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clapack.go
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clapack.go
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// Do not manually edit this file. It was created by the genLapack.pl script from lapacke.h.
// Copyright ©2014 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 clapack provides bindings to a C LAPACK library.
//
// Links are provided to the NETLIB fortran implementation/dependencies for each function.
package clapack
/*
#cgo CFLAGS: -g -O2
#include "lapacke.h"
*/
import "C"
import (
"github.com/gonum/blas"
"github.com/gonum/lapack"
"unsafe"
)
// Type order is used to specify the matrix storage format. We still interact with
// an API that allows client calls to specify order, so this is here to document that fact.
type order int
const (
rowMajor order = 101 + iota
colMajor
)
func isZero(ret C.int) bool { return ret == 0 }
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sbdsdc.f.
func Sbdsdc(ul blas.Uplo, compq lapack.CompSV, n int, d []float32, e []float32, u []float32, ldu int, vt []float32, ldvt int, q []float32, iq []int32) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_sbdsdc((C.int)(rowMajor), (C.char)(ul), (C.char)(compq), (C.lapack_int)(n), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.float)(&u[0]), (C.lapack_int)(ldu), (*C.float)(&vt[0]), (C.lapack_int)(ldvt), (*C.float)(&q[0]), (*C.lapack_int)(&iq[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbdsdc.f.
func Dbdsdc(ul blas.Uplo, compq lapack.CompSV, n int, d []float64, e []float64, u []float64, ldu int, vt []float64, ldvt int, q []float64, iq []int32) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_dbdsdc((C.int)(rowMajor), (C.char)(ul), (C.char)(compq), (C.lapack_int)(n), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.double)(&u[0]), (C.lapack_int)(ldu), (*C.double)(&vt[0]), (C.lapack_int)(ldvt), (*C.double)(&q[0]), (*C.lapack_int)(&iq[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sbdsqr.f.
func Sbdsqr(ul blas.Uplo, n int, ncvt int, nru int, ncc int, d []float32, e []float32, vt []float32, ldvt int, u []float32, ldu int, c []float32, ldc int) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_sbdsqr((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ncvt), (C.lapack_int)(nru), (C.lapack_int)(ncc), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.float)(&vt[0]), (C.lapack_int)(ldvt), (*C.float)(&u[0]), (C.lapack_int)(ldu), (*C.float)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbdsqr.f.
func Dbdsqr(ul blas.Uplo, n int, ncvt int, nru int, ncc int, d []float64, e []float64, vt []float64, ldvt int, u []float64, ldu int, c []float64, ldc int) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_dbdsqr((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ncvt), (C.lapack_int)(nru), (C.lapack_int)(ncc), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.double)(&vt[0]), (C.lapack_int)(ldvt), (*C.double)(&u[0]), (C.lapack_int)(ldu), (*C.double)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cbdsqr.f.
func Cbdsqr(ul blas.Uplo, n int, ncvt int, nru int, ncc int, d []float32, e []float32, vt []complex64, ldvt int, u []complex64, ldu int, c []complex64, ldc int) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_cbdsqr((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ncvt), (C.lapack_int)(nru), (C.lapack_int)(ncc), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.lapack_complex_float)(&vt[0]), (C.lapack_int)(ldvt), (*C.lapack_complex_float)(&u[0]), (C.lapack_int)(ldu), (*C.lapack_complex_float)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zbdsqr.f.
func Zbdsqr(ul blas.Uplo, n int, ncvt int, nru int, ncc int, d []float64, e []float64, vt []complex128, ldvt int, u []complex128, ldu int, c []complex128, ldc int) bool {
switch ul {
case blas.Upper:
ul = 'U'
case blas.Lower:
ul = 'L'
default:
panic("lapack: illegal triangle")
}
return isZero(C.LAPACKE_zbdsqr((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ncvt), (C.lapack_int)(nru), (C.lapack_int)(ncc), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.lapack_complex_double)(&vt[0]), (C.lapack_int)(ldvt), (*C.lapack_complex_double)(&u[0]), (C.lapack_int)(ldu), (*C.lapack_complex_double)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sdisna.f.
func Sdisna(job lapack.Job, m int, n int, d []float32, sep []float32) bool {
return isZero(C.LAPACKE_sdisna((C.char)(job), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&d[0]), (*C.float)(&sep[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ddisna.f.
func Ddisna(job lapack.Job, m int, n int, d []float64, sep []float64) bool {
return isZero(C.LAPACKE_ddisna((C.char)(job), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&d[0]), (*C.double)(&sep[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbbrd.f.
func Sgbbrd(vect byte, m int, n int, ncc int, kl int, ku int, ab []float32, ldab int, d []float32, e []float32, q []float32, ldq int, pt []float32, ldpt int, c []float32, ldc int) bool {
return isZero(C.LAPACKE_sgbbrd((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ncc), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.float)(&q[0]), (C.lapack_int)(ldq), (*C.float)(&pt[0]), (C.lapack_int)(ldpt), (*C.float)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbbrd.f.
func Dgbbrd(vect byte, m int, n int, ncc int, kl int, ku int, ab []float64, ldab int, d []float64, e []float64, q []float64, ldq int, pt []float64, ldpt int, c []float64, ldc int) bool {
return isZero(C.LAPACKE_dgbbrd((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ncc), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.double)(&q[0]), (C.lapack_int)(ldq), (*C.double)(&pt[0]), (C.lapack_int)(ldpt), (*C.double)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbbrd.f.
func Cgbbrd(vect byte, m int, n int, ncc int, kl int, ku int, ab []complex64, ldab int, d []float32, e []float32, q []complex64, ldq int, pt []complex64, ldpt int, c []complex64, ldc int) bool {
return isZero(C.LAPACKE_cgbbrd((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ncc), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.lapack_complex_float)(&q[0]), (C.lapack_int)(ldq), (*C.lapack_complex_float)(&pt[0]), (C.lapack_int)(ldpt), (*C.lapack_complex_float)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbbrd.f.
func Zgbbrd(vect byte, m int, n int, ncc int, kl int, ku int, ab []complex128, ldab int, d []float64, e []float64, q []complex128, ldq int, pt []complex128, ldpt int, c []complex128, ldc int) bool {
return isZero(C.LAPACKE_zgbbrd((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ncc), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.lapack_complex_double)(&q[0]), (C.lapack_int)(ldq), (*C.lapack_complex_double)(&pt[0]), (C.lapack_int)(ldpt), (*C.lapack_complex_double)(&c[0]), (C.lapack_int)(ldc)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbcon.f.
func Sgbcon(norm byte, n int, kl int, ku int, ab []float32, ldab int, ipiv []int32, anorm float32, rcond []float32) bool {
return isZero(C.LAPACKE_sgbcon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (C.float)(anorm), (*C.float)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbcon.f.
func Dgbcon(norm byte, n int, kl int, ku int, ab []float64, ldab int, ipiv []int32, anorm float64, rcond []float64) bool {
return isZero(C.LAPACKE_dgbcon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (C.double)(anorm), (*C.double)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbcon.f.
func Cgbcon(norm byte, n int, kl int, ku int, ab []complex64, ldab int, ipiv []int32, anorm float32, rcond []float32) bool {
return isZero(C.LAPACKE_cgbcon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (C.float)(anorm), (*C.float)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbcon.f.
func Zgbcon(norm byte, n int, kl int, ku int, ab []complex128, ldab int, ipiv []int32, anorm float64, rcond []float64) bool {
return isZero(C.LAPACKE_zgbcon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (C.double)(anorm), (*C.double)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbequ.f.
func Sgbequ(m int, n int, kl int, ku int, ab []float32, ldab int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_sgbequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbequ.f.
func Dgbequ(m int, n int, kl int, ku int, ab []float64, ldab int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_dgbequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbequ.f.
func Cgbequ(m int, n int, kl int, ku int, ab []complex64, ldab int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_cgbequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbequ.f.
func Zgbequ(m int, n int, kl int, ku int, ab []complex128, ldab int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_zgbequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbequb.f.
func Sgbequb(m int, n int, kl int, ku int, ab []float32, ldab int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_sgbequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbequb.f.
func Dgbequb(m int, n int, kl int, ku int, ab []float64, ldab int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_dgbequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbequb.f.
func Cgbequb(m int, n int, kl int, ku int, ab []complex64, ldab int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_cgbequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbequb.f.
func Zgbequb(m int, n int, kl int, ku int, ab []complex128, ldab int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_zgbequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbrfs.f.
func Sgbrfs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr []float32, berr []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_sgbrfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&ferr[0]), (*C.float)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbrfs.f.
func Dgbrfs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr []float64, berr []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_dgbrfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&ferr[0]), (*C.double)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbrfs.f.
func Cgbrfs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr []float32, berr []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_cgbrfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_complex_float)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&ferr[0]), (*C.float)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbrfs.f.
func Zgbrfs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr []float64, berr []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_zgbrfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_complex_double)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&ferr[0]), (*C.double)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbsv.f.
func Sgbsv(n int, kl int, ku int, nrhs int, ab []float32, ldab int, ipiv []int32, b []float32, ldb int) bool {
return isZero(C.LAPACKE_sgbsv((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbsv.f.
func Dgbsv(n int, kl int, ku int, nrhs int, ab []float64, ldab int, ipiv []int32, b []float64, ldb int) bool {
return isZero(C.LAPACKE_dgbsv((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbsv.f.
func Cgbsv(n int, kl int, ku int, nrhs int, ab []complex64, ldab int, ipiv []int32, b []complex64, ldb int) bool {
return isZero(C.LAPACKE_cgbsv((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbsv.f.
func Zgbsv(n int, kl int, ku int, nrhs int, ab []complex128, ldab int, ipiv []int32, b []complex128, ldb int) bool {
return isZero(C.LAPACKE_zgbsv((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbsvx.f.
func Sgbsvx(fact byte, trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, ipiv []int32, equed []byte, r []float32, c []float32, b []float32, ldb int, x []float32, ldx int, rcond []float32, ferr []float32, berr []float32, rpivot []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_sgbsvx((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.float)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.char)(unsafe.Pointer(&equed[0])), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&rcond[0]), (*C.float)(&ferr[0]), (*C.float)(&berr[0]), (*C.float)(&rpivot[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbsvx.f.
func Dgbsvx(fact byte, trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, ipiv []int32, equed []byte, r []float64, c []float64, b []float64, ldb int, x []float64, ldx int, rcond []float64, ferr []float64, berr []float64, rpivot []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_dgbsvx((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.double)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.char)(unsafe.Pointer(&equed[0])), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&rcond[0]), (*C.double)(&ferr[0]), (*C.double)(&berr[0]), (*C.double)(&rpivot[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbsvx.f.
func Cgbsvx(fact byte, trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, ipiv []int32, equed []byte, r []float32, c []float32, b []complex64, ldb int, x []complex64, ldx int, rcond []float32, ferr []float32, berr []float32, rpivot []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_cgbsvx((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_complex_float)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.char)(unsafe.Pointer(&equed[0])), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&rcond[0]), (*C.float)(&ferr[0]), (*C.float)(&berr[0]), (*C.float)(&rpivot[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbsvx.f.
func Zgbsvx(fact byte, trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, ipiv []int32, equed []byte, r []float64, c []float64, b []complex128, ldb int, x []complex128, ldx int, rcond []float64, ferr []float64, berr []float64, rpivot []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_zgbsvx((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_complex_double)(&afb[0]), (C.lapack_int)(ldafb), (*C.lapack_int)(&ipiv[0]), (*C.char)(unsafe.Pointer(&equed[0])), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&rcond[0]), (*C.double)(&ferr[0]), (*C.double)(&berr[0]), (*C.double)(&rpivot[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbtrf.f.
func Sgbtrf(m int, n int, kl int, ku int, ab []float32, ldab int, ipiv []int32) bool {
return isZero(C.LAPACKE_sgbtrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbtrf.f.
func Dgbtrf(m int, n int, kl int, ku int, ab []float64, ldab int, ipiv []int32) bool {
return isZero(C.LAPACKE_dgbtrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbtrf.f.
func Cgbtrf(m int, n int, kl int, ku int, ab []complex64, ldab int, ipiv []int32) bool {
return isZero(C.LAPACKE_cgbtrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbtrf.f.
func Zgbtrf(m int, n int, kl int, ku int, ab []complex128, ldab int, ipiv []int32) bool {
return isZero(C.LAPACKE_zgbtrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbtrs.f.
func Sgbtrs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float32, ldab int, ipiv []int32, b []float32, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_sgbtrs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbtrs.f.
func Dgbtrs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []float64, ldab int, ipiv []int32, b []float64, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_dgbtrs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbtrs.f.
func Cgbtrs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex64, ldab int, ipiv []int32, b []complex64, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_cgbtrs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbtrs.f.
func Zgbtrs(trans blas.Transpose, n int, kl int, ku int, nrhs int, ab []complex128, ldab int, ipiv []int32, b []complex128, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_zgbtrs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&ab[0]), (C.lapack_int)(ldab), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgebak.f.
func Sgebak(job lapack.Job, s blas.Side, n int, ilo int, ihi int, scale []float32, m int, v []float32, ldv int) bool {
switch s {
case blas.Left:
s = 'L'
case blas.Right:
s = 'R'
default:
panic("lapack: bad side")
}
return isZero(C.LAPACKE_sgebak((C.int)(rowMajor), (C.char)(job), (C.char)(s), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(&scale[0]), (C.lapack_int)(m), (*C.float)(&v[0]), (C.lapack_int)(ldv)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgebak.f.
func Dgebak(job lapack.Job, s blas.Side, n int, ilo int, ihi int, scale []float64, m int, v []float64, ldv int) bool {
switch s {
case blas.Left:
s = 'L'
case blas.Right:
s = 'R'
default:
panic("lapack: bad side")
}
return isZero(C.LAPACKE_dgebak((C.int)(rowMajor), (C.char)(job), (C.char)(s), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(&scale[0]), (C.lapack_int)(m), (*C.double)(&v[0]), (C.lapack_int)(ldv)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgebak.f.
func Cgebak(job lapack.Job, s blas.Side, n int, ilo int, ihi int, scale []float32, m int, v []complex64, ldv int) bool {
switch s {
case blas.Left:
s = 'L'
case blas.Right:
s = 'R'
default:
panic("lapack: bad side")
}
return isZero(C.LAPACKE_cgebak((C.int)(rowMajor), (C.char)(job), (C.char)(s), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(&scale[0]), (C.lapack_int)(m), (*C.lapack_complex_float)(&v[0]), (C.lapack_int)(ldv)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgebak.f.
func Zgebak(job lapack.Job, s blas.Side, n int, ilo int, ihi int, scale []float64, m int, v []complex128, ldv int) bool {
switch s {
case blas.Left:
s = 'L'
case blas.Right:
s = 'R'
default:
panic("lapack: bad side")
}
return isZero(C.LAPACKE_zgebak((C.int)(rowMajor), (C.char)(job), (C.char)(s), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(&scale[0]), (C.lapack_int)(m), (*C.lapack_complex_double)(&v[0]), (C.lapack_int)(ldv)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgebal.f.
func Sgebal(job lapack.Job, n int, a []float32, lda int, ilo []int32, ihi []int32, scale []float32) bool {
return isZero(C.LAPACKE_sgebal((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.float)(&scale[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgebal.f.
func Dgebal(job lapack.Job, n int, a []float64, lda int, ilo []int32, ihi []int32, scale []float64) bool {
return isZero(C.LAPACKE_dgebal((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.double)(&scale[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgebal.f.
func Cgebal(job lapack.Job, n int, a []complex64, lda int, ilo []int32, ihi []int32, scale []float32) bool {
return isZero(C.LAPACKE_cgebal((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.float)(&scale[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgebal.f.
func Zgebal(job lapack.Job, n int, a []complex128, lda int, ilo []int32, ihi []int32, scale []float64) bool {
return isZero(C.LAPACKE_zgebal((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.double)(&scale[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgebrd.f.
func Sgebrd(m int, n int, a []float32, lda int, d []float32, e []float32, tauq []float32, taup []float32) bool {
return isZero(C.LAPACKE_sgebrd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.float)(&tauq[0]), (*C.float)(&taup[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgebrd.f.
func Dgebrd(m int, n int, a []float64, lda int, d []float64, e []float64, tauq []float64, taup []float64) bool {
return isZero(C.LAPACKE_dgebrd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.double)(&tauq[0]), (*C.double)(&taup[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgebrd.f.
func Cgebrd(m int, n int, a []complex64, lda int, d []float32, e []float32, tauq []complex64, taup []complex64) bool {
return isZero(C.LAPACKE_cgebrd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&d[0]), (*C.float)(&e[0]), (*C.lapack_complex_float)(&tauq[0]), (*C.lapack_complex_float)(&taup[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgebrd.f.
func Zgebrd(m int, n int, a []complex128, lda int, d []float64, e []float64, tauq []complex128, taup []complex128) bool {
return isZero(C.LAPACKE_zgebrd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&d[0]), (*C.double)(&e[0]), (*C.lapack_complex_double)(&tauq[0]), (*C.lapack_complex_double)(&taup[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgecon.f.
func Sgecon(norm byte, n int, a []float32, lda int, anorm float32, rcond []float32) bool {
return isZero(C.LAPACKE_sgecon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgecon.f.
func Dgecon(norm byte, n int, a []float64, lda int, anorm float64, rcond []float64) bool {
return isZero(C.LAPACKE_dgecon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgecon.f.
func Cgecon(norm byte, n int, a []complex64, lda int, anorm float32, rcond []float32) bool {
return isZero(C.LAPACKE_cgecon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgecon.f.
func Zgecon(norm byte, n int, a []complex128, lda int, anorm float64, rcond []float64) bool {
return isZero(C.LAPACKE_zgecon((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(&rcond[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeequ.f.
func Sgeequ(m int, n int, a []float32, lda int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_sgeequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeequ.f.
func Dgeequ(m int, n int, a []float64, lda int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_dgeequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeequ.f.
func Cgeequ(m int, n int, a []complex64, lda int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_cgeequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeequ.f.
func Zgeequ(m int, n int, a []complex128, lda int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_zgeequ((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeequb.f.
func Sgeequb(m int, n int, a []float32, lda int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_sgeequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeequb.f.
func Dgeequb(m int, n int, a []float64, lda int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_dgeequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeequb.f.
func Cgeequb(m int, n int, a []complex64, lda int, r []float32, c []float32, rowcnd []float32, colcnd []float32, amax []float32) bool {
return isZero(C.LAPACKE_cgeequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&r[0]), (*C.float)(&c[0]), (*C.float)(&rowcnd[0]), (*C.float)(&colcnd[0]), (*C.float)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeequb.f.
func Zgeequb(m int, n int, a []complex128, lda int, r []float64, c []float64, rowcnd []float64, colcnd []float64, amax []float64) bool {
return isZero(C.LAPACKE_zgeequb((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&r[0]), (*C.double)(&c[0]), (*C.double)(&rowcnd[0]), (*C.double)(&colcnd[0]), (*C.double)(&amax[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeev.f.
func Sgeev(jobvl lapack.Job, jobvr lapack.Job, n int, a []float32, lda int, wr []float32, wi []float32, vl []float32, ldvl int, vr []float32, ldvr int) bool {
return isZero(C.LAPACKE_sgeev((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&wr[0]), (*C.float)(&wi[0]), (*C.float)(&vl[0]), (C.lapack_int)(ldvl), (*C.float)(&vr[0]), (C.lapack_int)(ldvr)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeev.f.
func Dgeev(jobvl lapack.Job, jobvr lapack.Job, n int, a []float64, lda int, wr []float64, wi []float64, vl []float64, ldvl int, vr []float64, ldvr int) bool {
return isZero(C.LAPACKE_dgeev((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&wr[0]), (*C.double)(&wi[0]), (*C.double)(&vl[0]), (C.lapack_int)(ldvl), (*C.double)(&vr[0]), (C.lapack_int)(ldvr)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeev.f.
func Cgeev(jobvl lapack.Job, jobvr lapack.Job, n int, a []complex64, lda int, w []complex64, vl []complex64, ldvl int, vr []complex64, ldvr int) bool {
return isZero(C.LAPACKE_cgeev((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&w[0]), (*C.lapack_complex_float)(&vl[0]), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(&vr[0]), (C.lapack_int)(ldvr)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeev.f.
func Zgeev(jobvl lapack.Job, jobvr lapack.Job, n int, a []complex128, lda int, w []complex128, vl []complex128, ldvl int, vr []complex128, ldvr int) bool {
return isZero(C.LAPACKE_zgeev((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&w[0]), (*C.lapack_complex_double)(&vl[0]), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(&vr[0]), (C.lapack_int)(ldvr)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeevx.f.
func Sgeevx(balanc byte, jobvl lapack.Job, jobvr lapack.Job, sense byte, n int, a []float32, lda int, wr []float32, wi []float32, vl []float32, ldvl int, vr []float32, ldvr int, ilo []int32, ihi []int32, scale []float32, abnrm []float32, rconde []float32, rcondv []float32) bool {
return isZero(C.LAPACKE_sgeevx((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&wr[0]), (*C.float)(&wi[0]), (*C.float)(&vl[0]), (C.lapack_int)(ldvl), (*C.float)(&vr[0]), (C.lapack_int)(ldvr), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.float)(&scale[0]), (*C.float)(&abnrm[0]), (*C.float)(&rconde[0]), (*C.float)(&rcondv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeevx.f.
func Dgeevx(balanc byte, jobvl lapack.Job, jobvr lapack.Job, sense byte, n int, a []float64, lda int, wr []float64, wi []float64, vl []float64, ldvl int, vr []float64, ldvr int, ilo []int32, ihi []int32, scale []float64, abnrm []float64, rconde []float64, rcondv []float64) bool {
return isZero(C.LAPACKE_dgeevx((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&wr[0]), (*C.double)(&wi[0]), (*C.double)(&vl[0]), (C.lapack_int)(ldvl), (*C.double)(&vr[0]), (C.lapack_int)(ldvr), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.double)(&scale[0]), (*C.double)(&abnrm[0]), (*C.double)(&rconde[0]), (*C.double)(&rcondv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeevx.f.
func Cgeevx(balanc byte, jobvl lapack.Job, jobvr lapack.Job, sense byte, n int, a []complex64, lda int, w []complex64, vl []complex64, ldvl int, vr []complex64, ldvr int, ilo []int32, ihi []int32, scale []float32, abnrm []float32, rconde []float32, rcondv []float32) bool {
return isZero(C.LAPACKE_cgeevx((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&w[0]), (*C.lapack_complex_float)(&vl[0]), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(&vr[0]), (C.lapack_int)(ldvr), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.float)(&scale[0]), (*C.float)(&abnrm[0]), (*C.float)(&rconde[0]), (*C.float)(&rcondv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeevx.f.
func Zgeevx(balanc byte, jobvl lapack.Job, jobvr lapack.Job, sense byte, n int, a []complex128, lda int, w []complex128, vl []complex128, ldvl int, vr []complex128, ldvr int, ilo []int32, ihi []int32, scale []float64, abnrm []float64, rconde []float64, rcondv []float64) bool {
return isZero(C.LAPACKE_zgeevx((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&w[0]), (*C.lapack_complex_double)(&vl[0]), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(&vr[0]), (C.lapack_int)(ldvr), (*C.lapack_int)(&ilo[0]), (*C.lapack_int)(&ihi[0]), (*C.double)(&scale[0]), (*C.double)(&abnrm[0]), (*C.double)(&rconde[0]), (*C.double)(&rcondv[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgehrd.f.
func Sgehrd(n int, ilo int, ihi int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgehrd((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgehrd.f.
func Dgehrd(n int, ilo int, ihi int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgehrd((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgehrd.f.
func Cgehrd(n int, ilo int, ihi int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgehrd((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgehrd.f.
func Zgehrd(n int, ilo int, ihi int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgehrd((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgejsv.f.
func Sgejsv(joba lapack.Job, jobu lapack.Job, jobv lapack.Job, jobr lapack.Job, jobt lapack.Job, jobp lapack.Job, m int, n int, a []float32, lda int, sva []float32, u []float32, ldu int, v []float32, ldv int, stat []float32, istat []int32) bool {
return isZero(C.LAPACKE_sgejsv((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.char)(jobr), (C.char)(jobt), (C.char)(jobp), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&sva[0]), (*C.float)(&u[0]), (C.lapack_int)(ldu), (*C.float)(&v[0]), (C.lapack_int)(ldv), (*C.float)(&stat[0]), (*C.lapack_int)(&istat[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgejsv.f.
func Dgejsv(joba lapack.Job, jobu lapack.Job, jobv lapack.Job, jobr lapack.Job, jobt lapack.Job, jobp lapack.Job, m int, n int, a []float64, lda int, sva []float64, u []float64, ldu int, v []float64, ldv int, stat []float64, istat []int32) bool {
return isZero(C.LAPACKE_dgejsv((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.char)(jobr), (C.char)(jobt), (C.char)(jobp), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&sva[0]), (*C.double)(&u[0]), (C.lapack_int)(ldu), (*C.double)(&v[0]), (C.lapack_int)(ldv), (*C.double)(&stat[0]), (*C.lapack_int)(&istat[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelq2.f.
func Sgelq2(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgelq2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelq2.f.
func Dgelq2(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgelq2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelq2.f.
func Cgelq2(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgelq2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelq2.f.
func Zgelq2(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgelq2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelqf.f.
func Sgelqf(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgelqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelqf.f.
func Dgelqf(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgelqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelqf.f.
func Cgelqf(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgelqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelqf.f.
func Zgelqf(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgelqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgels.f.
func Sgels(trans blas.Transpose, m int, n int, nrhs int, a []float32, lda int, b []float32, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_sgels((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgels.f.
func Dgels(trans blas.Transpose, m int, n int, nrhs int, a []float64, lda int, b []float64, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_dgels((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgels.f.
func Cgels(trans blas.Transpose, m int, n int, nrhs int, a []complex64, lda int, b []complex64, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_cgels((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgels.f.
func Zgels(trans blas.Transpose, m int, n int, nrhs int, a []complex128, lda int, b []complex128, ldb int) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_zgels((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb)))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelsd.f.
func Sgelsd(m int, n int, nrhs int, a []float32, lda int, b []float32, ldb int, s []float32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_sgelsd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&s[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelsd.f.
func Dgelsd(m int, n int, nrhs int, a []float64, lda int, b []float64, ldb int, s []float64, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_dgelsd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&s[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelsd.f.
func Cgelsd(m int, n int, nrhs int, a []complex64, lda int, b []complex64, ldb int, s []float32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_cgelsd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&s[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelsd.f.
func Zgelsd(m int, n int, nrhs int, a []complex128, lda int, b []complex128, ldb int, s []float64, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_zgelsd((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&s[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelss.f.
func Sgelss(m int, n int, nrhs int, a []float32, lda int, b []float32, ldb int, s []float32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_sgelss((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&s[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelss.f.
func Dgelss(m int, n int, nrhs int, a []float64, lda int, b []float64, ldb int, s []float64, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_dgelss((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&s[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelss.f.
func Cgelss(m int, n int, nrhs int, a []complex64, lda int, b []complex64, ldb int, s []float32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_cgelss((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&s[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelss.f.
func Zgelss(m int, n int, nrhs int, a []complex128, lda int, b []complex128, ldb int, s []float64, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_zgelss((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&s[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelsy.f.
func Sgelsy(m int, n int, nrhs int, a []float32, lda int, b []float32, ldb int, jpvt []int32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_sgelsy((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_int)(&jpvt[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelsy.f.
func Dgelsy(m int, n int, nrhs int, a []float64, lda int, b []float64, ldb int, jpvt []int32, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_dgelsy((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_int)(&jpvt[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelsy.f.
func Cgelsy(m int, n int, nrhs int, a []complex64, lda int, b []complex64, ldb int, jpvt []int32, rcond float32, rank []int32) bool {
return isZero(C.LAPACKE_cgelsy((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_int)(&jpvt[0]), (C.float)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelsy.f.
func Zgelsy(m int, n int, nrhs int, a []complex128, lda int, b []complex128, ldb int, jpvt []int32, rcond float64, rank []int32) bool {
return isZero(C.LAPACKE_zgelsy((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_int)(&jpvt[0]), (C.double)(rcond), (*C.lapack_int)(&rank[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqlf.f.
func Sgeqlf(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgeqlf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqlf.f.
func Dgeqlf(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgeqlf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqlf.f.
func Cgeqlf(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqlf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqlf.f.
func Zgeqlf(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqlf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqp3.f.
func Sgeqp3(m int, n int, a []float32, lda int, jpvt []int32, tau []float32) bool {
return isZero(C.LAPACKE_sgeqp3((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqp3.f.
func Dgeqp3(m int, n int, a []float64, lda int, jpvt []int32, tau []float64) bool {
return isZero(C.LAPACKE_dgeqp3((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqp3.f.
func Cgeqp3(m int, n int, a []complex64, lda int, jpvt []int32, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqp3((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqp3.f.
func Zgeqp3(m int, n int, a []complex128, lda int, jpvt []int32, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqp3((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqpf.f.
func Sgeqpf(m int, n int, a []float32, lda int, jpvt []int32, tau []float32) bool {
return isZero(C.LAPACKE_sgeqpf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqpf.f.
func Dgeqpf(m int, n int, a []float64, lda int, jpvt []int32, tau []float64) bool {
return isZero(C.LAPACKE_dgeqpf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqpf.f.
func Cgeqpf(m int, n int, a []complex64, lda int, jpvt []int32, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqpf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqpf.f.
func Zgeqpf(m int, n int, a []complex128, lda int, jpvt []int32, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqpf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_int)(&jpvt[0]), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqr2.f.
func Sgeqr2(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgeqr2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqr2.f.
func Dgeqr2(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgeqr2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqr2.f.
func Cgeqr2(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqr2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqr2.f.
func Zgeqr2(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqr2((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrf.f.
func Sgeqrf(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgeqrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrf.f.
func Dgeqrf(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgeqrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrf.f.
func Cgeqrf(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrf.f.
func Zgeqrf(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqrf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrfp.f.
func Sgeqrfp(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgeqrfp((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrfp.f.
func Dgeqrfp(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgeqrfp((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrfp.f.
func Cgeqrfp(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgeqrfp((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrfp.f.
func Zgeqrfp(m int, n int, a []complex128, lda int, tau []complex128) bool {
return isZero(C.LAPACKE_zgeqrfp((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgerfs.f.
func Sgerfs(trans blas.Transpose, n int, nrhs int, a []float32, lda int, af []float32, ldaf int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr []float32, berr []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_sgerfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&af[0]), (C.lapack_int)(ldaf), (*C.lapack_int)(&ipiv[0]), (*C.float)(&b[0]), (C.lapack_int)(ldb), (*C.float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&ferr[0]), (*C.float)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgerfs.f.
func Dgerfs(trans blas.Transpose, n int, nrhs int, a []float64, lda int, af []float64, ldaf int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr []float64, berr []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_dgerfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&af[0]), (C.lapack_int)(ldaf), (*C.lapack_int)(&ipiv[0]), (*C.double)(&b[0]), (C.lapack_int)(ldb), (*C.double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&ferr[0]), (*C.double)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgerfs.f.
func Cgerfs(trans blas.Transpose, n int, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr []float32, berr []float32) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_cgerfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&af[0]), (C.lapack_int)(ldaf), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_float)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_float)(&x[0]), (C.lapack_int)(ldx), (*C.float)(&ferr[0]), (*C.float)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgerfs.f.
func Zgerfs(trans blas.Transpose, n int, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr []float64, berr []float64) bool {
switch trans {
case blas.NoTrans:
trans = 'N'
case blas.Trans:
trans = 'T'
case blas.ConjTrans:
trans = 'C'
default:
panic("lapack: bad trans")
}
return isZero(C.LAPACKE_zgerfs((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_double)(&af[0]), (C.lapack_int)(ldaf), (*C.lapack_int)(&ipiv[0]), (*C.lapack_complex_double)(&b[0]), (C.lapack_int)(ldb), (*C.lapack_complex_double)(&x[0]), (C.lapack_int)(ldx), (*C.double)(&ferr[0]), (*C.double)(&berr[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgerqf.f.
func Sgerqf(m int, n int, a []float32, lda int, tau []float32) bool {
return isZero(C.LAPACKE_sgerqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(&a[0]), (C.lapack_int)(lda), (*C.float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgerqf.f.
func Dgerqf(m int, n int, a []float64, lda int, tau []float64) bool {
return isZero(C.LAPACKE_dgerqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(&a[0]), (C.lapack_int)(lda), (*C.double)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgerqf.f.
func Cgerqf(m int, n int, a []complex64, lda int, tau []complex64) bool {
return isZero(C.LAPACKE_cgerqf((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(&a[0]), (C.lapack_int)(lda), (*C.lapack_complex_float)(&tau[0])))
}
// See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgerqf.f.