github.com/gopherd/gonum@v0.0.4/lapack/testlapack/dggsvd3.go (about)

     1  // Copyright ©2017 The Gonum Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  package testlapack
     6  
     7  import (
     8  	"testing"
     9  
    10  	"math/rand"
    11  
    12  	"github.com/gopherd/gonum/blas"
    13  	"github.com/gopherd/gonum/blas/blas64"
    14  	"github.com/gopherd/gonum/floats/scalar"
    15  	"github.com/gopherd/gonum/lapack"
    16  )
    17  
    18  type Dggsvd3er interface {
    19  	Dggsvd3(jobU, jobV, jobQ lapack.GSVDJob, m, n, p int, a []float64, lda int, b []float64, ldb int, alpha, beta, u []float64, ldu int, v []float64, ldv int, q []float64, ldq int, work []float64, lwork int, iwork []int) (k, l int, ok bool)
    20  }
    21  
    22  func Dggsvd3Test(t *testing.T, impl Dggsvd3er) {
    23  	const tol = 1e-13
    24  
    25  	rnd := rand.New(rand.NewSource(1))
    26  	for cas, test := range []struct {
    27  		m, p, n, lda, ldb, ldu, ldv, ldq int
    28  
    29  		ok bool
    30  	}{
    31  		{m: 3, p: 3, n: 5, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    32  		{m: 5, p: 5, n: 5, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    33  		{m: 5, p: 5, n: 5, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    34  		{m: 5, p: 5, n: 10, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    35  		{m: 5, p: 5, n: 10, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    36  		{m: 5, p: 5, n: 10, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    37  		{m: 10, p: 5, n: 5, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    38  		{m: 10, p: 5, n: 5, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    39  		{m: 10, p: 10, n: 10, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    40  		{m: 10, p: 10, n: 10, lda: 0, ldb: 0, ldu: 0, ldv: 0, ldq: 0, ok: true},
    41  		{m: 5, p: 5, n: 5, lda: 10, ldb: 10, ldu: 10, ldv: 10, ldq: 10, ok: true},
    42  		{m: 5, p: 5, n: 5, lda: 10, ldb: 10, ldu: 10, ldv: 10, ldq: 10, ok: true},
    43  		{m: 5, p: 5, n: 10, lda: 20, ldb: 20, ldu: 10, ldv: 10, ldq: 20, ok: true},
    44  		{m: 5, p: 5, n: 10, lda: 20, ldb: 20, ldu: 10, ldv: 10, ldq: 20, ok: true},
    45  		{m: 5, p: 5, n: 10, lda: 20, ldb: 20, ldu: 10, ldv: 10, ldq: 20, ok: true},
    46  		{m: 10, p: 5, n: 5, lda: 10, ldb: 10, ldu: 20, ldv: 10, ldq: 10, ok: true},
    47  		{m: 10, p: 5, n: 5, lda: 10, ldb: 10, ldu: 20, ldv: 10, ldq: 10, ok: true},
    48  		{m: 10, p: 10, n: 10, lda: 20, ldb: 20, ldu: 20, ldv: 20, ldq: 20, ok: true},
    49  		{m: 10, p: 10, n: 10, lda: 20, ldb: 20, ldu: 20, ldv: 20, ldq: 20, ok: true},
    50  	} {
    51  		m := test.m
    52  		p := test.p
    53  		n := test.n
    54  		lda := test.lda
    55  		if lda == 0 {
    56  			lda = n
    57  		}
    58  		ldb := test.ldb
    59  		if ldb == 0 {
    60  			ldb = n
    61  		}
    62  		ldu := test.ldu
    63  		if ldu == 0 {
    64  			ldu = m
    65  		}
    66  		ldv := test.ldv
    67  		if ldv == 0 {
    68  			ldv = p
    69  		}
    70  		ldq := test.ldq
    71  		if ldq == 0 {
    72  			ldq = n
    73  		}
    74  
    75  		a := randomGeneral(m, n, lda, rnd)
    76  		aCopy := cloneGeneral(a)
    77  		b := randomGeneral(p, n, ldb, rnd)
    78  		bCopy := cloneGeneral(b)
    79  
    80  		alpha := make([]float64, n)
    81  		beta := make([]float64, n)
    82  
    83  		u := nanGeneral(m, m, ldu)
    84  		v := nanGeneral(p, p, ldv)
    85  		q := nanGeneral(n, n, ldq)
    86  
    87  		iwork := make([]int, n)
    88  
    89  		work := []float64{0}
    90  		impl.Dggsvd3(lapack.GSVDU, lapack.GSVDV, lapack.GSVDQ,
    91  			m, n, p,
    92  			a.Data, a.Stride,
    93  			b.Data, b.Stride,
    94  			alpha, beta,
    95  			u.Data, u.Stride,
    96  			v.Data, v.Stride,
    97  			q.Data, q.Stride,
    98  			work, -1, iwork)
    99  
   100  		lwork := int(work[0])
   101  		work = make([]float64, lwork)
   102  
   103  		k, l, ok := impl.Dggsvd3(lapack.GSVDU, lapack.GSVDV, lapack.GSVDQ,
   104  			m, n, p,
   105  			a.Data, a.Stride,
   106  			b.Data, b.Stride,
   107  			alpha, beta,
   108  			u.Data, u.Stride,
   109  			v.Data, v.Stride,
   110  			q.Data, q.Stride,
   111  			work, lwork, iwork)
   112  
   113  		if !ok {
   114  			if test.ok {
   115  				t.Errorf("test %d unexpectedly did not converge", cas)
   116  			}
   117  			continue
   118  		}
   119  
   120  		// Check orthogonality of U, V and Q.
   121  		if resid := residualOrthogonal(u, false); resid > tol {
   122  			t.Errorf("Case %v: U is not orthogonal; resid=%v, want<=%v", cas, resid, tol)
   123  		}
   124  		if resid := residualOrthogonal(v, false); resid > tol {
   125  			t.Errorf("Case %v: V is not orthogonal; resid=%v, want<=%v", cas, resid, tol)
   126  		}
   127  		if resid := residualOrthogonal(q, false); resid > tol {
   128  			t.Errorf("Case %v: Q is not orthogonal; resid=%v, want<=%v", cas, resid, tol)
   129  		}
   130  
   131  		// Check C^2 + S^2 = I.
   132  		var elements []float64
   133  		if m-k-l >= 0 {
   134  			elements = alpha[k : k+l]
   135  		} else {
   136  			elements = alpha[k:m]
   137  		}
   138  		for i := range elements {
   139  			i += k
   140  			d := alpha[i]*alpha[i] + beta[i]*beta[i]
   141  			if !scalar.EqualWithinAbsOrRel(d, 1, tol, tol) {
   142  				t.Errorf("test %d: alpha_%d^2 + beta_%d^2 != 1: got: %v", cas, i, i, d)
   143  			}
   144  		}
   145  
   146  		zeroR, d1, d2 := constructGSVDresults(n, p, m, k, l, a, b, alpha, beta)
   147  
   148  		// Check Uᵀ*A*Q = D1*[ 0 R ].
   149  		uTmp := nanGeneral(m, n, n)
   150  		blas64.Gemm(blas.Trans, blas.NoTrans, 1, u, aCopy, 0, uTmp)
   151  		uAns := nanGeneral(m, n, n)
   152  		blas64.Gemm(blas.NoTrans, blas.NoTrans, 1, uTmp, q, 0, uAns)
   153  
   154  		d10r := nanGeneral(m, n, n)
   155  		blas64.Gemm(blas.NoTrans, blas.NoTrans, 1, d1, zeroR, 0, d10r)
   156  
   157  		if !equalApproxGeneral(uAns, d10r, tol) {
   158  			t.Errorf("test %d: Uᵀ*A*Q != D1*[ 0 R ]\nUᵀ*A*Q:\n%+v\nD1*[ 0 R ]:\n%+v",
   159  				cas, uAns, d10r)
   160  		}
   161  
   162  		// Check Vᵀ*B*Q = D2*[ 0 R ].
   163  		vTmp := nanGeneral(p, n, n)
   164  		blas64.Gemm(blas.Trans, blas.NoTrans, 1, v, bCopy, 0, vTmp)
   165  		vAns := nanGeneral(p, n, n)
   166  		blas64.Gemm(blas.NoTrans, blas.NoTrans, 1, vTmp, q, 0, vAns)
   167  
   168  		d20r := nanGeneral(p, n, n)
   169  		blas64.Gemm(blas.NoTrans, blas.NoTrans, 1, d2, zeroR, 0, d20r)
   170  
   171  		if !equalApproxGeneral(vAns, d20r, tol) {
   172  			t.Errorf("test %d: Vᵀ*B*Q != D2*[ 0 R ]\nVᵀ*B*Q:\n%+v\nD2*[ 0 R ]:\n%+v",
   173  				cas, vAns, d20r)
   174  		}
   175  	}
   176  }