diff -r 000000000000 -r 0c6405ab2ff4 energy/99.new.ncl
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/energy/99.new.ncl Mon Jan 26 22:08:20 2009 -0500
@@ -0,0 +1,528 @@
+;************************************************************
+; required command line input parameters:
+; ncl 'model_name="10cn" model_grid="T42" dirm="/.../ film="..."' 01.npp.ncl
+;
+; using gsn_table for all
+; output: line plot for each site (4 fields)
+; table for M_score
+;************************************************************
+load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_code.ncl"
+load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_csm.ncl"
+load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/contributed.ncl"
+;************************************************************
+procedure set_line(lines:string,nline:integer,newlines:string)
+begin
+; add line to ascci/html file
+
+ nnewlines = dimsizes(newlines)
+ if(nline+nnewlines-1.ge.dimsizes(lines))
+ print("set_line: bad index, not setting anything.")
+ return
+ end if
+ lines(nline:nline+nnewlines-1) = newlines
+; print ("lines = " + lines(nline:nline+nnewlines-1))
+ nline = nline + nnewlines
+ return
+end
+;*************************************************************
+begin
+
+ plot_type = "ps"
+ plot_type_new = "png"
+
+;************************************************
+; read model data
+;************************************************
+
+; model_name = "i01.10cn"
+ model_name = "i01.10casa"
+
+ dirm = "/fis/cgd/cseg/people/jeff/surface_data/"
+ film = "lnd_T42.nc"
+ fm = addfile(dirm+film,"r")
+
+ xm = fm->lon
+ ym = fm->lat
+;------------------------------------------------
+ nlat = dimsizes(ym)
+ nlon = dimsizes(xm)
+
+; for 4 fields, 12-monthly
+ nmon = 12
+ nfield = 4
+
+ data_mod0 = new ((/nfield,nmon,nlat,nlon/),float)
+
+; change to unit of observed (u mol/m2/s)
+; Model_units [=] gC/m2/s
+; 12. = molecular weight of C
+; u mol = 1e-6 mol
+ factor = 1e6 /12.
+
+ ENERGY ="new"
+
+;************************************************
+; read data: observed
+;************************************************
+
+ station = (/"BOREAS_NSA_OBS" \
+ ,"CastelPorziano" \
+ ,"Hyytiala" \
+ ,"Kaamanen" \
+ ,"LBA_Tapajos_KM67" \
+ ,"Lethbridge" \
+ ,"Tharandt" \
+ ,"Vielsalm" \
+ /)
+
+ year_ob = (/"1994-2004" \
+ ,"1997-2003" \
+ ,"1996-2003" \
+ ,"2000-2003" \
+ ,"2002-2005" \
+ ,"1999-2004" \
+ ,"1996-2003" \
+ ,"1998-2003" \
+ /)
+
+ field = (/"CO2 Flux" \
+ ,"Net Radiation" \
+ ,"Latent Heat" \
+ ,"Sensible Heat" \
+ /)
+
+ nstation = dimsizes(station)
+ nmon = 12
+ nfield = dimsizes(field)
+
+ data_mod = new ((/nstation, nfield, nmon/),float)
+ data_ob = new ((/nstation, nfield, nmon/),float)
+ lat_ob = new ((/nstation/),float)
+ lon_ob = new ((/nstation/),float)
+
+ diro_root = "/fis/cgd/cseg/people/jeff/clamp_data/fluxnet/"
+ dirm_root = "/fis/cgd/cseg/people/jeff/clamp_data/model/"
+
+ do n = 0,nstation-1
+
+;-------------------------------------------------
+; get ob data
+
+ diro = diro_root + station(n)+"/"
+ filo = station(n)+"_"+year_ob(n)+"_monthly.nc"
+ fo = addfile (diro+filo,"r")
+
+ print (filo)
+
+ lon_ob(n) = fo->lon
+ lat_ob(n) = fo->lat
+
+ data = fo->CO2_FLUX
+ data_ob(n,0,:) = dim_avg(data(month|:,year|:))
+ delete (data)
+
+ data = fo->RAD_FLUX
+ data_ob(n,1,:) = dim_avg(data(month|:,year|:))
+ delete (data)
+
+ data = fo->LH_FLUX
+ data_ob(n,2,:) = dim_avg(data(month|:,year|:))
+ delete (data)
+
+ data = fo->SH_FLUX
+ data_ob(n,3,:) = dim_avg(data(month|:,year|:))
+ delete (data)
+
+ delete (fo)
+;---------------------------------------------------
+; get model data
+
+ film = model_name+"_"+year_ob(n)+"_MONS_climo.nc"
+ fm = addfile (dirm_root+film,"r")
+
+ print (film)
+
+if (ENERGY .eq. "old") then
+
+ data = fm->NEE
+ data_mod0(0,:,:,:) = data(:,:,:) * factor
+ delete (data)
+
+; data = fm->LATENT
+ data1 = fm->FCEV
+ data2 = fm->FCTR
+ data3 = fm->FGEV
+ data_mod0(2,:,:,:) = data1(:,:,:)+data2(:,:,:)+data3(:,:,:)
+ delete (data1)
+ delete (data2)
+ delete (data3)
+
+; data = fm->SENSIBLE
+ data = fm->FSH
+ data_mod0(3,:,:,:) = data(:,:,:)
+ delete (data)
+
+; data = fm->NETRAD
+ data1 = fm->FSA
+ data2 = fm->FIRA
+ data_mod0(1,:,:,:) = data1(:,:,:)-data2(:,:,:)-data_mod0(2,:,:,:)-data_mod0(3,:,:,:)
+ delete (data1)
+ delete (data2)
+
+else
+
+ data = fm->NEE
+ data_mod0(0,:,:,:) = data(:,:,:) * factor
+ delete (data)
+
+ data = fm->NETRAD
+ data_mod0(1,:,:,:) = data(:,:,:)
+ delete (data)
+
+ data = fm->LATENT
+ data_mod0(2,:,:,:) = data(:,:,:)
+ delete (data)
+
+; data = fm->SENSIBLE
+ data = fm->FSH
+ data_mod0(3,:,:,:) = data(:,:,:)
+ delete (data)
+end if
+
+ delete (fm)
+
+;************************************************************
+; interpolate model data into observed station
+; note: model is 0-360E, 90S-90N
+;************************************************************
+
+; to be able to handle observation at (-89.98,-24.80)
+ ym(0) = -90.
+
+ yy = linint2_points_Wrap(xm,ym,data_mod0,True,lon_ob(n),lat_ob(n),0)
+
+; print (yy)
+
+ data_mod(n,:,:) = yy(:,:,0)
+
+ delete (yy)
+
+ end do
+;************************************************************
+; compute correlation coef and M score
+;************************************************************
+
+ score_max = 5.
+
+ ccr = new ((/nstation, nfield/),float)
+ M_score = new ((/nstation, nfield/),float)
+
+ do n=0,nstation-1
+ do m=0,nfield-1
+ ccr(n,m) = esccr(data_ob(n,m,:),data_mod(n,m,:),0)
+ bias = sum(abs(data_mod(n,m,:)-data_ob(n,m,:))/(abs(data_mod(n,m,:))+abs(data_ob(n,m,:))))
+ M_score(n,m) = (1. -(bias/nmon)) * score_max
+ end do
+ end do
+
+ M_co2 = avg(M_score(:,0))
+ M_rad = avg(M_score(:,1))
+ M_lh = avg(M_score(:,2))
+ M_sh = avg(M_score(:,3))
+ M_all = M_co2+ M_rad +M_lh + M_sh
+
+ M_energy_co2 = sprintf("%.2f", M_co2)
+ M_energy_rad = sprintf("%.2f", M_rad)
+ M_energy_lh = sprintf("%.2f", M_lh )
+ M_energy_sh = sprintf("%.2f", M_sh )
+ M_energy_all = sprintf("%.2f", M_all)
+
+;*******************************************************************
+; for station line plot
+;*******************************************************************
+
+; for x-axis in xyplot
+ mon = ispan(1,12,1)
+ mon@long_name = "month"
+
+ res = True ; plot mods desired
+ res@xyLineThicknesses = (/2.0,2.0/) ; make 2nd lines thicker
+ res@xyLineColors = (/"blue","red"/) ; line color (ob,model)
+;-------------------------------------------------------------------------
+; Add a boxed legend using the more simple method
+
+ res@pmLegendDisplayMode = "Always"
+; res@pmLegendWidthF = 0.1
+ res@pmLegendWidthF = 0.08
+ res@pmLegendHeightF = 0.06
+; res@pmLegendOrthogonalPosF = -1.17
+; res@pmLegendOrthogonalPosF = -1.00 ;(downward)
+ res@pmLegendOrthogonalPosF = -0.30 ;(downward)
+
+; res@pmLegendParallelPosF = 0.18
+ res@pmLegendParallelPosF = 0.23 ;(rightward)
+
+; res@lgPerimOn = False
+ res@lgLabelFontHeightF = 0.015
+ res@xyExplicitLegendLabels = (/"observed",model_name/)
+;-------------------------------------------------------------------
+; for panel plot
+ res@gsnFrame = False ; Do not draw plot
+ res@gsnDraw = False ; Do not advance frame
+
+ pres = True ; panel plot mods desired
+ pres@gsnPanelYWhiteSpacePercent = 5 ; increase white space around
+ ; indiv. plots in panel
+ pres@gsnMaximize = True ; fill the page
+;-------------------------------------------------------------------
+
+ plot_data = new((/2,12/),float)
+ plot_data!0 = "case"
+ plot_data!1 = "month"
+
+ do n = 0,nstation-1
+;----------------------------
+; for observed
+
+ plot_name = station(n)+"_ob"
+ title = station(n)+"("+sprintf("%5.2f",lat_ob(n))+","+sprintf("%5.2f",lon_ob(n))+")"
+ res@tiMainString = title
+
+ wks = gsn_open_wks (plot_type,plot_name)
+ plot=new(4,graphic) ; create graphic array
+
+ plot_data(0,:) = (/data_ob (n,0,:)/)
+ plot_data@long_name = field(0)
+ plot(0)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 1
+
+ plot_data(0,:) = (/data_ob (n,1,:)/)
+ plot_data@long_name = field(1)
+ plot(1)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 2
+
+ plot_data(0,:) = (/data_ob (n,2,:)/)
+ plot_data@long_name = field(2)
+ plot(2)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 3
+
+ plot_data(0,:) = (/data_ob (n,3,:)/)
+ plot_data@long_name = field(3)
+ plot(3)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 4
+
+ gsn_panel(wks,plot,(/2,2/),pres) ; create panel plot
+
+ system("convert "+plot_name+"."+plot_type+" "+plot_name+"."+plot_type_new+";"+ \
+ "rm "+plot_name+"."+plot_type)
+
+ clear (wks)
+ delete (plot)
+;----------------------------
+; for model_vs_ob
+
+ plot_name = station(n)+"_model_vs_ob"
+ title = station(n)+"("+sprintf("%5.2f",lat_ob(n))+","+sprintf("%5.2f",lon_ob(n))+")"
+ res@tiMainString = title
+
+ wks = gsn_open_wks (plot_type,plot_name)
+ plot=new(4,graphic) ; create graphic array
+
+ plot_data(0,:) = (/data_ob (n,0,:)/)
+ plot_data(1,:) = (/data_mod(n,0,:)/)
+ plot_data@long_name = field(0)
+ plot(0)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 1
+
+ plot_data(0,:) = (/data_ob (n,1,:)/)
+ plot_data(1,:) = (/data_mod(n,1,:)/)
+ plot_data@long_name = field(1)
+ plot(1)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 2
+
+ plot_data(0,:) = (/data_ob (n,2,:)/)
+ plot_data(1,:) = (/data_mod(n,2,:)/)
+ plot_data@long_name = field(2)
+ plot(2)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 3
+
+ plot_data(0,:) = (/data_ob (n,3,:)/)
+ plot_data(1,:) = (/data_mod(n,3,:)/)
+ plot_data@long_name = field(3)
+ plot(3)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 4
+
+ gsn_panel(wks,plot,(/2,2/),pres) ; create panel plot
+
+ system("convert "+plot_name+"."+plot_type+" "+plot_name+"."+plot_type_new+";"+ \
+ "rm "+plot_name+"."+plot_type)
+
+ clear (wks)
+ delete (plot)
+ end do
+
+;*******************************************************************
+; html table of site: observed
+;*******************************************************************
+ output_html = "line_ob.html"
+
+ header = (/"" \
+ ,"" \
+ ,"CLAMP metrics" \
+ ,"" \
+ ,"Energy at Site: Observation
" \
+ /)
+ footer = ""
+
+ table_header = (/ \
+ "" \
+ ,"" \
+ ," | Site Name | " \
+ ," Latitude | " \
+ ," Longitude | " \
+ ," Observed | " \
+ ,"
" \
+ /)
+ table_footer = "
"
+ row_header = ""
+ row_footer = "
"
+
+ lines = new(50000,string)
+ nline = 0
+
+ set_line(lines,nline,header)
+ set_line(lines,nline,table_header)
+;-----------------------------------------------
+; row of table
+
+ do n = 0,nstation-1
+ set_line(lines,nline,row_header)
+
+ txt0 = station(n)
+ txt1 = sprintf("%5.2f", lat_ob(n))
+ txt2 = sprintf("%5.2f", lon_ob(n))
+ txt3 = year_ob(n)
+
+ set_line(lines,nline,""+txt0+" | ")
+ set_line(lines,nline,""+txt1+" | ")
+ set_line(lines,nline,""+txt2+" | ")
+ set_line(lines,nline,""+txt3+" | ")
+
+ set_line(lines,nline,row_footer)
+ end do
+;-----------------------------------------------
+ set_line(lines,nline,table_footer)
+ set_line(lines,nline,footer)
+
+; Now write to an HTML file.
+ idx = ind(.not.ismissing(lines))
+ if(.not.any(ismissing(idx))) then
+ asciiwrite(output_html,lines(idx))
+ else
+ print ("error?")
+ end if
+ delete (idx)
+
+;*******************************************************************
+; score and line table : model vs observed
+;*******************************************************************
+ output_html = "score+line_vs_ob.html"
+
+ header = (/"" \
+ ,"" \
+ ,"CLAMP metrics" \
+ ,"" \
+ ,"Energy at Site: Model "+model_name+"
" \
+ /)
+ footer = ""
+
+ delete (table_header)
+ table_header = (/ \
+ "" \
+ ,"" \
+ ," | Site Name | " \
+ ," Latitude | " \
+ ," Longitude | " \
+ ," Observed | " \
+ ," CO2 Flux | " \
+ ," Net Radiation | " \
+ ," Latent Heat | " \
+ ," Sensible Heat | " \
+ ," Average | " \
+ ,"
" \
+ /)
+ table_footer = "
"
+ row_header = ""
+ row_footer = "
"
+
+ lines = new(50000,string)
+ nline = 0
+
+ set_line(lines,nline,header)
+ set_line(lines,nline,table_header)
+;-----------------------------------------------
+; row of table
+
+ do n = 0,nstation-1
+ set_line(lines,nline,row_header)
+
+ txt0 = station(n)
+ txt1 = sprintf("%5.2f", lat_ob(n))
+ txt2 = sprintf("%5.2f", lon_ob(n))
+ txt3 = year_ob(n)
+ txt4 = sprintf("%5.2f", M_score(n,0))
+ txt5 = sprintf("%5.2f", M_score(n,1))
+ txt6 = sprintf("%5.2f", M_score(n,2))
+ txt7 = sprintf("%5.2f", M_score(n,3))
+ txt8 = sprintf("%5.2f", avg(M_score(n,:)))
+
+ set_line(lines,nline,""+txt0+" | ")
+ set_line(lines,nline,""+txt1+" | ")
+ set_line(lines,nline,""+txt2+" | ")
+ set_line(lines,nline,""+txt3+" | ")
+ set_line(lines,nline,""+txt4+" | ")
+ set_line(lines,nline,""+txt5+" | ")
+ set_line(lines,nline,""+txt6+" | ")
+ set_line(lines,nline,""+txt7+" | ")
+ set_line(lines,nline,""+txt8+" | ")
+
+ set_line(lines,nline,row_footer)
+ end do
+
+; last row, summary
+ set_line(lines,nline,row_header)
+
+ txt0 = "All_"+sprintf("%.0f", nstation)
+ txt1 = "-"
+ txt2 = "-"
+ txt3 = "-"
+ txt4 = M_energy_co2
+ txt5 = M_energy_rad
+ txt6 = M_energy_lh
+ txt7 = M_energy_sh
+ txt8 = M_energy_all
+
+ set_line(lines,nline,""+txt0+" | ")
+ set_line(lines,nline,""+txt1+" | ")
+ set_line(lines,nline,""+txt2+" | ")
+ set_line(lines,nline,""+txt3+" | ")
+ set_line(lines,nline,""+txt4+" | ")
+ set_line(lines,nline,""+txt5+" | ")
+ set_line(lines,nline,""+txt6+" | ")
+ set_line(lines,nline,""+txt7+" | ")
+ set_line(lines,nline,""+txt8+" | ")
+
+ set_line(lines,nline,row_footer)
+;-----------------------------------------------
+ set_line(lines,nline,table_footer)
+ set_line(lines,nline,footer)
+
+; Now write to an HTML file.
+ idx = ind(.not.ismissing(lines))
+ if(.not.any(ismissing(idx))) then
+ asciiwrite(output_html,lines(idx))
+ else
+ print ("error?")
+ end if
+ delete (idx)
+
+;***************************************************************************
+; output plots
+;***************************************************************************
+ output_dir = model_name+"/energy"
+
+ system("mv *.png *.html " + output_dir)
+;***************************************************************************
+end