visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "mesh1d") == 0) { if(VisIt_UnstructuredMesh_alloc(&h) != VISIT_ERROR) { visit_handle x,y,conn; int nzones; nzones = sim->npts-1; VisIt_VariableData_alloc(&x); VisIt_VariableData_alloc(&y); VisIt_VariableData_setDataF(x, VISIT_OWNER_SIM, 1, sim->npts, sim->x); VisIt_VariableData_setDataF(y, VISIT_OWNER_SIM, 1, sim->npts, sim->y); VisIt_VariableData_alloc(&conn); VisIt_VariableData_setDataI(conn, VISIT_OWNER_SIM, 1, 3*nzones, sim->conn); VisIt_UnstructuredMesh_setCoordsXY(h, x, y); VisIt_UnstructuredMesh_setConnectivity(h, nzones, conn); } } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "mesh2d") == 0) { if(VisIt_RectilinearMesh_alloc(&h) == VISIT_OKAY) { int i; visit_handle x,y; /* Initialize X coords. */ for(i = 0; i < NX; ++i) { float t = (float)i / (float)(NX-1); rmesh_x[i] = (1.f-t)*XMIN + t*XMAX; } /* Initialize Y coords. */ for(i = 0; i < NY; ++i) { float t = (float)i / (float)(NY-1); rmesh_y[i] = (1.f-t)*YMIN + t*YMAX; } VisIt_VariableData_alloc(&x); VisIt_VariableData_alloc(&y); VisIt_VariableData_setDataF(x, VISIT_OWNER_SIM, 1, NX, rmesh_x); VisIt_VariableData_setDataF(y, VISIT_OWNER_SIM, 1, NY, rmesh_y); VisIt_RectilinearMesh_setCoordsXY(h, x, y); } } else if(strcmp(name, "ucdmesh") == 0) { visit_handle c, hc; if(VisIt_UnstructuredMesh_alloc(&h) == VISIT_OKAY && VisIt_VariableData_alloc(&c) == VISIT_OKAY && VisIt_VariableData_alloc(&hc) == VISIT_OKAY) { int nnodes, nzones; nnodes = (NX * NY); nzones = (NX-1)*(NY-1); VisIt_VariableData_setDataF(c, VISIT_OWNER_SIM, 2, nnodes, (float*)coords2d); VisIt_VariableData_setDataI(hc, VISIT_OWNER_SIM, 1, 5*nzones, connectivity); VisIt_UnstructuredMesh_setCoords(h, c); VisIt_UnstructuredMesh_setConnectivity(h, nzones, hc); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "zonal") == 0) { /* Find the right domain. */ int i; Domain *d = NULL; for(i = 0; i < sim->nDomains; ++i) { if(sim->domains[i].globalIndex == domain) { d = &sim->domains[i]; break; } } if(d != NULL && VisIt_VariableData_alloc(&h) != VISIT_ERROR) { int nTuples = (d->dims[0]-1) * (d->dims[1]-1) * (d->dims[2]-1); VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, nTuples, d->variable); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; int f, ret = -1, nComponents = 1, nTuples; simulation_data *sim = (simulation_data *)cbdata; if(VisIt_VariableData_alloc(&h) == VISIT_OKAY) { nTuples = (sim->grid.Ncolumns) * (sim->grid.Nrows) * (sim->grid.Nlevels); for (f = 0; f < NFIELDS; f++) { char simdname[8]; sprintf(simdname, "data%03d", f); if(strcmp(name, simdname) == 0) { ret = VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, nComponents, nTuples, sim->grid.data[f]); break; } } if(ret == VISIT_ERROR) { VisIt_VariableData_free(h); h = VISIT_INVALID_HANDLE; } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { int ncells; visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "rect_var") == 0) { ncells = (sim->blankRectMesh.dims[0]-1) * (sim->blankRectMesh.dims[1]-1); VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, ncells, sim->blankRectMesh.data); } else if(strcmp(name, "curv_var") == 0) { ncells = (sim->blankCurvMesh.dims[0]-1) * (sim->blankCurvMesh.dims[1]-1); VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, ncells, sim->blankCurvMesh.data); } else if(strcmp(name, "ucd_var") == 0) { VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, sim->blankUcdMesh.ncells, sim->blankUcdMesh.data); } else if(strncmp(name, "multi_var", 9) == 0) { ncells = (sim->multidomain[domain].m.dims[0]-1) * (sim->multidomain[domain].m.dims[1]-1); VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, ncells, sim->multidomain[domain].m.data); } else if(domain < 4 && strcmp(name, "multi_types_var") == 0) { ncells = (sim->multipletypes[domain].dims[0]-1) * (sim->multipletypes[domain].dims[1]-1) * (sim->multipletypes[domain].dims[2]-1); VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, ncells, sim->multipletypes[domain].data); } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "mesh") == 0) { if(VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { int minRealIndex[3], maxRealIndex[3]; minRealIndex[0] = 0; minRealIndex[1] = 0; minRealIndex[2] = 0; maxRealIndex[0] = sim->grid.Ncolumns; maxRealIndex[1] = sim->grid.Nrows; maxRealIndex[2] = sim->grid.Nlevels; #ifdef SHOW_GHOST_ARRAY // only modify in X and Y directions, since Z does not have ghost minRealIndex[0]++; minRealIndex[1]++; maxRealIndex[0]--; maxRealIndex[1]--; #endif //fprintf(stderr,"minRealIndex[%dx%dx%d], maxRealIndex[%dx%dx%d]\n", minRealIndex[0], minRealIndex[1],minRealIndex[2],maxRealIndex[0], maxRealIndex[1],maxRealIndex[2]); visit_handle hxc, hyc, hzc; VisIt_VariableData_alloc(&hxc); VisIt_VariableData_alloc(&hyc); VisIt_VariableData_alloc(&hzc); VisIt_VariableData_setDataF(hxc, VISIT_OWNER_SIM, 1, sim->grid.Ncolumns+1, sim->grid.rmesh_x); VisIt_VariableData_setDataF(hyc, VISIT_OWNER_SIM, 1, sim->grid.Nrows+1, sim->grid.rmesh_y); VisIt_VariableData_setDataF(hzc, VISIT_OWNER_SIM, 1, sim->grid.Nlevels+1, sim->grid.rmesh_z); VisIt_RectilinearMesh_setCoordsXYZ(h, hxc, hyc, hzc); #ifdef SHOW_GHOST_ARRAY VisIt_RectilinearMesh_setRealIndices(h, minRealIndex, maxRealIndex); #endif } } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "amr") == 0) { if(VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { visit_handle x, y; int i, nx, ny; float cx[100], cy[100], t; /* Create the X coordinates */ nx = rmxext[domain][1] - rmxext[domain][0]+1+1; for(i = 0; i < nx; ++i) { t = (float)i / (float)(nx-1); cx[i] = (1.-t)*rmx[domain][0] + t*rmx[domain][1]; } /* Create the Y coordinates */ ny = rmyext[domain][1] - rmyext[domain][0]+1+1; for(i = 0; i < ny; ++i) { t = (float)i / (float)(ny-1); cy[i] = (1.-t)*rmy[domain][0] + t*rmy[domain][1]; } VisIt_VariableData_alloc(&x); VisIt_VariableData_alloc(&y); VisIt_VariableData_setDataF(x, VISIT_OWNER_COPY, 1, nx, cx); VisIt_VariableData_setDataF(y, VISIT_OWNER_COPY, 1, ny, cy); VisIt_RectilinearMesh_setCoordsXY(h, x, y); } } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle res = VISIT_INVALID_HANDLE; if(strcmp(name, "quadmesh") == 0) { if(VisIt_RectilinearMesh_alloc(&res) != VISIT_ERROR) { int i,minRealIndex[3]={0,0,0}, maxRealIndex[3]={0,0,0}; float *rmesh[3]; visit_handle h[3]; // fprintf(stderr,"proc %d\t:simgetmesh: %d\t%d\t%d\n",rank,rmesh_dims[0],rmesh_dims[1],rmesh_dims[2]); // fflush(stderr); for(i=0;i<3;i++) { minRealIndex[i] = 0; maxRealIndex[i] = rmesh_dims[i]-1; // attention do not free ! rmesh[i] = (float *)malloc(sizeof(float) * rmesh_dims[i]); } for(i = 0; i < rmesh_dims[0]; ++i) rmesh[0][i] = i*dx; for(i = 0; i < rmesh_dims[1]; ++i) rmesh[1][i] = i*dy; for(i = 0; i < rmesh_dims[2]; ++i) rmesh[2][i] =(zmin+i)*dz; for(i=0;i<3;i++) { VisIt_VariableData_alloc(&h[i]); VisIt_VariableData_setDataF(h[i], VISIT_OWNER_VISIT, 1,rmesh_dims[i], rmesh[i]); } VisIt_RectilinearMesh_setCoordsXYZ(res, h[0], h[1],h[2]); VisIt_RectilinearMesh_setRealIndices(res, minRealIndex, maxRealIndex); } else { fprintf(stderr,"proc: %d:Erreur allocation in SimGetMesh\n",rank); } } return res; }
visit_handle SimGetCurve(const char *name, void *cbdata) { int h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "sine") == 0) { if(VisIt_CurveData_alloc(&h) != VISIT_ERROR) { visit_handle hxc, hyc; /* Give the arrays to VisIt. VisIt will free them. */ VisIt_VariableData_alloc(&hxc); VisIt_VariableData_alloc(&hyc); VisIt_VariableData_setDataF(hxc, VISIT_OWNER_SIM, 1, NPTS, sim->x); VisIt_VariableData_setDataF(hyc, VISIT_OWNER_SIM, 1, NPTS, sim->y); VisIt_CurveData_setCoordsXY(h, hxc, hyc); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "zonal") == 0) { int nTuples = sim->npts-1; VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, nTuples, sim->zonal); } else if(strcmp(name, "nodal") == 0) { int nTuples = sim->npts; VisIt_VariableData_alloc(&h); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, nTuples, sim->nodal); } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "mesh2d") == 0) { if(VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { visit_handle hxc, hyc; VisIt_VariableData_alloc(&hxc); VisIt_VariableData_alloc(&hyc); VisIt_VariableData_setDataF(hxc, VISIT_OWNER_SIM, 1, rmesh_dims[0], rmesh_x); VisIt_VariableData_setDataF(hyc, VISIT_OWNER_SIM, 1, rmesh_dims[1], rmesh_y); VisIt_RectilinearMesh_setCoordsXY(h, hxc, hyc); } } else if(strcmp(name, "mesh3d") == 0) { if(VisIt_CurvilinearMesh_alloc(&h) != VISIT_ERROR) { int nn; visit_handle hxc, hyc, hzc; nn = cmesh_dims[0] * cmesh_dims[1] * cmesh_dims[2]; VisIt_VariableData_alloc(&hxc); VisIt_VariableData_alloc(&hyc); VisIt_VariableData_alloc(&hzc); VisIt_VariableData_setDataF(hxc, VISIT_OWNER_SIM, 1, nn, (float*)cmesh_x); VisIt_VariableData_setDataF(hyc, VISIT_OWNER_SIM, 1, nn, (float*)cmesh_y); VisIt_VariableData_setDataF(hzc, VISIT_OWNER_SIM, 1, nn, (float*)cmesh_z); VisIt_CurvilinearMesh_setCoordsXYZ(h, cmesh_dims, hxc, hyc, hzc); } } return h; }
void SetData(visit_handle c, int owner, int dataType, int nTuples, int nComps, float *f) { if(dataType == VISIT_DATATYPE_FLOAT) { if(owner == VISIT_OWNER_SIM) VisIt_VariableData_setDataF(c, owner, nTuples, nComps, f); else { float *d = (float *)malloc(nTuples * nComps * sizeof(float)); memcpy(d, f, nTuples * nComps * sizeof(float)); VisIt_VariableData_setDataF(c, owner, nTuples, nComps, d); } } else { /* Convert the data to double and let VisIt own it. */ int i; double *d = (double *)malloc(nTuples * nComps * sizeof(double)); for(i = 0; i < nTuples * nComps; ++i) d[i] = (double)f[i]; VisIt_VariableData_setDataD(c, VISIT_OWNER_VISIT, nTuples, nComps, d); } }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "mesh") == 0) { /* Find the right domain. */ int i; Domain *d = NULL; for(i = 0; i < sim->nDomains; ++i) { if(sim->domains[i].globalIndex == domain) { d = &sim->domains[i]; break; } } if(d != NULL && VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { visit_handle hx, hy, hz; VisIt_VariableData_alloc(&hx); VisIt_VariableData_alloc(&hy); VisIt_VariableData_alloc(&hz); VisIt_VariableData_setDataF(hx, VISIT_OWNER_SIM, 1, d->dims[0], d->x); VisIt_VariableData_setDataF(hy, VISIT_OWNER_SIM, 1, d->dims[1], d->y); VisIt_VariableData_setDataF(hz, VISIT_OWNER_SIM, 1, d->dims[2], d->z); VisIt_RectilinearMesh_setCoordsXYZ(h, hx, hy, hz); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "scalar") == 0) { if(VisIt_VariableData_alloc(&h) == VISIT_OKAY) { VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, (NX-1) * (NY-1), &zonal_scalar[0][0]); } } return h; }
visit_handle SimGetMixedVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "scalar") == 0) { if(VisIt_VariableData_alloc(&h) == VISIT_OKAY) { int nTuples = sizeof(mixvar) / sizeof(float); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, nTuples, mixvar); } } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; if(strcmp(name, "mesh2d") == 0) { if(VisIt_CurvilinearMesh_alloc(&h) != VISIT_ERROR) { int nTuples; visit_handle hxy; nTuples = mesh_dims[domain][0] * mesh_dims[domain][1]; VisIt_VariableData_alloc(&hxy); VisIt_VariableData_setDataF(hxy, VISIT_OWNER_SIM, 2, nTuples, mesh_coords[domain]); VisIt_CurvilinearMesh_setCoords2(h, mesh_dims[domain], hxy); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; int nComponents = 1, nTuples = 0; if(VisIt_VariableData_alloc(&h) == VISIT_OKAY) { if(strcmp(name, "zonal") == 0) { nTuples = (rmesh_dims[0]-1) * (rmesh_dims[1]-1); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, nComponents, nTuples, zonal); } else if(strcmp(name, "nodal") == 0) { nTuples = cmesh_dims[0] * cmesh_dims[1] * cmesh_dims[2]; VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, nComponents, nTuples, (double*)nodal); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; int nComponents = 1, nTuples = 0; if(VisIt_VariableData_alloc(&h) == VISIT_OKAY) { if(strcmp(name, "zonal_scalar") == 0) { nTuples = (rmesh_dims[0]-1) * (rmesh_dims[1]-1); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, nComponents, nTuples, zonal); } else if(strcmp(name, "nodal_scalar") == 0 || strcmp(name, "hidden") == 0) { nTuples = cmesh_dims[0] * cmesh_dims[1] * cmesh_dims[2]; VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, nComponents, nTuples, (double*)nodal); } else if(strcmp(name, "zonal_vector") == 0) { nComponents = 2; nTuples = (rmesh_dims[0]-1) * (rmesh_dims[1]-1); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, nComponents, nTuples, (float *)zonal_vector); } else if(strcmp(name, "nodal_vector") == 0) { nComponents = 3; nTuples = cmesh_dims[0] * cmesh_dims[1] * cmesh_dims[2]; VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, nComponents, nTuples, (double *)nodal_vector); } else if(strcmp(name, "zonal_label") == 0) { nComponents = 7; nTuples = (rmesh_dims[0]-1) * (rmesh_dims[1]-1); VisIt_VariableData_setDataC(h, VISIT_OWNER_SIM, nComponents, nTuples, (char *)zonal_labels); } else if(strcmp(name, "zonal_array") == 0) { nComponents = 4; nTuples = (rmesh_dims[0]-1) * (rmesh_dims[1]-1); VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, nComponents, nTuples, (float *)zonal_array); } else if(strcmp(name, "nodal_array") == 0) { nComponents = 4; nTuples = cmesh_dims[0] * cmesh_dims[1] * cmesh_dims[2]; VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, nComponents, nTuples, (double *)nodal_array); } else { VisIt_VariableData_free(h); h = VISIT_INVALID_HANDLE; } } return h; }
visit_handle SimGetMesh(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strcmp(name, "rect_blank") == 0) { if(VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { int ncells; visit_handle hx, hy, gc; VisIt_VariableData_alloc(&hx); VisIt_VariableData_alloc(&hy); VisIt_VariableData_setDataF(hx, VISIT_OWNER_SIM, 1, sim->blankRectMesh.dims[0], sim->blankRectMesh.x); VisIt_VariableData_setDataF(hy, VISIT_OWNER_SIM, 1, sim->blankRectMesh.dims[1], sim->blankRectMesh.y); VisIt_RectilinearMesh_setCoordsXY(h, hx, hy); /* Attach ghost cells to blank out certain cells*/ VisIt_VariableData_alloc(&gc); ncells = (sim->blankRectMesh.dims[0]-1) * (sim->blankRectMesh.dims[1]-1); VisIt_VariableData_setDataI(gc, VISIT_OWNER_SIM, 1, ncells, sim->blankRectMesh.ghostCells); VisIt_RectilinearMesh_setGhostCells(h, gc); } } else if(strcmp(name, "curv_blank") == 0) { if(VisIt_CurvilinearMesh_alloc(&h) != VISIT_ERROR) { int ncells, nnodes; visit_handle hx, hy, gc; nnodes = sim->blankCurvMesh.dims[0] * sim->blankCurvMesh.dims[1]; ncells = (sim->blankCurvMesh.dims[0]-1) * (sim->blankCurvMesh.dims[1]-1); VisIt_VariableData_alloc(&hx); VisIt_VariableData_alloc(&hy); VisIt_VariableData_setDataF(hx, VISIT_OWNER_SIM, 1, nnodes, sim->blankCurvMesh.x); VisIt_VariableData_setDataF(hy, VISIT_OWNER_SIM, 1, nnodes, sim->blankCurvMesh.y); VisIt_CurvilinearMesh_setCoordsXY(h, sim->blankCurvMesh.dims, hx, hy); /* Attach ghost cells to blank out certain cells*/ VisIt_VariableData_alloc(&gc); VisIt_VariableData_setDataI(gc, VISIT_OWNER_SIM, 1, ncells, sim->blankCurvMesh.ghostCells); VisIt_CurvilinearMesh_setGhostCells(h, gc); } } else if(strcmp(name, "ucd_blank") == 0) { if(VisIt_UnstructuredMesh_alloc(&h) != VISIT_ERROR) { visit_handle hxyz, hc, gc; VisIt_VariableData_alloc(&hxyz); VisIt_VariableData_setDataF(hxyz, VISIT_OWNER_SIM, 3, sim->blankUcdMesh.nnodes, sim->blankUcdMesh.xyz); VisIt_UnstructuredMesh_setCoords(h, hxyz); VisIt_VariableData_alloc(&hc); VisIt_VariableData_setDataI(hc, VISIT_OWNER_SIM, 1, sim->blankUcdMesh.connectivityLen, sim->blankUcdMesh.connectivity); VisIt_UnstructuredMesh_setConnectivity(h, sim->blankUcdMesh.ncells, hc); /* Attach ghost cells to blank out certain cells*/ VisIt_VariableData_alloc(&gc); VisIt_VariableData_setDataI(gc, VISIT_OWNER_SIM, 1, sim->blankUcdMesh.ncells, sim->blankUcdMesh.ghostCells); VisIt_UnstructuredMesh_setGhostCells(h, gc); } } else if(strncmp(name, "multi_domain", 12) == 0) { if(VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { int ncells; visit_handle hx, hy, gc; VisIt_VariableData_alloc(&hx); VisIt_VariableData_alloc(&hy); VisIt_VariableData_setDataF(hx, VISIT_OWNER_SIM, 1, sim->multidomain[domain].m.dims[0], sim->multidomain[domain].m.x); VisIt_VariableData_setDataF(hy, VISIT_OWNER_SIM, 1, sim->multidomain[domain].m.dims[1], sim->multidomain[domain].m.y); VisIt_RectilinearMesh_setCoordsXY(h, hx, hy); if(strcmp(name, "multi_domain") == 0) { /* Do ghost cells using a ghost cells array. */ VisIt_VariableData_alloc(&gc); ncells = (sim->multidomain[domain].m.dims[0]-1) * (sim->multidomain[domain].m.dims[1]-1); VisIt_VariableData_setDataI(gc, VISIT_OWNER_SIM, 1, ncells, sim->multidomain[domain].m.ghostCells); VisIt_RectilinearMesh_setGhostCells(h, gc); } else { /* Do ghost cells using indices. Note: other mesh types can also * designate ghost cells using indices. */ VisIt_RectilinearMesh_setRealIndices(h, sim->multidomain[domain].minReal, sim->multidomain[domain].maxReal); } } } else if(strcmp(name, "multi_types") == 0) { if(domain < 4 && VisIt_RectilinearMesh_alloc(&h) != VISIT_ERROR) { int ncells; visit_handle hx, hy, hz, gc; VisIt_VariableData_alloc(&hx); VisIt_VariableData_alloc(&hy); VisIt_VariableData_alloc(&hz); VisIt_VariableData_setDataF(hx, VISIT_OWNER_SIM, 1, sim->multipletypes[domain].dims[0], sim->multipletypes[domain].x); VisIt_VariableData_setDataF(hy, VISIT_OWNER_SIM, 1, sim->multipletypes[domain].dims[1], sim->multipletypes[domain].y); VisIt_VariableData_setDataF(hz, VISIT_OWNER_SIM, 1, sim->multipletypes[domain].dims[2], sim->multipletypes[domain].z); VisIt_RectilinearMesh_setCoordsXYZ(h, hx, hy, hz); /* Do ghost cells using a ghost cells array. */ VisIt_VariableData_alloc(&gc); ncells = (sim->multipletypes[domain].dims[0]-1) * (sim->multipletypes[domain].dims[1]-1) * (sim->multipletypes[domain].dims[2]-1); VisIt_VariableData_setDataI(gc, VISIT_OWNER_SIM, 1, ncells, sim->multipletypes[domain].ghostCells); VisIt_RectilinearMesh_setGhostCells(h, gc); } } return h; }
visit_handle SimGetVariable(int domain, const char *name, void *cbdata) { visit_handle h = VISIT_INVALID_HANDLE; simulation_data *sim = (simulation_data *)cbdata; if(strncmp(name, "aos", 3) == 0) { int nnodes, owner; owner = (strcmp(name, "aos_c") == 0) ? VISIT_OWNER_COPY : VISIT_OWNER_SIM; nnodes = sim->aos.nnodes; /* Use setDataArray functions to set up strided array access. */ VisIt_VariableData_alloc(&h); if(strcmp(name+6, "temperature") == 0) serror(VisIt_VariableData_setArrayDataF(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].temperature))); else if(strcmp(name+6, "vx") == 0) serror(VisIt_VariableData_setArrayDataD(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vx))); else if(strcmp(name+6, "vy") == 0) serror(VisIt_VariableData_setArrayDataD(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vy))); else if(strcmp(name+6, "vz") == 0) serror(VisIt_VariableData_setArrayDataD(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vz))); else if(strcmp(name+6, "I") == 0) serror(VisIt_VariableData_setArrayDataI(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].I))); else if(strcmp(name+6, "J") == 0) serror(VisIt_VariableData_setArrayDataI(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].J))); else if(strcmp(name+6, "K") == 0) serror(VisIt_VariableData_setArrayDataI(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].K))); else if(strcmp(name+6, "velocity") == 0) { /* Combine separate strided array access into a vector. */ serror(VisIt_VariableData_setArrayDataD(h, 0, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vx))); serror(VisIt_VariableData_setArrayDataD(h, 1, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vy))); serror(VisIt_VariableData_setArrayDataD(h, 2, owner, nnodes, 0, sizeof(Node), &(sim->aos.nodes[0].vz))); } } else if(strncmp(name, "soa", 3) == 0) { int nnodes = sim->soa.nnodes; /* Use setData functions to set up contiguous array access. */ VisIt_VariableData_alloc(&h); if(strcmp(name+6, "temperature") == 0) serror(VisIt_VariableData_setDataF(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.temperature)); else if(strcmp(name+6, "vx") == 0) serror(VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.vx)); else if(strcmp(name+6, "vy") == 0) serror(VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.vy)); else if(strcmp(name+6, "vz") == 0) serror(VisIt_VariableData_setDataD(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.vz)); else if(strcmp(name+6, "I") == 0) serror(VisIt_VariableData_setDataI(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.I)); else if(strcmp(name+6, "J") == 0) serror(VisIt_VariableData_setDataI(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.J)); else if(strcmp(name+6, "K") == 0) serror(VisIt_VariableData_setDataI(h, VISIT_OWNER_SIM, 1, nnodes, sim->soa.K)); else if(strcmp(name+6, "velocity") == 0) { /* Combine separate contiguous arrays into a vector. */ serror(VisIt_VariableData_setArrayDataD(h, 0, VISIT_OWNER_SIM, nnodes, 0, sizeof(double), sim->soa.vx)); serror(VisIt_VariableData_setArrayDataD(h, 1, VISIT_OWNER_SIM, nnodes, 0, sizeof(double), sim->soa.vy)); serror(VisIt_VariableData_setArrayDataD(h, 2, VISIT_OWNER_SIM, nnodes, 0, sizeof(double), sim->soa.vz)); } } return h; }