function getget, name, charvar, count=count, offset=offset, stride=stride, coordmean=coordmean, anomaly=anomaly ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; name: char ; charvar: char ; count: 4 elements array ; The dimensions of the sub-image ; offset: 4 elements array ; A variable that contains the offset for the sub-image ; stride: 4 elements array ; Create a variable to be used as a value for the STRIDE keyword ; coordmean: 1 to 4 elements array (dimension 1 is 1) ; anomaly: a non-null element that would be filled with mean ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;print, charvar nosave = 1 ;; comment to get an IDL data file notime = 1 ;; comment to get mention of time taken if (n_elements(notime) eq 0) then timetime = SYSTIME(1) ; ; MINIMAL ARGUMENTS ; if (n_elements(name) eq 0) then stop if (n_elements(charvar) eq 0) then stop ; ; IDL DATA DIRECTORY ; name_idl = charvar+name+'.idl' if (n_elements(coordmean) ne 0) then begin nc = n_elements(coordmean) for i=0,nc-1 do begin name_idl = string(coordmean(i),'(I0)')+name_idl endfor endif name_idl = './idl_dat/'+name_idl ; ; TEST IF FILE EXISTS ; openr,unit,name_idl,/get_lun,error=err ; ; IF IDL FILE EXISTS, THAT IS RATHER SIMPLE ; IF (err EQ 0) THEN BEGIN print, 'read from file' free_lun,unit restore, filename=name_idl ; ; IF IDL FILE DOES NOT EXIST, WELL, READ NETCDF ; ENDIF ELSE BEGIN ; ; check save directory ; if (n_elements(nosave) eq 0) then SPAWN, 'mkdir -p idl_dat' ; ; open file ; id=ncdf_open(name) ; ; get dimensions ; var = intarr(4) NCDF_DIMINQ, id, NCDF_DIMID(id, 'west_east' ), toto, titi & var(0) = titi NCDF_DIMINQ, id, NCDF_DIMID(id, 'south_north' ), toto, titi & var(1) = titi NCDF_DIMINQ, id, NCDF_DIMID(id, 'bottom_top' ), toto, titi & var(2) = titi NCDF_DIMINQ, id, NCDF_DIMID(id, 'Time' ), toto, titi & var(3) = titi ;print, var ; ; define default data windows ; if (n_elements(offset) le 3) then offset=[0,0,0,0] if (n_elements(stride) le 3) then stride=[1,1,1,1] if (n_elements(count) le 3) then count=intarr(4) w = where(count eq 0) & if (w(0) ne -1) then count[w] = var[w] / stride[w] ; ; read variable ; varid=ncdf_varid(id,charvar) ;& print, 'get '+charvar if (n_elements(notime) eq 0) then timetime = SYSTIME(1) ;& help, /memory ncdf_varget, id, varid, invar, count=count, offset=offset, stride=stride & if (n_elements(notime) eq 0) then print, SYSTIME(1) - timetime, ' s' ;& help, /memory ncdf_close, id ; ; OPTIONAL: ANOMALY (value is returned in the keyword) ; if (n_elements(anomaly) ne 0) then begin anomaly=TOTAL(TOTAL(invar,1),1)/float(var[0])/float(var[1]) for i=0,var[0]-1 do for j=0,var[1]-1 do invar(i,j,*,*) = TEMPORARY(invar(i,j,*,*)) - anomaly ; coute cher ; pas tant endif ; ; OPTIONAL: MEAN ; if (n_elements(coordmean) ne 0) then begin for i=0,nc-1 do begin print, 'mean over dimension '+string(coordmean(i),'(I0)')+' - '+string(var(coordmean(i)),'(I0)')+' elements' invar=total(TEMPORARY(invar),coordmean(i))/var(coordmean(i)) endfor endif ; ; SAVE ; if (n_elements(nosave) eq 0) then save, invar, filename=name_idl ENDELSE if (n_elements(notime) eq 0) then print, SYSTIME(1) - timetime, ' s' ; ; RETURN FIELD ; return, invar end