// Copyright ©2016 The Gonum Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package testlapack import ( "fmt" "math" "math/cmplx" "testing" "golang.org/x/exp/rand" ) type Dlaln2er interface { Dlaln2(trans bool, na, nw int, smin, ca float64, a []float64, lda int, d1, d2 float64, b []float64, ldb int, wr, wi float64, x []float64, ldx int) (scale, xnorm float64, ok bool) } func Dlaln2Test(t *testing.T, impl Dlaln2er) { rnd := rand.New(rand.NewSource(1)) for _, trans := range []bool{true, false} { for _, na := range []int{1, 2} { for _, nw := range []int{1, 2} { for _, extra := range []int{0, 1, 2, 13} { for cas := 0; cas < 1000; cas++ { testDlaln2(t, impl, trans, na, nw, extra, rnd) } } } } } } func testDlaln2(t *testing.T, impl Dlaln2er, trans bool, na, nw, extra int, rnd *rand.Rand) { const tol = 1e-12 const dlamchE = 1.0 / (1 << 53) const dlamchP = 2 * dlamchE ca := rnd.NormFloat64() d1 := rnd.NormFloat64() d2 := rnd.NormFloat64() var w complex128 if nw == 1 { w = complex(rand.NormFloat64(), 0) } else { w = complex(rand.NormFloat64(), rand.NormFloat64()) } smin := dlamchP * (math.Abs(real(w)) + math.Abs(imag(w))) a := randomGeneral(na, na, na+extra, rnd) b := randomGeneral(na, nw, nw+extra, rnd) x := randomGeneral(na, nw, nw+extra, rnd) scale, xnormGot, ok := impl.Dlaln2(trans, na, nw, smin, ca, a.Data, a.Stride, d1, d2, b.Data, b.Stride, real(w), imag(w), x.Data, x.Stride) prefix := fmt.Sprintf("Case trans=%v, na=%v, nw=%v, extra=%v", trans, na, nw, extra) if !generalOutsideAllNaN(a) { t.Errorf("%v: out-of-range write to A\n%v", prefix, a.Data) } if !generalOutsideAllNaN(b) { t.Errorf("%v: out-of-range write to B\n%v", prefix, b.Data) } if !generalOutsideAllNaN(x) { t.Errorf("%v: out-of-range write to X\n%v", prefix, x.Data) } if scale <= 0 || 1 < scale { t.Errorf("%v: invalid value of scale=%v", prefix, scale) } var xnormWant float64 for i := 0; i < na; i++ { var rowsum float64 for j := 0; j < nw; j++ { rowsum += math.Abs(x.Data[i*x.Stride+j]) } if rowsum > xnormWant { xnormWant = rowsum } } if xnormWant != xnormGot { t.Errorf("Case %v: unexpected xnorm with scale=%v. Want %v, got %v", prefix, scale, xnormWant, xnormGot) } if !ok { // If ok is false, the matrix has been perturbed but we don't // know how. Return without comparing both sides of the // equation. return } m := make([]complex128, na*na) if trans { for i := 0; i < na; i++ { for j := 0; j < na; j++ { m[i*na+j] = complex(ca*a.Data[j*a.Stride+i], 0) } } } else { for i := 0; i < na; i++ { for j := 0; j < na; j++ { m[i*na+j] = complex(ca*a.Data[i*a.Stride+j], 0) } } } m[0] -= w * complex(d1, 0) if na == 2 { m[3] -= w * complex(d2, 0) } cx := make([]complex128, na) cb := make([]complex128, na) switch nw { case 1: for i := 0; i < na; i++ { cx[i] = complex(x.Data[i*x.Stride], 0) cb[i] = complex(scale*b.Data[i*x.Stride], 0) } case 2: for i := 0; i < na; i++ { cx[i] = complex(x.Data[i*x.Stride], x.Data[i*x.Stride+1]) cb[i] = complex(scale*b.Data[i*b.Stride], scale*b.Data[i*b.Stride+1]) } } mx := make([]complex128, na) for i := 0; i < na; i++ { for j := 0; j < na; j++ { mx[i] += m[i*na+j] * cx[j] } } for i := 0; i < na; i++ { if cmplx.Abs(mx[i]-cb[i]) > tol { t.Errorf("Case %v: unexpected value of left-hand side at row %v with scale=%v. Want %v, got %v", prefix, i, scale, cb[i], mx[i]) } } }