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use crate::math::{Isometry, Point};
use crate::pipeline::narrow_phase::{ContactDispatcher, ContactManifoldGenerator};
use crate::query::{
self, ContactKinematic, ContactManifold, ContactPrediction, ContactPreprocessor,
NeighborhoodGeometry,
};
use crate::shape::{Ball, FeatureId, Shape};
use na::RealField;
use std::marker::PhantomData;
#[derive(Clone)]
pub struct BallBallManifoldGenerator<N: RealField> {
phantom: PhantomData<N>,
}
impl<N: RealField> BallBallManifoldGenerator<N> {
#[inline]
pub fn new() -> BallBallManifoldGenerator<N> {
BallBallManifoldGenerator {
phantom: PhantomData,
}
}
}
impl<N: RealField> ContactManifoldGenerator<N> for BallBallManifoldGenerator<N> {
fn generate_contacts(
&mut self,
_: &dyn ContactDispatcher<N>,
ma: &Isometry<N>,
a: &dyn Shape<N>,
proc1: Option<&dyn ContactPreprocessor<N>>,
mb: &Isometry<N>,
b: &dyn Shape<N>,
proc2: Option<&dyn ContactPreprocessor<N>>,
prediction: &ContactPrediction<N>,
manifold: &mut ContactManifold<N>,
) -> bool {
if let (Some(a), Some(b)) = (a.as_shape::<Ball<N>>(), b.as_shape::<Ball<N>>()) {
let center_a = Point::from(ma.translation.vector);
let center_b = Point::from(mb.translation.vector);
if let Some(contact) =
query::contact_ball_ball(¢er_a, a, ¢er_b, b, prediction.linear())
{
let mut kinematic = ContactKinematic::new();
kinematic.set_approx1(
FeatureId::Face(0),
Point::origin(),
NeighborhoodGeometry::Point,
);
kinematic.set_approx2(
FeatureId::Face(0),
Point::origin(),
NeighborhoodGeometry::Point,
);
kinematic.set_dilation1(a.radius());
kinematic.set_dilation2(b.radius());
let _ = manifold.push(contact, kinematic, Point::origin(), proc1, proc2);
}
true
} else {
false
}
}
}