/usr/include/fflas-ffpack/config-blas.h is in fflas-ffpack-common 2.2.2-4.
This file is owned by root:root, with mode 0o644.
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// vim:sts=8:sw=8:ts=8:noet:sr:cino=>s,f0,{0,g0,(0,\:0,t0,+0,=s
/* config-blas.h
* Copyright (C) 2005 Pascal Giorgi
* 2007 Clement Pernet
* Written by Pascal Giorgi <pgiorgi@uwaterloo.ca>
*
* ========LICENCE========
* This file is part of the library FFLAS-FFPACK.
*
* FFLAS-FFPACK 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 2.1 of the License, or (at your option) any later version.
*
* This library 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 this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
* ========LICENCE========
*
*/
#ifndef __FFLASFFPACK_config_blas_H
#define __FFLASFFPACK_config_blas_H
// #include "fflas-ffpack/utils/fflas_memory.h"
// #ifndef __FFLASFFPACK_CONFIGURATION
// #include "fflas-ffpack/fflas-ffpack-config.h"
// #endif
// #ifdef OPTIMISATION_MODE
// #include "fflas-ffpack/config.h"
// #endif
#ifdef HAVE_MKL
#define __FFLASFFPACK_HAVE_MKL
#endif
#ifdef __FFLASFFPACK_HAVE_MKL
#include <mkl.h>
#endif
#ifndef CBLAS_INT
#ifdef blasint /* openblas */
#define CBLAS_INT blasint
#elif defined( MKL_INT )
#define CBLAS_INT MKL_INT
#else
#define CBLAS_INT int
#endif /* blasint */
#endif /* CBLAS_INT */
#ifdef CUDA_BLAS
#define sgemv_ cublas_sgemv
#define sgemm_ cublas_sgemm
#define strsm_ cublas_strsm
#define strmm_ cublas_strmm
#endif // CUDA_BLAS
#ifndef __FFLASFFPACK_HAVE_MKL
#define CBLAS_ENUM_DEFINED_H
enum CBLAS_ORDER {CblasRowMajor=101, CblasColMajor=102 };
enum CBLAS_TRANSPOSE {CblasNoTrans=111, CblasTrans=112, CblasConjTrans=113, AtlasConj=114};
enum CBLAS_UPLO {CblasUpper=121, CblasLower=122};
enum CBLAS_DIAG {CblasNonUnit=131, CblasUnit=132};
enum CBLAS_SIDE {CblasLeft=141, CblasRight=142};
// #define CBLAS_INDEX int
#ifndef __FFLASFFPACK_HAVE_CBLAS
// CBLAS are not available define our own wrapper
// define external link to BLAS function
extern "C" {
#define CBLAS_EXTERNALS
static const char* EXT_BLAS_TRANSPOSE (CBLAS_TRANSPOSE t) { if (t == CblasNoTrans) return "N"; else if (t == CblasTrans) return "T"; else return "";}
static const char* EXT_BLAS_TRANSPOSE_tr (CBLAS_TRANSPOSE t) { if (t == CblasNoTrans) return "T"; else if (t == CblasTrans) return "N"; else return "";}
static const char* EXT_BLAS_UPLO (CBLAS_UPLO t) { if (t == CblasUpper) return "U"; else return "L";}
static const char* EXT_BLAS_UPLO_tr (CBLAS_UPLO t) { if (t == CblasUpper) return "L"; else return "U";}
static const char* EXT_BLAS_DIAG (CBLAS_DIAG t) { if (t == CblasUnit) return "U"; else return "N";}
static const char* EXT_BLAS_SIDE (CBLAS_SIDE t) { if (t == CblasLeft) return "L"; else return "R";}
static const char* EXT_BLAS_SIDE_tr (CBLAS_SIDE t) { if (t == CblasLeft) return "R"; else return "L";}
// level 1 routines
void daxpy_ (const int*, const double*, const double*, const int*, double*, const int*);
void saxpy_ (const int*, const float*, const float*, const int*, float*, const int*);
double ddot_ (const int*, const double*, const int*, const double*, const int*);
float sdot_ (const int*, const float*, const int*, const float*, const int*);
double dasum_ (const int*, const double*, const int*);
int idamax_ (const int*, const double*, const int*);
double dnrm2_ (const int*, const double*, const int*);
// level 2 routines
void dgemv_ (const char*, const int*, const int*, const double*, const double*, const int*, const double*, const int*, const double*, double*, const int*);
void sgemv_ (const char*, const int*, const int*, const float*, const float*, const int*, const float*, const int*, const float*, float*, const int*);
void dger_ (const int*, const int*, const double*, const double*, const int*, const double*, const int*, double*, const int*);
void sger_ (const int*, const int*, const float*, const float*, const int*, const float*, const int*, float*, const int*);
void dcopy_ (const int *, const double *, const int *, double *, const int *);
void scopy_ (const int *, const float *, const int *, float *, const int *);
void dscal_ (const int *, const double *, double *, const int *);
void sscal_ (const int *, const float *, float *, const int *);
// level 3 routines
void dtrsm_ (const char*, const char*, const char*, const char*, const int*, const int*, const double*, const double*, const int*, double*, const int*);
void strsm_ (const char*, const char*, const char*, const char*, const int*, const int*, const float*, const float*, const int*, float*, const int*);
void dtrmm_ (const char*, const char*, const char*, const char*, const int*, const int*, const double*, const double*, const int*, double*, const int*);
void strmm_ (const char*, const char*, const char*, const char*, const int*, const int*, const float*, const float*, const int*, float*, const int*);
void sgemm_ (const char*, const char*, const int*, const int*, const int*, const float*, const float*, const int*, const float*, const int*, const float*, float*, const int*);
void dgemm_ (const char*, const char*, const int*, const int*, const int*, const double*, const double*, const int*, const double*, const int*, const double*, double*, const int*);
}
// define C wrappers
extern "C" {
// level 1 routines
inline void cblas_daxpy(const int N, const double alpha, const double *X, const int incX, double *Y, const int incY)
{
daxpy_ (&N,&alpha, X, &incX, Y, &incY);
}
inline void cblas_saxpy(const int N, const float alpha, const float *X, const int incX, float *Y, const int incY)
{
saxpy_ (&N,&alpha, X, &incX, Y, &incY);
}
inline double cblas_ddot(const int N, const double *X, const int incX, const double *Y, const int incY)
{
return ddot_ (&N, X, &incX, Y, &incY);
}
inline float cblas_sdot(const int N, const float *X, const int incX, const float *Y, const int incY)
{
return sdot_ (&N, X, &incX, Y, &incY);
}
inline double cblas_dasum(const int N, const double *X, const int incX){
return dasum_ (&N, X, &incX);
}
inline int cblas_idamax(const int N, const double *X, const int incX){
return idamax_ (&N, X, &incX);
}
inline double cblas_dnrm2(const int N, const double *X, const int incX){
return dnrm2_(&N, X, &incX);
}
// level 2 routines
inline void cblas_dgemv(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const double alpha,
const double *A, const int lda, const double *X, const int incX, const double beta, double *Y, const int incY)
{
if (Order == CblasRowMajor)
dgemv_ ( EXT_BLAS_TRANSPOSE_tr(TransA), &N, &M, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
else
dgemv_ ( EXT_BLAS_TRANSPOSE(TransA), &M, &N, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
}
inline void cblas_sgemv(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const float alpha,
const float *A, const int lda, const float *X, const int incX, const float beta, float *Y, const int incY)
{
if (Order == CblasRowMajor)
sgemv_ ( EXT_BLAS_TRANSPOSE_tr(TransA), &N, &M, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
else
sgemv_ ( EXT_BLAS_TRANSPOSE(TransA), &M, &N, &alpha, A, &lda, X, &incX, &beta, Y, &incY);
}
inline void cblas_dger(const enum CBLAS_ORDER Order, const int M, const int N, const double alpha, const double *X, const int incX,
const double *Y, const int incY, double *A, const int lda)
{
if (Order == CblasRowMajor)
dger_ (&N, &M, &alpha, Y, &incY, X, &incX, A, &lda);
else
dger_ (&M, &N, &alpha, X, &incX, Y, &incY, A, &lda);
}
inline void cblas_sger(const enum CBLAS_ORDER Order, const int M, const int N, const float alpha, const float *X, const int incX,
const float *Y, const int incY, float *A, const int lda)
{
if (Order == CblasRowMajor)
sger_ (&N, &M, &alpha, Y, &incY, X, &incX, A, &lda);
else
sger_ (&M, &N, &alpha, X, &incX, Y, &incY, A, &lda);
}
void cblas_dcopy(const int N, const double *X, const int incX, double *Y, const int incY)
{
dcopy_(&N,X,&incX,Y,&incY);
}
void cblas_scopy(const int N, const float *X, const int incX, float *Y, const int incY)
{
scopy_(&N,X,&incX,Y,&incY);
}
void cblas_dscal(const int N, const double alpha, double *Y, const int incY)
{
dscal_(&N,&alpha,Y,&incY);
}
void cblas_sscal(const int N, const float alpha, float *Y, const int incY)
{
sscal_(&N,&alpha,Y,&incY);
}
// level 3 routines
inline void cblas_dtrsm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const double alpha, const double *A, const int lda,
double *B, const int ldb)
{
if (Order == CblasRowMajor)
dtrsm_ ( EXT_BLAS_SIDE_tr(Side), EXT_BLAS_UPLO_tr(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &N, &M, &alpha, A, &lda, B, &ldb);
else
dtrsm_ ( EXT_BLAS_SIDE(Side), EXT_BLAS_UPLO(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &M, &N, &alpha, A, &lda, B, &ldb);
}
inline void cblas_strsm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const float alpha, const float *A, const int lda,
float *B, const int ldb)
{
if (Order == CblasRowMajor)
strsm_ ( EXT_BLAS_SIDE_tr(Side), EXT_BLAS_UPLO_tr(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &N, &M, &alpha, A, &lda, B, &ldb);
else
strsm_ ( EXT_BLAS_SIDE(Side), EXT_BLAS_UPLO(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &M, &N, &alpha, A, &lda, B, &ldb);
}
inline void cblas_dtrmm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const double alpha, const double *A, const int lda,
double *B, const int ldb)
{
if (Order == CblasRowMajor)
dtrmm_ ( EXT_BLAS_SIDE_tr(Side), EXT_BLAS_UPLO_tr(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &N, &M, &alpha, A, &lda, B, &ldb);
else
dtrmm_ ( EXT_BLAS_SIDE(Side), EXT_BLAS_UPLO(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &M, &N, &alpha, A, &lda, B, &ldb);
}
inline void cblas_strmm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const float alpha, const float *A, const int lda,
float *B, const int ldb)
{
if (Order == CblasRowMajor)
strmm_ ( EXT_BLAS_SIDE_tr(Side), EXT_BLAS_UPLO_tr(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &N, &M, &alpha, A, &lda, B, &ldb);
else
strmm_ ( EXT_BLAS_SIDE(Side), EXT_BLAS_UPLO(Uplo), EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_DIAG(Diag), &M, &N, &alpha, A, &lda, B, &ldb);
}
inline void cblas_dgemm(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const enum CBLAS_TRANSPOSE TransB, const int M, const int N,
const int K, const double alpha, const double *A, const int lda, const double *B, const int ldb,
const double beta, double *C, const int ldc)
{
if (Order == CblasRowMajor)
dgemm_ ( EXT_BLAS_TRANSPOSE(TransB), EXT_BLAS_TRANSPOSE(TransA), &N, &M, &K, &alpha, B, &ldb, A, &lda, &beta, C, &ldc);
else
dgemm_ ( EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_TRANSPOSE(TransB), &M, &N, &K, &alpha, A, &lda, B, &ldb, &beta, C, &ldc);
}
inline void cblas_sgemm(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const enum CBLAS_TRANSPOSE TransB, const int M, const int N,
const int K, const float alpha, const float *A, const int lda, const float *B, const int ldb,
const float beta, float *C, const int ldc)
{
if (Order == CblasRowMajor)
sgemm_ ( EXT_BLAS_TRANSPOSE(TransB), EXT_BLAS_TRANSPOSE(TransA), &N, &M, &K, &alpha, B, &ldb, A, &lda, &beta, C, &ldc);
else
sgemm_ ( EXT_BLAS_TRANSPOSE(TransA), EXT_BLAS_TRANSPOSE(TransB), &M, &N, &K, &alpha, A, &lda, B, &ldb, &beta, C, &ldc);
}
}
#else // CBLAS PRESENT
extern "C" {
int cblas_errprn(int ierr, int info, char *form, ...);
// level 1 routines
void cblas_daxpy(const int N, const double alpha, const double *X, const int incX, double *Y, const int incY);
void cblas_saxpy(const int N, const float alpha, const float *X, const int incX, float *Y, const int incY);
double cblas_ddot(const int N, const double *X, const int incX, const double *Y, const int incY);
float cblas_sdot(const int N, const float *X, const int incX, const float *Y, const int incY);
double cblas_dasum(const int N, const double *X, const int incX);
int cblas_idamax(const int N, const double *X, const int incX);
double cblas_dnrm2(const int N, const double *X, const int incX);
// level 2 routines
void cblas_dgemv(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const double alpha,
const double *A, const int lda, const double *X, const int incX, const double beta, double *Y, const int incY);
void cblas_sgemv(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const float alpha,
const float *A, const int lda, const float *X, const int incX, const float beta, float *Y, const int incY);
void cblas_dger(const enum CBLAS_ORDER Order, const int M, const int N, const double alpha, const double *X, const int incX,
const double *Y, const int incY, double *A, const int lda);
void cblas_sger(const enum CBLAS_ORDER Order, const int M, const int N, const float alpha, const float *X, const int incX,
const float *Y, const int incY, float *A, const int lda);
void cblas_dcopy(const int N, const double *X, const int incX,
double *Y, const int incY);
void cblas_scopy(const int N, const float *X, const int incX,
float *Y, const int incY);
void cblas_dscal(const int N, const double alpha,
double *Y, const int incY);
void cblas_sscal(const int N, const float alpha,
float *Y, const int incY);
// level 3 routines
void cblas_dtrsm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const double alpha, const double *A, const int lda,
double *B, const int ldb);
void cblas_strsm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const float alpha, const float *A, const int lda,
float *B, const int ldb);
void cblas_dtrmm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const double alpha, const double *A, const int lda,
double *B, const int ldb);
void cblas_strmm(const enum CBLAS_ORDER Order, const enum CBLAS_SIDE Side, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE TransA,
const enum CBLAS_DIAG Diag, const int M, const int N, const float alpha, const float *A, const int lda,
float *B, const int ldb);
void cblas_dgemm(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const enum CBLAS_TRANSPOSE TransB, const int M, const int N,
const int K, const double alpha, const double *A, const int lda, const double *B, const int ldb,
const double beta, double *C, const int ldc) ;
void cblas_sgemm(const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const enum CBLAS_TRANSPOSE TransB, const int M, const int N,
const int K, const float alpha, const float *A, const int lda, const float *B, const int ldb,
const float beta, float *C, const int ldc) ;
}
#endif // CBLAS ?
#endif // __FFLASFFPACK_HAVE_MKL
#ifdef __FFLASFFPACK_HAVE_MKL
#define blas_enum
#else
#define blas_enum enum
#endif
#ifdef __FFLASFFPACK_HAVE_LAPACK
#ifndef __FFLASFFPACK_HAVE_CLAPACK
#ifndef CBLAS_EXTERNALS
#define CBLAS_EXTERNALS
// static const char* EXT_BLAS_TRANSPOSE (CBLAS_TRANSPOSE t) { if (t == CblasNoTrans) return "N"; else if (t == CblasTrans) return "T"; else return "";}
// static const char* EXT_BLAS_TRANSPOSE_tr (CBLAS_TRANSPOSE t) { if (t == CblasNoTrans) return "T"; else if (t == CblasTrans) return "N"; else return "";}
static const char* EXT_BLAS_UPLO (CBLAS_UPLO t) { if (t == CblasUpper) return "U"; else return "L";}
static const char* EXT_BLAS_UPLO_tr (CBLAS_UPLO t) { if (t == CblasUpper) return "L"; else return "U";}
static const char* EXT_BLAS_DIAG (CBLAS_DIAG t) { if (t == CblasUnit) return "U"; else return "N";}
// static const char* EXT_BLAS_SIDE (CBLAS_SIDE t) { if (t == CblasLeft) return "L"; else return "R";}
// static const char* EXT_BLAS_SIDE_tr (CBLAS_SIDE t) { if (t == CblasLeft) return "R"; else return "L";}
#endif // CBLAS_EXTERNALS
// define external link to LAPACK routines
extern "C" {
//!@bug we should also allow lapacke from MLK
void dgetrf_ (const CBLAS_INT *, const CBLAS_INT *, double *, const CBLAS_INT *, CBLAS_INT *, CBLAS_INT *);
void dgetri_ (const CBLAS_INT *, double *, const CBLAS_INT *, const CBLAS_INT *, double *, const CBLAS_INT *, CBLAS_INT *);
void dtrtri_ (const char *, const char *, const CBLAS_INT *, double *, const CBLAS_INT *, CBLAS_INT *);
void dswap_ (const CBLAS_INT *, double *, const CBLAS_INT *, double *, const CBLAS_INT *);
}
// define C wrappers
extern "C" {
// LAPACK routines
// return A=P.L.U (L unitary) with ColMajor
// return A=L.U.P (U unitary) with RowMajor
//! @bug Order is not used. we should use ATLAS/interfaces/lapack/C/src/clapack_dgetrf.c or similar
inline CBLAS_INT clapack_dgetrf(const blas_enum CBLAS_ORDER, const CBLAS_INT M, const CBLAS_INT N,
double *A, const CBLAS_INT lda, CBLAS_INT *ipiv)
{
CBLAS_INT info;
dgetrf_ ( &M, &N, A, &lda, ipiv, &info);
return info;
}
inline CBLAS_INT clapack_dgetri(const blas_enum CBLAS_ORDER, const CBLAS_INT N, double *A,
const CBLAS_INT lda, const CBLAS_INT *ipiv)
{
CBLAS_INT info;
double *work;
#ifndef __FFLASFFPACK_AUTOIMPLEMENT_DGETRI
// the optimum size of work can be determCBLAS_INTed via the
// Lapack function ilaenv.
work= new double[N];
dgetri_ (&N, A, &lda, ipiv, work, &N, &info);
delete[] work;
#else
work= new double[N*N];
dtrtri_("U","N", &N, A, &lda, &info);
if (info > 0)
return 0;
for (CBLAS_INT i=0;i<N;++i){
for(CBLAS_INT j=i;j<N;++j){
work[i*N+j]=A[i*N+j];
if (j>i) A[i*N+j]=0.0;
}
work[i*N+i]=1.;
}
double cst=1.;
dtrsm_ ("R", "L", "N", "U", &N, &N, &cst, work, &N, A, &N);
CBLAS_INT ip;
const CBLAS_INT incr=1;
for (CBLAS_INT i=0; i<N; ++i){
ip = ipiv[i]-1;
if (ip != i)
dswap_ (&N, &A[i*lda],&incr , &A[ip*lda], &incr);
}
delete[] work;
#endif
return info;
}
inline CBLAS_INT clapack_dtrtri(const blas_enum CBLAS_ORDER Order,const blas_enum CBLAS_UPLO Uplo,
const blas_enum CBLAS_DIAG Diag,const CBLAS_INT N, double *A, const CBLAS_INT lda)
{
CBLAS_INT info;
if (Order == CblasRowMajor)
dtrtri_ (EXT_BLAS_UPLO_tr(Uplo), EXT_BLAS_DIAG(Diag), &N, A, &lda, &info);
else
dtrtri_ (EXT_BLAS_UPLO(Uplo), EXT_BLAS_DIAG(Diag), &N, A, &lda, &info);
return info;
}
}
#else // CLAPACK PRESENT
// define external link to CLAPACK routines
extern "C" {
// LAPACK routines
CBLAS_INT clapack_dgetrf(const blas_enum CBLAS_ORDER Order, const CBLAS_INT M, const CBLAS_INT N,
double *A, const CBLAS_INT lda, CBLAS_INT *ipiv);
CBLAS_INT clapack_dgetri(const blas_enum CBLAS_ORDER Order, const CBLAS_INT N, double *A,
const CBLAS_INT lda, const CBLAS_INT *ipiv);
CBLAS_INT clapack_dtrtri(const blas_enum CBLAS_ORDER Order,const blas_enum CBLAS_UPLO Uplo,
const blas_enum CBLAS_DIAG Diag,const CBLAS_INT N, double *A, const CBLAS_INT lda);
}
#endif // CLAPACK ?
#endif // LAPACK ?
#endif //__FFLASFFPACK_config_blas_H
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