SUBROUTINE VEPPT ( * * inputs * : OFILE, ORDER, NPTS, WFLAG, TYPE, : COEFF, CHISQ, BASEKY, TEMP0, TIME0, : TTMIN, TTMAX, EMIN, EMAX, : DETID, APERT, VOLT, GAIN, THRESH, : NATTRB, ATTRB, * * outputs * : STATUS) * * Module Number: 15.1.0.2.2 * * Module Name: polyepoch * * Keyphrase: * ---------- * Write the result of VEPOCH to output table * * Description: * ------------ * * FORTRAN name: VEPPT.FOR * * Keywords of accessed files and tables: * -------------------------------------- * Name I/O Description / Comments * 'OUTTABLE' O SDAS table containing result * * output table column names: * * 'A00', 'A01', ... 'A10', 'A11'... 'A33' * O polynomial coefficients * 'CHISQi' O chi squared of the fit * 'WEIGHT' O weight scheme * 'BASE_TEMP' O base temperature * 'TEMPMIN' O lower limit of temperature * 'TEMPMAX' O upper limit of temperature * 'BASE_TIME' O base epoch * 'EPOCHMIN' O lower limit of epoch * 'EPOCHMAX' O upper limit of epoch * 'ORDER' O order of the fit * 'NPOINTS' O number of data points * 'TYPE' O data type * (attribi) O attributes copied from the input table * * Subroutines Called: * ------------------- * CDBS: * CDTOUT * SDAS: * UTRPTR, UTRPTI, UTRPTD, UTRPTT, UTTCLO, UMSPUT * Others: * None * * History: * -------- * Version Date Author Description * 1 10-15-85 J.-C. HSU design and coding * 2 07-15-85 J.-C. HSU F77 standard * *------------------------------------------------------------------------------- * *== input: * --VMS file name of 'OUTTABLE' CHARACTER*(*) OFILE, * --data type : TYPE, * --base value column name : BASEKY, * --attributes : ATTRB(1) * --weighting scheme REAL WFLAG, * --polynomial coefficients : COEFF(1), * --minimum and maximum temperature : TTMIN, TTMAX, * --base temperature : TEMP0 * --minimum, maximum and base epoch DOUBLE PRECISION EMIN, EMAX, TIME0, * --chi-squared : CHISQ(1) * --number of input data points INTEGER NPTS, * --order of polynomial fit : ORDER, * --detector ID : DETID, * --number of attributes : NATTRB * --high volatge, gain setting, * --discriminator threshold setting REAL VOLT, GAIN, THRESH * --aperture name CHARACTER*10 APERT * *== output: * --error status INTEGER STATUS * *== local: * --loop index INTEGER I, J, K, L, NPUT, * --number of existed rows of output * --SDAS table : NROWS, * --number of columns : NCOLS, NC, NCO, * --pointer to table descripter : TP, * --column identifiers : COLIDN(100), * --data type : DTYPE(100), * --error status : STAT(20), STATOK * --data buffer REAL CBUFF(100) DOUBLE PRECISION CBUFF2(20) CHARACTER*1 CHARJ, CHARK * --column format CHARACTER*8 COLFMT(100) * --output SDAS table names CHARACTER*16 CNAME(100), * --column units : UNIT(100) * --error message context CHARACTER*130 CONTXT *==========================begin iraf77.inc (without INTEGER*2)================= * Include file for the iraf77 FORTRAN interface to the IRAF VOS * Get IRAF common into main program * LOGICAL MEMB(1) INTEGER MEMI(1) INTEGER MEML(1) REAL MEMR(1) DOUBLE PRECISION MEMD(1) COMPLEX MEMX(1) EQUIVALENCE (MEMB, MEMI, MEML, MEMR, MEMD, MEMX) COMMON /MEM/ MEMD * * File I/O access modes * INTEGER RDONLY PARAMETER (RDONLY = 1) INTEGER RDWRIT PARAMETER (RDWRIT = 2) INTEGER WRONLY PARAMETER (WRONLY = 3) INTEGER APPEND PARAMETER (APPEND = 4) INTEGER NEWFIL PARAMETER (NEWFIL = 5) INTEGER TMPFIL PARAMETER (TMPFIL = 6) INTEGER NEWCPY PARAMETER (NEWCPY = 7) INTEGER NEWIMG PARAMETER (NEWIMG = 5) * * codes for data types * INTEGER TYBOOL PARAMETER (TYBOOL = 1) INTEGER TYCHAR PARAMETER (TYCHAR = 2) INTEGER TYSHOR PARAMETER (TYSHOR = 3) INTEGER TYINT PARAMETER (TYINT = 4) INTEGER TYLONG PARAMETER (TYLONG = 5) INTEGER TYREAL PARAMETER (TYREAL = 6) INTEGER TYDOUB PARAMETER (TYDOUB = 7) INTEGER TYCPLX PARAMETER (TYCPLX = 8) INTEGER TYUSHT PARAMETER (TYUSHT = 11) INTEGER TYUBYT PARAMETER (TYUBYT = 12) * * TYTEXT is a special code for the iraf77 interface; it is not in the VOS * INTEGER TYTEXT PARAMETER (TYTEXT = 13) *========================end iraf77.inc========================================= *=========================begin hsp.inc========================================= * --status return code INTEGER OK, ERRNUM(20) * --message destination and priority INTEGER DEST, PRIO DATA OK /0/ DATA ERRNUM /701, 702, 703, 704, 705, 706, 707, 708, 709, 710, : 711, 712, 713, 714, 715, 716, 717, 718, 719, 720/ DATA DEST, PRIO /1, 0/ *=========================end hsp.inc=========================================== *------------------------------------------------------------------------------ * * specify column names * CNAME(1) = BASEKY * DO 20 J = 1, ORDER+1 WRITE (CHARJ, '(I1)') J-1 DO 10 K = 1, ORDER+1 WRITE (CHARK, '(I1)') K-1 I = (ORDER+1) * (J-1) + K CNAME(I+1) = 'A' // CHARJ // CHARK 10 CONTINUE CNAME((ORDER+1)**2+J+1) = 'CHISQ' // CHARJ 20 CONTINUE * NC = (ORDER+1) * (ORDER+2) + 1 CNAME(NC+1) = 'WEIGHT' CNAME(NC+2) = 'BASE_TEMP' CNAME(NC+3) = 'TEMPMIN' CNAME(NC+4) = 'TEMPMAX' CNAME(NC+5) = 'BASE_TIME' CNAME(NC+6) = 'EPOCHMIN' CNAME(NC+7) = 'EPOCHMAX' * * column data type * DO 30 I = 1, NC+4 DTYPE(I) = TYREAL 30 CONTINUE * DO 40 I = NC+5, NC+7 DTYPE(I) = TYDOUB 40 CONTINUE * CNAME(NC+8) = 'ORDER' CNAME(NC+9) = 'NPOINTS' CNAME(NC+10) = 'TYPE' DTYPE(NC+8) = TYINT DTYPE(NC+9) = TYINT DTYPE(NC+10) = -7 * NCO = NC + 10 * * identify attributes * IF (NATTRB .GT. 0) THEN DO 50 I = 1, NATTRB IF (ATTRB(I) .EQ. 'DETECTOB' .OR. ATTRB(I) .EQ. : 'DET_NUM') THEN CNAME(NCO+I) = 'DET_NUM' DTYPE(NCO+I) = TYINT ELSE IF (ATTRB(I) .EQ. 'APERTOBJ' .OR. ATTRB(I) .EQ. : 'APER_NAME') THEN CNAME(NCO+I) = 'APER_NAME' DTYPE(NCO+I) = -10 ELSE IF (ATTRB(I) .EQ. 'VOLTAGE') THEN CNAME(NCO+I) = 'VOLTAGE' DTYPE(NCO+I) = TYREAL ELSE IF (ATTRB(I) .EQ. 'VGAIND') THEN CNAME(NCO+I) = 'VGAIND' DTYPE(NCO+I) = TYREAL ELSE IF (ATTRB(I) .EQ. 'THRESH') THEN CNAME(NCO+I) = 'THRESH' DTYPE(NCO+I) = TYREAL END IF 50 CONTINUE END IF * * find out the number of rows the SDAS table already has and append * the result of this routine as one new row at the bottom * NCOLS = NCO + NATTRB * DO 60 I = 1, NCOLS UNIT(I) = ' ' COLFMT(I) = ' ' 60 CONTINUE * * specify buffer contents * CBUFF(1) = COEFF(1) DO 80 J = 1, ORDER+1 DO 70 K = 1, ORDER+1 L = (J - 1) * (ORDER + 1) + K CBUFF(L+1) = COEFF(L) / CBUFF(1) 70 CONTINUE CBUFF((ORDER+1)**2+J+1) = SNGL(CHISQ(J)) 80 CONTINUE CBUFF(NC+1) = WFLAG CBUFF(NC+2) = TEMP0 CBUFF(NC+3) = TTMIN CBUFF(NC+4) = TTMAX CBUFF2(1) = TIME0 CBUFF2(2) = EMIN CBUFF2(3) = EMAX * * set up output table * CALL CDTOUT (OFILE, CNAME, UNIT, COLFMT, DTYPE, NCOLS, : TP, COLIDN, NROWS, STATUS) IF (STATUS .NE. OK) THEN CONTXT = 'error setting up output table' GO TO 999 END IF * * write results to the output table * CALL UTRPTR (TP, COLIDN(1), NC+4, NROWS+1, CBUFF, STAT(1)) CALL UTRPTD (TP, COLIDN(NC+5), 3, NROWS+1, CBUFF2, STAT(2)) CALL UTRPTI (TP, COLIDN(NC+8), 1, NROWS+1, ORDER, STAT(3)) CALL UTRPTI (TP, COLIDN(NC+9), 1, NROWS+1, NPTS, STAT(4)) CALL UTRPTT (TP, COLIDN(NC+10), 1, NROWS+1, TYPE, STAT(5)) NPUT = 5 * * write attributes * IF (NATTRB .NE. 0) THEN DO 90 I = 1, NATTRB IF (ATTRB(I) .EQ. 'DETECTOB' .OR. ATTRB(I) .EQ. : 'DET_NUM') THEN CALL UTRPTI (TP, COLIDN(NC+I), 1, NROWS+1, DETID, : STAT(NPUT+I)) ELSE IF (ATTRB(I) .EQ. 'APERTOBJ' .OR. ATTRB(I) .EQ. : 'APER_NAME') THEN CALL UTRPTT (TP, COLIDN(NC+I), 1, NROWS+1, APERT, : STAT(NPUT+I)) ELSE IF (ATTRB(I) .EQ. 'VOLTAGE') THEN CALL UTRPTR (TP, COLIDN(NC+I), 1, NROWS+1, VOLT, : STAT(NPUT+I)) ELSE IF (ATTRB(I) .EQ. 'VGAIND') THEN CALL UTRPTR (TP, COLIDN(NC+I), 1, NROWS+1, GAIN, : STAT(NPUT+I)) ELSE IF (ATTRB(I) .EQ. 'THRESH') THEN CALL UTRPTR (TP, COLIDN(NC+I), 1, NROWS+1, THRESH, : STAT(NPUT+I)) END IF 90 CONTINUE END IF * DO 100 I = 1, NPUT+NATTRB IF (STAT(I) .NE. OK) THEN STATUS = ERRNUM(1) CONTXT = 'cannot write a row to output table' GO TO 999 END IF 100 CONTINUE * CALL UTTCLO (TP, STATUS) IF (STATUS .NE. OK) THEN CONTXT = 'cannot close output table' GO TO 999 END IF * STATUS = OK GO TO 1000 * * write error message * 999 CALL UMSPUT ('VEPPT: ' // CONTXT, DEST, PRIO, STATOK) * 1000 RETURN END