FUNCTION CONS_DEC,DEC,X,ASTR,ALPHA ;Find line of constant Dec ;+ ; NAME: ; CONS_DEC ; PURPOSE: ; Obtain the X and Y coordinates of a line of constant declination ; EXPLANATION: ; Returns a set of Y pixels values, given an image with tangent projection ; astrometry, and either ; (1) A set of X pixel values, and a scalar declination value, or ; (2) A set of declination values, and a scalar X value ; ; Form (1) can be used to find the (X,Y) values of a line of constant ; declination. Form (2) can be used to find the Y positions of a set ; declinations, along a line of constant X. ; ; CALLING SEQUENCE: ; Y = CONS_DEC( DEC, X, CD, ASTR, [ ALPHA ]) ; ; INPUTS: ; DEC - Declination value(s) in DEGREES (-!PI/2 < DEC < !PI/2). ; If X is a vector, then DEC must be a scalar. ; X - Specified X pixel value(s) for line of constant declination ; If DEC is a vector, then X must be a scalar. ; ASTR - Astrometry structure, as extracted from a FITS header by the ; procedure EXTAST ; OUTPUT: ; Y - Computed set of Y pixel values. The number of Y values is the ; same as either DEC or X, whichever is greater. ; ; OPTIONAL OUTPUT: ; ALPHA - the right ascensions (DEGREES) associated with the (X,Y) points ; ; RESTRICTIONS: ; Implemented only for the TANgent and SIN projections ; ; NOTES: ; The algorithm (and notation) is based on AIPS Memo 27 by Eric Greisen, ; with modifications for a coordinate description (CD) matrix as ; described in Paper II of Greisen & Calabretta (2000, A&A, in press). ; These documents are available from ; http://fits.cv.nrao.edu/documents/wcs/wcs.html ; ; REVISION HISTORY: ; Written, Wayne Landsman STX Co. April 1988 ; Use new astrometry structure, W. Landsman HSTX Jan. 1994 ; Use CD matrix, add SIN projection W. Landsman HSTX April, 1996 ; Converted to IDL V5.0 W. Landsman September 1997 ; Fix case where DEC is scalar, X is vector W. Landsman RITSS Feb. 2000 ; Fix possible sign error introduced Jan. 2000 W. Landsman May 2000 ;- On_error,2 if N_params() lt 3 then begin print,'Syntax - Y = CONS_DEC( DEC, X, ASTR, [ALPHA] )' return, 0 endif RADEG = 180.0D/!DPI n = N_elements(x) crpix = astr.crpix -1. crval = astr.crval/RADEG cd = astr.cd/RADEG cdelt = astr.cdelt A = -cd[0,0]*cdelt[0] B = -cd[0,1]*cdelt[0] C = cd[1,0]*cdelt[1] D = cd[1,1]*cdelt[1] xx = x - crpix[0] ;New coordinate origin sdel0 = sin(crval[1]) & cdel0 = cos(crval[1]) ctype = strupcase( strmid(astr.ctype[0], 5,3)) case ctype of 'TAN': begin aa = d bb = (b*c-d*a)*xx*cdel0 + sdel0*b sign = 2*( aa GT 0 ) - 1 alpha = crval[0] + atan(bb/aa) + $ sign * asin( tan(dec/RADEG)* ( (B*C-D*A)*xx*sdel0 - B*cdel0)/ $ sqrt(aa^2+bb^2)) end 'SIN': begin aa = d bb = b*sdel0 sign = 2*( aa GT 0 ) - 1 denom = cos(dec/RADEG)*sqrt(aa^2+bb^2) alpha = crval[0] + atan(bb/aa) + $ sign * asin( ( (b*c-a*d)*xx - sin(dec/RADEG)*cdel0*b ) / denom ) end ELSE: message,'ERROR - Program only works for TAN and SIN projections' endcase alpha = alpha * RADEG if (N_elements(dec) EQ 1) and (n GT 1) then $ ad2xy, alpha, replicate(dec, n) , astr, x1, y else $ ad2xy, alpha, dec, astr, x1, y return,y end