里部分代码省略.........
示例8: test_multibody_tree_kinematics
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_tree_kinematics(self):
file_name = FindResourceOrThrow(
"drake/examples/double_pendulum/models/double_pendulum.sdf")
plant = MultibodyPlant()
Parser(plant).AddModelFromFile(file_name)
plant.Finalize()
context = plant.CreateDefaultContext()
world_frame = plant.world_frame()
base = plant.GetBodyByName("base")
base_frame = plant.GetFrameByName("base")
X_WL = plant.CalcRelativeTransform(
context, frame_A=world_frame, frame_B=base_frame)
self.assertIsInstance(X_WL, RigidTransform)
p_AQi = plant.CalcPointsPositions(
context=context, frame_B=base_frame,
p_BQi=np.array([[0, 1, 2], [10, 11, 12]]).T,
frame_A=world_frame).T
self.assertTupleEqual(p_AQi.shape, (2, 3))
Jv_WL = plant.CalcFrameGeometricJacobianExpressedInWorld(
context=context, frame_B=base_frame,
p_BoFo_B=[0, 0, 0])
self.assertTupleEqual(Jv_WL.shape, (6, plant.num_velocities()))
nq = plant.num_positions()
nv = plant.num_velocities()
wrt_list = [
(JacobianWrtVariable.kQDot, nq),
(JacobianWrtVariable.kV, nv),
]
for wrt, nw in wrt_list:
Jw_ABp_E = plant.CalcJacobianSpatialVelocity(
context=context, with_respect_to=wrt, frame_B=base_frame,
p_BP=np.zeros(3), frame_A=world_frame,
frame_E=world_frame)
self.assert_sane(Jw_ABp_E)
self.assertEqual(Jw_ABp_E.shape, (6, nw))
# Compute body pose.
X_WBase = plant.EvalBodyPoseInWorld(context, base)
self.assertIsInstance(X_WBase, RigidTransform)
# Set pose for the base.
X_WB_desired = RigidTransform.Identity()
X_WB = plant.CalcRelativeTransform(context, world_frame, base_frame)
plant.SetFreeBodyPose(
context=context, body=base, X_WB=X_WB_desired)
self.assertTrue(np.allclose(X_WB.matrix(), X_WB_desired.matrix()))
# Set a spatial velocity for the base.
v_WB = SpatialVelocity(w=[1, 2, 3], v=[4, 5, 6])
plant.SetFreeBodySpatialVelocity(
context=context, body=base, V_WB=v_WB)
v_base = plant.EvalBodySpatialVelocityInWorld(context, base)
self.assertTrue(np.allclose(v_base.rotational(), v_WB.rotational()))
self.assertTrue(np.allclose(v_base.translational(),
v_WB.translational()))
# Compute accelerations.
vdot = np.zeros(nv)
A_WB_array = plant.CalcSpatialAccelerationsFromVdot(
context=context, known_vdot=vdot)
self.assertEqual(len(A_WB_array), plant.num_bodies())
示例9: test_multibody_plant_api_via_parsing
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_multibody_plant_api_via_parsing(self):
# TODO(eric.cousineau): Decouple this when construction can be done
# without parsing.
# This a subset of `multibody_plant_sdf_parser_test.cc`.
file_name = FindResourceOrThrow(
"drake/multibody/benchmarks/acrobot/acrobot.sdf")
plant = MultibodyPlant(time_step=0.01)
model_instance = Parser(plant).AddModelFromFile(file_name)
self.assertIsInstance(model_instance, ModelInstanceIndex)
plant.Finalize()
benchmark = MakeAcrobotPlant(AcrobotParameters(), True)
self.assertEqual(plant.num_bodies(), benchmark.num_bodies())
self.assertEqual(plant.num_joints(), benchmark.num_joints())
self.assertEqual(plant.num_actuators(), benchmark.num_actuators())
self.assertEqual(
plant.num_model_instances(), benchmark.num_model_instances() + 1)
self.assertEqual(plant.num_positions(), benchmark.num_positions())
self.assertEqual(
plant.num_positions(model_instance=model_instance),
benchmark.num_positions())
self.assertEqual(
plant.num_velocities(), benchmark.num_velocities())
self.assertEqual(
plant.num_multibody_states(), benchmark.num_multibody_states())
self.assertEqual(
plant.num_actuated_dofs(), benchmark.num_actuated_dofs())
self.assertTrue(plant.is_finalized())
self.assertTrue(plant.HasBodyNamed(name="Link1"))
self.assertTrue(plant.HasBodyNamed(
name="Link1", model_instance=model_instance))
self.assertTrue(plant.HasJointNamed(name="ShoulderJoint"))
self.assertTrue(plant.HasJointNamed(
name="ShoulderJoint", model_instance=model_instance))
shoulder = plant.GetJointByName(name="ShoulderJoint")
self._test_joint_api(shoulder)
np.testing.assert_array_equal(
shoulder.position_lower_limits(), [-np.inf])
np.testing.assert_array_equal(
shoulder.position_upper_limits(), [np.inf])
self.assertIs(shoulder, plant.GetJointByName(
name="ShoulderJoint", model_instance=model_instance))
self._test_joint_actuator_api(
plant.GetJointActuatorByName(name="ElbowJoint"))
self._test_body_api(plant.GetBodyByName(name="Link1"))
self.assertIs(
plant.GetBodyByName(name="Link1"),
plant.GetBodyByName(name="Link1", model_instance=model_instance))
self.assertEqual(len(plant.GetBodyIndices(model_instance)), 2)
self._test_frame_api(plant.GetFrameByName(name="Link1"))
self.assertIs(
plant.GetFrameByName(name="Link1"),
plant.GetFrameByName(name="Link1", model_instance=model_instance))
self.assertEqual(
model_instance, plant.GetModelInstanceByName(name="acrobot"))
self.assertIsInstance(
plant.get_actuation_input_port(), InputPort)
self.assertIsInstance(
plant.get_state_output_port(), OutputPort)
# Smoke test of deprecated methods.
with catch_drake_warnings(expected_count=2):
plant.get_continuous_state_output_port()
plant.get_continuous_state_output_port(model_instance)
self.assertIsInstance(
plant.get_contact_results_output_port(), OutputPort)
self.assertIsInstance(plant.num_frames(), int)
self.assertIsInstance(plant.get_body(body_index=BodyIndex(0)), Body)
self.assertIs(shoulder, plant.get_joint(joint_index=JointIndex(0)))
self.assertIsInstance(plant.get_joint_actuator(
actuator_index=JointActuatorIndex(0)), JointActuator)
self.assertIsInstance(
plant.get_frame(frame_index=FrameIndex(0)), Frame)
self.assertEqual("acrobot", plant.GetModelInstanceName(
model_instance=model_instance))
示例10: test_inverse_dynamics_controller
# 需要导入模块: from pydrake.multibody.plant import MultibodyPlant [as 别名]
# 或者: from pydrake.multibody.plant.MultibodyPlant import num_velocities [as 别名]
def test_inverse_dynamics_controller(self):
sdf_path = FindResourceOrThrow(
"drake/manipulation/models/" +
"iiwa_description/sdf/iiwa14_no_collision.sdf")
plant = MultibodyPlant(time_step=0.01)
Parser(plant).AddModelFromFile(sdf_path)
plant.WeldFrames(plant.world_frame(),
plant.GetFrameByName("iiwa_link_0"))
plant.Finalize()
# We verify the (known) size of the model.
kNumPositions = 7
kNumVelocities = 7
kNumActuators = 7
kStateSize = kNumPositions + kNumVelocities
self.assertEqual(plant.num_positions(), kNumPositions)
self.assertEqual(plant.num_velocities(), kNumVelocities)
self.assertEqual(plant.num_actuators(), kNumActuators)
kp = np.array([1., 2., 3., 4., 5., 6., 7.])
ki = np.array([0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7])
kd = np.array([.5, 1., 1.5, 2., 2.5, 3., 3.5])
controller = InverseDynamicsController(robot=plant,
kp=kp,
ki=ki,
kd=kd,
has_reference_acceleration=True)
context = controller.CreateDefaultContext()
output = controller.AllocateOutput()
estimated_state_port = 0
desired_state_port = 1
desired_acceleration_port = 2
control_port = 0
self.assertEqual(
controller.get_input_port(desired_acceleration_port).size(),
kNumVelocities)
self.assertEqual(
controller.get_input_port(estimated_state_port).size(), kStateSize)
self.assertEqual(
controller.get_input_port(desired_state_port).size(), kStateSize)
self.assertEqual(
controller.get_output_port(control_port).size(), kNumVelocities)
# Current state.
q = np.array([-0.3, -0.2, -0.1, 0.0, 0.1, 0.2, 0.3])
v = np.array([-0.9, -0.6, -0.3, 0.0, 0.3, 0.6, 0.9])
x = np.concatenate([q, v])
# Reference state and acceleration.
q_r = q + 0.1*np.ones_like(q)
v_r = v + 0.1*np.ones_like(v)
x_r = np.concatenate([q_r, v_r])
vd_r = np.array([1., 2., 3., 4., 5., 6., 7.])
integral_term = np.array([-1., -2., -3., -4., -5., -6., -7.])
vd_d = vd_r + kp*(q_r-q) + kd*(v_r-v) + ki*integral_term
context.FixInputPort(estimated_state_port, BasicVector(x))
context.FixInputPort(desired_state_port, BasicVector(x_r))
context.FixInputPort(desired_acceleration_port, BasicVector(vd_r))
controller.set_integral_value(context, integral_term)
# Set the plant's context.
plant_context = plant.CreateDefaultContext()
x_plant = plant.GetMutablePositionsAndVelocities(plant_context)
x_plant[:] = x
# Compute the expected value of the generalized forces using
# inverse dynamics.
tau_id = plant.CalcInverseDynamics(
plant_context, vd_d, MultibodyForces(plant))
# Verify the result.
controller.CalcOutput(context, output)
self.assertTrue(np.allclose(output.get_vector_data(0).CopyToVector(),
tau_id))