int
main(int argc, char **argv)
{
DBfile *dbfile;
int N = 21;
int driver = DB_PDB;
int i = 1;
while (i < argc)
{
if (strcmp(argv[i], "-driver") == 0)
{
i++;
if (strcmp(argv[i], "DB_HDF5") == 0)
{
driver = DB_HDF5;
}
else if (strcmp(argv[i], "DB_PDB") == 0)
{
driver = DB_PDB;
}
else
{
fprintf(stderr,"Uncrecognized driver name \"%s\"\n",
argv[i]);
exit(-1);
}
}
else if (strcmp(argv[i], "-n") == 0)
{
i++;
N = atoi(argv[i]);
if (N < 0 || N > 10000)
{
fprintf(stderr,"size, %d, too large\n", N);
exit(-1);
}
if (N % 2 != 1)
{
fprintf(stderr,"size, %d, should be an odd number\n", N);
exit(-1);
}
}
i++;
}
float x[] = {0.0, 1.0, 2.0, 3.0, 4.0, 5.0, 0.0, 1.0, 2.0, 3.0, 4.0, 5.0};
float y[] = {0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0};
float *coords[2] = {x, y};
dbfile = DBCreate("lineout_test.silo", DB_CLOBBER, DB_LOCAL,
"2D grid with stair-step and linear fields", driver);
char *coordnames[2];
coordnames[0] = "xcoords";
coordnames[1] = "ycoords";
int zonelist[] = {0,1,7,6, 1,2,8,7, 2,3,9,8, 3,4,10,9, 4,5,11,10};
int zshapetype = DB_ZONETYPE_QUAD;
int zshapesize = 4;
int zshapecnt = 5;
DBPutZonelist2(dbfile, "zl2d", 5, 2, zonelist, sizeof(zonelist)/sizeof(zonelist[0]), 0,
0, 0, &zshapetype, &zshapesize,
&zshapecnt, 1, NULL);
DBPutUcdmesh(dbfile, "mesh", 2, coordnames, coords, 12, 5,
"zl2d", NULL, DB_FLOAT, NULL);
float zc_var[] = {0.5, 1.5, 2.5, 3.5, 4.5};
DBPutUcdvar1(dbfile, "zonal_var", "mesh", zc_var, 5, NULL, 0, DB_FLOAT,
DB_ZONECENT, NULL);
float nc_var[] = {0.0, 1.0, 2.0, 3.0, 4.0, 5.0, 0.0, 1.0, 2.0, 3.0, 4.0, 5.0};
DBPutUcdvar1(dbfile, "nodal_var", "mesh", nc_var, 12, NULL, 0, DB_FLOAT,
DB_NODECENT, NULL);
float x1[] = {-1.5, -.5, 0.5, 1.5, -1.5, -.5, 0.5, 1.5, -1.5, -.5, 0.5, 1.5, -1.5, -.5, 0.5, 1.5};
float y1[] = {-1.5, -1.5, -1.5, -1.5, -0.5, -0.5, -0.5, -0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 1.5, 1.5, 1.5};
int zonelist2[] = {0,1,5,4, 1,2,6,5, 2,3,7,6,
4,5,9,8, 5,6,10,9, 6,7,11,10,
8,9,13,12, 9,10,14,13,10,11,15,14};
zshapecnt = 9;
DBPutZonelist2(dbfile, "zl2d2", 9, 2, zonelist2, sizeof(zonelist2)/sizeof(zonelist2[0]), 0,
0, 0, &zshapetype, &zshapesize,
&zshapecnt, 1, NULL);
coords[0] = x1; coords[1] = y1;
DBPutUcdmesh(dbfile, "mesh2", 2, coordnames, coords, 16, 9,
"zl2d2", NULL, DB_FLOAT, NULL);
float zc_var2[] = {1.5, 0, -1.5, 0, 0, 0, -1.5, 0, 1.5};
DBPutUcdvar1(dbfile, "zonal_var2", "mesh2", zc_var2, 9, NULL, 0, DB_FLOAT,
DB_ZONECENT, NULL);
// This is designed to yield a perfect quadratic along the diagonal
// y=x and y=-x lineouts such that value of nc_var2 is equal to distance
// from origin (0,0), squared. A resulting lineout *should* look like a
// perfect quadratic curve.
float a = (1.5*1.5 + 1.5*1.5);
float b = (0.5*0.5 + 1.5*1.5);
float c = (0.5*0.5 + 0.5*0.5);
float nc_var2[] = {-a, -b, b, a, -b, -c, c, b, b, c, -c, -b, a, b, -b, -a};
DBPutUcdvar1(dbfile, "nodal_var2", "mesh2", nc_var2, 16, NULL, 0, DB_FLOAT,
DB_NODECENT, NULL);
DBClose(dbfile);
}
int
main(int argc, char *argv[])
{
int driver = DB_PDB;
char *filename = "empty.silo";
int show_all_errors = FALSE;
int i, pass;
char const * const cnames[3] = {"x","y","z"};
void *coords[3] = {(void*)1,(void*)2,(void*)3}; /* really funky dummy pointers */
void *vars[3] = {(void*)1,(void*)2,(void*)3}; /* really funky dummy pointers */
void const * const vvars[3] = {(void*)1,(void*)2,(void*)3}; /* really funky dummy pointers */
void *var = (void*)1;
int iarr[3] = {1,1,1}; /* dummy int array */
int ZDIMS[3] = {0,0,0};
double exts[4] = {0,0,0,0};
DBoptlist *ol = 0;
double dtime = 0.0;
int hide_from_gui=0;
int *gnodeno = 0;
int *gzoneno = 0;
char *ghostn = 0;
char *ghostz = 0;
/* Parse command-line */
for (i=1; i<argc; i++) {
if (!strncmp(argv[i], "DB_", 3)) {
driver = StringToDriver(argv[i]);
} else if (!strcmp(argv[i], "show-all-errors")) {
show_all_errors = 1;
} else if (argv[i][0] != '\0') {
fprintf(stderr, "%s: ignored argument `%s'\n", argv[0], argv[i]);
}
}
DBSetDeprecateWarnings(0);
DBShowErrors(show_all_errors?DB_ALL_AND_DRVR:DB_NONE, NULL);
printf("Creating test file \"%s\".\n", filename);
dbfile = DBCreate(filename, DB_CLOBBER, DB_LOCAL, "test empty silo objects", driver);
ol = DBMakeOptlist(10);
DBAddOption(ol, DBOPT_DTIME, &dtime);
DBAddOption(ol, DBOPT_HIDE_FROM_GUI, &hide_from_gui);
DBAddOption(ol, DBOPT_NODENUM, gnodeno);
DBAddOption(ol, DBOPT_ZONENUM, gzoneno);
DBAddOption(ol, DBOPT_GHOST_NODE_LABELS, ghostn);
DBAddOption(ol, DBOPT_GHOST_ZONE_LABELS, ghostz);
/* first pass confirms we catch bad arguments; second pass confirms we permit empty objects */
for (pass = 0; pass < 2; pass++)
{
const int dt = DB_FLOAT;
const int ct = DB_ZONECENT;
const int ZZ = 0; /* Used for sole arg causing emptiness */
if (pass) DBSetAllowEmptyObjects(1);
/* Because references to the following objects will not ever appear in a
multi-xxx object, we do not currently test for support of empties...
DBPutUcdsubmesh, DBPutMrgtree, DBPutMrgvar, DBPutGroupelmap
Note: 'ZZ' or 'ZDIMS' is the key argument in each call that triggers an empty
*/
/* empty curve objects */
ASSERT(DBPutCurve(dbfile,"empty_curvea",coords[0],coords[0],dt,ZZ,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCurve(dbfile,"empty_curveb", 0,coords[0],dt,ZZ,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCurve(dbfile,"empty_curvec",coords[0], 0,dt,ZZ,OL(ol)),retval<0,retval==0);
/* empty point meshes and vars */
ASSERT(DBPutPointmesh(dbfile,"empty_pointmesha",1,coords,ZZ,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPointmesh(dbfile,"empty_pointmeshb",3, 0,ZZ,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPointvar(dbfile,"pva","empty_pointmesha",1,vars,ZZ,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPointvar(dbfile,"pvb","empty_pointmesha",3, 0,ZZ,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPointvar1(dbfile,"pv1a","empty_pointmesha",var,ZZ,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPointvar1(dbfile,"pv1b","empty_pointmesha", 0,ZZ,dt,OL(ol)),retval<0,retval==0);
/* empty quad meshes and vars (ZDIMS is the magic zero'ing arg) */
ASSERT(DBPutQuadmesh(dbfile,"empty_quadmesha", 0,coords,ZDIMS,1,dt,DB_COLLINEAR,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadmesh(dbfile,"empty_quadmeshb",cnames, 0,ZDIMS,2,dt,DB_COLLINEAR,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadmesh(dbfile,"empty_quadmeshc",cnames,coords,ZDIMS,3,dt,DB_COLLINEAR,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadvar(dbfile,"qva","empty_quadmesha",2, 0,vars,ZDIMS,2,0,0,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadvar(dbfile,"qvb","empty_quadmesha",3,cnames, 0,ZDIMS,3,0,0,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadvar1(dbfile,"qv1a","empty_quadmesha", 0,ZDIMS,ZZ,var,0,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutQuadvar1(dbfile,"qv1b","empty_quadmesha",var,ZDIMS,ZZ, 0,0,dt,ct,OL(ol)),retval<0,retval==0);
/* empty ucd meshes, facelists, zonelists and vars */
ASSERT(DBPutUcdmesh(dbfile,"empty_ucdmesh1",3,cnames,coords,ZZ,1,"foo","bar",dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdmesh(dbfile,"empty_ucdmesh2",1, 0,coords,ZZ,1,"foo","bar",dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdmesh(dbfile,"empty_ucdmesh3",2,cnames, 0,ZZ,0,"foo","bar",dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdmesh(dbfile,"empty_ucdmesh3",0, 0, 0,ZZ,0, 0, 0,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelista",ZZ,0,iarr,1,1,iarr,iarr,iarr,1,iarr,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelistb",ZZ,0, 0,1,1,iarr,iarr,iarr,1,iarr,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelistc",ZZ,0,iarr,1,1, 0,iarr,iarr,1,iarr,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelistd",ZZ,0,iarr,1,1,iarr, 0,iarr,1,iarr,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_faceliste",ZZ,0,iarr,1,1,iarr,iarr, 0,1,iarr,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelistf",ZZ,0,iarr,1,1,iarr,iarr,iarr,1, 0,iarr,1),retval<0,retval==0);
ASSERT(DBPutFacelist(dbfile,"empty_facelistg",ZZ,0,iarr,1,1,iarr,iarr,iarr,1,iarr, 0,1),retval<0,retval==0);
ASSERT(DBPutZonelist(dbfile,"empty_zonelista",ZZ,1,iarr,10,0,iarr,iarr,10),retval<0,retval==0);
ASSERT(DBPutZonelist(dbfile,"empty_zonelistb",ZZ,1, 0,10,0,iarr,iarr,10),retval<0,retval==0);
ASSERT(DBPutZonelist(dbfile,"empty_zonelistc",ZZ,1,iarr,10,0, 0,iarr,10),retval<0,retval==0);
ASSERT(DBPutZonelist(dbfile,"empty_zonelistd",ZZ,1,iarr,10,0,iarr, 0,10),retval<0,retval==0);
ASSERT(DBPutZonelist2(dbfile,"empty_zonelist2a",ZZ,1,iarr,1,0,0,0,iarr,iarr,iarr,1,OL(ol)),retval<0,retval==0);
ASSERT(DBPutZonelist2(dbfile,"empty_zonelist2b",ZZ,0, 0,1,3,3,3,iarr,iarr,iarr,1,OL(ol)),retval<0,retval==0);
ASSERT(DBPutZonelist2(dbfile,"empty_zonelist2c",ZZ,1,iarr,0,3,3,3, 0,iarr,iarr,1,OL(ol)),retval<0,retval==0);
ASSERT(DBPutZonelist2(dbfile,"empty_zonelist2d",ZZ,1,iarr,1,0,3,0,iarr, 0,iarr,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutZonelist2(dbfile,"empty_zonelist2e",ZZ,1,iarr,1,3,0,0,iarr,iarr, 0,1,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzonelista",ZZ,iarr,1,iarr,cnames[0],1,iarr,1,iarr,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzonelistb",ZZ, 0,1,iarr,cnames[0],1,iarr,1,iarr,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzonelistc",ZZ,iarr,1, 0,cnames[0],1,iarr,1,iarr,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzonelistd",ZZ,iarr,1,iarr, 0,1,iarr,1,iarr,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzoneliste",ZZ,iarr,1,iarr,cnames[0],1, 0,1,iarr,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutPHZonelist(dbfile,"empty_phzonelistf",ZZ,iarr,1,iarr,cnames[0],1,iarr,1, 0,0,0,0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar(dbfile,"uva","empty_ucdmesh1",0,cnames,vars,ZZ,vars,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar(dbfile,"uvb","empty_ucdmesh1",1, 0,vars,ZZ,vars,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar(dbfile,"uvc","empty_ucdmesh1",2,cnames, 0,ZZ,vars,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar(dbfile,"uvd","empty_ucdmesh1",3,cnames,vars,ZZ, 0,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar(dbfile,"uve","empty_ucdmesh1",3, 0, 0,ZZ, 0,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar1(dbfile,"uv1a","empty_ucdmesh1",var,ZZ,vars[0],1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar1(dbfile,"uv1b","empty_ucdmesh1", 0,ZZ,vars[0],1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar1(dbfile,"uv1c","empty_ucdmesh1",var,ZZ, 0,1,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutUcdvar1(dbfile,"uv1d","empty_ucdmesh1", 0,ZZ, 0,1,dt,ct,OL(ol)),retval<0,retval==0);
/* csg meshes and vars */
ASSERT(DBPutCsgmesh(dbfile,"empty_csgmesh1",2,ZZ, 0,iarr,var,1,dt,exts,"foo",OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgmesh(dbfile,"empty_csgmesh2",2,ZZ,iarr, 0,var,2,dt,exts,"foo",OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgmesh(dbfile,"empty_csgmesh3",3,ZZ,iarr,iarr, 0,3,dt,exts,"foo",OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgmesh(dbfile,"empty_csgmesh4",3,ZZ,iarr,iarr,var,0,dt,exts,"foo",OL(ol)),retval<0,retval==0);
ASSERT(DBPutCSGZonelist(dbfile,"empty_csgzonelista",0,iarr,iarr,iarr,0,0,dt,ZZ,iarr,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCSGZonelist(dbfile,"empty_csgzonelistb",1, 0,iarr,iarr,0,0,dt,ZZ,iarr,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCSGZonelist(dbfile,"empty_csgzonelistc",1,iarr, 0,iarr,0,0,dt,ZZ,iarr,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCSGZonelist(dbfile,"empty_csgzonelistd",1,iarr,iarr, 0,0,0,dt,ZZ,iarr,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCSGZonelist(dbfile,"empty_csgzoneliste",1,iarr,iarr,iarr,0,0,dt,ZZ, 0,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgvar(dbfile,"csgva","empty_csgmesh1",0,cnames,vvars,ZZ,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgvar(dbfile,"csgvb","empty_csgmesh1",1, 0,vvars,ZZ,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgvar(dbfile,"csgvc","empty_csgmesh1",1,cnames, 0, ZZ,dt,ct,OL(ol)),retval<0,retval==0);
ASSERT(DBPutCsgvar(dbfile,"csgvd","empty_csgmesh1",1,cnames,vvars,ZZ,dt,ct,OL(ol)),retval<0,retval==0);
/* empty materials and species */
ASSERT(DBPutMaterial(dbfile,"empty_mata","foo",1,iarr,iarr,ZDIMS,1,iarr,iarr,iarr,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_matb","foo",1, 0,iarr,ZDIMS,1,iarr,iarr,iarr,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_matc","foo",1,iarr, 0,ZDIMS,1,iarr,iarr,iarr,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_matd","foo",1,iarr,iarr,ZDIMS,1, 0,iarr,iarr,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_mate","foo",1,iarr,iarr,ZDIMS,1,iarr, 0,iarr,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_matf","foo",1,iarr,iarr,ZDIMS,1,iarr,iarr, 0,vars[0],1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMaterial(dbfile,"empty_matg","foo",1,iarr,iarr,ZDIMS,1,iarr,iarr,iarr, 0,1,dt,OL(ol)),retval<0,retval==0);
/* empty matspecies via dims[i] == 0 */
ASSERT(DBPutMatspecies(dbfile,"empty_speca","empty_mata",1,iarr,iarr,ZDIMS,1,1,var,iarr,1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMatspecies(dbfile,"empty_specb","empty_mata",1,iarr,iarr,ZDIMS,2,1,var,iarr,1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMatspecies(dbfile,"empty_specc","empty_mata",1,iarr,iarr,ZDIMS,3,1,var,iarr,1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMatspecies(dbfile,"empty_specd","empty_mata",1,iarr,iarr,ZDIMS,1,1, 0,iarr,1,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMatspecies(dbfile,"empty_spece","empty_mata",1,iarr,iarr,ZDIMS,1,1,var, 0,0,dt,OL(ol)),retval<0,retval==0);
/* empty matspeces via nspecies_mf==0 */
{ int nd=2, d[2]={3,2}, slm[6]={0,0,-1,-3,0,0}, ml=4, msl[4]={1,2,1,2}, slc[6]={0,0,0,0,0,0};
ASSERT(DBPutMatspecies(dbfile,"empty_specf","empty_mata",1,iarr,slc,d,nd,ZZ,var, 0, 0,dt,OL(ol)),retval<0,retval==0);
ASSERT(DBPutMatspecies(dbfile,"empty_specg","empty_mata",1,iarr,slm,d,nd,ZZ,var,msl,ml,dt,OL(ol)),retval<0,retval==0);
}
}
DBClose(dbfile);
dbfile = 0;
/* Ok, now try to read each empty object to make sure we get what we expect and nothing fails */
dbfile = DBOpen(filename, DB_UNKNOWN, DB_READ);
/* test read back of empty curves */
{ int i=0; char *cnames[] = {"empty_curvea", "empty_curveb", "empty_curvec", 0};
DBSetDir(dbfile, "DBPutCurve");
while (cnames[i])
{
DBcurve *curve = DBGetCurve(dbfile, cnames[i++]);
assert(DBIsEmptyCurve(curve));
DBFreeCurve(curve);
}
DBSetDir(dbfile, "..");
}
/* test read back of empty point meshes and vars */
{ int i=0; char *pmnames[] = {"empty_pointmesha", "empty_pointmeshb", 0};
DBSetDir(dbfile, "DBPutPointmesh");
while (pmnames[i])
{
DBpointmesh *pointmesh = DBGetPointmesh(dbfile, pmnames[i++]);
assert(DBIsEmptyPointmesh(pointmesh));
DBFreePointmesh(pointmesh);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *vnames[] = {"pva", "pvb", "pv1a", "pv1b", 0};
DBSetDir(dbfile, "DBPutPointvar");
while (vnames[i])
{
DBpointvar *pointvar = DBGetPointvar(dbfile, vnames[i++]);
assert(DBIsEmptyPointvar(pointvar));
DBFreePointvar(pointvar);
}
DBSetDir(dbfile, "..");
}
/* test read back of empty quad meshes and vars */
{ int i=0; char *qmnames[] = {"empty_quadmesha", "empty_quadmeshb", "empty_quadmeshc", 0};
DBSetDir(dbfile, "DBPutQuadmesh");
while (qmnames[i])
{
DBquadmesh *quadmesh = DBGetQuadmesh(dbfile, qmnames[i++]);
assert(DBIsEmptyQuadmesh(quadmesh));
DBFreeQuadmesh(quadmesh);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *vnames[] = {"qva" , "qvb", "qv1a", "qv1b", 0};
DBSetDir(dbfile, "DBPutQuadvar");
while (vnames[i])
{
DBquadvar *quadvar = DBGetQuadvar(dbfile, vnames[i++]);
assert(DBIsEmptyQuadvar(quadvar));
DBFreeQuadvar(quadvar);
}
DBSetDir(dbfile, "..");
}
/* test read back of empty ucd meshes, zonelists and vars */
{ int i=0; char *mnames[] = {"empty_ucdmesh1", "empty_ucdmesh2", "empty_ucdmesh3", 0};
DBSetDir(dbfile, "DBPutUcdmesh");
while (mnames[i])
{
DBucdmesh *ucdmesh = DBGetUcdmesh(dbfile, mnames[i++]);
assert(DBIsEmptyUcdmesh(ucdmesh));
DBFreeUcdmesh(ucdmesh);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *flnames[] = {"empty_facelista", "empty_facelistb",
"empty_facelistc", "empty_facelistd",
"empty_faceliste", "empty_facelistf",
"empty_facelistg", 0};
DBSetDir(dbfile, "DBPutFacelist");
while (flnames[i])
{
DBfacelist *fl = DBGetFacelist(dbfile, flnames[i++]);
assert(DBIsEmptyFacelist(fl));
DBFreeFacelist(fl);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *zlnames[] = {"empty_zonelista", "empty_zonelistb",
"empty_zonelistc", "empty_zonelistd",
"empty_zonelist2a", "empty_zonelist2b",
"empty_zonelist2c", "empty_zonelist2d",
"empty_zonelist2e", 0};
DBSetDir(dbfile, "DBPutZonelist");
while (zlnames[i])
{
DBzonelist *zl = DBGetZonelist(dbfile, zlnames[i++]);
assert(DBIsEmptyZonelist(zl));
DBFreeZonelist(zl);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *zlnames[] = {"empty_phzonelista", "empty_phzonelistb",
"empty_phzonelistc", "empty_phzonelistd",
"empty_phzoneliste", "empty_phzonelistf", 0};
DBSetDir(dbfile, "DBPutPHZonelist");
while (zlnames[i])
{
DBphzonelist *zl = DBGetPHZonelist(dbfile, zlnames[i++]);
assert(DBIsEmptyPHZonelist(zl));
DBFreePHZonelist(zl);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *vnames[] = { "uva", "uvb", "uvc",
"uvd", "uve", "uv1a",
"uv1b", "uv1c", "uv1d", 0};
DBSetDir(dbfile, "DBPutUcdvar");
while (vnames[i])
{
DBucdvar *ucdvar = DBGetUcdvar(dbfile, vnames[i++]);
assert(DBIsEmptyUcdvar(ucdvar));
DBFreeUcdvar(ucdvar);
}
DBSetDir(dbfile, "..");
}
/* test read back of empty csg meshes and vars */
{ int i=0; char *mnames[] = {"empty_csgmesh1", "empty_csgmesh2", "empty_csgmesh3", 0};
DBSetDir(dbfile, "DBPutCsgmesh");
while (mnames[i])
{
DBcsgmesh *csgmesh = DBGetCsgmesh(dbfile, mnames[i++]);
assert(DBIsEmptyCsgmesh(csgmesh));
DBFreeCsgmesh(csgmesh);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *zlnames[] = {"empty_csgzonelista", "empty_csgzonelistb",
"empty_csgzonelistc", "empty_csgzonelistd",
"empty_csgzoneliste", 0};
DBSetDir(dbfile, "DBPutCSGZonelist");
while (zlnames[i])
{
DBcsgzonelist *zl = DBGetCSGZonelist(dbfile, zlnames[i++]);
assert(DBIsEmptyCSGZonelist(zl));
DBFreeCSGZonelist(zl);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *vnames[] = {"csgva", "csgvb", "csgvc", "csgvd", 0};
DBSetDir(dbfile, "DBPutCsgvar");
while (vnames[i])
{
DBcsgvar *csgvar = DBGetCsgvar(dbfile, vnames[i++]);
assert(DBIsEmptyCsgvar(csgvar));
DBFreeCsgvar(csgvar);
}
DBSetDir(dbfile, "..");
}
/* test read back of empty materials and matspecies */
{ int i=0; char *vnames[] = {"empty_mata", "empty_matb", "empty_matc", "empty_matd",
"empty_mate", "empty_matf", "empty_matg", 0};
DBSetDir(dbfile, "DBPutMaterial");
while (vnames[i])
{
DBmaterial *mat = DBGetMaterial(dbfile, vnames[i++]);
assert(DBIsEmptyMaterial(mat));
DBFreeMaterial(mat);
}
DBSetDir(dbfile, "..");
}
{ int i=0; char *vnames[] = {"empty_speca", "empty_specb", "empty_specc",
"empty_specd", "empty_spece", "empty_specf",
"empty_specg", 0};
DBSetDir(dbfile, "DBPutMatspecies");
while (vnames[i])
{
DBmatspecies *spec = DBGetMatspecies(dbfile, vnames[i++]);
assert(DBIsEmptyMatspecies(spec));
DBFreeMatspecies(spec);
}
DBSetDir(dbfile, "..");
}
DBClose(dbfile);
CleanupDriverStuff();
return 0;
}
/*----------------------------------------------------------------------------
* Function: writemesh_ucd2d()
*
* Inputs: db (DBfile*): the Silo file handle
*
* Returns: (void)
*
* Abstract: Write the mesh and variables stored in the global Mesh
* to the Silo file as a UCDmesh and UCDvars
*
* Modifications:
*---------------------------------------------------------------------------*/
void writemesh_ucd2d(DBfile *db, int mixc, int reorder) {
int nl[5000];
float f1[1000],f2[1000], fm[1000];
int x,y,c;
float *coord[2];
int dims[2];
char *cnvar, *czvar;
short *snvar, *szvar;
int *invar, *izvar;
long *lnvar, *lzvar;
long long *Lnvar, *Lzvar;
float *fnvar, *fzvar;
double *dnvar, *dzvar;
int lnodelist;
int nnodes;
int nzones;
int shapesize[1];
int shapecnt[1];
int shapetyp[1];
/* do mesh */
c=0;
for (x=0;x<mesh.nx;x++) {
for (y=0;y<mesh.ny;y++) {
f1[c]=mesh.node[x][y].x;
f2[c]=mesh.node[x][y].y;
if (mesh.node[x][y].c != c) {
printf("Node mismatch! mesh.c=%d c=%d\n",mesh.node[x][y].c,c);
exit(-1);
}
c++;
}
}
coord[0]=f1;
coord[1]=f2;
dims[0]=mesh.nx;
dims[1]=mesh.ny;
/* create the zonelist */
c=0;
for (x=0;x<mesh.zx;x++) {
for (y=0;y<mesh.zy;y++) {
nl[c++] = mesh.zone[x][y].n[0][0]->c;
nl[c++] = mesh.zone[x][y].n[1][0]->c;
nl[c++] = mesh.zone[x][y].n[1][1]->c;
nl[c++] = mesh.zone[x][y].n[0][1]->c;
}
}
lnodelist=c;
nnodes=mesh.nx*mesh.ny;
nzones=mesh.zx*mesh.zy;
shapesize[0]=4;
shapecnt[0]=nzones;
shapetyp[0]=DB_ZONETYPE_QUAD;
DBPutZonelist2(db,"Mesh_zonelist",nzones,2,nl,lnodelist,0,0,0,shapetyp,shapesize,shapecnt,1,NULL);
DBPutUcdmesh (db,"Mesh",2,NULL,coord,nnodes,nzones,"Mesh_zonelist",NULL,DB_FLOAT,NULL);
/* test output of ghost node and zone labels */
{
int i;
char *gn = (char*)calloc(nnodes,1);
char *gz = (char*)calloc(nzones,1);
DBoptlist *ol = DBMakeOptlist(5);
for (i = 0; i < nnodes; i++)
{
if (!(i % 3)) gn[i] = 1;
}
for (i = 0; i < nzones; i++)
{
if (!(i % 7)) gz[i] = 1;
}
DBAddOption(ol, DBOPT_GHOST_NODE_LABELS, gn);
DBPutUcdmesh (db,"Mesh_gn",2,NULL,coord,nnodes,nzones,"Mesh_zonelist",NULL,DB_FLOAT,ol);
DBClearOption(ol, DBOPT_GHOST_NODE_LABELS);
DBPutUcdmesh (db,"Mesh_gz",2,NULL,coord,nnodes,nzones,"Mesh_zonelist_gz",NULL,DB_FLOAT,NULL);
DBAddOption(ol, DBOPT_GHOST_ZONE_LABELS, gz);
DBPutZonelist2(db,"Mesh_zonelist_gz",nzones,2,nl,lnodelist,0,0,0,shapetyp,shapesize,shapecnt,1,ol);
DBAddOption(ol, DBOPT_GHOST_NODE_LABELS, gn);
DBPutUcdmesh (db,"Mesh_gnz",2,NULL,coord,nnodes,nzones,"Mesh_zonelist_gnz",NULL,DB_FLOAT,ol);
DBPutZonelist2(db,"Mesh_zonelist_gnz",nzones,2,nl,lnodelist,0,0,0,shapetyp,shapesize,shapecnt,1,ol);
DBFreeOptlist(ol);
free(gn);
free(gz);
}
/* do Node vars */
cnvar = (char *) malloc(sizeof(char)*nnodes);
snvar = (short *) malloc(sizeof(short)*nnodes);
invar = (int *) malloc(sizeof(int)*nnodes);
lnvar = (long *) malloc(sizeof(long)*nnodes);
Lnvar = (long long *) malloc(sizeof(long long)*nnodes);
fnvar = (float *) malloc(sizeof(float)*nnodes);
dnvar = (double *) malloc(sizeof(double)*nnodes);
c=0;
for (x=0;x<mesh.nx;x++) {
for (y=0;y<mesh.ny;y++) {
f1[c]=mesh.node[x][y].vars[NV_U];
f2[c]=mesh.node[x][y].vars[NV_V];
cnvar[c] = (char) (x<y?x:y);
snvar[c] = (short) (x<y?x:y);
invar[c] = (int) (x<y?x:y);
lnvar[c] = (long) (x<y?x:y);
Lnvar[c] = (long long) (x<y?x:y);
fnvar[c] = (float) (x<y?x:y);
dnvar[c] = (double) (x<y?x:y);
c++;
}
}
{
DBoptlist *opt = DBMakeOptlist(1);
int val = DB_ON;
DBAddOption(opt,DBOPT_USESPECMF,&val);
DBPutUcdvar1(db, "u", "Mesh", f1, nnodes, NULL, 0, DB_FLOAT, DB_NODECENT, opt);
DBPutUcdvar1(db, "v", "Mesh", f2, nnodes, NULL, 0, DB_FLOAT, DB_NODECENT, opt);
DBPutUcdvar1(db, "u", "Mesh", f1, nnodes, NULL, 0, DB_FLOAT, DB_NODECENT, opt);
DBPutUcdvar1(db, "v", "Mesh", f2, nnodes, NULL, 0, DB_FLOAT, DB_NODECENT, opt);
DBPutUcdvar1(db, "cnvar", "Mesh", cnvar, nnodes, NULL, 0, DB_CHAR, DB_NODECENT, opt);
DBPutUcdvar1(db, "snvar", "Mesh", snvar, nnodes, NULL, 0, DB_SHORT, DB_NODECENT, opt);
DBPutUcdvar1(db, "invar", "Mesh", invar, nnodes, NULL, 0, DB_INT, DB_NODECENT, opt);
DBPutUcdvar1(db, "lnvar", "Mesh", lnvar, nnodes, NULL, 0, DB_LONG, DB_NODECENT, opt);
DBPutUcdvar1(db, "Lnvar", "Mesh", Lnvar, nnodes, NULL, 0, DB_LONG_LONG, DB_NODECENT, opt);
DBPutUcdvar1(db, "fnvar", "Mesh", fnvar, nnodes, NULL, 0, DB_FLOAT, DB_NODECENT, opt);
DBPutUcdvar1(db, "dnvar", "Mesh", dnvar, nnodes, NULL, 0, DB_DOUBLE, DB_NODECENT, opt);
DBFreeOptlist(opt);
}
free(cnvar);
free(snvar);
free(invar);
free(lnvar);
free(Lnvar);
free(fnvar);
free(dnvar);
/* do Zone vars */
dims[0]--;
dims[1]--;
czvar = (char *) malloc(sizeof(char)*nzones);
szvar = (short *) malloc(sizeof(short)*nzones);
izvar = (int *) malloc(sizeof(int)*nzones);
lzvar = (long *) malloc(sizeof(long)*nzones);
Lzvar = (long long *) malloc(sizeof(long long)*nzones);
fzvar = (float *) malloc(sizeof(float)*nzones);
dzvar = (double *) malloc(sizeof(double)*nzones);
c=0;
for (x=0;x<mesh.zx;x++) {
for (y=0;y<mesh.zy;y++) {
f1[c]=mesh.zone[x][y].vars[ZV_P];
f2[c]=mesh.zone[x][y].vars[ZV_D];
czvar[c] = (char) (x<y?x:y);
szvar[c] = (short) (x<y?x:y);
izvar[c] = (int) (x<y?x:y);
lzvar[c] = (long) (x<y?x:y);
Lzvar[c] = (long long) (x<y?x:y);
fzvar[c] = (float) (x<y?x:y);
dzvar[c] = (double) (x<y?x:y);
c++;
}
}
for (c=0; c<mixc; c++)
fm[c] = 2.0/mixc*c;
if (reorder)
{
float tmp=fm[mixc-1];
fm[mixc-1]=fm[mixc-2];
fm[mixc-2]=tmp;
}
DBPutUcdvar1(db, "p", "Mesh", f1, nzones, NULL, 0, DB_FLOAT, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "d", "Mesh", f2, nzones, fm, mixc, DB_FLOAT, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "czvar", "Mesh", czvar, nzones, NULL, 0, DB_CHAR, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "szvar", "Mesh", szvar, nzones, NULL, 0, DB_SHORT, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "izvar", "Mesh", izvar, nzones, NULL, 0, DB_INT, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "lzvar", "Mesh", lzvar, nzones, NULL, 0, DB_LONG, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "Lzvar", "Mesh", Lzvar, nzones, NULL, 0, DB_LONG_LONG, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "fzvar", "Mesh", fzvar, nzones, NULL, 0, DB_FLOAT, DB_ZONECENT, NULL);
DBPutUcdvar1(db, "dzvar", "Mesh", dzvar, nzones, NULL, 0, DB_DOUBLE, DB_ZONECENT, NULL);
free(czvar);
free(szvar);
free(izvar);
free(lzvar);
free(Lzvar);
free(fzvar);
free(dzvar);
}
bool SpeckleyElements::writeToSilo(DBfile* dbfile, const string& siloPath,
const StringVec& labels,
const StringVec& units, bool writeMeshData)
{
#ifdef ESYS_HAVE_SILO
if (numElements == 0)
return true;
int ret;
if (siloPath != "") {
ret = DBSetDir(dbfile, siloPath.c_str());
if (ret != 0)
return false;
}
// write out the full mesh in any case
nodeMesh->setSiloPath(siloPath);
string siloMeshNameStr = nodeMesh->getFullSiloName();
const char* siloMeshName = siloMeshNameStr.c_str();
int arraylen = numElements * nodesPerElement;
int eltype = toSiloElementType(type);
string varName = name + string("_zones");
ret = DBPutZonelist2(dbfile, varName.c_str(), numElements,
nodeMesh->getNumDims(), &nodes[0], arraylen, 0, 0,
numGhostElements, &eltype, &nodesPerElement, &numElements, 1, NULL);
if (ret == 0) {
CoordArray& coordbase = const_cast<CoordArray&>(nodeMesh->getCoords());
DBoptlist* optList = NULL;
int nOpts = labels.size()+units.size();
if (nOpts>0) {
optList = DBMakeOptlist(nOpts);
if (labels.size()>0)
DBAddOption(optList, DBOPT_XLABEL, (void*)labels[0].c_str());
if (labels.size()>1)
DBAddOption(optList, DBOPT_YLABEL, (void*)labels[1].c_str());
if (labels.size()>2)
DBAddOption(optList, DBOPT_ZLABEL, (void*)labels[2].c_str());
if (units.size()>0)
DBAddOption(optList, DBOPT_XUNITS, (void*)units[0].c_str());
if (units.size()>1)
DBAddOption(optList, DBOPT_YUNITS, (void*)units[1].c_str());
if (units.size()>2)
DBAddOption(optList, DBOPT_ZUNITS, (void*)units[2].c_str());
}
ret = DBPutUcdmesh(dbfile, siloMeshName,
nodeMesh->getNumDims(), NULL, &coordbase[0],
nodeMesh->getNumNodes(), numElements, varName.c_str(),
/*"facelist"*/NULL, DB_FLOAT, optList);
if (optList)
DBFreeOptlist(optList);
}
if (ret != 0)
return false;
// write out the element-centered variables if enabled
if (writeMeshData) {
varName = name + string("_Id");
ret = DBPutUcdvar1(dbfile, varName.c_str(), siloMeshName,
(float*)&ID[0], numElements, NULL, 0, DB_INT, DB_ZONECENT,
NULL);
if (ret == 0) {
varName = name + string("_Owner");
ret = DBPutUcdvar1(dbfile, varName.c_str(), siloMeshName,
(float*)&owner[0], numElements, NULL, 0, DB_INT, DB_ZONECENT,
NULL);
}
}
// "Elements" is a special case
if (writeMeshData && name == "Elements") {
nodeMesh->writeToSilo(dbfile);
}
return (ret == 0);
#else // !ESYS_HAVE_SILO
return false;
#endif
}
void grid::output(const output_list_type& olists, std::string _filename, real _t, int cycle, bool analytic) {
#ifdef DO_OUTPUT
std::thread(
[&](const std::string& filename, real t) {
printf( "t = %e\n", t);
const std::set<node_point>& node_list = olists.nodes;
const std::vector<zone_int_type>& zone_list = olists.zones;
const int nzones = zone_list.size() / NVERTEX;
std::vector<int> zone_nodes;
zone_nodes = std::move(zone_list);
const int nnodes = node_list.size();
std::vector<double> x_coord(nnodes);
std::vector<double> y_coord(nnodes);
std::vector<double> z_coord(nnodes);
std::array<double*, NDIM> node_coords = {x_coord.data(), y_coord.data(), z_coord.data()};
for (auto iter = node_list.begin(); iter != node_list.end(); ++iter) {
const integer i = iter->index;
x_coord[i] = iter->pt[0];
y_coord[i] = iter->pt[1];
z_coord[i] = iter->pt[2];
}
constexpr
int nshapes = 1;
int shapesize[1] = {NVERTEX};
int shapetype[1] = {DB_ZONETYPE_HEX};
int shapecnt[1] = {nzones};
const char* coord_names[NDIM] = {"x", "y", "z"};
#ifndef __MIC__
auto olist = DBMakeOptlist(1);
double time = double(t);
int ndim = 3;
DBAddOption(olist, DBOPT_CYCLE, &cycle);
DBAddOption(olist, DBOPT_DTIME, &time);
DBAddOption(olist, DBOPT_NSPACE, &ndim );
DBfile *db = DBCreateReal(filename.c_str(), DB_CLOBBER, DB_LOCAL, "Euler Mesh", DB_PDB);
assert(db);
DBPutZonelist2(db, "zones", nzones, int(NDIM), zone_nodes.data(), nzones * NVERTEX, 0, 0, 0, shapetype, shapesize,
shapecnt, nshapes, olist);
DBPutUcdmesh(db, "mesh", int(NDIM), const_cast<char**>(coord_names), node_coords.data(), nnodes, nzones, "zones", nullptr, DB_DOUBLE,
olist);
const char* analytic_names[] = {"rho_a", "egas_a", "sx_a", "sy_a", "sz_a", "tau_a"};
DBFreeOptlist(olist);
for (int field = 0; field != NF + NGF + NPF; ++field) {
auto olist = DBMakeOptlist(1);
double time = double(t);
int istrue = 1;
int isfalse = 0;
DBAddOption(olist, DBOPT_CYCLE, &cycle);
DBAddOption(olist, DBOPT_DTIME, &time);
DBAddOption(olist, DBOPT_NSPACE, &ndim );
if( field == rho_i || field == sx_i || field == sy_i || field == sz_i || field == spc_ac_i || field == spc_ae_i || field == spc_dc_i || field == spc_de_i || field == spc_vac_i ) {
DBAddOption(olist, DBOPT_CONSERVED, &istrue);
} else {
DBAddOption(olist, DBOPT_CONSERVED, &isfalse );
}
if( field < NF ) {
DBAddOption(olist, DBOPT_EXTENSIVE, &istrue);
} else {
DBAddOption(olist, DBOPT_EXTENSIVE, &isfalse);
}
DBAddOption(olist, DBOPT_EXTENSIVE, &istrue);
DBPutUcdvar1(db, field_names[field], "mesh", const_cast<void*>(reinterpret_cast<const void*>(olists.data[field].data())), nzones, nullptr, 0, DB_DOUBLE, DB_ZONECENT,
olist);
if( analytic && field < 6) {
DBPutUcdvar1(db, analytic_names[field], "mesh", const_cast<void*>(reinterpret_cast<const void*>(olists.analytic[field].data())), nzones, nullptr, 0, DB_DOUBLE, DB_ZONECENT,
olist);
}
DBFreeOptlist(olist);
#ifdef RHO_ONLY
break;
#endif
}
DBClose(db);
#endif
}, _filename, _t).join();
#endif
}
int
main(int argc, char *argv[])
{
DBfile *dbfile = NULL;
char *coordnames[3];
float *coords[3];
float x[64], y[64], z[64];
int shapesize[1];
int shapecnt[1];
DBfacelist *facelist = NULL;
int matnos[1], matlist[1], dims[3];
int i, j, k, len;
float evar2d[2*16], evar3d[3*64], fvar3d[3*64];
int driver = DB_PDB;
char *filename = "efcentering.silo";
int layer, zone;
int nodelist2[9*4] = {0,1,5,4, 1,2,6,5, 2,3,7,6,
4,5,9,8, 5,6,10,9, 6,7,11,10,
8,9,13,12, 9,10,14,13, 10,11,15,14};
int st2 = DB_ZONETYPE_QUAD;
int ss2 = 4;
int sc2 = 9;
int nodelist3[27*8];
int st3 = DB_ZONETYPE_HEX;
int ss3 = 8;
int sc3 = 27;
int nedges;
int *edges;
int nfaces;
int *faces;
int ndims;
int show_all_errors = FALSE;
/* Parse command-line */
for (i=1; i<argc; i++) {
if (!strncmp(argv[i], "DB_PDB",6)) {
driver = StringToDriver(argv[i]);
} else if (!strncmp(argv[i], "DB_HDF5", 7)) {
driver = StringToDriver(argv[i]);
} else if (!strcmp(argv[i], "show-all-errors")) {
show_all_errors = 1;
} else if (argv[i][0] != '\0') {
fprintf(stderr, "%s: ignored argument `%s'\n", argv[0], argv[i]);
}
}
DBShowErrors(show_all_errors?DB_ALL_AND_DRVR:DB_ABORT, NULL);
dbfile = DBCreate(filename, DB_CLOBBER, DB_LOCAL, "edge and face centered data", driver);
coordnames[0] = "xcoords";
coordnames[1] = "ycoords";
coordnames[2] = "zcoords";
dims[0] = 4;
dims[1] = 4;
dims[2] = 4;
for (k = 0; k < 4; k++)
{
for (j = 0; j < 4; j++)
{
for (i = 0; i < 4; i++)
{
x[k*4*4+j*4+i] = (float) i;
y[k*4*4+j*4+i] = (float) j;
z[k*4*4+j*4+i] = (float) k;
evar2d[0*16+j*4+i] = (float) i;
evar2d[1*16+j*4+i] = (float) j;
evar3d[0*64+k*4*4+j*4+i] = (float) i;
evar3d[1*64+k*4*4+j*4+i] = (float) j;
evar3d[2*64+k*4*4+j*4+i] = (float) k;
fvar3d[0*64+k*4*4+j*4+i] = (float) 10*i;
fvar3d[1*64+k*4*4+j*4+i] = (float) 100*j;
fvar3d[2*64+k*4*4+j*4+i] = (float) 1000*k;
}
}
}
coords[0] = x;
coords[1] = y;
coords[2] = z;
/* build 3d zonelist by layering 2d zonelist */
for (layer = 0; layer < 3; layer++)
{
for (zone = 0; zone < 9; zone++)
{
nodelist3[layer*9*8+zone*8+0] = nodelist2[zone*4+0]+(layer+1)*16;
nodelist3[layer*9*8+zone*8+1] = nodelist2[zone*4+0]+layer*16;
nodelist3[layer*9*8+zone*8+2] = nodelist2[zone*4+1]+layer*16;
nodelist3[layer*9*8+zone*8+3] = nodelist2[zone*4+1]+(layer+1)*16;
nodelist3[layer*9*8+zone*8+4] = nodelist2[zone*4+3]+(layer+1)*16;
nodelist3[layer*9*8+zone*8+5] = nodelist2[zone*4+3]+layer*16;
nodelist3[layer*9*8+zone*8+6] = nodelist2[zone*4+2]+layer*16;
nodelist3[layer*9*8+zone*8+7] = nodelist2[zone*4+2]+(layer+1)*16;
}
}
DBPutQuadmesh(dbfile, "qmesh2", (DBCAS_t) coordnames, coords, dims, 2, DB_FLOAT, DB_NONCOLLINEAR, 0);
DBPutQuadmesh(dbfile, "qmesh3", (DBCAS_t) coordnames, coords, dims, 3, DB_FLOAT, DB_NONCOLLINEAR, 0);
DBPutQuadvar1(dbfile, "qevar2", "qmesh2", evar2d, dims, 2, 0, 0, DB_FLOAT, DB_EDGECENT, 0);
DBPutQuadvar1(dbfile, "qevar3", "qmesh3", evar3d, dims, 3, 0, 0, DB_FLOAT, DB_EDGECENT, 0);
DBPutQuadvar1(dbfile, "qfvar3", "qmesh3", fvar3d, dims, 3, 0, 0, DB_FLOAT, DB_FACECENT, 0);
DBPutUcdmesh(dbfile, "umesh2", 2, (DBCAS_t) coordnames, coords, 16, 9, "um2zl", 0, DB_FLOAT, 0);
DBPutUcdmesh(dbfile, "umesh3", 3, (DBCAS_t) coordnames, coords, 64, 27, "um3zl", 0, DB_FLOAT, 0);
DBPutZonelist2(dbfile, "um2zl", 9, 2, nodelist2, ss2*sc2, 0, 0, 0, &st2, &ss2, &sc2, 1, 0);
DBPutZonelist2(dbfile, "um3zl", 27, 3, nodelist3, ss3*sc3, 0, 0, 0, &st3, &ss3, &sc3, 1, 0);
/* Only reason we build an edgelist is so we know the number of unique edges in the mesh */
build_edgelist(27, 3, nodelist3, ss3*sc3, 0, 0, 0, &st3, &ss3, &sc3, 1, &nedges, &edges);
for (i = 0; i < nedges; i++)
evar3d[i] = i;
DBPutUcdvar1(dbfile, "uevar3", "umesh3", evar3d, nedges, 0, 0, DB_FLOAT, DB_EDGECENT, 0);
ndims = 2;
dims[0] = nedges;
dims[1] = 2;
DBWrite(dbfile, "edges", edges, dims, ndims, DB_INT);
free(edges);
/* Only reason we build a facelist is so we know the number of unique faces in the mesh */
build_facelist(27, 3, nodelist3, ss3*sc3, 0, 0, 0, &st3, &ss3, &sc3, 1, &nfaces, &faces);
for (i = 0; i < nfaces; i++)
fvar3d[i] = i;
DBPutUcdvar1(dbfile, "ufvar3", "umesh3", fvar3d, nfaces, 0, 0, DB_FLOAT, DB_FACECENT, 0);
dims[0] = nfaces;
dims[1] = 4;
DBWrite(dbfile, "faces", faces, dims, ndims, DB_INT);
free(faces);
DBClose(dbfile);
CleanupDriverStuff();
return (0);
}