#include #include #include #include #include #include #include "nrutil.c" #include "UVStruct.c" #include "UVCommon.c" #include "SERC.c" void main(void) { int i, j; int n_col, n_file, n_row, record, ok; int hh, mm, ss, dd, yy; int day, year; double fraction, integer; float **data, *Stime, *temp; char st[128], ch[2]; char sch_file[20], in_file[20], out_file[20]; char start_time[10], stop_time[10]; struct tm date; struct scan_header SERC; struct SERC_data S; FILE *fp_sch, *fp_in, *fp_out, *fp_data; Stime = vector(1, 10); data = matrix(1, 20, 1, 20); temp = vector(1, 10); printf("Line Schedule File: "); // schedule of scans scanf("%s", &sch_file); fp_sch = fopen(sch_file, "r"); fp_data = fopen("96FL.SER", "w"); // compilation of header data fprintf(fp_data, "Header:\n"); fprintf(fp_data, "Number_of_columns\t20\n"); fprintf(fp_data, "Labels:\n"); fprintf(fp_data, "File\tInstrument\tSource\tLocation\tEnvironment\t"); fprintf(fp_data, "Year\tDay\tDate\tOperation\tMeasurement_type\t"); fprintf(fp_data, "Measurement_purpose\tNumber_of_scans\tNumber_of_columns\t"); fprintf(fp_data, "Number_of_rows\tStart_time\tStop_time\tIntegration_time\t"); fprintf(fp_data, "Comments\tData_file\tAnalysis_file\n"); fprintf(fp_data, "\t\t\t\t\t\t\t\t\t\t\t\t\t\t"); fprintf(fp_data, "[UTC]\t[UTC]\t[s]\n"); fprintf(fp_data, "Data:\n"); fscanf(fp_sch, "%s %s %d", &st, &st, &n_col); // read schedule file header do{ fscanf(fp_sch, "%s", &st); } while(strcmp(st, "Data:") != 0); while(fscanf(fp_sch, "%s", &in_file) != EOF){ // read schedule file info. strcpy(SERC.data_file, in_file); fscanf(fp_sch, "%d", &i); fscanf(fp_sch, "%s", SERC.inst); fscanf(fp_sch, "%s", SERC.source); fscanf(fp_sch, "%s", SERC.locat); fscanf(fp_sch, "%s", SERC.envir); fscanf(fp_sch, "%s", SERC.operat); fscanf(fp_sch, "%s", SERC.meas_type); fscanf(fp_sch, "%s", SERC.meas_purp); fscanf(fp_sch, "%s", start_time); fscanf(fp_sch, "%s", stop_time); fscanf(fp_sch, "%s", SERC.comments); printf("%s\t%s\n", SERC.inst, start_time); fp_in = fopen(in_file, "r"); printf("%s\t", in_file); strcpy(S.inst, "UI"); n_row = 1; record = 0; while(read_SERC_line(fp_in, &S) != 0){ // read SERC line if(strcmp(start_time, S.time) == 0) record = 1; if(record == 1){ sscanf(S.time, "%2d%2d%2d", &hh, &mm, &ss); Stime[n_row] = hh + (float)mm/60.0 + (float)ss/3600.0; for(i = 1; i <= 20; i++){ data[n_row][i] = S.data[i]; } temp[n_row] = S.temp; n_row++; } if(strcmp(stop_time, S.time) == 0) break; } n_row--; fclose(fp_in); sscanf(start_time, "%2d%2d%2d", &hh, &mm, &ss); // convert times SERC.start_time = hh + (float)mm/60.0 + (float)ss/3600.0; sscanf(stop_time, "%2d%2d%2d", &hh, &mm, &ss); SERC.stop_time = hh + (float)mm/60.0 + (float)ss/3600.0; sscanf(S.date, "%2d%2d%2d", &dd, &mm, &yy); SERC.year = 1900 + yy; date.tm_sec = 0; date.tm_min = 0; date.tm_hour = 0; date.tm_mday = dd; date.tm_mon = mm - 1; date.tm_year = yy; mktime(&date); SERC.day = date.tm_yday + 1; day_to_date(SERC.year, SERC.day, SERC.date); n_file = 1; do{ // check if file exists if(n_file < 10){ sprintf(out_file, "96%03dFL%1d.SER", SERC.day, n_file); } else{ sprintf(out_file, "96%03dFL%c.SER", SERC.day, n_file + 55); } ok = file_exist(out_file); n_file++; } while(ok == 1); fp_out = fopen(out_file, "w"); // store header info. printf("%s\n", out_file); fprintf(fp_data, "%s\t", out_file); fprintf(fp_out, "Header:\n"); fprintf(fp_out, "Instrument\t%s\n", SERC.inst); fprintf(fp_data, "%s\t", SERC.inst); fprintf(fp_out, "Source\t%s\n", SERC.source); fprintf(fp_data, "%s\t", SERC.source); fprintf(fp_out, "Location\t%s\n", SERC.locat); fprintf(fp_data, "%s\t", SERC.locat); fprintf(fp_out, "Environment\t%s\n", SERC.envir); fprintf(fp_data, "%s\t", SERC.envir); fprintf(fp_out, "Year\t%d\n", SERC.year); fprintf(fp_data, "%d\t", SERC.year); fprintf(fp_out, "Day\t%d\n", SERC.day); fprintf(fp_data, "%d\t", SERC.day); fprintf(fp_out, "Date\t%s\n", SERC.date); fprintf(fp_data, "%s\t", SERC.date); fprintf(fp_out, "Operation\t%s\n", SERC.operat); fprintf(fp_data, "%s\t", SERC.operat); fprintf(fp_out, "Measurement_type\t%s\n", SERC.meas_type); fprintf(fp_data, "%s\t", SERC.meas_type); fprintf(fp_out, "Measurement_purpose\t%s\n", SERC.meas_purp); fprintf(fp_data, "%s\t", SERC.meas_purp); fprintf(fp_out, "Number_of_scans\t1\n"); fprintf(fp_data, "1\t"); fprintf(fp_out, "Number_of_columns\t22\n"); fprintf(fp_data, "22\t"); fprintf(fp_out, "Number_of_rows\t%d\n", n_row); fprintf(fp_data, "%d\t", n_row); fprintf(fp_out, "Start_time\t%.5f\t[UTC]\n", SERC.start_time); fprintf(fp_data, "%.5f\t", SERC.start_time); fprintf(fp_out, "Stop_time\t%.5f\t[UTC]\n", SERC.stop_time); fprintf(fp_data, "%.5f\t", SERC.stop_time); fprintf(fp_out, "Integration_time\t60\t[s]\n"); fprintf(fp_data, "60\t"); fprintf(fp_out, "Comments\t%s\n", SERC.comments); fprintf(fp_data, "%s\t", SERC.comments); fprintf(fp_out, "Data_file\t%s\n", SERC.data_file); fprintf(fp_data, "%s\t", SERC.data_file); fprintf(fp_out, "Analysis_program\tFmt_96SERC_Ln.c\n"); fprintf(fp_data, "Fmt_96SERC_Ln.c\n"); fprintf(fp_out, "Labels:\n"); fprintf(fp_out, "Time\t"); for(i = 290; i <= 306; i = i+2){ fprintf(fp_out, "Signal_%3d[nm]\t", i); } fprintf(fp_out, "Dark1\t"); for(i = 308; i <= 324; i = i+2){ fprintf(fp_out, "Signal_%3d[nm]\t", i); } fprintf(fp_out, "Dark2\t"); fprintf(fp_out, "Filter_temperature\n"); fprintf(fp_out, "[UTC]\t"); for(i = 1; i <= 20; i++){ fprintf(fp_out, "[V]\t"); } fprintf(fp_out, "[C]\n"); fprintf(fp_out, "Data:\n"); for(i = 1; i <= n_row; i++){ fprintf(fp_out, "%.5f\t", Stime[i]); for(j = 1; j <= 20; j++){ fprintf(fp_out, "%.6f\t", data[i][j]); } fprintf(fp_out, "%.2f\n", temp[i]); } fclose(fp_out); } fclose(fp_sch); fclose(fp_data); }