2017-08-14 01:53:04 +08:00
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#[cfg(feature = "serde-serialize")]
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2018-10-22 13:00:10 +08:00
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use serde::{Deserialize, Serialize};
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2017-08-14 01:53:04 +08:00
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2017-08-03 01:38:28 +08:00
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use num::Zero;
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use num_complex::Complex;
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2018-05-25 05:51:57 +08:00
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use na::allocator::Allocator;
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2017-08-03 01:38:28 +08:00
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use na::dimension::Dim;
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2017-08-14 01:52:51 +08:00
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use na::storage::Storage;
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2018-05-25 05:51:57 +08:00
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use na::{DefaultAllocator, Matrix, MatrixMN, MatrixN, Scalar};
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2017-08-03 01:38:28 +08:00
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2018-05-25 05:51:57 +08:00
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use lapack;
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2017-08-03 01:38:28 +08:00
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2018-09-24 12:48:42 +08:00
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/// The cholesky decomposition of a symmetric-definite-positive matrix.
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2017-08-14 01:53:04 +08:00
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#[cfg_attr(feature = "serde-serialize", derive(Serialize, Deserialize))]
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2018-05-25 05:51:57 +08:00
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#[cfg_attr(
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feature = "serde-serialize",
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2018-10-22 13:00:10 +08:00
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serde(bound(
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serialize = "DefaultAllocator: Allocator<N, D>,
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MatrixN<N, D>: Serialize"
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))
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)]
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#[cfg_attr(
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feature = "serde-serialize",
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2018-10-22 13:00:10 +08:00
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serde(bound(
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deserialize = "DefaultAllocator: Allocator<N, D>,
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MatrixN<N, D>: Deserialize<'de>"
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))
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)]
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#[derive(Clone, Debug)]
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pub struct Cholesky<N: Scalar, D: Dim>
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where DefaultAllocator: Allocator<N, D, D>
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{
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l: MatrixN<N, D>,
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}
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2017-08-14 01:53:04 +08:00
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impl<N: Scalar, D: Dim> Copy for Cholesky<N, D>
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where
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DefaultAllocator: Allocator<N, D, D>,
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MatrixN<N, D>: Copy,
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{}
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2017-08-03 01:38:28 +08:00
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impl<N: CholeskyScalar + Zero, D: Dim> Cholesky<N, D>
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where DefaultAllocator: Allocator<N, D, D>
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{
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/// Computes the cholesky decomposition of the given symmetric-definite-positive square
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/// matrix.
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///
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/// Only the lower-triangular part of the input matrix is considered.
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#[inline]
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pub fn new(mut m: MatrixN<N, D>) -> Option<Self> {
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// FIXME: check symmetry as well?
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assert!(
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m.is_square(),
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"Unable to compute the cholesky decomposition of a non-square matrix."
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);
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let uplo = b'L';
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let dim = m.nrows() as i32;
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let mut info = 0;
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N::xpotrf(uplo, dim, m.as_mut_slice(), dim, &mut info);
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lapack_check!(info);
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Some(Cholesky { l: m })
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}
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/// Retrieves the lower-triangular factor of the cholesky decomposition.
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pub fn unpack(mut self) -> MatrixN<N, D> {
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self.l.fill_upper_triangle(Zero::zero(), 1);
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self.l
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}
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/// Retrieves the lower-triangular factor of che cholesky decomposition, without zeroing-out
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/// its strict upper-triangular part.
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///
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/// This is an allocation-less version of `self.l()`. The values of the strict upper-triangular
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/// part are garbage and should be ignored by further computations.
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pub fn unpack_dirty(self) -> MatrixN<N, D> {
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self.l
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}
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/// Retrieves the lower-triangular factor of the cholesky decomposition.
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pub fn l(&self) -> MatrixN<N, D> {
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let mut res = self.l.clone();
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res.fill_upper_triangle(Zero::zero(), 1);
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res
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}
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/// Retrieves the lower-triangular factor of the cholesky decomposition, without zeroing-out
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/// its strict upper-triangular part.
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///
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/// This is an allocation-less version of `self.l()`. The values of the strict upper-triangular
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/// part are garbage and should be ignored by further computations.
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pub fn l_dirty(&self) -> &MatrixN<N, D> {
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&self.l
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}
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/// Solves the symmetric-definite-positive linear system `self * x = b`, where `x` is the
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/// unknown to be determined.
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pub fn solve<R2: Dim, C2: Dim, S2>(
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&self,
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b: &Matrix<N, R2, C2, S2>,
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) -> Option<MatrixMN<N, R2, C2>>
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where
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S2: Storage<N, R2, C2>,
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DefaultAllocator: Allocator<N, R2, C2>,
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{
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let mut res = b.clone_owned();
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if self.solve_mut(&mut res) {
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Some(res)
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} else {
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None
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}
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}
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/// Solves in-place the symmetric-definite-positive linear system `self * x = b`, where `x` is
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/// the unknown to be determined.
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pub fn solve_mut<R2: Dim, C2: Dim>(&self, b: &mut MatrixMN<N, R2, C2>) -> bool
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where DefaultAllocator: Allocator<N, R2, C2> {
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let dim = self.l.nrows();
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assert!(
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b.nrows() == dim,
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"The number of rows of `b` must be equal to the dimension of the matrix `a`."
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);
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let nrhs = b.ncols() as i32;
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let lda = dim as i32;
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let ldb = dim as i32;
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let mut info = 0;
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2018-02-02 19:26:35 +08:00
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N::xpotrs(
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b'L',
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dim as i32,
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nrhs,
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self.l.as_slice(),
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lda,
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b.as_mut_slice(),
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ldb,
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&mut info,
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);
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lapack_test!(info)
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}
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/// Computes the inverse of the decomposed matrix.
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pub fn inverse(mut self) -> Option<MatrixN<N, D>> {
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let dim = self.l.nrows();
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let mut info = 0;
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2018-02-02 19:26:35 +08:00
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N::xpotri(
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b'L',
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dim as i32,
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self.l.as_mut_slice(),
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dim as i32,
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&mut info,
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);
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lapack_check!(info);
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// Copy lower triangle to upper triangle.
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for i in 0..dim {
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for j in i + 1..dim {
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unsafe { *self.l.get_unchecked_mut((i, j)) = *self.l.get_unchecked((j, i)) };
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}
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}
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Some(self.l)
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}
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}
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/*
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*
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* Lapack functions dispatch.
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*
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*/
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/// Trait implemented by floats (`f32`, `f64`) and complex floats (`Complex<f32>`, `Complex<f64>`)
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/// supported by the cholesky decomposition.
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pub trait CholeskyScalar: Scalar {
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#[allow(missing_docs)]
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fn xpotrf(uplo: u8, n: i32, a: &mut [Self], lda: i32, info: &mut i32);
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#[allow(missing_docs)]
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fn xpotrs(
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uplo: u8,
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n: i32,
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nrhs: i32,
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a: &[Self],
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lda: i32,
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b: &mut [Self],
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ldb: i32,
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info: &mut i32,
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);
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#[allow(missing_docs)]
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fn xpotri(uplo: u8, n: i32, a: &mut [Self], lda: i32, info: &mut i32);
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}
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macro_rules! cholesky_scalar_impl(
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($N: ty, $xpotrf: path, $xpotrs: path, $xpotri: path) => (
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impl CholeskyScalar for $N {
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#[inline]
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fn xpotrf(uplo: u8, n: i32, a: &mut [Self], lda: i32, info: &mut i32) {
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unsafe { $xpotrf(uplo, n, a, lda, info) }
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}
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#[inline]
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fn xpotrs(uplo: u8, n: i32, nrhs: i32, a: &[Self], lda: i32,
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b: &mut [Self], ldb: i32, info: &mut i32) {
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unsafe { $xpotrs(uplo, n, nrhs, a, lda, b, ldb, info) }
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}
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#[inline]
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fn xpotri(uplo: u8, n: i32, a: &mut [Self], lda: i32, info: &mut i32) {
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unsafe { $xpotri(uplo, n, a, lda, info) }
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}
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}
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)
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);
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2018-05-25 05:51:57 +08:00
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cholesky_scalar_impl!(f32, lapack::spotrf, lapack::spotrs, lapack::spotri);
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cholesky_scalar_impl!(f64, lapack::dpotrf, lapack::dpotrs, lapack::dpotri);
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cholesky_scalar_impl!(Complex<f32>, lapack::cpotrf, lapack::cpotrs, lapack::cpotri);
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cholesky_scalar_impl!(Complex<f64>, lapack::zpotrf, lapack::zpotrs, lapack::zpotri);
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