mirror of
https://github.com/triqs/dft_tools
synced 2024-12-27 06:43:40 +01:00
161 lines
6.4 KiB
C++
161 lines
6.4 KiB
C++
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/*******************************************************************************
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*
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* TRIQS: a Toolbox for Research in Interacting Quantum Systems
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*
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* Copyright (C) 2011 by M. Ferrero, O. Parcollet
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*
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* TRIQS is free software: you can redistribute it and/or modify it under the
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* terms of the GNU General Public License as published by the Free Software
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* Foundation, either version 3 of the License, or (at your option) any later
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* version.
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*
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* TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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* details.
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*
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* You should have received a copy of the GNU General Public License along with
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* TRIQS. If not, see <http://www.gnu.org/licenses/>.
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*
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******************************************************************************/
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#ifndef TRIQS_ARRAYS_BLAS_HEADER_H
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#define TRIQS_ARRAYS_BLAS_HEADER_H
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// UNUNSED : just here to keep the old bindings
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/*
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// Declaration of the lapack routines.
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extern "C"
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{
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void TRIQS_FORTRAN_MANGLING(dgetrf) (int &,int &,double[], int & ,int [],int &);
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void TRIQS_FORTRAN_MANGLING(dgetri) (int & , double [], int & ,int [],double [],int & ,int & );
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void TRIQS_FORTRAN_MANGLING(dgetrs) (char *,int & , int & , double [], int & ,int [],double [],int & ,int & );
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void TRIQS_FORTRAN_MANGLING(zgetrf) (int &,int &,std::complex<double>[], int & ,int [],int &);
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void TRIQS_FORTRAN_MANGLING(zgetri) (int & , std::complex<double> [], int & ,int [],std::complex<double> [],int & ,int & );
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void TRIQS_FORTRAN_MANGLING(zgetrs) (char *,int & , int & , std::complex<double> [], int & ,int [],std::complex<double> [],int & ,int & );
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// C <- alpha AB + beta C
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void TRIQS_FORTRAN_MANGLING(dgemm) (char *, char *, //TRANSA, TRANSB
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int & , //
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int & , //
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int & , //
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double &, //ALPHA,
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const double[], // A,
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int &, // LDA
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const double[], // B
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int &, // LDB,
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double &, // BETA,
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double[], // C
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int & // LDC
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);
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void TRIQS_FORTRAN_MANGLING(zgemm) (char *, char *, //TRANSA, TRANSB
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int & , //
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int & , //
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int & , //
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std::complex<double> &, //ALPHA,
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const std::complex<double>[], // A,
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int &, // LDA
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const std::complex<double>[], // B
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int &, // LDB,
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std::complex<double> &, // BETA,
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std::complex<double>[], // C
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int & // LDC
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);
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void TRIQS_FORTRAN_MANGLING(dgemv)(const char* trans, const int & m, const int & n, const double & alpha, const double A[], int & lda,
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const double x[], const int & incx, const double & beta, double y[], const int & incy);
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void TRIQS_FORTRAN_MANGLING(zgemv)(const char* trans, const int & m, const int & n, const std::complex<double> & alpha, const std::complex<double> A[], int & lda,
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const std::complex<double> x[], const int & incx, const std::complex<double> & beta, std::complex<double> y[], const int & incy);
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void TRIQS_FORTRAN_MANGLING(zhseqr)( char *,char*, //JOB, COMPZ
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int &, // N
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int &, //ILO
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int &,// IHI
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std::complex<double>[], // H
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int &, // LDH
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std::complex<double>[], //W
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std::complex<double>[], //Z
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int &, // LDZ
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std::complex<double>[], //WORK
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int &, // LWORK
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int & // INFO
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);
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void TRIQS_FORTRAN_MANGLING(dsyev)(char*,char*, // JOBZ and UPLO
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int &, // Matrix Size
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double[], // matrix
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int&, // LDA of the matrix
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double[], // Eigenvalues array
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double[], // WORK
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int&, // LWORK
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int & // INFO
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);
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void TRIQS_FORTRAN_MANGLING(zheev)(char*,char*, // JOBZ and UPLO
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int &, // Matrix Size
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std::complex<double> [], // matrix
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int&, // LDA of the matrix
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double[], // Eigenvalues array
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std::complex<double>[], // WORK
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int &, // LWORK
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double[], // WORK2
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int & // INFO
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);
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void TRIQS_FORTRAN_MANGLING(zgeev)(char*,char*, // JOBVL, JOBVR
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int &, // Matrix Size
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std::complex<double> [], // matrix
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int&, // LDA of the matrix
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std::complex<double>[], // Eigenvalues array
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std::complex<double>[], // VL
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int &, //LDVL
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std::complex<double>[], // VR
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int &, //LDVR
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std::complex<double>[], // WORK
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int &, // LWORK
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double[], // RWORK
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int & // INFO
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);
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void TRIQS_FORTRAN_MANGLING(zgesdd)(char*, // JOBZ
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int &, // M
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int &, // N
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std::complex<double> [], // matrix
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int&, // LDA of the matrix
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double[], // Singular values array
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std::complex<double>[], // U
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int &, //LDU
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std::complex<double>[], // VT
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int &, //LDVT
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std::complex<double>[], // WORK
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int &, // LWORK
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double[], // RWORK
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int [], //IWORK
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int & // INFO
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);
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double TRIQS_FORTRAN_MANGLING(dswap)(const int & N , double x[], const int& incx, double y[], const int& incy);
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double TRIQS_FORTRAN_MANGLING(dcopy)(const int & N , double x[], const int& incx, double y[], const int& incy);
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double TRIQS_FORTRAN_MANGLING(dscal)(const int & N , double & alpha,double x[], const int& incx);
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double TRIQS_FORTRAN_MANGLING(ddot)(const int & N, double x[], const int& incx, double y[], const int & incy);
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double TRIQS_FORTRAN_MANGLING(zdot)(const int & N, std::complex<double> x[], const int& incx, std::complex<double> y[], const int& incy);
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void TRIQS_FORTRAN_MANGLING(dtrmv)(const char & UPLO, const char & TRANS, const char & DIAG,
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int & N, double A[], int & LDA, double X[], int & INCX);
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void TRIQS_FORTRAN_MANGLING(dgemv)(const char* trans, const int & m, const int & n, const double & alpha, const double A[], int & lda,
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const double x[], const int & incx, const double & beta, double y[], const int & incy);
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void TRIQS_FORTRAN_MANGLING(dger)(const int &, const int &, const double &, double [], const int &, double [], const int &, double [], const int &);
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}
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*/
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#endif
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