<div dir="ltr">Hi Tomoko,<div><div style="font-size:12.8px">NCL uses the space needed to draw the first panel to allocate the required space for each of the following panels. Thus, if your last column has bigger plots (and labelbars are considered part of the plot in this case), NCL will shrink the plot to fit into the allocated space. You have two choices:</div><div style="font-size:12.8px">1) Tell NCL to allocate space by looking at a different panel by setting <span class="gmail-il">gsnPanelScalePlotIndex</span> = 1 (or 2). See example #24 here:</div><div style="font-size:12.8px"><a href="https://www.ncl.ucar.edu/Applications/panel.shtml#ex24" target="_blank">https://www.ncl.ucar.edu/<wbr>Applications/panel.shtml#ex24</a><br></div><div style="font-size:12.8px"><br></div><div style="font-size:12.8px">2) You can explicitly set the sizes and locations of each panel by setting gsnPanelXF and gsnPanelYF, using information returned from gsnPanelDebug. See example 19 here:</div><div style="font-size:12.8px"><a href="https://www.ncl.ucar.edu/Applications/panel.shtml#ex19" target="_blank">https://www.ncl.ucar.edu/<wbr>Applications/panel.shtml#ex19</a></div></div><div style="font-size:12.8px"><br></div><div style="font-size:12.8px">Hope that helps! If not, or if you have further questions please respond to the ncl-talk email list.</div><div style="font-size:12.8px">Adam</div></div><div class="gmail_extra"><br><div class="gmail_quote">On Fri, Dec 8, 2017 at 10:54 PM, Tomoko Koyama <span dir="ltr"><<a href="mailto:Tomoko.Koyama@colorado.edu" target="_blank">Tomoko.Koyama@colorado.edu</a>></span> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">When I run the following script to make a panel, figures of the rightmost appear smaller.<br>
I guess that’s because I only add legends to the rightmost, but is there any way to have all the figures in the same size?<br>
<br>
Thank you in advance,<br>
Tomoko<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
load "$NCARG_ROOT/lib/ncarg/<wbr>nclscripts/csm/gsn_code.ncl"<br>
load "$NCARG_ROOT/lib/ncarg/<wbr>nclscripts/csm/gsn_csm.ncl"<br>
load "$NCARG_ROOT/lib/ncarg/<wbr>nclscripts/csm/contributed.<wbr>ncl"<br>
<br>
begin<br>
<br>
;;; Constant information<br>
<br>
model = "CCSM4"<br>
<br>
weeks = (/2,4,6,8,10,12/)<br>
nwk = dimsizes(weeks)<br>
<br>
; SOM size<br>
xdim = my_xdim<br>
ydim = my_ydim<br>
<br>
; Which node to process<br>
xcomp = my_comp_x<br>
ycomp = my_comp_y<br>
som_node = xcomp+(ycomp*xdim)<br>
<br>
; Directories<br>
indir = "/work/koyama_sice/composites/<wbr>"<br>
outdir = "/work/koyama_sice/img_panel/"<br>
<br>
; Arrays for plotting<br>
ext_var1 = new((/nwk,180,180/), "float")<br>
ext_var2 = new((/nwk,180,180/), "float")<br>
ext_var3 = new((/nwk,180,180/), "float")<br>
ext_var4 = new((/nwk,180,180/), "float")<br>
ext_var5 = new((/nwk,180,180/), "float")<br>
ext_var6 = new((/nwk,180,180/), "float")<br>
ext_var7 = new((/nwk,180,180/), "float")<br>
ext_var8 = new((/nwk,180,180/), "float")<br>
<br>
ss_var1 = new((/nwk,180,180/), "float")<br>
ss_var2 = new((/nwk,180,180/), "float")<br>
ss_var3 = new((/nwk,180,180/), "float")<br>
ss_var4 = new((/nwk,180,180/), "float")<br>
ss_var5 = new((/nwk,180,180/), "float")<br>
ss_var6 = new((/nwk,180,180/), "float")<br>
ss_var7 = new((/nwk,180,180/), "float")<br>
ss_var8 = new((/nwk,180,180/), "float")<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Get information for what was masked out<br>
dirlsm="/work/koyama_sice/<wbr>Land_Mask/"<br>
fnlsm=addfile(dirlsm+"<a href="http://ERAI.LandMask.180x180.org.nc" rel="noreferrer" target="_blank">ERAI.<wbr>LandMask.180x180.org.nc</a>","r")<br>
lsm=fnlsm->Land_Mask<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab near-surface temperature data<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.tas_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.tas_statsig_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->tas<br>
lat = fn->lat2d<br>
lon = fn->lon2d<br>
ext_var1(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var1(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab sea level pressure data<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.psl_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.psl_statsig_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->psl<br>
ext_var2(iwk,:,:) = var(som_node,:,:)/100.<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var2(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab 1000 - 500 hPa thickness data<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.thickness_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.thickness_statsig_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->thickness<br>
ext_var3(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var3(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab sea ice concentration data<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.sic_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.sic_statsig_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->sic<br>
ext_var4(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var4(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab sea ice thickness data<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.sit_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.sit_statsig_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->sit<br>
ext_var5(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var5(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab total surface energy flux<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.sfcnf_composite_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.sfcnf_statsig_my_<wbr>xdimxmy_ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->sfcnf<br>
ext_var6(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var6(iwk,:,:) = var(som_node,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; Grab geopotential height<br>
fili = systemfunc("cd " + indir + " ; ls CCSM4.zg_composite_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
fils = systemfunc("cd " + indir + " ; ls CCSM4.zg_statsig_my_xdimxmy_<wbr>ydim_wk*.nc")<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fili(weeks(iwk))<wbr>,"r")<br>
var = fn->zg<br>
ext_var7(iwk,:,:) = var(som_node,3,:,:) ; 500 hPa<br>
ext_var8(iwk,:,:) = var(som_node,4,:,:) ; 250 hPa<br>
delete(var)<br>
end do<br>
<br>
do iwk=0,nwk-1<br>
fn = addfile(indir+fils(weeks(iwk))<wbr>,"r")<br>
var = fn->alpha<br>
ss_var7(iwk,:,:) = var(som_node,3,:,:)<br>
ss_var8(iwk,:,:) = var(som_node,4,:,:)<br>
delete(var)<br>
end do<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
;;; Make plot<br>
<br>
fnout="CCSM4_seq_my_xdimxmy_<wbr>ydim_my_comp_x_my_comp_y.pdf"<br>
wks = gsn_open_wks("pdf", outdir+fnout)<br>
gsn_define_colormap(wks,"BlRe"<wbr>)<br>
additional_colors = (/"gray85"/)<br>
gsn_merge_colormaps(wks,"BlRe"<wbr>,additional_colors)<br>
<br>
; Map resources<br>
res = True<br>
res@mpLandFillColor = "gray85"<br>
res@mpFillOn = True<br>
res@mpGeophysicalLineColor = "black" ; color of continents<br>
res@<wbr>mpGeophysicalLineThicknessF = 2.<br>
res@gsnPolar = "NH" ; northern hemisphere plot<br>
res@mpMinLatF = 30 ; to focus in on NP<br>
<br>
; Contour info<br>
res@cnFillOn = True<br>
res@cnFillMode = "CellFill"<br>
res@cnLineLabelsOn = False<br>
res@gsnSpreadColors = True ; use total colormap<br>
res@cnLevelSelectionMode = "ManualLevels"<br>
res@gsnSpreadColorStart = 35<br>
res@gsnSpreadColorEnd = -35<br>
res@gsnAddCyclic = False<br>
res@cnInfoLabelOn = False ; no contour info label<br>
<br>
res@lbLabelBarOn = False ; turn off individual cb's<br>
res@lbOrientation = "Vertical"<br>
res@lbTitleAngleF = 90.<br>
res@lbTitlePosition = "Right"<br>
res@lbTitleDirection = "Across"<br>
;res@lbLabelFontHeightF = 0.025<br>
res@gsnRightString = " "<br>
res@gsnLeftString = " "<br>
<br>
res@trGridType = "TriangularMesh"<br>
res@sfXArray = lon<br>
res@sfYArray = lat<br>
res@gsnMaximize = True ; max plot area<br>
res@gsnFrame = False ; do not advance frame<br>
res@gsnDraw = False<br>
res@tiXAxisString = ""<br>
res@tiYAxisString = ""<br>
res@gsnRightStringFontHeightF = 0.025<br>
res@gsnLeftStringFontHeightF = 0.025<br>
<br>
; Overplot<br>
res_ss = True<br>
res_ss@gsnDraw = False<br>
res_ss@gsnFrame = False<br>
res_ss@cnFillOn = True<br>
res_ss@cnFillMode = "CellFill"<br>
res_ss@cnFillOpacityF = 0.2<br>
res_ss@cnLinesOn = False<br>
res_ss@gsnTickMarksOn = False<br>
res_ss@gsnAddCyclic = False<br>
res_ss@cnLineThicknessF = 0.<br>
res_ss@cnLineLabelsOn = False<br>
res_ss@cnLineColor = "black"<br>
res_ss@cnInfoLabelOn = False<br>
res_ss@lbLabelBarOn = False<br>
res_ss@cnLevelSelectionMode = "ExplicitLevels"<br>
res_ss@cnLevels = 89.9<br>
res_ss@cnFillColors = (/"white","black"/)<br>
res_ss@cnMonoLineDashPattern = False<br>
res_ss@cnLineDashPattern = 0<br>
res_ss@gsnMaximize = True<br>
res_ss@trGridType = "TriangularMesh"<br>
res_ss@sfXArray = lon<br>
res_ss@sfYArray = lat<br>
<br>
opt = True<br>
opt@gsnShadeFillType = "pattern"<br>
opt@gsnShadeHigh = 17<br>
<br>
maxLev = 18<br>
<br>
plot = new(48,graphic)<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
; 1. tas<br>
res1 = res<br>
maximum=2.4<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res1@cnLinesOn = False<br>
res1@cnMinLevelValF = mnmxint(0)<br>
res1@cnMaxLevelValF = mnmxint(1)<br>
res1@cnLevelSpacingF = mnmxint(2)<br>
res1@lbTitleString = "Near-surface temperature"<br>
<br>
; 2. psl<br>
res2 = res<br>
maximum=4.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res2@cnLinesOn = True<br>
res2@cnMinLevelValF = mnmxint(0)<br>
res2@cnMaxLevelValF = mnmxint(1)<br>
res2@cnLevelSpacingF = mnmxint(2)<br>
res2@lbTitleString = "Sea level pressure"<br>
<br>
; 3. 1000 - 500 hPa thickness<br>
res3 = res<br>
maximum=28.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res3@cnLinesOn = False<br>
res3@cnMinLevelValF = mnmxint(0)<br>
res3@cnMaxLevelValF = mnmxint(1)<br>
res3@cnLevelSpacingF = mnmxint(2)<br>
res3@lbTitleString = "1000-500hPa thickness"<br>
<br>
; 4. sic<br>
; Mask land areas<br>
ext_var4 = mask(ext_var4,lsm.ge.0.5,<wbr>False)<br>
<br>
res4 = res<br>
maximum=12.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
cmapt=read_colormap_file("<wbr>BlRe")<br>
cmap=cmapt(::-1,:)<br>
res4@gsnSpreadColors = False ; use total colormap<br>
res4@cnSpanFillPalette = True<br>
res4@cnFillPalette = cmap(33:63,:)<br>
res4@cnLinesOn = False<br>
res4@cnMinLevelValF = mnmxint(0)<br>
res4@cnMaxLevelValF = mnmxint(1)<br>
res4@cnLevelSpacingF = mnmxint(2)<br>
res4@lbTitleString = "Sea ice concentration"<br>
<br>
; 5. sit<br>
; Mask land areas<br>
ext_var5 = mask(ext_var5,lsm.ge.0.5,<wbr>False)<br>
<br>
res5 = res<br>
maximum=0.24<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res5@gsnSpreadColors = False ; use total colormap<br>
res5@cnSpanFillPalette = True<br>
res5@cnFillPalette = cmap(33:63,:)<br>
res5@cnLinesOn = False<br>
res5@cnMinLevelValF = mnmxint(0)<br>
res5@cnMaxLevelValF = mnmxint(1)<br>
res5@cnLevelSpacingF = mnmxint(2)<br>
res5@lbTitleString = "Sea ice thickness"<br>
<br>
; 6. sfcnf<br>
res6 = res<br>
maximum=28.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res6@cnLinesOn = False<br>
res6@cnMinLevelValF = mnmxint(0)<br>
res6@cnMaxLevelValF = mnmxint(1)<br>
res6@cnLevelSpacingF = mnmxint(2)<br>
res6@lbTitleString = "Total surface energy flux"<br>
<br>
; 7. zg500<br>
res7 = res<br>
maximum=40.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res7@cnLinesOn = False<br>
res7@cnMinLevelValF = mnmxint(0)<br>
res7@cnMaxLevelValF = mnmxint(1)<br>
res7@cnLevelSpacingF = mnmxint(2)<br>
res7@lbTitleString = "Geopotential height @ 500 hPa"<br>
<br>
; 8. zg250<br>
res8 = res<br>
maximum=60.<br>
minimum=-1.*maximum<br>
mnmxint = nice_mnmxintvl(minimum,<wbr>maximum,maxLev,True)<br>
res8@cnLinesOn = False<br>
res8@cnMinLevelValF = mnmxint(0)<br>
res8@cnMaxLevelValF = mnmxint(1)<br>
res8@cnLevelSpacingF = mnmxint(2)<br>
res8@lbTitleString = "Geopotential height @ 250 hPa"<br>
<br>
res11 = res1<br>
res12 = res1<br>
res13 = res1<br>
res14 = res1<br>
res15 = res1<br>
res16 = res1<br>
res21 = res2<br>
res22 = res2<br>
res23 = res2<br>
res24 = res2<br>
res25 = res2<br>
res26 = res2<br>
res31 = res3<br>
res32 = res3<br>
res33 = res3<br>
res34 = res3<br>
res35 = res3<br>
res36 = res3<br>
res41 = res4<br>
res42 = res4<br>
res43 = res4<br>
res44 = res4<br>
res45 = res4<br>
res46 = res4<br>
res51 = res5<br>
res52 = res5<br>
res53 = res5<br>
res54 = res5<br>
res55 = res5<br>
res56 = res5<br>
res61 = res6<br>
res62 = res6<br>
res63 = res6<br>
res64 = res6<br>
res65 = res6<br>
res66 = res6<br>
res71 = res7<br>
res72 = res7<br>
res73 = res7<br>
res74 = res7<br>
res75 = res7<br>
res76 = res7<br>
res81 = res8<br>
res82 = res8<br>
res83 = res8<br>
res84 = res8<br>
res85 = res8<br>
res86 = res8<br>
<br>
;---1st row plots<br>
res11@gsnLeftString = "week 2"<br>
res12@gsnLeftString = "week 4"<br>
res13@gsnLeftString = "week 6"<br>
res14@gsnLeftString = "week 8"<br>
res15@gsnLeftString = "week 10"<br>
res16@gsnLeftString = "week 12"<br>
<br>
;---Rightmost plots<br>
res16@gsnRightString = "K"<br>
res26@gsnRightString = "hPa"<br>
res36@gsnRightString = "m"<br>
res46@gsnRightString = "%"<br>
res56@gsnRightString = "m"<br>
res66@gsnRightString = "W m~S~-2~N~"<br>
res76@gsnRightString = "m"<br>
res86@gsnRightString = "m"<br>
<br>
res16@lbLabelBarOn = True<br>
res26@lbLabelBarOn = True<br>
res36@lbLabelBarOn = True<br>
res46@lbLabelBarOn = True<br>
res56@lbLabelBarOn = True<br>
res66@lbLabelBarOn = True<br>
res76@lbLabelBarOn = True<br>
res86@lbLabelBarOn = True<br>
<br>
; 1st row<br>
; 1. tas<br>
plot(0) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(0,:,:),res11)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(0,<wbr>:,:),res_ss)<br>
overlay(plot(0),overlay_plot)<br>
plot(1) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(1,:,:),res12)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(1,<wbr>:,:),res_ss)<br>
overlay(plot(1),overlay_plot)<br>
plot(2) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(2,:,:),res13)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(2,<wbr>:,:),res_ss)<br>
overlay(plot(2),overlay_plot)<br>
plot(3) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(3,:,:),res14)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(3,<wbr>:,:),res_ss)<br>
overlay(plot(3),overlay_plot)<br>
plot(4) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(4,:,:),res15)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(4,<wbr>:,:),res_ss)<br>
overlay(plot(4),overlay_plot)<br>
plot(5) = gsn_csm_contour_map_polar(wks,<wbr>ext_var1(5,:,:),res16)<br>
overlay_plot = gsn_csm_contour(wks,ss_var1(5,<wbr>:,:),res_ss)<br>
overlay(plot(5),overlay_plot)<br>
<br>
; 2nd row<br>
plot(6) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(0,:,:),res21)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(0,<wbr>:,:),res_ss)<br>
overlay(plot(6),overlay_plot)<br>
plot(7) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(1,:,:),res22)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(1,<wbr>:,:),res_ss)<br>
overlay(plot(7),overlay_plot)<br>
plot(8) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(2,:,:),res23)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(2,<wbr>:,:),res_ss)<br>
overlay(plot(8),overlay_plot)<br>
plot(9) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(3,:,:),res24)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(3,<wbr>:,:),res_ss)<br>
overlay(plot(9),overlay_plot)<br>
plot(10) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(4,:,:),res25)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(4,<wbr>:,:),res_ss)<br>
overlay(plot(10),overlay_plot)<br>
plot(11) = gsn_csm_contour_map_polar(wks,<wbr>ext_var2(5,:,:),res26)<br>
overlay_plot = gsn_csm_contour(wks,ss_var2(5,<wbr>:,:),res_ss)<br>
overlay(plot(11),overlay_plot)<br>
<br>
; 3rd row<br>
plot(12) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(0,:,:),res31)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(0,<wbr>:,:),res_ss)<br>
overlay(plot(12),overlay_plot)<br>
plot(13) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(1,:,:),res32)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(1,<wbr>:,:),res_ss)<br>
overlay(plot(13),overlay_plot)<br>
plot(14) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(2,:,:),res33)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(2,<wbr>:,:),res_ss)<br>
overlay(plot(14),overlay_plot)<br>
plot(15) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(3,:,:),res34)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(3,<wbr>:,:),res_ss)<br>
overlay(plot(15),overlay_plot)<br>
plot(16) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(4,:,:),res35)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(4,<wbr>:,:),res_ss)<br>
overlay(plot(16),overlay_plot)<br>
plot(17) = gsn_csm_contour_map_polar(wks,<wbr>ext_var3(5,:,:),res36)<br>
overlay_plot = gsn_csm_contour(wks,ss_var3(5,<wbr>:,:),res_ss)<br>
overlay(plot(17),overlay_plot)<br>
<br>
; 4th row<br>
plot(18) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(0,:,:),res41)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(0,<wbr>:,:),res_ss)<br>
overlay(plot(18),overlay_plot)<br>
plot(19) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(1,:,:),res42)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(1,<wbr>:,:),res_ss)<br>
overlay(plot(19),overlay_plot)<br>
plot(20) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(2,:,:),res43)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(2,<wbr>:,:),res_ss)<br>
overlay(plot(20),overlay_plot)<br>
plot(21) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(3,:,:),res44)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(3,<wbr>:,:),res_ss)<br>
overlay(plot(21),overlay_plot)<br>
plot(22) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(4,:,:),res45)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(4,<wbr>:,:),res_ss)<br>
overlay(plot(22),overlay_plot)<br>
plot(23) = gsn_csm_contour_map_polar(wks,<wbr>ext_var4(5,:,:),res46)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(5,<wbr>:,:),res_ss)<br>
overlay(plot(23),overlay_plot)<br>
<br>
; 5th row<br>
plot(24) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(0,:,:),res51)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(0,<wbr>:,:),res_ss)<br>
overlay(plot(24),overlay_plot)<br>
plot(25) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(1,:,:),res52)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(1,<wbr>:,:),res_ss)<br>
overlay(plot(25),overlay_plot)<br>
plot(26) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(2,:,:),res53)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(2,<wbr>:,:),res_ss)<br>
overlay(plot(26),overlay_plot)<br>
plot(27) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(3,:,:),res54)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(3,<wbr>:,:),res_ss)<br>
overlay(plot(27),overlay_plot)<br>
plot(28) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(4,:,:),res55)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(4,<wbr>:,:),res_ss)<br>
overlay(plot(28),overlay_plot)<br>
plot(29) = gsn_csm_contour_map_polar(wks,<wbr>ext_var5(5,:,:),res56)<br>
overlay_plot = gsn_csm_contour(wks,ss_var5(5,<wbr>:,:),res_ss)<br>
overlay(plot(29),overlay_plot)<br>
<br>
; 6th row<br>
plot(30) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(0,:,:),res61)<br>
overlay_plot = gsn_csm_contour(wks,ss_var6(0,<wbr>:,:),res_ss)<br>
overlay(plot(30),overlay_plot)<br>
plot(31) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(1,:,:),res62)<br>
overlay_plot = gsn_csm_contour(wks,ss_var4(1,<wbr>:,:),res_ss)<br>
overlay(plot(31),overlay_plot)<br>
plot(32) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(2,:,:),res63)<br>
overlay_plot = gsn_csm_contour(wks,ss_var6(2,<wbr>:,:),res_ss)<br>
overlay(plot(32),overlay_plot)<br>
plot(33) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(3,:,:),res64)<br>
overlay_plot = gsn_csm_contour(wks,ss_var6(3,<wbr>:,:),res_ss)<br>
overlay(plot(33),overlay_plot)<br>
plot(34) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(4,:,:),res65)<br>
overlay_plot = gsn_csm_contour(wks,ss_var6(4,<wbr>:,:),res_ss)<br>
overlay(plot(34),overlay_plot)<br>
plot(35) = gsn_csm_contour_map_polar(wks,<wbr>ext_var6(5,:,:),res66)<br>
overlay_plot = gsn_csm_contour(wks,ss_var6(5,<wbr>:,:),res_ss)<br>
overlay(plot(35),overlay_plot)<br>
<br>
; 7th row<br>
plot(36) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(0,:,:),res71)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(0,<wbr>:,:),res_ss)<br>
overlay(plot(36),overlay_plot)<br>
plot(37) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(1,:,:),res72)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(1,<wbr>:,:),res_ss)<br>
overlay(plot(37),overlay_plot)<br>
plot(38) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(2,:,:),res73)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(2,<wbr>:,:),res_ss)<br>
overlay(plot(38),overlay_plot)<br>
plot(39) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(3,:,:),res74)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(3,<wbr>:,:),res_ss)<br>
overlay(plot(39),overlay_plot)<br>
plot(40) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(4,:,:),res75)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(4,<wbr>:,:),res_ss)<br>
overlay(plot(40),overlay_plot)<br>
plot(41) = gsn_csm_contour_map_polar(wks,<wbr>ext_var7(5,:,:),res76)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(5,<wbr>:,:),res_ss)<br>
overlay(plot(41),overlay_plot)<br>
<br>
; 7th row<br>
plot(42) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(0,:,:),res81)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(0,<wbr>:,:),res_ss)<br>
overlay(plot(42),overlay_plot)<br>
plot(43) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(1,:,:),res82)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(1,<wbr>:,:),res_ss)<br>
overlay(plot(43),overlay_plot)<br>
plot(44) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(2,:,:),res83)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(2,<wbr>:,:),res_ss)<br>
overlay(plot(44),overlay_plot)<br>
plot(45) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(3,:,:),res84)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(3,<wbr>:,:),res_ss)<br>
overlay(plot(45),overlay_plot)<br>
plot(46) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(4,:,:),res85)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(4,<wbr>:,:),res_ss)<br>
overlay(plot(46),overlay_plot)<br>
plot(47) = gsn_csm_contour_map_polar(wks,<wbr>ext_var8(5,:,:),res86)<br>
overlay_plot = gsn_csm_contour(wks,ss_var7(5,<wbr>:,:),res_ss)<br>
overlay(plot(47),overlay_plot)<br>
<br>
;-----------------------------<wbr>------------------------------<wbr>--------------<br>
res_pan = True<br>
res_pan@gsnPaperOrientation = "portrait"<br>
res_pan@gsnMaximize = True<br>
res_pan@gsnPanelLabelBar = False<br>
res_pan@txString = "CCSM4 Node (my_comp_x,my_comp_y)"<br>
<br>
res_pan@<wbr>gsnPanelYWhiteSpacePercent = 2.<br>
res_pan@<wbr>gsnPanelXWhiteSpacePercent = 2.<br>
<br>
gsn_panel(wks,plot,(/8,6/),<wbr>res_pan)<br>
<br>
end<br>
<br>
______________________________<wbr>_________________<br>
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</blockquote></div><br><br clear="all"><div><br></div>-- <br><div class="gmail_signature" data-smartmail="gmail_signature"><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><div><div><span><font color="#888888">Adam Phillips <br></font></span></div><span><font color="#888888">Associate Scientist, </font></span><span><font color="#888888">Climate and Global Dynamics Laboratory, NCAR<br></font></span></div></div><div><span><font color="#888888"><a href="http://www.cgd.ucar.edu/staff/asphilli/" target="_blank">www.cgd.ucar.edu/staff/asphilli/</a> </font></span><span><font color="#888888">303-497-1726 </font></span></div><span><font color="#888888"></font></span><div><div><span><font color="#888888"><br></font></span><div><span><font color="#888888"><a href="http://www.cgd.ucar.edu/staff/asphilli" target="_blank"></a></font></span></div></div></div></div></div></div></div></div></div></div></div>
</div>