nalgebra/src/base/swizzle.rs

use crate::base::{DimName, Scalar, Vector, Vector2, Vector3};
use crate::storage::Storage;
use typenum::{self, Cmp, Greater};

macro_rules! impl_swizzle {
    ($( where $BaseDim: ident: $( $name: ident() -> $Result: ident[$($i: expr),+] ),+ ;)* ) => {
        $(
            impl<N: Scalar + Copy, D: DimName, S: Storage<N, D>> Vector<N, D, S>
            where D::Value: Cmp<typenum::$BaseDim, Output=Greater>
            {
                $(
                    /// Builds a new vector from components of `self`.
                    #[inline]
                    pub fn $name(&self) -> $Result<N> {
                        $Result::new($(self[$i]),*)
                    }
                )*
            }
        )*
    }
}

impl_swizzle!(
    where U0: xx()  -> Vector2[0, 0],
              xxx() -> Vector3[0, 0, 0];

    where U1: xy()  -> Vector2[0, 1],
              yx()  -> Vector2[1, 0],
              yy()  -> Vector2[1, 1],
              xxy() -> Vector3[0, 0, 1],
              xyx() -> Vector3[0, 1, 0],
              xyy() -> Vector3[0, 1, 1],
              yxx() -> Vector3[1, 0, 0],
              yxy() -> Vector3[1, 0, 1],
              yyx() -> Vector3[1, 1, 0],
              yyy() -> Vector3[1, 1, 1];

    where U2: xz()  -> Vector2[0, 2],
              yz()  -> Vector2[1, 2],
              zx()  -> Vector2[2, 0],
              zy()  -> Vector2[2, 1],
              zz()  -> Vector2[2, 2],
              xxz() -> Vector3[0, 0, 2],
              xyz() -> Vector3[0, 1, 2],
              xzx() -> Vector3[0, 2, 0],
              xzy() -> Vector3[0, 2, 1],
              xzz() -> Vector3[0, 2, 2],
              yxz() -> Vector3[1, 0, 2],
              yyz() -> Vector3[1, 1, 2],
              yzx() -> Vector3[1, 2, 0],
              yzy() -> Vector3[1, 2, 1],
              yzz() -> Vector3[1, 2, 2],
              zxx() -> Vector3[2, 0, 0],
              zxy() -> Vector3[2, 0, 1],
              zxz() -> Vector3[2, 0, 2],
              zyx() -> Vector3[2, 1, 0],
              zyy() -> Vector3[2, 1, 1],
              zyz() -> Vector3[2, 1, 2],
              zzx() -> Vector3[2, 2, 0],
              zzy() -> Vector3[2, 2, 1],
              zzz() -> Vector3[2, 2, 2];
);
2018 edition. 2019-03-23 21:29:07 +08:00			`use crate::base::{DimName, Scalar, Vector, Vector2, Vector3};`
			`use crate::storage::Storage;`
Use typenum type-level integer for swizzle dimension comparison. Fix #408. 2018-09-25 03:11:37 +08:00			`use typenum::{self, Cmp, Greater};`
Add swizzling up to dimension 3 to vectors. 2018-09-23 00:42:24 +08:00
			`macro_rules! impl_swizzle {`
Group swizzle methods by dimensional requirement. This is semantically equivalent, but improves the rendered documentation. 2018-11-24 03:05:29 +08:00			`($( where $BaseDim: ident: $( $name: ident() -> $Result: ident[$($i: expr),+] ),+ ;)* ) => {`
Add swizzling up to dimension 3 to vectors. 2018-09-23 00:42:24 +08:00			`$(`
Move `Copy` constraint from the definition of `Scalar` to all its use-sites. This should semantically be a no-op, but enables refactorings to use non-Copy scalars on a case-by-case basis. Also, the only instance of a `One + Zero` trait bound was changed into a `Zero + One` bound to match the others. The following sed scripts were used in the refactoring (with each clause added to reduce the error count of `cargo check`): ```bash export RELEVANT_SOURCEFILES="$(find src -name '.rs') $(find examples -name '.rs')" for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar,/N: Scalar+Copy,/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + Field/N: Scalar + Copy + Field/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + Zero/N: Scalar + Copy + Zero/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + Closed/N: Scalar + Copy + Closed/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + Eq/N: Scalar + Copy + Eq/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + PartialOrd/N: Scalar + Copy + PartialOrd/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + Zero/N: Scalar + Copy + Zero/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + PartialEq/N: Scalar + Copy + PartialEq/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar>/N: Scalar+Copy>/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + $bound/N: Scalar + Copy + $bound/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + $bound/N: Scalar + Copy + $bound/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\): Scalar,/N\1: Scalar+Copy,/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N: Scalar + $trait/N: Scalar + Copy + $trait/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\): Scalar + Superset/N\1: Scalar + Copy + Superset/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\): Scalar + \([a-zA-Z]Eq\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \([a-zA-Z]Eq\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(hash::\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar {/N\1: Scalar + Copy {/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Zero\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Bounded\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Lattice\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Meet\\|Join\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(fmt::\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Ring\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Hash\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Send\\|Sync\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/One + Zero/Zero + One/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \(Zero\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar + \($marker\)/N\1: Scalar + Copy + \2/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/N\([0-9]\?\): Scalar>/N\1: Scalar + Copy>/' $f; done for f in $RELEVANT_SOURCEFILES; do sed -i 's/Scalar+Copy/Scalar + Copy/' $f; done ``` 2019-11-20 04:57:37 +08:00			`impl<N: Scalar + Copy, D: DimName, S: Storage<N, D>> Vector<N, D, S>`
Group swizzle methods by dimensional requirement. This is semantically equivalent, but improves the rendered documentation. 2018-11-24 03:05:29 +08:00			`where D::Value: Cmp<typenum::$BaseDim, Output=Greater>`
			`{`
			`$(`
			/// Builds a new vector from components of `self`.
			`#[inline]`
			`pub fn $name(&self) -> $Result<N> {`
			`$Result::new($(self[$i]),*)`
			`}`
			`)*`
Add swizzling up to dimension 3 to vectors. 2018-09-23 00:42:24 +08:00			`}`
			`)*`
			`}`
			`}`

			`impl_swizzle!(`
Group swizzle methods by dimensional requirement. This is semantically equivalent, but improves the rendered documentation. 2018-11-24 03:05:29 +08:00			`where U0: xx() -> Vector2[0, 0],`
			`xxx() -> Vector3[0, 0, 0];`

			`where U1: xy() -> Vector2[0, 1],`
			`yx() -> Vector2[1, 0],`
			`yy() -> Vector2[1, 1],`
			`xxy() -> Vector3[0, 0, 1],`
			`xyx() -> Vector3[0, 1, 0],`
			`xyy() -> Vector3[0, 1, 1],`
			`yxx() -> Vector3[1, 0, 0],`
			`yxy() -> Vector3[1, 0, 1],`
			`yyx() -> Vector3[1, 1, 0],`
			`yyy() -> Vector3[1, 1, 1];`

			`where U2: xz() -> Vector2[0, 2],`
			`yz() -> Vector2[1, 2],`
			`zx() -> Vector2[2, 0],`
			`zy() -> Vector2[2, 1],`
			`zz() -> Vector2[2, 2],`
			`xxz() -> Vector3[0, 0, 2],`
			`xyz() -> Vector3[0, 1, 2],`
			`xzx() -> Vector3[0, 2, 0],`
			`xzy() -> Vector3[0, 2, 1],`
			`xzz() -> Vector3[0, 2, 2],`
			`yxz() -> Vector3[1, 0, 2],`
			`yyz() -> Vector3[1, 1, 2],`
			`yzx() -> Vector3[1, 2, 0],`
			`yzy() -> Vector3[1, 2, 1],`
			`yzz() -> Vector3[1, 2, 2],`
			`zxx() -> Vector3[2, 0, 0],`
			`zxy() -> Vector3[2, 0, 1],`
			`zxz() -> Vector3[2, 0, 2],`
			`zyx() -> Vector3[2, 1, 0],`
			`zyy() -> Vector3[2, 1, 1],`
			`zyz() -> Vector3[2, 1, 2],`
			`zzx() -> Vector3[2, 2, 0],`
			`zzy() -> Vector3[2, 2, 1],`
			`zzz() -> Vector3[2, 2, 2];`
Add rustfmt.toml and run it. 2018-10-22 13:00:10 +08:00			`);`