/**************************************************************/ /* THEMIS SST CDF -> DD netCDF */ /* 04.01.2008 */ /* V 1.1 */ /* Energy in info file */ /* New CDF with ALL modes and new params */ /**************************************************************/ #include #include #include #include #include #include #include #include #define TimeGap 3600.0 #define Source "themis@cdpp2" #define MAX_FILE_NAME_LEN 250 // Max. file name length #define MAX_VARS 250 // Max # of VARS in CDF /************************************* Global variables and structures **************************************/ long CDFDims, // Number of dimensions in a CDF file CDFVars, // Number of variables in a CDF file CDFDimSizes[CDF_MAX_DIMS], // Dimension Sizes in a CDF file CDFencoding, // Data encoding CDFmajority, // Variable majority CDFmaxRec, // max Record number CDFAttrs; // number of CDF Attributes struct cdfvar { // CDF variable structure char name[CDF_VAR_NAME_LEN+1]; long num; // Variable number long datatype; long numElem; // variable dimensionality long recVariance; // variable rec Variance long dimVariances[CDF_MAX_DIMS]; // # of data values in dimSizes } cdfVar[MAX_VARS]; char mode[4]; int ncID; char ncFile[] = "psif_000000000.nc"; int TimeDimID, TimeLengthID, FluxDimID; int TimeDimVector[2], FluxDimVector[2]; // netCDF Dim vectors size_t Start[2] = {0L,0L}; size_t TimeCount[2] = {1L,TIMELENGTH}; size_t FluxCount[2] = {1L,16L}; CDFstatus cstatus; // CDF status code char Version[]="v01"; char ThemisID[]="tha\0"; char ThemisTime[]="tha_psif_time"; char PAR0[]="tha_psif_delta_time"; char PAR1[]="tha_psif_density"; char PAR2[]="tha_psif_en_eflux"; int StartTimeID, StopTimeID; int StartTimeSpID, StopTimeSpID; int DeltaTID, DensID, AvTempID, ThVelID, PotID, CurrID, SymAngID; // 1D int MfTempID, TempID, ModeID, ModeSpID, VelID, Flux2ID, SymmID; // 2D -> 3 int prTenID, mfTenID; // 2D -> 6 int FluxID; // 2D -> 32 int TimeID; // Time netCDF variable int TimeSpID; char StartT[TIMELENGTH]; // Start time from data char StopT[TIMELENGTH]; // Stop time from data /************************** Function prototypes **************************/ void usage(); void cdf_handle_error (CDFstatus); void nc_handle_error (int); void removeFilepath(); void removeCDFext(); void removeVers(); void ncdefine(); /*--------------------------------------------------------------------------*/ void usage() { printf ("\nDescription:\n"); printf ("This program converts a themis CDF file into a netCDF file.\n"); printf ("\n"); printf ("Usage: esa2nc \n"); printf ("\n"); printf ("Example: esa2nc testfile tha peif\n"); printf ("\n"); exit(1); } /*-------------------------------------------------------------------------- * Handles a CDF error. *--------------------------------------------------------------------------*/ void cdf_handle_error(CDFstatus status) { char message[CDF_STATUSTEXT_LEN+1]; CDFerror (status, message); /* Get the appropriate message */ fprintf (stderr, "CDF: %s\n", message); // exit(1); } /*-------------------------------------------------------------------------- * Handles a netCDF error. *--------------------------------------------------------------------------*/ void nc_handle_error(int status) { fprintf(stderr, "%s\n", nc_strerror(status)); exit(1); } /*-------------------------------------------------------------------------- * NetCDF File Definition * *--------------------------------------------------------------------------*/ void ncdefine(double Time) { char *s; time_t p; int status; char *STime; /*********************** Create netCDF file *****************************/ memcpy(&(ncFile[0]),&(mode[0]), 4); STime = Double2DD_Time(Time); memcpy(&(ncFile[5]),&(STime[2]), 9); if ((status = nc_create(ncFile, NC_CLOBBER, &ncID)) != NC_NOERR) nc_handle_error(status); /******************netCDF Dimensions *******************************/ nc_def_dim (ncID, "Time", NC_UNLIMITED, &TimeDimID); nc_def_dim (ncID, "TimeLength", TIMELENGTH, &TimeLengthID); nc_def_dim (ncID, "Flux", 16L, &FluxDimID); /********************netCDF Variables ******************/ TimeDimVector[0] = TimeDimID; TimeDimVector[1] = TimeLengthID; FluxDimVector[0] = TimeDimID; FluxDimVector[1] = FluxDimID; nc_def_var (ncID, "Time", NC_CHAR, 2, TimeDimVector, &TimeID); nc_def_var (ncID, "DeltaT", NC_DOUBLE, 1, &TimeDimID, &DeltaTID); nc_def_var (ncID, "density", NC_DOUBLE, 1, &TimeDimID, &ModeID); nc_def_var (ncID, "en_eflux", NC_DOUBLE, 2, FluxDimVector, &FluxID); nc_def_var (ncID, "StartTime",NC_CHAR, 1, &TimeLengthID, &StartTimeID); nc_def_var (ncID, "StopTime",NC_CHAR, 1, &TimeLengthID , &StopTimeID); nc_put_att_text(ncID, NC_GLOBAL, "Themis", 3, ThemisID); nc_put_att_text(ncID, NC_GLOBAL, "Source", 12, Source); nc_put_att_text(ncID, FluxID, "Units", 17, "eV/(cm^2-s-sr-eV)"); time(&p); s = ctime(&p); nc_put_att_text(ncID, NC_GLOBAL, "Created", 24, s); status = nc_enddef(ncID); nc_put_vara_text(ncID, StartTimeID, &(Start[1]), &(TimeCount[1]), Double2DD_Time(Time)); } void put_double(RecStart, RecCount, ParCDF, ParNC) { long RecInt = 1; long indices[1] = {0}, intervals[1] = {1}, counts[1] = {1}; double *value; value = (double *)malloc(sizeof(double)*RecCount); if ((cstatus = CDFlib (SELECT_, zVAR_, ParCDF, zVAR_RECNUMBER_, RecStart , zVAR_RECCOUNT_, RecCount, zVAR_RECINTERVAL_, RecInt, zVAR_DIMINDICES_, indices, zVAR_DIMCOUNTS_, counts, zVAR_DIMINTERVALS_, intervals, GET_, zVAR_HYPERDATA_, value, NULL_)) != CDF_OK) cdf_handle_error(cstatus); nc_put_var_double(ncID, ParNC, value); free(value); } void put_mode(RecStart, RecCount, ParCDF, ParNC) { float *value; long indices[2] = {0,3}, intervals[1] = {1}, counts[1] = {3}; long RecInt = 1; value = (float *)malloc(sizeof(float) * RecCount *3); if ((cstatus = CDFlib (SELECT_, zVAR_, ParCDF, zVAR_RECNUMBER_, RecStart , zVAR_RECCOUNT_, RecCount, zVAR_RECINTERVAL_, RecInt, zVAR_DIMINDICES_, indices, zVAR_DIMCOUNTS_, counts, zVAR_DIMINTERVALS_, intervals, GET_, zVAR_HYPERDATA_, value, NULL_)) != CDF_OK) cdf_handle_error(cstatus); nc_put_var_float(ncID, ParNC, value); free(value); } void put_spectra(RecStart, RecCount, ParCDF, ParNC) { double *value; long indices[2] = {0,16}, intervals[1] = {1}, counts[1] = {16}; long RecInt = 1; value = (double *)malloc(sizeof(double)*RecCount*16); if ((cstatus = CDFlib (SELECT_, zVAR_, ParCDF, zVAR_RECNUMBER_, RecStart , zVAR_RECCOUNT_, RecCount, zVAR_RECINTERVAL_, RecInt, zVAR_DIMINDICES_, indices, zVAR_DIMCOUNTS_, counts, zVAR_DIMINTERVALS_, intervals, GET_, zVAR_HYPERDATA_, value, NULL_)) != CDF_OK) cdf_handle_error(cstatus); nc_put_var_double(ncID, ParNC, value); free(value); } /*--------------------------------------------------------------------------*/ int main(int argc, char *argv[]) { long RecStart = 0, RecCount, RecCountF = 1, RecInt = 1, MaxRec; long indices[1] = {0}, counts[1] = {3}, counts2[1] = {6}, countsFlux[1] = {32}, intervals[1] = {1}; long countsE[1] = {1}, indicesF[2]={0,3}, indicesF2[2]={0,6}, indicesFlux[2] = {0, 32}; double *value; float *value_f; size_t numElem; long dimN, varN, par0, par1, par2; CDFid id; int i, j, status; char fileName[MAX_FILE_NAME_LEN]; dd_tmstr_t *dtm; int First = 1; double DayOld; char *UT; char data_set[8]="thx_psxf"; /*-------------------------------- Arguments Decoding ----------------------------------------*/ if (argc <= 3) usage(); // CDF input file name and THEMIS Number not specified else { strcpy(fileName, argv[1]); strncpy(ThemisID,argv[2],3); strncpy(mode,argv[3],4); } /*------------------------------------------ CDF Variables Names Updated according to THEMIS Number -------------*/ memcpy(&(data_set[2]),&(ThemisID[2]),1); memcpy(&(data_set[6]),&(mode[2]),2); memcpy(&(ThemisTime[0]),&(data_set[0]),8); memcpy(&(PAR0[0]),&(data_set[0]),8); memcpy(&(PAR1[0]),&(data_set[0]),8); memcpy(&(PAR2[0]),&(data_set[0]),8); /*********************** Open CDF file *****************************/ if ((cstatus = CDFopen(fileName, &id)) != CDF_OK) cdf_handle_error(cstatus); printf(" THEMIS %s %s\n", ThemisID, mode); /*********** treat all vars as zVars with eliminated false dimensionality **********/ if ((cstatus = CDFlib(SELECT_, CDF_zMODE_, zMODEon2, NULL_)) != CDF_OK) cdf_handle_error (cstatus); /************************ Get CDF Data ************************************/ cstatus = CDFlib(GET_, zVAR_NUMBER_, ThemisTime, &varN, NULL_); cstatus = CDFlib( SELECT_, zVAR_, varN, GET_, zVAR_MAXREC_, &MaxRec, NULL_); cstatus = CDFlib(GET_, zVAR_NUMBER_, PAR0, &par0, NULL_); cstatus = CDFlib(GET_, zVAR_NUMBER_, PAR1, &par1, NULL_); cstatus = CDFlib(GET_, zVAR_NUMBER_, PAR2, &par2, NULL_); RecCount = (long)(MaxRec+1); printf(" Max Rec %d\n", MaxRec); if (MaxRec > 1) { value = (double *)malloc(sizeof(double)* RecCount); if ((cstatus = CDFlib (SELECT_, zVAR_, varN, zVAR_RECNUMBER_, RecStart , zVAR_RECCOUNT_, RecCount, zVAR_RECINTERVAL_, RecInt, zVAR_DIMINDICES_, indices, zVAR_DIMCOUNTS_, countsE, zVAR_DIMINTERVALS_, intervals, GET_, zVAR_HYPERDATA_, value, NULL_) ) != CDF_OK) cdf_handle_error(cstatus); for (i = 0; i < RecCount; i++) { UT = Double2DD_Time(value[i]); if ((First == 0) && (value[i] - DayOld) > TimeGap) { printf("GAP %f\n",(value[i] - DayOld)/60.0); // put_double(RecStart, (long)i - RecStart, par0, DeltaTID); // put_mode(RecStart, (long)i - RecStart, par1, ModeID, ModeSpID); put_spectra(RecStart, (long)i - RecStart, par2, FluxID); nc_put_vara_text(ncID,StopTimeID, &Start[1], &TimeCount[1], Double2DD_Time(DayOld)); if ((status = nc_close(ncID)) != NC_NOERR) nc_handle_error(status); First = 1; RecStart = (long)i; UT = Double2DD_Time(value[i]); } dtm = ReadTime(UT); if (First == 1) { ncdefine(dtm->times); First = 0; Start[0] = 0; } nc_put_vara_text(ncID, TimeID, Start, TimeCount, UT); Start[0]++; DayOld = value[i]; } free(value); nc_put_vara_text(ncID,StopTimeID, &Start[1], &TimeCount[1], UT); // put_double(RecStart, RecCount - RecStart, par0, DeltaTID); // put_mode(RecStart, RecCount - RecStart, par1, ModeID, ModeSpID); put_spectra(RecStart, RecCount - RecStart, par2, FluxID); /********************Close Files******************/ if ((status = nc_close(ncID)) != NC_NOERR) nc_handle_error(status); } if ((cstatus = CDFlib(CLOSE_, CDF_, NULL_)) != CDF_OK) cdf_handle_error (cstatus); }