use num::{One, Zero};
use std::ops::{Div, DivAssign, Index, Mul, MulAssign};
use simba::scalar::{ClosedAdd, ClosedMul};
use crate::base::allocator::Allocator;
use crate::base::constraint::{AreMultipliable, ShapeConstraint};
use crate::base::dimension::{Dim, U1};
use crate::base::storage::Storage;
use crate::base::{
Const, DefaultAllocator, Matrix, OMatrix, SMatrix, SVector, Scalar, Unit, Vector,
};
use crate::geometry::{Point, Rotation};
impl<T: Scalar, const D: usize> Index<(usize, usize)> for Rotation<T, D> {
type Output = T;
#[inline]
fn index(&self, row_col: (usize, usize)) -> &T {
self.matrix().index(row_col)
}
}
md_impl_all!(
Mul, mul;
(Const<D>, Const<D>), (Const<D>, Const<D>)
const D;
for;
where;
self: Rotation<T, D>, right: Rotation<T, D>, Output = Rotation<T, D>;
[val val] => Rotation::from_matrix_unchecked(self.into_inner() * right.into_inner());
[ref val] => Rotation::from_matrix_unchecked(self.matrix() * right.into_inner());
[val ref] => Rotation::from_matrix_unchecked(self.into_inner() * right.matrix());
[ref ref] => Rotation::from_matrix_unchecked(self.matrix() * right.matrix());
);
md_impl_all!(
Div, div;
(Const<D>, Const<D>), (Const<D>, Const<D>)
const D;
for;
where;
self: Rotation<T, D>, right: Rotation<T, D>, Output = Rotation<T, D>;
[val val] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[ref val] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[val ref] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[ref ref] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
);
md_impl_all!(
Mul, mul;
(Const<D1>, Const<D1>), (R2, C2)
const D1;
for R2, C2, SB;
where R2: Dim, C2: Dim, SB: Storage<T, R2, C2>,
DefaultAllocator: Allocator<T, Const<D1>, C2>,
ShapeConstraint: AreMultipliable<Const<D1>, Const<D1>, R2, C2>;
self: Rotation<T, D1>, right: Matrix<T, R2, C2, SB>, Output = OMatrix<T, Const<D1>, C2>;
[val val] => self.into_inner() * right;
[ref val] => self.matrix() * right;
[val ref] => self.into_inner() * right;
[ref ref] => self.matrix() * right;
);
md_impl_all!(
Mul, mul;
(R1, C1), (Const<D2>, Const<D2>)
const D2;
for R1, C1, SA;
where R1: Dim, C1: Dim, SA: Storage<T, R1, C1>,
DefaultAllocator: Allocator<T, R1, Const<D2>>,
ShapeConstraint: AreMultipliable<R1, C1, Const<D2>, Const<D2>>;
self: Matrix<T, R1, C1, SA>, right: Rotation<T, D2>, Output = OMatrix<T, R1, Const<D2>>;
[val val] => self * right.into_inner();
[ref val] => self * right.into_inner();
[val ref] => self * right.matrix();
[ref ref] => self * right.matrix();
);
md_impl_all!(
Div, div;
(R1, C1), (Const<D2>, Const<D2>)
const D2;
for R1, C1, SA;
where R1: Dim, C1: Dim, SA: Storage<T, R1, C1>,
DefaultAllocator: Allocator<T, R1, Const<D2>>,
ShapeConstraint: AreMultipliable<R1, C1, Const<D2>, Const<D2>>;
self: Matrix<T, R1, C1, SA>, right: Rotation<T, D2>, Output = OMatrix<T, R1, Const<D2>>;
[val val] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[ref val] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[val ref] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
[ref ref] => #[allow(clippy::suspicious_arithmetic_impl)] { self * right.inverse() };
);
md_impl_all!(
Mul, mul;
(Const<D>, Const<D>), (Const<D>, U1)
const D;
for;
where ShapeConstraint: AreMultipliable<Const<D>, Const<D>, Const<D>, U1>;
self: Rotation<T, D>, right: Point<T, D>, Output = Point<T, D>;
[val val] => self.into_inner() * right;
[ref val] => self.matrix() * right;
[val ref] => self.into_inner() * right;
[ref ref] => self.matrix() * right;
);
md_impl_all!(
Mul, mul;
(Const<D>, Const<D>), (Const<D>, U1)
const D;
for S;
where S: Storage<T, Const<D>>,
ShapeConstraint: AreMultipliable<Const<D>, Const<D>, Const<D>, U1>;
self: Rotation<T, D>, right: Unit<Vector<T, Const<D>, S>>, Output = Unit<SVector<T, D>>;
[val val] => Unit::new_unchecked(self.into_inner() * right.into_inner());
[ref val] => Unit::new_unchecked(self.matrix() * right.into_inner());
[val ref] => Unit::new_unchecked(self.into_inner() * right.as_ref());
[ref ref] => Unit::new_unchecked(self.matrix() * right.as_ref());
);
md_assign_impl_all!(
MulAssign, mul_assign;
(Const<D>, Const<D>), (Const<D>, Const<D>)
const D; for; where;
self: Rotation<T, D>, right: Rotation<T, D>;
[val] => self.matrix_mut_unchecked().mul_assign(right.into_inner());
[ref] => self.matrix_mut_unchecked().mul_assign(right.matrix());
);
md_assign_impl_all!(
DivAssign, div_assign;
(Const<D>, Const<D>), (Const<D>, Const<D>)
const D; for; where;
self: Rotation<T, D>, right: Rotation<T, D>;
[val] => self.matrix_mut_unchecked().mul_assign(right.inverse().into_inner());
[ref] => self.matrix_mut_unchecked().mul_assign(right.inverse().matrix());
);
md_assign_impl_all!(
MulAssign, mul_assign;
(Const<R1>, Const<C1>), (Const<C1>, Const<C1>)
const R1, C1; for; where;
self: SMatrix<T, R1, C1>, right: Rotation<T, C1>;
[val] => self.mul_assign(right.into_inner());
[ref] => self.mul_assign(right.matrix());
);
md_assign_impl_all!(
DivAssign, div_assign;
(Const<R1>, Const<C1>), (Const<C1>, Const<C1>)
const R1, C1; for; where;
self: SMatrix<T, R1, C1>, right: Rotation<T, C1>;
[val] => self.mul_assign(right.inverse().into_inner());
[ref] => self.mul_assign(right.inverse().matrix());
);