// Code generated by "go generate github.com/gonum/lapack/cgo/lapacke" from lapacke.h; DO NOT EDIT. // 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 lapacke provides bindings to the LAPACKE C Interface to LAPACK. // // Links are provided to the NETLIB fortran implementation/dependencies for each function. package lapacke /* #cgo CFLAGS: -g -O2 #include "lapacke.h" */ import "C" import ( "unsafe" "gonum.org/v1/gonum/blas" "gonum.org/v1/gonum/lapack" ) // 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.Comp, n int, d, e, u []float32, ldu int, vt []float32, ldvt int, q []float32, iq []int32, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _vt *float32 if len(vt) > 0 { _vt = &vt[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _iq *int32 if len(iq) > 0 { _iq = &iq[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sbdsdc_work((C.int)(rowMajor), (C.char)(ul), (C.char)(compq), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_vt), (C.lapack_int)(ldvt), (*C.float)(_q), (*C.lapack_int)(_iq), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbdsdc.f. func Dbdsdc(ul blas.Uplo, compq lapack.Comp, n int, d, e, u []float64, ldu int, vt []float64, ldvt int, q []float64, iq []int32, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _vt *float64 if len(vt) > 0 { _vt = &vt[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _iq *int32 if len(iq) > 0 { _iq = &iq[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dbdsdc_work((C.int)(rowMajor), (C.char)(ul), (C.char)(compq), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_vt), (C.lapack_int)(ldvt), (*C.double)(_q), (*C.lapack_int)(_iq), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sbdsvdx.f. func Sbdsvdx(ul blas.Uplo, jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu, il, iu, ns int, s, z []float32, ldz int, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sbdsvdx_work((C.int)(rowMajor), (C.char)(ul), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.float)(_s), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbdsvdx.f. func Dbdsvdx(ul blas.Uplo, jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu, il, iu, ns int, s, z []float64, ldz int, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dbdsvdx_work((C.int)(rowMajor), (C.char)(ul), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.double)(_s), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sbdsqr.f. func Sbdsqr(ul blas.Uplo, n, ncvt, nru, ncc int, d, e, vt []float32, ldvt int, u []float32, ldu int, c []float32, ldc int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _vt *float32 if len(vt) > 0 { _vt = &vt[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sbdsqr_work((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), (*C.float)(_e), (*C.float)(_vt), (C.lapack_int)(ldvt), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbdsqr.f. func Dbdsqr(ul blas.Uplo, n, ncvt, nru, ncc int, d, e, vt []float64, ldvt int, u []float64, ldu int, c []float64, ldc int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _vt *float64 if len(vt) > 0 { _vt = &vt[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dbdsqr_work((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), (*C.double)(_e), (*C.double)(_vt), (C.lapack_int)(ldvt), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cbdsqr.f. func Cbdsqr(ul blas.Uplo, n, ncvt, nru, ncc int, d, e []float32, vt []complex64, ldvt int, u []complex64, ldu int, c []complex64, ldc int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _vt *complex64 if len(vt) > 0 { _vt = &vt[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cbdsqr_work((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), (*C.float)(_e), (*C.lapack_complex_float)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zbdsqr.f. func Zbdsqr(ul blas.Uplo, n, ncvt, nru, ncc int, d, e []float64, vt []complex128, ldvt int, u []complex128, ldu int, c []complex128, ldc int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _vt *complex128 if len(vt) > 0 { _vt = &vt[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zbdsqr_work((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), (*C.double)(_e), (*C.lapack_complex_double)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sdisna.f. func Sdisna(job lapack.Job, m, n int, d, sep []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _sep *float32 if len(sep) > 0 { _sep = &sep[0] } return isZero(C.LAPACKE_sdisna_work((C.char)(job), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_sep))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ddisna.f. func Ddisna(job lapack.Job, m, n int, d, sep []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _sep *float64 if len(sep) > 0 { _sep = &sep[0] } return isZero(C.LAPACKE_ddisna_work((C.char)(job), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_sep))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbbrd.f. func Sgbbrd(vect byte, m, n, ncc, kl, ku int, ab []float32, ldab int, d, e, q []float32, ldq int, pt []float32, ldpt int, c []float32, ldc int, work []float32) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _pt *float32 if len(pt) > 0 { _pt = &pt[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgbbrd_work((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), (C.lapack_int)(ldab), (*C.float)(_d), (*C.float)(_e), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_pt), (C.lapack_int)(ldpt), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbbrd.f. func Dgbbrd(vect byte, m, n, ncc, kl, ku int, ab []float64, ldab int, d, e, q []float64, ldq int, pt []float64, ldpt int, c []float64, ldc int, work []float64) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _pt *float64 if len(pt) > 0 { _pt = &pt[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgbbrd_work((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), (C.lapack_int)(ldab), (*C.double)(_d), (*C.double)(_e), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_pt), (C.lapack_int)(ldpt), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbbrd.f. func Cgbbrd(vect byte, m, n, ncc, kl, ku int, ab []complex64, ldab int, d, e []float32, q []complex64, ldq int, pt []complex64, ldpt int, c []complex64, ldc int, work []complex64, rwork []float32) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _pt *complex64 if len(pt) > 0 { _pt = &pt[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgbbrd_work((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), (C.lapack_int)(ldab), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_pt), (C.lapack_int)(ldpt), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbbrd.f. func Zgbbrd(vect byte, m, n, ncc, kl, ku int, ab []complex128, ldab int, d, e []float64, q []complex128, ldq int, pt []complex128, ldpt int, c []complex128, ldc int, work []complex128, rwork []float64) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _pt *complex128 if len(pt) > 0 { _pt = &pt[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgbbrd_work((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), (C.lapack_int)(ldab), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_pt), (C.lapack_int)(ldpt), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbcon.f. func Sgbcon(norm byte, n, kl, ku int, ab []float32, ldab int, ipiv []int32, anorm float32, rcond, work []float32, iwork []int32) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgbcon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbcon.f. func Dgbcon(norm byte, n, kl, ku int, ab []float64, ldab int, ipiv []int32, anorm float64, rcond, work []float64, iwork []int32) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgbcon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbcon.f. func Cgbcon(norm byte, n, kl, ku int, ab []complex64, ldab int, ipiv []int32, anorm float32, rcond []float32, work []complex64, rwork []float32) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgbcon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbcon.f. func Zgbcon(norm byte, n, kl, ku int, ab []complex128, ldab int, ipiv []int32, anorm float64, rcond []float64, work []complex128, rwork []float64) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgbcon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbequ.f. func Sgbequ(m, n, kl, ku int, ab []float32, ldab int, r, c, rowcnd, colcnd, amax []float32) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_sgbequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbequ.f. func Dgbequ(m, n, kl, ku int, ab []float64, ldab int, r, c, rowcnd, colcnd, amax []float64) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dgbequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbequ.f. func Cgbequ(m, n, kl, ku int, ab []complex64, ldab int, r, c, rowcnd, colcnd, amax []float32) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cgbequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbequ.f. func Zgbequ(m, n, kl, ku int, ab []complex128, ldab int, r, c, rowcnd, colcnd, amax []float64) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zgbequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbequb.f. func Sgbequb(m, n, kl, ku int, ab []float32, ldab int, r, c, rowcnd, colcnd, amax []float32) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_sgbequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbequb.f. func Dgbequb(m, n, kl, ku int, ab []float64, ldab int, r, c, rowcnd, colcnd, amax []float64) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dgbequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbequb.f. func Cgbequb(m, n, kl, ku int, ab []complex64, ldab int, r, c, rowcnd, colcnd, amax []float32) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cgbequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbequb.f. func Zgbequb(m, n, kl, ku int, ab []complex128, ldab int, r, c, rowcnd, colcnd, amax []float64) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zgbequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbrfs.f. func Sgbrfs(trans blas.Transpose, n, kl, ku, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _afb *float32 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgbrfs_work((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), (C.lapack_int)(ldab), (*C.float)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbrfs.f. func Dgbrfs(trans blas.Transpose, n, kl, ku, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _afb *float64 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgbrfs_work((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), (C.lapack_int)(ldab), (*C.double)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbrfs.f. func Cgbrfs(trans blas.Transpose, n, kl, ku, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex64 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgbrfs_work((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), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbrfs.f. func Zgbrfs(trans blas.Transpose, n, kl, ku, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex128 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgbrfs_work((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), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbsv.f. func Sgbsv(n, kl, ku, nrhs int, ab []float32, ldab int, ipiv []int32, b []float32, ldb int) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgbsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbsv.f. func Dgbsv(n, kl, ku, nrhs int, ab []float64, ldab int, ipiv []int32, b []float64, ldb int) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgbsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbsv.f. func Cgbsv(n, kl, ku, nrhs int, ab []complex64, ldab int, ipiv []int32, b []complex64, ldb int) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgbsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbsv.f. func Zgbsv(n, kl, ku, nrhs int, ab []complex128, ldab int, ipiv []int32, b []complex128, ldb int) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgbsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (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, kl, ku, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, ipiv []int32, equed []byte, r, c, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _afb *float32 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgbsvx_work((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), (C.lapack_int)(ldab), (*C.float)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_r), (*C.float)(_c), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // 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, kl, ku, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, ipiv []int32, equed []byte, r, c, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _afb *float64 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgbsvx_work((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), (C.lapack_int)(ldab), (*C.double)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_r), (*C.double)(_c), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // 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, kl, ku, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, ipiv []int32, equed []byte, r, c []float32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex64 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgbsvx_work((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), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_r), (*C.float)(_c), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // 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, kl, ku, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, ipiv []int32, equed []byte, r, c []float64, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex128 if len(afb) > 0 { _afb = &afb[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgbsvx_work((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), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_afb), (C.lapack_int)(ldafb), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_r), (*C.double)(_c), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbtrf.f. func Sgbtrf(m, n, kl, ku int, ab []float32, ldab int, ipiv []int32) bool { var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_sgbtrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgbtrf.f. func Dgbtrf(m, n, kl, ku int, ab []float64, ldab int, ipiv []int32) bool { var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dgbtrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgbtrf.f. func Cgbtrf(m, n, kl, ku int, ab []complex64, ldab int, ipiv []int32) bool { var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_cgbtrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgbtrf.f. func Zgbtrf(m, n, kl, ku int, ab []complex128, ldab int, ipiv []int32) bool { var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zgbtrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgbtrs.f. func Sgbtrs(trans blas.Transpose, n, kl, ku, 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") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgbtrs_work((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), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.float)(_b), (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, kl, ku, 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") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgbtrs_work((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), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.double)(_b), (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, kl, ku, 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") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgbtrs_work((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), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (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, kl, ku, 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") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgbtrs_work((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), (C.lapack_int)(ldab), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (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, side blas.Side, n, ilo, ihi int, scale []float32, m int, v []float32, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_sgebak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_scale), (C.lapack_int)(m), (*C.float)(_v), (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, side blas.Side, n, ilo, ihi int, scale []float64, m int, v []float64, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_dgebak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_scale), (C.lapack_int)(m), (*C.double)(_v), (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, side blas.Side, n, ilo, ihi int, scale []float32, m int, v []complex64, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_cgebak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_scale), (C.lapack_int)(m), (*C.lapack_complex_float)(_v), (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, side blas.Side, n, ilo, ihi int, scale []float64, m int, v []complex128, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_zgebak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_scale), (C.lapack_int)(m), (*C.lapack_complex_double)(_v), (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, ihi []int32, scale []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_sgebal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_scale))) } // 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, ihi []int32, scale []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_dgebal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_scale))) } // 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, ihi []int32, scale []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_cgebal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_scale))) } // 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, ihi []int32, scale []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_zgebal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_scale))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgebrd.f. func Sgebrd(m, n int, a []float32, lda int, d, e, tauq, taup, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tauq *float32 if len(tauq) > 0 { _tauq = &tauq[0] } var _taup *float32 if len(taup) > 0 { _taup = &taup[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgebrd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_d), (*C.float)(_e), (*C.float)(_tauq), (*C.float)(_taup), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgebrd.f. func Dgebrd(m, n int, a []float64, lda int, d, e, tauq, taup, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tauq *float64 if len(tauq) > 0 { _tauq = &tauq[0] } var _taup *float64 if len(taup) > 0 { _taup = &taup[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgebrd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_d), (*C.double)(_e), (*C.double)(_tauq), (*C.double)(_taup), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgebrd.f. func Cgebrd(m, n int, a []complex64, lda int, d, e []float32, tauq, taup, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tauq *complex64 if len(tauq) > 0 { _tauq = &tauq[0] } var _taup *complex64 if len(taup) > 0 { _taup = &taup[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgebrd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_tauq), (*C.lapack_complex_float)(_taup), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgebrd.f. func Zgebrd(m, n int, a []complex128, lda int, d, e []float64, tauq, taup, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tauq *complex128 if len(tauq) > 0 { _tauq = &tauq[0] } var _taup *complex128 if len(taup) > 0 { _taup = &taup[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgebrd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_tauq), (*C.lapack_complex_double)(_taup), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // 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, work []float32, iwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgecon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // 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, work []float64, iwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgecon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // 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, work []complex64, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgecon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // 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, work []complex128, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgecon_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeequ.f. func Sgeequ(m, n int, a []float32, lda int, r, c, rowcnd, colcnd, amax []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_sgeequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeequ.f. func Dgeequ(m, n int, a []float64, lda int, r, c, rowcnd, colcnd, amax []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dgeequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeequ.f. func Cgeequ(m, n int, a []complex64, lda int, r, c, rowcnd, colcnd, amax []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cgeequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeequ.f. func Zgeequ(m, n int, a []complex128, lda int, r, c, rowcnd, colcnd, amax []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zgeequ_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeequb.f. func Sgeequb(m, n int, a []float32, lda int, r, c, rowcnd, colcnd, amax []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_sgeequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeequb.f. func Dgeequb(m, n int, a []float64, lda int, r, c, rowcnd, colcnd, amax []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dgeequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeequb.f. func Cgeequb(m, n int, a []complex64, lda int, r, c, rowcnd, colcnd, amax []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _rowcnd *float32 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float32 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cgeequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_r), (*C.float)(_c), (*C.float)(_rowcnd), (*C.float)(_colcnd), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeequb.f. func Zgeequb(m, n int, a []complex128, lda int, r, c, rowcnd, colcnd, amax []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _rowcnd *float64 if len(rowcnd) > 0 { _rowcnd = &rowcnd[0] } var _colcnd *float64 if len(colcnd) > 0 { _colcnd = &colcnd[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zgeequb_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_r), (*C.double)(_c), (*C.double)(_rowcnd), (*C.double)(_colcnd), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeev.f. func Sgeev(jobvl, jobvr lapack.Job, n int, a []float32, lda int, wr, wi, vl []float32, ldvl int, vr []float32, ldvr int, work []float32, lwork int) int { var _a *float32 if len(a) > 0 { _a = &a[0] } var _wr *float32 if len(wr) > 0 { _wr = &wr[0] } var _wi *float32 if len(wi) > 0 { _wi = &wi[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_sgeev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_wr), (*C.float)(_wi), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeev.f. func Dgeev(jobvl, jobvr lapack.Job, n int, a []float64, lda int, wr, wi, vl []float64, ldvl int, vr []float64, ldvr int, work []float64, lwork int) int { var _a *float64 if len(a) > 0 { _a = &a[0] } var _wr *float64 if len(wr) > 0 { _wr = &wr[0] } var _wi *float64 if len(wi) > 0 { _wi = &wi[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_dgeev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_wr), (*C.double)(_wi), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeev.f. func Cgeev(jobvl, jobvr lapack.Job, n int, a []complex64, lda int, w, vl []complex64, ldvl int, vr []complex64, ldvr int, work []complex64, lwork int, rwork []float32) int { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _w *complex64 if len(w) > 0 { _w = &w[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return int(C.LAPACKE_cgeev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_w), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeev.f. func Zgeev(jobvl, jobvr lapack.Job, n int, a []complex128, lda int, w, vl []complex128, ldvl int, vr []complex128, ldvr int, work []complex128, lwork int, rwork []float64) int { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _w *complex128 if len(w) > 0 { _w = &w[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return int(C.LAPACKE_zgeev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_w), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeevx.f. func Sgeevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []float32, lda int, wr, wi, vl []float32, ldvl int, vr []float32, ldvr int, ilo, ihi []int32, scale, abnrm, rconde, rcondv, work []float32, lwork int, iwork []int32) int { var _a *float32 if len(a) > 0 { _a = &a[0] } var _wr *float32 if len(wr) > 0 { _wr = &wr[0] } var _wi *float32 if len(wi) > 0 { _wi = &wi[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _abnrm *float32 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _rconde *float32 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float32 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return int(C.LAPACKE_sgeevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_wr), (*C.float)(_wi), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_scale), (*C.float)(_abnrm), (*C.float)(_rconde), (*C.float)(_rcondv), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeevx.f. func Dgeevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []float64, lda int, wr, wi, vl []float64, ldvl int, vr []float64, ldvr int, ilo, ihi []int32, scale, abnrm, rconde, rcondv, work []float64, lwork int, iwork []int32) int { var _a *float64 if len(a) > 0 { _a = &a[0] } var _wr *float64 if len(wr) > 0 { _wr = &wr[0] } var _wi *float64 if len(wi) > 0 { _wi = &wi[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _abnrm *float64 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _rconde *float64 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float64 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return int(C.LAPACKE_dgeevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_wr), (*C.double)(_wi), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_scale), (*C.double)(_abnrm), (*C.double)(_rconde), (*C.double)(_rcondv), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeevx.f. func Cgeevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []complex64, lda int, w, vl []complex64, ldvl int, vr []complex64, ldvr int, ilo, ihi []int32, scale, abnrm, rconde, rcondv []float32, work []complex64, lwork int, rwork []float32) int { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _w *complex64 if len(w) > 0 { _w = &w[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _abnrm *float32 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _rconde *float32 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float32 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return int(C.LAPACKE_cgeevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_w), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_scale), (*C.float)(_abnrm), (*C.float)(_rconde), (*C.float)(_rcondv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeevx.f. func Zgeevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []complex128, lda int, w, vl []complex128, ldvl int, vr []complex128, ldvr int, ilo, ihi []int32, scale, abnrm, rconde, rcondv []float64, work []complex128, lwork int, rwork []float64) int { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _w *complex128 if len(w) > 0 { _w = &w[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _abnrm *float64 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _rconde *float64 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float64 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return int(C.LAPACKE_zgeevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_w), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_scale), (*C.double)(_abnrm), (*C.double)(_rconde), (*C.double)(_rcondv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgehrd.f. func Sgehrd(n, ilo, ihi int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgehrd_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgehrd.f. func Dgehrd(n, ilo, ihi int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgehrd_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgehrd.f. func Cgehrd(n, ilo, ihi int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgehrd_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgehrd.f. func Zgehrd(n, ilo, ihi int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgehrd_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgejsv.f. func Sgejsv(joba, jobu, jobv, jobr, jobt, jobp lapack.Job, m, n int, a []float32, lda int, sva, u []float32, ldu int, v []float32, ldv int, work []float32, lwork int, iwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _sva *float32 if len(sva) > 0 { _sva = &sva[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgejsv_work((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), (C.lapack_int)(lda), (*C.float)(_sva), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgejsv.f. func Dgejsv(joba, jobu, jobv, jobr, jobt, jobp lapack.Job, m, n int, a []float64, lda int, sva, u []float64, ldu int, v []float64, ldv int, work []float64, lwork int, iwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _sva *float64 if len(sva) > 0 { _sva = &sva[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgejsv_work((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), (C.lapack_int)(lda), (*C.double)(_sva), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgejsv.f. func Cgejsv(joba, jobu, jobv, jobr, jobt, jobp lapack.Job, m, n int, a []complex64, lda int, sva []float32, u []complex64, ldu int, v []complex64, ldv int, cwork []complex64, lwork int, work []float32, lrwork int, iwork []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _sva *float32 if len(sva) > 0 { _sva = &sva[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _cwork *complex64 if len(cwork) > 0 { _cwork = &cwork[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cgejsv_work((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.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_sva), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_cwork), (C.lapack_int)(lwork), (*C.float)(_work), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgejsv.f. func Zgejsv(joba, jobu, jobv, jobr, jobt, jobp lapack.Job, m, n int, a []complex128, lda int, sva []float64, u []complex128, ldu int, v []complex128, ldv int, cwork []complex128, lwork int, work []float64, lrwork int, iwork []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _sva *float64 if len(sva) > 0 { _sva = &sva[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _cwork *complex128 if len(cwork) > 0 { _cwork = &cwork[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zgejsv_work((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.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_sva), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_cwork), (C.lapack_int)(lwork), (*C.double)(_work), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelq2.f. func Sgelq2(m, n int, a []float32, lda int, tau, work []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgelq2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelq2.f. func Dgelq2(m, n int, a []float64, lda int, tau, work []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgelq2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelq2.f. func Cgelq2(m, n int, a []complex64, lda int, tau, work []complex64) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgelq2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelq2.f. func Zgelq2(m, n int, a []complex128, lda int, tau, work []complex128) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgelq2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelqf.f. func Sgelqf(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgelqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelqf.f. func Dgelqf(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgelqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelqf.f. func Cgelqf(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgelqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelqf.f. func Zgelqf(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgelqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgels.f. func Sgels(trans blas.Transpose, m, n, nrhs int, a []float32, lda int, b []float32, ldb int, work []float32, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgels_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgels.f. func Dgels(trans blas.Transpose, m, n, nrhs int, a []float64, lda int, b []float64, ldb int, work []float64, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgels_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgels.f. func Cgels(trans blas.Transpose, m, n, nrhs int, a []complex64, lda int, b []complex64, ldb int, work []complex64, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgels_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgels.f. func Zgels(trans blas.Transpose, m, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, work []complex128, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgels_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelsd.f. func Sgelsd(m, n, nrhs int, a []float32, lda int, b []float32, ldb int, s []float32, rcond float32, rank []int32, work []float32, lwork int, iwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgelsd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_s), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelsd.f. func Dgelsd(m, n, nrhs int, a []float64, lda int, b []float64, ldb int, s []float64, rcond float64, rank []int32, work []float64, lwork int, iwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgelsd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_s), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelsd.f. func Cgelsd(m, n, nrhs int, a []complex64, lda int, b []complex64, ldb int, s []float32, rcond float32, rank []int32, work []complex64, lwork int, rwork []float32, iwork []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cgelsd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.float)(_s), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelsd.f. func Zgelsd(m, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, s []float64, rcond float64, rank []int32, work []complex128, lwork int, rwork []float64, iwork []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zgelsd_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.double)(_s), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelss.f. func Sgelss(m, n, nrhs int, a []float32, lda int, b []float32, ldb int, s []float32, rcond float32, rank []int32, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgelss_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_s), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelss.f. func Dgelss(m, n, nrhs int, a []float64, lda int, b []float64, ldb int, s []float64, rcond float64, rank []int32, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgelss_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_s), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelss.f. func Cgelss(m, n, nrhs int, a []complex64, lda int, b []complex64, ldb int, s []float32, rcond float32, rank []int32, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgelss_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.float)(_s), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelss.f. func Zgelss(m, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, s []float64, rcond float64, rank []int32, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgelss_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.double)(_s), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgelsy.f. func Sgelsy(m, n, nrhs int, a []float32, lda int, b []float32, ldb int, jpvt []int32, rcond float32, rank []int32, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgelsy_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_jpvt), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgelsy.f. func Dgelsy(m, n, nrhs int, a []float64, lda int, b []float64, ldb int, jpvt []int32, rcond float64, rank []int32, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgelsy_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_jpvt), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgelsy.f. func Cgelsy(m, n, nrhs int, a []complex64, lda int, b []complex64, ldb int, jpvt []int32, rcond float32, rank []int32, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgelsy_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_jpvt), (C.float)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgelsy.f. func Zgelsy(m, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, jpvt []int32, rcond float64, rank []int32, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgelsy_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_jpvt), (C.double)(rcond), (*C.lapack_int)(_rank), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqlf.f. func Sgeqlf(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqlf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqlf.f. func Dgeqlf(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqlf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqlf.f. func Cgeqlf(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgeqlf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqlf.f. func Zgeqlf(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgeqlf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqp3.f. func Sgeqp3(m, n int, a []float32, lda int, jpvt []int32, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqp3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_jpvt), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqp3.f. func Dgeqp3(m, n int, a []float64, lda int, jpvt []int32, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqp3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_jpvt), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqp3.f. func Cgeqp3(m, n int, a []complex64, lda int, jpvt []int32, tau, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgeqp3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_jpvt), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqp3.f. func Zgeqp3(m, n int, a []complex128, lda int, jpvt []int32, tau, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _jpvt *int32 if len(jpvt) > 0 { _jpvt = &jpvt[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgeqp3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_jpvt), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqr2.f. func Sgeqr2(m, n int, a []float32, lda int, tau, work []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqr2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqr2.f. func Dgeqr2(m, n int, a []float64, lda int, tau, work []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqr2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqr2.f. func Cgeqr2(m, n int, a []complex64, lda int, tau, work []complex64) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgeqr2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqr2.f. func Zgeqr2(m, n int, a []complex128, lda int, tau, work []complex128) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgeqr2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrf.f. func Sgeqrf(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrf.f. func Dgeqrf(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrf.f. func Cgeqrf(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgeqrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrf.f. func Zgeqrf(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgeqrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrfp.f. func Sgeqrfp(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqrfp_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrfp.f. func Dgeqrfp(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqrfp_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrfp.f. func Cgeqrfp(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgeqrfp_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrfp.f. func Zgeqrfp(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgeqrfp_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgerfs.f. func Sgerfs(trans blas.Transpose, n, nrhs int, a []float32, lda int, af []float32, ldaf int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgerfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgerfs.f. func Dgerfs(trans blas.Transpose, n, nrhs int, a []float64, lda int, af []float64, ldaf int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgerfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgerfs.f. func Cgerfs(trans blas.Transpose, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgerfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgerfs.f. func Zgerfs(trans blas.Transpose, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgerfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgerqf.f. func Sgerqf(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgerqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgerqf.f. func Dgerqf(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgerqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgerqf.f. func Cgerqf(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgerqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgerqf.f. func Zgerqf(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgerqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesdd.f. func Sgesdd(jobz lapack.Job, m, n int, a []float32, lda int, s, u []float32, ldu int, vt []float32, ldvt int, work []float32, lwork int, iwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _vt *float32 if len(vt) > 0 { _vt = &vt[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgesdd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_vt), (C.lapack_int)(ldvt), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesdd.f. func Dgesdd(jobz lapack.Job, m, n int, a []float64, lda int, s, u []float64, ldu int, vt []float64, ldvt int, work []float64, lwork int, iwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _vt *float64 if len(vt) > 0 { _vt = &vt[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgesdd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_vt), (C.lapack_int)(ldvt), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesdd.f. func Cgesdd(jobz lapack.Job, m, n int, a []complex64, lda int, s []float32, u []complex64, ldu int, vt []complex64, ldvt int, work []complex64, lwork int, rwork []float32, iwork []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _vt *complex64 if len(vt) > 0 { _vt = &vt[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cgesdd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesdd.f. func Zgesdd(jobz lapack.Job, m, n int, a []complex128, lda int, s []float64, u []complex128, ldu int, vt []complex128, ldvt int, work []complex128, lwork int, rwork []float64, iwork []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _vt *complex128 if len(vt) > 0 { _vt = &vt[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zgesdd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesv.f. func Sgesv(n, nrhs int, a []float32, lda int, ipiv []int32, b []float32, ldb int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesv.f. func Dgesv(n, nrhs int, a []float64, lda int, ipiv []int32, b []float64, ldb int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesv.f. func Cgesv(n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesv.f. func Zgesv(n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsgesv.f. func Dsgesv(n, nrhs int, a []float64, lda int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, work []float64, swork []float32, iter []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _swork *float32 if len(swork) > 0 { _swork = &swork[0] } var _iter *int32 if len(iter) > 0 { _iter = &iter[0] } return isZero(C.LAPACKE_dsgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_work), (*C.float)(_swork), (*C.lapack_int)(_iter))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zcgesv.f. func Zcgesv(n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, work []complex128, swork []complex64, rwork []float64, iter []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _swork *complex64 if len(swork) > 0 { _swork = &swork[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iter *int32 if len(iter) > 0 { _iter = &iter[0] } return isZero(C.LAPACKE_zcgesv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.lapack_complex_double)(_work), (*C.lapack_complex_float)(_swork), (*C.double)(_rwork), (*C.lapack_int)(_iter))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesvd.f. func Sgesvd(jobu, jobvt lapack.Job, m, n int, a []float32, lda int, s, u []float32, ldu int, vt []float32, ldvt int, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _vt *float32 if len(vt) > 0 { _vt = &vt[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgesvd_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_vt), (C.lapack_int)(ldvt), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesvd.f. func Dgesvd(jobu, jobvt lapack.Job, m, n int, a []float64, lda int, s, u []float64, ldu int, vt []float64, ldvt int, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _vt *float64 if len(vt) > 0 { _vt = &vt[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgesvd_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_vt), (C.lapack_int)(ldvt), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesvd.f. func Cgesvd(jobu, jobvt lapack.Job, m, n int, a []complex64, lda int, s []float32, u []complex64, ldu int, vt []complex64, ldvt int, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _vt *complex64 if len(vt) > 0 { _vt = &vt[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgesvd_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesvd.f. func Zgesvd(jobu, jobvt lapack.Job, m, n int, a []complex128, lda int, s []float64, u []complex128, ldu int, vt []complex128, ldvt int, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _vt *complex128 if len(vt) > 0 { _vt = &vt[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgesvd_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesvdx.f. func Sgesvdx(jobu, jobvt lapack.Job, rng byte, m, n int, a []float32, lda, vl, vu, il, iu, ns int, s, u []float32, ldu int, vt []float32, ldvt int, work []float32, lwork int, iwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _vt *float32 if len(vt) > 0 { _vt = &vt[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgesvdx_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.char)(rng), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.float)(_s), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_vt), (C.lapack_int)(ldvt), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesvdx.f. func Dgesvdx(jobu, jobvt lapack.Job, rng byte, m, n int, a []float64, lda, vl, vu, il, iu, ns int, s, u []float64, ldu int, vt []float64, ldvt int, work []float64, lwork int, iwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _vt *float64 if len(vt) > 0 { _vt = &vt[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgesvdx_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.char)(rng), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.double)(_s), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_vt), (C.lapack_int)(ldvt), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesvdx.f. func Cgesvdx(jobu, jobvt lapack.Job, rng byte, m, n int, a []complex64, lda, vl, vu, il, iu, ns int, s []float32, u []complex64, ldu int, vt []complex64, ldvt int, work []complex64, lwork int, rwork []float32, iwork []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _vt *complex64 if len(vt) > 0 { _vt = &vt[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cgesvdx_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.char)(rng), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.float)(_s), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesvdx.f. func Zgesvdx(jobu, jobvt lapack.Job, rng byte, m, n int, a []complex128, lda, vl, vu, il, iu, ns int, s []float64, u []complex128, ldu int, vt []complex128, ldvt int, work []complex128, lwork int, rwork []float64, iwork []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _vt *complex128 if len(vt) > 0 { _vt = &vt[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zgesvdx_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobvt), (C.char)(rng), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.lapack_int)(vl), (C.lapack_int)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.lapack_int)(ns), (*C.double)(_s), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_vt), (C.lapack_int)(ldvt), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesvj.f. func Sgesvj(joba, jobu, jobv lapack.Job, m, n int, a []float32, lda int, sva []float32, mv int, v []float32, ldv int, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _sva *float32 if len(sva) > 0 { _sva = &sva[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgesvj_work((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_sva), (C.lapack_int)(mv), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesvj.f. func Dgesvj(joba, jobu, jobv lapack.Job, m, n int, a []float64, lda int, sva []float64, mv int, v []float64, ldv int, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _sva *float64 if len(sva) > 0 { _sva = &sva[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgesvj_work((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_sva), (C.lapack_int)(mv), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesvj.f. func Cgesvj(joba, jobu, jobv lapack.Job, m, n int, a []complex64, lda int, sva []float32, mv int, v []complex64, ldv int, cwork []complex64, lwork int, rwork []float32, lrwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _sva *float32 if len(sva) > 0 { _sva = &sva[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _cwork *complex64 if len(cwork) > 0 { _cwork = &cwork[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgesvj_work((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_sva), (C.lapack_int)(mv), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_cwork), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesvj.f. func Zgesvj(joba, jobu, jobv lapack.Job, m, n int, a []complex128, lda int, sva []float64, mv int, v []complex128, ldv int, cwork []complex128, lwork int, rwork []float64, lrwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _sva *float64 if len(sva) > 0 { _sva = &sva[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _cwork *complex128 if len(cwork) > 0 { _cwork = &cwork[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgesvj_work((C.int)(rowMajor), (C.char)(joba), (C.char)(jobu), (C.char)(jobv), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_sva), (C.lapack_int)(mv), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_cwork), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgesvx.f. func Sgesvx(fact byte, trans blas.Transpose, n, nrhs int, a []float32, lda int, af []float32, ldaf int, ipiv []int32, equed []byte, r, c, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_r), (*C.float)(_c), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgesvx.f. func Dgesvx(fact byte, trans blas.Transpose, n, nrhs int, a []float64, lda int, af []float64, ldaf int, ipiv []int32, equed []byte, r, c, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_r), (*C.double)(_c), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgesvx.f. func Cgesvx(fact byte, trans blas.Transpose, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, equed []byte, r, c []float32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_r), (*C.float)(_c), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgesvx.f. func Zgesvx(fact byte, trans blas.Transpose, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, equed []byte, r, c []float64, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_r), (*C.double)(_c), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgetf2.f. func Sgetf2(m, n int, a []float32, lda int, ipiv []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_sgetf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgetf2.f. func Dgetf2(m, n int, a []float64, lda int, ipiv []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dgetf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgetf2.f. func Cgetf2(m, n int, a []complex64, lda int, ipiv []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_cgetf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgetf2.f. func Zgetf2(m, n int, a []complex128, lda int, ipiv []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zgetf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgetrf.f. func Sgetrf(m, n int, a []float32, lda int, ipiv []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_sgetrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgetrf.f. func Dgetrf(m, n int, a []float64, lda int, ipiv []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dgetrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgetrf.f. func Cgetrf(m, n int, a []complex64, lda int, ipiv []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_cgetrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgetrf.f. func Zgetrf(m, n int, a []complex128, lda int, ipiv []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zgetrf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgetrf2.f. func Sgetrf2(m, n int, a []float32, lda int, ipiv []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_sgetrf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgetrf2.f. func Dgetrf2(m, n int, a []float64, lda int, ipiv []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dgetrf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgetrf2.f. func Cgetrf2(m, n int, a []complex64, lda int, ipiv []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_cgetrf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgetrf2.f. func Zgetrf2(m, n int, a []complex128, lda int, ipiv []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zgetrf2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgetri.f. func Sgetri(n int, a []float32, lda int, ipiv []int32, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgetri_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgetri.f. func Dgetri(n int, a []float64, lda int, ipiv []int32, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgetri_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgetri.f. func Cgetri(n int, a []complex64, lda int, ipiv []int32, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgetri_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgetri.f. func Zgetri(n int, a []complex128, lda int, ipiv []int32, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgetri_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgetrs.f. func Sgetrs(trans blas.Transpose, n, nrhs int, a []float32, lda 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") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgetrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgetrs.f. func Dgetrs(trans blas.Transpose, n, nrhs int, a []float64, lda 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") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgetrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgetrs.f. func Cgetrs(trans blas.Transpose, n, nrhs int, a []complex64, lda 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") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgetrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgetrs.f. func Zgetrs(trans blas.Transpose, n, nrhs int, a []complex128, lda 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") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgetrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggbak.f. func Sggbak(job lapack.Job, side blas.Side, n, ilo, ihi int, lscale, rscale []float32, m int, v []float32, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_sggbak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_lscale), (*C.float)(_rscale), (C.lapack_int)(m), (*C.float)(_v), (C.lapack_int)(ldv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggbak.f. func Dggbak(job lapack.Job, side blas.Side, n, ilo, ihi int, lscale, rscale []float64, m int, v []float64, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_dggbak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_lscale), (*C.double)(_rscale), (C.lapack_int)(m), (*C.double)(_v), (C.lapack_int)(ldv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggbak.f. func Cggbak(job lapack.Job, side blas.Side, n, ilo, ihi int, lscale, rscale []float32, m int, v []complex64, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_cggbak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_lscale), (*C.float)(_rscale), (C.lapack_int)(m), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggbak.f. func Zggbak(job lapack.Job, side blas.Side, n, ilo, ihi int, lscale, rscale []float64, m int, v []complex128, ldv int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } return isZero(C.LAPACKE_zggbak_work((C.int)(rowMajor), (C.char)(job), (C.char)(side), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_lscale), (*C.double)(_rscale), (C.lapack_int)(m), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggbal.f. func Sggbal(job lapack.Job, n int, a []float32, lda int, b []float32, ldb int, ilo, ihi []int32, lscale, rscale, work []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggbal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_lscale), (*C.float)(_rscale), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggbal.f. func Dggbal(job lapack.Job, n int, a []float64, lda int, b []float64, ldb int, ilo, ihi []int32, lscale, rscale, work []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggbal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_lscale), (*C.double)(_rscale), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggbal.f. func Cggbal(job lapack.Job, n int, a []complex64, lda int, b []complex64, ldb int, ilo, ihi []int32, lscale, rscale, work []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cggbal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_lscale), (*C.float)(_rscale), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggbal.f. func Zggbal(job lapack.Job, n int, a []complex128, lda int, b []complex128, ldb int, ilo, ihi []int32, lscale, rscale, work []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zggbal_work((C.int)(rowMajor), (C.char)(job), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_lscale), (*C.double)(_rscale), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggev.f. func Sggev(jobvl, jobvr lapack.Job, n int, a []float32, lda int, b []float32, ldb int, alphar, alphai, beta, vl []float32, ldvl int, vr []float32, ldvr int, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alphar *float32 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float32 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_alphar), (*C.float)(_alphai), (*C.float)(_beta), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggev.f. func Dggev(jobvl, jobvr lapack.Job, n int, a []float64, lda int, b []float64, ldb int, alphar, alphai, beta, vl []float64, ldvl int, vr []float64, ldvr int, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alphar *float64 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float64 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_alphar), (*C.double)(_alphai), (*C.double)(_beta), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggev.f. func Cggev(jobvl, jobvr lapack.Job, n int, a []complex64, lda int, b []complex64, ldb int, alpha, beta, vl []complex64, ldvl int, vr []complex64, ldvr int, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex64 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cggev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_beta), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggev.f. func Zggev(jobvl, jobvr lapack.Job, n int, a []complex128, lda int, b []complex128, ldb int, alpha, beta, vl []complex128, ldvl int, vr []complex128, ldvr int, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex128 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zggev_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_beta), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggev3.f. func Sggev3(jobvl, jobvr lapack.Job, n int, a []float32, lda int, b []float32, ldb int, alphar, alphai, beta, vl []float32, ldvl int, vr []float32, ldvr int, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alphar *float32 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float32 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggev3_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_alphar), (*C.float)(_alphai), (*C.float)(_beta), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggev3.f. func Dggev3(jobvl, jobvr lapack.Job, n int, a []float64, lda int, b []float64, ldb int, alphar, alphai, beta, vl []float64, ldvl int, vr []float64, ldvr int, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alphar *float64 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float64 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggev3_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_alphar), (*C.double)(_alphai), (*C.double)(_beta), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggev3.f. func Cggev3(jobvl, jobvr lapack.Job, n int, a []complex64, lda int, b []complex64, ldb int, alpha, beta, vl []complex64, ldvl int, vr []complex64, ldvr int, work []complex64, lwork int, rwork []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex64 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cggev3_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_beta), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggev3.f. func Zggev3(jobvl, jobvr lapack.Job, n int, a []complex128, lda int, b []complex128, ldb int, alpha, beta, vl []complex128, ldvl int, vr []complex128, ldvr int, work []complex128, lwork int, rwork []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex128 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zggev3_work((C.int)(rowMajor), (C.char)(jobvl), (C.char)(jobvr), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_beta), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggevx.f. func Sggevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []float32, lda int, b []float32, ldb int, alphar, alphai, beta, vl []float32, ldvl int, vr []float32, ldvr int, ilo, ihi []int32, lscale, rscale, abnrm, bbnrm, rconde, rcondv, work []float32, lwork int, iwork, bwork []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alphar *float32 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float32 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _abnrm *float32 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _bbnrm *float32 if len(bbnrm) > 0 { _bbnrm = &bbnrm[0] } var _rconde *float32 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float32 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _bwork *int32 if len(bwork) > 0 { _bwork = &bwork[0] } return isZero(C.LAPACKE_sggevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_alphar), (*C.float)(_alphai), (*C.float)(_beta), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_lscale), (*C.float)(_rscale), (*C.float)(_abnrm), (*C.float)(_bbnrm), (*C.float)(_rconde), (*C.float)(_rcondv), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_logical)(_bwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggevx.f. func Dggevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []float64, lda int, b []float64, ldb int, alphar, alphai, beta, vl []float64, ldvl int, vr []float64, ldvr int, ilo, ihi []int32, lscale, rscale, abnrm, bbnrm, rconde, rcondv, work []float64, lwork int, iwork, bwork []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alphar *float64 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float64 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _abnrm *float64 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _bbnrm *float64 if len(bbnrm) > 0 { _bbnrm = &bbnrm[0] } var _rconde *float64 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float64 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _bwork *int32 if len(bwork) > 0 { _bwork = &bwork[0] } return isZero(C.LAPACKE_dggevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_alphar), (*C.double)(_alphai), (*C.double)(_beta), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_lscale), (*C.double)(_rscale), (*C.double)(_abnrm), (*C.double)(_bbnrm), (*C.double)(_rconde), (*C.double)(_rcondv), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_logical)(_bwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggevx.f. func Cggevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []complex64, lda int, b []complex64, ldb int, alpha, beta, vl []complex64, ldvl int, vr []complex64, ldvr int, ilo, ihi []int32, lscale, rscale, abnrm, bbnrm, rconde, rcondv []float32, work []complex64, lwork int, rwork []float32, iwork, bwork []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex64 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float32 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float32 if len(rscale) > 0 { _rscale = &rscale[0] } var _abnrm *float32 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _bbnrm *float32 if len(bbnrm) > 0 { _bbnrm = &bbnrm[0] } var _rconde *float32 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float32 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _bwork *int32 if len(bwork) > 0 { _bwork = &bwork[0] } return isZero(C.LAPACKE_cggevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_beta), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.float)(_lscale), (*C.float)(_rscale), (*C.float)(_abnrm), (*C.float)(_bbnrm), (*C.float)(_rconde), (*C.float)(_rcondv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_logical)(_bwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggevx.f. func Zggevx(balanc byte, jobvl, jobvr lapack.Job, sense byte, n int, a []complex128, lda int, b []complex128, ldb int, alpha, beta, vl []complex128, ldvl int, vr []complex128, ldvr int, ilo, ihi []int32, lscale, rscale, abnrm, bbnrm, rconde, rcondv []float64, work []complex128, lwork int, rwork []float64, iwork, bwork []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex128 if len(beta) > 0 { _beta = &beta[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _ilo *int32 if len(ilo) > 0 { _ilo = &ilo[0] } var _ihi *int32 if len(ihi) > 0 { _ihi = &ihi[0] } var _lscale *float64 if len(lscale) > 0 { _lscale = &lscale[0] } var _rscale *float64 if len(rscale) > 0 { _rscale = &rscale[0] } var _abnrm *float64 if len(abnrm) > 0 { _abnrm = &abnrm[0] } var _bbnrm *float64 if len(bbnrm) > 0 { _bbnrm = &bbnrm[0] } var _rconde *float64 if len(rconde) > 0 { _rconde = &rconde[0] } var _rcondv *float64 if len(rcondv) > 0 { _rcondv = &rcondv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _bwork *int32 if len(bwork) > 0 { _bwork = &bwork[0] } return isZero(C.LAPACKE_zggevx_work((C.int)(rowMajor), (C.char)(balanc), (C.char)(jobvl), (C.char)(jobvr), (C.char)(sense), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_beta), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.lapack_int)(_ilo), (*C.lapack_int)(_ihi), (*C.double)(_lscale), (*C.double)(_rscale), (*C.double)(_abnrm), (*C.double)(_bbnrm), (*C.double)(_rconde), (*C.double)(_rcondv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_logical)(_bwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggglm.f. func Sggglm(n, m, p int, a []float32, lda int, b []float32, ldb int, d, x, y, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _y *float32 if len(y) > 0 { _y = &y[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggglm_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_d), (*C.float)(_x), (*C.float)(_y), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggglm.f. func Dggglm(n, m, p int, a []float64, lda int, b []float64, ldb int, d, x, y, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _y *float64 if len(y) > 0 { _y = &y[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggglm_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_d), (*C.double)(_x), (*C.double)(_y), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggglm.f. func Cggglm(n, m, p int, a []complex64, lda int, b []complex64, ldb int, d, x, y, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _y *complex64 if len(y) > 0 { _y = &y[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cggglm_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_x), (*C.lapack_complex_float)(_y), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggglm.f. func Zggglm(n, m, p int, a []complex128, lda int, b []complex128, ldb int, d, x, y, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _y *complex128 if len(y) > 0 { _y = &y[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zggglm_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_x), (*C.lapack_complex_double)(_y), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgghrd.f. func Sgghrd(compq, compz lapack.Comp, n, ilo, ihi int, a []float32, lda int, b []float32, ldb int, q []float32, ldq int, z []float32, ldz int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_sgghrd_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_z), (C.lapack_int)(ldz))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgghrd.f. func Dgghrd(compq, compz lapack.Comp, n, ilo, ihi int, a []float64, lda int, b []float64, ldb int, q []float64, ldq int, z []float64, ldz int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_dgghrd_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_z), (C.lapack_int)(ldz))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgghrd.f. func Cgghrd(compq, compz lapack.Comp, n, ilo, ihi int, a []complex64, lda int, b []complex64, ldb int, q []complex64, ldq int, z []complex64, ldz int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_cgghrd_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgghrd.f. func Zgghrd(compq, compz lapack.Comp, n, ilo, ihi int, a []complex128, lda int, b []complex128, ldb int, q []complex128, ldq int, z []complex128, ldz int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_zgghrd_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgghd3.f. func Sgghd3(compq, compz lapack.Comp, n, ilo, ihi int, a []float32, lda int, b []float32, ldb int, q []float32, ldq int, z []float32, ldz int, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgghd3_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgghd3.f. func Dgghd3(compq, compz lapack.Comp, n, ilo, ihi int, a []float64, lda int, b []float64, ldb int, q []float64, ldq int, z []float64, ldz int, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgghd3_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgghd3.f. func Cgghd3(compq, compz lapack.Comp, n, ilo, ihi int, a []complex64, lda int, b []complex64, ldb int, q []complex64, ldq int, z []complex64, ldz int, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgghd3_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgghd3.f. func Zgghd3(compq, compz lapack.Comp, n, ilo, ihi int, a []complex128, lda int, b []complex128, ldb int, q []complex128, ldq int, z []complex128, ldz int, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgghd3_work((C.int)(rowMajor), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgglse.f. func Sgglse(m, n, p int, a []float32, lda int, b []float32, ldb int, c, d, x, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgglse_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_c), (*C.float)(_d), (*C.float)(_x), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgglse.f. func Dgglse(m, n, p int, a []float64, lda int, b []float64, ldb int, c, d, x, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgglse_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_c), (*C.double)(_d), (*C.double)(_x), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgglse.f. func Cgglse(m, n, p int, a []complex64, lda int, b []complex64, ldb int, c, d, x, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgglse_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_c), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_x), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgglse.f. func Zgglse(m, n, p int, a []complex128, lda int, b []complex128, ldb int, c, d, x, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgglse_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_c), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_x), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggqrf.f. func Sggqrf(n, m, p int, a []float32, lda int, taua, b []float32, ldb int, taub, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _taua *float32 if len(taua) > 0 { _taua = &taua[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _taub *float32 if len(taub) > 0 { _taub = &taub[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggqrf_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_taua), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_taub), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggqrf.f. func Dggqrf(n, m, p int, a []float64, lda int, taua, b []float64, ldb int, taub, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _taua *float64 if len(taua) > 0 { _taua = &taua[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _taub *float64 if len(taub) > 0 { _taub = &taub[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggqrf_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_taua), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_taub), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggqrf.f. func Cggqrf(n, m, p int, a []complex64, lda int, taua, b []complex64, ldb int, taub, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _taua *complex64 if len(taua) > 0 { _taua = &taua[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _taub *complex64 if len(taub) > 0 { _taub = &taub[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cggqrf_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_taua), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_taub), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggqrf.f. func Zggqrf(n, m, p int, a []complex128, lda int, taua, b []complex128, ldb int, taub, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _taua *complex128 if len(taua) > 0 { _taua = &taua[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _taub *complex128 if len(taub) > 0 { _taub = &taub[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zggqrf_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(m), (C.lapack_int)(p), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_taua), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_taub), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggrqf.f. func Sggrqf(m, p, n int, a []float32, lda int, taua, b []float32, ldb int, taub, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _taua *float32 if len(taua) > 0 { _taua = &taua[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _taub *float32 if len(taub) > 0 { _taub = &taub[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggrqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_taua), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_taub), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggrqf.f. func Dggrqf(m, p, n int, a []float64, lda int, taua, b []float64, ldb int, taub, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _taua *float64 if len(taua) > 0 { _taua = &taua[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _taub *float64 if len(taub) > 0 { _taub = &taub[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggrqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_taua), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_taub), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggrqf.f. func Cggrqf(m, p, n int, a []complex64, lda int, taua, b []complex64, ldb int, taub, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _taua *complex64 if len(taua) > 0 { _taua = &taua[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _taub *complex64 if len(taub) > 0 { _taub = &taub[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cggrqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_taua), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_taub), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggrqf.f. func Zggrqf(m, p, n int, a []complex128, lda int, taua, b []complex128, ldb int, taub, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _taua *complex128 if len(taua) > 0 { _taua = &taua[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _taub *complex128 if len(taub) > 0 { _taub = &taub[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zggrqf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_taua), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_taub), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggsvd3.f. func Sggsvd3(jobu, jobv, jobq lapack.Job, m, n, p int, k, l []int32, a []float32, lda int, b []float32, ldb int, alpha, beta, u []float32, ldu int, v []float32, ldv int, q []float32, ldq int, work []float32, lwork int, iwork []int32) bool { var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alpha *float32 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sggsvd3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_alpha), (*C.float)(_beta), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggsvd3.f. func Dggsvd3(jobu, jobv, jobq lapack.Job, m, n, p int, k, l []int32, 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 []int32) bool { var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alpha *float64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dggsvd3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_alpha), (*C.double)(_beta), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggsvd3.f. func Cggsvd3(jobu, jobv, jobq lapack.Job, m, n, p int, k, l []int32, a []complex64, lda int, b []complex64, ldb int, alpha, beta []float32, u []complex64, ldu int, v []complex64, ldv int, q []complex64, ldq int, work []complex64, lwork int, rwork []float32, iwork []int32) bool { var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *float32 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cggsvd3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.float)(_alpha), (*C.float)(_beta), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggsvd3.f. func Zggsvd3(jobu, jobv, jobq lapack.Job, m, n, p int, k, l []int32, a []complex128, lda int, b []complex128, ldb int, alpha, beta []float64, u []complex128, ldu int, v []complex128, ldv int, q []complex128, ldq int, work []complex128, lwork int, rwork []float64, iwork []int32) bool { var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *float64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zggsvd3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(p), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.double)(_alpha), (*C.double)(_beta), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sggsvp3.f. func Sggsvp3(jobu, jobv, jobq lapack.Job, m, p, n int, a []float32, lda int, b []float32, ldb int, tola, tolb float32, k, l []int32, u []float32, ldu int, v []float32, ldv int, q []float32, ldq int, iwork []int32, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sggsvp3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (C.float)(tola), (C.float)(tolb), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_iwork), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dggsvp3.f. func Dggsvp3(jobu, jobv, jobq lapack.Job, m, p, n int, a []float64, lda int, b []float64, ldb int, tola, tolb float64, k, l []int32, u []float64, ldu int, v []float64, ldv int, q []float64, ldq int, iwork []int32, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dggsvp3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (C.double)(tola), (C.double)(tolb), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_iwork), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cggsvp3.f. func Cggsvp3(jobu, jobv, jobq lapack.Job, m, p, n int, a []complex64, lda int, b []complex64, ldb int, tola, tolb float32, k, l []int32, u []complex64, ldu int, v []complex64, ldv int, q []complex64, ldq int, iwork []int32, rwork []float32, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cggsvp3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (C.float)(tola), (C.float)(tolb), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_iwork), (*C.float)(_rwork), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zggsvp3.f. func Zggsvp3(jobu, jobv, jobq lapack.Job, m, p, n int, a []complex128, lda int, b []complex128, ldb int, tola, tolb float64, k, l []int32, u []complex128, ldu int, v []complex128, ldv int, q []complex128, ldq int, iwork []int32, rwork []float64, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } var _l *int32 if len(l) > 0 { _l = &l[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zggsvp3_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (C.double)(tola), (C.double)(tolb), (*C.lapack_int)(_k), (*C.lapack_int)(_l), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_iwork), (*C.double)(_rwork), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgtcon.f. func Sgtcon(norm byte, n int, dl, d, du, du2 []float32, ipiv []int32, anorm float32, rcond, work []float32, iwork []int32) bool { var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _du2 *float32 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgtcon_work((C.char)(norm), (C.lapack_int)(n), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_du2), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgtcon.f. func Dgtcon(norm byte, n int, dl, d, du, du2 []float64, ipiv []int32, anorm float64, rcond, work []float64, iwork []int32) bool { var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _du2 *float64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgtcon_work((C.char)(norm), (C.lapack_int)(n), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_du2), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgtcon.f. func Cgtcon(norm byte, n int, dl, d, du, du2 []complex64, ipiv []int32, anorm float32, rcond []float32, work []complex64) bool { var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _du2 *complex64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgtcon_work((C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_du2), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgtcon.f. func Zgtcon(norm byte, n int, dl, d, du, du2 []complex128, ipiv []int32, anorm float64, rcond []float64, work []complex128) bool { var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _du2 *complex128 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgtcon_work((C.char)(norm), (C.lapack_int)(n), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_du2), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgtrfs.f. func Sgtrfs(trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []float32, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _dlf *float32 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _duf *float32 if len(duf) > 0 { _duf = &duf[0] } var _du2 *float32 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgtrfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_dlf), (*C.float)(_df), (*C.float)(_duf), (*C.float)(_du2), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgtrfs.f. func Dgtrfs(trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []float64, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _dlf *float64 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _duf *float64 if len(duf) > 0 { _duf = &duf[0] } var _du2 *float64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgtrfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_dlf), (*C.double)(_df), (*C.double)(_duf), (*C.double)(_du2), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgtrfs.f. func Cgtrfs(trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _dlf *complex64 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *complex64 if len(df) > 0 { _df = &df[0] } var _duf *complex64 if len(duf) > 0 { _duf = &duf[0] } var _du2 *complex64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgtrfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_dlf), (*C.lapack_complex_float)(_df), (*C.lapack_complex_float)(_duf), (*C.lapack_complex_float)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgtrfs.f. func Zgtrfs(trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _dlf *complex128 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *complex128 if len(df) > 0 { _df = &df[0] } var _duf *complex128 if len(duf) > 0 { _duf = &duf[0] } var _du2 *complex128 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgtrfs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_dlf), (*C.lapack_complex_double)(_df), (*C.lapack_complex_double)(_duf), (*C.lapack_complex_double)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgtsv.f. func Sgtsv(n, nrhs int, dl, d, du, b []float32, ldb int) bool { var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgtsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgtsv.f. func Dgtsv(n, nrhs int, dl, d, du, b []float64, ldb int) bool { var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgtsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgtsv.f. func Cgtsv(n, nrhs int, dl, d, du, b []complex64, ldb int) bool { var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgtsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgtsv.f. func Zgtsv(n, nrhs int, dl, d, du, b []complex128, ldb int) bool { var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgtsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgtsvx.f. func Sgtsvx(fact byte, trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []float32, ipiv []int32, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _dlf *float32 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _duf *float32 if len(duf) > 0 { _duf = &duf[0] } var _du2 *float32 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sgtsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_dlf), (*C.float)(_df), (*C.float)(_duf), (*C.float)(_du2), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgtsvx.f. func Dgtsvx(fact byte, trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []float64, ipiv []int32, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _dlf *float64 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _duf *float64 if len(duf) > 0 { _duf = &duf[0] } var _du2 *float64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dgtsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_dlf), (*C.double)(_df), (*C.double)(_duf), (*C.double)(_du2), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgtsvx.f. func Cgtsvx(fact byte, trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _dlf *complex64 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *complex64 if len(df) > 0 { _df = &df[0] } var _duf *complex64 if len(duf) > 0 { _duf = &duf[0] } var _du2 *complex64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cgtsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_dlf), (*C.lapack_complex_float)(_df), (*C.lapack_complex_float)(_duf), (*C.lapack_complex_float)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgtsvx.f. func Zgtsvx(fact byte, trans blas.Transpose, n, nrhs int, dl, d, du, dlf, df, duf, du2 []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _dlf *complex128 if len(dlf) > 0 { _dlf = &dlf[0] } var _df *complex128 if len(df) > 0 { _df = &df[0] } var _duf *complex128 if len(duf) > 0 { _duf = &duf[0] } var _du2 *complex128 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zgtsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_dlf), (*C.lapack_complex_double)(_df), (*C.lapack_complex_double)(_duf), (*C.lapack_complex_double)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgttrf.f. func Sgttrf(n int, dl, d, du, du2 []float32, ipiv []int32) bool { var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _du2 *float32 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_sgttrf_work((C.lapack_int)(n), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_du2), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgttrf.f. func Dgttrf(n int, dl, d, du, du2 []float64, ipiv []int32) bool { var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _du2 *float64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dgttrf_work((C.lapack_int)(n), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_du2), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgttrf.f. func Cgttrf(n int, dl, d, du, du2 []complex64, ipiv []int32) bool { var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _du2 *complex64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_cgttrf_work((C.lapack_int)(n), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_du2), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgttrf.f. func Zgttrf(n int, dl, d, du, du2 []complex128, ipiv []int32) bool { var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _du2 *complex128 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zgttrf_work((C.lapack_int)(n), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_du2), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgttrs.f. func Sgttrs(trans blas.Transpose, n, nrhs int, dl, d, du, du2 []float32, 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") } var _dl *float32 if len(dl) > 0 { _dl = &dl[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _du *float32 if len(du) > 0 { _du = &du[0] } var _du2 *float32 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sgttrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_dl), (*C.float)(_d), (*C.float)(_du), (*C.float)(_du2), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgttrs.f. func Dgttrs(trans blas.Transpose, n, nrhs int, dl, d, du, du2 []float64, 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") } var _dl *float64 if len(dl) > 0 { _dl = &dl[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _du *float64 if len(du) > 0 { _du = &du[0] } var _du2 *float64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dgttrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_dl), (*C.double)(_d), (*C.double)(_du), (*C.double)(_du2), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgttrs.f. func Cgttrs(trans blas.Transpose, n, nrhs int, dl, d, du, du2 []complex64, 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") } var _dl *complex64 if len(dl) > 0 { _dl = &dl[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _du *complex64 if len(du) > 0 { _du = &du[0] } var _du2 *complex64 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cgttrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_dl), (*C.lapack_complex_float)(_d), (*C.lapack_complex_float)(_du), (*C.lapack_complex_float)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgttrs.f. func Zgttrs(trans blas.Transpose, n, nrhs int, dl, d, du, du2 []complex128, 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") } var _dl *complex128 if len(dl) > 0 { _dl = &dl[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _du *complex128 if len(du) > 0 { _du = &du[0] } var _du2 *complex128 if len(du2) > 0 { _du2 = &du2[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zgttrs_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_dl), (*C.lapack_complex_double)(_d), (*C.lapack_complex_double)(_du), (*C.lapack_complex_double)(_du2), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbev.f. func Chbev(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []complex64, ldab int, w []float32, z []complex64, ldz int, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chbev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbev.f. func Zhbev(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []complex128, ldab int, w []float64, z []complex128, ldz int, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhbev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbevd.f. func Chbevd(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []complex64, ldab int, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_chbevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbevd.f. func Zhbevd(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []complex128, ldab int, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zhbevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbevx.f. func Chbevx(jobz lapack.Job, rng byte, ul blas.Uplo, n, kd int, ab []complex64, ldab int, q []complex64, ldq int, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_chbevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbevx.f. func Zhbevx(jobz lapack.Job, rng byte, ul blas.Uplo, n, kd int, ab []complex128, ldab int, q []complex128, ldq int, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zhbevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbgst.f. func Chbgst(vect byte, ul blas.Uplo, n, ka, kb int, ab []complex64, ldab int, bb []complex64, ldbb int, x []complex64, ldx int, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex64 if len(bb) > 0 { _bb = &bb[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chbgst_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_bb), (C.lapack_int)(ldbb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbgst.f. func Zhbgst(vect byte, ul blas.Uplo, n, ka, kb int, ab []complex128, ldab int, bb []complex128, ldbb int, x []complex128, ldx int, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex128 if len(bb) > 0 { _bb = &bb[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhbgst_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_bb), (C.lapack_int)(ldbb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbgv.f. func Chbgv(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []complex64, ldab int, bb []complex64, ldbb int, w []float32, z []complex64, ldz int, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex64 if len(bb) > 0 { _bb = &bb[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chbgv_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbgv.f. func Zhbgv(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []complex128, ldab int, bb []complex128, ldbb int, w []float64, z []complex128, ldz int, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex128 if len(bb) > 0 { _bb = &bb[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhbgv_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbgvd.f. func Chbgvd(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []complex64, ldab int, bb []complex64, ldbb int, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex64 if len(bb) > 0 { _bb = &bb[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_chbgvd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbgvd.f. func Zhbgvd(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []complex128, ldab int, bb []complex128, ldbb int, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex128 if len(bb) > 0 { _bb = &bb[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zhbgvd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbgvx.f. func Chbgvx(jobz lapack.Job, rng byte, ul blas.Uplo, n, ka, kb int, ab []complex64, ldab int, bb []complex64, ldbb int, q []complex64, ldq int, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex64 if len(bb) > 0 { _bb = &bb[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_chbgvx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_bb), (C.lapack_int)(ldbb), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbgvx.f. func Zhbgvx(jobz lapack.Job, rng byte, ul blas.Uplo, n, ka, kb int, ab []complex128, ldab int, bb []complex128, ldbb int, q []complex128, ldq int, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _bb *complex128 if len(bb) > 0 { _bb = &bb[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zhbgvx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_bb), (C.lapack_int)(ldbb), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chbtrd.f. func Chbtrd(vect byte, ul blas.Uplo, n, kd int, ab []complex64, ldab int, d, e []float32, q []complex64, ldq int, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chbtrd_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhbtrd.f. func Zhbtrd(vect byte, ul blas.Uplo, n, kd int, ab []complex128, ldab int, d, e []float64, q []complex128, ldq int, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhbtrd_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/checon.f. func Checon(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, anorm float32, rcond []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_checon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhecon.f. func Zhecon(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, anorm float64, rcond []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhecon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheequb.f. func Cheequb(ul blas.Uplo, n int, a []complex64, lda int, s, scond, amax []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cheequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheequb.f. func Zheequb(ul blas.Uplo, n int, a []complex128, lda int, s, scond, amax []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zheequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheev.f. func Cheev(jobz lapack.Job, ul blas.Uplo, n int, a []complex64, lda int, w []float32, work []complex64, lwork int, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cheev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_w), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheev.f. func Zheev(jobz lapack.Job, ul blas.Uplo, n int, a []complex128, lda int, w []float64, work []complex128, lwork int, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zheev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_w), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheevd.f. func Cheevd(jobz lapack.Job, ul blas.Uplo, n int, a []complex64, lda int, w []float32, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cheevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_w), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheevd.f. func Zheevd(jobz lapack.Job, ul blas.Uplo, n int, a []complex128, lda int, w []float64, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zheevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_w), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheevr.f. func Cheevr(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex64, lda int, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, isuppz []int32, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cheevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheevr.f. func Zheevr(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex128, lda int, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, isuppz []int32, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zheevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheevx.f. func Cheevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex64, lda int, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_cheevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheevx.f. func Zheevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex128, lda int, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zheevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chegst.f. func Chegst(itype int, ul blas.Uplo, n int, a []complex64, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_chegst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhegst.f. func Zhegst(itype int, ul blas.Uplo, n int, a []complex128, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zhegst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chegv.f. func Chegv(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []complex64, lda int, b []complex64, ldb int, w []float32, work []complex64, lwork int, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chegv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.float)(_w), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhegv.f. func Zhegv(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []complex128, lda int, b []complex128, ldb int, w []float64, work []complex128, lwork int, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhegv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.double)(_w), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chegvd.f. func Chegvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []complex64, lda int, b []complex64, ldb int, w []float32, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_chegvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.float)(_w), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhegvd.f. func Zhegvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []complex128, lda int, b []complex128, ldb int, w []float64, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zhegvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.double)(_w), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chegvx.f. func Chegvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex64, lda int, b []complex64, ldb int, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_chegvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhegvx.f. func Zhegvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []complex128, lda int, b []complex128, ldb int, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zhegvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cherfs.f. func Cherfs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cherfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zherfs.f. func Zherfs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zherfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chesv.f. func Chesv(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chesv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhesv.f. func Zhesv(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhesv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chesvx.f. func Chesvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, lwork int, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhesvx.f. func Zhesvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, lwork int, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhesvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetrd.f. func Chetrd(ul blas.Uplo, n int, a []complex64, lda int, d, e []float32, tau, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetrd.f. func Zhetrd(ul blas.Uplo, n int, a []complex128, lda int, d, e []float64, tau, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetrf.f. func Chetrf(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetrf.f. func Zhetrf(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetri.f. func Chetri(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetri.f. func Zhetri(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetrs.f. func Chetrs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_chetrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetrs.f. func Zhetrs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zhetrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chfrk.f. func Chfrk(transr blas.Transpose, ul blas.Uplo, trans blas.Transpose, n, k int, alpha float32, a []complex64, lda int, beta float32, c []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } return isZero(C.LAPACKE_chfrk_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(k), (C.float)(alpha), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.float)(beta), (*C.lapack_complex_float)(_c))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhfrk.f. func Zhfrk(transr blas.Transpose, ul blas.Uplo, trans blas.Transpose, n, k int, alpha float64, a []complex128, lda int, beta float64, c []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } return isZero(C.LAPACKE_zhfrk_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(k), (C.double)(alpha), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.double)(beta), (*C.lapack_complex_double)(_c))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/shgeqz.f. func Shgeqz(job lapack.Job, compq, compz lapack.Comp, n, ilo, ihi int, h []float32, ldh int, t []float32, ldt int, alphar, alphai, beta, q []float32, ldq int, z []float32, ldz int, work []float32, lwork int) bool { var _h *float32 if len(h) > 0 { _h = &h[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _alphar *float32 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float32 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_shgeqz_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_h), (C.lapack_int)(ldh), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_alphar), (*C.float)(_alphai), (*C.float)(_beta), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dhgeqz.f. func Dhgeqz(job lapack.Job, compq, compz lapack.Comp, n, ilo, ihi int, h []float64, ldh int, t []float64, ldt int, alphar, alphai, beta, q []float64, ldq int, z []float64, ldz int, work []float64, lwork int) bool { var _h *float64 if len(h) > 0 { _h = &h[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _alphar *float64 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float64 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dhgeqz_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_h), (C.lapack_int)(ldh), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_alphar), (*C.double)(_alphai), (*C.double)(_beta), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chgeqz.f. func Chgeqz(job lapack.Job, compq, compz lapack.Comp, n, ilo, ihi int, h []complex64, ldh int, t []complex64, ldt int, alpha, beta, q []complex64, ldq int, z []complex64, ldz int, work []complex64, lwork int, rwork []float32) bool { var _h *complex64 if len(h) > 0 { _h = &h[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex64 if len(beta) > 0 { _beta = &beta[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chgeqz_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_beta), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhgeqz.f. func Zhgeqz(job lapack.Job, compq, compz lapack.Comp, n, ilo, ihi int, h []complex128, ldh int, t []complex128, ldt int, alpha, beta, q []complex128, ldq int, z []complex128, ldz int, work []complex128, lwork int, rwork []float64) bool { var _h *complex128 if len(h) > 0 { _h = &h[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex128 if len(beta) > 0 { _beta = &beta[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhgeqz_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_beta), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpcon.f. func Chpcon(ul blas.Uplo, n int, ap []complex64, ipiv []int32, anorm float32, rcond []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chpcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpcon.f. func Zhpcon(ul blas.Uplo, n int, ap []complex128, ipiv []int32, anorm float64, rcond []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhpcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpev.f. func Chpev(jobz lapack.Job, ul blas.Uplo, n int, ap []complex64, w []float32, z []complex64, ldz int, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chpev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpev.f. func Zhpev(jobz lapack.Job, ul blas.Uplo, n int, ap []complex128, w []float64, z []complex128, ldz int, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhpev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpevd.f. func Chpevd(jobz lapack.Job, ul blas.Uplo, n int, ap []complex64, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_chpevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpevd.f. func Zhpevd(jobz lapack.Job, ul blas.Uplo, n int, ap []complex128, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zhpevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpevx.f. func Chpevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap []complex64, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_chpevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpevx.f. func Zhpevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap []complex128, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zhpevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpgst.f. func Chpgst(itype int, ul blas.Uplo, n int, ap, bp []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex64 if len(bp) > 0 { _bp = &bp[0] } return isZero(C.LAPACKE_chpgst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_bp))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpgst.f. func Zhpgst(itype int, ul blas.Uplo, n int, ap, bp []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex128 if len(bp) > 0 { _bp = &bp[0] } return isZero(C.LAPACKE_zhpgst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_bp))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpgv.f. func Chpgv(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp []complex64, w []float32, z []complex64, ldz int, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex64 if len(bp) > 0 { _bp = &bp[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chpgv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_bp), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpgv.f. func Zhpgv(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp []complex128, w []float64, z []complex128, ldz int, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex128 if len(bp) > 0 { _bp = &bp[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhpgv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_bp), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpgvd.f. func Chpgvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp []complex64, w []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex64 if len(bp) > 0 { _bp = &bp[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_chpgvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_bp), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpgvd.f. func Zhpgvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp []complex128, w []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex128 if len(bp) > 0 { _bp = &bp[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zhpgvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_bp), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpgvx.f. func Chpgvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap, bp []complex64, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, work []complex64, rwork []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex64 if len(bp) > 0 { _bp = &bp[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_chpgvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_bp), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (*C.float)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpgvx.f. func Zhpgvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap, bp []complex128, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, work []complex128, rwork []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _bp *complex128 if len(bp) > 0 { _bp = &bp[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_zhpgvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_bp), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (*C.double)(_rwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chprfs.f. func Chprfs(ul blas.Uplo, n, nrhs int, ap, afp []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhprfs.f. func Zhprfs(ul blas.Uplo, n, nrhs int, ap, afp []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpsv.f. func Chpsv(ul blas.Uplo, n, nrhs int, ap []complex64, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_chpsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpsv.f. func Zhpsv(ul blas.Uplo, n, nrhs int, ap []complex128, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zhpsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chpsvx.f. func Chpsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_chpsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhpsvx.f. func Zhpsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zhpsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chptrd.f. func Chptrd(ul blas.Uplo, n int, ap []complex64, d, e []float32, tau []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_chptrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhptrd.f. func Zhptrd(ul blas.Uplo, n int, ap []complex128, d, e []float64, tau []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_zhptrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chptrf.f. func Chptrf(ul blas.Uplo, n int, ap []complex64, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_chptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhptrf.f. func Zhptrf(ul blas.Uplo, n int, ap []complex128, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zhptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chptri.f. func Chptri(ul blas.Uplo, n int, ap []complex64, ipiv []int32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhptri.f. func Zhptri(ul blas.Uplo, n int, ap []complex128, ipiv []int32, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chptrs.f. func Chptrs(ul blas.Uplo, n, nrhs int, ap []complex64, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_chptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhptrs.f. func Zhptrs(ul blas.Uplo, n, nrhs int, ap []complex128, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zhptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/shsein.f. func Shsein(job lapack.Job, eigsrc, initv byte, sel []int32, n int, h []float32, ldh int, wr, wi, vl []float32, ldvl int, vr []float32, ldvr, mm int, m []int32, work []float32, ifaill, ifailr []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _h *float32 if len(h) > 0 { _h = &h[0] } var _wr *float32 if len(wr) > 0 { _wr = &wr[0] } var _wi *float32 if len(wi) > 0 { _wi = &wi[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _ifaill *int32 if len(ifaill) > 0 { _ifaill = &ifaill[0] } var _ifailr *int32 if len(ifailr) > 0 { _ifailr = &ifailr[0] } return isZero(C.LAPACKE_shsein_work((C.int)(rowMajor), (C.char)(job), (C.char)(eigsrc), (C.char)(initv), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_h), (C.lapack_int)(ldh), (*C.float)(_wr), (*C.float)(_wi), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.float)(_work), (*C.lapack_int)(_ifaill), (*C.lapack_int)(_ifailr))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dhsein.f. func Dhsein(job lapack.Job, eigsrc, initv byte, sel []int32, n int, h []float64, ldh int, wr, wi, vl []float64, ldvl int, vr []float64, ldvr, mm int, m []int32, work []float64, ifaill, ifailr []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _h *float64 if len(h) > 0 { _h = &h[0] } var _wr *float64 if len(wr) > 0 { _wr = &wr[0] } var _wi *float64 if len(wi) > 0 { _wi = &wi[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _ifaill *int32 if len(ifaill) > 0 { _ifaill = &ifaill[0] } var _ifailr *int32 if len(ifailr) > 0 { _ifailr = &ifailr[0] } return isZero(C.LAPACKE_dhsein_work((C.int)(rowMajor), (C.char)(job), (C.char)(eigsrc), (C.char)(initv), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_h), (C.lapack_int)(ldh), (*C.double)(_wr), (*C.double)(_wi), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.double)(_work), (*C.lapack_int)(_ifaill), (*C.lapack_int)(_ifailr))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chsein.f. func Chsein(job lapack.Job, eigsrc, initv byte, sel []int32, n int, h []complex64, ldh int, w, vl []complex64, ldvl int, vr []complex64, ldvr, mm int, m []int32, work []complex64, rwork []float32, ifaill, ifailr []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _h *complex64 if len(h) > 0 { _h = &h[0] } var _w *complex64 if len(w) > 0 { _w = &w[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _ifaill *int32 if len(ifaill) > 0 { _ifaill = &ifaill[0] } var _ifailr *int32 if len(ifailr) > 0 { _ifailr = &ifailr[0] } return isZero(C.LAPACKE_chsein_work((C.int)(rowMajor), (C.char)(job), (C.char)(eigsrc), (C.char)(initv), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_float)(_w), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_float)(_work), (*C.float)(_rwork), (*C.lapack_int)(_ifaill), (*C.lapack_int)(_ifailr))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhsein.f. func Zhsein(job lapack.Job, eigsrc, initv byte, sel []int32, n int, h []complex128, ldh int, w, vl []complex128, ldvl int, vr []complex128, ldvr, mm int, m []int32, work []complex128, rwork []float64, ifaill, ifailr []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _h *complex128 if len(h) > 0 { _h = &h[0] } var _w *complex128 if len(w) > 0 { _w = &w[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _ifaill *int32 if len(ifaill) > 0 { _ifaill = &ifaill[0] } var _ifailr *int32 if len(ifailr) > 0 { _ifailr = &ifailr[0] } return isZero(C.LAPACKE_zhsein_work((C.int)(rowMajor), (C.char)(job), (C.char)(eigsrc), (C.char)(initv), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_double)(_w), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_double)(_work), (*C.double)(_rwork), (*C.lapack_int)(_ifaill), (*C.lapack_int)(_ifailr))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/shseqr.f. func Shseqr(job lapack.Job, compz lapack.Comp, n, ilo, ihi int, h []float32, ldh int, wr, wi, z []float32, ldz int, work []float32, lwork int) int { var _h *float32 if len(h) > 0 { _h = &h[0] } var _wr *float32 if len(wr) > 0 { _wr = &wr[0] } var _wi *float32 if len(wi) > 0 { _wi = &wi[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_shseqr_work((C.int)(rowMajor), (C.char)(job), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_h), (C.lapack_int)(ldh), (*C.float)(_wr), (*C.float)(_wi), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dhseqr.f. func Dhseqr(job lapack.Job, compz lapack.Comp, n, ilo, ihi int, h []float64, ldh int, wr, wi, z []float64, ldz int, work []float64, lwork int) int { var _h *float64 if len(h) > 0 { _h = &h[0] } var _wr *float64 if len(wr) > 0 { _wr = &wr[0] } var _wi *float64 if len(wi) > 0 { _wi = &wi[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_dhseqr_work((C.int)(rowMajor), (C.char)(job), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_h), (C.lapack_int)(ldh), (*C.double)(_wr), (*C.double)(_wi), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chseqr.f. func Chseqr(job lapack.Job, compz lapack.Comp, n, ilo, ihi int, h []complex64, ldh int, w, z []complex64, ldz int, work []complex64, lwork int) int { var _h *complex64 if len(h) > 0 { _h = &h[0] } var _w *complex64 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_chseqr_work((C.int)(rowMajor), (C.char)(job), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhseqr.f. func Zhseqr(job lapack.Job, compz lapack.Comp, n, ilo, ihi int, h []complex128, ldh int, w, z []complex128, ldz int, work []complex128, lwork int) int { var _h *complex128 if len(h) > 0 { _h = &h[0] } var _w *complex128 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return int(C.LAPACKE_zhseqr_work((C.int)(rowMajor), (C.char)(job), (C.char)(compz), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_h), (C.lapack_int)(ldh), (*C.lapack_complex_double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clacgv.f. func Clacgv(n int, x []complex64, incx int) bool { var _x *complex64 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_clacgv_work((C.lapack_int)(n), (*C.lapack_complex_float)(_x), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlacgv.f. func Zlacgv(n int, x []complex128, incx int) bool { var _x *complex128 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_zlacgv_work((C.lapack_int)(n), (*C.lapack_complex_double)(_x), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slacn2.f. func Slacn2(n int, v, x []float32, isgn []int32, est []float32, kase, isave []int32) bool { var _v *float32 if len(v) > 0 { _v = &v[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _isgn *int32 if len(isgn) > 0 { _isgn = &isgn[0] } var _est *float32 if len(est) > 0 { _est = &est[0] } var _kase *int32 if len(kase) > 0 { _kase = &kase[0] } var _isave *int32 if len(isave) > 0 { _isave = &isave[0] } return isZero(C.LAPACKE_slacn2_work((C.lapack_int)(n), (*C.float)(_v), (*C.float)(_x), (*C.lapack_int)(_isgn), (*C.float)(_est), (*C.lapack_int)(_kase), (*C.lapack_int)(_isave))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlacn2.f. func Dlacn2(n int, v, x []float64, isgn []int32, est []float64, kase, isave []int32) bool { var _v *float64 if len(v) > 0 { _v = &v[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _isgn *int32 if len(isgn) > 0 { _isgn = &isgn[0] } var _est *float64 if len(est) > 0 { _est = &est[0] } var _kase *int32 if len(kase) > 0 { _kase = &kase[0] } var _isave *int32 if len(isave) > 0 { _isave = &isave[0] } return isZero(C.LAPACKE_dlacn2_work((C.lapack_int)(n), (*C.double)(_v), (*C.double)(_x), (*C.lapack_int)(_isgn), (*C.double)(_est), (*C.lapack_int)(_kase), (*C.lapack_int)(_isave))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clacn2.f. func Clacn2(n int, v, x []complex64, est []float32, kase, isave []int32) bool { var _v *complex64 if len(v) > 0 { _v = &v[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _est *float32 if len(est) > 0 { _est = &est[0] } var _kase *int32 if len(kase) > 0 { _kase = &kase[0] } var _isave *int32 if len(isave) > 0 { _isave = &isave[0] } return isZero(C.LAPACKE_clacn2_work((C.lapack_int)(n), (*C.lapack_complex_float)(_v), (*C.lapack_complex_float)(_x), (*C.float)(_est), (*C.lapack_int)(_kase), (*C.lapack_int)(_isave))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlacn2.f. func Zlacn2(n int, v, x []complex128, est []float64, kase, isave []int32) bool { var _v *complex128 if len(v) > 0 { _v = &v[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _est *float64 if len(est) > 0 { _est = &est[0] } var _kase *int32 if len(kase) > 0 { _kase = &kase[0] } var _isave *int32 if len(isave) > 0 { _isave = &isave[0] } return isZero(C.LAPACKE_zlacn2_work((C.lapack_int)(n), (*C.lapack_complex_double)(_v), (*C.lapack_complex_double)(_x), (*C.double)(_est), (*C.lapack_int)(_kase), (*C.lapack_int)(_isave))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slacpy.f. func Slacpy(ul blas.Uplo, m, n int, a []float32, lda int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_slacpy_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlacpy.f. func Dlacpy(ul blas.Uplo, m, n int, a []float64, lda int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dlacpy_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clacpy.f. func Clacpy(ul blas.Uplo, m, n int, a []complex64, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_clacpy_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlacpy.f. func Zlacpy(ul blas.Uplo, m, n int, a []complex128, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zlacpy_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clacp2.f. func Clacp2(ul blas.Uplo, m, n int, a []float32, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_clacp2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlacp2.f. func Zlacp2(ul blas.Uplo, m, n int, a []float64, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zlacp2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlag2c.f. func Zlag2c(m, n int, a []complex128, lda int, sa []complex64, ldsa int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _sa *complex64 if len(sa) > 0 { _sa = &sa[0] } return isZero(C.LAPACKE_zlag2c_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_sa), (C.lapack_int)(ldsa))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slag2d.f. func Slag2d(m, n int, sa []float32, ldsa int, a []float64, lda int) bool { var _sa *float32 if len(sa) > 0 { _sa = &sa[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_slag2d_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_sa), (C.lapack_int)(ldsa), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlag2s.f. func Dlag2s(m, n int, a []float64, lda int, sa []float32, ldsa int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _sa *float32 if len(sa) > 0 { _sa = &sa[0] } return isZero(C.LAPACKE_dlag2s_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.float)(_sa), (C.lapack_int)(ldsa))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clag2z.f. func Clag2z(m, n int, sa []complex64, ldsa int, a []complex128, lda int) bool { var _sa *complex64 if len(sa) > 0 { _sa = &sa[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_clag2z_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_sa), (C.lapack_int)(ldsa), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slagge.f. func Slagge(m, n, kl, ku int, d, a []float32, lda int, iseed []int32, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_slagge_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_d), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlagge.f. func Dlagge(m, n, kl, ku int, d, a []float64, lda int, iseed []int32, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dlagge_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_d), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clagge.f. func Clagge(m, n, kl, ku int, d []float32, a []complex64, lda int, iseed []int32, work []complex64) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_clagge_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.float)(_d), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlagge.f. func Zlagge(m, n, kl, ku int, d []float64, a []complex128, lda int, iseed []int32, work []complex128) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlagge_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(kl), (C.lapack_int)(ku), (*C.double)(_d), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/claghe.f. func Claghe(n, k int, d []float32, a []complex64, lda int, iseed []int32, work []complex64) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_claghe_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_d), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlaghe.f. func Zlaghe(n, k int, d []float64, a []complex128, lda int, iseed []int32, work []complex128) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlaghe_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_d), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slagsy.f. func Slagsy(n, k int, d, a []float32, lda int, iseed []int32, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_slagsy_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_d), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlagsy.f. func Dlagsy(n, k int, d, a []float64, lda int, iseed []int32, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dlagsy_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_d), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clagsy.f. func Clagsy(n, k int, d []float32, a []complex64, lda int, iseed []int32, work []complex64) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_clagsy_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_d), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlagsy.f. func Zlagsy(n, k int, d []float64, a []complex128, lda int, iseed []int32, work []complex128) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlagsy_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_d), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_iseed), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slapmr.f. func Slapmr(forwrd int32, m, n int, x []float32, ldx int, k []int32) bool { var _x *float32 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_slapmr_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlapmr.f. func Dlapmr(forwrd int32, m, n int, x []float64, ldx int, k []int32) bool { var _x *float64 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_dlapmr_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clapmr.f. func Clapmr(forwrd int32, m, n int, x []complex64, ldx int, k []int32) bool { var _x *complex64 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_clapmr_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlapmr.f. func Zlapmr(forwrd int32, m, n int, x []complex128, ldx int, k []int32) bool { var _x *complex128 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_zlapmr_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slapmt.f. func Slapmt(forwrd int32, m, n int, x []float32, ldx int, k []int32) bool { var _x *float32 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_slapmt_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlapmt.f. func Dlapmt(forwrd int32, m, n int, x []float64, ldx int, k []int32) bool { var _x *float64 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_dlapmt_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clapmt.f. func Clapmt(forwrd int32, m, n int, x []complex64, ldx int, k []int32) bool { var _x *complex64 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_clapmt_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlapmt.f. func Zlapmt(forwrd int32, m, n int, x []complex128, ldx int, k []int32) bool { var _x *complex128 if len(x) > 0 { _x = &x[0] } var _k *int32 if len(k) > 0 { _k = &k[0] } return isZero(C.LAPACKE_zlapmt_work((C.int)(rowMajor), (C.lapack_logical)(forwrd), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.lapack_int)(_k))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slartgp.f. func Slartgp(f, g float32, cs, sn, r []float32) bool { var _cs *float32 if len(cs) > 0 { _cs = &cs[0] } var _sn *float32 if len(sn) > 0 { _sn = &sn[0] } var _r *float32 if len(r) > 0 { _r = &r[0] } return isZero(C.LAPACKE_slartgp_work((C.float)(f), (C.float)(g), (*C.float)(_cs), (*C.float)(_sn), (*C.float)(_r))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlartgp.f. func Dlartgp(f, g float64, cs, sn, r []float64) bool { var _cs *float64 if len(cs) > 0 { _cs = &cs[0] } var _sn *float64 if len(sn) > 0 { _sn = &sn[0] } var _r *float64 if len(r) > 0 { _r = &r[0] } return isZero(C.LAPACKE_dlartgp_work((C.double)(f), (C.double)(g), (*C.double)(_cs), (*C.double)(_sn), (*C.double)(_r))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slartgs.f. func Slartgs(x, y, sigma float32, cs, sn []float32) bool { var _cs *float32 if len(cs) > 0 { _cs = &cs[0] } var _sn *float32 if len(sn) > 0 { _sn = &sn[0] } return isZero(C.LAPACKE_slartgs_work((C.float)(x), (C.float)(y), (C.float)(sigma), (*C.float)(_cs), (*C.float)(_sn))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlartgs.f. func Dlartgs(x, y, sigma float64, cs, sn []float64) bool { var _cs *float64 if len(cs) > 0 { _cs = &cs[0] } var _sn *float64 if len(sn) > 0 { _sn = &sn[0] } return isZero(C.LAPACKE_dlartgs_work((C.double)(x), (C.double)(y), (C.double)(sigma), (*C.double)(_cs), (*C.double)(_sn))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slapy2.f. func Slapy2(x, y float32) float32 { return float32(C.LAPACKE_slapy2_work((C.float)(x), (C.float)(y))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlapy2.f. func Dlapy2(x, y float64) float64 { return float64(C.LAPACKE_dlapy2_work((C.double)(x), (C.double)(y))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slapy3.f. func Slapy3(x, y, z float32) float32 { return float32(C.LAPACKE_slapy3_work((C.float)(x), (C.float)(y), (C.float)(z))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlapy3.f. func Dlapy3(x, y, z float64) float64 { return float64(C.LAPACKE_dlapy3_work((C.double)(x), (C.double)(y), (C.double)(z))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slamch.f. func Slamch(cmach byte) float32 { return float32(C.LAPACKE_slamch_work((C.char)(cmach))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlamch.f. func Dlamch(cmach byte) float64 { return float64(C.LAPACKE_dlamch_work((C.char)(cmach))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slange.f. func Slange(norm byte, m, n int, a []float32, lda int, work []float32) float32 { var _a *float32 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_slange_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlange.f. func Dlange(norm byte, m, n int, a []float64, lda int, work []float64) float64 { var _a *float64 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_dlange_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clange.f. func Clange(norm byte, m, n int, a []complex64, lda int, work []float32) float32 { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_clange_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlange.f. func Zlange(norm byte, m, n int, a []complex128, lda int, work []float64) float64 { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_zlange_work((C.int)(rowMajor), (C.char)(norm), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clanhe.f. func Clanhe(norm byte, ul blas.Uplo, n int, a []complex64, lda int, work []float32) float32 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_clanhe_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlanhe.f. func Zlanhe(norm byte, ul blas.Uplo, n int, a []complex128, lda int, work []float64) float64 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_zlanhe_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slansy.f. func Slansy(norm byte, ul blas.Uplo, n int, a []float32, lda int, work []float32) float32 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_slansy_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlansy.f. func Dlansy(norm byte, ul blas.Uplo, n int, a []float64, lda int, work []float64) float64 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_dlansy_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clansy.f. func Clansy(norm byte, ul blas.Uplo, n int, a []complex64, lda int, work []float32) float32 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_clansy_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlansy.f. func Zlansy(norm byte, ul blas.Uplo, n int, a []complex128, lda int, work []float64) float64 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_zlansy_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slantr.f. func Slantr(norm byte, ul blas.Uplo, d blas.Diag, m, n int, a []float32, lda int, work []float32) float32 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_slantr_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlantr.f. func Dlantr(norm byte, ul blas.Uplo, d blas.Diag, m, n int, a []float64, lda int, work []float64) float64 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_dlantr_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clantr.f. func Clantr(norm byte, ul blas.Uplo, d blas.Diag, m, n int, a []complex64, lda int, work []float32) float32 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return float32(C.LAPACKE_clantr_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlantr.f. func Zlantr(norm byte, ul blas.Uplo, d blas.Diag, m, n int, a []complex128, lda int, work []float64) float64 { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return float64(C.LAPACKE_zlantr_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slarfb.f. func Slarfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k int, v []float32, ldv int, t []float32, ldt int, c []float32, ldc int, work []float32, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float32 if len(v) > 0 { _v = &v[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_slarfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlarfb.f. func Dlarfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k int, v []float64, ldv int, t []float64, ldt int, c []float64, ldc int, work []float64, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float64 if len(v) > 0 { _v = &v[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dlarfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clarfb.f. func Clarfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k int, v []complex64, ldv int, t []complex64, ldt int, c []complex64, ldc int, work []complex64, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_clarfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlarfb.f. func Zlarfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k int, v []complex128, ldv int, t []complex128, ldt int, c []complex128, ldc int, work []complex128, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlarfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slarfg.f. func Slarfg(n int, alpha, x []float32, incx int, tau []float32) bool { var _alpha *float32 if len(alpha) > 0 { _alpha = &alpha[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_slarfg_work((C.lapack_int)(n), (*C.float)(_alpha), (*C.float)(_x), (C.lapack_int)(incx), (*C.float)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlarfg.f. func Dlarfg(n int, alpha, x []float64, incx int, tau []float64) bool { var _alpha *float64 if len(alpha) > 0 { _alpha = &alpha[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_dlarfg_work((C.lapack_int)(n), (*C.double)(_alpha), (*C.double)(_x), (C.lapack_int)(incx), (*C.double)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clarfg.f. func Clarfg(n int, alpha, x []complex64, incx int, tau []complex64) bool { var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_clarfg_work((C.lapack_int)(n), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_x), (C.lapack_int)(incx), (*C.lapack_complex_float)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlarfg.f. func Zlarfg(n int, alpha, x []complex128, incx int, tau []complex128) bool { var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_zlarfg_work((C.lapack_int)(n), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_x), (C.lapack_int)(incx), (*C.lapack_complex_double)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slarft.f. func Slarft(direct, storev byte, n, k int, v []float32, ldv int, tau, t []float32, ldt int) bool { var _v *float32 if len(v) > 0 { _v = &v[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_slarft_work((C.int)(rowMajor), (C.char)(direct), (C.char)(storev), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_tau), (*C.float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlarft.f. func Dlarft(direct, storev byte, n, k int, v []float64, ldv int, tau, t []float64, ldt int) bool { var _v *float64 if len(v) > 0 { _v = &v[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_dlarft_work((C.int)(rowMajor), (C.char)(direct), (C.char)(storev), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_tau), (*C.double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clarft.f. func Clarft(direct, storev byte, n, k int, v []complex64, ldv int, tau, t []complex64, ldt int) bool { var _v *complex64 if len(v) > 0 { _v = &v[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_clarft_work((C.int)(rowMajor), (C.char)(direct), (C.char)(storev), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlarft.f. func Zlarft(direct, storev byte, n, k int, v []complex128, ldv int, tau, t []complex128, ldt int) bool { var _v *complex128 if len(v) > 0 { _v = &v[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_zlarft_work((C.int)(rowMajor), (C.char)(direct), (C.char)(storev), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slarfx.f. func Slarfx(side blas.Side, m, n int, v []float32, tau float32, c []float32, ldc int, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _v *float32 if len(v) > 0 { _v = &v[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_slarfx_work((C.int)(rowMajor), (C.char)(side), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_v), (C.float)(tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlarfx.f. func Dlarfx(side blas.Side, m, n int, v []float64, tau float64, c []float64, ldc int, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _v *float64 if len(v) > 0 { _v = &v[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dlarfx_work((C.int)(rowMajor), (C.char)(side), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_v), (C.double)(tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clarfx.f. func Clarfx(side blas.Side, m, n int, v []complex64, tau complex64, c []complex64, ldc int, work []complex64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_clarfx_work((C.int)(rowMajor), (C.char)(side), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_v), (C.lapack_complex_float)(tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlarfx.f. func Zlarfx(side blas.Side, m, n int, v []complex128, tau complex128, c []complex128, ldc int, work []complex128) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlarfx_work((C.int)(rowMajor), (C.char)(side), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_v), (C.lapack_complex_double)(tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slarnv.f. func Slarnv(idist int, iseed []int32, n int, x []float32) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_slarnv_work((C.lapack_int)(idist), (*C.lapack_int)(_iseed), (C.lapack_int)(n), (*C.float)(_x))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlarnv.f. func Dlarnv(idist int, iseed []int32, n int, x []float64) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_dlarnv_work((C.lapack_int)(idist), (*C.lapack_int)(_iseed), (C.lapack_int)(n), (*C.double)(_x))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clarnv.f. func Clarnv(idist int, iseed []int32, n int, x []complex64) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_clarnv_work((C.lapack_int)(idist), (*C.lapack_int)(_iseed), (C.lapack_int)(n), (*C.lapack_complex_float)(_x))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlarnv.f. func Zlarnv(idist int, iseed []int32, n int, x []complex128) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } return isZero(C.LAPACKE_zlarnv_work((C.lapack_int)(idist), (*C.lapack_int)(_iseed), (C.lapack_int)(n), (*C.lapack_complex_double)(_x))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slascl.f. func Slascl(typ byte, kl, ku int, cfrom, cto float32, m, n int, a []float32, lda int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_slascl_work((C.int)(rowMajor), (C.char)(typ), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.float)(cfrom), (C.float)(cto), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlascl.f. func Dlascl(typ byte, kl, ku int, cfrom, cto float64, m, n int, a []float64, lda int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dlascl_work((C.int)(rowMajor), (C.char)(typ), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.double)(cfrom), (C.double)(cto), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clascl.f. func Clascl(typ byte, kl, ku int, cfrom, cto float32, m, n int, a []complex64, lda int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_clascl_work((C.int)(rowMajor), (C.char)(typ), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.float)(cfrom), (C.float)(cto), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlascl.f. func Zlascl(typ byte, kl, ku int, cfrom, cto float64, m, n int, a []complex128, lda int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zlascl_work((C.int)(rowMajor), (C.char)(typ), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.double)(cfrom), (C.double)(cto), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slaset.f. func Slaset(ul blas.Uplo, m, n int, alpha, beta float32, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_slaset_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (C.float)(alpha), (C.float)(beta), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlaset.f. func Dlaset(ul blas.Uplo, m, n int, alpha, beta float64, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dlaset_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (C.double)(alpha), (C.double)(beta), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/claset.f. func Claset(ul blas.Uplo, m, n int, alpha, beta complex64, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_claset_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_complex_float)(alpha), (C.lapack_complex_float)(beta), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlaset.f. func Zlaset(ul blas.Uplo, m, n int, alpha, beta complex128, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: ul = 'A' } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zlaset_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_complex_double)(alpha), (C.lapack_complex_double)(beta), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slasrt.f. func Slasrt(id byte, n int, d []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } return isZero(C.LAPACKE_slasrt_work((C.char)(id), (C.lapack_int)(n), (*C.float)(_d))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlasrt.f. func Dlasrt(id byte, n int, d []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } return isZero(C.LAPACKE_dlasrt_work((C.char)(id), (C.lapack_int)(n), (*C.double)(_d))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slaswp.f. func Slaswp(n int, a []float32, lda, k1, k2 int, ipiv []int32, incx int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_slaswp_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.lapack_int)(k1), (C.lapack_int)(k2), (*C.lapack_int)(_ipiv), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlaswp.f. func Dlaswp(n int, a []float64, lda, k1, k2 int, ipiv []int32, incx int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dlaswp_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.lapack_int)(k1), (C.lapack_int)(k2), (*C.lapack_int)(_ipiv), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/claswp.f. func Claswp(n int, a []complex64, lda, k1, k2 int, ipiv []int32, incx int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_claswp_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.lapack_int)(k1), (C.lapack_int)(k2), (*C.lapack_int)(_ipiv), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlaswp.f. func Zlaswp(n int, a []complex128, lda, k1, k2 int, ipiv []int32, incx int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zlaswp_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.lapack_int)(k1), (C.lapack_int)(k2), (*C.lapack_int)(_ipiv), (C.lapack_int)(incx))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slatms.f. func Slatms(m, n int, dist byte, iseed []int32, sym byte, d []float32, mode int, cond, dmax float32, kl, ku int, pack byte, a []float32, lda int, work []float32) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_slatms_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.char)(dist), (*C.lapack_int)(_iseed), (C.char)(sym), (*C.float)(_d), (C.lapack_int)(mode), (C.float)(cond), (C.float)(dmax), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.char)(pack), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlatms.f. func Dlatms(m, n int, dist byte, iseed []int32, sym byte, d []float64, mode int, cond, dmax float64, kl, ku int, pack byte, a []float64, lda int, work []float64) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dlatms_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.char)(dist), (*C.lapack_int)(_iseed), (C.char)(sym), (*C.double)(_d), (C.lapack_int)(mode), (C.double)(cond), (C.double)(dmax), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.char)(pack), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clatms.f. func Clatms(m, n int, dist byte, iseed []int32, sym byte, d []float32, mode int, cond, dmax float32, kl, ku int, pack byte, a []complex64, lda int, work []complex64) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_clatms_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.char)(dist), (*C.lapack_int)(_iseed), (C.char)(sym), (*C.float)(_d), (C.lapack_int)(mode), (C.float)(cond), (C.float)(dmax), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.char)(pack), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlatms.f. func Zlatms(m, n int, dist byte, iseed []int32, sym byte, d []float64, mode int, cond, dmax float64, kl, ku int, pack byte, a []complex128, lda int, work []complex128) bool { var _iseed *int32 if len(iseed) > 0 { _iseed = &iseed[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zlatms_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.char)(dist), (*C.lapack_int)(_iseed), (C.char)(sym), (*C.double)(_d), (C.lapack_int)(mode), (C.double)(cond), (C.double)(dmax), (C.lapack_int)(kl), (C.lapack_int)(ku), (C.char)(pack), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/slauum.f. func Slauum(ul blas.Uplo, n int, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_slauum_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlauum.f. func Dlauum(ul blas.Uplo, n int, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dlauum_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clauum.f. func Clauum(ul blas.Uplo, n int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_clauum_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zlauum.f. func Zlauum(ul blas.Uplo, n int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zlauum_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sopgtr.f. func Sopgtr(ul blas.Uplo, n int, ap, tau, q []float32, ldq int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sopgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_tau), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dopgtr.f. func Dopgtr(ul blas.Uplo, n int, ap, tau, q []float64, ldq int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dopgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_tau), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sopmtr.f. func Sopmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, ap, tau, c []float32, ldc int, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sopmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dopmtr.f. func Dopmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, ap, tau, c []float64, ldc int, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dopmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorgbr.f. func Sorgbr(vect byte, m, n, k int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorgbr_work((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorgbr.f. func Dorgbr(vect byte, m, n, k int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorgbr_work((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorghr.f. func Sorghr(n, ilo, ihi int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorghr_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorghr.f. func Dorghr(n, ilo, ihi int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorghr_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorglq.f. func Sorglq(m, n, k int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorglq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorglq.f. func Dorglq(m, n, k int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorglq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorgql.f. func Sorgql(m, n, k int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorgql_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorgql.f. func Dorgql(m, n, k int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorgql_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorgqr.f. func Sorgqr(m, n, k int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorgqr_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorgqr.f. func Dorgqr(m, n, k int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorgqr_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorgrq.f. func Sorgrq(m, n, k int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorgrq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorgrq.f. func Dorgrq(m, n, k int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorgrq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorgtr.f. func Sorgtr(ul blas.Uplo, n int, a []float32, lda int, tau, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorgtr.f. func Dorgtr(ul blas.Uplo, n int, a []float64, lda int, tau, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormbr.f. func Sormbr(vect byte, side blas.Side, trans blas.Transpose, m, n, k int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormbr_work((C.int)(rowMajor), (C.char)(vect), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormbr.f. func Dormbr(vect byte, side blas.Side, trans blas.Transpose, m, n, k int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormbr_work((C.int)(rowMajor), (C.char)(vect), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormhr.f. func Sormhr(side blas.Side, trans blas.Transpose, m, n, ilo, ihi int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormhr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormhr.f. func Dormhr(side blas.Side, trans blas.Transpose, m, n, ilo, ihi int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormhr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormlq.f. func Sormlq(side blas.Side, trans blas.Transpose, m, n, k int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormlq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormlq.f. func Dormlq(side blas.Side, trans blas.Transpose, m, n, k int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormlq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormql.f. func Sormql(side blas.Side, trans blas.Transpose, m, n, k int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormql_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormql.f. func Dormql(side blas.Side, trans blas.Transpose, m, n, k int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormql_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormqr.f. func Sormqr(side blas.Side, trans blas.Transpose, m, n, k int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormqr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormqr.f. func Dormqr(side blas.Side, trans blas.Transpose, m, n, k int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormqr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormrq.f. func Sormrq(side blas.Side, trans blas.Transpose, m, n, k int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormrq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormrq.f. func Dormrq(side blas.Side, trans blas.Transpose, m, n, k int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormrq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormrz.f. func Sormrz(side blas.Side, trans blas.Transpose, m, n, k, l int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormrz_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormrz.f. func Dormrz(side blas.Side, trans blas.Transpose, m, n, k, l int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormrz_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sormtr.f. func Sormtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, a []float32, lda int, tau, c []float32, ldc int, work []float32, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sormtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormtr.f. func Dormtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, a []float64, lda int, tau, c []float64, ldc int, work []float64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dormtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbcon.f. func Spbcon(ul blas.Uplo, n, kd int, ab []float32, ldab int, anorm float32, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_spbcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbcon.f. func Dpbcon(ul blas.Uplo, n, kd int, ab []float64, ldab int, anorm float64, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dpbcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbcon.f. func Cpbcon(ul blas.Uplo, n, kd int, ab []complex64, ldab int, anorm float32, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cpbcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbcon.f. func Zpbcon(ul blas.Uplo, n, kd int, ab []complex128, ldab int, anorm float64, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zpbcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbequ.f. func Spbequ(ul blas.Uplo, n, kd int, ab []float32, ldab int, s, scond, amax []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_spbequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbequ.f. func Dpbequ(ul blas.Uplo, n, kd int, ab []float64, ldab int, s, scond, amax []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dpbequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbequ.f. func Cpbequ(ul blas.Uplo, n, kd int, ab []complex64, ldab int, s, scond, amax []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cpbequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbequ.f. func Zpbequ(ul blas.Uplo, n, kd int, ab []complex128, ldab int, s, scond, amax []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zpbequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbrfs.f. func Spbrfs(ul blas.Uplo, n, kd, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _afb *float32 if len(afb) > 0 { _afb = &afb[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_spbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_afb), (C.lapack_int)(ldafb), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbrfs.f. func Dpbrfs(ul blas.Uplo, n, kd, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _afb *float64 if len(afb) > 0 { _afb = &afb[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dpbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_afb), (C.lapack_int)(ldafb), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbrfs.f. func Cpbrfs(ul blas.Uplo, n, kd, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex64 if len(afb) > 0 { _afb = &afb[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cpbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_afb), (C.lapack_int)(ldafb), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbrfs.f. func Zpbrfs(ul blas.Uplo, n, kd, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex128 if len(afb) > 0 { _afb = &afb[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zpbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_afb), (C.lapack_int)(ldafb), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbstf.f. func Spbstf(ul blas.Uplo, n, kb int, bb []float32, ldbb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _bb *float32 if len(bb) > 0 { _bb = &bb[0] } return isZero(C.LAPACKE_spbstf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kb), (*C.float)(_bb), (C.lapack_int)(ldbb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbstf.f. func Dpbstf(ul blas.Uplo, n, kb int, bb []float64, ldbb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _bb *float64 if len(bb) > 0 { _bb = &bb[0] } return isZero(C.LAPACKE_dpbstf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kb), (*C.double)(_bb), (C.lapack_int)(ldbb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbstf.f. func Cpbstf(ul blas.Uplo, n, kb int, bb []complex64, ldbb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _bb *complex64 if len(bb) > 0 { _bb = &bb[0] } return isZero(C.LAPACKE_cpbstf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kb), (*C.lapack_complex_float)(_bb), (C.lapack_int)(ldbb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbstf.f. func Zpbstf(ul blas.Uplo, n, kb int, bb []complex128, ldbb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _bb *complex128 if len(bb) > 0 { _bb = &bb[0] } return isZero(C.LAPACKE_zpbstf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kb), (*C.lapack_complex_double)(_bb), (C.lapack_int)(ldbb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbsv.f. func Spbsv(ul blas.Uplo, n, kd, nrhs int, ab []float32, ldab int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spbsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbsv.f. func Dpbsv(ul blas.Uplo, n, kd, nrhs int, ab []float64, ldab int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpbsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbsv.f. func Cpbsv(ul blas.Uplo, n, kd, nrhs int, ab []complex64, ldab int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpbsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbsv.f. func Zpbsv(ul blas.Uplo, n, kd, nrhs int, ab []complex128, ldab int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpbsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbsvx.f. func Spbsvx(fact byte, ul blas.Uplo, n, kd, nrhs int, ab []float32, ldab int, afb []float32, ldafb int, equed []byte, s, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _afb *float32 if len(afb) > 0 { _afb = &afb[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_spbsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_afb), (C.lapack_int)(ldafb), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbsvx.f. func Dpbsvx(fact byte, ul blas.Uplo, n, kd, nrhs int, ab []float64, ldab int, afb []float64, ldafb int, equed []byte, s, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _afb *float64 if len(afb) > 0 { _afb = &afb[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dpbsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_afb), (C.lapack_int)(ldafb), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbsvx.f. func Cpbsvx(fact byte, ul blas.Uplo, n, kd, nrhs int, ab []complex64, ldab int, afb []complex64, ldafb int, equed []byte, s []float32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex64 if len(afb) > 0 { _afb = &afb[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cpbsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_afb), (C.lapack_int)(ldafb), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbsvx.f. func Zpbsvx(fact byte, ul blas.Uplo, n, kd, nrhs int, ab []complex128, ldab int, afb []complex128, ldafb int, equed []byte, s []float64, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _afb *complex128 if len(afb) > 0 { _afb = &afb[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zpbsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_afb), (C.lapack_int)(ldafb), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbtrf.f. func Spbtrf(ul blas.Uplo, n, kd int, ab []float32, ldab int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } return isZero(C.LAPACKE_spbtrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbtrf.f. func Dpbtrf(ul blas.Uplo, n, kd int, ab []float64, ldab int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } return isZero(C.LAPACKE_dpbtrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbtrf.f. func Cpbtrf(ul blas.Uplo, n, kd int, ab []complex64, ldab int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } return isZero(C.LAPACKE_cpbtrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbtrf.f. func Zpbtrf(ul blas.Uplo, n, kd int, ab []complex128, ldab int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } return isZero(C.LAPACKE_zpbtrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spbtrs.f. func Spbtrs(ul blas.Uplo, n, kd, nrhs int, ab []float32, ldab int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpbtrs.f. func Dpbtrs(ul blas.Uplo, n, kd, nrhs int, ab []float64, ldab int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpbtrs.f. func Cpbtrs(ul blas.Uplo, n, kd, nrhs int, ab []complex64, ldab int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpbtrs.f. func Zpbtrs(ul blas.Uplo, n, kd, nrhs int, ab []complex128, ldab int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spftrf.f. func Spftrf(transr blas.Transpose, ul blas.Uplo, n int, a []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_spftrf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpftrf.f. func Dpftrf(transr blas.Transpose, ul blas.Uplo, n int, a []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dpftrf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpftrf.f. func Cpftrf(transr blas.Transpose, ul blas.Uplo, n int, a []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cpftrf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpftrf.f. func Zpftrf(transr blas.Transpose, ul blas.Uplo, n int, a []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zpftrf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spftri.f. func Spftri(transr blas.Transpose, ul blas.Uplo, n int, a []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_spftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpftri.f. func Dpftri(transr blas.Transpose, ul blas.Uplo, n int, a []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dpftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpftri.f. func Cpftri(transr blas.Transpose, ul blas.Uplo, n int, a []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cpftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpftri.f. func Zpftri(transr blas.Transpose, ul blas.Uplo, n int, a []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zpftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spftrs.f. func Spftrs(transr blas.Transpose, ul blas.Uplo, n, nrhs int, a, b []float32, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spftrs_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpftrs.f. func Dpftrs(transr blas.Transpose, ul blas.Uplo, n, nrhs int, a, b []float64, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpftrs_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpftrs.f. func Cpftrs(transr blas.Transpose, ul blas.Uplo, n, nrhs int, a, b []complex64, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpftrs_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpftrs.f. func Zpftrs(transr blas.Transpose, ul blas.Uplo, n, nrhs int, a, b []complex128, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpftrs_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spocon.f. func Spocon(ul blas.Uplo, n int, a []float32, lda int, anorm float32, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_spocon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpocon.f. func Dpocon(ul blas.Uplo, n int, a []float64, lda int, anorm float64, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dpocon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpocon.f. func Cpocon(ul blas.Uplo, n int, a []complex64, lda int, anorm float32, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cpocon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpocon.f. func Zpocon(ul blas.Uplo, n int, a []complex128, lda int, anorm float64, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zpocon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spoequ.f. func Spoequ(n int, a []float32, lda int, s, scond, amax []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_spoequ_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpoequ.f. func Dpoequ(n int, a []float64, lda int, s, scond, amax []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dpoequ_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpoequ.f. func Cpoequ(n int, a []complex64, lda int, s, scond, amax []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cpoequ_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpoequ.f. func Zpoequ(n int, a []complex128, lda int, s, scond, amax []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zpoequ_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spoequb.f. func Spoequb(n int, a []float32, lda int, s, scond, amax []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_spoequb_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpoequb.f. func Dpoequb(n int, a []float64, lda int, s, scond, amax []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dpoequb_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpoequb.f. func Cpoequb(n int, a []complex64, lda int, s, scond, amax []float32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cpoequb_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpoequb.f. func Zpoequb(n int, a []complex128, lda int, s, scond, amax []float64) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zpoequb_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sporfs.f. func Sporfs(ul blas.Uplo, n, nrhs int, a []float32, lda int, af []float32, ldaf int, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sporfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dporfs.f. func Dporfs(ul blas.Uplo, n, nrhs int, a []float64, lda int, af []float64, ldaf int, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dporfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cporfs.f. func Cporfs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cporfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zporfs.f. func Zporfs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zporfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sposv.f. func Sposv(ul blas.Uplo, n, nrhs int, a []float32, lda int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dposv.f. func Dposv(ul blas.Uplo, n, nrhs int, a []float64, lda int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cposv.f. func Cposv(ul blas.Uplo, n, nrhs int, a []complex64, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zposv.f. func Zposv(ul blas.Uplo, n, nrhs int, a []complex128, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsposv.f. func Dsposv(ul blas.Uplo, n, nrhs int, a []float64, lda int, b []float64, ldb int, x []float64, ldx int, work []float64, swork []float32, iter []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _swork *float32 if len(swork) > 0 { _swork = &swork[0] } var _iter *int32 if len(iter) > 0 { _iter = &iter[0] } return isZero(C.LAPACKE_dsposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_work), (*C.float)(_swork), (*C.lapack_int)(_iter))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zcposv.f. func Zcposv(ul blas.Uplo, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, x []complex128, ldx int, work []complex128, swork []complex64, rwork []float64, iter []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _swork *complex64 if len(swork) > 0 { _swork = &swork[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iter *int32 if len(iter) > 0 { _iter = &iter[0] } return isZero(C.LAPACKE_zcposv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.lapack_complex_double)(_work), (*C.lapack_complex_float)(_swork), (*C.double)(_rwork), (*C.lapack_int)(_iter))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sposvx.f. func Sposvx(fact byte, ul blas.Uplo, n, nrhs int, a []float32, lda int, af []float32, ldaf int, equed []byte, s, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sposvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dposvx.f. func Dposvx(fact byte, ul blas.Uplo, n, nrhs int, a []float64, lda int, af []float64, ldaf int, equed []byte, s, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dposvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cposvx.f. func Cposvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, equed []byte, s []float32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cposvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zposvx.f. func Zposvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, equed []byte, s []float64, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zposvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spotrf2.f. func Spotrf2(ul blas.Uplo, n int, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_spotrf2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpotrf2.f. func Dpotrf2(ul blas.Uplo, n int, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dpotrf2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpotrf2.f. func Cpotrf2(ul blas.Uplo, n int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cpotrf2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpotrf2.f. func Zpotrf2(ul blas.Uplo, n int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zpotrf2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spotrf.f. func Spotrf(ul blas.Uplo, n int, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_spotrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpotrf.f. func Dpotrf(ul blas.Uplo, n int, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dpotrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpotrf.f. func Cpotrf(ul blas.Uplo, n int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cpotrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpotrf.f. func Zpotrf(ul blas.Uplo, n int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zpotrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spotri.f. func Spotri(ul blas.Uplo, n int, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_spotri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpotri.f. func Dpotri(ul blas.Uplo, n int, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dpotri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpotri.f. func Cpotri(ul blas.Uplo, n int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cpotri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpotri.f. func Zpotri(ul blas.Uplo, n int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zpotri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spotrs.f. func Spotrs(ul blas.Uplo, n, nrhs int, a []float32, lda int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spotrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpotrs.f. func Dpotrs(ul blas.Uplo, n, nrhs int, a []float64, lda int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpotrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpotrs.f. func Cpotrs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpotrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpotrs.f. func Zpotrs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpotrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sppcon.f. func Sppcon(ul blas.Uplo, n int, ap []float32, anorm float32, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sppcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dppcon.f. func Dppcon(ul blas.Uplo, n int, ap []float64, anorm float64, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dppcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cppcon.f. func Cppcon(ul blas.Uplo, n int, ap []complex64, anorm float32, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cppcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zppcon.f. func Zppcon(ul blas.Uplo, n int, ap []complex128, anorm float64, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zppcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sppequ.f. func Sppequ(ul blas.Uplo, n int, ap, s, scond, amax []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_sppequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dppequ.f. func Dppequ(ul blas.Uplo, n int, ap, s, scond, amax []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_dppequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cppequ.f. func Cppequ(ul blas.Uplo, n int, ap []complex64, s, scond, amax []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_cppequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zppequ.f. func Zppequ(ul blas.Uplo, n int, ap []complex128, s, scond, amax []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } return isZero(C.LAPACKE_zppequ_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spprfs.f. func Spprfs(ul blas.Uplo, n, nrhs int, ap, afp, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _afp *float32 if len(afp) > 0 { _afp = &afp[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_spprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_afp), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpprfs.f. func Dpprfs(ul blas.Uplo, n, nrhs int, ap, afp, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _afp *float64 if len(afp) > 0 { _afp = &afp[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dpprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_afp), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpprfs.f. func Cpprfs(ul blas.Uplo, n, nrhs int, ap, afp, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cpprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpprfs.f. func Zpprfs(ul blas.Uplo, n, nrhs int, ap, afp, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zpprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sppsv.f. func Sppsv(ul blas.Uplo, n, nrhs int, ap, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sppsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dppsv.f. func Dppsv(ul blas.Uplo, n, nrhs int, ap, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dppsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cppsv.f. func Cppsv(ul blas.Uplo, n, nrhs int, ap, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cppsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zppsv.f. func Zppsv(ul blas.Uplo, n, nrhs int, ap, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zppsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sppsvx.f. func Sppsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []float32, equed []byte, s, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _afp *float32 if len(afp) > 0 { _afp = &afp[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sppsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_afp), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dppsvx.f. func Dppsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []float64, equed []byte, s, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _afp *float64 if len(afp) > 0 { _afp = &afp[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dppsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_afp), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cppsvx.f. func Cppsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex64, equed []byte, s []float32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cppsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.char)(unsafe.Pointer(_equed)), (*C.float)(_s), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zppsvx.f. func Zppsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex128, equed []byte, s []float64, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _equed *byte if len(equed) > 0 { _equed = &equed[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zppsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.char)(unsafe.Pointer(_equed)), (*C.double)(_s), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spptrf.f. func Spptrf(ul blas.Uplo, n int, ap []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_spptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpptrf.f. func Dpptrf(ul blas.Uplo, n int, ap []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_dpptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpptrf.f. func Cpptrf(ul blas.Uplo, n int, ap []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_cpptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpptrf.f. func Zpptrf(ul blas.Uplo, n int, ap []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_zpptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spptri.f. func Spptri(ul blas.Uplo, n int, ap []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_spptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpptri.f. func Dpptri(ul blas.Uplo, n int, ap []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_dpptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpptri.f. func Cpptri(ul blas.Uplo, n int, ap []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_cpptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpptri.f. func Zpptri(ul blas.Uplo, n int, ap []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_zpptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spptrs.f. func Spptrs(ul blas.Uplo, n, nrhs int, ap, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpptrs.f. func Dpptrs(ul blas.Uplo, n, nrhs int, ap, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpptrs.f. func Cpptrs(ul blas.Uplo, n, nrhs int, ap, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpptrs.f. func Zpptrs(ul blas.Uplo, n, nrhs int, ap, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spstrf.f. func Spstrf(ul blas.Uplo, n int, a []float32, lda int, piv, rank []int32, tol float32, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _piv *int32 if len(piv) > 0 { _piv = &piv[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_spstrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_piv), (*C.lapack_int)(_rank), (C.float)(tol), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpstrf.f. func Dpstrf(ul blas.Uplo, n int, a []float64, lda int, piv, rank []int32, tol float64, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _piv *int32 if len(piv) > 0 { _piv = &piv[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dpstrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_piv), (*C.lapack_int)(_rank), (C.double)(tol), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpstrf.f. func Cpstrf(ul blas.Uplo, n int, a []complex64, lda int, piv, rank []int32, tol float32, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _piv *int32 if len(piv) > 0 { _piv = &piv[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cpstrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_piv), (*C.lapack_int)(_rank), (C.float)(tol), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpstrf.f. func Zpstrf(ul blas.Uplo, n int, a []complex128, lda int, piv, rank []int32, tol float64, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _piv *int32 if len(piv) > 0 { _piv = &piv[0] } var _rank *int32 if len(rank) > 0 { _rank = &rank[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zpstrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_piv), (*C.lapack_int)(_rank), (C.double)(tol), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sptcon.f. func Sptcon(n int, d, e []float32, anorm float32, rcond, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sptcon_work((C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dptcon.f. func Dptcon(n int, d, e []float64, anorm float64, rcond, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dptcon_work((C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cptcon.f. func Cptcon(n int, d []float32, e []complex64, anorm float32, rcond, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cptcon_work((C.lapack_int)(n), (*C.float)(_d), (*C.lapack_complex_float)(_e), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zptcon.f. func Zptcon(n int, d []float64, e []complex128, anorm float64, rcond, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zptcon_work((C.lapack_int)(n), (*C.double)(_d), (*C.lapack_complex_double)(_e), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spteqr.f. func Spteqr(compz lapack.Comp, n int, d, e, z []float32, ldz int, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_spteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpteqr.f. func Dpteqr(compz lapack.Comp, n int, d, e, z []float64, ldz int, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dpteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpteqr.f. func Cpteqr(compz lapack.Comp, n int, d, e []float32, z []complex64, ldz int, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cpteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpteqr.f. func Zpteqr(compz lapack.Comp, n int, d, e []float64, z []complex128, ldz int, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zpteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sptrfs.f. func Sptrfs(n, nrhs int, d, e, df, ef, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _ef *float32 if len(ef) > 0 { _ef = &ef[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sptrfs_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.float)(_e), (*C.float)(_df), (*C.float)(_ef), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dptrfs.f. func Dptrfs(n, nrhs int, d, e, df, ef, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _ef *float64 if len(ef) > 0 { _ef = &ef[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dptrfs_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.double)(_e), (*C.double)(_df), (*C.double)(_ef), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cptrfs.f. func Cptrfs(ul blas.Uplo, n, nrhs int, d []float32, e []complex64, df []float32, ef, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _ef *complex64 if len(ef) > 0 { _ef = &ef[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cptrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.lapack_complex_float)(_e), (*C.float)(_df), (*C.lapack_complex_float)(_ef), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zptrfs.f. func Zptrfs(ul blas.Uplo, n, nrhs int, d []float64, e []complex128, df []float64, ef, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _ef *complex128 if len(ef) > 0 { _ef = &ef[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zptrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.lapack_complex_double)(_e), (*C.double)(_df), (*C.lapack_complex_double)(_ef), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sptsv.f. func Sptsv(n, nrhs int, d, e, b []float32, ldb int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sptsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.float)(_e), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dptsv.f. func Dptsv(n, nrhs int, d, e, b []float64, ldb int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dptsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.double)(_e), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cptsv.f. func Cptsv(n, nrhs int, d []float32, e, b []complex64, ldb int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cptsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.lapack_complex_float)(_e), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zptsv.f. func Zptsv(n, nrhs int, d []float64, e, b []complex128, ldb int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zptsv_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.lapack_complex_double)(_e), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sptsvx.f. func Sptsvx(fact byte, n, nrhs int, d, e, df, ef, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _ef *float32 if len(ef) > 0 { _ef = &ef[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sptsvx_work((C.int)(rowMajor), (C.char)(fact), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.float)(_e), (*C.float)(_df), (*C.float)(_ef), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dptsvx.f. func Dptsvx(fact byte, n, nrhs int, d, e, df, ef, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _ef *float64 if len(ef) > 0 { _ef = &ef[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dptsvx_work((C.int)(rowMajor), (C.char)(fact), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.double)(_e), (*C.double)(_df), (*C.double)(_ef), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cptsvx.f. func Cptsvx(fact byte, n, nrhs int, d []float32, e []complex64, df []float32, ef, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _df *float32 if len(df) > 0 { _df = &df[0] } var _ef *complex64 if len(ef) > 0 { _ef = &ef[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cptsvx_work((C.int)(rowMajor), (C.char)(fact), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.lapack_complex_float)(_e), (*C.float)(_df), (*C.lapack_complex_float)(_ef), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zptsvx.f. func Zptsvx(fact byte, n, nrhs int, d []float64, e []complex128, df []float64, ef, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _df *float64 if len(df) > 0 { _df = &df[0] } var _ef *complex128 if len(ef) > 0 { _ef = &ef[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zptsvx_work((C.int)(rowMajor), (C.char)(fact), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.lapack_complex_double)(_e), (*C.double)(_df), (*C.lapack_complex_double)(_ef), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spttrf.f. func Spttrf(n int, d, e []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_spttrf_work((C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpttrf.f. func Dpttrf(n int, d, e []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_dpttrf_work((C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpttrf.f. func Cpttrf(n int, d []float32, e []complex64) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_cpttrf_work((C.lapack_int)(n), (*C.float)(_d), (*C.lapack_complex_float)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpttrf.f. func Zpttrf(n int, d []float64, e []complex128) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_zpttrf_work((C.lapack_int)(n), (*C.double)(_d), (*C.lapack_complex_double)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/spttrs.f. func Spttrs(n, nrhs int, d, e, b []float32, ldb int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_spttrs_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.float)(_e), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dpttrs.f. func Dpttrs(n, nrhs int, d, e, b []float64, ldb int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dpttrs_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.double)(_e), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cpttrs.f. func Cpttrs(ul blas.Uplo, n, nrhs int, d []float32, e, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cpttrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_d), (*C.lapack_complex_float)(_e), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zpttrs.f. func Zpttrs(ul blas.Uplo, n, nrhs int, d []float64, e, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zpttrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_d), (*C.lapack_complex_double)(_e), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbev.f. func Ssbev(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []float32, ldab int, w, z []float32, ldz int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssbev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbev.f. func Dsbev(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []float64, ldab int, w, z []float64, ldz int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsbev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbevd.f. func Ssbevd(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []float32, ldab int, w, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssbevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbevd.f. func Dsbevd(jobz lapack.Job, ul blas.Uplo, n, kd int, ab []float64, ldab int, w, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsbevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbevx.f. func Ssbevx(jobz lapack.Job, rng byte, ul blas.Uplo, n, kd int, ab []float32, ldab int, q []float32, ldq int, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_ssbevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_q), (C.lapack_int)(ldq), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbevx.f. func Dsbevx(jobz lapack.Job, rng byte, ul blas.Uplo, n, kd int, ab []float64, ldab int, q []float64, ldq int, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dsbevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_q), (C.lapack_int)(ldq), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbgst.f. func Ssbgst(vect byte, ul blas.Uplo, n, ka, kb int, ab []float32, ldab int, bb []float32, ldbb int, x []float32, ldx int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _bb *float32 if len(bb) > 0 { _bb = &bb[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssbgst_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbgst.f. func Dsbgst(vect byte, ul blas.Uplo, n, ka, kb int, ab []float64, ldab int, bb []float64, ldbb int, x []float64, ldx int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _bb *float64 if len(bb) > 0 { _bb = &bb[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsbgst_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbgv.f. func Ssbgv(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []float32, ldab int, bb []float32, ldbb int, w, z []float32, ldz int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _bb *float32 if len(bb) > 0 { _bb = &bb[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssbgv_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbgv.f. func Dsbgv(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []float64, ldab int, bb []float64, ldbb int, w, z []float64, ldz int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _bb *float64 if len(bb) > 0 { _bb = &bb[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsbgv_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbgvd.f. func Ssbgvd(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []float32, ldab int, bb []float32, ldbb int, w, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _bb *float32 if len(bb) > 0 { _bb = &bb[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssbgvd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbgvd.f. func Dsbgvd(jobz lapack.Job, ul blas.Uplo, n, ka, kb int, ab []float64, ldab int, bb []float64, ldbb int, w, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _bb *float64 if len(bb) > 0 { _bb = &bb[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsbgvd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbgvx.f. func Ssbgvx(jobz lapack.Job, rng byte, ul blas.Uplo, n, ka, kb int, ab []float32, ldab int, bb []float32, ldbb int, q []float32, ldq int, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _bb *float32 if len(bb) > 0 { _bb = &bb[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_ssbgvx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_bb), (C.lapack_int)(ldbb), (*C.float)(_q), (C.lapack_int)(ldq), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbgvx.f. func Dsbgvx(jobz lapack.Job, rng byte, ul blas.Uplo, n, ka, kb int, ab []float64, ldab int, bb []float64, ldbb int, q []float64, ldq int, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _bb *float64 if len(bb) > 0 { _bb = &bb[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dsbgvx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(ka), (C.lapack_int)(kb), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_bb), (C.lapack_int)(ldbb), (*C.double)(_q), (C.lapack_int)(ldq), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssbtrd.f. func Ssbtrd(vect byte, ul blas.Uplo, n, kd int, ab []float32, ldab int, d, e, q []float32, ldq int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssbtrd_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_d), (*C.float)(_e), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsbtrd.f. func Dsbtrd(vect byte, ul blas.Uplo, n, kd int, ab []float64, ldab int, d, e, q []float64, ldq int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsbtrd_work((C.int)(rowMajor), (C.char)(vect), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_d), (*C.double)(_e), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssfrk.f. func Ssfrk(transr blas.Transpose, ul blas.Uplo, trans blas.Transpose, n, k int, alpha float32, a []float32, lda int, beta float32, c []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } return isZero(C.LAPACKE_ssfrk_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(k), (C.float)(alpha), (*C.float)(_a), (C.lapack_int)(lda), (C.float)(beta), (*C.float)(_c))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsfrk.f. func Dsfrk(transr blas.Transpose, ul blas.Uplo, trans blas.Transpose, n, k int, alpha float64, a []float64, lda int, beta float64, c []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } return isZero(C.LAPACKE_dsfrk_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(trans), (C.lapack_int)(n), (C.lapack_int)(k), (C.double)(alpha), (*C.double)(_a), (C.lapack_int)(lda), (C.double)(beta), (*C.double)(_c))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspcon.f. func Sspcon(ul blas.Uplo, n int, ap []float32, ipiv []int32, anorm float32, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sspcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspcon.f. func Dspcon(ul blas.Uplo, n int, ap []float64, ipiv []int32, anorm float64, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dspcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cspcon.f. func Cspcon(ul blas.Uplo, n int, ap []complex64, ipiv []int32, anorm float32, rcond []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cspcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zspcon.f. func Zspcon(ul blas.Uplo, n int, ap []complex128, ipiv []int32, anorm float64, rcond []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zspcon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspev.f. func Sspev(jobz lapack.Job, ul blas.Uplo, n int, ap, w, z []float32, ldz int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sspev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspev.f. func Dspev(jobz lapack.Job, ul blas.Uplo, n int, ap, w, z []float64, ldz int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dspev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspevd.f. func Sspevd(jobz lapack.Job, ul blas.Uplo, n int, ap, w, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sspevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspevd.f. func Dspevd(jobz lapack.Job, ul blas.Uplo, n int, ap, w, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dspevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspevx.f. func Sspevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_sspevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspevx.f. func Dspevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dspevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspgst.f. func Sspgst(itype int, ul blas.Uplo, n int, ap, bp []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _bp *float32 if len(bp) > 0 { _bp = &bp[0] } return isZero(C.LAPACKE_sspgst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_bp))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspgst.f. func Dspgst(itype int, ul blas.Uplo, n int, ap, bp []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _bp *float64 if len(bp) > 0 { _bp = &bp[0] } return isZero(C.LAPACKE_dspgst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_bp))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspgv.f. func Sspgv(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp, w, z []float32, ldz int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _bp *float32 if len(bp) > 0 { _bp = &bp[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sspgv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_bp), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspgv.f. func Dspgv(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp, w, z []float64, ldz int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _bp *float64 if len(bp) > 0 { _bp = &bp[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dspgv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_bp), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspgvd.f. func Sspgvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp, w, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _bp *float32 if len(bp) > 0 { _bp = &bp[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sspgvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_bp), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspgvd.f. func Dspgvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, ap, bp, w, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _bp *float64 if len(bp) > 0 { _bp = &bp[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dspgvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_bp), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspgvx.f. func Sspgvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap, bp []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _bp *float32 if len(bp) > 0 { _bp = &bp[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_sspgvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_bp), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspgvx.f. func Dspgvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, ap, bp []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _bp *float64 if len(bp) > 0 { _bp = &bp[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dspgvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_bp), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssprfs.f. func Ssprfs(ul blas.Uplo, n, nrhs int, ap, afp []float32, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _afp *float32 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_afp), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsprfs.f. func Dsprfs(ul blas.Uplo, n, nrhs int, ap, afp []float64, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _afp *float64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_afp), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csprfs.f. func Csprfs(ul blas.Uplo, n, nrhs int, ap, afp []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_csprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsprfs.f. func Zsprfs(ul blas.Uplo, n, nrhs int, ap, afp []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zsprfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspsv.f. func Sspsv(ul blas.Uplo, n, nrhs int, ap []float32, ipiv []int32, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_sspsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspsv.f. func Dspsv(ul blas.Uplo, n, nrhs int, ap []float64, ipiv []int32, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dspsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cspsv.f. func Cspsv(ul blas.Uplo, n, nrhs int, ap []complex64, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_cspsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zspsv.f. func Zspsv(ul blas.Uplo, n, nrhs int, ap []complex128, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zspsv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sspsvx.f. func Sspsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []float32, ipiv []int32, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _afp *float32 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sspsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_afp), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dspsvx.f. func Dspsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []float64, ipiv []int32, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _afp *float64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dspsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_afp), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cspsvx.f. func Cspsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex64, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex64 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cspsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zspsvx.f. func Zspsvx(fact byte, ul blas.Uplo, n, nrhs int, ap, afp []complex128, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _afp *complex128 if len(afp) > 0 { _afp = &afp[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zspsvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_afp), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssptrd.f. func Ssptrd(ul blas.Uplo, n int, ap, d, e, tau []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_ssptrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_d), (*C.float)(_e), (*C.float)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsptrd.f. func Dsptrd(ul blas.Uplo, n int, ap, d, e, tau []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } return isZero(C.LAPACKE_dsptrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_d), (*C.double)(_e), (*C.double)(_tau))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssptrf.f. func Ssptrf(ul blas.Uplo, n int, ap []float32, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_ssptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsptrf.f. func Dsptrf(ul blas.Uplo, n int, ap []float64, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_dsptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csptrf.f. func Csptrf(ul blas.Uplo, n int, ap []complex64, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_csptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsptrf.f. func Zsptrf(ul blas.Uplo, n int, ap []complex128, ipiv []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } return isZero(C.LAPACKE_zsptrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssptri.f. func Ssptri(ul blas.Uplo, n int, ap []float32, ipiv []int32, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.lapack_int)(_ipiv), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsptri.f. func Dsptri(ul blas.Uplo, n int, ap []float64, ipiv []int32, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.lapack_int)(_ipiv), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csptri.f. func Csptri(ul blas.Uplo, n int, ap []complex64, ipiv []int32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsptri.f. func Zsptri(ul blas.Uplo, n int, ap []complex128, ipiv []int32, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsptri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssptrs.f. func Ssptrs(ul blas.Uplo, n, nrhs int, ap []float32, ipiv []int32, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ssptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsptrs.f. func Dsptrs(ul blas.Uplo, n, nrhs int, ap []float64, ipiv []int32, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dsptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csptrs.f. func Csptrs(ul blas.Uplo, n, nrhs int, ap []complex64, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_csptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsptrs.f. func Zsptrs(ul blas.Uplo, n, nrhs int, ap []complex128, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zsptrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstebz.f. func Sstebz(rng, order byte, n int, vl, vu float32, il, iu int, abstol float32, d, e []float32, m, nsplit []int32, w []float32, iblock, isplit []int32, work []float32, iwork []int32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _nsplit *int32 if len(nsplit) > 0 { _nsplit = &nsplit[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstebz_work((C.char)(rng), (C.char)(order), (C.lapack_int)(n), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.float)(_d), (*C.float)(_e), (*C.lapack_int)(_m), (*C.lapack_int)(_nsplit), (*C.float)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstebz.f. func Dstebz(rng, order byte, n int, vl, vu float64, il, iu int, abstol float64, d, e []float64, m, nsplit []int32, w []float64, iblock, isplit []int32, work []float64, iwork []int32) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _nsplit *int32 if len(nsplit) > 0 { _nsplit = &nsplit[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstebz_work((C.char)(rng), (C.char)(order), (C.lapack_int)(n), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.double)(_d), (*C.double)(_e), (*C.lapack_int)(_m), (*C.lapack_int)(_nsplit), (*C.double)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstedc.f. func Sstedc(compz lapack.Comp, n int, d, e, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstedc_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstedc.f. func Dstedc(compz lapack.Comp, n int, d, e, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstedc_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cstedc.f. func Cstedc(compz lapack.Comp, n int, d, e []float32, z []complex64, ldz int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cstedc_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zstedc.f. func Zstedc(compz lapack.Comp, n int, d, e []float64, z []complex128, ldz int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zstedc_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstegr.f. func Sstegr(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, isuppz []int32, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstegr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstegr.f. func Dstegr(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, isuppz []int32, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstegr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cstegr.f. func Cstegr(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w []float32, z []complex64, ldz int, isuppz []int32, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cstegr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zstegr.f. func Zstegr(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w []float64, z []complex128, ldz int, isuppz []int32, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zstegr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstein.f. func Sstein(n int, d, e []float32, m int, w []float32, iblock, isplit []int32, z []float32, ldz int, work []float32, iwork, ifailv []int32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifailv *int32 if len(ifailv) > 0 { _ifailv = &ifailv[0] } return isZero(C.LAPACKE_sstein_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.lapack_int)(m), (*C.float)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifailv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstein.f. func Dstein(n int, d, e []float64, m int, w []float64, iblock, isplit []int32, z []float64, ldz int, work []float64, iwork, ifailv []int32) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifailv *int32 if len(ifailv) > 0 { _ifailv = &ifailv[0] } return isZero(C.LAPACKE_dstein_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.lapack_int)(m), (*C.double)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifailv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cstein.f. func Cstein(n int, d, e []float32, m int, w []float32, iblock, isplit []int32, z []complex64, ldz int, work []float32, iwork, ifailv []int32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifailv *int32 if len(ifailv) > 0 { _ifailv = &ifailv[0] } return isZero(C.LAPACKE_cstein_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.lapack_int)(m), (*C.float)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifailv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zstein.f. func Zstein(n int, d, e []float64, m int, w []float64, iblock, isplit []int32, z []complex128, ldz int, work []float64, iwork, ifailv []int32) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _iblock *int32 if len(iblock) > 0 { _iblock = &iblock[0] } var _isplit *int32 if len(isplit) > 0 { _isplit = &isplit[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifailv *int32 if len(ifailv) > 0 { _ifailv = &ifailv[0] } return isZero(C.LAPACKE_zstein_work((C.int)(rowMajor), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.lapack_int)(m), (*C.double)(_w), (*C.lapack_int)(_iblock), (*C.lapack_int)(_isplit), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifailv))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstemr.f. func Sstemr(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, m []int32, w, z []float32, ldz, nzc int, isuppz, tryrac []int32, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _tryrac *int32 if len(tryrac) > 0 { _tryrac = &tryrac[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstemr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (C.lapack_int)(nzc), (*C.lapack_int)(_isuppz), (*C.lapack_logical)(_tryrac), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstemr.f. func Dstemr(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, m []int32, w, z []float64, ldz, nzc int, isuppz, tryrac []int32, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _tryrac *int32 if len(tryrac) > 0 { _tryrac = &tryrac[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstemr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (C.lapack_int)(nzc), (*C.lapack_int)(_isuppz), (*C.lapack_logical)(_tryrac), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cstemr.f. func Cstemr(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, m []int32, w []float32, z []complex64, ldz, nzc int, isuppz, tryrac []int32, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _tryrac *int32 if len(tryrac) > 0 { _tryrac = &tryrac[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cstemr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (*C.lapack_int)(_m), (*C.float)(_w), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (C.lapack_int)(nzc), (*C.lapack_int)(_isuppz), (*C.lapack_logical)(_tryrac), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zstemr.f. func Zstemr(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, m []int32, w []float64, z []complex128, ldz, nzc int, isuppz, tryrac []int32, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _tryrac *int32 if len(tryrac) > 0 { _tryrac = &tryrac[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zstemr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (*C.lapack_int)(_m), (*C.double)(_w), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (C.lapack_int)(nzc), (*C.lapack_int)(_isuppz), (*C.lapack_logical)(_tryrac), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssteqr.f. func Ssteqr(compz lapack.Comp, n int, d, e, z []float32, ldz int, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsteqr.f. func Dsteqr(compz lapack.Comp, n int, d, e, z []float64, ldz int, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csteqr.f. func Csteqr(compz lapack.Comp, n int, d, e []float32, z []complex64, ldz int, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsteqr.f. func Zsteqr(compz lapack.Comp, n int, d, e []float64, z []complex128, ldz int, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsteqr_work((C.int)(rowMajor), (C.char)(compz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssterf.f. func Ssterf(n int, d, e []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_ssterf_work((C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsterf.f. func Dsterf(n int, d, e []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } return isZero(C.LAPACKE_dsterf_work((C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstev.f. func Sstev(jobz lapack.Job, n int, d, e, z []float32, ldz int, work []float32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sstev_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstev.f. func Dstev(jobz lapack.Job, n int, d, e, z []float64, ldz int, work []float64) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dstev_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstevd.f. func Sstevd(jobz lapack.Job, n int, d, e, z []float32, ldz int, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstevd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstevd.f. func Dstevd(jobz lapack.Job, n int, d, e, z []float64, ldz int, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstevd_work((C.int)(rowMajor), (C.char)(jobz), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstevr.f. func Sstevr(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, isuppz []int32, work []float32, lwork int, iwork []int32, liwork int) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sstevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstevr.f. func Dstevr(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, isuppz []int32, work []float64, lwork int, iwork []int32, liwork int) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dstevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sstevx.f. func Sstevx(jobz lapack.Job, rng byte, n int, d, e []float32, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, iwork, ifail []int32) bool { var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_sstevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.float)(_d), (*C.float)(_e), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dstevx.f. func Dstevx(jobz lapack.Job, rng byte, n int, d, e []float64, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, iwork, ifail []int32) bool { var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dstevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.lapack_int)(n), (*C.double)(_d), (*C.double)(_e), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssycon.f. func Ssycon(ul blas.Uplo, n int, a []float32, lda int, ipiv []int32, anorm float32, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssycon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsycon.f. func Dsycon(ul blas.Uplo, n int, a []float64, lda int, ipiv []int32, anorm float64, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsycon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csycon.f. func Csycon(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, anorm float32, rcond []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csycon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.float)(anorm), (*C.float)(_rcond), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsycon.f. func Zsycon(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, anorm float64, rcond []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsycon_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (C.double)(anorm), (*C.double)(_rcond), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyequb.f. func Ssyequb(ul blas.Uplo, n int, a []float32, lda int, s, scond, amax, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssyequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyequb.f. func Dsyequb(ul blas.Uplo, n int, a []float64, lda int, s, scond, amax, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsyequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csyequb.f. func Csyequb(ul blas.Uplo, n int, a []complex64, lda int, s, scond, amax []float32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _scond *float32 if len(scond) > 0 { _scond = &scond[0] } var _amax *float32 if len(amax) > 0 { _amax = &amax[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csyequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_s), (*C.float)(_scond), (*C.float)(_amax), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsyequb.f. func Zsyequb(ul blas.Uplo, n int, a []complex128, lda int, s, scond, amax []float64, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _scond *float64 if len(scond) > 0 { _scond = &scond[0] } var _amax *float64 if len(amax) > 0 { _amax = &amax[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsyequb_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_s), (*C.double)(_scond), (*C.double)(_amax), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyev.f. func Ssyev(jobz lapack.Job, ul blas.Uplo, n int, a []float32, lda int, w, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssyev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_w), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyev.f. func Dsyev(jobz lapack.Job, ul blas.Uplo, n int, a []float64, lda int, w, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsyev_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_w), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyevd.f. func Ssyevd(jobz lapack.Job, ul blas.Uplo, n int, a []float32, lda int, w, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssyevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_w), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyevd.f. func Dsyevd(jobz lapack.Job, ul blas.Uplo, n int, a []float64, lda int, w, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsyevd_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_w), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyevr.f. func Ssyevr(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float32, lda int, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, isuppz []int32, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssyevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyevr.f. func Dsyevr(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float64, lda int, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, isuppz []int32, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _isuppz *int32 if len(isuppz) > 0 { _isuppz = &isuppz[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsyevr_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_isuppz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyevx.f. func Ssyevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float32, lda int, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, lwork int, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_ssyevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyevx.f. func Dsyevx(jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float64, lda int, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, lwork int, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dsyevx_work((C.int)(rowMajor), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssygst.f. func Ssygst(itype int, ul blas.Uplo, n int, a []float32, lda int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ssygst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsygst.f. func Dsygst(itype int, ul blas.Uplo, n int, a []float64, lda int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dsygst_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssygv.f. func Ssygv(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []float32, lda int, b []float32, ldb int, w, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssygv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_w), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsygv.f. func Dsygv(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []float64, lda int, b []float64, ldb int, w, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsygv_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_w), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssygvd.f. func Ssygvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []float32, lda int, b []float32, ldb int, w, work []float32, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssygvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_w), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsygvd.f. func Dsygvd(itype int, jobz lapack.Job, ul blas.Uplo, n int, a []float64, lda int, b []float64, ldb int, w, work []float64, lwork int, iwork []int32, liwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsygvd_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_w), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssygvx.f. func Ssygvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float32, lda int, b []float32, ldb int, vl, vu float32, il, iu int, abstol float32, m []int32, w, z []float32, ldz int, work []float32, lwork int, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float32 if len(w) > 0 { _w = &w[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_ssygvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (C.float)(vl), (C.float)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.float)(abstol), (*C.lapack_int)(_m), (*C.float)(_w), (*C.float)(_z), (C.lapack_int)(ldz), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsygvx.f. func Dsygvx(itype int, jobz lapack.Job, rng byte, ul blas.Uplo, n int, a []float64, lda int, b []float64, ldb int, vl, vu float64, il, iu int, abstol float64, m []int32, w, z []float64, ldz int, work []float64, lwork int, iwork, ifail []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _w *float64 if len(w) > 0 { _w = &w[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } var _ifail *int32 if len(ifail) > 0 { _ifail = &ifail[0] } return isZero(C.LAPACKE_dsygvx_work((C.int)(rowMajor), (C.lapack_int)(itype), (C.char)(jobz), (C.char)(rng), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (C.double)(vl), (C.double)(vu), (C.lapack_int)(il), (C.lapack_int)(iu), (C.double)(abstol), (*C.lapack_int)(_m), (*C.double)(_w), (*C.double)(_z), (C.lapack_int)(ldz), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (*C.lapack_int)(_ifail))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyrfs.f. func Ssyrfs(ul blas.Uplo, n, nrhs int, a []float32, lda int, af []float32, ldaf int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssyrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyrfs.f. func Dsyrfs(ul blas.Uplo, n, nrhs int, a []float64, lda int, af []float64, ldaf int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsyrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csyrfs.f. func Csyrfs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_csyrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsyrfs.f. func Zsyrfs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zsyrfs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssysv.f. func Ssysv(ul blas.Uplo, n, nrhs int, a []float32, lda int, ipiv []int32, b []float32, ldb int, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssysv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsysv.f. func Dsysv(ul blas.Uplo, n, nrhs int, a []float64, lda int, ipiv []int32, b []float64, ldb int, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsysv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csysv.f. func Csysv(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csysv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsysv.f. func Zsysv(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsysv_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssysvx.f. func Ssysvx(fact byte, ul blas.Uplo, n, nrhs int, a []float32, lda int, af []float32, ldaf int, ipiv []int32, b []float32, ldb int, x []float32, ldx int, rcond, ferr, berr, work []float32, lwork int, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _af *float32 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ssysvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsysvx.f. func Dsysvx(fact byte, ul blas.Uplo, n, nrhs int, a []float64, lda int, af []float64, ldaf int, ipiv []int32, b []float64, ldb int, x []float64, ldx int, rcond, ferr, berr, work []float64, lwork int, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _af *float64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dsysvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csysvx.f. func Csysvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex64, lda int, af []complex64, ldaf int, ipiv []int32, b []complex64, ldb int, x []complex64, ldx int, rcond, ferr, berr []float32, work []complex64, lwork int, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _af *complex64 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_csysvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_rcond), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsysvx.f. func Zsysvx(fact byte, ul blas.Uplo, n, nrhs int, a []complex128, lda int, af []complex128, ldaf int, ipiv []int32, b []complex128, ldb int, x []complex128, ldx int, rcond, ferr, berr []float64, work []complex128, lwork int, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _af *complex128 if len(af) > 0 { _af = &af[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zsysvx_work((C.int)(rowMajor), (C.char)(fact), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_af), (C.lapack_int)(ldaf), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_rcond), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytrd.f. func Ssytrd(ul blas.Uplo, n int, a []float32, lda int, d, e, tau, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_d), (*C.float)(_e), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytrd.f. func Dsytrd(ul blas.Uplo, n int, a []float64, lda int, d, e, tau, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytrd_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_d), (*C.double)(_e), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytrf.f. func Ssytrf(ul blas.Uplo, n int, a []float32, lda int, ipiv []int32, work []float32, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytrf.f. func Dsytrf(ul blas.Uplo, n int, a []float64, lda int, ipiv []int32, work []float64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytrf.f. func Csytrf(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csytrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytrf.f. func Zsytrf(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsytrf_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytri.f. func Ssytri(ul blas.Uplo, n int, a []float32, lda int, ipiv []int32, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytri.f. func Dsytri(ul blas.Uplo, n int, a []float64, lda int, ipiv []int32, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytri.f. func Csytri(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csytri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytri.f. func Zsytri(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsytri_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytrs.f. func Ssytrs(ul blas.Uplo, n, nrhs int, a []float32, lda int, ipiv []int32, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ssytrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytrs.f. func Dsytrs(ul blas.Uplo, n, nrhs int, a []float64, lda int, ipiv []int32, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dsytrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytrs.f. func Csytrs(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_csytrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytrs.f. func Zsytrs(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_zsytrs_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stbcon.f. func Stbcon(norm byte, ul blas.Uplo, d blas.Diag, n, kd int, ab []float32, ldab int, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stbcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtbcon.f. func Dtbcon(norm byte, ul blas.Uplo, d blas.Diag, n, kd int, ab []float64, ldab int, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtbcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctbcon.f. func Ctbcon(norm byte, ul blas.Uplo, d blas.Diag, n, kd int, ab []complex64, ldab int, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctbcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztbcon.f. func Ztbcon(norm byte, ul blas.Uplo, d blas.Diag, n, kd int, ab []complex128, ldab int, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztbcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stbrfs.f. func Stbrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []float32, ldab int, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtbrfs.f. func Dtbrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []float64, ldab int, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctbrfs.f. func Ctbrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []complex64, ldab int, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztbrfs.f. func Ztbrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []complex128, ldab int, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztbrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stbtrs.f. func Stbtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []float32, ldab int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float32 if len(ab) > 0 { _ab = &ab[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_stbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.float)(_ab), (C.lapack_int)(ldab), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtbtrs.f. func Dtbtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []float64, ldab int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *float64 if len(ab) > 0 { _ab = &ab[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dtbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.double)(_ab), (C.lapack_int)(ldab), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctbtrs.f. func Ctbtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []complex64, ldab int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex64 if len(ab) > 0 { _ab = &ab[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ctbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztbtrs.f. func Ztbtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, kd, nrhs int, ab []complex128, ldab int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ab *complex128 if len(ab) > 0 { _ab = &ab[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ztbtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(kd), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ab), (C.lapack_int)(ldab), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stfsm.f. func Stfsm(transr blas.Transpose, side blas.Side, ul blas.Uplo, trans blas.Transpose, d blas.Diag, m, n int, alpha float32, a, b []float32, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_stfsm_work((C.int)(rowMajor), (C.char)(transr), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (C.float)(alpha), (*C.float)(_a), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtfsm.f. func Dtfsm(transr blas.Transpose, side blas.Side, ul blas.Uplo, trans blas.Transpose, d blas.Diag, m, n int, alpha float64, a, b []float64, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dtfsm_work((C.int)(rowMajor), (C.char)(transr), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (C.double)(alpha), (*C.double)(_a), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctfsm.f. func Ctfsm(transr blas.Transpose, side blas.Side, ul blas.Uplo, trans blas.Transpose, d blas.Diag, m, n int, alpha complex64, a, b []complex64, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ctfsm_work((C.int)(rowMajor), (C.char)(transr), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_complex_float)(alpha), (*C.lapack_complex_float)(_a), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztfsm.f. func Ztfsm(transr blas.Transpose, side blas.Side, ul blas.Uplo, trans blas.Transpose, d blas.Diag, m, n int, alpha complex128, a, b []complex128, ldb int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ztfsm_work((C.int)(rowMajor), (C.char)(transr), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_complex_double)(alpha), (*C.lapack_complex_double)(_a), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stftri.f. func Stftri(transr blas.Transpose, ul blas.Uplo, d blas.Diag, n int, a []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_stftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtftri.f. func Dtftri(transr blas.Transpose, ul blas.Uplo, d blas.Diag, n int, a []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dtftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctftri.f. func Ctftri(transr blas.Transpose, ul blas.Uplo, d blas.Diag, n int, a []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ctftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_float)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztftri.f. func Ztftri(transr blas.Transpose, ul blas.Uplo, d blas.Diag, n int, a []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ztftri_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_double)(_a))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stfttp.f. func Stfttp(transr blas.Transpose, ul blas.Uplo, n int, arf, ap []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *float32 if len(arf) > 0 { _arf = &arf[0] } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_stfttp_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_arf), (*C.float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtfttp.f. func Dtfttp(transr blas.Transpose, ul blas.Uplo, n int, arf, ap []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *float64 if len(arf) > 0 { _arf = &arf[0] } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_dtfttp_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_arf), (*C.double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctfttp.f. func Ctfttp(transr blas.Transpose, ul blas.Uplo, n int, arf, ap []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *complex64 if len(arf) > 0 { _arf = &arf[0] } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ctfttp_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_arf), (*C.lapack_complex_float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztfttp.f. func Ztfttp(transr blas.Transpose, ul blas.Uplo, n int, arf, ap []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *complex128 if len(arf) > 0 { _arf = &arf[0] } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ztfttp_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_arf), (*C.lapack_complex_double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stfttr.f. func Stfttr(transr blas.Transpose, ul blas.Uplo, n int, arf, a []float32, lda int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *float32 if len(arf) > 0 { _arf = &arf[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_stfttr_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_arf), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtfttr.f. func Dtfttr(transr blas.Transpose, ul blas.Uplo, n int, arf, a []float64, lda int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *float64 if len(arf) > 0 { _arf = &arf[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dtfttr_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_arf), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctfttr.f. func Ctfttr(transr blas.Transpose, ul blas.Uplo, n int, arf, a []complex64, lda int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *complex64 if len(arf) > 0 { _arf = &arf[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ctfttr_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_arf), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztfttr.f. func Ztfttr(transr blas.Transpose, ul blas.Uplo, n int, arf, a []complex128, lda int) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _arf *complex128 if len(arf) > 0 { _arf = &arf[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ztfttr_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_arf), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgevc.f. func Stgevc(side blas.Side, howmny byte, sel []int32, n int, s []float32, lds int, p []float32, ldp int, vl []float32, ldvl int, vr []float32, ldvr, mm int, m []int32, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _p *float32 if len(p) > 0 { _p = &p[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stgevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_s), (C.lapack_int)(lds), (*C.float)(_p), (C.lapack_int)(ldp), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgevc.f. func Dtgevc(side blas.Side, howmny byte, sel []int32, n int, s []float64, lds int, p []float64, ldp int, vl []float64, ldvl int, vr []float64, ldvr, mm int, m []int32, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _p *float64 if len(p) > 0 { _p = &p[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtgevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_s), (C.lapack_int)(lds), (*C.double)(_p), (C.lapack_int)(ldp), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgevc.f. func Ctgevc(side blas.Side, howmny byte, sel []int32, n int, s []complex64, lds int, p []complex64, ldp int, vl []complex64, ldvl int, vr []complex64, ldvr, mm int, m []int32, work []complex64, rwork []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _s *complex64 if len(s) > 0 { _s = &s[0] } var _p *complex64 if len(p) > 0 { _p = &p[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctgevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_s), (C.lapack_int)(lds), (*C.lapack_complex_float)(_p), (C.lapack_int)(ldp), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgevc.f. func Ztgevc(side blas.Side, howmny byte, sel []int32, n int, s []complex128, lds int, p []complex128, ldp int, vl []complex128, ldvl int, vr []complex128, ldvr, mm int, m []int32, work []complex128, rwork []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _s *complex128 if len(s) > 0 { _s = &s[0] } var _p *complex128 if len(p) > 0 { _p = &p[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztgevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_s), (C.lapack_int)(lds), (*C.lapack_complex_double)(_p), (C.lapack_int)(ldp), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgexc.f. func Stgexc(wantq, wantz int32, n int, a []float32, lda int, b []float32, ldb int, q []float32, ldq int, z []float32, ldz int, ifst, ilst []int32, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _ifst *int32 if len(ifst) > 0 { _ifst = &ifst[0] } var _ilst *int32 if len(ilst) > 0 { _ilst = &ilst[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stgexc_work((C.int)(rowMajor), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_ifst), (*C.lapack_int)(_ilst), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgexc.f. func Dtgexc(wantq, wantz int32, n int, a []float64, lda int, b []float64, ldb int, q []float64, ldq int, z []float64, ldz int, ifst, ilst []int32, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _ifst *int32 if len(ifst) > 0 { _ifst = &ifst[0] } var _ilst *int32 if len(ilst) > 0 { _ilst = &ilst[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtgexc_work((C.int)(rowMajor), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_ifst), (*C.lapack_int)(_ilst), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgexc.f. func Ctgexc(wantq, wantz int32, n int, a []complex64, lda int, b []complex64, ldb int, q []complex64, ldq int, z []complex64, ldz, ifst, ilst int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_ctgexc_work((C.int)(rowMajor), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (C.lapack_int)(ifst), (C.lapack_int)(ilst))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgexc.f. func Ztgexc(wantq, wantz int32, n int, a []complex128, lda int, b []complex128, ldb int, q []complex128, ldq int, z []complex128, ldz, ifst, ilst int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } return isZero(C.LAPACKE_ztgexc_work((C.int)(rowMajor), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (C.lapack_int)(ifst), (C.lapack_int)(ilst))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgsen.f. func Stgsen(ijob lapack.Job, wantq, wantz int32, sel []int32, n int, a []float32, lda int, b []float32, ldb int, alphar, alphai, beta, q []float32, ldq int, z []float32, ldz int, m []int32, pl, pr, dif, work []float32, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alphar *float32 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float32 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _z *float32 if len(z) > 0 { _z = &z[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _pl *float32 if len(pl) > 0 { _pl = &pl[0] } var _pr *float32 if len(pr) > 0 { _pr = &pr[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stgsen_work((C.int)(rowMajor), (C.lapack_int)(ijob), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_alphar), (*C.float)(_alphai), (*C.float)(_beta), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_m), (*C.float)(_pl), (*C.float)(_pr), (*C.float)(_dif), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgsen.f. func Dtgsen(ijob lapack.Job, wantq, wantz int32, sel []int32, n int, a []float64, lda int, b []float64, ldb int, alphar, alphai, beta, q []float64, ldq int, z []float64, ldz int, m []int32, pl, pr, dif, work []float64, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alphar *float64 if len(alphar) > 0 { _alphar = &alphar[0] } var _alphai *float64 if len(alphai) > 0 { _alphai = &alphai[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _z *float64 if len(z) > 0 { _z = &z[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _pl *float64 if len(pl) > 0 { _pl = &pl[0] } var _pr *float64 if len(pr) > 0 { _pr = &pr[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtgsen_work((C.int)(rowMajor), (C.lapack_int)(ijob), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_alphar), (*C.double)(_alphai), (*C.double)(_beta), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_m), (*C.double)(_pl), (*C.double)(_pr), (*C.double)(_dif), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgsen.f. func Ctgsen(ijob lapack.Job, wantq, wantz int32, sel []int32, n int, a []complex64, lda int, b []complex64, ldb int, alpha, beta, q []complex64, ldq int, z []complex64, ldz int, m []int32, pl, pr, dif []float32, work []complex64, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *complex64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex64 if len(beta) > 0 { _beta = &beta[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _z *complex64 if len(z) > 0 { _z = &z[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _pl *float32 if len(pl) > 0 { _pl = &pl[0] } var _pr *float32 if len(pr) > 0 { _pr = &pr[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ctgsen_work((C.int)(rowMajor), (C.lapack_int)(ijob), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_alpha), (*C.lapack_complex_float)(_beta), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_m), (*C.float)(_pl), (*C.float)(_pr), (*C.float)(_dif), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgsen.f. func Ztgsen(ijob lapack.Job, wantq, wantz int32, sel []int32, n int, a []complex128, lda int, b []complex128, ldb int, alpha, beta, q []complex128, ldq int, z []complex128, ldz int, m []int32, pl, pr, dif []float64, work []complex128, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *complex128 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *complex128 if len(beta) > 0 { _beta = &beta[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _z *complex128 if len(z) > 0 { _z = &z[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _pl *float64 if len(pl) > 0 { _pl = &pl[0] } var _pr *float64 if len(pr) > 0 { _pr = &pr[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ztgsen_work((C.int)(rowMajor), (C.lapack_int)(ijob), (C.lapack_logical)(wantq), (C.lapack_logical)(wantz), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_alpha), (*C.lapack_complex_double)(_beta), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_z), (C.lapack_int)(ldz), (*C.lapack_int)(_m), (*C.double)(_pl), (*C.double)(_pr), (*C.double)(_dif), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgsja.f. func Stgsja(jobu, jobv, jobq lapack.Job, m, p, n, k, l int, a []float32, lda int, b []float32, ldb int, tola, tolb float32, alpha, beta, u []float32, ldu int, v []float32, ldv int, q []float32, ldq int, work []float32, ncycle []int32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _alpha *float32 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _u *float32 if len(u) > 0 { _u = &u[0] } var _v *float32 if len(v) > 0 { _v = &v[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _ncycle *int32 if len(ncycle) > 0 { _ncycle = &ncycle[0] } return isZero(C.LAPACKE_stgsja_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (C.float)(tola), (C.float)(tolb), (*C.float)(_alpha), (*C.float)(_beta), (*C.float)(_u), (C.lapack_int)(ldu), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_work), (*C.lapack_int)(_ncycle))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgsja.f. func Dtgsja(jobu, jobv, jobq lapack.Job, m, p, n, k, l int, a []float64, lda int, b []float64, ldb int, tola, tolb float64, alpha, beta, u []float64, ldu int, v []float64, ldv int, q []float64, ldq int, work []float64, ncycle []int32) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _alpha *float64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _u *float64 if len(u) > 0 { _u = &u[0] } var _v *float64 if len(v) > 0 { _v = &v[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _ncycle *int32 if len(ncycle) > 0 { _ncycle = &ncycle[0] } return isZero(C.LAPACKE_dtgsja_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (C.double)(tola), (C.double)(tolb), (*C.double)(_alpha), (*C.double)(_beta), (*C.double)(_u), (C.lapack_int)(ldu), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_work), (*C.lapack_int)(_ncycle))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgsja.f. func Ctgsja(jobu, jobv, jobq lapack.Job, m, p, n, k, l int, a []complex64, lda int, b []complex64, ldb int, tola, tolb float32, alpha, beta []float32, u []complex64, ldu int, v []complex64, ldv int, q []complex64, ldq int, work []complex64, ncycle []int32) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _alpha *float32 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float32 if len(beta) > 0 { _beta = &beta[0] } var _u *complex64 if len(u) > 0 { _u = &u[0] } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _ncycle *int32 if len(ncycle) > 0 { _ncycle = &ncycle[0] } return isZero(C.LAPACKE_ctgsja_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (C.float)(tola), (C.float)(tolb), (*C.float)(_alpha), (*C.float)(_beta), (*C.lapack_complex_float)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_work), (*C.lapack_int)(_ncycle))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgsja.f. func Ztgsja(jobu, jobv, jobq lapack.Job, m, p, n, k, l int, a []complex128, lda int, b []complex128, ldb int, tola, tolb float64, alpha, beta []float64, u []complex128, ldu int, v []complex128, ldv int, q []complex128, ldq int, work []complex128, ncycle []int32) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _alpha *float64 if len(alpha) > 0 { _alpha = &alpha[0] } var _beta *float64 if len(beta) > 0 { _beta = &beta[0] } var _u *complex128 if len(u) > 0 { _u = &u[0] } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _ncycle *int32 if len(ncycle) > 0 { _ncycle = &ncycle[0] } return isZero(C.LAPACKE_ztgsja_work((C.int)(rowMajor), (C.char)(jobu), (C.char)(jobv), (C.char)(jobq), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (C.double)(tola), (C.double)(tolb), (*C.double)(_alpha), (*C.double)(_beta), (*C.lapack_complex_double)(_u), (C.lapack_int)(ldu), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_work), (*C.lapack_int)(_ncycle))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgsna.f. func Stgsna(job lapack.Job, howmny byte, sel []int32, n int, a []float32, lda int, b []float32, ldb int, vl []float32, ldvl int, vr []float32, ldvr int, s, dif []float32, mm int, m []int32, work []float32, lwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stgsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_s), (*C.float)(_dif), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgsna.f. func Dtgsna(job lapack.Job, howmny byte, sel []int32, n int, a []float64, lda int, b []float64, ldb int, vl []float64, ldvl int, vr []float64, ldvr int, s, dif []float64, mm int, m []int32, work []float64, lwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtgsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_s), (*C.double)(_dif), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgsna.f. func Ctgsna(job lapack.Job, howmny byte, sel []int32, n int, a []complex64, lda int, b []complex64, ldb int, vl []complex64, ldvl int, vr []complex64, ldvr int, s, dif []float32, mm int, m []int32, work []complex64, lwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ctgsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_s), (*C.float)(_dif), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgsna.f. func Ztgsna(job lapack.Job, howmny byte, sel []int32, n int, a []complex128, lda int, b []complex128, ldb int, vl []complex128, ldvl int, vr []complex128, ldvr int, s, dif []float64, mm int, m []int32, work []complex128, lwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ztgsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_s), (*C.double)(_dif), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stgsyl.f. func Stgsyl(trans blas.Transpose, ijob lapack.Job, m, n int, a []float32, lda int, b []float32, ldb int, c []float32, ldc int, d []float32, ldd int, e []float32, lde int, f []float32, ldf int, scale, dif, work []float32, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _d *float32 if len(d) > 0 { _d = &d[0] } var _e *float32 if len(e) > 0 { _e = &e[0] } var _f *float32 if len(f) > 0 { _f = &f[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stgsyl_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(ijob), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_d), (C.lapack_int)(ldd), (*C.float)(_e), (C.lapack_int)(lde), (*C.float)(_f), (C.lapack_int)(ldf), (*C.float)(_scale), (*C.float)(_dif), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtgsyl.f. func Dtgsyl(trans blas.Transpose, ijob lapack.Job, m, n int, a []float64, lda int, b []float64, ldb int, c []float64, ldc int, d []float64, ldd int, e []float64, lde int, f []float64, ldf int, scale, dif, work []float64, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _d *float64 if len(d) > 0 { _d = &d[0] } var _e *float64 if len(e) > 0 { _e = &e[0] } var _f *float64 if len(f) > 0 { _f = &f[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtgsyl_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(ijob), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_d), (C.lapack_int)(ldd), (*C.double)(_e), (C.lapack_int)(lde), (*C.double)(_f), (C.lapack_int)(ldf), (*C.double)(_scale), (*C.double)(_dif), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctgsyl.f. func Ctgsyl(trans blas.Transpose, ijob lapack.Job, m, n int, a []complex64, lda int, b []complex64, ldb int, c []complex64, ldc int, d []complex64, ldd int, e []complex64, lde int, f []complex64, ldf int, scale, dif []float32, work []complex64, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _d *complex64 if len(d) > 0 { _d = &d[0] } var _e *complex64 if len(e) > 0 { _e = &e[0] } var _f *complex64 if len(f) > 0 { _f = &f[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } var _dif *float32 if len(dif) > 0 { _dif = &dif[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ctgsyl_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(ijob), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_d), (C.lapack_int)(ldd), (*C.lapack_complex_float)(_e), (C.lapack_int)(lde), (*C.lapack_complex_float)(_f), (C.lapack_int)(ldf), (*C.float)(_scale), (*C.float)(_dif), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztgsyl.f. func Ztgsyl(trans blas.Transpose, ijob lapack.Job, m, n int, a []complex128, lda int, b []complex128, ldb int, c []complex128, ldc int, d []complex128, ldd int, e []complex128, lde int, f []complex128, ldf int, scale, dif []float64, work []complex128, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _d *complex128 if len(d) > 0 { _d = &d[0] } var _e *complex128 if len(e) > 0 { _e = &e[0] } var _f *complex128 if len(f) > 0 { _f = &f[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } var _dif *float64 if len(dif) > 0 { _dif = &dif[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_ztgsyl_work((C.int)(rowMajor), (C.char)(trans), (C.lapack_int)(ijob), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_d), (C.lapack_int)(ldd), (*C.lapack_complex_double)(_e), (C.lapack_int)(lde), (*C.lapack_complex_double)(_f), (C.lapack_int)(ldf), (*C.double)(_scale), (*C.double)(_dif), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpcon.f. func Stpcon(norm byte, ul blas.Uplo, d blas.Diag, n int, ap, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stpcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpcon.f. func Dtpcon(norm byte, ul blas.Uplo, d blas.Diag, n int, ap, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtpcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpcon.f. func Ctpcon(norm byte, ul blas.Uplo, d blas.Diag, n int, ap []complex64, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctpcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpcon.f. func Ztpcon(norm byte, ul blas.Uplo, d blas.Diag, n int, ap []complex128, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztpcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stprfs.f. func Stprfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_stprfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtprfs.f. func Dtprfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtprfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctprfs.f. func Ctprfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctprfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztprfs.f. func Ztprfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztprfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stptri.f. func Stptri(ul blas.Uplo, d blas.Diag, n int, ap []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_stptri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtptri.f. func Dtptri(ul blas.Uplo, d blas.Diag, n int, ap []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_dtptri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctptri.f. func Ctptri(ul blas.Uplo, d blas.Diag, n int, ap []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ctptri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztptri.f. func Ztptri(ul blas.Uplo, d blas.Diag, n int, ap []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ztptri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stptrs.f. func Stptrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_stptrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_ap), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtptrs.f. func Dtptrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dtptrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_ap), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctptrs.f. func Ctptrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ctptrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztptrs.f. func Ztptrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, ap, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ztptrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpttf.f. func Stpttf(transr blas.Transpose, ul blas.Uplo, n int, ap, arf []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _arf *float32 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_stpttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpttf.f. func Dtpttf(transr blas.Transpose, ul blas.Uplo, n int, ap, arf []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _arf *float64 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_dtpttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpttf.f. func Ctpttf(transr blas.Transpose, ul blas.Uplo, n int, ap, arf []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _arf *complex64 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_ctpttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpttf.f. func Ztpttf(transr blas.Transpose, ul blas.Uplo, n int, ap, arf []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _arf *complex128 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_ztpttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpttr.f. func Stpttr(ul blas.Uplo, n int, ap, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_stpttr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_ap), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpttr.f. func Dtpttr(ul blas.Uplo, n int, ap, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dtpttr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_ap), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpttr.f. func Ctpttr(ul blas.Uplo, n int, ap, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ctpttr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpttr.f. func Ztpttr(ul blas.Uplo, n int, ap, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ztpttr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strcon.f. func Strcon(norm byte, ul blas.Uplo, d blas.Diag, n int, a []float32, lda int, rcond, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_strcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_rcond), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrcon.f. func Dtrcon(norm byte, ul blas.Uplo, d blas.Diag, n int, a []float64, lda int, rcond, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtrcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_rcond), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrcon.f. func Ctrcon(norm byte, ul blas.Uplo, d blas.Diag, n int, a []complex64, lda int, rcond []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _rcond *float32 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctrcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.float)(_rcond), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrcon.f. func Ztrcon(norm byte, ul blas.Uplo, d blas.Diag, n int, a []complex128, lda int, rcond []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _rcond *float64 if len(rcond) > 0 { _rcond = &rcond[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztrcon_work((C.int)(rowMajor), (C.char)(norm), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.double)(_rcond), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strevc.f. func Strevc(side blas.Side, howmny byte, sel []int32, n int, t []float32, ldt int, vl []float32, ldvl int, vr []float32, ldvr, mm int, m []int32, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_strevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrevc.f. func Dtrevc(side blas.Side, howmny byte, sel []int32, n int, t []float64, ldt int, vl []float64, ldvl int, vr []float64, ldvr, mm int, m []int32, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtrevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrevc.f. func Ctrevc(side blas.Side, howmny byte, sel []int32, n int, t []complex64, ldt int, vl []complex64, ldvl int, vr []complex64, ldvr, mm int, m []int32, work []complex64, rwork []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctrevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrevc.f. func Ztrevc(side blas.Side, howmny byte, sel []int32, n int, t []complex128, ldt int, vl []complex128, ldvl int, vr []complex128, ldvr, mm int, m []int32, work []complex128, rwork []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztrevc_work((C.int)(rowMajor), (C.char)(side), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strexc.f. func Strexc(compq lapack.Comp, n int, t []float32, ldt int, q []float32, ldq int, ifst, ilst []int32, work []float32) bool { var _t *float32 if len(t) > 0 { _t = &t[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _ifst *int32 if len(ifst) > 0 { _ifst = &ifst[0] } var _ilst *int32 if len(ilst) > 0 { _ilst = &ilst[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_strexc_work((C.int)(rowMajor), (C.char)(compq), (C.lapack_int)(n), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_ifst), (*C.lapack_int)(_ilst), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrexc.f. func Dtrexc(compq lapack.Comp, n int, t []float64, ldt int, q []float64, ldq int, ifst, ilst []int32, work []float64) bool { var _t *float64 if len(t) > 0 { _t = &t[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _ifst *int32 if len(ifst) > 0 { _ifst = &ifst[0] } var _ilst *int32 if len(ilst) > 0 { _ilst = &ilst[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtrexc_work((C.int)(rowMajor), (C.char)(compq), (C.lapack_int)(n), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_q), (C.lapack_int)(ldq), (*C.lapack_int)(_ifst), (*C.lapack_int)(_ilst), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrexc.f. func Ctrexc(compq lapack.Comp, n int, t []complex64, ldt int, q []complex64, ldq, ifst, ilst int) bool { var _t *complex64 if len(t) > 0 { _t = &t[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } return isZero(C.LAPACKE_ctrexc_work((C.int)(rowMajor), (C.char)(compq), (C.lapack_int)(n), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (C.lapack_int)(ifst), (C.lapack_int)(ilst))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrexc.f. func Ztrexc(compq lapack.Comp, n int, t []complex128, ldt int, q []complex128, ldq, ifst, ilst int) bool { var _t *complex128 if len(t) > 0 { _t = &t[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } return isZero(C.LAPACKE_ztrexc_work((C.int)(rowMajor), (C.char)(compq), (C.lapack_int)(n), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (C.lapack_int)(ifst), (C.lapack_int)(ilst))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strrfs.f. func Strrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []float32, lda int, b []float32, ldb int, x []float32, ldx int, ferr, berr, work []float32, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _x *float32 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_strrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.float)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrrfs.f. func Dtrrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []float64, lda int, b []float64, ldb int, x []float64, ldx int, ferr, berr, work []float64, iwork []int32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _x *float64 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtrrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.double)(_work), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrrfs.f. func Ctrrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []complex64, lda int, b []complex64, ldb int, x []complex64, ldx int, ferr, berr []float32, work []complex64, rwork []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _ferr *float32 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float32 if len(berr) > 0 { _berr = &berr[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctrrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_x), (C.lapack_int)(ldx), (*C.float)(_ferr), (*C.float)(_berr), (*C.lapack_complex_float)(_work), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrrfs.f. func Ztrrfs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []complex128, lda int, b []complex128, ldb int, x []complex128, ldx int, ferr, berr []float64, work []complex128, rwork []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _ferr *float64 if len(ferr) > 0 { _ferr = &ferr[0] } var _berr *float64 if len(berr) > 0 { _berr = &berr[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztrrfs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_x), (C.lapack_int)(ldx), (*C.double)(_ferr), (*C.double)(_berr), (*C.lapack_complex_double)(_work), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strsen.f. func Strsen(job lapack.Job, compq lapack.Comp, sel []int32, n int, t []float32, ldt int, q []float32, ldq int, wr, wi []float32, m []int32, s, sep, work []float32, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _q *float32 if len(q) > 0 { _q = &q[0] } var _wr *float32 if len(wr) > 0 { _wr = &wr[0] } var _wi *float32 if len(wi) > 0 { _wi = &wi[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _sep *float32 if len(sep) > 0 { _sep = &sep[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_strsen_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_q), (C.lapack_int)(ldq), (*C.float)(_wr), (*C.float)(_wi), (*C.lapack_int)(_m), (*C.float)(_s), (*C.float)(_sep), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrsen.f. func Dtrsen(job lapack.Job, compq lapack.Comp, sel []int32, n int, t []float64, ldt int, q []float64, ldq int, wr, wi []float64, m []int32, s, sep, work []float64, lwork int, iwork []int32, liwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _q *float64 if len(q) > 0 { _q = &q[0] } var _wr *float64 if len(wr) > 0 { _wr = &wr[0] } var _wi *float64 if len(wi) > 0 { _wi = &wi[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _sep *float64 if len(sep) > 0 { _sep = &sep[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtrsen_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_q), (C.lapack_int)(ldq), (*C.double)(_wr), (*C.double)(_wi), (*C.lapack_int)(_m), (*C.double)(_s), (*C.double)(_sep), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork), (C.lapack_int)(liwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrsen.f. func Ctrsen(job lapack.Job, compq lapack.Comp, sel []int32, n int, t []complex64, ldt int, q []complex64, ldq int, w []complex64, m []int32, s, sep []float32, work []complex64, lwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _w *complex64 if len(w) > 0 { _w = &w[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _sep *float32 if len(sep) > 0 { _sep = &sep[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ctrsen_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_w), (*C.lapack_int)(_m), (*C.float)(_s), (*C.float)(_sep), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrsen.f. func Ztrsen(job lapack.Job, compq lapack.Comp, sel []int32, n int, t []complex128, ldt int, q []complex128, ldq int, w []complex128, m []int32, s, sep []float64, work []complex128, lwork int) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _w *complex128 if len(w) > 0 { _w = &w[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _sep *float64 if len(sep) > 0 { _sep = &sep[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ztrsen_work((C.int)(rowMajor), (C.char)(job), (C.char)(compq), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_w), (*C.lapack_int)(_m), (*C.double)(_s), (*C.double)(_sep), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strsna.f. func Strsna(job lapack.Job, howmny byte, sel []int32, n int, t []float32, ldt int, vl []float32, ldvl int, vr []float32, ldvr int, s, sep []float32, mm int, m []int32, work []float32, ldwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _vl *float32 if len(vl) > 0 { _vl = &vl[0] } var _vr *float32 if len(vr) > 0 { _vr = &vr[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _sep *float32 if len(sep) > 0 { _sep = &sep[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_strsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_vl), (C.lapack_int)(ldvl), (*C.float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_s), (*C.float)(_sep), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.float)(_work), (C.lapack_int)(ldwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrsna.f. func Dtrsna(job lapack.Job, howmny byte, sel []int32, n int, t []float64, ldt int, vl []float64, ldvl int, vr []float64, ldvr int, s, sep []float64, mm int, m []int32, work []float64, ldwork int, iwork []int32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _vl *float64 if len(vl) > 0 { _vl = &vl[0] } var _vr *float64 if len(vr) > 0 { _vr = &vr[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _sep *float64 if len(sep) > 0 { _sep = &sep[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dtrsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_vl), (C.lapack_int)(ldvl), (*C.double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_s), (*C.double)(_sep), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.double)(_work), (C.lapack_int)(ldwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrsna.f. func Ctrsna(job lapack.Job, howmny byte, sel []int32, n int, t []complex64, ldt int, vl []complex64, ldvl int, vr []complex64, ldvr int, s, sep []float32, mm int, m []int32, work []complex64, ldwork int, rwork []float32) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _vl *complex64 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex64 if len(vr) > 0 { _vr = &vr[0] } var _s *float32 if len(s) > 0 { _s = &s[0] } var _sep *float32 if len(sep) > 0 { _sep = &sep[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ctrsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_float)(_vr), (C.lapack_int)(ldvr), (*C.float)(_s), (*C.float)(_sep), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_float)(_work), (C.lapack_int)(ldwork), (*C.float)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrsna.f. func Ztrsna(job lapack.Job, howmny byte, sel []int32, n int, t []complex128, ldt int, vl []complex128, ldvl int, vr []complex128, ldvr int, s, sep []float64, mm int, m []int32, work []complex128, ldwork int, rwork []float64) bool { var _sel *int32 if len(sel) > 0 { _sel = &sel[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _vl *complex128 if len(vl) > 0 { _vl = &vl[0] } var _vr *complex128 if len(vr) > 0 { _vr = &vr[0] } var _s *float64 if len(s) > 0 { _s = &s[0] } var _sep *float64 if len(sep) > 0 { _sep = &sep[0] } var _m *int32 if len(m) > 0 { _m = &m[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_ztrsna_work((C.int)(rowMajor), (C.char)(job), (C.char)(howmny), (*C.lapack_int)(_sel), (C.lapack_int)(n), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_vl), (C.lapack_int)(ldvl), (*C.lapack_complex_double)(_vr), (C.lapack_int)(ldvr), (*C.double)(_s), (*C.double)(_sep), (C.lapack_int)(mm), (*C.lapack_int)(_m), (*C.lapack_complex_double)(_work), (C.lapack_int)(ldwork), (*C.double)(_rwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strsyl.f. func Strsyl(trana, tranb blas.Transpose, isgn, m, n int, a []float32, lda int, b []float32, ldb int, c []float32, ldc int, scale []float32) bool { switch trana { case blas.NoTrans: trana = 'N' case blas.Trans: trana = 'T' case blas.ConjTrans: trana = 'C' default: panic("lapack: bad trans") } switch tranb { case blas.NoTrans: tranb = 'N' case blas.Trans: tranb = 'T' case blas.ConjTrans: tranb = 'C' default: panic("lapack: bad trans") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_strsyl_work((C.int)(rowMajor), (C.char)(trana), (C.char)(tranb), (C.lapack_int)(isgn), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_scale))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrsyl.f. func Dtrsyl(trana, tranb blas.Transpose, isgn, m, n int, a []float64, lda int, b []float64, ldb int, c []float64, ldc int, scale []float64) bool { switch trana { case blas.NoTrans: trana = 'N' case blas.Trans: trana = 'T' case blas.ConjTrans: trana = 'C' default: panic("lapack: bad trans") } switch tranb { case blas.NoTrans: tranb = 'N' case blas.Trans: tranb = 'T' case blas.ConjTrans: tranb = 'C' default: panic("lapack: bad trans") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_dtrsyl_work((C.int)(rowMajor), (C.char)(trana), (C.char)(tranb), (C.lapack_int)(isgn), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_scale))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrsyl.f. func Ctrsyl(trana, tranb blas.Transpose, isgn, m, n int, a []complex64, lda int, b []complex64, ldb int, c []complex64, ldc int, scale []float32) bool { switch trana { case blas.NoTrans: trana = 'N' case blas.Trans: trana = 'T' case blas.ConjTrans: trana = 'C' default: panic("lapack: bad trans") } switch tranb { case blas.NoTrans: tranb = 'N' case blas.Trans: tranb = 'T' case blas.ConjTrans: tranb = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _scale *float32 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_ctrsyl_work((C.int)(rowMajor), (C.char)(trana), (C.char)(tranb), (C.lapack_int)(isgn), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.float)(_scale))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrsyl.f. func Ztrsyl(trana, tranb blas.Transpose, isgn, m, n int, a []complex128, lda int, b []complex128, ldb int, c []complex128, ldc int, scale []float64) bool { switch trana { case blas.NoTrans: trana = 'N' case blas.Trans: trana = 'T' case blas.ConjTrans: trana = 'C' default: panic("lapack: bad trans") } switch tranb { case blas.NoTrans: tranb = 'N' case blas.Trans: tranb = 'T' case blas.ConjTrans: tranb = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _scale *float64 if len(scale) > 0 { _scale = &scale[0] } return isZero(C.LAPACKE_ztrsyl_work((C.int)(rowMajor), (C.char)(trana), (C.char)(tranb), (C.lapack_int)(isgn), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.double)(_scale))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strtri.f. func Strtri(ul blas.Uplo, d blas.Diag, n int, a []float32, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_strtri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrtri.f. func Dtrtri(ul blas.Uplo, d blas.Diag, n int, a []float64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dtrtri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrtri.f. func Ctrtri(ul blas.Uplo, d blas.Diag, n int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ctrtri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrtri.f. func Ztrtri(ul blas.Uplo, d blas.Diag, n int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ztrtri_work((C.int)(rowMajor), (C.char)(ul), (C.char)(d), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strtrs.f. func Strtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []float32, lda int, b []float32, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_strtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrtrs.f. func Dtrtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []float64, lda int, b []float64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_dtrtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrtrs.f. func Ctrtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []complex64, lda int, b []complex64, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ctrtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrtrs.f. func Ztrtrs(ul blas.Uplo, trans blas.Transpose, d blas.Diag, n, nrhs int, a []complex128, lda int, b []complex128, ldb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } switch d { case blas.Unit: d = 'U' case blas.NonUnit: d = 'N' default: panic("lapack: illegal diagonal") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } return isZero(C.LAPACKE_ztrtrs_work((C.int)(rowMajor), (C.char)(ul), (C.char)(trans), (C.char)(d), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strttf.f. func Strttf(transr blas.Transpose, ul blas.Uplo, n int, a []float32, lda int, arf []float32) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _arf *float32 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_strttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrttf.f. func Dtrttf(transr blas.Transpose, ul blas.Uplo, n int, a []float64, lda int, arf []float64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _arf *float64 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_dtrttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrttf.f. func Ctrttf(transr blas.Transpose, ul blas.Uplo, n int, a []complex64, lda int, arf []complex64) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _arf *complex64 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_ctrttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrttf.f. func Ztrttf(transr blas.Transpose, ul blas.Uplo, n int, a []complex128, lda int, arf []complex128) bool { switch transr { case blas.NoTrans: transr = 'N' case blas.Trans: transr = 'T' case blas.ConjTrans: transr = 'C' default: panic("lapack: bad trans") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _arf *complex128 if len(arf) > 0 { _arf = &arf[0] } return isZero(C.LAPACKE_ztrttf_work((C.int)(rowMajor), (C.char)(transr), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_arf))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/strttp.f. func Strttp(ul blas.Uplo, n int, a []float32, lda int, ap []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ap *float32 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_strttp_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtrttp.f. func Dtrttp(ul blas.Uplo, n int, a []float64, lda int, ap []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ap *float64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_dtrttp_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctrttp.f. func Ctrttp(ul blas.Uplo, n int, a []complex64, lda int, ap []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ctrttp_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztrttp.f. func Ztrttp(ul blas.Uplo, n int, a []complex128, lda int, ap []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } return isZero(C.LAPACKE_ztrttp_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_ap))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stzrzf.f. func Stzrzf(m, n int, a []float32, lda int, tau, work []float32, lwork int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _tau *float32 if len(tau) > 0 { _tau = &tau[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stzrzf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_tau), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtzrzf.f. func Dtzrzf(m, n int, a []float64, lda int, tau, work []float64, lwork int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _tau *float64 if len(tau) > 0 { _tau = &tau[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtzrzf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_tau), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctzrzf.f. func Ctzrzf(m, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ctzrzf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztzrzf.f. func Ztzrzf(m, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ztzrzf_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cungbr.f. func Cungbr(vect byte, m, n, k int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cungbr_work((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zungbr.f. func Zungbr(vect byte, m, n, k int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zungbr_work((C.int)(rowMajor), (C.char)(vect), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunghr.f. func Cunghr(n, ilo, ihi int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunghr_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunghr.f. func Zunghr(n, ilo, ihi int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunghr_work((C.int)(rowMajor), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunglq.f. func Cunglq(m, n, k int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunglq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunglq.f. func Zunglq(m, n, k int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunglq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cungql.f. func Cungql(m, n, k int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cungql_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zungql.f. func Zungql(m, n, k int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zungql_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cungqr.f. func Cungqr(m, n, k int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cungqr_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zungqr.f. func Zungqr(m, n, k int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zungqr_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cungrq.f. func Cungrq(m, n, k int, a []complex64, lda int, tau, work []complex64, lwork int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cungrq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zungrq.f. func Zungrq(m, n, k int, a []complex128, lda int, tau, work []complex128, lwork int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zungrq_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cungtr.f. func Cungtr(ul blas.Uplo, n int, a []complex64, lda int, tau, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cungtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zungtr.f. func Zungtr(ul blas.Uplo, n int, a []complex128, lda int, tau, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zungtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmbr.f. func Cunmbr(vect byte, side blas.Side, trans blas.Transpose, m, n, k int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmbr_work((C.int)(rowMajor), (C.char)(vect), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmbr.f. func Zunmbr(vect byte, side blas.Side, trans blas.Transpose, m, n, k int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmbr_work((C.int)(rowMajor), (C.char)(vect), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmhr.f. func Cunmhr(side blas.Side, trans blas.Transpose, m, n, ilo, ihi int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmhr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmhr.f. func Zunmhr(side blas.Side, trans blas.Transpose, m, n, ilo, ihi int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmhr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(ilo), (C.lapack_int)(ihi), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmlq.f. func Cunmlq(side blas.Side, trans blas.Transpose, m, n, k int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmlq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmlq.f. func Zunmlq(side blas.Side, trans blas.Transpose, m, n, k int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmlq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmql.f. func Cunmql(side blas.Side, trans blas.Transpose, m, n, k int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmql_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmql.f. func Zunmql(side blas.Side, trans blas.Transpose, m, n, k int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmql_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmqr.f. func Cunmqr(side blas.Side, trans blas.Transpose, m, n, k int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmqr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmqr.f. func Zunmqr(side blas.Side, trans blas.Transpose, m, n, k int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmqr_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmrq.f. func Cunmrq(side blas.Side, trans blas.Transpose, m, n, k int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmrq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmrq.f. func Zunmrq(side blas.Side, trans blas.Transpose, m, n, k int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmrq_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmrz.f. func Cunmrz(side blas.Side, trans blas.Transpose, m, n, k, l int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmrz_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmrz.f. func Zunmrz(side blas.Side, trans blas.Transpose, m, n, k, l int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmrz_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunmtr.f. func Cunmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, a []complex64, lda int, tau, c []complex64, ldc int, work []complex64, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunmtr.f. func Zunmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, a []complex128, lda int, tau, c []complex128, ldc int, work []complex128, lwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cupgtr.f. func Cupgtr(ul blas.Uplo, n int, ap, tau, q []complex64, ldq int, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _q *complex64 if len(q) > 0 { _q = &q[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cupgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zupgtr.f. func Zupgtr(ul blas.Uplo, n int, ap, tau, q []complex128, ldq int, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _q *complex128 if len(q) > 0 { _q = &q[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zupgtr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_q), (C.lapack_int)(ldq), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cupmtr.f. func Cupmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, ap, tau, c []complex64, ldc int, work []complex64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ap *complex64 if len(ap) > 0 { _ap = &ap[0] } var _tau *complex64 if len(tau) > 0 { _tau = &tau[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cupmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_ap), (*C.lapack_complex_float)(_tau), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zupmtr.f. func Zupmtr(side blas.Side, ul blas.Uplo, trans blas.Transpose, m, n int, ap, tau, c []complex128, ldc int, work []complex128) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _ap *complex128 if len(ap) > 0 { _ap = &ap[0] } var _tau *complex128 if len(tau) > 0 { _tau = &tau[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zupmtr_work((C.int)(rowMajor), (C.char)(side), (C.char)(ul), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_ap), (*C.lapack_complex_double)(_tau), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cbbcsd.f. func Cbbcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, m, p, q int, theta, phi []float32, u1 []complex64, ldu1 int, u2 []complex64, ldu2 int, v1t []complex64, ldv1t int, v2t []complex64, ldv2t int, b11d, b11e, b12d, b12e, b21d, b21e, b22d, b22e, rwork []float32, lrwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _phi *float32 if len(phi) > 0 { _phi = &phi[0] } var _u1 *complex64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex64 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *complex64 if len(v2t) > 0 { _v2t = &v2t[0] } var _b11d *float32 if len(b11d) > 0 { _b11d = &b11d[0] } var _b11e *float32 if len(b11e) > 0 { _b11e = &b11e[0] } var _b12d *float32 if len(b12d) > 0 { _b12d = &b12d[0] } var _b12e *float32 if len(b12e) > 0 { _b12e = &b12e[0] } var _b21d *float32 if len(b21d) > 0 { _b21d = &b21d[0] } var _b21e *float32 if len(b21e) > 0 { _b21e = &b21e[0] } var _b22d *float32 if len(b22d) > 0 { _b22d = &b22d[0] } var _b22e *float32 if len(b22e) > 0 { _b22e = &b22e[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_cbbcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.float)(_theta), (*C.float)(_phi), (*C.lapack_complex_float)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_float)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_float)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_float)(_v2t), (C.lapack_int)(ldv2t), (*C.float)(_b11d), (*C.float)(_b11e), (*C.float)(_b12d), (*C.float)(_b12e), (*C.float)(_b21d), (*C.float)(_b21e), (*C.float)(_b22d), (*C.float)(_b22e), (*C.float)(_rwork), (C.lapack_int)(lrwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cheswapr.f. func Cheswapr(ul blas.Uplo, n int, a []complex64, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_cheswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetri2.f. func Chetri2(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetri2x.f. func Chetri2x(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/chetrs2.f. func Chetrs2(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_chetrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csyconv.f. func Csyconv(ul blas.Uplo, way byte, n int, a []complex64, lda int, ipiv []int32, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csyconv_work((C.int)(rowMajor), (C.char)(ul), (C.char)(way), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csyswapr.f. func Csyswapr(ul blas.Uplo, n int, a []complex64, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_csyswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytri2.f. func Csytri2(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csytri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytri2x.f. func Csytri2x(ul blas.Uplo, n int, a []complex64, lda int, ipiv []int32, work []complex64, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csytri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csytrs2.f. func Csytrs2(ul blas.Uplo, n, nrhs int, a []complex64, lda int, ipiv []int32, b []complex64, ldb int, work []complex64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_csytrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cunbdb.f. func Cunbdb(trans blas.Transpose, signs byte, m, p, q int, x11 []complex64, ldx11 int, x12 []complex64, ldx12 int, x21 []complex64, ldx21 int, x22 []complex64, ldx22 int, theta, phi []float32, taup1, taup2, tauq1, tauq2, work []complex64, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *complex64 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *complex64 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *complex64 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *complex64 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _phi *float32 if len(phi) > 0 { _phi = &phi[0] } var _taup1 *complex64 if len(taup1) > 0 { _taup1 = &taup1[0] } var _taup2 *complex64 if len(taup2) > 0 { _taup2 = &taup2[0] } var _tauq1 *complex64 if len(tauq1) > 0 { _tauq1 = &tauq1[0] } var _tauq2 *complex64 if len(tauq2) > 0 { _tauq2 = &tauq2[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cunbdb_work((C.int)(rowMajor), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_float)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_float)(_x12), (C.lapack_int)(ldx12), (*C.lapack_complex_float)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_float)(_x22), (C.lapack_int)(ldx22), (*C.float)(_theta), (*C.float)(_phi), (*C.lapack_complex_float)(_taup1), (*C.lapack_complex_float)(_taup2), (*C.lapack_complex_float)(_tauq1), (*C.lapack_complex_float)(_tauq2), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cuncsd.f. func Cuncsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, signs byte, m, p, q int, x11 []complex64, ldx11 int, x12 []complex64, ldx12 int, x21 []complex64, ldx21 int, x22 []complex64, ldx22 int, theta []float32, u1 []complex64, ldu1 int, u2 []complex64, ldu2 int, v1t []complex64, ldv1t int, v2t []complex64, ldv2t int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *complex64 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *complex64 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *complex64 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *complex64 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _u1 *complex64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex64 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *complex64 if len(v2t) > 0 { _v2t = &v2t[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cuncsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_float)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_float)(_x12), (C.lapack_int)(ldx12), (*C.lapack_complex_float)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_float)(_x22), (C.lapack_int)(ldx22), (*C.float)(_theta), (*C.lapack_complex_float)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_float)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_float)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_float)(_v2t), (C.lapack_int)(ldv2t), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cuncsd2by1.f. func Cuncsd2by1(jobu1, jobu2, jobv1t lapack.Job, m, p, q int, x11 []complex64, ldx11 int, x21 []complex64, ldx21 int, theta, u1 []complex64, ldu1 int, u2 []complex64, ldu2 int, v1t []complex64, ldv1t int, work []complex64, lwork int, rwork []float32, lrwork int, iwork []int32) bool { var _x11 *complex64 if len(x11) > 0 { _x11 = &x11[0] } var _x21 *complex64 if len(x21) > 0 { _x21 = &x21[0] } var _theta *complex64 if len(theta) > 0 { _theta = &theta[0] } var _u1 *complex64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex64 if len(v1t) > 0 { _v1t = &v1t[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } var _rwork *float32 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_cuncsd2by1_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_float)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_float)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_float)(_theta), (*C.lapack_complex_float)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_float)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_float)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork), (*C.float)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dbbcsd.f. func Dbbcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, m, p, q int, theta, phi, u1 []float64, ldu1 int, u2 []float64, ldu2 int, v1t []float64, ldv1t int, v2t []float64, ldv2t int, b11d, b11e, b12d, b12e, b21d, b21e, b22d, b22e, work []float64, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _phi *float64 if len(phi) > 0 { _phi = &phi[0] } var _u1 *float64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float64 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *float64 if len(v2t) > 0 { _v2t = &v2t[0] } var _b11d *float64 if len(b11d) > 0 { _b11d = &b11d[0] } var _b11e *float64 if len(b11e) > 0 { _b11e = &b11e[0] } var _b12d *float64 if len(b12d) > 0 { _b12d = &b12d[0] } var _b12e *float64 if len(b12e) > 0 { _b12e = &b12e[0] } var _b21d *float64 if len(b21d) > 0 { _b21d = &b21d[0] } var _b21e *float64 if len(b21e) > 0 { _b21e = &b21e[0] } var _b22d *float64 if len(b22d) > 0 { _b22d = &b22d[0] } var _b22e *float64 if len(b22e) > 0 { _b22e = &b22e[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dbbcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.double)(_theta), (*C.double)(_phi), (*C.double)(_u1), (C.lapack_int)(ldu1), (*C.double)(_u2), (C.lapack_int)(ldu2), (*C.double)(_v1t), (C.lapack_int)(ldv1t), (*C.double)(_v2t), (C.lapack_int)(ldv2t), (*C.double)(_b11d), (*C.double)(_b11e), (*C.double)(_b12d), (*C.double)(_b12e), (*C.double)(_b21d), (*C.double)(_b21e), (*C.double)(_b22d), (*C.double)(_b22e), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorbdb.f. func Dorbdb(trans blas.Transpose, signs byte, m, p, q int, x11 []float64, ldx11 int, x12 []float64, ldx12 int, x21 []float64, ldx21 int, x22 []float64, ldx22 int, theta, phi, taup1, taup2, tauq1, tauq2, work []float64, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *float64 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *float64 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *float64 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *float64 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _phi *float64 if len(phi) > 0 { _phi = &phi[0] } var _taup1 *float64 if len(taup1) > 0 { _taup1 = &taup1[0] } var _taup2 *float64 if len(taup2) > 0 { _taup2 = &taup2[0] } var _tauq1 *float64 if len(tauq1) > 0 { _tauq1 = &tauq1[0] } var _tauq2 *float64 if len(tauq2) > 0 { _tauq2 = &tauq2[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dorbdb_work((C.int)(rowMajor), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.double)(_x11), (C.lapack_int)(ldx11), (*C.double)(_x12), (C.lapack_int)(ldx12), (*C.double)(_x21), (C.lapack_int)(ldx21), (*C.double)(_x22), (C.lapack_int)(ldx22), (*C.double)(_theta), (*C.double)(_phi), (*C.double)(_taup1), (*C.double)(_taup2), (*C.double)(_tauq1), (*C.double)(_tauq2), (*C.double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorcsd.f. func Dorcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, signs byte, m, p, q int, x11 []float64, ldx11 int, x12 []float64, ldx12 int, x21 []float64, ldx21 int, x22 []float64, ldx22 int, theta, u1 []float64, ldu1 int, u2 []float64, ldu2 int, v1t []float64, ldv1t int, v2t []float64, ldv2t int, work []float64, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *float64 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *float64 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *float64 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *float64 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _u1 *float64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float64 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *float64 if len(v2t) > 0 { _v2t = &v2t[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dorcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.double)(_x11), (C.lapack_int)(ldx11), (*C.double)(_x12), (C.lapack_int)(ldx12), (*C.double)(_x21), (C.lapack_int)(ldx21), (*C.double)(_x22), (C.lapack_int)(ldx22), (*C.double)(_theta), (*C.double)(_u1), (C.lapack_int)(ldu1), (*C.double)(_u2), (C.lapack_int)(ldu2), (*C.double)(_v1t), (C.lapack_int)(ldv1t), (*C.double)(_v2t), (C.lapack_int)(ldv2t), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dorcsd2by1.f. func Dorcsd2by1(jobu1, jobu2, jobv1t lapack.Job, m, p, q int, x11 []float64, ldx11 int, x21 []float64, ldx21 int, theta, u1 []float64, ldu1 int, u2 []float64, ldu2 int, v1t []float64, ldv1t int, work []float64, lwork int, iwork []int32) bool { var _x11 *float64 if len(x11) > 0 { _x11 = &x11[0] } var _x21 *float64 if len(x21) > 0 { _x21 = &x21[0] } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _u1 *float64 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float64 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float64 if len(v1t) > 0 { _v1t = &v1t[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_dorcsd2by1_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.double)(_x11), (C.lapack_int)(ldx11), (*C.double)(_x21), (C.lapack_int)(ldx21), (*C.double)(_theta), (*C.double)(_u1), (C.lapack_int)(ldu1), (*C.double)(_u2), (C.lapack_int)(ldu2), (*C.double)(_v1t), (C.lapack_int)(ldv1t), (*C.double)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyconv.f. func Dsyconv(ul blas.Uplo, way byte, n int, a []float64, lda int, ipiv []int32, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsyconv_work((C.int)(rowMajor), (C.char)(ul), (C.char)(way), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsyswapr.f. func Dsyswapr(ul blas.Uplo, n int, a []float64, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_dsyswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytri2.f. func Dsytri2(ul blas.Uplo, n int, a []float64, lda int, ipiv []int32, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytri2x.f. func Dsytri2x(ul blas.Uplo, n int, a []float64, lda int, ipiv []int32, work []float64, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dsytrs2.f. func Dsytrs2(ul blas.Uplo, n, nrhs int, a []float64, lda int, ipiv []int32, b []float64, ldb int, work []float64) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float64 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dsytrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sbbcsd.f. func Sbbcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, m, p, q int, theta, phi, u1 []float32, ldu1 int, u2 []float32, ldu2 int, v1t []float32, ldv1t int, v2t []float32, ldv2t int, b11d, b11e, b12d, b12e, b21d, b21e, b22d, b22e, work []float32, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _phi *float32 if len(phi) > 0 { _phi = &phi[0] } var _u1 *float32 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float32 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float32 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *float32 if len(v2t) > 0 { _v2t = &v2t[0] } var _b11d *float32 if len(b11d) > 0 { _b11d = &b11d[0] } var _b11e *float32 if len(b11e) > 0 { _b11e = &b11e[0] } var _b12d *float32 if len(b12d) > 0 { _b12d = &b12d[0] } var _b12e *float32 if len(b12e) > 0 { _b12e = &b12e[0] } var _b21d *float32 if len(b21d) > 0 { _b21d = &b21d[0] } var _b21e *float32 if len(b21e) > 0 { _b21e = &b21e[0] } var _b22d *float32 if len(b22d) > 0 { _b22d = &b22d[0] } var _b22e *float32 if len(b22e) > 0 { _b22e = &b22e[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sbbcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.float)(_theta), (*C.float)(_phi), (*C.float)(_u1), (C.lapack_int)(ldu1), (*C.float)(_u2), (C.lapack_int)(ldu2), (*C.float)(_v1t), (C.lapack_int)(ldv1t), (*C.float)(_v2t), (C.lapack_int)(ldv2t), (*C.float)(_b11d), (*C.float)(_b11e), (*C.float)(_b12d), (*C.float)(_b12e), (*C.float)(_b21d), (*C.float)(_b21e), (*C.float)(_b22d), (*C.float)(_b22e), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorbdb.f. func Sorbdb(trans blas.Transpose, signs byte, m, p, q int, x11 []float32, ldx11 int, x12 []float32, ldx12 int, x21 []float32, ldx21 int, x22 []float32, ldx22 int, theta, phi, taup1, taup2, tauq1, tauq2, work []float32, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *float32 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *float32 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *float32 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *float32 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _phi *float32 if len(phi) > 0 { _phi = &phi[0] } var _taup1 *float32 if len(taup1) > 0 { _taup1 = &taup1[0] } var _taup2 *float32 if len(taup2) > 0 { _taup2 = &taup2[0] } var _tauq1 *float32 if len(tauq1) > 0 { _tauq1 = &tauq1[0] } var _tauq2 *float32 if len(tauq2) > 0 { _tauq2 = &tauq2[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sorbdb_work((C.int)(rowMajor), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.float)(_x11), (C.lapack_int)(ldx11), (*C.float)(_x12), (C.lapack_int)(ldx12), (*C.float)(_x21), (C.lapack_int)(ldx21), (*C.float)(_x22), (C.lapack_int)(ldx22), (*C.float)(_theta), (*C.float)(_phi), (*C.float)(_taup1), (*C.float)(_taup2), (*C.float)(_tauq1), (*C.float)(_tauq2), (*C.float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorcsd.f. func Sorcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, signs byte, m, p, q int, x11 []float32, ldx11 int, x12 []float32, ldx12 int, x21 []float32, ldx21 int, x22 []float32, ldx22 int, theta, u1 []float32, ldu1 int, u2 []float32, ldu2 int, v1t []float32, ldv1t int, v2t []float32, ldv2t int, work []float32, lwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *float32 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *float32 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *float32 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *float32 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _u1 *float32 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float32 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float32 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *float32 if len(v2t) > 0 { _v2t = &v2t[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sorcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.float)(_x11), (C.lapack_int)(ldx11), (*C.float)(_x12), (C.lapack_int)(ldx12), (*C.float)(_x21), (C.lapack_int)(ldx21), (*C.float)(_x22), (C.lapack_int)(ldx22), (*C.float)(_theta), (*C.float)(_u1), (C.lapack_int)(ldu1), (*C.float)(_u2), (C.lapack_int)(ldu2), (*C.float)(_v1t), (C.lapack_int)(ldv1t), (*C.float)(_v2t), (C.lapack_int)(ldv2t), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sorcsd2by1.f. func Sorcsd2by1(jobu1, jobu2, jobv1t lapack.Job, m, p, q int, x11 []float32, ldx11 int, x21 []float32, ldx21 int, theta, u1 []float32, ldu1 int, u2 []float32, ldu2 int, v1t []float32, ldv1t int, work []float32, lwork int, iwork []int32) bool { var _x11 *float32 if len(x11) > 0 { _x11 = &x11[0] } var _x21 *float32 if len(x21) > 0 { _x21 = &x21[0] } var _theta *float32 if len(theta) > 0 { _theta = &theta[0] } var _u1 *float32 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *float32 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *float32 if len(v1t) > 0 { _v1t = &v1t[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_sorcsd2by1_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.float)(_x11), (C.lapack_int)(ldx11), (*C.float)(_x21), (C.lapack_int)(ldx21), (*C.float)(_theta), (*C.float)(_u1), (C.lapack_int)(ldu1), (*C.float)(_u2), (C.lapack_int)(ldu2), (*C.float)(_v1t), (C.lapack_int)(ldv1t), (*C.float)(_work), (C.lapack_int)(lwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyconv.f. func Ssyconv(ul blas.Uplo, way byte, n int, a []float32, lda int, ipiv []int32, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssyconv_work((C.int)(rowMajor), (C.char)(ul), (C.char)(way), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssyswapr.f. func Ssyswapr(ul blas.Uplo, n int, a []float32, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_ssyswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytri2.f. func Ssytri2(ul blas.Uplo, n int, a []float32, lda int, ipiv []int32, work []complex64, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_float)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytri2x.f. func Ssytri2x(ul blas.Uplo, n int, a []float32, lda int, ipiv []int32, work []float32, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ssytrs2.f. func Ssytrs2(ul blas.Uplo, n, nrhs int, a []float32, lda int, ipiv []int32, b []float32, ldb int, work []float32) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *float32 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ssytrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.float)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zbbcsd.f. func Zbbcsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, m, p, q int, theta, phi []float64, u1 []complex128, ldu1 int, u2 []complex128, ldu2 int, v1t []complex128, ldv1t int, v2t []complex128, ldv2t int, b11d, b11e, b12d, b12e, b21d, b21e, b22d, b22e, rwork []float64, lrwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _phi *float64 if len(phi) > 0 { _phi = &phi[0] } var _u1 *complex128 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex128 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex128 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *complex128 if len(v2t) > 0 { _v2t = &v2t[0] } var _b11d *float64 if len(b11d) > 0 { _b11d = &b11d[0] } var _b11e *float64 if len(b11e) > 0 { _b11e = &b11e[0] } var _b12d *float64 if len(b12d) > 0 { _b12d = &b12d[0] } var _b12e *float64 if len(b12e) > 0 { _b12e = &b12e[0] } var _b21d *float64 if len(b21d) > 0 { _b21d = &b21d[0] } var _b21e *float64 if len(b21e) > 0 { _b21e = &b21e[0] } var _b22d *float64 if len(b22d) > 0 { _b22d = &b22d[0] } var _b22e *float64 if len(b22e) > 0 { _b22e = &b22e[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } return isZero(C.LAPACKE_zbbcsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.double)(_theta), (*C.double)(_phi), (*C.lapack_complex_double)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_double)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_double)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_double)(_v2t), (C.lapack_int)(ldv2t), (*C.double)(_b11d), (*C.double)(_b11e), (*C.double)(_b12d), (*C.double)(_b12e), (*C.double)(_b21d), (*C.double)(_b21e), (*C.double)(_b22d), (*C.double)(_b22e), (*C.double)(_rwork), (C.lapack_int)(lrwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zheswapr.f. func Zheswapr(ul blas.Uplo, n int, a []complex128, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zheswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetri2.f. func Zhetri2(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetri2x.f. func Zhetri2x(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zhetrs2.f. func Zhetrs2(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zhetrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsyconv.f. func Zsyconv(ul blas.Uplo, way byte, n int, a []complex128, lda int, ipiv []int32, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsyconv_work((C.int)(rowMajor), (C.char)(ul), (C.char)(way), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsyswapr.f. func Zsyswapr(ul blas.Uplo, n int, a []complex128, i1, i2 int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zsyswapr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(i1), (C.lapack_int)(i2))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytri2.f. func Zsytri2(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, lwork int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsytri2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytri2x.f. func Zsytri2x(ul blas.Uplo, n int, a []complex128, lda int, ipiv []int32, work []complex128, nb int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsytri2x_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_work), (C.lapack_int)(nb))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsytrs2.f. func Zsytrs2(ul blas.Uplo, n, nrhs int, a []complex128, lda int, ipiv []int32, b []complex128, ldb int, work []complex128) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _ipiv *int32 if len(ipiv) > 0 { _ipiv = &ipiv[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zsytrs2_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_int)(nrhs), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_int)(_ipiv), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zunbdb.f. func Zunbdb(trans blas.Transpose, signs byte, m, p, q int, x11 []complex128, ldx11 int, x12 []complex128, ldx12 int, x21 []complex128, ldx21 int, x22 []complex128, ldx22 int, theta, phi []float64, taup1, taup2, tauq1, tauq2, work []complex128, lwork int) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *complex128 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *complex128 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *complex128 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *complex128 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _phi *float64 if len(phi) > 0 { _phi = &phi[0] } var _taup1 *complex128 if len(taup1) > 0 { _taup1 = &taup1[0] } var _taup2 *complex128 if len(taup2) > 0 { _taup2 = &taup2[0] } var _tauq1 *complex128 if len(tauq1) > 0 { _tauq1 = &tauq1[0] } var _tauq2 *complex128 if len(tauq2) > 0 { _tauq2 = &tauq2[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zunbdb_work((C.int)(rowMajor), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_double)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_double)(_x12), (C.lapack_int)(ldx12), (*C.lapack_complex_double)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_double)(_x22), (C.lapack_int)(ldx22), (*C.double)(_theta), (*C.double)(_phi), (*C.lapack_complex_double)(_taup1), (*C.lapack_complex_double)(_taup2), (*C.lapack_complex_double)(_tauq1), (*C.lapack_complex_double)(_tauq2), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zuncsd.f. func Zuncsd(jobu1, jobu2, jobv1t, jobv2t lapack.Job, trans blas.Transpose, signs byte, m, p, q int, x11 []complex128, ldx11 int, x12 []complex128, ldx12 int, x21 []complex128, ldx21 int, x22 []complex128, ldx22 int, theta []float64, u1 []complex128, ldu1 int, u2 []complex128, ldu2 int, v1t []complex128, ldv1t int, v2t []complex128, ldv2t int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32) bool { switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _x11 *complex128 if len(x11) > 0 { _x11 = &x11[0] } var _x12 *complex128 if len(x12) > 0 { _x12 = &x12[0] } var _x21 *complex128 if len(x21) > 0 { _x21 = &x21[0] } var _x22 *complex128 if len(x22) > 0 { _x22 = &x22[0] } var _theta *float64 if len(theta) > 0 { _theta = &theta[0] } var _u1 *complex128 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex128 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex128 if len(v1t) > 0 { _v1t = &v1t[0] } var _v2t *complex128 if len(v2t) > 0 { _v2t = &v2t[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zuncsd_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.char)(jobv2t), (C.char)(trans), (C.char)(signs), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_double)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_double)(_x12), (C.lapack_int)(ldx12), (*C.lapack_complex_double)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_double)(_x22), (C.lapack_int)(ldx22), (*C.double)(_theta), (*C.lapack_complex_double)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_double)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_double)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_double)(_v2t), (C.lapack_int)(ldv2t), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zuncsd2by1.f. func Zuncsd2by1(jobu1, jobu2, jobv1t lapack.Job, m, p, q int, x11 []complex128, ldx11 int, x21 []complex128, ldx21 int, theta, u1 []complex128, ldu1 int, u2 []complex128, ldu2 int, v1t []complex128, ldv1t int, work []complex128, lwork int, rwork []float64, lrwork int, iwork []int32) bool { var _x11 *complex128 if len(x11) > 0 { _x11 = &x11[0] } var _x21 *complex128 if len(x21) > 0 { _x21 = &x21[0] } var _theta *complex128 if len(theta) > 0 { _theta = &theta[0] } var _u1 *complex128 if len(u1) > 0 { _u1 = &u1[0] } var _u2 *complex128 if len(u2) > 0 { _u2 = &u2[0] } var _v1t *complex128 if len(v1t) > 0 { _v1t = &v1t[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } var _rwork *float64 if len(rwork) > 0 { _rwork = &rwork[0] } var _iwork *int32 if len(iwork) > 0 { _iwork = &iwork[0] } return isZero(C.LAPACKE_zuncsd2by1_work((C.int)(rowMajor), (C.char)(jobu1), (C.char)(jobu2), (C.char)(jobv1t), (C.lapack_int)(m), (C.lapack_int)(p), (C.lapack_int)(q), (*C.lapack_complex_double)(_x11), (C.lapack_int)(ldx11), (*C.lapack_complex_double)(_x21), (C.lapack_int)(ldx21), (*C.lapack_complex_double)(_theta), (*C.lapack_complex_double)(_u1), (C.lapack_int)(ldu1), (*C.lapack_complex_double)(_u2), (C.lapack_int)(ldu2), (*C.lapack_complex_double)(_v1t), (C.lapack_int)(ldv1t), (*C.lapack_complex_double)(_work), (C.lapack_int)(lwork), (*C.double)(_rwork), (C.lapack_int)(lrwork), (*C.lapack_int)(_iwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgemqrt.f. func Sgemqrt(side blas.Side, trans blas.Transpose, m, n, k, nb int, v []float32, ldv int, t []float32, ldt int, c []float32, ldc int, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float32 if len(v) > 0 { _v = &v[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _c *float32 if len(c) > 0 { _c = &c[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgemqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(nb), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_c), (C.lapack_int)(ldc), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgemqrt.f. func Dgemqrt(side blas.Side, trans blas.Transpose, m, n, k, nb int, v []float64, ldv int, t []float64, ldt int, c []float64, ldc int, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float64 if len(v) > 0 { _v = &v[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _c *float64 if len(c) > 0 { _c = &c[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgemqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(nb), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_c), (C.lapack_int)(ldc), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgemqrt.f. func Cgemqrt(side blas.Side, trans blas.Transpose, m, n, k, nb int, v []complex64, ldv int, t []complex64, ldt int, c []complex64, ldc int, work []complex64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _c *complex64 if len(c) > 0 { _c = &c[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgemqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(nb), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgemqrt.f. func Zgemqrt(side blas.Side, trans blas.Transpose, m, n, k, nb int, v []complex128, ldv int, t []complex128, ldt int, c []complex128, ldc int, work []complex128) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _c *complex128 if len(c) > 0 { _c = &c[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgemqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(nb), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_c), (C.lapack_int)(ldc), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrt.f. func Sgeqrt(m, n, nb int, a []float32, lda int, t []float32, ldt int, work []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_sgeqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nb), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrt.f. func Dgeqrt(m, n, nb int, a []float64, lda int, t []float64, ldt int, work []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dgeqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nb), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrt.f. func Cgeqrt(m, n, nb int, a []complex64, lda int, t []complex64, ldt int, work []complex64) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_cgeqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nb), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrt.f. func Zgeqrt(m, n, nb int, a []complex128, lda int, t []complex128, ldt int, work []complex128) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_zgeqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(nb), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrt2.f. func Sgeqrt2(m, n int, a []float32, lda int, t []float32, ldt int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_sgeqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrt2.f. func Dgeqrt2(m, n int, a []float64, lda int, t []float64, ldt int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_dgeqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrt2.f. func Cgeqrt2(m, n int, a []complex64, lda int, t []complex64, ldt int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_cgeqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrt2.f. func Zgeqrt2(m, n int, a []complex128, lda int, t []complex128, ldt int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_zgeqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/sgeqrt3.f. func Sgeqrt3(m, n int, a []float32, lda int, t []float32, ldt int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_sgeqrt3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dgeqrt3.f. func Dgeqrt3(m, n int, a []float64, lda int, t []float64, ldt int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_dgeqrt3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/cgeqrt3.f. func Cgeqrt3(m, n int, a []complex64, lda int, t []complex64, ldt int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_cgeqrt3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zgeqrt3.f. func Zgeqrt3(m, n int, a []complex128, lda int, t []complex128, ldt int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_zgeqrt3_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpmqrt.f. func Stpmqrt(side blas.Side, trans blas.Transpose, m, n, k, l, nb int, v []float32, ldv int, t []float32, ldt int, a []float32, lda int, b []float32, ldb int, work []float32) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float32 if len(v) > 0 { _v = &v[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stpmqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpmqrt.f. func Dtpmqrt(side blas.Side, trans blas.Transpose, m, n, k, l, nb int, v []float64, ldv int, t []float64, ldt int, a []float64, lda int, b []float64, ldb int, work []float64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float64 if len(v) > 0 { _v = &v[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtpmqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpmqrt.f. func Ctpmqrt(side blas.Side, trans blas.Transpose, m, n, k, l, nb int, v []complex64, ldv int, t []complex64, ldt int, a []complex64, lda int, b []complex64, ldb int, work []complex64) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ctpmqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpmqrt.f. func Ztpmqrt(side blas.Side, trans blas.Transpose, m, n, k, l, nb int, v []complex128, ldv int, t []complex128, ldt int, a []complex128, lda int, b []complex128, ldb int, work []complex128) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ztpmqrt_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpqrt.f. func Stpqrt(m, n, l, nb int, a []float32, lda int, b []float32, ldb int, t []float32, ldt int, work []float32) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stpqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpqrt.f. func Dtpqrt(m, n, l, nb int, a []float64, lda int, b []float64, ldb int, t []float64, ldt int, work []float64) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtpqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpqrt.f. func Ctpqrt(m, n, l, nb int, a []complex64, lda int, b []complex64, ldb int, t []complex64, ldt int, work []complex64) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ctpqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpqrt.f. func Ztpqrt(m, n, l, nb int, a []complex128, lda int, b []complex128, ldb int, t []complex128, ldt int, work []complex128) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ztpqrt_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (C.lapack_int)(nb), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_work))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stpqrt2.f. func Stpqrt2(m, n, l int, a []float32, lda int, b []float32, ldb int, t []float32, ldt int) bool { var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_stpqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtpqrt2.f. func Dtpqrt2(m, n, l int, a []float64, lda int, b []float64, ldb int, t []float64, ldt int) bool { var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_dtpqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctpqrt2.f. func Ctpqrt2(m, n, l int, a []complex64, lda int, b []complex64, ldb int, t []complex64, ldt int) bool { var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_ctpqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztpqrt2.f. func Ztpqrt2(m, n, l int, a []complex128, lda int, b []complex128, ldb int, t []complex128, ldt int) bool { var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } return isZero(C.LAPACKE_ztpqrt2_work((C.int)(rowMajor), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(l), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/stprfb.f. func Stprfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k, l int, v []float32, ldv int, t []float32, ldt int, a []float32, lda int, b []float32, ldb int, work []float32, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float32 if len(v) > 0 { _v = &v[0] } var _t *float32 if len(t) > 0 { _t = &t[0] } var _a *float32 if len(a) > 0 { _a = &a[0] } var _b *float32 if len(b) > 0 { _b = &b[0] } var _work *float32 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_stprfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.float)(_v), (C.lapack_int)(ldv), (*C.float)(_t), (C.lapack_int)(ldt), (*C.float)(_a), (C.lapack_int)(lda), (*C.float)(_b), (C.lapack_int)(ldb), (*C.float)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dtprfb.f. func Dtprfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k, l int, v []float64, ldv int, t []float64, ldt int, a []float64, lda int, b []float64, ldb int, work []float64, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *float64 if len(v) > 0 { _v = &v[0] } var _t *float64 if len(t) > 0 { _t = &t[0] } var _a *float64 if len(a) > 0 { _a = &a[0] } var _b *float64 if len(b) > 0 { _b = &b[0] } var _work *float64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_dtprfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.double)(_v), (C.lapack_int)(ldv), (*C.double)(_t), (C.lapack_int)(ldt), (*C.double)(_a), (C.lapack_int)(lda), (*C.double)(_b), (C.lapack_int)(ldb), (*C.double)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ctprfb.f. func Ctprfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k, l int, v []complex64, ldv int, t []complex64, ldt int, a []complex64, lda int, b []complex64, ldb int, work []complex64, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex64 if len(v) > 0 { _v = &v[0] } var _t *complex64 if len(t) > 0 { _t = &t[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } var _b *complex64 if len(b) > 0 { _b = &b[0] } var _work *complex64 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ctprfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_float)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_float)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda), (*C.lapack_complex_float)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_float)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/ztprfb.f. func Ztprfb(side blas.Side, trans blas.Transpose, direct, storev byte, m, n, k, l int, v []complex128, ldv int, t []complex128, ldt int, a []complex128, lda int, b []complex128, ldb int, work []complex128, ldwork int) bool { switch side { case blas.Left: side = 'L' case blas.Right: side = 'R' default: panic("lapack: bad side") } switch trans { case blas.NoTrans: trans = 'N' case blas.Trans: trans = 'T' case blas.ConjTrans: trans = 'C' default: panic("lapack: bad trans") } var _v *complex128 if len(v) > 0 { _v = &v[0] } var _t *complex128 if len(t) > 0 { _t = &t[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } var _b *complex128 if len(b) > 0 { _b = &b[0] } var _work *complex128 if len(work) > 0 { _work = &work[0] } return isZero(C.LAPACKE_ztprfb_work((C.int)(rowMajor), (C.char)(side), (C.char)(trans), (C.char)(direct), (C.char)(storev), (C.lapack_int)(m), (C.lapack_int)(n), (C.lapack_int)(k), (C.lapack_int)(l), (*C.lapack_complex_double)(_v), (C.lapack_int)(ldv), (*C.lapack_complex_double)(_t), (C.lapack_int)(ldt), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda), (*C.lapack_complex_double)(_b), (C.lapack_int)(ldb), (*C.lapack_complex_double)(_work), (C.lapack_int)(ldwork))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/csyr.f. func Csyr(ul blas.Uplo, n int, alpha complex64, x []complex64, incx int, a []complex64, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _x *complex64 if len(x) > 0 { _x = &x[0] } var _a *complex64 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_csyr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_complex_float)(alpha), (*C.lapack_complex_float)(_x), (C.lapack_int)(incx), (*C.lapack_complex_float)(_a), (C.lapack_int)(lda))) } // See http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/zsyr.f. func Zsyr(ul blas.Uplo, n int, alpha complex128, x []complex128, incx int, a []complex128, lda int) bool { switch ul { case blas.Upper: ul = 'U' case blas.Lower: ul = 'L' default: panic("lapack: illegal triangle") } var _x *complex128 if len(x) > 0 { _x = &x[0] } var _a *complex128 if len(a) > 0 { _a = &a[0] } return isZero(C.LAPACKE_zsyr_work((C.int)(rowMajor), (C.char)(ul), (C.lapack_int)(n), (C.lapack_complex_double)(alpha), (*C.lapack_complex_double)(_x), (C.lapack_int)(incx), (*C.lapack_complex_double)(_a), (C.lapack_int)(lda))) }