function dbsort,list,items,REVERSE = rev ;+ ; NAME: ; DBSORT ; PURPOSE: ; Routine to sort list of entries in data base ; ; CALLING SEQUENCE: ; result = dbsort( list, items , [ REVERSE = ]) ; ; INPUTS: ; list - list of entry numbers to sort ; -1 to sort all entries ; items - list of items to sort (up to 9 items) ; ; OUTPUT: ; result - numeric vector giving input list sorted by items ; ; OPTIONAL KEYWORD INPUT: ; REVERSE - scalar or vector with the same number of elements as the ; the number of items to sort. If the corresponding element of REVERSE ; is non-zero then that item is sorted in descending rather than ; ascending order. ; ; EXAMPLE: ; Sort an astronomical catalog with RA as primary sort, and declination ; as secondary sort (used when RA values are equal) ; ; IDL> NEWLIST = DBSORT( -1, 'RA,DEC' ) ; ; If for some reason, one wanted the DEC sorted in descending order, but ; the RA in ascending order ; ; IDL> NEWLIST = DBSORT( -1, 'RA,DEC', REV = [ 0, 1 ] ) ; ; METHOD: ; The list is sorted such that each item is sorted into ; asscending order starting with the last item. ; COMMON BLOCKS: ; DBCOM ; PROCEDURES USED: ; ZPARCHECK, BSORT, DB_ITEM ; HISTORY ; VERSION 1 D. Lindler Oct. 86 ; Added REVERSE keyword W. Landsman August, 1991 ; Converted to IDL V5.0 W. Landsman September 1997 ;- if N_params() LT 2 then begin print,'Syntax: newlist = dbsort( list, items, [ REVERSE = ] )' return, -1 endif ;--------------------------------------------------------- ; data base common block, see DBOPEN for meanings common db_com,QDB,QITEMS,QLINK ; check parameters zparcheck, 'DBSORT', list, 1, [1,2,3], [0,1], 'entry list' zparcheck, 'DBSORT', items, 2, [1,2,3,7], [0,1], 'item list' ; extract values of items db_item, items, it nitems = N_elements(it) ;Number of items if nitems GT 9 then message, $ 'ERROR - Can only sort on nine items or less' ;Verify REVERSE vector if not keyword_set(REV) then rev = bytarr(nitems) else $ if N_elements(rev) NE nitems then $ message,'ERROR - REVERSE vector must contain ' + $ strtrim(nitems,2) + ' elements' ; make list vector qnentry = long(qdb,84) if list[0] EQ -1 then vlist = lindgen(qnentry)+1 else vlist = list ; create line to execute in the form: ; dbext, vlist, it, v1,v2,...,v(nitems) case nitems of 1: dbext, vlist, it, v1 2: dbext, vlist, it, v1, v2 3: dbext, vlist, it, v1, v2, v3 4: dbext, vlist, it, v1, v2, v3, v4 5: dbext, vlist, it, v1, v2, v3, v4, v5 6: dbext, vlist, it, v1, v2, v3, v4, v5, v6 7: dbext, vlist, it, v1, v2, v3, v4, v5, v6, v7 8: dbext, vlist, it, v1, v2, v3, v4, v5, v6, v7, v8 9: dbext, vlist, it, v1, v2, v3, v4, v5, v6, v7, v8, v9 endcase ; sort on each item sub = lindgen(N_elements(vlist)) ;list of subscripts for i = 0,nitems-1 do begin ; get item j = nitems-i st = 'v=v' + strtrim(j,2) status = execute(st) ; perform previous sorts on item v = v[sub] ; sort item sortsub = bsort( v, REVERSE = rev[j-1] ) ; sort sub array sub = sub[sortsub] end ; return sorted list return, vlist[sub] end