// Copyright ©2019 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 cblas128 import ( "fmt" "testing" "gonum.org/v1/gonum/blas" "gonum.org/v1/gonum/blas/blas64" "gonum.org/v1/gonum/blas/testblas" ) var impl = c128{} func TestDzasum(t *testing.T) { testblas.DzasumTest(t, impl) } func TestDznrm2(t *testing.T) { testblas.Dznrm2Test(t, impl) } func TestIzamax(t *testing.T) { testblas.IzamaxTest(t, impl) } func TestZaxpy(t *testing.T) { testblas.ZaxpyTest(t, impl) } func TestZcopy(t *testing.T) { testblas.ZcopyTest(t, impl) } func TestZdotc(t *testing.T) { testblas.ZdotcTest(t, impl) } func TestZdotu(t *testing.T) { testblas.ZdotuTest(t, impl) } func TestZdscal(t *testing.T) { testblas.ZdscalTest(t, impl) } func TestZscal(t *testing.T) { testblas.ZscalTest(t, impl) } func TestZswap(t *testing.T) { testblas.ZswapTest(t, impl) } func TestZgbmv(t *testing.T) { testblas.ZgbmvTest(t, impl) } func TestZgemv(t *testing.T) { testblas.ZgemvTest(t, impl) } func TestZgerc(t *testing.T) { testblas.ZgercTest(t, impl) } func TestZgeru(t *testing.T) { testblas.ZgeruTest(t, impl) } func TestZhbmv(t *testing.T) { testblas.ZhbmvTest(t, impl) } func TestZhemv(t *testing.T) { testblas.ZhemvTest(t, impl) } func TestZher(t *testing.T) { testblas.ZherTest(t, impl) } func TestZher2(t *testing.T) { testblas.Zher2Test(t, impl) } func TestZhpmv(t *testing.T) { testblas.ZhpmvTest(t, impl) } func TestZhpr(t *testing.T) { testblas.ZhprTest(t, impl) } func TestZhpr2(t *testing.T) { testblas.Zhpr2Test(t, impl) } func TestZtbmv(t *testing.T) { testblas.ZtbmvTest(t, impl) } func TestZtbsv(t *testing.T) { testblas.ZtbsvTest(t, impl) } func TestZtpmv(t *testing.T) { testblas.ZtpmvTest(t, impl) } func TestZtpsv(t *testing.T) { testblas.ZtpsvTest(t, impl) } func TestZtrmv(t *testing.T) { testblas.ZtrmvTest(t, impl) } func TestZtrsv(t *testing.T) { testblas.ZtrsvTest(t, impl) } func TestZgemm(t *testing.T) { testblas.ZgemmTest(t, impl) } func TestZhemm(t *testing.T) { testblas.ZhemmTest(t, impl) } func TestZherk(t *testing.T) { testblas.ZherkTest(t, impl) } func TestZher2k(t *testing.T) { testblas.Zher2kTest(t, impl) } func TestZsymm(t *testing.T) { testblas.ZsymmTest(t, impl) } func TestZsyrk(t *testing.T) { testblas.ZsyrkTest(t, impl) } func TestZsyr2k(t *testing.T) { testblas.Zsyr2kTest(t, impl) } func TestZtrmm(t *testing.T) { testblas.ZtrmmTest(t, impl) } func TestZtrsm(t *testing.T) { testblas.ZtrsmTest(t, impl) } type c128 struct{} var _ blas.Complex128 = c128{} func (c128) Zdotu(n int, x []complex128, incX int, y []complex128, incY int) complex128 { return Dotu(Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zdotc(n int, x []complex128, incX int, y []complex128, incY int) complex128 { return Dotc(Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}) } func (c128) Dznrm2(n int, x []complex128, incX int) float64 { if incX < 0 { return 0 } return Nrm2(Vector{N: n, Inc: incX, Data: x}) } func (c128) Dnrm2(n int, x []float64, incX int) float64 { return blas64.Nrm2(blas64.Vector{N: n, Inc: incX, Data: x}) } func (c128) Dzasum(n int, x []complex128, incX int) float64 { if incX < 0 { return 0 } return Asum(Vector{N: n, Inc: incX, Data: x}) } func (c128) Izamax(n int, x []complex128, incX int) int { if incX < 0 { return -1 } return Iamax(Vector{N: n, Inc: incX, Data: x}) } func (c128) Zswap(n int, x []complex128, incX int, y []complex128, incY int) { Swap(Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zcopy(n int, x []complex128, incX int, y []complex128, incY int) { Copy(Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zaxpy(n int, alpha complex128, x []complex128, incX int, y []complex128, incY int) { Axpy(alpha, Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zscal(n int, alpha complex128, x []complex128, incX int) { if incX < 0 { return } Scal(alpha, Vector{N: n, Inc: incX, Data: x}) } func (c128) Zdscal(n int, alpha float64, x []complex128, incX int) { if incX < 0 { return } Dscal(alpha, Vector{N: n, Inc: incX, Data: x}) } func (c128) Zgemv(tA blas.Transpose, m, n int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int) { lenX := m lenY := n if tA == blas.NoTrans { lenX = n lenY = m } Gemv(tA, alpha, General{Rows: m, Cols: n, Data: a, Stride: lda}, Vector{N: lenX, Inc: incX, Data: x}, beta, Vector{N: lenY, Inc: incY, Data: y}) } func (c128) Zgbmv(tA blas.Transpose, m, n, kL, kU int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int) { lenX := m lenY := n if tA == blas.NoTrans { lenX = n lenY = m } Gbmv(tA, alpha, Band{Rows: m, Cols: n, KL: kL, KU: kU, Data: a, Stride: lda}, Vector{N: lenX, Inc: incX, Data: x}, beta, Vector{N: lenY, Inc: incY, Data: y}) } func (c128) Ztrmv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n int, a []complex128, lda int, x []complex128, incX int) { Trmv(tA, Triangular{Uplo: ul, Diag: d, N: n, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Ztbmv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n, k int, a []complex128, lda int, x []complex128, incX int) { Tbmv(tA, TriangularBand{Uplo: ul, Diag: d, N: n, K: k, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Ztpmv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n int, ap []complex128, x []complex128, incX int) { Tpmv(tA, TriangularPacked{Uplo: ul, Diag: d, N: n, Data: ap}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Ztrsv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n int, a []complex128, lda int, x []complex128, incX int) { Trsv(tA, Triangular{Uplo: ul, Diag: d, N: n, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Ztbsv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n, k int, a []complex128, lda int, x []complex128, incX int) { Tbsv(tA, TriangularBand{Uplo: ul, Diag: d, N: n, K: k, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Ztpsv(ul blas.Uplo, tA blas.Transpose, d blas.Diag, n int, ap []complex128, x []complex128, incX int) { Tpsv(tA, TriangularPacked{Uplo: ul, Diag: d, N: n, Data: ap}, Vector{N: n, Inc: incX, Data: x}) } func (c128) Zhemv(ul blas.Uplo, n int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int) { Hemv(alpha, Hermitian{Uplo: ul, N: n, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}, beta, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zhbmv(ul blas.Uplo, n, k int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int) { Hbmv(alpha, HermitianBand{Uplo: ul, N: n, K: k, Data: a, Stride: lda}, Vector{N: n, Inc: incX, Data: x}, beta, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zhpmv(ul blas.Uplo, n int, alpha complex128, ap []complex128, x []complex128, incX int, beta complex128, y []complex128, incY int) { Hpmv(alpha, HermitianPacked{Uplo: ul, N: n, Data: ap}, Vector{N: n, Inc: incX, Data: x}, beta, Vector{N: n, Inc: incY, Data: y}) } func (c128) Zgeru(m, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int) { Geru(alpha, Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}, General{Rows: m, Cols: n, Data: a, Stride: lda}) } func (c128) Zgerc(m, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int) { Gerc(alpha, Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}, General{Rows: m, Cols: n, Data: a, Stride: lda}) } func (c128) Zher(ul blas.Uplo, n int, alpha float64, x []complex128, incX int, a []complex128, lda int) { Her(alpha, Vector{N: n, Inc: incX, Data: x}, Hermitian{Uplo: ul, N: n, Data: a, Stride: lda}) } func (c128) Zhpr(ul blas.Uplo, n int, alpha float64, x []complex128, incX int, ap []complex128) { Hpr(alpha, Vector{N: n, Inc: incX, Data: x}, HermitianPacked{Uplo: ul, N: n, Data: ap}) } func (c128) Zher2(ul blas.Uplo, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int) { Her2(alpha, Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}, Hermitian{Uplo: ul, N: n, Data: a, Stride: lda}) } func (c128) Zhpr2(ul blas.Uplo, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128) { Hpr2(alpha, Vector{N: n, Inc: incX, Data: x}, Vector{N: n, Inc: incY, Data: y}, HermitianPacked{Uplo: ul, N: n, Data: a}) } func (c128) Zgemm(tA, tB blas.Transpose, m, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int) { am, an := m, k if tA != blas.NoTrans { am, an = an, am } bm, bn := k, n if tB != blas.NoTrans { bm, bn = bn, bm } Gemm(tA, tB, alpha, General{Rows: am, Cols: an, Data: a, Stride: lda}, General{Rows: bm, Cols: bn, Data: b, Stride: ldb}, beta, General{Rows: m, Cols: n, Data: c, Stride: ldc}) } func (c128) Zsymm(s blas.Side, ul blas.Uplo, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int) { var an int switch s { case blas.Left: an = m case blas.Right: an = n default: panic(fmt.Sprintf("blas64: bad test: invalid side: %q", s)) } Symm(s, alpha, Symmetric{Uplo: ul, N: an, Data: a, Stride: lda}, General{Rows: m, Cols: n, Data: b, Stride: ldb}, beta, General{Rows: m, Cols: n, Data: c, Stride: ldc}) } func (c128) Zsyrk(ul blas.Uplo, t blas.Transpose, n, k int, alpha complex128, a []complex128, lda int, beta complex128, c []complex128, ldc int) { am, an := n, k if t != blas.NoTrans { am, an = an, am } Syrk(t, alpha, General{Rows: am, Cols: an, Data: a, Stride: lda}, beta, Symmetric{Uplo: ul, N: n, Data: c, Stride: ldc}) } func (c128) Zsyr2k(ul blas.Uplo, t blas.Transpose, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int) { am, an := n, k if t != blas.NoTrans { am, an = an, am } Syr2k(t, alpha, General{Rows: am, Cols: an, Data: a, Stride: lda}, General{Rows: am, Cols: an, Data: b, Stride: ldb}, beta, Symmetric{Uplo: ul, N: n, Data: c, Stride: ldc}) } func (c128) Zhemm(s blas.Side, ul blas.Uplo, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int) { var an int switch s { case blas.Left: an = m case blas.Right: an = n default: panic(fmt.Sprintf("blas64: bad test: invalid side: %q", s)) } Hemm(s, alpha, Hermitian{Uplo: ul, N: an, Data: a, Stride: lda}, General{Rows: m, Cols: n, Data: b, Stride: ldb}, beta, General{Rows: m, Cols: n, Data: c, Stride: ldc}) } func (c128) Zherk(ul blas.Uplo, t blas.Transpose, n, k int, alpha float64, a []complex128, lda int, beta float64, c []complex128, ldc int) { am, an := n, k if t != blas.NoTrans { am, an = an, am } Herk(t, alpha, General{Rows: am, Cols: an, Data: a, Stride: lda}, beta, Hermitian{Uplo: ul, N: n, Data: c, Stride: ldc}) } func (c128) Zher2k(ul blas.Uplo, t blas.Transpose, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta float64, c []complex128, ldc int) { am, an := n, k if t != blas.NoTrans { am, an = an, am } Her2k(t, alpha, General{Rows: am, Cols: an, Data: a, Stride: lda}, General{Rows: am, Cols: an, Data: b, Stride: ldb}, beta, Hermitian{Uplo: ul, N: n, Data: c, Stride: ldc}) } func (c128) Ztrmm(s blas.Side, ul blas.Uplo, tA blas.Transpose, d blas.Diag, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int) { var k int switch s { case blas.Left: k = m case blas.Right: k = n default: panic(fmt.Sprintf("blas64: bad test: invalid side: %q", s)) } Trmm(s, tA, alpha, Triangular{Uplo: ul, Diag: d, N: k, Data: a, Stride: lda}, General{Rows: m, Cols: n, Data: b, Stride: ldb}) } func (c128) Ztrsm(s blas.Side, ul blas.Uplo, tA blas.Transpose, d blas.Diag, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int) { var k int switch s { case blas.Left: k = m case blas.Right: k = n default: panic(fmt.Sprintf("blas64: bad test: invalid side: %q", s)) } Trsm(s, tA, alpha, Triangular{Uplo: ul, Diag: d, N: k, Data: a, Stride: lda}, General{Rows: m, Cols: n, Data: b, Stride: ldb}) }