;$Author: kovalick $ ;$Date: 2005/11/17 21:13:00 $ ;$Header: /home/cdaweb/dev/control/RCS/plot_images.pro,v 1.70 2005/11/17 21:13:00 kovalick Exp kovalick $ ;$Locker: kovalick $ ;$Revision: 1.70 $ ;+------------------------------------------------------------------------ ; NAME: PLOT_IMAGES ; PURPOSE: To plot the image data given in the input parameter astruct. ; Can plot as "thumbnails" or single frames. ; CALLING SEQUENCE: ; out = plotmaster(astruct,vname) ; INPUTS: ; astruct = structure returned by the read_mycdf procedure. ; vname = name of the variable in the structure to plot ; ; KEYWORD PARAMETERS: ; THUMBSIZE = size (pixels) of thumbnails, default = 40 (i.e. 40x40) ; FRAME = individual frame to plot ; XSIZE = x size of single frame ; YSIZE = y size of single frame ; GIF = name of gif file to send output to ; REPORT = name of report file to send output to ; TSTART = time of frame to begin imaging, default = first frame ; TSTOP = time of frame to stop imaging, default = last frame ; NONOISE = eliminate points outside 3sigma from the mean ; CDAWEB = being run in cdaweb context, extra report is generated ; DEBUG = if set, turns on additional debug output. ; COLORBAR = calls function to include colorbar w/ image ; ; OUTPUTS: ; out = status flag, 0=0k, -1 = problem occured. ; AUTHOR: ; Richard Burley, NASA/GSFC/Code 632.0, Feb 22, 1996 ; burley@nssdca.gsfc.nasa.gov (301)286-2864 ; MODIFICATION HISTORY: ; 8/13/96 : R. Burley : Add and utilize TSTART, TSTOP and NONOISE ; : keywords. Add frame times to displays. ; 8/18/96 : R. Burley : If no data in requested time span then ; : output appropriate message to window/gif. ; 8/19/96 : R. Burley : Output warning message if all data points ; : are outsize validmin/max values. ; 10/30/96 : R. Baldwin : Added colobar function ;------------------------------------------------------------------------- FUNCTION plot_images, astruct, vname, $ THUMBSIZE=THUMBSIZE, FRAME=FRAME, $ XSIZE=XSIZE, YSIZE=YSIZE, GIF=GIF, REPORT=REPORT,$ TSTART=TSTART,TSTOP=TSTOP,NONOISE=NONOISE,$ CDAWEB=CDAWEB,DEBUG=DEBUG,COLORBAR=COLORBAR ; Determine the field number associated with the variable 'vname' w = where(tag_names(astruct) eq strupcase(vname),wc) if (wc eq 0) then begin print,'ERROR=No variable with the name:',vname,' in param 1!' & return,-1 endif else vnum = w(0) Zvar = astruct.(vnum) if keyword_set(COLORBAR) then COLORBAR=1L else COLORBAR=0L if COLORBAR then xco=80 else xco=0 ; No colorbar ; ; Find & Parse DISPLAY_TYPE for keyword inclusion. a = tagindex('DISPLAY_TYPE',tag_names(astruct.(vnum))) if(a(0) ne -1) then display= astruct.(vnum).DISPLAY_TYPE $ else begin print, 'ERROR= No DISPLAY_TYPE attribute for variable' endelse ; Parse DISPLAY_TYPE ipts=parse_display_type(display) keywords=str_sep(display,'>') ; keyword 1 or greater ; The DISPLAY_TYPE attribute may contain the THUMBSIZE RTB ; The THUMBSIZE must be followed by the size in pixels of the images wc=where(keywords eq 'THUMBSIZE',wcn) if(wcn ne 0) then THUMBSIZE = fix(keywords(wc(0)+1)) ; Open report file if keyword is set ;if keyword_set(REPORT) then begin & reportflag=1L ; a=size(REPORT) & if (a(n_elements(a)-2) eq 7) then $ ; OPENW,1,REPORT,132,WIDTH=132 ;endif else reportflag=0L if keyword_set(REPORT) then reportflag=1L else reportflag=0L ; Verify the type of the first parameter and retrieve the data a = size(astruct.(vnum)) if (a(n_elements(a)-2) ne 8) then begin print,'ERROR= 1st parameter to plot_images not a structure' & return,-1 endif else begin a = tagindex('DAT',tag_names(astruct.(vnum))) if (a(0) ne -1) then idat = astruct.(vnum).DAT $ else begin a = tagindex('HANDLE',tag_names(astruct.(vnum))) if (a(0) ne -1) then handle_value,astruct.(vnum).HANDLE,idat $ else begin print,'ERROR= 1st parameter does not have DAT or HANDLE tag' & return,-1 endelse endelse endelse ; Determine which variable in the structure is the 'Epoch' data and retrieve it b = astruct.(vnum).DEPEND_0 & c = tagindex(b(0),tag_names(astruct)) d = tagindex('DAT',tag_names(astruct.(c))) if (d(0) ne -1) then edat = astruct.(c).DAT $ else begin d = tagindex('HANDLE',tag_names(astruct.(c))) if (d(0) ne -1) then handle_value,astruct.(c).HANDLE,edat $ else begin print,'ERROR= Time parameter does not have DAT or HANDLE tag' & return,-1 endelse endelse ; Determine the title for the window or gif file a = tagindex('SOURCE_NAME',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin sn = break_mystring(astruct.(vnum).SOURCE_NAME,delimiter='>') b = sn(0) endif else b = '' a = tagindex('DESCRIPTOR',tag_names(astruct.(vnum))) if (a(0) ne -1) then b = b + ' ' + astruct.(vnum).DESCRIPTOR a = tagindex('DATA_TYPE',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin b = b + ' ' + astruct.(vnum).DATA_TYPE d_type = strupcase(str_sep((astruct.(vnum).DATA_TYPE),'>')) ;TJK added 4/2/02, used below endif ;TJK added FIELDNAM as part of the title since we now have multiple image ;variables per datatype. a = tagindex('FIELDNAM',tag_names(astruct.(vnum))) if (a(0) ne -1) then b = b + ' ' + astruct.(vnum).FIELDNAM window_title = b if keyword_set(nonoise) then window_title=window_title+'!CConstrained values within >3-sigma from mean of all plotted values' ; Determine title for colorbar if(COLORBAR) then begin a=tagindex('UNITS',tag_names(astruct.(vnum))) if(a(0) ne -1) then ctitle = astruct.(vnum).UNITS else ctitle='' endif if keyword_set(XSIZE) then xs=XSIZE else xs=512 if keyword_set(YSIZE) then ys=YSIZE else ys=512 ; Perform special case checking... vkluge=0 ; initialize tip = tagindex('PLATFORM',tag_names(astruct.(vnum))) if (tip ne -1) then begin if (astruct.(vnum).platform eq 'Viking') then vkluge=1 endif ; Check Descriptor Field for Instrument Specific Settings tip = tagindex('DESCRIPTOR',tag_names(astruct.(vnum))) if (tip ne -1) then begin descriptor=str_sep(astruct.(vnum).descriptor,'>') endif ; Determine if data is a single image, if so then set the frame ; keyword because a single thumbnail makes no sense isize = size(idat) if (isize(0) eq 2) then n_images=1 else n_images=isize(isize(0)) if (n_images eq 1) then FRAME=1 if keyword_set(FRAME) then begin ; produce plot of a single frame if ((FRAME ge 1)AND(FRAME le n_images)) then begin ; valid frame value idat = idat(*,*,(FRAME-1)) ; grab the frame idat = reform(idat) ; remove extraneous dimensions if (vkluge)then idat = rotate(idat,7) ; TJK - this rotation desired for viking only. ;5/7/01 - turns out the RPI images don't need to be rotated. Left this code ;in because I'm sure we'll need to do this type of transpose/rotate for some ;other dataset that doesn't have square images... ; if(descriptor(0) eq 'RPI') then idat = transpose(idat) ;TJK 3/13/01 ; Vis images as sent to us are a reflection and a rotation from how the images ; are displayed on the vis home page. RTB ;if(descriptor(0) eq 'VIS') then idat=rotate(rotate(idat,5),3) ; RTB 9/98 if(descriptor(0) eq 'VIS') then idat=rotate(rotate(idat,5),2) ; RTB 9/98 ; Fix UVI primary image orientation prior to 12/96; RTB 11/10/98 if(descriptor(0) eq 'UVI') then begin cdf_epoch, edat(FRAME-1), yr,mn,dy,hr,min,sec,milli,/break ical,yr,doy,mn,dy,/idoy ;TJK change to following per Bob's request 4/02/01 if (doy lt 337) then begin if ((fix(yr) eq 1996) and (doy lt 337)) then begin print, 'Found UVI yr=1996 and doy lt 337 - rotate/trans.' idat=rotate(idat,3) idat=transpose(idat) endif if ((d_type(0) eq 'H2') or (d_type(0) eq 'H3')) then begin idat=transpose(idat) endif endif ; end UVI primary image fix isize = size(idat) ; get the dimensions of the image r1 = 450./isize(1) ; determine ratio for first dimension r2 = 450./isize(2) ; determine ratio for second dimension ;r1 = ceil(500/isize(1)) ; determine ratio for first dimension ;r2 = ceil(500/isize(2)) ; determine ratio for second dimension xs = ceil(isize(1)*r1)+50 ; determine xsize of window ys = ceil(isize(2)*r2)+15 ; determine ysize of window ;idat = rebin(idat,(isize(1)*r1),(isize(2)*r2)) ; resize the image idat = congrid(idat,(isize(1)*r1),(isize(2)*r2)) ; resize the image ; Begin changes 12/11 RTB ; determine validmin and validmax values a = tagindex('VALIDMIN',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).VALIDMIN) if (b(0) eq 0) then zvmin = astruct.(vnum).VALIDMIN $ else begin zvmin = 0 ; default for image data print,'WARNING=Unable to determine validmin for ',vname endelse endif a = tagindex('VALIDMAX',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).VALIDMAX) if (b(0) eq 0) then zvmax = astruct.(vnum).VALIDMAX $ else begin zvmax = 2000 ; guesstimate print,'WARNING=Unable to determine validmax for ',vname endelse endif a = tagindex('FILLVAL',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).FILLVAL) if (b(0) eq 0) then zfill = astruct.(vnum).FILLVAL $ else begin zfill = 2000 ; guesstimate print,'WARNING=Unable to determine Image fill value for ',vname endelse endif ; bc zvmin=min(idat) & zvmax=max(idat) if keyword_set(DEBUG) then begin print, 'Image valid min and max: ',zvmin, ' ',zvmax wmin = min(idat,MAX=wmax) print, 'Actual min and max of data',wmin,' ', wmax endif ;TJK - 3/19/98 - added checking for fill value. If found, set ;the fill values to 0, otherwise, if the fill values is greater ;than zvmax, then the values will be included in the image. ; w = where((idat lt zvmin),wc) w = where((idat lt zvmin or idat eq zfill),wc) if wc gt 0 then begin if keyword_set(DEBUG) then print, 'Number of values below the valid min = ',wc print,'WARNING=setting ',wc,' fill values in image data to z validmin... ',zvmin ;TJK change to zvmin instead of 0 12/14/2000 idat(w) = 0 ; set pixels to the black idat(w) = zvmin ; set pixels to the zvmin (used to be 0) if (zvmin le 0) then print, 'WARNING: Z validmin is <= zero ' w = 0 ; free the data space endif ;TJK try not taking out the higher values and just scale them in. w = where((idat gt zvmax),wc) if wc gt 0 then begin if keyword_set(DEBUG) then print, 'Number of values above the valid max = ',wc if keyword_set(DEBUG) then print,'WARNING=setting ',wc,' fill values in image data to red...' ;6/25/2004 see below idat(w) = zvmax -1; set pixels to red ;TJK 6/25/2004 - added red_offset function to determine offset ;(to red) because of cases like log scaled timed guvi data ;where the diff is less than 1. diff = zvmax - zvmin coffset = red_offset(GIF=GIF,diff) print, 'diff = ',diff, ' coffset = ',coffset idat(w) = zvmax - coffset; set pixels to red w = 0 ; free the data space endif ;TJK added this section to print out some statistics about the data distribution. if keyword_set(DEBUG) then begin print, 'Statistics about the data distribution' w = where(((idat lt zvmax) and (idat ge (zvmax-10))),wc) if wc gt 0 then print, 'Number of values between ',zvmax,' and ',zvmax-10,' = ',wc w = where(((idat lt zvmax-10) and (idat ge (zvmax-20))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-10,' and ',zvmax-20,' = ',wc w = where(((idat lt zvmax-20) and (idat ge (zvmax-30))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-20,' and ',zvmax-30,' = ',wc w = where(((idat lt zvmax-30) and (idat ge (zvmax-40))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-30,' and ',zvmax-40,' = ',wc w = where(((idat lt zvmax-40) and (idat ge (zvmax-50))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-40,' and ',zvmax-50,' = ',wc w = where(((idat lt zvmax-50) and (idat ge (zvmax-60))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-50,' and ',zvmax-60,' = ',wc endif ;TJK original code follows: ; filter out data values outside validmin/validmax limits ; w = where(((idat lt zvmin)OR(idat gt zvmax)),wc) ; if wc gt 0 then begin ; print,'WARNING=filtering bad values from image data...' ; idat(w) = 0 ; set pixels to black ; w = 0 ; free the data space ; endif ; filter out data values outside 3-sigma for better color spread if keyword_set(NONOISE) then begin semiMinMax,idat,zvmin,zvmax,/MODIFIED w = where((idat lt zvmin),wc) if wc gt 0 then begin print,'WARNING=filtering values less than 3-sigma from image data...' idat(w) = zvmin ; set pixels to black w = 0 ; free the data space endif w = where((idat gt zvmax),wc) if wc gt 0 then begin print,'WARNING=filtering values greater than 3-sigma from image data...' ;6/24/2004idat(w) = zvmax -2; set pixels to red ;TJK 6/25/2004 - added red_offset function to determine offset ;(to red) because of cases like log scaled timed guvi data ;where the diff is less than 1. diff = zvmax - zvmin coffset = red_offset(GIF=GIF,diff) print, 'diff = ',diff, ' coffset = ',coffset idat(w) = zvmax - coffset; set pixels to red w = 0 ; free the data space endif endif ;TJK original code follows: ; filter out data values outside 3-sigma for better color spread ; if keyword_set(NONOISE) then begin ; semiMinMax,idat,zvmin,zvmax ; w = where(((idat lt zvmin)OR(idat gt zvmax)),wc) ; if wc gt 0 then begin ; print,'WARNING=filtering values outside 3-sigma from image data...' ; idat(w) = 0 ; set pixels to black ; w = 0 ; free the data space ; endif ; endif ; scale to maximize color spread idmax=max(idat) idmin=min(idat) ; RTB 10/96 if keyword_set(DEBUG) then begin print, '!d.n_colors = ',!d.n_colors print, 'min and max after filtering = ',idmin, ' ', idmax endif if keyword_set(DEBUG) then begin bytmin = min(idat, max=bytmax) print, 'min and max after bytscl = ',bytmin, ' ', bytmax endif ; bc's rec. changes out 12/11 ; idat=bytscl(idat,max=idmax,min=idmin,top=!d.n_colors-3)+1B ; w=where(idat gt idmax,wc) ; if(wc gt 0) then idat(w)=!d.n_colors-1 ; w=where(idat lt idmin,wc) ; if(wc gt 0) then idat(w)=0B ; end changes 12/11 if keyword_set(GIF) then begin ; RTB 9/96 Retrieve the Data set name from the Logical source or ; the Logical file id atags=tag_names(astruct.(vnum)) b = tagindex('LOGICAL_SOURCE',atags) b1 = tagindex('LOGICAL_FILE_ID',atags) b2 = tagindex('Logical_file_id',atags) if (b(0) ne -1) then psrce = strupcase(astruct.(vnum).LOGICAL_SOURCE) if (b1(0) ne -1) then $ psrce = strupcase(strmid(astruct.(vnum).LOGICAL_FILE_ID,0,9)) if (b2(0) ne -1) then $ psrce = strupcase(strmid(astruct.(vnum).Logical_file_id,0,9)) ;print, 'DATASET=',psrce GIF=strmid(GIF,0,(strpos(GIF,'.gif')))+'_f000.gif' if(FRAME lt 100) then gifn='0'+strtrim(string(FRAME),2) if(FRAME lt 10) then gifn='00'+strtrim(string(FRAME),2) if(FRAME ge 100) then gifn=strtrim(string(FRAME),2) GIF=strmid(GIF,0,(strpos(GIF,'.gif')-3))+gifn+'.gif' deviceopen,6,fileOutput=GIF,sizeWindow=[xs+xco,ys+30] if (reportflag eq 1) then begin printf,1,'I_GIF=',GIF & close,1 endif print,'I_GIF=',GIF endif else begin ; open the xwindow window,/FREE,XSIZE=xs+xco,YSIZE=ys+30,TITLE=window_title endelse xmargin=!x.margin if COLORBAR then begin if (!x.omargin(1)+!x.margin(1)) lt 14 then !x.margin(1) = 14 !x.margin(1) = 14 plot,[0,1],[0,1],/noerase,/nodata,xstyle=4,ystyle=4 endif ;TJK - moved this down from above the GIF portion that calles deviceopen, ;because we need to have the correct number of colors (which deviceopen sets). ; Also changed because setting offset to red correctly above should ;work better than this ; idat = bytscl(idat,min=idmin, max=idmax, top=!d.n_colors-8) idat = bytscl(idat,min=idmin, max=idmax, top=!d.n_colors-2) if (vkluge eq 0) then begin ; blow up the image tv,idat,0,30,/DEVICE endif else begin ; special case kluge for viking tv,idat,0,30,/DEVICE acolor = !d.n_colors ; pick color for contouring ; ; handle_value,a.VI01MLAT.handle,temp & temp=congrid(temp,xs,ys) ; contour,temp,/noerase,/follow,xmargin=[0,0],ymargin=[0,0],$ ; level=[50.0,55.0,60.0,65.0,70.0,75.0,80.0,85.0],$ ; color=acolor ; e=indgen(480) & f=lonarr(480) ; plot,e,f,xrange=[0,480],yrange=[0,480],xmargin=[0,0],ymargin=[0,0],$ ; /nodata,/noerase ; f(240)=480 & e(239)=240 & e(241)=240 ; oplot,e,f,color=acolor ; f(240)=0 & e=indgen(480) ; f(200)=480 & e(199)=200 & e(201)=200 ; oplot,f,e,color=acolor ; xyouts,241,5,'0',size=1.2,color=acolor ; xyouts,241,470,'12',size=1.2,color=acolor ; xyouts,0,202,'18',size=1.2,color=acolor ; xyouts,460,202,'6',size=1.2,color=acolor ; handle_value,a.Epoch.handle,temp ; temp=decode_CDFEPOCH(temp(FRAME-1)) ; xyouts,240,20,temp,alignment=0.5,color=acolor ; temp = temp(*,*,(FRAME-1)) & temp = congrid(temp,xs,ys,/INTERP) ; ; scale to maximize color spread ; temp = bytscl(temp,max=max(temp),min=min(temp),top=!d.n_colors-1) ; tv,temp endelse ; subtitle the plot ; project_subtitle,astruct.(0),'',/IMAGE,TIMETAG=edat(FRAME-1) project_subtitle,astruct.(0),window_title,/IMAGE,TIMETAG=edat(FRAME-1) ; RTB 10/96 add colorbar if COLORBAR then begin if (n_elements(cCharSize) eq 0) then cCharSize = 0. cscale = [idmin, idmax] ; RTB 12/11 ; cscale = [zvmin, zvmax] xwindow = !x.window offset = 0.01 colorbar, cscale, ctitle, logZ=logZ, cCharSize=cCharSize, $ position=[!x.window(1)+offset, !y.window(0),$ !x.window(1)+offset+0.03, !y.window(1)],$ fcolor=244, /image !x.window = xwindow endif ; colorbar if keyword_set(GIF) then deviceclose endif ; valid frame value ; ; THUMBNAILS ; endif else begin ; produce thumnails of all images if keyword_set(THUMBSIZE) then tsize = THUMBSIZE else tsize = 50 isize = size(idat) ; determine the number of images in the data if (isize(0) eq 2) then begin nimages = 1 & npixels = double(isize(1)*isize(2)) endif else begin nimages = isize(isize(0)) & npixels = double(isize(1)*isize(2)*nimages) endelse ; screen out frames which are outside time range, if any if NOT keyword_set(TSTART) then start_frame = 0 $ else begin w = where(edat ge TSTART,wc) if wc eq 0 then begin print,'ERROR=No image frames after requested start time.' & return,-1 endif else start_frame = w(0) endelse if NOT keyword_set(TSTOP) then stop_frame = nimages $ else begin w = where(edat le TSTOP,wc) if wc eq 0 then begin print,'ERROR=No image frames before requested stop time.' & return,-1 endif else stop_frame = w(wc-1) endelse if (start_frame gt stop_frame) then no_data_avail = 1L $ else begin no_data_avail = 0L if ((start_frame ne 0)OR(stop_frame ne nimages)) then begin idat = idat(*,*,start_frame:stop_frame) isize = size(idat) ; determine the number of images in the data if (isize(0) eq 2) then nimages = 1 else nimages = isize(isize(0)) edat = edat(start_frame:stop_frame) endif endelse ; calculate number of columns and rows of images ncols = xs / tsize & nrows = (nimages / ncols) + 1 label_space = 12 ; TJK added constant for label spacing if(tsize > 60) then label_space = 24 ; boxsize =tsize+label_space;TJK added for allowing time labels for each image. ys = (nrows*boxsize) + 15 ; Perform data filtering and color enhancement it any data exists if (no_data_avail eq 0) then begin ; Begin changes 12/11 RTB ; ; determine validmin and validmax values a = tagindex('VALIDMIN',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).VALIDMIN) if (b(0) eq 0) then zvmin = astruct.(vnum).VALIDMIN $ else begin zvmin = 0 ; default for image data print,'WARNING=Unable to determine validmin for ',vname endelse endif a = tagindex('VALIDMAX',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).VALIDMAX) if (b(0) eq 0) then zvmax = astruct.(vnum).VALIDMAX $ else begin zvmax = 2000 ; guesstimate print,'WARNING=Unable to determine validmax for ',vname endelse endif a = tagindex('FILLVAL',tag_names(astruct.(vnum))) if (a(0) ne -1) then begin & b=size(astruct.(vnum).FILLVAL) if (b(0) eq 0) then zfill = astruct.(vnum).FILLVAL $ else begin zfill = 2000 ; guesstimate print,'WARNING=Unable to determine Image fill value for ',vname endelse endif ; ; filter out data values outside validmin/validmax limits ;this is the original code ; w = where(((idat lt zvmin)OR(idat gt zvmax)),wc) ; if wc gt 0 then begin ; print,'WARNING=filtering ',wc,' bad values from image data...' ; idat(w) = 0 ; set pixels to black ; w = 0 ; free the data space ; if wc eq npixels then print,'WARNING=All data outside min/max!!' ; endif if keyword_set(DEBUG) then begin print, 'Image valid min and max: ',zvmin, ' ',zvmax wmin = min(idat,MAX=wmax) print, 'Actual min and max of data',wmin,' ', wmax endif ;TJK - 3/19/98 - added checking for fill value. If found, set ;the fill values to 0, otherwise, if the fill values is greater ;than zvmax, then the values will be included in the image. ; w = where((idat lt zvmin),wc) w = where((idat lt zvmin or idat eq zfill),wc) if wc gt 0 then begin ; print,'WARNING=setting ',wc,' fill values in image data to black...' print,'WARNING=setting ',wc,' fill values in image data to z validmin... ',zvmin ;TJK change to zvmin instead of 0 12/14/2000 idat(w) = 0 ; set pixels to the black idat(w) = zvmin ; set pixels to the zvmin (used to be 0) if (zvmin le 0) then print, 'WARNING: Z validmin is <= zero ' w = 0 ; free the data space if wc eq npixels then print,'WARNING=All data outside min/max!!' endif ;TJK try not taking out the higher values and just scale them in. w = where((idat gt zvmax),wc) if wc gt 0 then begin if keyword_set(DEBUG) then print,'WARNING=setting ',wc,' fill values in image data to red...' ; print, 'values are: ',idat(w) ;6/25/2004 see below idat(w) = zvmax -1; set pixels to red ;TJK 6/25/2004 - added red_offset function to determine offset ;(to red) because of cases like log scaled timed guvi data ;where the diff is less than 1. diff = zvmax - zvmin coffset = red_offset(GIF=GIF,diff) print, 'diff = ',diff, ' coffset = ',coffset idat(w) = zvmax - coffset; set pixels to red w = 0 ; free the data space if wc eq npixels then print,'WARNING=All data outside min/max!!' endif ;TJK added this section to print out some statistics about the data distribution. if keyword_set(DEBUG) then begin print, 'Statistics about the data distribution' w = where(((idat lt zvmax) and (idat ge (zvmax-10))),wc) if wc gt 0 then print, 'Number of values between ',zvmax,' and ',zvmax-10,' = ',wc w = where(((idat lt zvmax-10) and (idat ge (zvmax-20))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-10,' and ',zvmax-20,' = ',wc w = where(((idat lt zvmax-20) and (idat ge (zvmax-30))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-20,' and ',zvmax-30,' = ',wc w = where(((idat lt zvmax-30) and (idat ge (zvmax-40))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-30,' and ',zvmax-40,' = ',wc w = where(((idat lt zvmax-40) and (idat ge (zvmax-50))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-40,' and ',zvmax-50,' = ',wc w = where(((idat lt zvmax-50) and (idat ge (zvmax-60))),wc) if wc gt 0 then print, 'Number of values between ',zvmax-50,' and ',zvmax-60,' = ',wc endif ; rebin image data to fit thumbnail size ; RTB commented these out for large format ; if (nimages eq 1) then idat = congrid(idat,tsize,tsize) $ ; else idat = congrid(idat,tsize,tsize,nimages) ; idat = congrid(idat,tsize,tsize) ; filter out data values outside 3-sigma for better color spread if keyword_set(NONOISE) then begin print, 'before semiminmax min and max = ', zvmin, zvmax semiMinMax,idat,zvmin,zvmax,/MODIFIED w = where((idat lt zvmin),wc) if wc gt 0 then begin print,'WARNING=filtering values less than 3-sigma from image data...' idat(w) = zvmin ; set pixels to black w = 0 ; free the data space endif w = where((idat gt zvmax),wc) if wc gt 0 then begin print,'WARNING=filtering values greater than 3-sigma from image data...' ;6/25/2004 see below idat(w) = zvmax -1; set pixels to red ;TJK 6/25/2004 - added red_offset function to determine offset ;(to red) because of cases like log scaled timed guvi data ;where the diff is less than 1. diff = zvmax - zvmin coffset = red_offset(GIF=GIF,diff) print, 'diff = ',diff, ' coffset = ',coffset idat(w) = zvmax - coffset; set pixels to red w = 0 ; free the data space endif endif ; Moved this block ; ; rebin image data to fit thumbnail size ; if (nimages eq 1) then idat = congrid(idat,tsize,tsize) $ ; else idat = congrid(idat,tsize,tsize,nimages) ; scale to maximize color spread idmax=max(idat) & idmin=min(idat) ; RTB 10/96 if keyword_set(DEBUG) then begin print, '!d.n_colors = ',!d.n_colors print, 'min and max after filtering = ',idmin, ' ', idmax endif if keyword_set(DEBUG) then begin bytmin = min(idat, max=bytmax) print, 'min and max after bytscl = ',bytmin, ' ', bytmax endif ;; idat = bytscl(idat,max=max(idat),min=min(idat),top=!d.n_colors-1) ; idat=bytscl(idat,max=idmax,min=idmin,top=!d.n_colors-3)+1B ; Bobby; why isn't this bidat instead of idat ; w=where(idat gt idmax,wc) ; if(wc gt 0) then idat(w)=!d.n_colors-1 ; w=where(idat lt idmin,wc) ; if(wc gt 0) then idat(w)=0B ; end changes 12/11 RTB ; open the window or gif file if keyword_set(GIF) then begin deviceopen,6,fileOutput=GIF,sizeWindow=[xs+xco,ys+40] if (no_data_avail eq 0) then begin if(reportflag eq 1) then printf,1,'IMAGE=',GIF print,'IMAGE=',GIF endif else begin if(reportflag eq 1) then printf,1,'I_GIF=',GIF print,'I_GIF=',GIF endelse endif else begin ; open the xwindow window,/FREE,XSIZE=xs+xco,YSIZE=ys+40,TITLE=window_title endelse xmargin=!x.margin if COLORBAR then begin if (!x.omargin(1)+!x.margin(1)) lt 14 then !x.margin(1) = 14 !x.margin(1) = 14 plot,[0,1],[0,1],/noerase,/nodata,xstyle=4,ystyle=4 endif ;TJK moved this from above the GIF section - so that !d.n_colors is correct ;TJK changed because setting offset to red correctly above should work better than this ; idat = bytscl(idat,min=idmin, max=idmax, top=!d.n_colors-8) idat = bytscl(idat,min=idmin, max=idmax, top=!d.n_colors-2) ; generate the thumbnail plots ;TJK - 2/20/97 - if viking images then rotate them 270 degrees, otherwise ; leave them as is. if (vkluge)then for j=0,nimages-1 do idat(*,*,j) = rotate(idat(*,*,j),7) ;5/7/01 - turns out the RPI images don't need to be rotated. Left this code ;in because I'm sure we'll need to do this type of transpose/rotate for some ;other dataset that doesn't have square images... ;TJK this transpose has to be done image by image... changed on 5/4/01 ; if(descriptor(0) eq 'RPI') then idat = transpose(idat) ;TJK 3/13/01 ;If images are square you can get by with using the same array, otherwise not. ; if(descriptor(0) eq 'RPI') then begin ; for j=0,nimages-1 do begin ; if (j eq 0 ) then begin ; ;set up an array to handle the "trasponsed images" ; dims = size(idat,/dimensions) ; idat2 = bytarr(dims(1),dims(0),dims(2)) ; idat2(*,*,j) = transpose(idat(*,*,j)) ; endif else begin ; idat2(*,*,j) = transpose(idat(*,*,j)) ; endelse ; endfor ; idat = idat2 ; idat2 = 0 ;clear this array out ; endif ;if RPI ; for j=0,nimages-1 do tv,idat(*,*,j),j ; Position each image individually to control layout irow=0 icol=0 for j=0,nimages-1 do begin ; see above if(descriptor(0) eq 'RPI') then idat(*,*,j) = transpose(idat(*,*,j)) ;TJK 3/13/01 ; if VIS rotate RTB ; Vis images as sent to us are a reflection and a rotation from how the images ; are displayed on the vis home page. RTB if(descriptor(0) eq 'VIS') then $ ;idat(*,*,j)=rotate(rotate(idat(*,*,j),5),3) ; RTB 9/98 idat(*,*,j)=rotate(rotate(idat(*,*,j),5),2) ; RTB 9/98 ; UVI primary image fix for times prior to 12/96; RTB 11/98 if(descriptor(0) eq 'UVI') then begin cdf_epoch, edat(j), yr,mn,dy,hr,min,sec,milli,/break ical,yr,doy,mn,dy,/idoy ;TJK change to following per Bob's request 4/02/01 if (doy lt 337) then begin if ((fix(yr) eq 1996) and (doy lt 337)) then begin temp_dat=idat(*,*,j); temp_dat=rotate(temp_dat,3) idat(*,*,j)=transpose(temp_dat) endif if ((d_type(0) eq 'H2') or (d_type(0) eq 'H3')) then begin if (j eq 0 ) then begin ;set up an array to handle the "transposed images" dims = size(idat,/dimensions) if n_elements(dims) gt 2 then $ idat2 = bytarr(dims(1),dims(0),dims(2)) else $ idat2 = bytarr(dims(1),dims(0)) endif idat2(*,*,j)=transpose(idat(*,*,j)) endif ;TJK this was the original code, which didn't work because ;if you transpose a non square image and put it back in the ;original array, the image will be destroyed - fixed this, above, ;on 4/9/2001 ; if(fix(yr) eq 1996) then begin ; if(doy lt 337) then begin ; idat(*,*,j)=rotate(idat(*,*,j),3) ; idat(*,*,j)=transpose(idat(*,*,j)) ; endif ; endif endif ;if UVI data if(icol eq ncols) then begin icol=0 irow=irow+1 endif xpos=icol*tsize ypos=ys-(irow*tsize+30) if (irow gt 0) then ypos = ypos-(label_space*irow) ;TJK modify position for labels ;# Test code for Large Format ; Scale images RTB 3/98 xthb=tsize ythb=tsize+label_space xsp=float(xthb)/float(xs+80) ; size of x frame in normalized units ysp=float(ythb)/float(ys+30) ; size of y frame in normalized units yi= 1.0 - 10.0/ys ; initial y point in normalized units x0i=0.0095 ; initial x point in normalized units y0i=yi-ysp ;y0i=0.65 x1i=0.0095+xsp ;x1i=.10 y1i=yi ; Set new positions for each column and row x0=x0i+icol*xsp y0=y0i-irow*ysp x1=x1i+icol*xsp y1=y1i-irow*ysp ; 2nd test rescale xpimg=xthb ypimg=ythb-label_space ; Use device coordinates for Map overlay thumbnails xspm=float(xthb) yspm=float(ythb-label_space) yi= (ys+30) - label_space ; initial y point x0i=2.5 ; initial x point y0i=yi-yspm x1i=2.5+xspm y1i=yi ; Set new positions for each column and row x0=x0i+icol*xspm y0=y0i-(irow*yspm+irow*label_space) x1=x1i+icol*xspm y1=y1i-(irow*yspm+irow*label_space) position=[x0,y0,x1,y1] xpos=x0 ypos=y0 ;# End LF test ;TJK added the following to deal with UVI data that had to be put in array idat2 instead of idat ;4/9/2001 if ((d_type(0) eq 'H2') or (d_type(0) eq 'H3')) then begin tmp_img=congrid(idat2(*,*,j),xpimg,ypimg) endif else begin tmp_img=congrid(idat(*,*,j),xpimg,ypimg) endelse tv,tmp_img,xpos,ypos,/DEVICE foreground = !d.n_colors-1 white_background = 0 ;tv,idat(*,*,j),xpos,ypos,/DEVICE ; Print time tag if (j eq 0) then begin prevdate = decode_cdfepoch(edat(j)) ;TJK get date for this record endif else prevdate = decode_cdfepoch(edat(j-1)) ;TJK get date for this record edate = decode_cdfepoch(edat(j)) ;TJK get date for this record shortdate = strmid(edate, 10, strlen(edate)) ; shorten it yyyymmdd = strmid(edate, 0,10) ; yyyymmdd portion of current prev_yyyymmdd = strmid(prevdate, 0,10) ; yyyymmdd portion of previous ; xyouts, xpos, ypos-10, shortdate, color=247, /DEVICE ;display w/ image ; xyouts, xpos, ypos-10, shortdate, color=!d.n_colors-1, /DEVICE ; ;TJK 11/10/2005 - use the longer date on these thumbnails since w/ new ; rumba machine, one can easly plot several days worth ; of plots if (((yyyymmdd ne prev_yyyymmdd) or (j eq 0)) and tsize gt 50 ) then begin xyouts, xpos, ypos-10, edate, color=foreground, charsize=1.0,/DEVICE endif else xyouts, xpos, ypos-10, shortdate, color=foreground,/DEVICE icol=icol+1 endfor ; done with the image if ((reportflag eq 1)AND(no_data_avail eq 0)) then begin PRINTF,1,'VARNAME=',astruct.(vnum).varname PRINTF,1,'NUMFRAMES=',nimages PRINTF,1,'NUMROWS=',nrows & PRINTF,1,'NUMCOLS=',ncols PRINT,1,'THUMB_HEIGHT=',tsize+label_space PRINT,1,'THUMB_WIDTH=',tsize PRINTF,1,'START_REC=',start_frame endif if (no_data_avail eq 0) then begin PRINT,'VARNAME=',astruct.(vnum).varname PRINT,'NUMFRAMES=',nimages PRINT,'NUMROWS=',nrows & PRINT,'NUMCOLS=',ncols PRINT,'THUMB_HEIGHT=',tsize+label_space PRINT,'THUMB_WIDTH=',tsize PRINT,'START_REC=',start_frame endif if ((keyword_set(CDAWEB))AND(no_data_avail eq 0)) then begin fname = GIF + '.sav' & save_mystruct,astruct,fname endif ; subtitle the plot ; project_subtitle,astruct.(0),'',/IMAGE,TIMETAG=[edat(0),edat(nimages-1)] project_subtitle,astruct.(0),window_title,/IMAGE, $ TIMETAG=[edat(0),edat(nimages-1)] ; RTB 10/96 add colorbar if COLORBAR then begin if (n_elements(cCharSize) eq 0) then cCharSize = 0. cscale = [idmin, idmax] ; RTB 12/11 ; cscale = [zvmin, zvmax] xwindow = !x.window !x.window(1)=0.858 ; added 10/98 RTB !y.window=[0.1,0.9] offset = 0.01 colorbar, cscale, ctitle, logZ=0, cCharSize=cCharSize, $ position=[!x.window(1)+offset, !y.window(0),$ !x.window(1)+offset+0.03, !y.window(1)],$ fcolor=244, /image !x.window = xwindow endif ; colorbar !x.margin=xmargin if keyword_set(GIF) then deviceclose endif else begin ; no data available - write message to gif file and exit print,'STATUS=No data in specified time period.' if keyword_set(GIF) then begin xyouts,xs/2,ys/2,/device,alignment=0.5,color=244,$ 'NO DATA IN SPECIFIED TIME PERIOD' deviceclose endif else begin xyouts,xs/2,ys/2,/device,alignment=0.5,'NO DATA IN SPECIFIED TIME PERIOD' endelse endelse endelse ; blank image (Try to clear) if keyword_set(GIF) then device,/close return,0 end