/usr/include/code_saturne/cs_grid.h is in code-saturne-include 3.2.1-1build1.
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#define __CS_GRID_H__
/*============================================================================
* Grid connectivity and data used for multigrid coarsening
* and associated matrix construction.
*============================================================================*/
/*
This file is part of Code_Saturne, a general-purpose CFD tool.
Copyright (C) 1998-2013 EDF S.A.
This program 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 2 of the License, or (at your option) any later
version.
This program 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
this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
/*----------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------
* Local headers
*----------------------------------------------------------------------------*/
#include "cs_base.h"
#include "cs_halo.h"
#include "cs_matrix.h"
/*----------------------------------------------------------------------------*/
BEGIN_C_DECLS
/*============================================================================
* Macro definitions
*============================================================================*/
/*============================================================================
* Type definitions
*============================================================================*/
/* Structure associated with opaque grid object */
typedef struct _cs_grid_t cs_grid_t;
/*============================================================================
* Global variables
*============================================================================*/
/*============================================================================
* Public function prototypes Fortran API
*============================================================================*/
/*----------------------------------------------------------------------------
* Set the default parameters for multigrid coarsening.
*----------------------------------------------------------------------------*/
void CS_PROCF(clmopt, CLMOPT)
(
const cs_int_t *mltmmn, /* <-- Mean number of cells under which merging
* should take place */
const cs_int_t *mltmgl, /* <-- Global number of cells under which
* merging should take place */
const cs_int_t *mltmmr, /* <-- Number of active ranks under which no
* merging takes place */
const cs_int_t *mltmst, /* <-- Number of ranks over which merging
* takes place */
const cs_int_t *mlttyp /* <-- Coarsening algorithm selection */
);
/*----------------------------------------------------------------------------
* Print the default parameters for multigrid coarsening.
*----------------------------------------------------------------------------*/
void CS_PROCF(clmimp, CLMIMP)
(
void
);
/*----------------------------------------------------------------------------
* Order an array of real numbers by increasing value.
*----------------------------------------------------------------------------*/
void CS_PROCF(clmlgo, CLMLGO)
(
const cs_int_t *nfac, /* <-- Number of internal faces */
const cs_real_t critr[], /* <-- Array to order */
cs_int_t iord[] /* <-> ordering */
);
/*=============================================================================
* Public function prototypes
*============================================================================*/
/*----------------------------------------------------------------------------
* Create base grid by mapping from shared mesh values.
*
* Note that as arrays given as arguments are shared by the created grid
* (which can only access them, not modify them), the grid should be
* destroyed before those arrays.
*
* parameters:
* n_cells <-- Local number of cells
* n_cells_ext <-- Local number of cells + ghost cells
* n_faces <-- Local number of faces
* symmetric <-- True if xam is symmetric, false otherwise
* diag_block_size <-- Block sizes for diagonal, or NULL
* extra_diag_block_size <-- Block sizes for extra diagonal, or NULL
* face_cell <-- Face -> cells connectivity (1 to n)
* halo <-- Halo structure associated with this level,
* or NULL.
* numbering <-- vectorization or thread-related numbering info,
* or NULL.
* cell_cen <-- Cell center (size: 3.n_cells_ext)
* cell_vol <-- Cell volume (size: n_cells_ext)
* face_normal <-- Internal face normals (size: 3.n_faces)
* da <-- Matrix diagonal (size: n_cell_ext)
* xa <-- Matrix extra-diagonal terms
* (size: n_faces if symmetric, 2.n_faces otherwise)
*
* returns:
* base grid structure
*----------------------------------------------------------------------------*/
cs_grid_t *
cs_grid_create_from_shared(cs_lnum_t n_cells,
cs_lnum_t n_cells_ext,
cs_lnum_t n_faces,
bool symmetric,
const int *diag_block_size,
const int *extra_diag_block_size,
const cs_lnum_t *face_cell,
const cs_halo_t *halo,
const cs_numbering_t *numbering,
const cs_real_t *cell_cen,
const cs_real_t *cell_vol,
const cs_real_t *face_normal,
const cs_real_t *da,
const cs_real_t *xa);
/*----------------------------------------------------------------------------
* Destroy a grid structure.
*
* parameters:
* grid <-> Pointer to grid structure pointer
*----------------------------------------------------------------------------*/
void
cs_grid_destroy(cs_grid_t **grid);
/*----------------------------------------------------------------------------
* Get grid information.
*
* parameters:
* g <-- Grid structure
* level --> Level in multigrid hierarchy (or NULL)
* symmetric --> Symmetric matrix coefficients indicator (or NULL)
* db_size --> Size of the diagonal block (or NULL)
* eb_size --> Size of the extra diagonal block (or NULL)
* n_ranks --> number of ranks with data (or NULL)
* n_cells --> Number of local cells (or NULL)
* n_cells_ext --> Number of cells including ghosts (or NULL)
* n_faces --> Number of faces (or NULL)
* n_g_cells --> Number of global cells (or NULL)
*----------------------------------------------------------------------------*/
void
cs_grid_get_info(const cs_grid_t *g,
int *level,
bool *symmetric,
int *db_size,
int *eb_size,
int *n_ranks,
cs_lnum_t *n_cells,
cs_lnum_t *n_cells_ext,
cs_lnum_t *n_faces,
cs_gnum_t *n_g_cells);
/*----------------------------------------------------------------------------
* Get number of cells corresponding to a grid.
*
* parameters:
* g <-- Grid structure
*
* returns:
* number of cells of grid structure
*----------------------------------------------------------------------------*/
cs_lnum_t
cs_grid_get_n_cells(const cs_grid_t *g);
/*----------------------------------------------------------------------------
* Get number of extended (local + ghost) cells corresponding to a grid.
*
* parameters:
* g <-- Grid structure
*
* returns:
* number of extended cells of grid structure
*----------------------------------------------------------------------------*/
cs_lnum_t
cs_grid_get_n_cells_ext(const cs_grid_t *g);
/*----------------------------------------------------------------------------
* Get maximum number of extended (local + ghost) cells corresponding to
* a grid, both with and without merging between ranks
*
* parameters:
* g <-- Grid structure
*
* returns:
* maximum number of extended cells of grid structure, with or without
* merging
*----------------------------------------------------------------------------*/
cs_lnum_t
cs_grid_get_n_cells_max(const cs_grid_t *g);
/*----------------------------------------------------------------------------
* Get global number of cells corresponding to a grid.
*
* parameters:
* g <-- Grid structure
*
* returns:
* global number of cells of grid structure
*----------------------------------------------------------------------------*/
cs_gnum_t
cs_grid_get_n_g_cells(const cs_grid_t *g);
/*----------------------------------------------------------------------------
* Get grid's associated matrix information.
*
* parameters:
* g <-- Grid structure
*
* returns:
* pointer to matrix structure
*----------------------------------------------------------------------------*/
const cs_matrix_t *
cs_grid_get_matrix(const cs_grid_t *g);
#if defined(HAVE_MPI)
/*----------------------------------------------------------------------------
* Get the MPI subcommunicator for a given grid.
*
* parameters:
* g <-- Grid structure
*
* returns:
* MPI communicator
*----------------------------------------------------------------------------*/
MPI_Comm
cs_grid_get_comm(const cs_grid_t *g);
#endif
/*----------------------------------------------------------------------------
* Create coarse grid from fine grid.
*
* parameters:
* f <-- Fine grid structure
* verbosity <-- Verbosity level
* aggregation_limit <-- Maximum allowed fine cells per coarse cell
* relaxation_parameter <-- P0/P1 relaxation factor
*
* returns:
* coarse grid structure
*----------------------------------------------------------------------------*/
cs_grid_t *
cs_grid_coarsen(const cs_grid_t *f,
int verbosity,
int aggregation_limit,
double relaxation_parameter);
/*----------------------------------------------------------------------------
* Compute coarse cell variable values from fine cell values
*
* parameters:
* f <-- Fine grid structure
* c <-- Fine grid structure
* f_var <-- Variable defined on fine grid cells
* c_var --> Variable defined on coarse grid cells
*
* returns:
* coarse grid structure
*----------------------------------------------------------------------------*/
void
cs_grid_restrict_cell_var(const cs_grid_t *f,
const cs_grid_t *c,
const cs_real_t *f_var,
cs_real_t *c_var);
/*----------------------------------------------------------------------------
* Compute fine cell integer values from coarse cell values
*
* parameters:
* c <-- Fine grid structure
* f <-- Fine grid structure
* c_num --> Variable defined on coarse grid cells
* f_num <-- Variable defined on fine grid cells
*----------------------------------------------------------------------------*/
void
cs_grid_prolong_cell_num(const cs_grid_t *c,
const cs_grid_t *f,
int *c_num,
int *f_num);
/*----------------------------------------------------------------------------
* Compute fine cell variable values from coarse cell values
*
* parameters:
* c <-- Fine grid structure
* f <-- Fine grid structure
* c_var --> Variable defined on coarse grid cells
* f_var <-- Variable defined on fine grid cells
*----------------------------------------------------------------------------*/
void
cs_grid_prolong_cell_var(const cs_grid_t *c,
const cs_grid_t *f,
cs_real_t *c_var,
cs_real_t *f_var);
/*----------------------------------------------------------------------------
* Project coarse grid cell numbers to base grid.
*
* If a global coarse grid cell number is larger than max_num, its
* value modulo max_num is used.
*
* parameters:
* g <-- Grid structure
* n_base_cells <-- Number of cells in base grid
* max_num <-- Values of c_cell_num = global_num % max_num
* c_cell_num --> Global coarse cell number (modulo max_num)
*----------------------------------------------------------------------------*/
void
cs_grid_project_cell_num(const cs_grid_t *g,
cs_lnum_t n_base_cells,
int max_num,
int c_cell_num[]);
/*----------------------------------------------------------------------------
* Project coarse grid cell rank to base grid.
*
* parameters:
* g <-- Grid structure
* n_base_cells <-- Number of cells in base grid
* f_cell_rank --> Global coarse cell rank projected to fine cells
*----------------------------------------------------------------------------*/
void
cs_grid_project_cell_rank(const cs_grid_t *g,
cs_lnum_t n_base_cells,
int f_cell_rank[]);
/*----------------------------------------------------------------------------
* Project variable from coarse grid to base grid
*
* parameters:
* g <-- Grid structure
* n_base_cells <-- Number of cells in base grid
* c_var <-- Cell variable on coarse grid
* f_var --> Cell variable projected to fine grid
*----------------------------------------------------------------------------*/
void
cs_grid_project_var(const cs_grid_t *g,
cs_lnum_t n_base_cells,
const cs_real_t c_var[],
cs_real_t f_var[]);
/*----------------------------------------------------------------------------
* Compute diagonal dominance metric and project it to base grid
*
* parameters:
* g <-- Grid structure
* n_base_cells <-- Number of cells in base grid
* diag_dom --> Diagonal dominance metric (on fine grid)
*----------------------------------------------------------------------------*/
void
cs_grid_project_diag_dom(const cs_grid_t *g,
cs_lnum_t n_base_cells,
cs_real_t diag_dom[]);
/*----------------------------------------------------------------------------
* Get the default parameters for multigrid coarsening.
*
* parameters:
* merge_mean_threshold --> mean number of cells under which merging
* should take place, or NULL
* merge_glob_threshold --> global number of cells under which merging
* should take place, or NULL
* merge_min_ranks --> number of active ranks under which no merging
* takes place, or NULL
* merge_stride --> number of ranks over which merging takes place,
* or NULL
* coarsening_type --> coarsening type:
* 0: algebraic with natural face traversal;
* 1: algebraic with face traveral by criteria;
* 2: algebraic with Hilbert face traversal;
*----------------------------------------------------------------------------*/
void
cs_grid_get_defaults(int *merge_mean_threshold,
int *merge_glob_threshold,
int *merge_min_ranks,
int *merge_stride,
int *coarsening_type);
/*----------------------------------------------------------------------------
* Set the default parameters for multigrid coarsening.
*
* parameters:
* merge_mean_threshold <-- mean number of cells under which merging
* should take place
* merge_glob_threshold <-- global number of cells under which merging
* should take place
* merge_min_ranks <-- number of active ranks under which no merging
* takes place
* merge_stride <-- number of ranks over which merging takes place
* coarsening_type <-- coarsening type:
* 0: algebraic with natural face traversal;
* 1: algebraic with face traveral by criterai;
* 2: algebraic with Hilbert face traversal;
*----------------------------------------------------------------------------*/
void
cs_grid_set_defaults(int merge_mean_threshold,
int merge_glob_threshold,
int merge_min_ranks,
int merge_stride,
int coarsening_type);
/*----------------------------------------------------------------------------
* Return the merge_stride if merging is active.
*
* returns:
* grid merge stride if merging is active, 1 otherwise
*----------------------------------------------------------------------------*/
int
cs_grid_get_merge_stride(void);
/*----------------------------------------------------------------------------
* Print the default parameters for multigrid coarsening.
*----------------------------------------------------------------------------*/
void
cs_grid_log_defaults(void);
/*----------------------------------------------------------------------------
* Finalize global info related to multigrid solvers
*----------------------------------------------------------------------------*/
void
cs_grid_finalize(void);
/*----------------------------------------------------------------------------
* Dump grid structure
*
* parameters:
* g <-- grid structure that should be dumped
*----------------------------------------------------------------------------*/
void
cs_grid_dump(const cs_grid_t *g);
/*----------------------------------------------------------------------------*/
END_C_DECLS
#endif /* __CS_GRID_H__ */
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