#![allow(missing_docs)] //! Structures to which matrices and vector can be auto-dereferenced (through `Deref`) to access //! components using their names. For example, if `v` is a 3D vector, one can write `v.z` instead //! of `v[2]`. use std::mem; use std::ops::{Deref, DerefMut}; use base::dimension::{U1, U2, U3, U4, U5, U6}; use base::storage::{ContiguousStorage, ContiguousStorageMut}; use base::{Matrix, Scalar}; /* * * Give coordinates to owned Vector{1 .. 6} and Matrix{1 .. 6} * */ macro_rules! coords_impl( ($T: ident; $($comps: ident),*) => { /// Data structure used to provide access to matrix and vector coordinates with the dot /// notation, e.g., `v.x` is the same as `v[0]` for a vector. #[repr(C)] #[derive(Eq, PartialEq, Clone, Hash, Debug, Copy)] #[cfg_attr(feature = "serde-serialize", derive(Serialize, Deserialize))] pub struct $T { $(pub $comps: N),* } } ); macro_rules! deref_impl( ($R: ty, $C: ty; $Target: ident) => { impl Deref for Matrix where S: ContiguousStorage { type Target = $Target; #[inline] fn deref(&self) -> &Self::Target { unsafe { mem::transmute(self.data.ptr()) } } } impl DerefMut for Matrix where S: ContiguousStorageMut { #[inline] fn deref_mut(&mut self) -> &mut Self::Target { unsafe { mem::transmute(self.data.ptr_mut()) } } } } ); /* * * Vector coordinates. * */ coords_impl!(X; x); coords_impl!(XY; x, y); coords_impl!(XYZ; x, y, z); coords_impl!(XYZW; x, y, z, w); coords_impl!(XYZWA; x, y, z, w, a); coords_impl!(XYZWAB; x, y, z, w, a, b); coords_impl!(IJKW; i, j, k, w); /* * Rectangular matrices with 2 rows. */ coords_impl!(M2x2; m11, m21, m12, m22); coords_impl!(M2x3; m11, m21, m12, m22, m13, m23); coords_impl!(M2x4; m11, m21, m12, m22, m13, m23, m14, m24); coords_impl!(M2x5; m11, m21, m12, m22, m13, m23, m14, m24, m15, m25); coords_impl!(M2x6; m11, m21, m12, m22, m13, m23, m14, m24, m15, m25, m16, m26); /* * Rectangular matrices with 3 rows. */ coords_impl!(M3x2; m11, m21, m31, m12, m22, m32); coords_impl!(M3x3; m11, m21, m31, m12, m22, m32, m13, m23, m33); coords_impl!(M3x4; m11, m21, m31, m12, m22, m32, m13, m23, m33, m14, m24, m34); coords_impl!(M3x5; m11, m21, m31, m12, m22, m32, m13, m23, m33, m14, m24, m34, m15, m25, m35); coords_impl!(M3x6; m11, m21, m31, m12, m22, m32, m13, m23, m33, m14, m24, m34, m15, m25, m35, m16, m26, m36); /* * Rectangular matrices with 4 rows. */ coords_impl!(M4x2; m11, m21, m31, m41, m12, m22, m32, m42); coords_impl!(M4x3; m11, m21, m31, m41, m12, m22, m32, m42, m13, m23, m33, m43); coords_impl!(M4x4; m11, m21, m31, m41, m12, m22, m32, m42, m13, m23, m33, m43, m14, m24, m34, m44); coords_impl!(M4x5; m11, m21, m31, m41, m12, m22, m32, m42, m13, m23, m33, m43, m14, m24, m34, m44, m15, m25, m35, m45); coords_impl!(M4x6; m11, m21, m31, m41, m12, m22, m32, m42, m13, m23, m33, m43, m14, m24, m34, m44, m15, m25, m35, m45, m16, m26, m36, m46); /* * Rectangular matrices with 5 rows. */ coords_impl!(M5x2; m11, m21, m31, m41, m51, m12, m22, m32, m42, m52); coords_impl!(M5x3; m11, m21, m31, m41, m51, m12, m22, m32, m42, m52, m13, m23, m33, m43, m53); coords_impl!(M5x4; m11, m21, m31, m41, m51, m12, m22, m32, m42, m52, m13, m23, m33, m43, m53, m14, m24, m34, m44, m54); coords_impl!(M5x5; m11, m21, m31, m41, m51, m12, m22, m32, m42, m52, m13, m23, m33, m43, m53, m14, m24, m34, m44, m54, m15, m25, m35, m45, m55); coords_impl!(M5x6; m11, m21, m31, m41, m51, m12, m22, m32, m42, m52, m13, m23, m33, m43, m53, m14, m24, m34, m44, m54, m15, m25, m35, m45, m55, m16, m26, m36, m46, m56); /* * Rectangular matrices with 6 rows. */ coords_impl!(M6x2; m11, m21, m31, m41, m51, m61, m12, m22, m32, m42, m52, m62); coords_impl!(M6x3; m11, m21, m31, m41, m51, m61, m12, m22, m32, m42, m52, m62, m13, m23, m33, m43, m53, m63); coords_impl!(M6x4; m11, m21, m31, m41, m51, m61, m12, m22, m32, m42, m52, m62, m13, m23, m33, m43, m53, m63, m14, m24, m34, m44, m54, m64); coords_impl!(M6x5; m11, m21, m31, m41, m51, m61, m12, m22, m32, m42, m52, m62, m13, m23, m33, m43, m53, m63, m14, m24, m34, m44, m54, m64, m15, m25, m35, m45, m55, m65); coords_impl!(M6x6; m11, m21, m31, m41, m51, m61, m12, m22, m32, m42, m52, m62, m13, m23, m33, m43, m53, m63, m14, m24, m34, m44, m54, m64, m15, m25, m35, m45, m55, m65, m16, m26, m36, m46, m56, m66); /* * * Attach coordinates to matrices. * */ deref_impl!(U1, U1; X); deref_impl!(U2, U1; XY); deref_impl!(U3, U1; XYZ); deref_impl!(U4, U1; XYZW); deref_impl!(U5, U1; XYZWA); deref_impl!(U6, U1; XYZWAB); deref_impl!(U1, U2; XY); deref_impl!(U1, U3; XYZ); deref_impl!(U1, U4; XYZW); deref_impl!(U1, U5; XYZWA); deref_impl!(U1, U6; XYZWAB); deref_impl!(U2, U2; M2x2); deref_impl!(U2, U3; M2x3); deref_impl!(U2, U4; M2x4); deref_impl!(U2, U5; M2x5); deref_impl!(U2, U6; M2x6); deref_impl!(U3, U2; M3x2); deref_impl!(U3, U3; M3x3); deref_impl!(U3, U4; M3x4); deref_impl!(U3, U5; M3x5); deref_impl!(U3, U6; M3x6); deref_impl!(U4, U2; M4x2); deref_impl!(U4, U3; M4x3); deref_impl!(U4, U4; M4x4); deref_impl!(U4, U5; M4x5); deref_impl!(U4, U6; M4x6); deref_impl!(U5, U2; M5x2); deref_impl!(U5, U3; M5x3); deref_impl!(U5, U4; M5x4); deref_impl!(U5, U5; M5x5); deref_impl!(U5, U6; M5x6); deref_impl!(U6, U2; M6x2); deref_impl!(U6, U3; M6x3); deref_impl!(U6, U4; M6x4); deref_impl!(U6, U5; M6x5); deref_impl!(U6, U6; M6x6);