pro irafwrt, image, hd, filename, PIXDIR = pixdir ;+ ; NAME: ; IRAFWRT ; PURPOSE: ; Write IDL data in IRAF (OIF) format (.imh and .pix files). ; EXPLANATION: ; Does the reverse of IRAFRD. IRAFWRT writes the "old" IRAF format ; used prior to v2.11. However, this "old" format is still readable by ; the current version of IRAF. ; ; CALLING SEQUENCE: ; IRAFWRT, image, hdr, filename, [ PIXDIR = ] ; ; INPUTS: ; image - array containing data ; hdr - The corresponding FITS header. Use MKHDR to create a minimal ; FITS header if one does not already exist. ; filename - Scalar string giving the name of the file to be written ; Should not include the extension name, which will be supplied ; by IRAFWRT. ; OUTPUTS: ; None ; ; OPTIONAL KEYWORD INPUT: ; PIXDIR - scalar string specifying the directory into which to write ; the IRAF pixel (.pix) file. The default is to write the pixel ; file to the same directory as the header (.imh) file ; ; SIDE EFFECTS: ; Image array and FITS header are written to IRAF pixel file ; 'filename'.pix and header file 'filename'.imh ; ; EXAMPLE: ; Write an empty 50 x 50 array of all zeros to an IRAF file named 'EMPTY' ; ; IDL> im = intarr( 50, 50) ;Create empty array ; IDL> mkhdr, hdr, im ;Create a minimal FITS header ; IDL> irafwrt, im, hdr, 'empty' ;Write to a IRAF file named 'empty' ; ; PROCEDURE: ; IRAFWRT gets information about the data - image dimensions, size, ; datatype, maximum and minimum pixel values - and writes it into ; the binary part of the header. The ASCII part of the header ; is directly copied after deleting records with certain keywords ; A pixel file is created, with a header in the first 1024 bytes ; ; RESTRICTIONS: ; (1) The files are not created by IRAFWRT are not identical to those ; created by the IRAF routine rfits. However, the files ; created by IRAFWRT appear to be compatible with all the IRAF ; routines tested so far. ; (2) IRAFWRT has been tested on a limited number of data types ; (3) IRAFWRT has only been tested on Unix and VMS systems. ; ; PROCEDURES CALLED: ; FDECOMP, IS_IEEE_BIG(), ISARRAY(), REPCHR(), STRN(), SXDELPAR, SXPAR() ; MODIFICATION HISTORY: ; Written K. Venkatakrishna, STX February 1992 ; VMS compatibility W. Landsman April 1992 ; Work with headers without DATE-OBS or ORIGIN August 1992 ; Preserve HISTORY records with other FITS records March 1995 ; Fix case where a minimal FITS header supplied August 1995 ; Work under Alpha/OSF and Linux Dec. 1995 ; Make sureheader has 80 char lines, use IS_IEEE_BIG() May 1997 ; Converted to IDL V5.0 W. Landsman September 1997 ; Don't apply strlowcase to .pix name W. Landsman April 1999 ; Work with double precision W. Landsman May 1999 ; Minimize use of obsolete !ERR W. Landsman Feb. 2000 ;- On_error,2 if N_params() LT 3 then begin print,'Syntax - IRAFWRT, image, header, filename, [PIXDIR = ]' return endif ; ; Get the dimensions, vector of dimensions and the data type imsize = size(image) naxis = imsize[0] imdim = imsize[1:naxis] type = imsize[naxis+1] im_max = max(image,min=im_min) ; find the minimum and maximum pixel values case type of 1: datatype = 1 2: datatype = 3 3: datatype = 4 4: datatype = 6 5: datatype = 7 else: message,'ERROR - Input data type is currently unsupported' endcase if !VERSION.OS EQ 'vms' then begin fdecomp,filename,disk,dir,name fname = strlowcase( disk+dir+ name ) endif else fname = filename big_endian = is_ieee_big() header = fname+'.imh' if !VERSION.OS EQ 'vms' then $ openw, lun1, header, 512, /GET_LUN, /NONE else $ openw, lun1, header, /GET_LUN object = sxpar( hd, 'OBJECT',Count = N_object) if ( N_object EQ 0 ) or ( object EQ '' ) then object = ' ' origin = sxpar( hd, 'ORIGIN', Count = N_origin) if ( N_origin EQ 0 ) or ( origin EQ '') then origin = ' ' date_obs = sxpar( hd, 'DATE-OBS', Count = N_date ) if ( N_date EQ 0 ) or ( date_obs EQ '') then date_obs = ' ' hist_rec = where(strpos(hd,'HISTORY') EQ 0, Nhist) ; Get history records if Nhist GT 0 then history = hd[hist_rec] else $ history = ' ' ;Copy header to new variable and leave original variable unmodified xhdr = hd delete_rec = ['SIMPLE', 'BITPIX', 'NAXIS ', 'NAXIS1', 'NAXIS2', 'DATATYPE', $ 'OBJECT', 'ORIGIN', 'BSCALE', 'BZERO', 'GROUPS', $ 'IRAFNAME', 'END'] sxdelpar, xhdr, delete_rec nmax = N_elements(xhdr) bhdr = replicate(32b, 80, nmax) ;Make sure it is 80 bytes for i = 0l,nmax-1 do bhdr[0,i] = byte(xhdr[i]) if isarray(xhdr) then $ hdrlen = (nmax*162 + 2056)/4 $ else hdrlen = 514 hdr = bytarr(hdrlen*4) ; Create header array inp = [ fix(hdrlen), fix(datatype), fix(naxis)] buf = bytarr(1024) hdr[12] = byte(inp,0,2) ; write header length, data type hdr[16] = byte(inp,2,2) ; and number of dimensions into hdr[20] = byte(inp,4,2) ; header buf[20] = byte(inp,4,2) ; ; find current time in seconds wrt Jan-01-80 00:00:00 ; time_creat = systime(2)-315550800. if big_endian then byteorder, hdr, /LSWAP min = strn(im_min,format = '(E13.6)') max = strn(im_max,format = '(E13.6)') max_rec_pos = where(strpos(xhdr,'IRAF-MAX = ') EQ 0) min_rec_pos = where(strpos(xhdr,'IRAF-MIN = ') EQ 0) if (max_rec_pos[0] GE 0) then begin max_rec = xhdr[max_rec_pos[0]] ; write maximum min_rec = xhdr[min_rec_pos[0]] ; and minimum pixel strput,max_rec,max,18 ; values strput,min_rec,min,18 xhdr[max_rec_pos[0]] = max_rec xhdr[min_rec_pos[0]] = min_rec end ; ; write the ascii part of the header ; if hdrlen GT 514 then $ for i = 0, nmax-1 do begin hdr[ 2052 + 162L*i + lindgen(80)*2] = bhdr[*,i] hdr[2052+162L*i+160] = 10B endfor if big_endian then byteorder,hdr,/SSWAP if not big_endian then offset = 0 else offset = 1 hdr[ 732 + indgen(strlen(object))*2+offset] = byte(object) hdr[indgen(5)*2 + offset] = byte('imhdr') hdr[24] = byte(imdim,0,4*naxis) buf[24] = byte(imdim,0,4*naxis) hdr[52] = byte(imdim,0,4*naxis) hdr[120] = byte(im_max,0,4) hdr[124] = byte(im_min[0],0,4) cd,current = dir if !VERSION.OS EQ "vms" then host = getenv('NODE') else begin spawn,'hostname',host host = host[0] dir = dir + "/" endelse if keyword_set(pixdir) then dir = pixdir pixname = host+'!' + dir + fname + '.pix' if !VERSION.OS EQ "vms" then pixname = strlowcase(pixname) len1 = strlen(pixname) len2 = strlen(header) hdr[ 412 + offset + indgen(len1[0])*2] = byte(pixname) ; write pixel file location hdr[ 572 + offset + indgen(len2[0])*2] = byte(header) ; into header ; Get the history records ; ind = 893 hdr[ind+indgen(strlen(origin[0]))*2] = byte(origin[0]) ind = ind+2*strlen(origin[0]) hdr[ind] = 10B ind = ind+2 hdr[ind+indgen(strlen(date_obs[0]))*2] = byte(date_obs[0]) ind = ind+2*strlen(date_obs[0]) hdr[ind] = 10B ind = ind+2 ; write the history comment strings (as many as possible) in binary form ; into the available 1160 bytes for i = 0, N_elements(history)-1 do begin hist = strtrim(strmid(history[i],8,72)) if ( strlen(hist) EQ 0 ) then goto, SKIP if (ind + 2*strlen(hist) GT 2052 ) then goto, HIST_END hdr[ ind + indgen( strlen(hist) )*2 ] = byte(hist) ind = ind+2*strlen(hist) hdr[ind] = 10B ind = ind+2 SKIP: end HIST_END: hdr[88 + 2*offset] = byte(513,0,2) hdr[108] = byte(long(time_creat),0,4) ; write time of image creation buf[108] = byte(long(time_creat),0,4) ; time of last modification hdr[112] = byte(long(time_creat),0,4) ; and time minimum and maximum hdr[116] = byte(long(time_creat),0,4) ; pixel values were computed hdr[32 + indgen(5)*4 + 3*offset] = 1 buf[32 + indgen(5)*4 + 3*offset] = 1 if big_endian then begin hdr[63 + indgen(5)*4] = 1 buf[63 + indgen(5)*4] = 1 endif hdr[63 + indgen(5)*4 - 3*offset] = 128 buf[63 + indgen(5)*4 - 3*offset] = 128 writeu,lun1,hdr free_lun,lun1 ; Write the data into the .pix file buf[ offset + indgen(5)*2] = byte('impix') if not big_endian then buf[12] = [65b, 58b] else $ buf[14] = [58b, 65b] hdrname = repchr(pixname,'pix','imh') buf[ 412 + offset+ indgen(len1[0])*2 ] = byte(hdrname) buf[ 572 + offset + indgen(len2[0])*2] = byte(header) node = strpos( pixname, '!') pixfile = strmid( pixname, node+1,strlen(pixname)-node+1 ) if !VERSION.OS EQ 'vms' then $ openw,lun2, pixfile, 512, /NONE, /GET_LUN else $ openw,lun2, pixfile, /GET_LUN writeu, lun2, buf writeu, lun2, image free_lun, lun2 return end