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::Signed;
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2018-05-25 05:51:57 +08:00
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use std::cmp;
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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 na::allocator::Allocator;
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2017-08-03 01:38:28 +08:00
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use na::dimension::{Dim, DimMin, DimMinimum, U1};
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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, VectorN};
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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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/// The SVD decomposition of a general 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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2020-04-06 00:49:48 +08:00
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serde(bound(serialize = "DefaultAllocator: Allocator<N, DimMinimum<R, C>> +
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2017-08-14 01:53:04 +08:00
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Allocator<N, R, R> +
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Allocator<N, C, C>,
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2018-09-13 12:55:58 +08:00
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MatrixN<N, R>: Serialize,
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MatrixN<N, C>: Serialize,
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2020-04-06 00:49:48 +08:00
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VectorN<N, DimMinimum<R, C>>: Serialize"))
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2018-05-25 05:51:57 +08:00
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)]
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#[cfg_attr(
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feature = "serde-serialize",
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2020-04-06 00:49:48 +08:00
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serde(bound(serialize = "DefaultAllocator: Allocator<N, DimMinimum<R, C>> +
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2017-08-14 01:53:04 +08:00
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Allocator<N, R, R> +
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Allocator<N, C, C>,
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2018-09-13 12:55:58 +08:00
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MatrixN<N, R>: Deserialize<'de>,
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MatrixN<N, C>: Deserialize<'de>,
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2020-04-06 00:49:48 +08:00
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VectorN<N, DimMinimum<R, C>>: Deserialize<'de>"))
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2018-05-25 05:51:57 +08:00
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)]
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2017-08-14 01:53:04 +08:00
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#[derive(Clone, Debug)]
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2019-12-17 07:09:14 +08:00
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pub struct SVD<N: Scalar, R: DimMin<C>, C: Dim>
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2020-04-06 00:49:48 +08:00
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where
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DefaultAllocator: Allocator<N, R, R> + Allocator<N, DimMinimum<R, C>> + Allocator<N, C, C>,
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2018-02-02 19:26:35 +08:00
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{
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2017-08-14 01:52:58 +08:00
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/// The left-singular vectors `U` of this SVD.
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2018-02-02 19:26:35 +08:00
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pub u: MatrixN<N, R>, // FIXME: should be MatrixMN<N, R, DimMinimum<R, C>>
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2017-08-14 01:52:58 +08:00
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/// The right-singular vectors `V^t` of this SVD.
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2017-08-14 01:53:04 +08:00
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pub vt: MatrixN<N, C>, // FIXME: should be MatrixMN<N, DimMinimum<R, C>, C>
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2017-08-14 01:52:58 +08:00
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/// The singular values of this SVD.
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2018-02-02 19:26:35 +08:00
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pub singular_values: VectorN<N, DimMinimum<R, C>>,
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2017-08-03 01:38:28 +08:00
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}
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2019-11-22 06:15:18 +08:00
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impl<N: Scalar + Copy, R: DimMin<C>, C: Dim> Copy for SVD<N, R, C>
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2018-02-02 19:26:35 +08:00
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where
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DefaultAllocator: Allocator<N, C, C> + Allocator<N, R, R> + Allocator<N, DimMinimum<R, C>>,
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MatrixMN<N, R, R>: Copy,
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MatrixMN<N, C, C>: Copy,
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VectorN<N, DimMinimum<R, C>>: Copy,
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2020-04-06 00:49:48 +08:00
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{
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}
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2017-08-03 01:38:28 +08:00
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/// Trait implemented by floats (`f32`, `f64`) and complex floats (`Complex<f32>`, `Complex<f64>`)
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/// supported by the Singular Value Decompotition.
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2019-12-17 07:09:14 +08:00
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pub trait SVDScalar<R: DimMin<C>, C: Dim>: Scalar
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2020-04-06 00:49:48 +08:00
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where
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DefaultAllocator: Allocator<Self, R, R>
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2018-02-02 19:26:35 +08:00
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+ Allocator<Self, R, C>
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+ Allocator<Self, DimMinimum<R, C>>
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2020-04-06 00:49:48 +08:00
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+ Allocator<Self, C, C>,
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2018-02-02 19:26:35 +08:00
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{
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2017-08-03 01:38:28 +08:00
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/// Computes the SVD decomposition of `m`.
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fn compute(m: MatrixMN<Self, R, C>) -> Option<SVD<Self, R, C>>;
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}
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impl<N: SVDScalar<R, C>, R: DimMin<C>, C: Dim> SVD<N, R, C>
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2020-04-06 00:49:48 +08:00
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where
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DefaultAllocator: Allocator<N, R, R>
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2018-02-02 19:26:35 +08:00
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+ Allocator<N, R, C>
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+ Allocator<N, DimMinimum<R, C>>
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2020-04-06 00:49:48 +08:00
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+ Allocator<N, C, C>,
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2018-02-02 19:26:35 +08:00
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{
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2017-08-14 01:52:58 +08:00
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/// Computes the Singular Value Decomposition of `matrix`.
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2017-08-03 01:38:28 +08:00
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pub fn new(m: MatrixMN<N, R, C>) -> Option<Self> {
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N::compute(m)
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}
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}
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macro_rules! svd_impl(
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($t: ty, $lapack_func: path) => (
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impl<R: Dim, C: Dim> SVDScalar<R, C> for $t
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where R: DimMin<C>,
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DefaultAllocator: Allocator<$t, R, C> +
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Allocator<$t, R, R> +
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Allocator<$t, C, C> +
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Allocator<$t, DimMinimum<R, C>> {
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fn compute(mut m: MatrixMN<$t, R, C>) -> Option<SVD<$t, R, C>> {
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let (nrows, ncols) = m.data.shape();
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if nrows.value() == 0 || ncols.value() == 0 {
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return None;
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}
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let job = b'A';
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let lda = nrows.value() as i32;
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let mut u = unsafe { Matrix::new_uninitialized_generic(nrows, nrows) };
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let mut s = unsafe { Matrix::new_uninitialized_generic(nrows.min(ncols), U1) };
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let mut vt = unsafe { Matrix::new_uninitialized_generic(ncols, ncols) };
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let ldu = nrows.value();
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let ldvt = ncols.value();
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let mut work = [ 0.0 ];
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let mut lwork = -1 as i32;
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let mut info = 0;
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2019-03-23 21:29:07 +08:00
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let mut iwork = unsafe { crate::uninitialized_vec(8 * cmp::min(nrows.value(), ncols.value())) };
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2017-08-03 01:38:28 +08:00
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2018-05-25 05:51:57 +08:00
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unsafe {
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$lapack_func(job, nrows.value() as i32, ncols.value() as i32, m.as_mut_slice(),
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2017-08-03 01:38:28 +08:00
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lda, &mut s.as_mut_slice(), u.as_mut_slice(), ldu as i32, vt.as_mut_slice(),
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ldvt as i32, &mut work, lwork, &mut iwork, &mut info);
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2018-05-25 05:51:57 +08:00
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}
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2017-08-03 01:38:28 +08:00
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lapack_check!(info);
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lwork = work[0] as i32;
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2019-03-23 21:29:07 +08:00
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let mut work = unsafe { crate::uninitialized_vec(lwork as usize) };
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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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unsafe {
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2017-08-03 01:38:28 +08:00
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$lapack_func(job, nrows.value() as i32, ncols.value() as i32, m.as_mut_slice(),
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lda, &mut s.as_mut_slice(), u.as_mut_slice(), ldu as i32, vt.as_mut_slice(),
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ldvt as i32, &mut work, lwork, &mut iwork, &mut info);
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2018-05-25 05:51:57 +08:00
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}
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2017-08-03 01:38:28 +08:00
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lapack_check!(info);
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2017-08-14 01:52:58 +08:00
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Some(SVD { u: u, singular_values: s, vt: vt })
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2017-08-03 01:38:28 +08:00
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}
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}
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impl<R: DimMin<C>, C: Dim> SVD<$t, R, C>
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// FIXME: All those bounds…
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where DefaultAllocator: Allocator<$t, R, C> +
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Allocator<$t, C, R> +
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Allocator<$t, U1, R> +
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Allocator<$t, U1, C> +
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Allocator<$t, R, R> +
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Allocator<$t, DimMinimum<R, C>> +
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Allocator<$t, DimMinimum<R, C>, R> +
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Allocator<$t, DimMinimum<R, C>, C> +
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Allocator<$t, R, DimMinimum<R, C>> +
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Allocator<$t, C, C> {
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/// Reconstructs the matrix from its decomposition.
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///
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/// Useful if some components (e.g. some singular values) of this decomposition have
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/// been manually changed by the user.
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#[inline]
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2017-08-14 01:52:58 +08:00
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pub fn recompose(self) -> MatrixMN<$t, R, C> {
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2017-08-03 01:38:28 +08:00
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let nrows = self.u.data.shape().0;
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let ncols = self.vt.data.shape().1;
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let min_nrows_ncols = nrows.min(ncols);
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let mut res: MatrixMN<_, R, C> = Matrix::zeros_generic(nrows, ncols);
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{
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let mut sres = res.generic_slice_mut((0, 0), (min_nrows_ncols, ncols));
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sres.copy_from(&self.vt.rows_generic(0, min_nrows_ncols));
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for i in 0 .. min_nrows_ncols.value() {
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2017-08-14 01:52:58 +08:00
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let eigval = self.singular_values[i];
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2017-08-03 01:38:28 +08:00
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let mut row = sres.row_mut(i);
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row *= eigval;
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}
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}
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2017-08-14 01:52:58 +08:00
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self.u * res
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2017-08-03 01:38:28 +08:00
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}
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/// Computes the pseudo-inverse of the decomposed matrix.
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///
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2017-10-27 12:13:35 +08:00
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/// All singular value below epsilon will be set to zero instead of being inverted.
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2017-08-03 01:38:28 +08:00
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#[inline]
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pub fn pseudo_inverse(&self, epsilon: $t) -> MatrixMN<$t, C, R> {
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let nrows = self.u.data.shape().0;
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let ncols = self.vt.data.shape().1;
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let min_nrows_ncols = nrows.min(ncols);
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let mut res: MatrixMN<_, C, R> = Matrix::zeros_generic(ncols, nrows);
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{
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let mut sres = res.generic_slice_mut((0, 0), (min_nrows_ncols, nrows));
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self.u.columns_generic(0, min_nrows_ncols).transpose_to(&mut sres);
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for i in 0 .. min_nrows_ncols.value() {
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2017-08-14 01:52:58 +08:00
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let eigval = self.singular_values[i];
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2017-08-03 01:38:28 +08:00
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let mut row = sres.row_mut(i);
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if eigval.abs() > epsilon {
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row /= eigval
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}
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else {
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row.fill(0.0);
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}
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}
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}
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self.vt.tr_mul(&res)
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}
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/// The rank of the decomposed matrix.
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///
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/// This is the number of singular values that are not too small (i.e. greater than
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/// the given `epsilon`).
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#[inline]
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pub fn rank(&self, epsilon: $t) -> usize {
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let mut i = 0;
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2017-08-14 01:52:58 +08:00
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for e in self.singular_values.as_slice().iter() {
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2017-08-03 01:38:28 +08:00
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if e.abs() > epsilon {
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i += 1;
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}
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}
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i
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}
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// FIXME: add methods to retrieve the null-space and column-space? (Respectively
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// corresponding to the zero and non-zero singular values).
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}
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);
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);
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/*
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macro_rules! svd_complex_impl(
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($name: ident, $t: ty, $lapack_func: path) => (
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impl SVDScalar for Complex<$t> {
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fn compute<R: Dim, C: Dim, S>(mut m: Matrix<$t, R, C, S>) -> Option<SVD<$t, R, C, S::Alloc>>
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Option<(MatrixN<Complex<$t>, R, S::Alloc>,
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VectorN<$t, DimMinimum<R, C>, S::Alloc>,
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MatrixN<Complex<$t>, C, S::Alloc>)>
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where R: DimMin<C>,
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S: ContiguousStorage<Complex<$t>, R, C>,
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S::Alloc: OwnedAllocator<Complex<$t>, R, C, S> +
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Allocator<Complex<$t>, R, R> +
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Allocator<Complex<$t>, C, C> +
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Allocator<$t, DimMinimum<R, C>> {
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let (nrows, ncols) = m.data.shape();
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if nrows.value() == 0 || ncols.value() == 0 {
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return None;
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}
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let jobu = b'A';
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let jobvt = b'A';
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let lda = nrows.value() as i32;
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let min_nrows_ncols = nrows.min(ncols);
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let mut u = unsafe { Matrix::new_uninitialized_generic(nrows, nrows) };
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let mut s = unsafe { Matrix::new_uninitialized_generic(min_nrows_ncols, U1) };
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let mut vt = unsafe { Matrix::new_uninitialized_generic(ncols, ncols) };
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let ldu = nrows.value();
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let ldvt = ncols.value();
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let mut work = [ Complex::new(0.0, 0.0) ];
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let mut lwork = -1 as i32;
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let mut rwork = vec![ 0.0; (5 * min_nrows_ncols.value()) ];
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let mut info = 0;
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$lapack_func(jobu, jobvt, nrows.value() as i32, ncols.value() as i32, m.as_mut_slice(),
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lda, s.as_mut_slice(), u.as_mut_slice(), ldu as i32, vt.as_mut_slice(),
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ldvt as i32, &mut work, lwork, &mut rwork, &mut info);
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lapack_check!(info);
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lwork = work[0].re as i32;
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let mut work = vec![Complex::new(0.0, 0.0); lwork as usize];
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$lapack_func(jobu, jobvt, nrows.value() as i32, ncols.value() as i32, m.as_mut_slice(),
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lda, s.as_mut_slice(), u.as_mut_slice(), ldu as i32, vt.as_mut_slice(),
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ldvt as i32, &mut work, lwork, &mut rwork, &mut info);
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lapack_check!(info);
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Some((u, s, vt))
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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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svd_impl!(f32, lapack::sgesdd);
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svd_impl!(f64, lapack::dgesdd);
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// svd_complex_impl!(lapack_svd_complex_f32, f32, lapack::cgesvd);
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// svd_complex_impl!(lapack_svd_complex_f64, f64, lapack::zgesvd);
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