c__h3d__eroded__quad_8cpp_source.html

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#include <stdio.h>

#include <string.h>

#include <stdlib.h>

#include <math.h>

#include <fcntl.h>


#ifdef _WIN32

/* Windows includes */

#include <windows.h>

#include <process.h>

#include <io.h>

#include <sys\types.h>

#include <sys/stat.h>


#elif 1


/* Linux includes */

#include <sys/resource.h>

#include <sys/types.h>

#include <time.h>

#include <sys/stat.h>

#include <unistd.h>

#include <dlfcn.h>

#define _FCALL

#include <math.h>

#include <stdbool.h>


#endif


#include "h3dpublic_defs.h"

#include "h3dpublic_export.h"


#define _FCALL


#include "h3d_values.h"


#ifdef MYREAL4

#define my_real float

#endif


#ifdef MYREAL8

#define my_real double

#endif


extern "C"

/*=================================================================*/

{

/*=================================================================*/

/*        C_H3D_ERODED QUAD                                        */

/*        update erosion status for quads in h3d files             */

/*=================================================================*/


void c_h3d_eroded_quad_(my_real *TT,int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ,

                        my_real *FUNC ,int *ID_ELEM,int *CPT_DATATYPE )

{

    int i;

    int offset;

    H3D_ID elem_id;

    H3D_ID comp_id;

//

    // initialize


    try {

        // create Subcase (Loadcase)

        unsigned int       max_sims = 10;

        unsigned int      sub_count = 1;

        float elem_result[] = { 0.0f, 0.0f, 0.0f };


        // create Result Data sets

        unsigned int num_corners = 0;

        unsigned int   num_modes = 0;

        bool             complex = false;

        float value[1] ;


        sim_idx = *IH3D;


        if(*NUMELQ != 0)

        {

          rc = Hyper3DDatasetBegin(h3d_file, *NUMELQ, sim_idx, subcase_id, H3D_DS_ELEM,

                                        H3D_DS_EROSION, num_corners, num_modes, *CPT_DATATYPE,

                                       0, quad_poolname_id, complex);

          if( !rc ) fflush(stdout);

          if( !rc ) throw rc;


          offset = 0;


          for( i = 0; i < *NUMELQ ; i++ )

          {

              elem_id = ID_ELEM[i];

              elem_result[0] = 0.0f;

              if(  FUNC[i] == 0.0f )

              {

                elem_result[0] = 1.0f;

                rc = Hyper3DDatasetWrite(h3d_file, elem_id, &elem_result[0]);

              }

          }


          rc = Hyper3DDatasetEnd(h3d_file);

          if( !rc ) throw rc;

        }

    } // end of try


    catch(...)    {

        Hyper3DExportClearError(h3d_file);

    }

}


void _FCALL C_H3D_ERODED_QUAD(my_real *TT,int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ,

                              my_real *FUNC ,int *ID_ELEM,int *CPT_DATATYPE)

{c_h3d_eroded_quad_ (TT,IH3D,ITAB,NUMNOD,IXQ,NIXQ,NUMELQ,IPARTQ,FUNC,ID_ELEM,CPT_DATATYPE);}


void c_h3d_eroded_quad__ (my_real *TT,int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ,

                              my_real *FUNC ,int *ID_ELEM,int *CPT_DATATYPE)

{c_h3d_eroded_quad_ (TT,IH3D,ITAB,NUMNOD,IXQ,NIXQ,NUMELQ,IPARTQ,FUNC,ID_ELEM,CPT_DATATYPE);}


void c_h3d_eroded_quad (my_real *TT,int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ,

                              my_real *FUNC ,int *ID_ELEM,int *CPT_DATATYPE)

{c_h3d_eroded_quad_ (TT,IH3D,ITAB,NUMNOD,IXQ,NIXQ,NUMELQ,IPARTQ,FUNC,ID_ELEM,CPT_DATATYPE);}


void c_h3d_create_quad_eroded_(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)

{

    char *cname,*cname1;

    int cname_len,cname_len1;

    int i;

    float node[3];

    H3D_ID node_id;

    unsigned int elem_count = 1;


    cname_len = *size + 1;

    cname=(char*) malloc(sizeof(char)*cname_len);

    for(i=0;i<*size;i++)  cname[i] = name[i];

    cname[*size]='\0';


    cname_len1 = *size1 + 1;

    cname1=(char*) malloc(sizeof(char)*cname_len1);

    for(i=0;i<*size1;i++)  cname1[i] = name1[i];

    cname1[*size1]='\0';


    char * LAYERPOOL = new char [*size1+11];

    sprintf(LAYERPOOL, "%s %d" ,cname1,*info);

    H3D_ID layer_pool_id = H3D_NULL_ID;

    rc = Hyper3DAddString(h3d_file, LAYERPOOL, &layer_pool_id);


    char edata_type[30];

//

    try {

        // create result data types

        dt_count++;


        rc = Hyper3DDatatypeBegin(h3d_file, 1);

        if( !rc ) throw rc;


        pool_count = 2;


        dt_id++;

        sprintf(edata_type,  cname, H3D_DT_DELIMITER);

       // snprintf(edata_type, sizeof(edata_type), cname, H3D_DT_DELIMITER);

        rc = Hyper3DDatatypeWrite(h3d_file, edata_type, *cpt_data , H3D_DS_EROSION,

                                    H3D_DS_ELEM, pool_count);

        if( !rc ) throw rc;


        rc = Hyper3DDatatypeDescriptionWrite(h3d_file,dt_id, "N/A : element not deleted");


        rc = Hyper3DDatatypePools(h3d_file, *cpt_data , quad_poolname_id, 0,

                    layername_ids, has_corners, tensor_type, poisson);

        if( !rc ) throw rc;


        rc = Hyper3DDatatypeEnd(h3d_file);

        if( !rc ) throw rc;


    } // end of try


    catch(...) {

        Hyper3DExportClearError(h3d_file);

    }

    delete [] LAYERPOOL;

    free(cname);

    free(cname1);


}


void _FCALL C_H3D_CREATE_QUAD_ERODED(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)

{c_h3d_create_quad_eroded_ (cpt_data, name, size, info, name1, size1);}


void c_h3d_create_quad_eroded__ (int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)

{c_h3d_create_quad_eroded_ (cpt_data, name, size, info, name1, size1);}


void c_h3d_create_quad_eroded (int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)

{c_h3d_create_quad_eroded_ (cpt_data, name, size, info, name1, size1);}


}

c_h3d_eroded_quad
void c_h3d_eroded_quad(my_real *TT, int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ, my_real *FUNC, int *ID_ELEM, int *CPT_DATATYPE)
Definition c_h3d_eroded_quad.cpp:143

c_h3d_create_quad_eroded__
void c_h3d_create_quad_eroded__(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)
Definition c_h3d_eroded_quad.cpp:216

c_h3d_eroded_quad_
void c_h3d_eroded_quad_(my_real *TT, int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ, my_real *FUNC, int *ID_ELEM, int *CPT_DATATYPE)
Definition c_h3d_eroded_quad.cpp:79

c_h3d_eroded_quad__
void c_h3d_eroded_quad__(my_real *TT, int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ, my_real *FUNC, int *ID_ELEM, int *CPT_DATATYPE)
Definition c_h3d_eroded_quad.cpp:139

C_H3D_ERODED_QUAD
void _FCALL C_H3D_ERODED_QUAD(my_real *TT, int *IH3D, int *ITAB, int *NUMNOD, int *IXQ, int *NIXQ, int *NUMELQ, int *IPARTQ, my_real *FUNC, int *ID_ELEM, int *CPT_DATATYPE)
Definition c_h3d_eroded_quad.cpp:135

C_H3D_CREATE_QUAD_ERODED
void _FCALL C_H3D_CREATE_QUAD_ERODED(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)
Definition c_h3d_eroded_quad.cpp:213

c_h3d_create_quad_eroded
void c_h3d_create_quad_eroded(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)
Definition c_h3d_eroded_quad.cpp:219

c_h3d_create_quad_eroded_
void c_h3d_create_quad_eroded_(int *cpt_data, char *name, int *size, int *info, char *name1, int *size1)
Definition c_h3d_eroded_quad.cpp:148

h3d_file
H3DFileInfo * h3d_file
Definition c_h3d_open_file.cpp:69

pool_count
unsigned int pool_count
Definition c_h3d_open_file.cpp:125

dt_count
unsigned int dt_count
Definition c_h3d_open_file.cpp:130

has_corners
bool has_corners
Definition c_h3d_open_file.cpp:127

rc
bool rc
Definition c_h3d_open_file.cpp:70

poisson
float poisson
Definition c_h3d_open_file.cpp:129

comp_id
H3D_ID comp_id
Definition c_h3d_open_file.cpp:92

layername_ids
H3D_ID * layername_ids
Definition c_h3d_open_file.cpp:131

sim_idx
H3D_SIM_IDX sim_idx
Definition c_h3d_open_file.cpp:95

subcase_id
H3D_ID subcase_id
Definition c_h3d_open_file.cpp:71

dt_id
H3D_ID dt_id
Definition c_h3d_open_file.cpp:124

quad_poolname_id
H3D_ID quad_poolname_id
Definition c_h3d_open_file.cpp:108

edata_type
char edata_type[50]
Definition c_h3d_open_file.cpp:123

tensor_type
H3D_TENSOR_TYPE tensor_type
Definition c_h3d_open_file.cpp:128

FUNC
#define FUNC
Definition clamov.c:8

my_real
#define my_real
Definition cppsort.cpp:32

Hyper3DDatatypePools
bool Hyper3DDatatypePools(H3DFileInfo *h3d_file, H3D_ID dt_id, H3D_ID poolname_id, unsigned int num_layers, H3D_ID *layername_ids, bool corners, H3D_TENSOR_TYPE tensor_type, float poisson)
Definition h3d_dl.c:1331

Hyper3DAddString
bool Hyper3DAddString(H3DFileInfo *h3d_file, const char *const string, H3D_ID *const str_id)
Definition h3d_dl.c:955

Hyper3DDatasetBegin
bool Hyper3DDatasetBegin(H3DFileInfo *h3d_file, unsigned int count, H3D_SIM_IDX idx, H3D_ID subcase_id, H3D_DS_TYPE type, H3D_DS_FORMAT format, unsigned int num_corners, unsigned int num_modes, H3D_ID dt_id, int layer_idx, H3D_ID data_poolname_id, bool complex)
Definition h3d_dl.c:1352

Hyper3DDatatypeEnd
bool Hyper3DDatatypeEnd(H3DFileInfo *h3d_file)
Definition h3d_dl.c:1341

Hyper3DExportClearError
bool Hyper3DExportClearError(H3DFileInfo *h3d_file)
Definition h3d_dl.c:939

Hyper3DDatatypeDescriptionWrite
bool Hyper3DDatatypeDescriptionWrite(H3DFileInfo *h3d_file, H3D_ID dt_id, const char *description)
Definition h3d_dl.c:1324

Hyper3DDatatypeWrite
bool Hyper3DDatatypeWrite(H3DFileInfo *h3d_file, const char *label, H3D_ID dt_id, H3D_DS_FORMAT format, H3D_DS_TYPE type, unsigned int num_pools)
Definition h3d_dl.c:1316

Hyper3DDatatypeBegin
bool Hyper3DDatatypeBegin(H3DFileInfo *h3d_file, unsigned int count)
Definition h3d_dl.c:1310

Hyper3DDatasetEnd
bool Hyper3DDatasetEnd(H3DFileInfo *h3d_file)
Definition h3d_dl.c:1400

Hyper3DDatasetWrite
bool Hyper3DDatasetWrite(H3DFileInfo *h3d_file, H3D_ID id, const float *data)
Definition h3d_dl.c:1372

_FCALL
#define _FCALL
Definition memory_use_c.c:25

complex
Definition pcgemr.c:160