py
/
gaussian-splatting-my


			
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							/*
 * Copyright (c) 2003, 2007-14 Matteo Frigo
 * Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
 *
 * The following statement of license applies *only* to this header file,
 * and *not* to the other files distributed with FFTW or derived therefrom:
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
 * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

/***************************** NOTE TO USERS *********************************
 *
 *                 THIS IS A HEADER FILE, NOT A MANUAL
 *
 *    If you want to know how to use FFTW, please read the manual,
 *    online at http://www.fftw.org/doc/ and also included with FFTW.
 *    For a quick start, see the manual's tutorial section.
 *
 *   (Reading header files to learn how to use a library is a habit
 *    stemming from code lacking a proper manual.  Arguably, it's a
 *    *bad* habit in most cases, because header files can contain
 *    interfaces that are not part of the public, stable API.)
 *
 ****************************************************************************/

#ifndef FFTW3_MPI_H
#define FFTW3_MPI_H

#include "fftw3.h"
#include <mpi.h>

#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */

struct fftw_mpi_ddim_do_not_use_me {
     ptrdiff_t n;                     /* dimension size */
     ptrdiff_t ib;                    /* input block */
     ptrdiff_t ob;                    /* output block */
};

/*
  huge second-order macro that defines prototypes for all API
  functions.  We expand this macro for each supported precision

  XM: name-mangling macro (MPI)
  X: name-mangling macro (serial)
  R: real data type
  C: complex data type
*/

#define FFTW_MPI_DEFINE_API(XM, X, R, C)			\
								\
typedef struct fftw_mpi_ddim_do_not_use_me XM(ddim);		\
								\
FFTW_EXTERN void XM(init)(void);				\
FFTW_EXTERN void XM(cleanup)(void);				\
								\
FFTW_EXTERN ptrdiff_t XM(local_size_many_transposed)		\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t block0, ptrdiff_t block1, MPI_Comm comm,	\
      ptrdiff_t *local_n0, ptrdiff_t *local_0_start,		\
      ptrdiff_t *local_n1, ptrdiff_t *local_1_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_many)			\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t block0, MPI_Comm comm,				\
      ptrdiff_t *local_n0, ptrdiff_t *local_0_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_transposed)			\
     (int rnk, const ptrdiff_t *n, MPI_Comm comm,		\
      ptrdiff_t *local_n0, ptrdiff_t *local_0_start,		\
      ptrdiff_t *local_n1, ptrdiff_t *local_1_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size)				\
     (int rnk, const ptrdiff_t *n, MPI_Comm comm,		\
      ptrdiff_t *local_n0, ptrdiff_t *local_0_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_many_1d)(			\
     ptrdiff_t n0, ptrdiff_t howmany,				\
     MPI_Comm comm, int sign, unsigned flags,			\
     ptrdiff_t *local_ni, ptrdiff_t *local_i_start,		\
     ptrdiff_t *local_no, ptrdiff_t *local_o_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_1d)(			\
     ptrdiff_t n0, MPI_Comm comm, int sign, unsigned flags,	\
     ptrdiff_t *local_ni, ptrdiff_t *local_i_start,		\
     ptrdiff_t *local_no, ptrdiff_t *local_o_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_2d)(			\
     ptrdiff_t n0, ptrdiff_t n1, MPI_Comm comm,			\
     ptrdiff_t *local_n0, ptrdiff_t *local_0_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_2d_transposed)(		\
     ptrdiff_t n0, ptrdiff_t n1, MPI_Comm comm,			\
     ptrdiff_t *local_n0, ptrdiff_t *local_0_start,		\
     ptrdiff_t *local_n1, ptrdiff_t *local_1_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_3d)(			\
     ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2, MPI_Comm comm,	\
     ptrdiff_t *local_n0, ptrdiff_t *local_0_start);		\
FFTW_EXTERN ptrdiff_t XM(local_size_3d_transposed)(		\
     ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2, MPI_Comm comm,	\
     ptrdiff_t *local_n0, ptrdiff_t *local_0_start,		\
     ptrdiff_t *local_n1, ptrdiff_t *local_1_start);		\
								\
FFTW_EXTERN X(plan) XM(plan_many_transpose)			\
     (ptrdiff_t n0, ptrdiff_t n1,				\
      ptrdiff_t howmany, ptrdiff_t block0, ptrdiff_t block1,	\
      R *in, R *out, MPI_Comm comm, unsigned flags);		\
FFTW_EXTERN X(plan) XM(plan_transpose)				\
     (ptrdiff_t n0, ptrdiff_t n1,				\
      R *in, R *out, MPI_Comm comm, unsigned flags);		\
								\
FFTW_EXTERN X(plan) XM(plan_many_dft)				\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t block, ptrdiff_t tblock, C *in, C *out,		\
      MPI_Comm comm, int sign, unsigned flags);			\
FFTW_EXTERN X(plan) XM(plan_dft)				\
     (int rnk, const ptrdiff_t *n, C *in, C *out,		\
      MPI_Comm comm, int sign, unsigned flags);			\
FFTW_EXTERN X(plan) XM(plan_dft_1d)				\
     (ptrdiff_t n0, C *in, C *out,				\
      MPI_Comm comm, int sign, unsigned flags);			\
FFTW_EXTERN X(plan) XM(plan_dft_2d)				\
     (ptrdiff_t n0, ptrdiff_t n1, C *in, C *out,		\
      MPI_Comm comm, int sign, unsigned flags);			\
FFTW_EXTERN X(plan) XM(plan_dft_3d)				\
     (ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2, C *in, C *out,	\
      MPI_Comm comm, int sign, unsigned flags);			\
								\
FFTW_EXTERN X(plan) XM(plan_many_r2r)				\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t iblock, ptrdiff_t oblock, R *in, R *out,	\
      MPI_Comm comm, const X(r2r_kind) *kind, unsigned flags);	\
FFTW_EXTERN X(plan) XM(plan_r2r)				\
     (int rnk, const ptrdiff_t *n, R *in, R *out,		\
      MPI_Comm comm, const X(r2r_kind) *kind, unsigned flags);	\
FFTW_EXTERN X(plan) XM(plan_r2r_2d)				\
     (ptrdiff_t n0, ptrdiff_t n1, R *in, R *out, MPI_Comm comm,	\
      X(r2r_kind) kind0, X(r2r_kind) kind1, unsigned flags);	\
FFTW_EXTERN X(plan) XM(plan_r2r_3d)				\
     (ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2,			\
      R *in, R *out, MPI_Comm comm, X(r2r_kind) kind0,		\
      X(r2r_kind) kind1, X(r2r_kind) kind2, unsigned flags);	\
								\
FFTW_EXTERN X(plan) XM(plan_many_dft_r2c)			\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t iblock, ptrdiff_t oblock, R *in, C *out,	\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_r2c)				\
     (int rnk, const ptrdiff_t *n, R *in, C *out,		\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_r2c_2d)				\
     (ptrdiff_t n0, ptrdiff_t n1, R *in, C *out,		\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_r2c_3d)				\
     (ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2, R *in, C *out,	\
      MPI_Comm comm, unsigned flags);				\
								\
FFTW_EXTERN X(plan) XM(plan_many_dft_c2r)			\
     (int rnk, const ptrdiff_t *n, ptrdiff_t howmany,		\
      ptrdiff_t iblock, ptrdiff_t oblock, C *in, R *out,	\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_c2r)				\
     (int rnk, const ptrdiff_t *n, C *in, R *out,		\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_c2r_2d)				\
     (ptrdiff_t n0, ptrdiff_t n1, C *in, R *out,		\
      MPI_Comm comm, unsigned flags);				\
FFTW_EXTERN X(plan) XM(plan_dft_c2r_3d)				\
     (ptrdiff_t n0, ptrdiff_t n1, ptrdiff_t n2, C *in, R *out,	\
      MPI_Comm comm, unsigned flags);				\
								\
FFTW_EXTERN void XM(gather_wisdom)(MPI_Comm comm_);		\
FFTW_EXTERN void XM(broadcast_wisdom)(MPI_Comm comm_);          \
								\
FFTW_EXTERN void XM(execute_dft)(X(plan) p, C *in, C *out);	\
FFTW_EXTERN void XM(execute_dft_r2c)(X(plan) p, R *in, C *out);	\
FFTW_EXTERN void XM(execute_dft_c2r)(X(plan) p, C *in, R *out);	\
FFTW_EXTERN void XM(execute_r2r)(X(plan) p, R *in, R *out);


/* end of FFTW_MPI_DEFINE_API macro */

#define FFTW_MPI_MANGLE_DOUBLE(name) FFTW_MANGLE_DOUBLE(FFTW_CONCAT(mpi_,name))
#define FFTW_MPI_MANGLE_FLOAT(name) FFTW_MANGLE_FLOAT(FFTW_CONCAT(mpi_,name))
#define FFTW_MPI_MANGLE_LONG_DOUBLE(name) FFTW_MANGLE_LONG_DOUBLE(FFTW_CONCAT(mpi_,name))

FFTW_MPI_DEFINE_API(FFTW_MPI_MANGLE_DOUBLE, FFTW_MANGLE_DOUBLE, double, fftw_complex)
FFTW_MPI_DEFINE_API(FFTW_MPI_MANGLE_FLOAT, FFTW_MANGLE_FLOAT, float, fftwf_complex)
FFTW_MPI_DEFINE_API(FFTW_MPI_MANGLE_LONG_DOUBLE, FFTW_MANGLE_LONG_DOUBLE, long double, fftwl_complex)

#define FFTW_MPI_DEFAULT_BLOCK (0)

/* MPI-specific flags */
#define FFTW_MPI_SCRAMBLED_IN (1U << 27)
#define FFTW_MPI_SCRAMBLED_OUT (1U << 28)
#define FFTW_MPI_TRANSPOSED_IN (1U << 29)
#define FFTW_MPI_TRANSPOSED_OUT (1U << 30)

#ifdef __cplusplus
}  /* extern "C" */
#endif /* __cplusplus */

#endif /* FFTW3_MPI_H */