/usr/include/octave-4.0.3/octave/oct-fftw.h is in liboctave-dev 4.0.3-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 2001-2015 John W. Eaton
This file is part of Octave.
Octave is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3 of the License, or (at your
option) any later version.
Octave 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 General Public License
for more details.
You should have received a copy of the GNU General Public License
along with Octave; see the file COPYING. If not, see
<http://www.gnu.org/licenses/>.
*/
#if !defined (octave_oct_fftw_h)
#define octave_oct_fftw_h 1
#include <cstddef>
#if defined (HAVE_FFTW3_H)
#include <fftw3.h>
#endif
#include "oct-cmplx.h"
#include "dim-vector.h"
#if defined (HAVE_FFTW)
class
OCTAVE_API
octave_fftw_planner
{
protected:
octave_fftw_planner (void);
public:
~octave_fftw_planner (void);
enum FftwMethod
{
UNKNOWN = -1,
ESTIMATE,
MEASURE,
PATIENT,
EXHAUSTIVE,
HYBRID
};
static bool instance_ok (void);
static fftw_plan
create_plan (int dir, const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const Complex *in,
Complex *out)
{
static fftw_plan dummy;
return instance_ok ()
? instance->do_create_plan (dir, rank, dims, howmany, stride,
dist, in, out)
: dummy;
}
static fftw_plan
create_plan (const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const double *in, Complex *out)
{
static fftw_plan dummy;
return instance_ok ()
? instance->do_create_plan (rank, dims, howmany, stride, dist,
in, out)
: dummy;
}
static FftwMethod method (void)
{
static FftwMethod dummy;
return instance_ok () ? instance->do_method () : dummy;
}
static FftwMethod method (FftwMethod _meth)
{
static FftwMethod dummy;
return instance_ok () ? instance->do_method (_meth) : dummy;
}
#if defined (HAVE_FFTW3F_THREADS)
static void threads (int _nthreads)
{
if (instance_ok () && _nthreads != threads ())
{
instance->nthreads = _nthreads;
fftw_plan_with_nthreads (_nthreads);
//Clear the current plans
instance->rplan = instance->plan[0] = instance->plan[1] = 0;
}
}
static int threads ()
{
return instance_ok () ? instance->nthreads : 0;
}
#endif
private:
// No copying!
octave_fftw_planner (const octave_fftw_planner&);
octave_fftw_planner& operator = (const octave_fftw_planner&);
static octave_fftw_planner *instance;
static void cleanup_instance (void) { delete instance; instance = 0; }
fftw_plan
do_create_plan (int dir, const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const Complex *in,
Complex *out);
fftw_plan
do_create_plan (const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const double *in, Complex *out);
FftwMethod do_method (void);
FftwMethod do_method (FftwMethod _meth);
FftwMethod meth;
// FIXME: perhaps this should be split into two classes?
// Plan for fft and ifft of complex values
fftw_plan plan[2];
// dist
octave_idx_type d[2];
// stride
octave_idx_type s[2];
// rank
int r[2];
// howmany
octave_idx_type h[2];
// dims
dim_vector n[2];
bool simd_align[2];
bool inplace[2];
// Plan for fft of real values
fftw_plan rplan;
// dist
octave_idx_type rd;
// stride
octave_idx_type rs;
// rank
int rr;
// howmany
octave_idx_type rh;
// dims
dim_vector rn;
bool rsimd_align;
#if defined (HAVE_FFTW3_THREADS)
//number of threads when compiled with Multi-threading support
int nthreads;
#endif
};
class
OCTAVE_API
octave_float_fftw_planner
{
protected:
octave_float_fftw_planner (void);
public:
~octave_float_fftw_planner (void);
enum FftwMethod
{
UNKNOWN = -1,
ESTIMATE,
MEASURE,
PATIENT,
EXHAUSTIVE,
HYBRID
};
static bool instance_ok (void);
static fftwf_plan
create_plan (int dir, const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const FloatComplex *in,
FloatComplex *out)
{
static fftwf_plan dummy;
return instance_ok ()
? instance->do_create_plan (dir, rank, dims, howmany, stride,
dist, in, out)
: dummy;
}
static fftwf_plan
create_plan (const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const float *in, FloatComplex *out)
{
static fftwf_plan dummy;
return instance_ok ()
? instance->do_create_plan (rank, dims, howmany, stride, dist,
in, out)
: dummy;
}
static FftwMethod method (void)
{
static FftwMethod dummy;
return instance_ok () ? instance->do_method () : dummy;
}
static FftwMethod method (FftwMethod _meth)
{
static FftwMethod dummy;
return instance_ok () ? instance->do_method (_meth) : dummy;
}
#if defined (HAVE_FFTW3F_THREADS)
static void threads (int _nthreads)
{
if (instance_ok () && _nthreads != threads ())
{
instance->nthreads = _nthreads;
fftwf_plan_with_nthreads (_nthreads);
//Clear the current plans
instance->rplan = instance->plan[0] = instance->plan[1] = 0;
}
}
static int threads ()
{
return instance_ok () ? instance->nthreads : 0;
}
#endif
private:
// No copying!
octave_float_fftw_planner (const octave_float_fftw_planner&);
octave_float_fftw_planner& operator = (const octave_float_fftw_planner&);
static octave_float_fftw_planner *instance;
static void cleanup_instance (void) { delete instance; instance = 0; }
fftwf_plan
do_create_plan (int dir, const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const FloatComplex *in,
FloatComplex *out);
fftwf_plan
do_create_plan (const int rank, const dim_vector dims,
octave_idx_type howmany, octave_idx_type stride,
octave_idx_type dist, const float *in, FloatComplex *out);
FftwMethod do_method (void);
FftwMethod do_method (FftwMethod _meth);
FftwMethod meth;
// FIXME: perhaps this should be split into two classes?
// Plan for fft and ifft of complex values
fftwf_plan plan[2];
// dist
octave_idx_type d[2];
// stride
octave_idx_type s[2];
// rank
int r[2];
// howmany
octave_idx_type h[2];
// dims
dim_vector n[2];
bool simd_align[2];
bool inplace[2];
// Plan for fft of real values
fftwf_plan rplan;
// dist
octave_idx_type rd;
// stride
octave_idx_type rs;
// rank
int rr;
// howmany
octave_idx_type rh;
// dims
dim_vector rn;
bool rsimd_align;
#if defined (HAVE_FFTW3F_THREADS)
//number of threads when compiled with Multi-threading support
int nthreads;
#endif
};
class
OCTAVE_API
octave_fftw
{
public:
static int fft (const double *in, Complex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int fft (const Complex *in, Complex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int ifft (const Complex *in, Complex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int fftNd (const double*, Complex*, const int, const dim_vector &);
static int fftNd (const Complex*, Complex*, const int,
const dim_vector &);
static int ifftNd (const Complex*, Complex*, const int,
const dim_vector &);
static int fft (const float *in, FloatComplex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int fft (const FloatComplex *in, FloatComplex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int ifft (const FloatComplex *in, FloatComplex *out, size_t npts,
size_t nsamples = 1, octave_idx_type stride = 1,
octave_idx_type dist = -1);
static int fftNd (const float*, FloatComplex*, const int, const dim_vector &);
static int fftNd (const FloatComplex*, FloatComplex*, const int,
const dim_vector &);
static int ifftNd (const FloatComplex*, FloatComplex*, const int,
const dim_vector &);
private:
octave_fftw (void);
octave_fftw (const octave_fftw&);
octave_fftw& operator = (const octave_fftw&);
};
#endif
#endif
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