#include #include #include #include "cgnslib.h" #define NUM_SIDE 5 float coord[NUM_SIDE*NUM_SIDE*NUM_SIDE]; #define CHECK(L,B) if(!(B)){fprintf(stderr,"mismatch in %s\n",L);exit(1);} void error_exit (char *where) { fprintf (stderr, "ERROR:%s:%s\n", where, cg_get_error()); exit (1); } int main (int argc, char **argv) { int n, i, j, k, nuser, dim = 1; int cgfile, cgbase, cgzone, cgcoord, cgdset; int size[9]; int ptlist[3] = {1, 2, 3}; int ptrange[6] = {1, 1, 1, 2, 2, 2}; int bcpoints[6], bcfaces[6]; static char *fname = "extensions.cgns"; char name[33]; float data1 = 1; float data2 = 2; float exponents[8], rate[3], center[3]; GridLocation_t gridloc; int ordinal, ndata, cgfam, cgbc, nunits, nexps; int elecflag, magnflag, condflag, dirichlet, neumann; PointSetType_t pttype; DataClass_t dclass; DataType_t dtype; BCType_t bctype; MassUnits_t mass; LengthUnits_t length; TimeUnits_t time; TemperatureUnits_t temp; AngleUnits_t angle; ElectricCurrentUnits_t current; SubstanceAmountUnits_t amount; LuminousIntensityUnits_t intensity; ModelType_t elecmodel; ModelType_t magnmodel; ModelType_t emconduct; for (n = 0; n < 8; n++) exponents[n] = (float)n; for (n = 0; n < 3; n++) { rate[n] = (float)n; center[n] = (float)n; } for (n = 0; n < NUM_SIDE*NUM_SIDE*NUM_SIDE; n++) coord[n] = (float)n; unlink (fname); printf ("creating CGNS file %s\n", fname); if (cg_open (fname, MODE_WRITE, &cgfile) || cg_base_write (cgfile, "Base", 3, 3, &cgbase)) error_exit ("write base"); /* write electomagnetics model under base */ puts ("writing electromagnetics"); if (cg_goto(cgfile, cgbase, NULL) || cg_equationset_write (3) || cg_goto(cgfile, cgbase, "FlowEquationSet_t", 1, NULL) || cg_model_write("EMElectricFieldModel_t", Voltage) || cg_model_write("EMMagneticFieldModel_t", Interpolated) || cg_model_write("EMConductivityModel_t", Equilibrium_LinRessler)) error_exit("write electromagnetics"); /* write rotating coordinates under family_t */ puts ("writing family/rotating"); if (cg_family_write(cgfile, cgbase, "Family", &cgfam) || cg_goto(cgfile, cgbase, "Family_t", cgfam, NULL) || cg_rotating_write (rate, center)) error_exit ("write family/rotating"); /* write BCDataSet under FamilyBC_t */ puts("writing FamilyBCDataSet"); if (cg_fambc_write(cgfile, cgbase, cgfam, "FamilyBC", BCWall, &cgbc) || cg_goto(cgfile, cgbase, "Family_t", cgfam, "FamilyBC_t", cgbc, NULL) || cg_bcdataset_write ("FamilyBCDataSet", BCWallInviscid, Dirichlet)) error_exit("write FamilyBCDataSet"); /* write user data under base */ puts("writing user defined data under base"); if (cg_goto (cgfile, cgbase, NULL) || cg_user_data_write ("User")) error_exit ("write User"); if (cg_goto (cgfile, cgbase, "UserDefinedData_t", 1, "end") || cg_gridlocation_write (CellCenter) || cg_famname_write ("Family") || cg_ordinal_write (0) || cg_array_write ("Data1", RealSingle, 1, &dim, &data1) || cg_array_write ("Data2", RealSingle, 1, &dim, &data2)) error_exit ("write User/data"); for (n = 1; n <= 2; n++) { if (cg_goto (cgfile, cgbase, "UserDefinedData_t", 1, "DataArray_t", n, "end") || cg_dataclass_write (Dimensional) || cg_units_write (Kilogram, Meter, Second, Kelvin, Radian) || cg_exponents_write (RealSingle, exponents)) error_exit (name); } /* this should fail since ptset not allowed as child of user data, except below a zone_t node */ if (cg_ptset_write (PointList, 1, ptlist) == CG_OK) printf ("WHAT!! - ptset should not work under base/userdata\n"); /* write zone */ puts("writing zone"); for (n = 0; n < 3; n++) { size[n] = NUM_SIDE; size[n+3] = NUM_SIDE - 1; size[n+6] = 0; } if (cg_zone_write (cgfile, cgbase, "Zone", size, Structured, &cgzone) || cg_coord_write(cgfile, cgbase, cgzone, RealSingle, "CoordinateX", coord, &cgcoord) || cg_coord_write(cgfile, cgbase, cgzone, RealSingle, "CoordinateY", coord, &cgcoord) || cg_coord_write(cgfile, cgbase, cgzone, RealSingle, "CoordinateZ", coord, &cgcoord)) cg_error_exit(); /* create a BC node with point range and Dirichlet node*/ puts("writing Dirichlet BC with vertex range"); for (n = 0; n < 3; n++) { bcpoints[n] = 1; bcpoints[n+3] = NUM_SIDE; bcfaces[n] = 1; bcfaces[n+3] = NUM_SIDE - 1; } bcpoints[5] = bcfaces[5] = 1; if (cg_boco_write (cgfile, cgbase, cgzone, "BC", BCWall, PointList, 1, bcpoints, &cgbc) || cg_dataset_write (cgfile, cgbase, cgzone, cgbc, "DataSet", BCWallViscous, &cgdset) || cg_bcdata_write (cgbase, cgfile, cgzone, cgbc, cgdset, Dirichlet)) cg_error_exit(); /* create Dirichlet data at faces */ puts("writing Dirichlet data at faces"); if (cg_goto (cgfile, cgbase, "Zone_t", 1, "ZoneBC_t", 1, "BC_t", 1, "BCDataSet_t", 1, NULL) || cg_gridlocation_write (KFaceCenter) || cg_ptset_write (PointRange, 2, bcfaces)) cg_error_exit(); #if 1 /* this causes earlier versions of the library to fail when reading the file, since the size of the data does not match that as defined under the BC_t node */ size[0] = (NUM_SIDE - 1) * (NUM_SIDE - 1); #else /* this works, since 1 is always accepted */ size[0] = 1; #endif if (cg_goto (cgfile, cgbase, "Zone_t", 1, "ZoneBC_t", 1, "BC_t", 1, "BCDataSet_t", 1, "BCData_t", Dirichlet, NULL) || cg_array_write ("Data", RealSingle, 1, size, coord)) cg_error_exit(); /* write recursive user data */ puts("writing recursive user defined data under zone"); for (i = 1; i <= 4; i++) { sprintf (name, "User%d", i); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "end") || cg_user_data_write (name)) error_exit (name); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "end") || cg_gridlocation_write (CellCenter) || cg_famname_write ("Family") || cg_ordinal_write (i) || cg_ptset_write (PointList, 1, ptlist) || cg_array_write ("Data1", RealSingle, 1, &dim, &data1) || cg_array_write ("Data2", RealSingle, 1, &dim, &data2)) error_exit (name); for (n = 1; n <= 2; n++) { if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "DataArray_t", n, "end") || cg_dataclass_write (Dimensional) || cg_unitsfull_write (Kilogram, Meter, Second, Kelvin, Radian, Ampere, Mole, Candela) || cg_expfull_write (RealSingle, exponents)) error_exit (name); } for (j = 1; j <= 3; j++) { sprintf (name, "User%d.%d", i, j); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "end") || cg_user_data_write (name)) error_exit (name); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "end") || cg_gridlocation_write (Vertex) || cg_famname_write ("Family") || cg_ordinal_write (i + j) || cg_ptset_write (PointRange, 2, ptrange) || cg_array_write ("Data1", RealSingle, 1, &dim, &data1) || cg_array_write ("Data2", RealSingle, 1, &dim, &data2)) error_exit (name); for (n = 1; n <= 2; n++) { if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "DataArray_t", n, "end") || cg_dataclass_write (Dimensional) || cg_unitsfull_write (Kilogram, Meter, Second, Kelvin, Radian, Ampere, Mole, Candela) || cg_expfull_write (RealSingle, exponents)) error_exit (name); } for (k = 1; k <= 2; k++) { sprintf (name, "User%d.%d.%d", i, j, k); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "end") || cg_user_data_write (name)) error_exit (name); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "UserDefinedData_t", k, "end") || cg_array_write ("Data1", RealSingle, 1, &dim, &data1) || cg_array_write ("Data2", RealSingle, 1, &dim, &data2)) error_exit (name); for (n = 1; n <= 2; n++) { if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "UserDefinedData_t", k, "DataArray_t", n, "end") || cg_dataclass_write (Dimensional) || cg_unitsfull_write (Kilogram, Meter, Second, Kelvin, Radian, Ampere, Mole, Candela) || cg_expfull_write (RealSingle, exponents)) error_exit (name); } for (n = 1; n <= 2; n++) { sprintf (name, "User%d.%d.%d.%d", i, j, k, n); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "UserDefinedData_t", k, "end") || cg_user_data_write (name)) error_exit (name); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "UserDefinedData_t", k, "UserDefinedData_t", n, "end") || cg_array_write ("Data1", RealSingle, 1, &dim, &data1) || cg_array_write ("Data2", RealSingle, 1, &dim, &data2)) error_exit (name); } } } } puts ("closing and reopening in read mode"); cg_close (cgfile); /* read file and check values */ if (cg_open (fname, MODE_READ, &cgfile)) cg_error_exit (); cgbase = cgzone = 1; /* check electomagnetics model under base */ puts ("checking electromagnetics"); if (cg_goto(cgfile, cgbase, NULL) || cg_equationset_elecmagn_read(&elecflag, &magnflag, &condflag) || cg_goto(cgfile, cgbase, "FlowEquationSet_t", 1, NULL) || cg_model_read ("EMElectricFieldModel_t", &elecmodel) || cg_model_read ("EMMagneticFieldModel_t", &magnmodel) || cg_model_read ("EMConductivityModel_t", &emconduct)) error_exit("electromagnetics read"); CHECK ("ElectricFieldFlag", elecflag == 1); CHECK ("ElectricFieldModel", elecmodel == Voltage); CHECK ("MagneticFieldFlag", magnflag == 1); CHECK ("MagneticFieldModel", magnmodel == Interpolated); CHECK ("EMConductivityFlag", condflag == 1); CHECK ("EMConductivityModel", emconduct == Equilibrium_LinRessler); /* check rotating coordinates under family_t */ puts ("checking family/rotating"); if (cg_goto(cgfile, cgbase, "Family_t", 1, NULL) || cg_rotating_read (rate, center)) error_exit ("read family/rotating"); for (n = 0; n < 3; n++) { CHECK ("rotation rate", rate[n] == (float)n); CHECK ("rotation center", center[n] == (float)n); } /* check BCDataSet under FamilyBC_t */ puts("checking FamilyBCDataSet"); *name = 0; if (cg_goto(cgfile, cgbase, "Family_t", 1, "FamilyBC_t", 1, NULL) || cg_bcdataset_info(&ndata) || cg_bcdataset_read (1, name, &bctype, &dirichlet, &neumann)) error_exit("read FamilyBCDataSet"); CHECK("bcdataset_info", ndata == 1); CHECK("bcdatset name", strcmp(name, "FamilyBCDataSet") == 0); CHECK("bcdatset type", bctype == BCWallInviscid); CHECK("bcdatset dirichlet", dirichlet == 1); CHECK("bcdatset neumann", neumann == 0); /* check BC data */ puts("checking BC data"); if (cg_boco_info (cgfile, cgbase, cgzone, 1, name, &bctype, &pttype, &n, size, &i, &dtype, &ndata)) cg_error_exit(); CHECK("BC_t name", strcmp(name, "BC") == 0); CHECK("BC_t type", bctype == BCWall); CHECK("BC_t pntset type", pttype == PointList); CHECK("BC_t npnts", n == 1); if (cg_dataset_read (cgfile, cgbase, cgzone, 1, 1, name, &bctype, &dirichlet, &neumann) || cg_goto (cgfile, cgbase, "Zone_t", 1, "ZoneBC_t", 1, "BC_t", 1, "BCDataSet_t", 1, NULL) || cg_gridlocation_read (&gridloc) || cg_ptset_info (&pttype, &n)) cg_error_exit(); CHECK("BCDataSet_t name", strcmp(name, "DataSet") == 0); CHECK("BCDataSet_t type", bctype == BCWallViscous); CHECK("BCDataSet_t location", gridloc == KFaceCenter); CHECK("BCDataSet_t pntset type", pttype == PointRange); CHECK("BC_t npnts", n == 2); CHECK("BCDataSet_t dirichlet", dirichlet == 1); CHECK("BCDataSet_t neumann", neumann == 0); /* check user defined data */ puts("checking user defined data"); *name = 0; if (cg_goto (cgfile, cgbase, "UserDefinedData_t", 1, "end") || cg_gridlocation_read (&gridloc) || cg_famname_read (name) || cg_ordinal_read (&ordinal) || cg_narrays (&ndata)) cg_error_exit (); CHECK ("gridlocation", gridloc == CellCenter); CHECK ("famname", strcmp (name, "Family") == 0); CHECK ("ordinal", ordinal == 0); CHECK ("narrays", ndata == 2); if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "end") || cg_nuser_data (&nuser)) cg_error_exit (); CHECK ("nuserdata", nuser == 4); for (i = 1; i <= 4; i++) { *name = 0; if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "end") || cg_gridlocation_read (&gridloc) || cg_famname_read (name) || cg_ordinal_read (&ordinal) || cg_ptset_info (&pttype, &n) || cg_ptset_read (ptlist) || cg_narrays (&ndata) || cg_nuser_data (&nuser)) cg_error_exit (); CHECK ("gridlocation", gridloc == CellCenter); CHECK ("famname", strcmp (name, "Family") == 0); CHECK ("ordinal", ordinal == i); CHECK ("pointtype", pttype == PointList); CHECK ("npoints", n == 1); CHECK ("narrays", ndata == 2); CHECK ("nuserdata", nuser == 3); for (j = 1; j <= 3; j++) { *name = 0; if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "end") || cg_gridlocation_read (&gridloc) || cg_famname_read (name) || cg_ordinal_read (&ordinal) || cg_ptset_info (&pttype, &n) || cg_ptset_read (ptlist) || cg_narrays (&ndata) || cg_nuser_data (&nuser)) cg_error_exit (); CHECK ("gridlocation", gridloc == Vertex); CHECK ("famname", strcmp (name, "Family") == 0); CHECK ("ordinal", ordinal == (i + j)); CHECK ("pointtype", pttype == PointRange); CHECK ("npoints", n == 2); CHECK ("narrays", ndata == 2); CHECK ("nuserdata", nuser == 2); for (n = 1; n <= 2; n++) { if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", i, "UserDefinedData_t", j, "DataArray_t", n, "end") || cg_dataclass_read (&dclass) || cg_nunits (&nunits) || cg_unitsfull_read (&mass, &length, &time, &temp, &angle, ¤t, &amount, &intensity) || cg_nexponents (&nexps) || cg_expfull_read (exponents)) cg_error_exit (); CHECK ("dataclass", dclass == Dimensional); CHECK ("nunits", nunits == 8); CHECK ("massunits", mass == Kilogram); CHECK ("lengthunits", length == Meter); CHECK ("timeunits", time == Second); CHECK ("tempunits", temp == Kelvin); CHECK ("angleunits", angle == Radian); CHECK ("currentunits", current == Ampere); CHECK ("amountunits", amount == Mole); CHECK ("intensityunits", intensity == Candela); CHECK ("nexponents", nexps == 8); for (n = 0; n < 8; n++) CHECK ("exponents", exponents[n] == (float)n); } } } if (cg_goto (cgfile, cgbase, "Zone_t", cgzone, "UserDefinedData_t", 2, "UserDefinedData_t", 2, "UserDefinedData_t", 2, "UserDefinedData_t", 1, "end") || cg_narrays (&ndata) || cg_nuser_data (&nuser) || cg_array_info (2, name, &dtype, &n, &dim) || cg_array_read (1, &data1) || cg_array_read (2, &data2)) cg_error_exit (); CHECK ("narrays", ndata == 2); CHECK ("nuserdata", nuser == 0); CHECK ("arrayname", strcmp (name, "Data2") == 0); CHECK ("datatype", dtype == RealSingle); CHECK ("ndims", n == 1); CHECK ("dims", dim == 1); CHECK ("data1", data1 == 1.0); CHECK ("data2", data2 == 2.0); /* read partial units/exponents as full */ puts("checking units and exponents"); if (cg_goto(cgfile, cgbase, "UserDefinedData_t", 1, "DataArray_t", 1, NULL) || cg_nunits (&nunits) || cg_unitsfull_read (&mass, &length, &time, &temp, &angle, ¤t, &amount, &intensity) || cg_nexponents (&nexps) || cg_expfull_read (exponents)) cg_error_exit (); CHECK ("nunits", nunits == 5); CHECK ("massunits", mass == Kilogram); CHECK ("lengthunits", length == Meter); CHECK ("timeunits", time == Second); CHECK ("tempunits", temp == Kelvin); CHECK ("angleunits", angle == Radian); CHECK ("currentunits", current == 0); CHECK ("amountunits", amount == 0); CHECK ("intensityunits", intensity == 0); CHECK ("nexponents", nexps == 5); for (n = 0; n < 5; n++) CHECK ("exponents", exponents[n] == (float)n); for (n = 6; n < 8; n++) CHECK ("exponents", exponents[n] == (float)0.0); /* read full units/exponents as partial */ if (cg_goto(cgfile, cgbase, "Zone_t", 1, "UserDefinedData_t", 1, "DataArray_t", 1, NULL) || cg_nunits (&nunits) || cg_units_read (&mass, &length, &time, &temp, &angle) || cg_nexponents (&nexps) || cg_exponents_read (exponents)) cg_error_exit (); CHECK ("nunits", nunits == 8); CHECK ("massunits", mass == Kilogram); CHECK ("lengthunits", length == Meter); CHECK ("timeunits", time == Second); CHECK ("tempunits", temp == Kelvin); CHECK ("angleunits", angle == Radian); CHECK ("nexponents", nexps == 8); for (n = 0; n < 5; n++) CHECK ("exponents", exponents[n] == (float)n); puts ("closing file and reopening in modify mode"); cg_close (cgfile); /* delete userdata node */ if (cg_open (fname, MODE_MODIFY, &cgfile)) cg_error_exit (); puts ("deleting user defined data and checking"); if (cg_goto (cgfile, 1, "Zone_t", 1, "UserDefinedData_t", 3, "UserDefinedData_t", 2, "UserDefinedData_t", 1, "end") || cg_nuser_data (&nuser)) cg_error_exit (); CHECK ("nuserdata", nuser == 2); if (cg_delete_node ("User3.2.1.1") || cg_nuser_data (&nuser)) cg_error_exit (); CHECK ("nuserdata", nuser == 1); puts ("closing file"); cg_close (cgfile); return 0; }