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*=======================================================================
*
* WCSLIB 7.4 - an implementation of the FITS WCS standard.
* Copyright (C) 1995-2021, Mark Calabretta
*
* This file is part of WCSLIB.
*
* WCSLIB is free software: you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* WCSLIB is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
* License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with WCSLIB. If not, see http://www.gnu.org/licenses.
*
* Author: Mark Calabretta, Australia Telescope National Facility, CSIRO.
* http://www.atnf.csiro.au/people/Mark.Calabretta
* $Id: twcsfix.f,v 7.4 2021/01/31 02:24:52 mcalabre Exp $
*=======================================================================
PROGRAM TWCSFIX
*-----------------------------------------------------------------------
*
* TWCSFIX tests the translation routines for non-standard WCS keyvalues,
* the WCSFIX suite, and the spectral coordinate translation routine
* WCSPTR.
*
*-----------------------------------------------------------------------
DOUBLE PRECISION TOL
PARAMETER (TOL = 1D-10)
* CUNITia is set to arcsec below as an additional test.
DOUBLE PRECISION DEC, RA
PARAMETER (RA = 265.62209470900D0 * 3600D0)
PARAMETER (DEC = -28.98849996030D0 * 3600D0)
* Number of axes.
INTEGER N
PARAMETER (N = 3)
INTEGER I, J, NAXIS, VELREF
DOUBLE PRECISION BEPOCH, CDELT(N), CRPIX(N), CRVAL(N), MJDBEG,
: OBSGEO_B, OBSGEO_H, OBSGEO_L, PC(N,N), RESTFRQ, RESTWAV
CHARACTER CTYPE(N)*72, CUNIT(N)*72, DATEAVG*72, DATEBEG*72,
: DATEEND*72, DATEOBS*72, SPECSYS*72
COMMON /HEADER/ CRPIX, PC, CDELT, CRVAL, RESTFRQ, RESTWAV, BEPOCH,
: MJDBEG, OBSGEO_L, OBSGEO_B, OBSGEO_H, NAXIS, VELREF
COMMON /HEADCH/ CTYPE, CUNIT, DATEOBS, DATEBEG, DATEAVG, DATEEND,
: SPECSYS
* On some systems, such as Sun Sparc, the struct MUST be aligned
* on a double precision boundary, done here using an equivalence.
* Failure to do this may result in mysterious "bus errors".
INCLUDE 'wcs.inc'
INCLUDE 'wcsfix.inc'
INTEGER STAT(WCSFIX_NWCS), STATUS
CHARACTER CTYPES*9
INTEGER WCS(WCSLEN)
DOUBLE PRECISION DUMMY
EQUIVALENCE (WCS,DUMMY)
DATA NAXIS /N/
DATA (CRPIX(J), J=1,N)
: /90D0, 90D0, 1D0/
DATA ((PC(I,J),J=1,N),I=1,N)
: /1D0, 0D0, 0D0,
: 0D0, 1D0, 0D0,
: 0D0, 0D0, 1D0/
DATA (CDELT(I), I=1,N)
: /-1D0, 1D0, 19.68717093222D0/
DATA (CUNIT(I), I=1,N)
: /'ARCSEC', 'ARCSEC', 'KM/SEC'/
DATA (CTYPE(I), I=1,N)
: /'RA---NCP', 'DEC--NCP', 'FELO-HEL'/
DATA (CRVAL(I), I=1,N)
: /RA, DEC, 5569.27104D0/
DATA RESTFRQ /1.42040575D9/
DATA RESTWAV /0D0/
* N.B. non-standard date-time format.
DATA DATEOBS /'1957/02/15 01:10:00'/
DATA DATEBEG /'1957/02/15 01:10:00'/
DATA DATEAVG /'1957/02/15 02:10:00'/
DATA DATEEND /'1957/02/15 03:10:00'/
DATA BEPOCH / 1957.124382563D0/
DATA MJDBEG / 35884.048611D0/
DATA OBSGEO_L /148.263510D0/
DATA OBSGEO_B /-32.998406D0/
DATA OBSGEO_H / 411.793D0/
* For testing SPCFIX.
DATA VELREF /2/
DATA SPECSYS /'BARYCENT'/
*-----------------------------------------------------------------------
WRITE (*, 10)
10 FORMAT ('Testing WCSLIB translator for non-standard usage ',
: '(twcsfix.f)',/,
: '-------------------------------------------------',
: '-----------',/)
* This routine simulates the actions of a FITS header parser.
STATUS = WCSPTI (WCS, WCS_FLAG, -1, 0, 0)
CALL PARSER (WCS)
* Fix non-standard WCS keyvalues.
STATUS = WCSFIX (7, 0, WCS, STAT)
WRITE (*, 20) (STAT(I), I=1,WCSFIX_NWCS)
20 FORMAT ('WCSFIX status returns: (',I2,6(',',I2),')',/)
IF (STATUS.NE.0) THEN
WRITE (*, 30) STATUS
30 FORMAT ('WCSFIX ERROR',I2,'.')
GO TO 999
END IF
* Extract information from the FITS header.
STATUS = WCSSET (WCS)
IF (STATUS.NE.0) THEN
STATUS = WCSPERR(WCS, CHAR(0))
END IF
CALL FLUSH(6)
STATUS = WCSPRT (WCS)
WRITE (*, 40)
40 FORMAT (/,'------------------------------------',
: '------------------------------------')
* Should now have a 'VOPT-F2W' axis, translate it to frequency.
CTYPES = 'FREQ-???'
I = -1
STATUS = WCSSPTR (WCS, I, CTYPES)
IF (STATUS.NE.0) THEN
STATUS = WCSPERR(WCS, CHAR(0))
GO TO 999
END IF
STATUS = WCSSET (WCS)
IF (STATUS.NE.0) THEN
STATUS = WCSPERR(WCS, CHAR(0))
GO TO 999
END IF
CALL FLUSH(6)
STATUS = WCSPRT (WCS)
STATUS = WCSFREE (WCS)
999 CONTINUE
END
*-----------------------------------------------------------------------
SUBROUTINE PARSER (WCS)
*-----------------------------------------------------------------------
* In practice a parser would read the FITS header until it encountered
* the NAXIS keyword which must occur near the start, before any of the
* WCS keywords. It would then use WCSINI to allocate memory for arrays
* in the WCSPRM "data structure" and set default values.
*
* In this simulation the header keyvalues are set in the main program in
* variables passed in COMMON.
*-----------------------------------------------------------------------
* Number of axes.
INTEGER N
PARAMETER (N = 3)
INTEGER I, J, NAXIS, STATUS, VELREF, WCS(*)
DOUBLE PRECISION BEPOCH, CDELT(N), CRPIX(N), CRVAL(N), MJDBEG,
: OBSGEO_B, OBSGEO_H, OBSGEO_L, PC(N,N), RESTFRQ, RESTWAV
CHARACTER CTYPE(N)*72, CUNIT(N)*72, DATEAVG*72, DATEBEG*72,
: DATEEND*72, DATEOBS*72, SPECSYS*72
COMMON /HEADER/ CRPIX, PC, CDELT, CRVAL, RESTFRQ, RESTWAV, BEPOCH,
: MJDBEG, OBSGEO_L, OBSGEO_B, OBSGEO_H, NAXIS, VELREF
COMMON /HEADCH/ CTYPE, CUNIT, DATEOBS, DATEBEG, DATEAVG, DATEEND,
: SPECSYS
INCLUDE 'wcsunits.inc'
INCLUDE 'wcs.inc'
*-----------------------------------------------------------------------
STATUS = WCSNPV (2)
STATUS = WCSINI (NAXIS, WCS)
DO 20 I = 1, NAXIS
STATUS = WCSPTD (WCS, WCS_CRPIX, CRPIX(I), I, 0)
DO 10 J = 1, NAXIS
STATUS = WCSPTD (WCS, WCS_PC, PC(I,J), I, J)
10 CONTINUE
STATUS = WCSPTD (WCS, WCS_CDELT, CDELT(I), I, 0)
STATUS = WCSPTC (WCS, WCS_CUNIT, CUNIT(I), I, 0)
STATUS = WCSPTC (WCS, WCS_CTYPE, CTYPE(I), I, 0)
STATUS = WCSPTD (WCS, WCS_CRVAL, CRVAL(I), I, 0)
20 CONTINUE
STATUS = WCSPTD (WCS, WCS_RESTFRQ, RESTFRQ, 0, 0)
STATUS = WCSPTD (WCS, WCS_RESTWAV, RESTWAV, 0, 0)
STATUS = WCSPTI (WCS, WCS_NPV, 1, 0, 0)
STATUS = WCSPTD (WCS, WCS_PV, -1D0, -1, -1)
STATUS = WCSPTI (WCS, WCS_VELREF, VELREF, 0, 0)
STATUS = WCSPTC (WCS, WCS_DATEAVG, DATEAVG, 0, 0)
STATUS = WCSPTC (WCS, WCS_DATEEND, DATEEND, 0, 0)
STATUS = WCSPTD (WCS, WCS_BEPOCH, BEPOCH, 0, 0)
STATUS = WCSPTD (WCS, WCS_MJDBEG, MJDBEG, 0, 0)
STATUS = WCSPTD (WCS, WCS_OBSGEO, OBSGEO_L, 4, 0)
STATUS = WCSPTD (WCS, WCS_OBSGEO, OBSGEO_B, 5, 0)
STATUS = WCSPTD (WCS, WCS_OBSGEO, OBSGEO_H, 6, 0)
STATUS = WCSPTC (WCS, WCS_SPECSYS, SPECSYS, 0, 0)
RETURN
END
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