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rAKA akantu
aka_blas_lapack.hh
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/**
* @file aka_blas_lapack.hh
*
* @author Nicolas Richart <nicolas.richart@epfl.ch>
*
* @date creation: Wed Mar 06 2013
* @date last modification: Tue Sep 29 2020
*
* @brief Interface of the Fortran BLAS/LAPACK libraries
*
*
* @section LICENSE
*
* Copyright (©) 2014-2021 EPFL (Ecole Polytechnique Fédérale de Lausanne)
* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
*
* Akantu is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free
* Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* Akantu is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
* A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
* details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Akantu. If not, see <http://www.gnu.org/licenses/>.
*
*/
/* -------------------------------------------------------------------------- */
#include "aka_error.hh"
/* -------------------------------------------------------------------------- */
#ifndef AKANTU_AKA_BLAS_LAPACK_HH_
#define AKANTU_AKA_BLAS_LAPACK_HH_
/* -------------------------------------------------------------------------- */
#ifdef AKANTU_USE_BLAS
#include "aka_fortran_mangling.hh"
extern
"C"
{
/* ------------------------------------------------------------------------ */
/* Double precision */
/* ------------------------------------------------------------------------ */
// LEVEL 1
double
AKA_FC_GLOBAL
(
ddot
,
DDOT
)(
int
*
,
double
*
,
int
*
,
double
*
,
int
*
);
void
AKA_FC_GLOBAL
(
daxpy
,
DAXPY
)(
int
*
,
double
*
,
double
*
,
int
*
,
double
*
,
int
*
);
// LEVEL 2
void
AKA_FC_GLOBAL
(
dgemv
,
DGEMV
)(
char
*
,
int
*
,
int
*
,
double
*
,
double
*
,
int
*
,
double
*
,
int
*
,
double
*
,
double
*
,
int
*
);
// LEVEL 3
void
AKA_FC_GLOBAL
(
dgemm
,
DGEMM
)(
char
*
,
char
*
,
int
*
,
int
*
,
int
*
,
double
*
,
double
*
,
int
*
,
double
*
,
int
*
,
double
*
,
double
*
,
int
*
);
/* ------------------------------------------------------------------------ */
/* Simple precision */
/* ------------------------------------------------------------------------ */
// LEVEL 1
float
AKA_FC_GLOBAL
(
sdot
,
SDOT
)(
int
*
,
float
*
,
int
*
,
float
*
,
int
*
);
void
AKA_FC_GLOBAL
(
saxpy
,
SAXPY
)(
int
*
,
float
*
,
float
*
,
int
*
,
float
*
,
int
*
);
// LEVEL 2
void
AKA_FC_GLOBAL
(
sgemv
,
SGEMV
)(
char
*
,
int
*
,
int
*
,
float
*
,
float
*
,
int
*
,
float
*
,
int
*
,
float
*
,
float
*
,
int
*
);
// LEVEL 3
void
AKA_FC_GLOBAL
(
sgemm
,
SGEMM
)(
char
*
,
char
*
,
int
*
,
int
*
,
int
*
,
float
*
,
float
*
,
int
*
,
float
*
,
int
*
,
float
*
,
float
*
,
int
*
);
}
#endif
namespace
akantu
{
#define AKANTU_WARNING_IGNORE_UNUSED_PARAMETER
#include "aka_warning.hh"
/// Wrapper around the S/DDOT BLAS function that returns the dot product of two
/// vectors
template
<
typename
T
>
inline
T
aka_dot
(
int
*
n
,
T
*
x
,
int
*
incx
,
T
*
y
,
int
*
incy
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"BLAS in the compilation options!"
);
}
/// Wrapper around the S/DAXPY BLAS function that computes \f$y := \alpha x +
/// y\f$
template
<
typename
T
>
inline
void
aka_axpy
(
int
*
n
,
T
*
alpha
,
T
*
x
,
int
*
incx
,
T
*
y
,
int
*
incy
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"BLAS in the compilation options!"
);
}
/// Wrapper around the S/DGEMV BLAS function that computes matrix-vector product
/// \f$y := \alpha A^{(T)}x + \beta y \f$
template
<
typename
T
>
inline
void
aka_gemv
(
char
*
trans
,
int
*
m
,
int
*
n
,
T
*
alpha
,
T
*
a
,
int
*
lda
,
T
*
x
,
int
*
incx
,
T
*
beta
,
T
*
y
,
int
*
incy
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"BLAS in the compilation options!"
);
}
/// Wrapper around the S/DGEMM BLAS function that computes the product of two
/// matrices \f$C := \alpha A^{(T)} B^{(T)} + \beta C \f$
template
<
typename
T
>
inline
void
aka_gemm
(
char
*
transa
,
char
*
transb
,
int
*
m
,
int
*
n
,
int
*
k
,
T
*
alpha
,
T
*
a
,
int
*
lda
,
T
*
b
,
int
*
ldb
,
T
*
beta
,
T
*
c
,
int
*
ldc
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"BLAS in the compilation options!"
);
}
#if defined(AKANTU_USE_BLAS)
template
<>
inline
double
aka_dot
<
double
>
(
int
*
n
,
double
*
x
,
int
*
incx
,
double
*
y
,
int
*
incy
)
{
return
AKA_FC_GLOBAL
(
ddot
,
DDOT
)(
n
,
x
,
incx
,
y
,
incy
);
}
template
<>
inline
void
aka_axpy
(
int
*
n
,
double
*
alpha
,
double
*
x
,
int
*
incx
,
double
*
y
,
int
*
incy
)
{
return
AKA_FC_GLOBAL
(
daxpy
,
DAXPY
)(
n
,
alpha
,
x
,
incx
,
y
,
incy
);
}
template
<>
inline
void
aka_gemv
<
double
>
(
char
*
trans
,
int
*
m
,
int
*
n
,
double
*
alpha
,
double
*
a
,
int
*
lda
,
double
*
x
,
int
*
incx
,
double
*
beta
,
double
*
y
,
int
*
incy
)
{
return
AKA_FC_GLOBAL
(
dgemv
,
DGEMV
)(
trans
,
m
,
n
,
alpha
,
a
,
lda
,
x
,
incx
,
beta
,
y
,
incy
);
}
template
<>
inline
void
aka_gemm
<
double
>
(
char
*
transa
,
char
*
transb
,
int
*
m
,
int
*
n
,
int
*
k
,
double
*
alpha
,
double
*
a
,
int
*
lda
,
double
*
b
,
int
*
ldb
,
double
*
beta
,
double
*
c
,
int
*
ldc
)
{
AKA_FC_GLOBAL
(
dgemm
,
DGEMM
)
(
transa
,
transb
,
m
,
n
,
k
,
alpha
,
a
,
lda
,
b
,
ldb
,
beta
,
c
,
ldc
);
}
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
template
<>
inline
float
aka_dot
<
float
>
(
int
*
n
,
float
*
x
,
int
*
incx
,
float
*
y
,
int
*
incy
)
{
return
AKA_FC_GLOBAL
(
sdot
,
SDOT
)(
n
,
x
,
incx
,
y
,
incy
);
}
template
<>
inline
void
aka_axpy
(
int
*
n
,
float
*
alpha
,
float
*
x
,
int
*
incx
,
float
*
y
,
int
*
incy
)
{
return
AKA_FC_GLOBAL
(
daxpy
,
DAXPY
)(
n
,
alpha
,
x
,
incx
,
y
,
incy
);
}
template
<>
inline
void
aka_gemv
<
float
>
(
char
*
trans
,
int
*
m
,
int
*
n
,
float
*
alpha
,
float
*
a
,
int
*
lda
,
float
*
x
,
int
*
incx
,
float
*
beta
,
float
*
y
,
int
*
incy
)
{
AKA_FC_GLOBAL
(
sgemv
,
SGEMV
)
(
trans
,
m
,
n
,
alpha
,
a
,
lda
,
x
,
incx
,
beta
,
y
,
incy
);
}
template
<>
inline
void
aka_gemm
<
float
>
(
char
*
transa
,
char
*
transb
,
int
*
m
,
int
*
n
,
int
*
k
,
float
*
alpha
,
float
*
a
,
int
*
lda
,
float
*
b
,
int
*
ldb
,
float
*
beta
,
float
*
c
,
int
*
ldc
)
{
AKA_FC_GLOBAL
(
sgemm
,
SGEMM
)
(
transa
,
transb
,
m
,
n
,
k
,
alpha
,
a
,
lda
,
b
,
ldb
,
beta
,
c
,
ldc
);
}
#endif
}
// namespace akantu
#ifdef AKANTU_USE_LAPACK
#include "aka_fortran_mangling.hh"
extern
"C"
{
/* ------------------------------------------------------------------------ */
/* Double general matrix */
/* ------------------------------------------------------------------------ */
/// compute the eigenvalues/vectors
void
AKA_FC_GLOBAL
(
dgeev
,
DGEEV
)(
char
*
jobvl
,
char
*
jobvr
,
int
*
n
,
double
*
a
,
int
*
lda
,
double
*
wr
,
double
*
wi
,
double
*
vl
,
int
*
ldvl
,
double
*
vr
,
int
*
ldvr
,
double
*
work
,
int
*
lwork
,
int
*
info
);
/// LU decomposition of a general matrix
void
AKA_FC_GLOBAL
(
dgetrf
,
DGETRF
)(
int
*
m
,
int
*
n
,
double
*
a
,
int
*
lda
,
int
*
ipiv
,
int
*
info
);
/// generate inverse of a matrix given its LU decomposition
void
AKA_FC_GLOBAL
(
dgetri
,
DGETRI
)(
int
*
n
,
double
*
a
,
int
*
lda
,
int
*
ipiv
,
double
*
work
,
int
*
lwork
,
int
*
info
);
/// solving A x = b using a LU factorization
void
AKA_FC_GLOBAL
(
dgetrs
,
DGETRS
)(
char
*
trans
,
int
*
n
,
int
*
nrhs
,
double
*
A
,
int
*
lda
,
int
*
ipiv
,
double
*
b
,
int
*
ldb
,
int
*
info
);
/* ------------------------------------------------------------------------ */
/* Simple general matrix */
/* ------------------------------------------------------------------------ */
/// compute the eigenvalues/vectors
void
AKA_FC_GLOBAL
(
sgeev
,
SGEEV
)(
char
*
jobvl
,
char
*
jobvr
,
int
*
n
,
float
*
a
,
int
*
lda
,
float
*
wr
,
float
*
wi
,
float
*
vl
,
int
*
ldvl
,
float
*
vr
,
int
*
ldvr
,
float
*
work
,
int
*
lwork
,
int
*
info
);
/// LU decomposition of a general matrix
void
AKA_FC_GLOBAL
(
sgetrf
,
SGETRF
)(
int
*
m
,
int
*
n
,
float
*
a
,
int
*
lda
,
int
*
ipiv
,
int
*
info
);
/// generate inverse of a matrix given its LU decomposition
void
AKA_FC_GLOBAL
(
sgetri
,
SGETRI
)(
int
*
n
,
float
*
a
,
int
*
lda
,
int
*
ipiv
,
float
*
work
,
int
*
lwork
,
int
*
info
);
/// solving A x = b using a LU factorization
void
AKA_FC_GLOBAL
(
sgetrs
,
SGETRS
)(
char
*
trans
,
int
*
n
,
int
*
nrhs
,
float
*
A
,
int
*
lda
,
int
*
ipiv
,
float
*
b
,
int
*
ldb
,
int
*
info
);
}
#endif
// AKANTU_USE_LAPACK
namespace
akantu
{
/// Wrapper around the S/DGEEV BLAS function that computes the eigenvalues and
/// eigenvectors of a matrix
template
<
typename
T
>
inline
void
aka_geev
(
char
*
jobvl
,
char
*
jobvr
,
int
*
n
,
T
*
a
,
int
*
lda
,
T
*
wr
,
T
*
wi
,
T
*
vl
,
int
*
ldvl
,
T
*
vr
,
int
*
ldvr
,
T
*
work
,
int
*
lwork
,
int
*
info
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"LAPACK in the compilation options!"
);
}
/// Wrapper around the S/DGETRF BLAS function that computes the LU decomposition
/// of a matrix
template
<
typename
T
>
inline
void
aka_getrf
(
int
*
m
,
int
*
n
,
T
*
a
,
int
*
lda
,
int
*
ipiv
,
int
*
info
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"LAPACK in the compilation options!"
);
}
/// Wrapper around the S/DGETRI BLAS function that computes the inverse of a
/// matrix given its LU decomposition
template
<
typename
T
>
inline
void
aka_getri
(
int
*
n
,
T
*
a
,
int
*
lda
,
int
*
ipiv
,
T
*
work
,
int
*
lwork
,
int
*
info
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"LAPACK in the compilation options!"
);
}
/// Wrapper around the S/DGETRS BLAS function that solves \f$A^{(T)}x = b\f$
/// using LU decomposition
template
<
typename
T
>
inline
void
aka_getrs
(
char
*
trans
,
int
*
n
,
int
*
nrhs
,
T
*
A
,
int
*
lda
,
int
*
ipiv
,
T
*
b
,
int
*
ldb
,
int
*
info
)
{
AKANTU_ERROR
(
debug
::
demangle
(
typeid
(
T
).
name
())
<<
"is not a type recognized, or you didn't activated "
"LAPACK in the compilation options!"
);
}
#include "aka_warning_restore.hh"
#ifdef AKANTU_USE_LAPACK
template
<>
inline
void
aka_geev
<
double
>
(
char
*
jobvl
,
char
*
jobvr
,
int
*
n
,
double
*
a
,
int
*
lda
,
double
*
wr
,
double
*
wi
,
double
*
vl
,
int
*
ldvl
,
double
*
vr
,
int
*
ldvr
,
double
*
work
,
int
*
lwork
,
int
*
info
)
{
AKA_FC_GLOBAL
(
dgeev
,
DGEEV
)
(
jobvl
,
jobvr
,
n
,
a
,
lda
,
wr
,
wi
,
vl
,
ldvl
,
vr
,
ldvr
,
work
,
lwork
,
info
);
}
template
<>
inline
void
aka_getrf
<
double
>
(
int
*
m
,
int
*
n
,
double
*
a
,
int
*
lda
,
int
*
ipiv
,
int
*
info
)
{
AKA_FC_GLOBAL
(
dgetrf
,
DGETRF
)(
m
,
n
,
a
,
lda
,
ipiv
,
info
);
}
template
<>
inline
void
aka_getri
<
double
>
(
int
*
n
,
double
*
a
,
int
*
lda
,
int
*
ipiv
,
double
*
work
,
int
*
lwork
,
int
*
info
)
{
AKA_FC_GLOBAL
(
dgetri
,
DGETRI
)(
n
,
a
,
lda
,
ipiv
,
work
,
lwork
,
info
);
}
template
<>
inline
void
aka_getrs
<
double
>
(
char
*
trans
,
int
*
n
,
int
*
nrhs
,
double
*
A
,
int
*
lda
,
int
*
ipiv
,
double
*
b
,
int
*
ldb
,
int
*
info
)
{
AKA_FC_GLOBAL
(
dgetrs
,
DGETRS
)(
trans
,
n
,
nrhs
,
A
,
lda
,
ipiv
,
b
,
ldb
,
info
);
}
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
template
<>
inline
void
aka_geev
<
float
>
(
char
*
jobvl
,
char
*
jobvr
,
int
*
n
,
float
*
a
,
int
*
lda
,
float
*
wr
,
float
*
wi
,
float
*
vl
,
int
*
ldvl
,
float
*
vr
,
int
*
ldvr
,
float
*
work
,
int
*
lwork
,
int
*
info
)
{
AKA_FC_GLOBAL
(
sgeev
,
SGEEV
)
(
jobvl
,
jobvr
,
n
,
a
,
lda
,
wr
,
wi
,
vl
,
ldvl
,
vr
,
ldvr
,
work
,
lwork
,
info
);
}
template
<>
inline
void
aka_getrf
<
float
>
(
int
*
m
,
int
*
n
,
float
*
a
,
int
*
lda
,
int
*
ipiv
,
int
*
info
)
{
AKA_FC_GLOBAL
(
sgetrf
,
SGETRF
)(
m
,
n
,
a
,
lda
,
ipiv
,
info
);
}
template
<>
inline
void
aka_getri
<
float
>
(
int
*
n
,
float
*
a
,
int
*
lda
,
int
*
ipiv
,
float
*
work
,
int
*
lwork
,
int
*
info
)
{
AKA_FC_GLOBAL
(
sgetri
,
SGETRI
)(
n
,
a
,
lda
,
ipiv
,
work
,
lwork
,
info
);
}
template
<>
inline
void
aka_getrs
<
float
>
(
char
*
trans
,
int
*
n
,
int
*
nrhs
,
float
*
A
,
int
*
lda
,
int
*
ipiv
,
float
*
b
,
int
*
ldb
,
int
*
info
)
{
AKA_FC_GLOBAL
(
sgetrs
,
SGETRS
)(
trans
,
n
,
nrhs
,
A
,
lda
,
ipiv
,
b
,
ldb
,
info
);
}
#endif
}
// namespace akantu
#endif
/* AKANTU_AKA_BLAS_LAPACK_HH_ */
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