Apply accelerations during velocity solver
Closes https://github.com/dimforge/rapier/issues/97 Instead of applying accelerations from gravity and external forces as a separate step, this PR switches to applying them in the velocity solver.
This commit is contained in:
Emil Ernerfeldt
@@ -135,16 +135,20 @@ impl RigidBody {
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self.active_set_timestamp = 0;
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}
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pub(crate) fn integrate_accelerations(&mut self, dt: Real, gravity: Vector<Real>) {
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pub(crate) fn add_gravity(&mut self, gravity: Vector<Real>) {
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if self.effective_inv_mass != 0.0 {
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let acceleration = self.force * self.effective_inv_mass;
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self.linvel += (gravity * self.gravity_scale + acceleration) * dt;
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self.force = na::zero();
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self.force += gravity * self.gravity_scale * self.mass();
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}
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}
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let angular_acceleration = self.effective_world_inv_inertia_sqrt
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pub(crate) fn integrate_accelerations(&mut self, dt: Real) {
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let linear_acc = self.force * self.effective_inv_mass;
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let angular_acc = self.effective_world_inv_inertia_sqrt
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* (self.effective_world_inv_inertia_sqrt * self.torque);
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self.angvel += angular_acceleration * dt;
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self.linvel += linear_acc * dt;
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self.angvel += angular_acc * dt;
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self.force = na::zero();
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self.torque = na::zero();
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}
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@@ -35,7 +35,9 @@ impl IslandSolver {
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joints: &mut [JointGraphEdge],
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joint_indices: &[JointIndex],
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) {
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if manifold_indices.len() != 0 || joint_indices.len() != 0 {
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let has_constraints = manifold_indices.len() != 0 || joint_indices.len() != 0;
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if has_constraints {
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counters.solver.velocity_assembly_time.resume();
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self.contact_constraints
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.init(island_id, params, bodies, manifolds, manifold_indices);
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@@ -54,13 +56,13 @@ impl IslandSolver {
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&mut self.joint_constraints.velocity_constraints,
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);
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counters.solver.velocity_resolution_time.pause();
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}
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counters.solver.velocity_update_time.resume();
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bodies.foreach_active_island_body_mut_internal(island_id, |_, rb| rb.integrate(params.dt));
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counters.solver.velocity_update_time.pause();
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counters.solver.velocity_update_time.resume();
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bodies.foreach_active_island_body_mut_internal(island_id, |_, rb| {
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rb.integrate(params.dt)
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});
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counters.solver.velocity_update_time.pause();
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if manifold_indices.len() != 0 || joint_indices.len() != 0 {
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counters.solver.position_resolution_time.resume();
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self.position_solver.solve(
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island_id,
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@@ -70,6 +72,14 @@ impl IslandSolver {
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&self.joint_constraints.position_constraints,
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);
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counters.solver.position_resolution_time.pause();
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} else {
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counters.solver.velocity_update_time.resume();
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bodies.foreach_active_island_body_mut_internal(island_id, |_, rb| {
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// Since we didn't run the velocity solver we need to integrate the accelerations here
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rb.integrate_accelerations(params.dt);
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rb.integrate(params.dt);
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});
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counters.solver.velocity_update_time.pause();
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}
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}
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}
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@@ -184,6 +184,31 @@ impl ParallelIslandSolver {
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self.positions
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.resize(bodies.active_island(island_id).len(), Isometry::identity());
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{
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// Initialize `mj_lambdas` (per-body velocity deltas) with external accelerations (gravity etc):
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let island_range = bodies.active_island_range(island_id);
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let active_bodies = &bodies.active_dynamic_set[island_range];
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let bodies = &mut bodies.bodies;
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let thread = &self.thread;
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concurrent_loop! {
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let batch_size = thread.batch_size;
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for handle in active_bodies[thread.body_integration_index, thread.num_integrated_bodies] {
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let rb = &mut bodies[handle.0];
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let dvel = &mut self.mj_lambdas[rb.active_set_offset];
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dvel.linear += rb.force * (rb.effective_inv_mass * params.dt);
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rb.force = na::zero();
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// dvel.angular is actually storing angular velocity delta multiplied by the square root of the inertia tensor:
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dvel.angular += rb.effective_world_inv_inertia_sqrt * rb.torque * params.dt;
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rb.torque = na::zero();
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}
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}
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}
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for _ in 0..num_task_per_island {
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// We use AtomicPtr because it is Send+Sync while *mut is not.
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// See https://internals.rust-lang.org/t/shouldnt-pointers-be-send-sync-or/8818
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@@ -32,6 +32,18 @@ impl VelocitySolver {
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self.mj_lambdas
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.resize(bodies.active_island(island_id).len(), DeltaVel::zero());
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// Initialize delta-velocities (`mj_lambdas`) with external forces (gravity etc):
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bodies.foreach_active_island_body_mut_internal(island_id, |_, rb| {
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let dvel = &mut self.mj_lambdas[rb.active_set_offset];
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dvel.linear += rb.force * (rb.effective_inv_mass * params.dt);
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rb.force = na::zero();
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// dvel.angular is actually storing angular velocity delta multiplied by the square root of the inertia tensor:
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dvel.angular += rb.effective_world_inv_inertia_sqrt * rb.torque * params.dt;
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rb.torque = na::zero();
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});
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/*
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* Warmstart constraints.
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*/
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@@ -154,7 +154,7 @@ impl PhysicsPipeline {
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self.counters.stages.update_time.start();
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bodies.foreach_active_dynamic_body_mut_internal(|_, b| {
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b.update_world_mass_properties();
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b.integrate_accelerations(integration_parameters.dt, *gravity)
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b.add_gravity(*gravity)
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});
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self.counters.stages.update_time.pause();
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