use std::ops::{Mul, MulAssign};
use simba::scalar::ClosedMulAssign;
use crate::base::constraint::{SameNumberOfColumns, SameNumberOfRows, ShapeConstraint};
use crate::base::dimension::U1;
use crate::base::{Const, SVector, Scalar};
use crate::geometry::{Point, Scale};
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: &'b Scale<T, D>, Output = Scale<T, D>;
Scale::from(self.vector.component_mul(&right.vector));
'a, 'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: Scale<T, D>, Output = Scale<T, D>;
Scale::from(self.vector.component_mul(&right.vector));
'a);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: &'b Scale<T, D>, Output = Scale<T, D>;
Scale::from(self.vector.component_mul(&right.vector));
'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: Scale<T, D>, Output = Scale<T, D>;
Scale::from(self.vector.component_mul(&right.vector)); );
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: T, Output = Scale<T, D>;
Scale::from(&self.vector * right);
'a);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: T, Output = Scale<T, D>;
Scale::from(self.vector * right); );
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: &'b Point<T, D>, Output = Point<T, D>;
Point::from(self.vector.component_mul(&right.coords));
'a, 'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: Point<T, D>, Output = Point<T, D>;
Point::from(self.vector.component_mul(&right.coords));
'a);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: &'b Point<T, D>, Output = Point<T, D>;
Point::from(self.vector.component_mul(&right.coords));
'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: Point<T, D>, Output = Point<T, D>;
Point::from(self.vector.component_mul(&right.coords)); );
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: &'b SVector<T, D>, Output = SVector<T, D>;
self.vector.component_mul(right);
'a, 'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: &'a Scale<T, D>, right: SVector<T, D>, Output = SVector<T, D>;
self.vector.component_mul(&right);
'a);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: &'b SVector<T, D>, Output = SVector<T, D>;
self.vector.component_mul(right);
'b);
add_sub_impl!(Mul, mul, ClosedMulAssign;
(Const<D>, U1), (Const<D>, U1) -> (Const<D>, U1)
const D; for; where;
self: Scale<T, D>, right: SVector<T, D>, Output = SVector<T, D>;
self.vector.component_mul(&right); );
add_sub_assign_impl!(MulAssign, mul_assign, ClosedMulAssign;
const D;
self: Scale<T, D>, right: &'b Scale<T, D>;
self.vector.component_mul_assign(&right.vector);
'b);
add_sub_assign_impl!(MulAssign, mul_assign, ClosedMulAssign;
const D;
self: Scale<T, D>, right: Scale<T, D>;
self.vector.component_mul_assign(&right.vector); );
add_sub_assign_impl!(MulAssign, mul_assign, ClosedMulAssign;
const D;
self: Scale<T, D>, right: T;
self.vector *= right; );