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use crate::math::{Isometry, Point, Real, Translation, Vector};
#[derive(Debug, Copy, Clone)]
pub struct NonlinearRigidMotion {
pub start: Isometry<Real>,
pub local_center: Point<Real>,
pub linvel: Vector<Real>,
#[cfg(feature = "dim2")]
pub angvel: Real,
#[cfg(feature = "dim3")]
pub angvel: Vector<Real>,
}
impl NonlinearRigidMotion {
#[cfg(feature = "dim2")]
pub fn new(
start: Isometry<Real>,
local_center: Point<Real>,
linvel: Vector<Real>,
angvel: Real,
) -> Self {
NonlinearRigidMotion {
start,
local_center,
linvel,
angvel,
}
}
#[cfg(feature = "dim3")]
pub fn new(
start: Isometry<Real>,
local_center: Point<Real>,
linvel: Vector<Real>,
angvel: Vector<Real>,
) -> Self {
NonlinearRigidMotion {
start,
local_center,
linvel,
angvel,
}
}
pub fn identity() -> Self {
Self::constant_position(Isometry::identity())
}
pub fn constant_position(pos: Isometry<Real>) -> Self {
Self {
start: pos,
linvel: na::zero(),
angvel: na::zero(),
local_center: Point::origin(),
}
}
fn set_start(&mut self, new_start: Isometry<Real>) {
self.local_center = new_start.inverse_transform_point(&(self.start * self.local_center));
self.start = new_start;
}
pub fn freeze(&mut self, t: Real) {
self.start = self.position_at_time(t);
self.linvel = na::zero();
self.angvel = na::zero();
}
#[must_use]
pub fn append_translation(&self, tra: Vector<Real>) -> Self {
let mut result = self.clone();
result.set_start(Translation::from(tra) * result.start);
result
}
#[must_use]
pub fn prepend_translation(&self, tra: Vector<Real>) -> Self {
let mut result = self.clone();
result.set_start(result.start * Translation::from(tra));
result
}
#[must_use]
pub fn append(&self, iso: Isometry<Real>) -> Self {
let mut result = self.clone();
result.set_start(iso * result.start);
result
}
#[must_use]
pub fn prepend(&self, iso: Isometry<Real>) -> Self {
let mut result = self.clone();
result.set_start(result.start * iso);
result
}
pub fn position_at_time(&self, t: Real) -> Isometry<Real> {
let center = self.start * self.local_center;
let shift = Translation::from(center.coords);
(shift * Isometry::new(self.linvel * t, self.angvel * t)) * (shift.inverse() * self.start)
}
}