forked from M-Labs/nalgebra
Add a Diag
to build, get and set a matrix diagonal.
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25
src/na.rs
25
src/na.rs
@ -6,18 +6,22 @@ pub use traits::{PartialLess, PartialEqual, PartialGreater, NotComparable};
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pub use traits::{
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Absolute,
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AbsoluteRotate,
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AnyVec,
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ApproxEq,
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FloatVec,
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FloatVecExt,
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Basis,
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Cast,
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Col,
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ColSlice, RowSlice,
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Cov,
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Cross,
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CrossMatrix,
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Det,
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Diag,
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Dim,
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Dot,
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Eye,
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FloatVec,
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FloatVecExt,
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FromHomogeneous,
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Indexable,
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Inv,
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@ -40,10 +44,7 @@ pub use traits::{
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Translate, Translation,
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Transpose,
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UniformSphereSample,
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AnyVec,
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VecExt,
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ColSlice, RowSlice,
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Eye
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VecExt
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};
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pub use structs::{
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@ -735,6 +736,9 @@ pub fn mean<N, M: Mean<N>>(observations: &M) -> N {
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//
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//
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/*
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* Eye
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*/
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/// Construct the identity matrix for a given dimension
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#[inline(always)]
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pub fn new_identity<M: Eye>(dim: uint) -> M { Eye::new_identity(dim) }
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@ -763,6 +767,15 @@ pub fn orthonormal_subspace_basis<V: Basis>(v: &V, f: |V| -> bool) {
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* Col<C>
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*/
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/*
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* Diag<V>
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*/
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/// Gets the diagonal of a square matrix.
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#[inline(always)]
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pub fn diag<M: Diag<V>, V>(m: &M) -> V {
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m.diag()
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}
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/*
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* Dim
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*/
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@ -2,6 +2,7 @@
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#![allow(missing_doc)] // we hide doc to not have to document the $trhs double dispatch trait.
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use std::cmp;
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use std::rand::Rand;
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use std::rand;
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use std::num::{One, Zero};
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@ -9,7 +10,7 @@ use traits::operations::ApproxEq;
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use std::mem;
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use structs::dvec::{DVec, DVecMulRhs};
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use traits::operations::{Inv, Transpose, Mean, Cov};
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use traits::structure::{Cast, ColSlice, RowSlice, Eye, Indexable};
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use traits::structure::{Cast, ColSlice, RowSlice, Diag, Eye, Indexable};
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use std::fmt::{Show, Formatter, Result};
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@ -549,6 +550,41 @@ impl<N: Clone> RowSlice<DVec<N>> for DMat<N> {
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}
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}
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impl<N: Clone + Zero> Diag<DVec<N>> for DMat<N> {
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#[inline]
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fn from_diag(diag: &DVec<N>) -> DMat<N> {
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let mut res = DMat::new_zeros(diag.len(), diag.len());
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res.set_diag(diag);
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res
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}
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#[inline]
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fn set_diag(&mut self, diag: &DVec<N>) {
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let smallest_dim = cmp::min(self.nrows, self.ncols);
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assert!(diag.len() == smallest_dim);
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for i in range(0, smallest_dim) {
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unsafe { self.unsafe_set((i, i), diag.unsafe_at(i)) }
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}
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}
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#[inline]
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fn diag(&self) -> DVec<N> {
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let smallest_dim = cmp::min(self.nrows, self.ncols);
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let mut diag: DVec<N> = DVec::new_zeros(smallest_dim);
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for i in range(0, smallest_dim) {
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unsafe { diag.unsafe_set(i, self.unsafe_at((i, i))) }
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}
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diag
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}
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}
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impl<N: ApproxEq<N>> ApproxEq<N> for DMat<N> {
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#[inline]
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fn approx_epsilon(_: Option<DMat<N>>) -> N {
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@ -11,7 +11,7 @@ use structs::vec::{Vec1, Vec2, Vec3, Vec4, Vec5, Vec6,
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use structs::dvec::{DVec1, DVec2, DVec3, DVec4, DVec5, DVec6};
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use traits::structure::{Cast, Row, Col, Iterable, IterableMut, Dim, Indexable,
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Eye, ColSlice, RowSlice};
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Eye, ColSlice, RowSlice, Diag};
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use traits::operations::{Absolute, Transpose, Inv, Outer};
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use traits::geometry::{ToHomogeneous, FromHomogeneous};
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@ -120,6 +120,7 @@ row_impl!(Mat1, Vec1, 1)
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col_impl!(Mat1, Vec1, 1)
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col_slice_impl!(Mat1, Vec1, DVec1, 1)
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row_slice_impl!(Mat1, Vec1, DVec1, 1)
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diag_impl!(Mat1, Vec1, 1)
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to_homogeneous_impl!(Mat1, Mat2, 1, 2)
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from_homogeneous_impl!(Mat1, Mat2, 1, 2)
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outer_impl!(Vec1, Mat1)
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@ -221,6 +222,7 @@ row_impl!(Mat2, Vec2, 2)
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col_impl!(Mat2, Vec2, 2)
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col_slice_impl!(Mat2, Vec2, DVec2, 2)
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row_slice_impl!(Mat2, Vec2, DVec2, 2)
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diag_impl!(Mat2, Vec2, 2)
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to_homogeneous_impl!(Mat2, Mat3, 2, 3)
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from_homogeneous_impl!(Mat2, Mat3, 2, 3)
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outer_impl!(Vec2, Mat2)
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@ -336,6 +338,7 @@ approx_eq_impl!(Mat3)
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// (specialized) col_impl!(Mat3, Vec3, 3)
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col_slice_impl!(Mat3, Vec3, DVec3, 3)
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row_slice_impl!(Mat3, Vec3, DVec3, 3)
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diag_impl!(Mat3, Vec3, 3)
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to_homogeneous_impl!(Mat3, Mat4, 3, 4)
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from_homogeneous_impl!(Mat3, Mat4, 3, 4)
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outer_impl!(Vec3, Mat3)
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@ -503,6 +506,7 @@ row_impl!(Mat4, Vec4, 4)
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col_impl!(Mat4, Vec4, 4)
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col_slice_impl!(Mat4, Vec4, DVec4, 4)
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row_slice_impl!(Mat4, Vec4, DVec4, 4)
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diag_impl!(Mat4, Vec4, 4)
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to_homogeneous_impl!(Mat4, Mat5, 4, 5)
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from_homogeneous_impl!(Mat4, Mat5, 4, 5)
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outer_impl!(Vec4, Mat4)
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@ -686,6 +690,7 @@ row_impl!(Mat5, Vec5, 5)
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col_impl!(Mat5, Vec5, 5)
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col_slice_impl!(Mat5, Vec5, DVec5, 5)
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row_slice_impl!(Mat5, Vec5, DVec5, 5)
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diag_impl!(Mat5, Vec5, 5)
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to_homogeneous_impl!(Mat5, Mat6, 5, 6)
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from_homogeneous_impl!(Mat5, Mat6, 5, 6)
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outer_impl!(Vec5, Mat5)
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@ -921,4 +926,5 @@ row_impl!(Mat6, Vec6, 6)
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col_impl!(Mat6, Vec6, 6)
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col_slice_impl!(Mat6, Vec6, DVec6, 6)
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row_slice_impl!(Mat6, Vec6, DVec6, 6)
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diag_impl!(Mat6, Vec6, 6)
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outer_impl!(Vec6, Mat6)
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@ -307,6 +307,39 @@ macro_rules! col_impl(
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)
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)
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macro_rules! diag_impl(
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($t: ident, $tv: ident, $dim: expr) => (
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impl<N: Clone + Zero> Diag<$tv<N>> for $t<N> {
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#[inline]
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fn from_diag(diag: &$tv<N>) -> $t<N> {
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let mut res: $t<N> = Zero::zero();
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res.set_diag(diag);
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res
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}
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#[inline]
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fn set_diag(&mut self, diag: &$tv<N>) {
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for i in range(0, $dim) {
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unsafe { self.unsafe_set((i, i), diag.unsafe_at(i)) }
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}
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}
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#[inline]
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fn diag(&self) -> $tv<N> {
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let mut diag: $tv<N> = Zero::zero();
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for i in range(0, $dim) {
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unsafe { diag.unsafe_set(i, self.unsafe_at((i, i))) }
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}
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diag
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}
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}
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)
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)
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macro_rules! mat_mul_mat_impl(
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($t: ident, $trhs: ident, $dim: expr) => (
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impl<N: Clone + Num> $trhs<N, $t<N>> for $t<N> {
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@ -6,7 +6,7 @@ pub use self::geometry::{AbsoluteRotate, Cross, CrossMatrix, Dot, FromHomogeneou
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pub use self::structure::{FloatVec, FloatVecExt, Basis, Cast, Col, Dim, Indexable,
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Iterable, IterableMut, Mat, Row, AnyVec, VecExt,
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ColSlice, RowSlice, Eye};
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ColSlice, RowSlice, Diag, Eye};
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pub use self::operations::{Absolute, ApproxEq, Cov, Det, Inv, LMul, Mean, Outer, PartialOrd, RMul,
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ScalarAdd, ScalarSub, ScalarMul, ScalarDiv, Transpose};
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@ -115,6 +115,18 @@ pub trait Dim {
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fn dim(unused_self: Option<Self>) -> uint;
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}
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/// Trait to get the diagonal of square matrices.
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pub trait Diag<V> {
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/// Creates a new matrix with the given diagonal.
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fn from_diag(diag: &V) -> Self;
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/// Sets the diagonal of this matrix.
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fn set_diag(&mut self, diag: &V);
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/// The diagonal of this matrix.
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fn diag(&self) -> V;
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}
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// FIXME: this trait should not be on nalgebra.
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// however, it is needed because std::ops::Index is (strangely) to poor: it
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// does not have a function to set values.
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