use na::{DVector, RealField, Unit, Vector3};
use std::ops::Range;
use crate::joint::JointConstraint;
use crate::math::{AngularVector, Point};
use crate::object::{BodyPartHandle, BodySet};
use crate::solver::helper;
use crate::solver::{ConstraintSet, GenericNonlinearConstraint, IntegrationParameters,
NonlinearConstraintGenerator};
pub struct RectangularConstraint<N: RealField> {
b1: BodyPartHandle,
b2: BodyPartHandle,
anchor1: Point<N>,
anchor2: Point<N>,
axis1: Unit<AngularVector<N>>,
lin_impulse: N,
ang_impulses: Vector3<N>,
bilateral_ground_rng: Range<usize>,
bilateral_rng: Range<usize>,
}
impl<N: RealField> RectangularConstraint<N> {
pub fn new(
b1: BodyPartHandle,
b2: BodyPartHandle,
anchor1: Point<N>,
axis1: Unit<AngularVector<N>>,
anchor2: Point<N>,
) -> Self {
RectangularConstraint {
b1,
b2,
anchor1,
anchor2,
axis1,
lin_impulse: N::zero(),
ang_impulses: Vector3::zeros(),
bilateral_ground_rng: 0..0,
bilateral_rng: 0..0,
}
}
}
impl<N: RealField> JointConstraint<N> for RectangularConstraint<N> {
fn num_velocity_constraints(&self) -> usize {
4
}
fn anchors(&self) -> (BodyPartHandle, BodyPartHandle) {
(self.b1, self.b2)
}
fn velocity_constraints(
&mut self,
_: &IntegrationParameters<N>,
bodies: &BodySet<N>,
ext_vels: &DVector<N>,
ground_j_id: &mut usize,
j_id: &mut usize,
jacobians: &mut [N],
constraints: &mut ConstraintSet<N>,
) {
let body1 = try_ret!(bodies.body(self.b1.0));
let body2 = try_ret!(bodies.body(self.b2.0));
let part1 = try_ret!(body1.part(self.b1.1));
let part2 = try_ret!(body2.part(self.b2.1));
let pos1 = body1.position_at_material_point(part1, &self.anchor1);
let pos2 = body2.position_at_material_point(part2, &self.anchor2);
let anchor1 = Point::from(pos1.translation.vector);
let anchor2 = Point::from(pos2.translation.vector);
let assembly_id1 = body1.companion_id();
let assembly_id2 = body2.companion_id();
let first_bilateral_ground = constraints.velocity.bilateral_ground.len();
let first_bilateral = constraints.velocity.bilateral.len();
let axis1 = pos1 * self.axis1;
helper::cancel_relative_linear_velocity_wrt_axis(
body1,
part1,
body2,
part2,
assembly_id1,
assembly_id2,
&anchor1,
&anchor2,
&axis1,
ext_vels,
self.lin_impulse,
0,
ground_j_id,
j_id,
jacobians,
constraints,
);
helper::cancel_relative_angular_velocity(
body1,
part1,
body2,
part1,
assembly_id1,
assembly_id2,
&anchor1,
&anchor2,
ext_vels,
&self.ang_impulses,
1,
ground_j_id,
j_id,
jacobians,
constraints,
);
self.bilateral_ground_rng =
first_bilateral_ground..constraints.velocity.bilateral_ground.len();
self.bilateral_rng = first_bilateral..constraints.velocity.bilateral.len();
}
fn cache_impulses(&mut self, constraints: &ConstraintSet<N>) {
for c in &constraints.velocity.bilateral_ground[self.bilateral_ground_rng.clone()] {
if c.impulse_id == 0 {
self.lin_impulse = c.impulse
} else {
self.ang_impulses[c.impulse_id - 1] = c.impulse;
}
}
for c in &constraints.velocity.bilateral[self.bilateral_rng.clone()] {
if c.impulse_id == 0 {
self.lin_impulse = c.impulse
} else {
self.ang_impulses[c.impulse_id - 1] = c.impulse;
}
}
}
}
impl<N: RealField> NonlinearConstraintGenerator<N> for RectangularConstraint<N> {
fn num_position_constraints(&self, bodies: &BodySet<N>) -> usize {
if self.is_active(bodies) {
2
} else {
0
}
}
fn position_constraint(
&self,
params: &IntegrationParameters<N>,
i: usize,
bodies: &mut BodySet<N>,
jacobians: &mut [N],
) -> Option<GenericNonlinearConstraint<N>> {
let body1 = bodies.body(self.b1.0)?;
let body2 = bodies.body(self.b2.0)?;
let part1 = body1.part(self.b1.1)?;
let part2 = body2.part(self.b2.1)?;
let pos1 = body1.position_at_material_point(part1, &self.anchor1);
let pos2 = body2.position_at_material_point(part2, &self.anchor2);
let anchor1 = Point::from(pos1.translation.vector);
let anchor2 = Point::from(pos2.translation.vector);
let axis1 = pos1 * self.axis1;
if i == 0 {
return helper::cancel_relative_translation_wrt_axis(
params,
body1,
part1,
body2,
part2,
&anchor1,
&anchor2,
&axis1,
jacobians,
);
}
if i == 1 {
return helper::cancel_relative_rotation(
params,
body1,
part1,
body2,
part2,
&anchor1,
&anchor2,
&pos1.rotation,
&pos2.rotation,
jacobians,
);
}
return None;
}
}