cs_property.c File Reference

#include "cs_defs.h"
#include <assert.h>
#include <ctype.h>
#include <float.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <bft_mem.h>
#include "cs_log.h"
#include "cs_param_cdo.h"
#include "cs_reco.h"
#include "cs_volume_zone.h"
#include "cs_xdef_eval.h"
#include "cs_property.h"

Include dependency graph for cs_property.c:

Macros
#define	CS_PROPERTY_DBG   0

Functions
void	cs_property_set_shared_pointers (const cs_cdo_quantities_t *quant, const cs_cdo_connect_t *connect)
	Set shared pointers to main domain members. More...
int	cs_property_get_n_properties (void)
	Retrieve the number of properties. More...
cs_property_t *	cs_property_add (const char *name, cs_property_type_t type)
	Create and initialize a new property structure. More...
cs_property_t *	cs_property_add_as_product (const char *name, const cs_property_t *pty_a, const cs_property_t *pty_b)
	Define a cs_property_t structure thanks to the product of two properties The type is infered from that of the related properties The value of the property is given as: value_ab = value_a * value_b. More...
cs_property_t *	cs_property_by_name (const char *name)
	Find the related property definition from its name. More...
cs_property_t *	cs_property_by_id (int id)
	Find the related property definition from its id. More...
void	cs_property_set_option (cs_property_t *pty, cs_property_key_t key)
	Set optional parameters related to a cs_property_t structure. More...
void	cs_property_set_reference_value (cs_property_t *pty, double refval)
	Set the reference value associated to a cs_property_t structure This is a real number even whatever the type of property is. More...
void	cs_property_destroy_all (void)
	Free all cs_property_t structures and the array storing all the structures. More...
void	cs_property_finalize_setup (void)
	Last stage of the definition of a property based on several definitions (i.e. definition by subdomains) More...
void	cs_property_data_init (bool need_tensor, bool need_eigen, const cs_property_t *property, cs_property_data_t *data)
	Initialize a cs_property_data_t structure. If property is NULL then one considers that this is a unitary property. More...
cs_xdef_t *	cs_property_def_constant_value (cs_property_t *pty, double val)
	Define a single uniform and steady isotropic definition for the given cs_property_t structure. This is a specialized variant of cs_property_def_iso_by_value since several assumptions are satisfied. More...
cs_xdef_t *	cs_property_def_iso_by_value (cs_property_t *pty, const char *zname, double val)
	Define an isotropic cs_property_t structure by value for entities related to a volume zone. More...
cs_xdef_t *	cs_property_def_ortho_by_value (cs_property_t *pty, const char *zname, double val[])
	Define an orthotropic cs_property_t structure by value for entities related to a volume zone. More...
cs_xdef_t *	cs_property_def_aniso_by_value (cs_property_t *pty, const char *zname, cs_real_t tens[3][3])
	Define an anisotropic cs_property_t structure by value for entities related to a volume zone. More...
cs_xdef_t *	cs_property_def_aniso_sym_by_value (cs_property_t *pty, const char *zname, cs_real_t symtens[6])
	Define an anisotropic cs_property_t structure by value for entities related to a volume zone. More...
cs_xdef_t *	cs_property_def_by_time_func (cs_property_t *pty, const char *zname, cs_time_func_t *func, void *input)
	Define a cs_property_t structure thanks to an analytic function in a subdomain attached to the mesh location named ml_name. More...
cs_xdef_t *	cs_property_def_by_analytic (cs_property_t *pty, const char *zname, cs_analytic_func_t *func, void *input)
	Define a cs_property_t structure thanks to an analytic function in a subdomain attached to the mesh location named ml_name. More...
cs_xdef_t *	cs_property_def_by_func (cs_property_t *pty, const char *zname, void *context, cs_xdef_eval_t *get_eval_at_cell, cs_xdef_cw_eval_t *get_eval_at_cell_cw)
	Define a cs_property_t structure thanks to law depending on one scalar variable in a subdomain attached to the mesh location named ml_name. More...
cs_xdef_t *	cs_property_def_by_array (cs_property_t *pty, cs_flag_t loc, cs_real_t *array, bool is_owner, cs_lnum_t *index)
	Define a cs_property_t structure thanks to an array of values. More...
void	cs_property_def_by_field (cs_property_t *pty, cs_field_t *field)
	Define a cs_property_t structure thanks to a field structure. More...
void	cs_property_eval_at_cells (cs_real_t t_eval, const cs_property_t *pty, cs_real_t *array)
	Evaluate the value of the property at each cell. Store the evaluation in the given array. More...
void	cs_property_get_cell_tensor (cs_lnum_t c_id, cs_real_t t_eval, const cs_property_t *pty, bool do_inversion, cs_real_t tensor[3][3])
	Compute the value of the tensor attached a property at the cell center. More...
cs_real_t	cs_property_get_cell_value (cs_lnum_t c_id, cs_real_t t_eval, const cs_property_t *pty)
	Compute the value of a property at the cell center. More...
void	cs_property_tensor_in_cell (const cs_cell_mesh_t *cm, const cs_property_t *pty, cs_real_t t_eval, bool do_inversion, cs_real_t tensor[3][3])
	Compute the value of the tensor attached to a property at the cell center Version using a cs_cell_mesh_t structure. More...
cs_real_t	cs_property_value_in_cell (const cs_cell_mesh_t *cm, const cs_property_t *pty, cs_real_t t_eval)
	Compute the value of a property at the cell center Version using a cs_cell_mesh_t structure. More...
void	cs_property_get_fourier (const cs_property_t *pty, cs_real_t t_eval, double dt, cs_real_t fourier[])
	Compute the Fourier number in each cell. More...
void	cs_property_log_setup (void)
	Print a summary of the settings for all defined cs_property_t structures. More...

Macro Definition Documentation

CS_PROPERTY_DBG

#define CS_PROPERTY_DBG   0

Function Documentation

cs_property_add()

cs_property_t* cs_property_add	(	const char *	name,
		cs_property_type_t	type
	)

Create and initialize a new property structure.

Parameters

[in]	name	name of the property
[in]	type	type of property

Returns

a pointer to a new allocated cs_property_t structure

cs_property_add_as_product()

cs_property_t* cs_property_add_as_product	(	const char *	name,
		const cs_property_t *	pty_a,
		const cs_property_t *	pty_b
	)

Define a cs_property_t structure thanks to the product of two properties The type is infered from that of the related properties The value of the property is given as: value_ab = value_a * value_b.

Parameters

[in]	name	name of the property
[in]	pty_a	pointer to a cs_property_t structure
[in]	pty_b	pointer to a cs_property_t structure

Returns

a pointer to a new allocated cs_property_t structure

cs_property_by_id()

cs_property_t* cs_property_by_id

(

int

id

)

Find the related property definition from its id.

Parameters

[in]

id

id of the property to find

Returns

NULL if not found otherwise the associated pointer

cs_property_by_name()

cs_property_t* cs_property_by_name

(

const char *

name

)

Find the related property definition from its name.

Parameters

[in]

name

name of the property to find

Returns

NULL if not found otherwise the associated pointer

cs_property_data_init()

void cs_property_data_init	(	bool	need_tensor,
		bool	need_eigen,
		const cs_property_t *	property,
		cs_property_data_t *	data
	)

Initialize a cs_property_data_t structure. If property is NULL then one considers that this is a unitary property.

Parameters

[in]	need_tensor	true if one needs a tensor-valued evaluation
[in]	need_eigen	true if one needs an evaluation of eigen values
[in]	property	pointer to the cs_property_t structure
[in,out]	data	structure to initialize (already allocated)

cs_property_def_aniso_by_value()

cs_xdef_t* cs_property_def_aniso_by_value	(	cs_property_t *	pty,
		const char *	zname,
		cs_real_t	tens[3][3]
	)

Define an anisotropic cs_property_t structure by value for entities related to a volume zone.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	tens	values to set (3x3 tensor)

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_aniso_sym_by_value()

cs_xdef_t* cs_property_def_aniso_sym_by_value	(	cs_property_t *	pty,
		const char *	zname,
		cs_real_t	symtens[6]
	)

Define an anisotropic cs_property_t structure by value for entities related to a volume zone.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	symtens	values to set (6 values – symmetric storage)

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_by_analytic()

cs_xdef_t* cs_property_def_by_analytic	(	cs_property_t *	pty,
		const char *	zname,
		cs_analytic_func_t *	func,
		void *	input
	)

Define a cs_property_t structure thanks to an analytic function in a subdomain attached to the mesh location named ml_name.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	func	pointer to a cs_analytic_func_t function
[in]	input	NULL or pointer to a structure cast on-the-fly

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_by_array()

cs_xdef_t* cs_property_def_by_array	(	cs_property_t *	pty,
		cs_flag_t	loc,
		cs_real_t *	array,
		bool	is_owner,
		cs_lnum_t *	index
	)

Define a cs_property_t structure thanks to an array of values.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	loc	information to know where are located values
[in]	array	pointer to an array
[in]	is_owner	transfer the lifecycle to the cs_xdef_t structure (true or false)
[in]	index	optional pointer to the array index

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_by_field()

void cs_property_def_by_field	(	cs_property_t *	pty,
		cs_field_t *	field
	)

Define a cs_property_t structure thanks to a field structure.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	field	pointer to a cs_field_t structure

cs_property_def_by_func()

cs_xdef_t* cs_property_def_by_func	(	cs_property_t *	pty,
		const char *	zname,
		void *	context,
		cs_xdef_eval_t *	get_eval_at_cell,
		cs_xdef_cw_eval_t *	get_eval_at_cell_cw
	)

Define a cs_property_t structure thanks to law depending on one scalar variable in a subdomain attached to the mesh location named ml_name.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	context	pointer to a structure (may be NULL)
[in]	get_eval_at_cell	pointer to a function (may be NULL)
[in]	get_eval_at_cell_cw	pointer to a function

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_by_time_func()

cs_xdef_t* cs_property_def_by_time_func	(	cs_property_t *	pty,
		const char *	zname,
		cs_time_func_t *	func,
		void *	input
	)

Define a cs_property_t structure thanks to an analytic function in a subdomain attached to the mesh location named ml_name.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	func	pointer to a cs_analytic_func_t function
[in]	input	NULL or pointer to a structure cast on-the-fly

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_constant_value()

cs_xdef_t* cs_property_def_constant_value	(	cs_property_t *	pty,
		double	val
	)

Define a single uniform and steady isotropic definition for the given cs_property_t structure. This is a specialized variant of cs_property_def_iso_by_value since several assumptions are satisfied.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	val	value to set

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_iso_by_value()

cs_xdef_t* cs_property_def_iso_by_value	(	cs_property_t *	pty,
		const char *	zname,
		double	val
	)

Define an isotropic cs_property_t structure by value for entities related to a volume zone.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	val	value to set

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_def_ortho_by_value()

cs_xdef_t* cs_property_def_ortho_by_value	(	cs_property_t *	pty,
		const char *	zname,
		double	val[]
	)

Define an orthotropic cs_property_t structure by value for entities related to a volume zone.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	zname	name of the associated zone (if NULL or "" all cells are considered)
[in]	val	values to set (vector of size 3)

Returns

a pointer to the resulting cs_xdef_t structure

cs_property_destroy_all()

void cs_property_destroy_all

(

void

)

Free all cs_property_t structures and the array storing all the structures.

cs_property_eval_at_cells()

void cs_property_eval_at_cells	(	cs_real_t	t_eval,
		const cs_property_t *	pty,
		cs_real_t *	array
	)

Evaluate the value of the property at each cell. Store the evaluation in the given array.

Parameters

[in]	t_eval	physical time at which one evaluates the term
[in]	pty	pointer to a cs_property_t structure
[in,out]	array	pointer to an array of values (must be allocated)

cs_property_finalize_setup()

void cs_property_finalize_setup

(

void

)

Last stage of the definition of a property based on several definitions (i.e. definition by subdomains)

cs_property_get_cell_tensor()

void cs_property_get_cell_tensor	(	cs_lnum_t	c_id,
		cs_real_t	t_eval,
		const cs_property_t *	pty,
		bool	do_inversion,
		cs_real_t	tensor[3][3]
	)

Compute the value of the tensor attached a property at the cell center.

Compute the value of the tensor attached to a property at the cell center.

Parameters

[in]	c_id	id of the current cell
[in]	t_eval	physical time at which one evaluates the term
[in]	pty	pointer to a cs_property_t structure
[in]	do_inversion	true or false
[in,out]	tensor	3x3 matrix

cs_property_get_cell_value()

cs_real_t cs_property_get_cell_value	(	cs_lnum_t	c_id,
		cs_real_t	t_eval,
		const cs_property_t *	pty
	)

Compute the value of a property at the cell center.

Parameters

[in]	c_id	id of the current cell
[in]	t_eval	physical time at which one evaluates the term
[in]	pty	pointer to a cs_property_t structure

Returns

the value of the property for the given cell

cs_property_get_fourier()

void cs_property_get_fourier	(	const cs_property_t *	pty,
		cs_real_t	t_eval,
		double	dt,
		cs_real_t	fourier[]
	)

Compute the Fourier number in each cell.

Parameters

[in]	pty	pointer to the diffusive property struct.
[in]	t_eval	physical time at which one evaluates the term
[in]	dt	value of the current time step
[in,out]	fourier	pointer to an array storing Fourier numbers

cs_property_get_n_properties()

int cs_property_get_n_properties

(

void

)

Retrieve the number of properties.

Returns

the number of properties

cs_property_log_setup()

void cs_property_log_setup

(

void

)

Print a summary of the settings for all defined cs_property_t structures.

cs_property_set_option()

void cs_property_set_option	(	cs_property_t *	pty,
		cs_property_key_t	key
	)

Set optional parameters related to a cs_property_t structure.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	key	key related to a setting option

cs_property_set_reference_value()

void cs_property_set_reference_value	(	cs_property_t *	pty,
		double	refval
	)

Set the reference value associated to a cs_property_t structure This is a real number even whatever the type of property is.

Parameters

[in,out]	pty	pointer to a cs_property_t structure
[in]	refval	value to set

cs_property_set_shared_pointers()

void cs_property_set_shared_pointers	(	const cs_cdo_quantities_t *	quant,
		const cs_cdo_connect_t *	connect
	)

Set shared pointers to main domain members.

Parameters

[in]	quant	additional mesh quantities struct.
[in]	connect	pointer to a cs_cdo_connect_t struct.

cs_property_tensor_in_cell()

void cs_property_tensor_in_cell	(	const cs_cell_mesh_t *	cm,
		const cs_property_t *	pty,
		cs_real_t	t_eval,
		bool	do_inversion,
		cs_real_t	tensor[3][3]
	)

Compute the value of the tensor attached to a property at the cell center Version using a cs_cell_mesh_t structure.

Parameters

[in]	cm	pointer to a cs_cell_mesh_t structure
[in]	pty	pointer to a cs_property_t structure
[in]	t_eval	physical time at which one evaluates the term
[in]	do_inversion	true or false
[in,out]	tensor	3x3 matrix

cs_property_value_in_cell()

cs_real_t cs_property_value_in_cell	(	const cs_cell_mesh_t *	cm,
		const cs_property_t *	pty,
		cs_real_t	t_eval
	)

Compute the value of a property at the cell center Version using a cs_cell_mesh_t structure.

Parameters

[in]	cm	pointer to a cs_cell_mesh_t structure
[in]	pty	pointer to a cs_property_t structure
[in]	t_eval	physical time at which one evaluates the term

Returns

the value of the property for the given cell