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view armadillo-3.900.4/include/armadillo_bits/lapack_wrapper.hpp @ 84:55a047986812 tip
Update library URI so as not to be document-local
| author | Chris Cannam |
|---|---|
| date | Wed, 22 Apr 2020 14:21:57 +0100 |
| parents | 1ec0e2823891 |
| children |
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// Copyright (C) 2008-2012 NICTA (www.nicta.com.au) // Copyright (C) 2008-2012 Conrad Sanderson // Copyright (C) 2009 Edmund Highcock // Copyright (C) 2011 James Sanders // Copyright (C) 2012 Eric Jon Sundstrom // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #ifdef ARMA_USE_LAPACK //! \namespace lapack namespace for LAPACK functions namespace lapack { template<typename eT> inline void getrf(blas_int* m, blas_int* n, eT* a, blas_int* lda, blas_int* ipiv, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgetrf)(m, n, (T*)a, lda, ipiv, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgetrf)(m, n, (T*)a, lda, ipiv, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cgetrf)(m, n, (T*)a, lda, ipiv, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zgetrf)(m, n, (T*)a, lda, ipiv, info); } } template<typename eT> inline void getri(blas_int* n, eT* a, blas_int* lda, blas_int* ipiv, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgetri)(n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgetri)(n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cgetri)(n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zgetri)(n, (T*)a, lda, ipiv, (T*)work, lwork, info); } } template<typename eT> inline void trtri(char* uplo, char* diag, blas_int* n, eT* a, blas_int* lda, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_strtri)(uplo, diag, n, (T*)a, lda, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dtrtri)(uplo, diag, n, (T*)a, lda, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_ctrtri)(uplo, diag, n, (T*)a, lda, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_ztrtri)(uplo, diag, n, (T*)a, lda, info); } } template<typename eT> inline void syev(char* jobz, char* uplo, blas_int* n, eT* a, blas_int* lda, eT* w, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_ssyev)(jobz, uplo, n, (T*)a, lda, (T*)w, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dsyev)(jobz, uplo, n, (T*)a, lda, (T*)w, (T*)work, lwork, info); } } template<typename eT> inline void syevd(char* jobz, char* uplo, blas_int* n, eT* a, blas_int* lda, eT* w, eT* work, blas_int* lwork, blas_int* iwork, blas_int* liwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_ssyevd)(jobz, uplo, n, (T*)a, lda, (T*)w, (T*)work, lwork, iwork, liwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dsyevd)(jobz, uplo, n, (T*)a, lda, (T*)w, (T*)work, lwork, iwork, liwork, info); } } template<typename eT> inline void heev ( char* jobz, char* uplo, blas_int* n, eT* a, blas_int* lda, typename eT::value_type* w, eT* work, blas_int* lwork, typename eT::value_type* rwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_supported_complex_float<eT>::value == true) { typedef float T; typedef typename std::complex<T> cx_T; arma_fortran(arma_cheev)(jobz, uplo, n, (cx_T*)a, lda, (T*)w, (cx_T*)work, lwork, (T*)rwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef double T; typedef typename std::complex<T> cx_T; arma_fortran(arma_zheev)(jobz, uplo, n, (cx_T*)a, lda, (T*)w, (cx_T*)work, lwork, (T*)rwork, info); } } template<typename eT> inline void heevd ( char* jobz, char* uplo, blas_int* n, eT* a, blas_int* lda, typename eT::value_type* w, eT* work, blas_int* lwork, typename eT::value_type* rwork, blas_int* lrwork, blas_int* iwork, blas_int* liwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_supported_complex_float<eT>::value == true) { typedef float T; typedef typename std::complex<T> cx_T; arma_fortran(arma_cheevd)(jobz, uplo, n, (cx_T*)a, lda, (T*)w, (cx_T*)work, lwork, (T*)rwork, lrwork, iwork, liwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef double T; typedef typename std::complex<T> cx_T; arma_fortran(arma_zheevd)(jobz, uplo, n, (cx_T*)a, lda, (T*)w, (cx_T*)work, lwork, (T*)rwork, lrwork, iwork, liwork, info); } } template<typename eT> inline void geev ( char* jobvl, char* jobvr, blas_int* n, eT* a, blas_int* lda, eT* wr, eT* wi, eT* vl, blas_int* ldvl, eT* vr, blas_int* ldvr, eT* work, blas_int* lwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgeev)(jobvl, jobvr, n, (T*)a, lda, (T*)wr, (T*)wi, (T*)vl, ldvl, (T*)vr, ldvr, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgeev)(jobvl, jobvr, n, (T*)a, lda, (T*)wr, (T*)wi, (T*)vl, ldvl, (T*)vr, ldvr, (T*)work, lwork, info); } } template<typename eT> inline void cx_geev ( char* jobvl, char* jobvr, blas_int* n, eT* a, blas_int* lda, eT* w, eT* vl, blas_int* ldvl, eT* vr, blas_int* ldvr, eT* work, blas_int* lwork, typename eT::value_type* rwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_supported_complex_float<eT>::value == true) { typedef float T; typedef typename std::complex<T> cx_T; arma_fortran(arma_cgeev)(jobvl, jobvr, n, (cx_T*)a, lda, (cx_T*)w, (cx_T*)vl, ldvl, (cx_T*)vr, ldvr, (cx_T*)work, lwork, (T*)rwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef double T; typedef typename std::complex<T> cx_T; arma_fortran(arma_zgeev)(jobvl, jobvr, n, (cx_T*)a, lda, (cx_T*)w, (cx_T*)vl, ldvl, (cx_T*)vr, ldvr, (cx_T*)work, lwork, (T*)rwork, info); } } template<typename eT> inline void potrf(char* uplo, blas_int* n, eT* a, blas_int* lda, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_spotrf)(uplo, n, (T*)a, lda, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dpotrf)(uplo, n, (T*)a, lda, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cpotrf)(uplo, n, (T*)a, lda, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zpotrf)(uplo, n, (T*)a, lda, info); } } template<typename eT> inline void potri(char* uplo, blas_int* n, eT* a, blas_int* lda, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_spotri)(uplo, n, (T*)a, lda, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dpotri)(uplo, n, (T*)a, lda, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cpotri)(uplo, n, (T*)a, lda, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zpotri)(uplo, n, (T*)a, lda, info); } } template<typename eT> inline void geqrf(blas_int* m, blas_int* n, eT* a, blas_int* lda, eT* tau, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgeqrf)(m, n, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgeqrf)(m, n, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cgeqrf)(m, n, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zgeqrf)(m, n, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } } template<typename eT> inline void orgqr(blas_int* m, blas_int* n, blas_int* k, eT* a, blas_int* lda, eT* tau, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sorgqr)(m, n, k, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dorgqr)(m, n, k, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } } template<typename eT> inline void ungqr(blas_int* m, blas_int* n, blas_int* k, eT* a, blas_int* lda, eT* tau, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_supported_complex_float<eT>::value == true) { typedef float T; arma_fortran(arma_cungqr)(m, n, k, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef double T; arma_fortran(arma_zungqr)(m, n, k, (T*)a, lda, (T*)tau, (T*)work, lwork, info); } } template<typename eT> inline void gesvd ( char* jobu, char* jobvt, blas_int* m, blas_int* n, eT* a, blas_int* lda, eT* s, eT* u, blas_int* ldu, eT* vt, blas_int* ldvt, eT* work, blas_int* lwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgesvd)(jobu, jobvt, m, n, (T*)a, lda, (T*)s, (T*)u, ldu, (T*)vt, ldvt, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgesvd)(jobu, jobvt, m, n, (T*)a, lda, (T*)s, (T*)u, ldu, (T*)vt, ldvt, (T*)work, lwork, info); } } template<typename T> inline void cx_gesvd ( char* jobu, char* jobvt, blas_int* m, blas_int* n, std::complex<T>* a, blas_int* lda, T* s, std::complex<T>* u, blas_int* ldu, std::complex<T>* vt, blas_int* ldvt, std::complex<T>* work, blas_int* lwork, T* rwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<T>::value == false )); arma_type_check(( is_supported_blas_type< std::complex<T> >::value == false )); if(is_float<T>::value == true) { typedef float bT; arma_fortran(arma_cgesvd) ( jobu, jobvt, m, n, (std::complex<bT>*)a, lda, (bT*)s, (std::complex<bT>*)u, ldu, (std::complex<bT>*)vt, ldvt, (std::complex<bT>*)work, lwork, (bT*)rwork, info ); } else if(is_double<T>::value == true) { typedef double bT; arma_fortran(arma_zgesvd) ( jobu, jobvt, m, n, (std::complex<bT>*)a, lda, (bT*)s, (std::complex<bT>*)u, ldu, (std::complex<bT>*)vt, ldvt, (std::complex<bT>*)work, lwork, (bT*)rwork, info ); } } template<typename eT> inline void gesdd ( char* jobz, blas_int* m, blas_int* n, eT* a, blas_int* lda, eT* s, eT* u, blas_int* ldu, eT* vt, blas_int* ldvt, eT* work, blas_int* lwork, blas_int* iwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgesdd)(jobz, m, n, (T*)a, lda, (T*)s, (T*)u, ldu, (T*)vt, ldvt, (T*)work, lwork, iwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgesdd)(jobz, m, n, (T*)a, lda, (T*)s, (T*)u, ldu, (T*)vt, ldvt, (T*)work, lwork, iwork, info); } } template<typename T> inline void cx_gesdd ( char* jobz, blas_int* m, blas_int* n, std::complex<T>* a, blas_int* lda, T* s, std::complex<T>* u, blas_int* ldu, std::complex<T>* vt, blas_int* ldvt, std::complex<T>* work, blas_int* lwork, T* rwork, blas_int* iwork, blas_int* info ) { arma_type_check(( is_supported_blas_type<T>::value == false )); arma_type_check(( is_supported_blas_type< std::complex<T> >::value == false )); if(is_float<T>::value == true) { typedef float bT; arma_fortran(arma_cgesdd) ( jobz, m, n, (std::complex<bT>*)a, lda, (bT*)s, (std::complex<bT>*)u, ldu, (std::complex<bT>*)vt, ldvt, (std::complex<bT>*)work, lwork, (bT*)rwork, iwork, info ); } else if(is_double<T>::value == true) { typedef double bT; arma_fortran(arma_zgesdd) ( jobz, m, n, (std::complex<bT>*)a, lda, (bT*)s, (std::complex<bT>*)u, ldu, (std::complex<bT>*)vt, ldvt, (std::complex<bT>*)work, lwork, (bT*)rwork, iwork, info ); } } template<typename eT> inline void gesv(blas_int* n, blas_int* nrhs, eT* a, blas_int* lda, blas_int* ipiv, eT* b, blas_int* ldb, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgesv)(n, nrhs, (T*)a, lda, ipiv, (T*)b, ldb, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgesv)(n, nrhs, (T*)a, lda, ipiv, (T*)b, ldb, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cgesv)(n, nrhs, (T*)a, lda, ipiv, (T*)b, ldb, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zgesv)(n, nrhs, (T*)a, lda, ipiv, (T*)b, ldb, info); } } template<typename eT> inline void gels(char* trans, blas_int* m, blas_int* n, blas_int* nrhs, eT* a, blas_int* lda, eT* b, blas_int* ldb, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgels)(trans, m, n, nrhs, (T*)a, lda, (T*)b, ldb, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgels)(trans, m, n, nrhs, (T*)a, lda, (T*)b, ldb, (T*)work, lwork, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_cgels)(trans, m, n, nrhs, (T*)a, lda, (T*)b, ldb, (T*)work, lwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zgels)(trans, m, n, nrhs, (T*)a, lda, (T*)b, ldb, (T*)work, lwork, info); } } template<typename eT> inline void trtrs(char* uplo, char* trans, char* diag, blas_int* n, blas_int* nrhs, const eT* a, blas_int* lda, eT* b, blas_int* ldb, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_strtrs)(uplo, trans, diag, n, nrhs, (T*)a, lda, (T*)b, ldb, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dtrtrs)(uplo, trans, diag, n, nrhs, (T*)a, lda, (T*)b, ldb, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_ctrtrs)(uplo, trans, diag, n, nrhs, (T*)a, lda, (T*)b, ldb, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_ztrtrs)(uplo, trans, diag, n, nrhs, (T*)a, lda, (T*)b, ldb, info); } } template<typename eT> inline void gees(char* jobvs, char* sort, blas_int* select, blas_int* n, eT* a, blas_int* lda, blas_int* sdim, eT* wr, eT* wi, eT* vs, blas_int* ldvs, eT* work, blas_int* lwork, blas_int* bwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_sgees)(jobvs, sort, select, n, (T*)a, lda, sdim, (T*)wr, (T*)wi, (T*)vs, ldvs, (T*)work, lwork, bwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dgees)(jobvs, sort, select, n, (T*)a, lda, sdim, (T*)wr, (T*)wi, (T*)vs, ldvs, (T*)work, lwork, bwork, info); } } template<typename T> inline void cx_gees(char* jobvs, char* sort, blas_int* select, blas_int* n, std::complex<T>* a, blas_int* lda, blas_int* sdim, std::complex<T>* w, std::complex<T>* vs, blas_int* ldvs, std::complex<T>* work, blas_int* lwork, T* rwork, blas_int* bwork, blas_int* info) { arma_type_check(( is_supported_blas_type<T>::value == false )); arma_type_check(( is_supported_blas_type< std::complex<T> >::value == false )); if(is_float<T>::value == true) { typedef float bT; typedef std::complex<bT> cT; arma_fortran(arma_cgees)(jobvs, sort, select, n, (cT*)a, lda, sdim, (cT*)w, (cT*)vs, ldvs, (cT*)work, lwork, (bT*)rwork, bwork, info); } else if(is_double<T>::value == true) { typedef double bT; typedef std::complex<bT> cT; arma_fortran(arma_zgees)(jobvs, sort, select, n, (cT*)a, lda, sdim, (cT*)w, (cT*)vs, ldvs, (cT*)work, lwork, (bT*)rwork, bwork, info); } } template<typename eT> inline void trsyl(char* transa, char* transb, blas_int* isgn, blas_int* m, blas_int* n, const eT* a, blas_int* lda, const eT* b, blas_int* ldb, eT* c, blas_int* ldc, eT* scale, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_strsyl)(transa, transb, isgn, m, n, (T*)a, lda, (T*)b, ldb, (T*)c, ldc, (T*)scale, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dtrsyl)(transa, transb, isgn, m, n, (T*)a, lda, (T*)b, ldb, (T*)c, ldc, (T*)scale, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_ctrsyl)(transa, transb, isgn, m, n, (T*)a, lda, (T*)b, ldb, (T*)c, ldc, (float*)scale, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_ztrsyl)(transa, transb, isgn, m, n, (T*)a, lda, (T*)b, ldb, (T*)c, ldc, (double*)scale, info); } } template<typename eT> inline void sytrf(char* uplo, blas_int* n, eT* a, blas_int* lda, blas_int* ipiv, eT* work, blas_int* lwork, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_ssytrf)(uplo, n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dsytrf)(uplo, n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_csytrf)(uplo, n, (T*)a, lda, ipiv, (T*)work, lwork, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zsytrf)(uplo, n, (T*)a, lda, ipiv, (T*)work, lwork, info); } } template<typename eT> inline void sytri(char* uplo, blas_int* n, eT* a, blas_int* lda, blas_int* ipiv, eT* work, blas_int* info) { arma_type_check(( is_supported_blas_type<eT>::value == false )); if(is_float<eT>::value == true) { typedef float T; arma_fortran(arma_ssytri)(uplo, n, (T*)a, lda, ipiv, (T*)work, info); } else if(is_double<eT>::value == true) { typedef double T; arma_fortran(arma_dsytri)(uplo, n, (T*)a, lda, ipiv, (T*)work, info); } else if(is_supported_complex_float<eT>::value == true) { typedef std::complex<float> T; arma_fortran(arma_csytri)(uplo, n, (T*)a, lda, ipiv, (T*)work, info); } else if(is_supported_complex_double<eT>::value == true) { typedef std::complex<double> T; arma_fortran(arma_zsytri)(uplo, n, (T*)a, lda, ipiv, (T*)work, info); } } } #endif