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;************************************************************
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; required command line input parameters:
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; ncl 'model_name="10cn" model_grid="T42" dirm="/.../ film="..."' 01.npp.ncl
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;
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; using gsn_table for all
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; output: line plot for each site (4 fields)
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; table for M_score
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;************************************************************
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load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_code.ncl"
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load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_csm.ncl"
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load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/contributed.ncl"
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;************************************************************
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procedure set_line(lines:string,nline:integer,newlines:string)
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begin
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; add line to ascci/html file
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nnewlines = dimsizes(newlines)
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if(nline+nnewlines-1.ge.dimsizes(lines))
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print("set_line: bad index, not setting anything.")
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return
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end if
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lines(nline:nline+nnewlines-1) = newlines
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; print ("lines = " + lines(nline:nline+nnewlines-1))
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nline = nline + nnewlines
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return
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end
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;*************************************************************
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begin
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plot_type = "ps"
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plot_type_new = "png"
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32 |
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; for 6 fields, 12-monthly
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nmon = 12
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nfield = 6
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;************************************************
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; read model data
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;************************************************
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; model = "cn"
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model = "casa"
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42 |
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model_name = "i01.10" + model
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dirm = "/fis/cgd/cseg/people/jeff/surface_data/"
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film = "lnd_T42.nc"
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fm = addfile(dirm+film,"r")
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48 |
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xm = fm->lon
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ym = fm->lat
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;------------------------------------------------
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nlat = dimsizes(ym)
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nlon = dimsizes(xm)
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54 |
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data_mod0 = new ((/nfield,nmon,nlat,nlon/),float)
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; change to unit of observed (u mol/m2/s)
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; Model_units [=] gC/m2/s
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59 |
; 12. = molecular weight of C
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; u mol = 1e-6 mol
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factor = 1e6 /12.
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62 |
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ENERGY ="new"
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64 |
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;************************************************
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; read data: observed
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;************************************************
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68 |
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station = (/"HarvardForest" \
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|
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/)
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71 |
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year_ob = (/"1991-2004" \
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/)
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74 |
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field = (/"CO2 Flux" \
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,"Net Radiation" \
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,"Latent Heat" \
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,"Sensible Heat" \
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,"GPP Flux" \
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,"Respiration" \
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/)
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nstation = dimsizes(station)
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84 |
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data_mod = new ((/nstation, nfield, nmon/),float)
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data_ob = new ((/nstation, nfield, nmon/),float)
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lat_ob = new ((/nstation/),float)
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lon_ob = new ((/nstation/),float)
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|
89 |
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diro_root = "/fis/cgd/cseg/people/jeff/clamp/ameriflux/"
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dirm_root = "/fis/cgd/cseg/people/jeff/clamp_data/model/"
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92 |
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do n = 0,nstation-1
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;-------------------------------------------------
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; get ob data
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97 |
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diro = diro_root + station(n)+"/"
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filo = station(n)+"_"+year_ob(n)+"_monthly.nc"
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fo = addfile (diro+filo,"r")
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print (filo)
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lon_ob(n) = fo->lon
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lat_ob(n) = fo->lat
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data = fo->NEE_or_fMDS
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data_ob(n,0,:) = dim_avg(data(month|:,year|:))
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delete (data)
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data = fo->Rg_f
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data_ob(n,1,:) = dim_avg(data(month|:,year|:))
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delete (data)
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data = fo->LE_f
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data_ob(n,2,:) = dim_avg(data(month|:,year|:))
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delete (data)
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118 |
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data = fo->H_f
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data_ob(n,3,:) = dim_avg(data(month|:,year|:))
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delete (data)
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data = fo->GPP_or_MDS
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data_ob(n,4,:) = dim_avg(data(month|:,year|:))
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delete (data)
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data = fo->Reco_or
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data_ob(n,5,:) = dim_avg(data(month|:,year|:))
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delete (data)
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delete (fo)
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;---------------------------------------------------
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; get model data
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film = model_name+"_"+year_ob(n)+"_MONS_climo.nc"
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fm = addfile (dirm_root+film,"r")
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137 |
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print (film)
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139 |
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if (ENERGY .eq. "old") then
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data = fm->NEE
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data_mod0(0,:,:,:) = data(:,:,:) * factor
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delete (data)
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; data = fm->LATENT
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data1 = fm->FCEV
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data2 = fm->FCTR
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data3 = fm->FGEV
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data_mod0(2,:,:,:) = data1(:,:,:)+data2(:,:,:)+data3(:,:,:)
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delete (data1)
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delete (data2)
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delete (data3)
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; data = fm->SENSIBLE
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data = fm->FSH
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data_mod0(3,:,:,:) = data(:,:,:)
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delete (data)
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; data = fm->NETRAD
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data1 = fm->FSA
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data2 = fm->FIRA
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data_mod0(1,:,:,:) = data1(:,:,:)-data2(:,:,:)-data_mod0(2,:,:,:)-data_mod0(3,:,:,:)
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delete (data1)
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delete (data2)
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else
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data = fm->NEE
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data_mod0(0,:,:,:) = data(:,:,:) * factor
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delete (data)
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data = fm->NETRAD
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data_mod0(1,:,:,:) = data(:,:,:)
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delete (data)
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176 |
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data = fm->LATENT
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data_mod0(2,:,:,:) = data(:,:,:)
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delete (data)
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; data = fm->SENSIBLE
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data = fm->FSH
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data_mod0(3,:,:,:) = data(:,:,:)
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delete (data)
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end if
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data = fm->GPP
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data_mod0(4,:,:,:) = data(:,:,:) * factor
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189 |
delete (data)
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190 |
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191 |
if (model .eq. "cn") then
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data = fm->ER
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193 |
else
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|
194 |
data1 = fm->AR
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data2 = fm->HR
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data = data1 + data2
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197 |
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198 |
delete (data1)
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|
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delete (data2)
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|
200 |
end if
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|
201 |
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data_mod0(5,:,:,:) = data(:,:,:) * factor
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delete (data)
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delete (fm)
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;************************************************************
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; interpolate model data into observed station
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; note: model is 0-360E, 90S-90N
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;************************************************************
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|
211 |
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; to be able to handle observation at (-89.98,-24.80)
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ym(0) = -90.
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214 |
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215 |
yy = linint2_points_Wrap(xm,ym,data_mod0,True,lon_ob(n),lat_ob(n),0)
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216 |
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; print (yy)
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218 |
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219 |
data_mod(n,:,:) = yy(:,:,0)
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220 |
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221 |
delete (yy)
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222 |
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|
223 |
end do
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;************************************************************
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; compute correlation coef and M score
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226 |
;************************************************************
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227 |
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|
228 |
score_max = 5.
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|
229 |
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230 |
ccr = new ((/nstation, nfield/),float)
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|
231 |
M_score = new ((/nstation, nfield/),float)
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|
232 |
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233 |
do n=0,nstation-1
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|
234 |
do m=0,nfield-1
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|
235 |
ccr(n,m) = esccr(data_ob(n,m,:),data_mod(n,m,:),0)
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236 |
bias = sum(abs(data_mod(n,m,:)-data_ob(n,m,:))/(abs(data_mod(n,m,:))+abs(data_ob(n,m,:))))
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237 |
M_score(n,m) = (1. -(bias/nmon)) * score_max
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238 |
end do
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|
239 |
end do
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|
240 |
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|
241 |
M_co2 = avg(M_score(:,0))
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|
242 |
M_rad = avg(M_score(:,1))
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|
243 |
M_lh = avg(M_score(:,2))
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|
244 |
M_sh = avg(M_score(:,3))
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|
245 |
M_gpp = avg(M_score(:,4))
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|
246 |
M_er = avg(M_score(:,5))
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|
247 |
M_all = M_co2+ M_rad +M_lh + M_sh + M_gpp + M_er
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|
248 |
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|
249 |
M_energy_co2 = sprintf("%.2f", M_co2)
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|
250 |
M_energy_rad = sprintf("%.2f", M_rad)
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|
251 |
M_energy_lh = sprintf("%.2f", M_lh )
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|
252 |
M_energy_sh = sprintf("%.2f", M_sh )
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|
253 |
M_energy_gpp = sprintf("%.2f", M_gpp)
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|
254 |
M_energy_er = sprintf("%.2f", M_er )
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|
255 |
M_energy_all = sprintf("%.2f", M_all)
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|
256 |
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|
257 |
;*******************************************************************
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|
258 |
; for station line plot
|
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|
259 |
;*******************************************************************
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|
260 |
|
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|
261 |
; for x-axis in xyplot
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|
262 |
mon = ispan(1,12,1)
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|
263 |
mon@long_name = "month"
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|
264 |
|
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|
265 |
res = True ; plot mods desired
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|
266 |
res@xyLineThicknesses = (/2.0,2.0/) ; make 2nd lines thicker
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|
267 |
res@xyLineColors = (/"blue","red"/) ; line color (ob,model)
|
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|
268 |
;-------------------------------------------------------------------------
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|
269 |
; Add a boxed legend using the more simple method
|
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|
270 |
|
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|
271 |
res@pmLegendDisplayMode = "Always"
|
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|
272 |
; res@pmLegendWidthF = 0.1
|
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|
273 |
res@pmLegendWidthF = 0.08
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|
274 |
res@pmLegendHeightF = 0.06
|
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|
275 |
; res@pmLegendOrthogonalPosF = -1.17
|
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|
276 |
; res@pmLegendOrthogonalPosF = -1.00 ;(downward)
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|
277 |
res@pmLegendOrthogonalPosF = -0.30 ;(downward)
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|
278 |
|
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|
279 |
; res@pmLegendParallelPosF = 0.18
|
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|
280 |
res@pmLegendParallelPosF = 0.23 ;(rightward)
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|
281 |
|
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|
282 |
; res@lgPerimOn = False
|
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|
283 |
res@lgLabelFontHeightF = 0.015
|
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|
284 |
res@xyExplicitLegendLabels = (/"observed",model_name/)
|
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|
285 |
;-------------------------------------------------------------------
|
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|
286 |
; for panel plot
|
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|
287 |
res@gsnFrame = False ; Do not draw plot
|
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|
288 |
res@gsnDraw = False ; Do not advance frame
|
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|
289 |
|
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|
290 |
pres = True ; panel plot mods desired
|
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|
291 |
pres@gsnPanelYWhiteSpacePercent = 5 ; increase white space around
|
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|
292 |
; indiv. plots in panel
|
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|
293 |
pres@gsnMaximize = True ; fill the page
|
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|
294 |
;-------------------------------------------------------------------
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|
295 |
|
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|
296 |
plot_data = new((/2,12/),float)
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|
297 |
plot_data!0 = "case"
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|
298 |
plot_data!1 = "month"
|
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|
299 |
|
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|
300 |
do n = 0,nstation-1
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|
301 |
;----------------------------
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|
302 |
; for observed
|
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|
303 |
|
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|
304 |
plot_name = station(n)+"_ob"
|
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|
305 |
title = station(n)+"("+sprintf("%5.2f",lat_ob(n))+","+sprintf("%5.2f",lon_ob(n))+")"
|
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|
306 |
res@tiMainString = title
|
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|
307 |
|
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|
308 |
wks = gsn_open_wks (plot_type,plot_name)
|
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|
309 |
plot=new(nfield,graphic) ; create graphic array
|
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|
310 |
|
forrest@0
|
311 |
plot_data(0,:) = (/data_ob (n,0,:)/)
|
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|
312 |
plot_data@long_name = field(0)
|
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|
313 |
plot(0)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 1
|
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|
314 |
|
forrest@0
|
315 |
plot_data(0,:) = (/data_ob (n,1,:)/)
|
forrest@0
|
316 |
plot_data@long_name = field(1)
|
forrest@0
|
317 |
plot(1)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 2
|
forrest@0
|
318 |
|
forrest@0
|
319 |
plot_data(0,:) = (/data_ob (n,2,:)/)
|
forrest@0
|
320 |
plot_data@long_name = field(2)
|
forrest@0
|
321 |
plot(2)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 3
|
forrest@0
|
322 |
|
forrest@0
|
323 |
plot_data(0,:) = (/data_ob (n,3,:)/)
|
forrest@0
|
324 |
plot_data@long_name = field(3)
|
forrest@0
|
325 |
plot(3)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 4
|
forrest@0
|
326 |
|
forrest@0
|
327 |
plot_data(0,:) = (/data_ob (n,4,:)/)
|
forrest@0
|
328 |
plot_data@long_name = field(4)
|
forrest@0
|
329 |
plot(4)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 5
|
forrest@0
|
330 |
|
forrest@0
|
331 |
plot_data(0,:) = (/data_ob (n,5,:)/)
|
forrest@0
|
332 |
plot_data@long_name = field(5)
|
forrest@0
|
333 |
plot(5)=gsn_csm_xy(wks,mon,plot_data(0,:),res) ; create plot 6
|
forrest@0
|
334 |
|
forrest@0
|
335 |
gsn_panel(wks,plot,(/3,2/),pres) ; create panel plot
|
forrest@0
|
336 |
|
forrest@0
|
337 |
system("convert "+plot_name+"."+plot_type+" "+plot_name+"."+plot_type_new+";"+ \
|
forrest@0
|
338 |
"rm "+plot_name+"."+plot_type)
|
forrest@0
|
339 |
|
forrest@0
|
340 |
clear (wks)
|
forrest@0
|
341 |
delete (plot)
|
forrest@0
|
342 |
;----------------------------
|
forrest@0
|
343 |
; for model_vs_ob
|
forrest@0
|
344 |
|
forrest@0
|
345 |
plot_name = station(n)+"_model_vs_ob"
|
forrest@0
|
346 |
title = station(n)+"("+sprintf("%5.2f",lat_ob(n))+","+sprintf("%5.2f",lon_ob(n))+")"
|
forrest@0
|
347 |
res@tiMainString = title
|
forrest@0
|
348 |
|
forrest@0
|
349 |
wks = gsn_open_wks (plot_type,plot_name)
|
forrest@0
|
350 |
plot=new(nfield,graphic) ; create graphic array
|
forrest@0
|
351 |
|
forrest@0
|
352 |
plot_data(0,:) = (/data_ob (n,0,:)/)
|
forrest@0
|
353 |
plot_data(1,:) = (/data_mod(n,0,:)/)
|
forrest@0
|
354 |
plot_data@long_name = field(0)
|
forrest@0
|
355 |
plot(0)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 1
|
forrest@0
|
356 |
|
forrest@0
|
357 |
plot_data(0,:) = (/data_ob (n,1,:)/)
|
forrest@0
|
358 |
plot_data(1,:) = (/data_mod(n,1,:)/)
|
forrest@0
|
359 |
plot_data@long_name = field(1)
|
forrest@0
|
360 |
plot(1)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 2
|
forrest@0
|
361 |
|
forrest@0
|
362 |
plot_data(0,:) = (/data_ob (n,2,:)/)
|
forrest@0
|
363 |
plot_data(1,:) = (/data_mod(n,2,:)/)
|
forrest@0
|
364 |
plot_data@long_name = field(2)
|
forrest@0
|
365 |
plot(2)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 3
|
forrest@0
|
366 |
|
forrest@0
|
367 |
plot_data(0,:) = (/data_ob (n,3,:)/)
|
forrest@0
|
368 |
plot_data(1,:) = (/data_mod(n,3,:)/)
|
forrest@0
|
369 |
plot_data@long_name = field(3)
|
forrest@0
|
370 |
plot(3)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 4
|
forrest@0
|
371 |
|
forrest@0
|
372 |
|
forrest@0
|
373 |
plot_data(0,:) = (/data_ob (n,4,:)/)
|
forrest@0
|
374 |
plot_data(1,:) = (/data_mod(n,4,:)/)
|
forrest@0
|
375 |
plot_data@long_name = field(4)
|
forrest@0
|
376 |
plot(4)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 5
|
forrest@0
|
377 |
|
forrest@0
|
378 |
|
forrest@0
|
379 |
plot_data(0,:) = (/data_ob (n,5,:)/)
|
forrest@0
|
380 |
plot_data(1,:) = (/data_mod(n,5,:)/)
|
forrest@0
|
381 |
plot_data@long_name = field(5)
|
forrest@0
|
382 |
plot(5)=gsn_csm_xy(wks,mon,plot_data,res) ; create plot 6
|
forrest@0
|
383 |
|
forrest@0
|
384 |
gsn_panel(wks,plot,(/3,2/),pres) ; create panel plot
|
forrest@0
|
385 |
|
forrest@0
|
386 |
system("convert "+plot_name+"."+plot_type+" "+plot_name+"."+plot_type_new+";"+ \
|
forrest@0
|
387 |
"rm "+plot_name+"."+plot_type)
|
forrest@0
|
388 |
|
forrest@0
|
389 |
clear (wks)
|
forrest@0
|
390 |
delete (plot)
|
forrest@0
|
391 |
end do
|
forrest@0
|
392 |
|
forrest@0
|
393 |
;*******************************************************************
|
forrest@0
|
394 |
; html table of site: observed
|
forrest@0
|
395 |
;*******************************************************************
|
forrest@0
|
396 |
output_html = "line_ob.html"
|
forrest@0
|
397 |
|
forrest@0
|
398 |
header = (/"<HTML>" \
|
forrest@0
|
399 |
,"<HEAD>" \
|
forrest@0
|
400 |
,"<TITLE>CLAMP metrics</TITLE>" \
|
forrest@0
|
401 |
,"</HEAD>" \
|
forrest@0
|
402 |
,"<H1>Energy at Site: Observation</H1>" \
|
forrest@0
|
403 |
/)
|
forrest@0
|
404 |
footer = "</HTML>"
|
forrest@0
|
405 |
|
forrest@0
|
406 |
table_header = (/ \
|
forrest@0
|
407 |
"<table border=1 cellspacing=0 cellpadding=3 width=60%>" \
|
forrest@0
|
408 |
,"<tr>" \
|
forrest@0
|
409 |
," <th bgcolor=DDDDDD >Site Name</th>" \
|
forrest@0
|
410 |
," <th bgcolor=DDDDDD >Latitude</th>" \
|
forrest@0
|
411 |
," <th bgcolor=DDDDDD >Longitude</th>" \
|
forrest@0
|
412 |
," <th bgcolor=DDDDDD >Observed</th>" \
|
forrest@0
|
413 |
,"</tr>" \
|
forrest@0
|
414 |
/)
|
forrest@0
|
415 |
table_footer = "</table>"
|
forrest@0
|
416 |
row_header = "<tr>"
|
forrest@0
|
417 |
row_footer = "</tr>"
|
forrest@0
|
418 |
|
forrest@0
|
419 |
lines = new(50000,string)
|
forrest@0
|
420 |
nline = 0
|
forrest@0
|
421 |
|
forrest@0
|
422 |
set_line(lines,nline,header)
|
forrest@0
|
423 |
set_line(lines,nline,table_header)
|
forrest@0
|
424 |
;-----------------------------------------------
|
forrest@0
|
425 |
; row of table
|
forrest@0
|
426 |
|
forrest@0
|
427 |
do n = 0,nstation-1
|
forrest@0
|
428 |
set_line(lines,nline,row_header)
|
forrest@0
|
429 |
|
forrest@0
|
430 |
txt0 = station(n)
|
forrest@0
|
431 |
txt1 = sprintf("%5.2f", lat_ob(n))
|
forrest@0
|
432 |
txt2 = sprintf("%5.2f", lon_ob(n))
|
forrest@0
|
433 |
txt3 = year_ob(n)
|
forrest@0
|
434 |
|
forrest@0
|
435 |
set_line(lines,nline,"<th><a href="+txt0+"_ob.png>"+txt0+"</a></th>")
|
forrest@0
|
436 |
set_line(lines,nline,"<th>"+txt1+"</th>")
|
forrest@0
|
437 |
set_line(lines,nline,"<th>"+txt2+"</th>")
|
forrest@0
|
438 |
set_line(lines,nline,"<th>"+txt3+"</th>")
|
forrest@0
|
439 |
|
forrest@0
|
440 |
set_line(lines,nline,row_footer)
|
forrest@0
|
441 |
end do
|
forrest@0
|
442 |
;-----------------------------------------------
|
forrest@0
|
443 |
set_line(lines,nline,table_footer)
|
forrest@0
|
444 |
set_line(lines,nline,footer)
|
forrest@0
|
445 |
|
forrest@0
|
446 |
; Now write to an HTML file.
|
forrest@0
|
447 |
idx = ind(.not.ismissing(lines))
|
forrest@0
|
448 |
if(.not.any(ismissing(idx))) then
|
forrest@0
|
449 |
asciiwrite(output_html,lines(idx))
|
forrest@0
|
450 |
else
|
forrest@0
|
451 |
print ("error?")
|
forrest@0
|
452 |
end if
|
forrest@0
|
453 |
delete (idx)
|
forrest@0
|
454 |
|
forrest@0
|
455 |
;*******************************************************************
|
forrest@0
|
456 |
; score and line table : model vs observed
|
forrest@0
|
457 |
;*******************************************************************
|
forrest@0
|
458 |
output_html = "score+line_vs_ob.html"
|
forrest@0
|
459 |
|
forrest@0
|
460 |
header = (/"<HTML>" \
|
forrest@0
|
461 |
,"<HEAD>" \
|
forrest@0
|
462 |
,"<TITLE>CLAMP metrics</TITLE>" \
|
forrest@0
|
463 |
,"</HEAD>" \
|
forrest@0
|
464 |
,"<H1>Energy at Site: Model "+model_name+"</H1>" \
|
forrest@0
|
465 |
/)
|
forrest@0
|
466 |
footer = "</HTML>"
|
forrest@0
|
467 |
|
forrest@0
|
468 |
delete (table_header)
|
forrest@0
|
469 |
table_header = (/ \
|
forrest@0
|
470 |
"<table border=1 cellspacing=0 cellpadding=3 width=100%>" \
|
forrest@0
|
471 |
,"<tr>" \
|
forrest@0
|
472 |
," <th bgcolor=DDDDDD >Site Name</th>" \
|
forrest@0
|
473 |
," <th bgcolor=DDDDDD >Latitude</th>" \
|
forrest@0
|
474 |
," <th bgcolor=DDDDDD >Longitude</th>" \
|
forrest@0
|
475 |
," <th bgcolor=DDDDDD >Observed</th>" \
|
forrest@0
|
476 |
," <th bgcolor=DDDDDD >CO2 Flux</th>" \
|
forrest@0
|
477 |
," <th bgcolor=DDDDDD >Net Radiation</th>" \
|
forrest@0
|
478 |
," <th bgcolor=DDDDDD >Latent Heat</th>" \
|
forrest@0
|
479 |
," <th bgcolor=DDDDDD >Sensible Heat</th>" \
|
forrest@0
|
480 |
," <th bgcolor=DDDDDD >GPP Glux</th>" \
|
forrest@0
|
481 |
," <th bgcolor=DDDDDD >Respiration</th>" \
|
forrest@0
|
482 |
," <th bgcolor=DDDDDD >Average</th>" \
|
forrest@0
|
483 |
,"</tr>" \
|
forrest@0
|
484 |
/)
|
forrest@0
|
485 |
table_footer = "</table>"
|
forrest@0
|
486 |
row_header = "<tr>"
|
forrest@0
|
487 |
row_footer = "</tr>"
|
forrest@0
|
488 |
|
forrest@0
|
489 |
lines = new(50000,string)
|
forrest@0
|
490 |
nline = 0
|
forrest@0
|
491 |
|
forrest@0
|
492 |
set_line(lines,nline,header)
|
forrest@0
|
493 |
set_line(lines,nline,table_header)
|
forrest@0
|
494 |
;-----------------------------------------------
|
forrest@0
|
495 |
; row of table
|
forrest@0
|
496 |
|
forrest@0
|
497 |
do n = 0,nstation-1
|
forrest@0
|
498 |
set_line(lines,nline,row_header)
|
forrest@0
|
499 |
|
forrest@0
|
500 |
txt0 = station(n)
|
forrest@0
|
501 |
txt1 = sprintf("%5.2f", lat_ob(n))
|
forrest@0
|
502 |
txt2 = sprintf("%5.2f", lon_ob(n))
|
forrest@0
|
503 |
txt3 = year_ob(n)
|
forrest@0
|
504 |
txt4 = sprintf("%5.2f", M_score(n,0))
|
forrest@0
|
505 |
txt5 = sprintf("%5.2f", M_score(n,1))
|
forrest@0
|
506 |
txt6 = sprintf("%5.2f", M_score(n,2))
|
forrest@0
|
507 |
txt7 = sprintf("%5.2f", M_score(n,3))
|
forrest@0
|
508 |
txt8 = sprintf("%5.2f", M_score(n,4))
|
forrest@0
|
509 |
txt9 = sprintf("%5.2f", M_score(n,5))
|
forrest@0
|
510 |
txt10 = sprintf("%5.2f", avg(M_score(n,:)))
|
forrest@0
|
511 |
|
forrest@0
|
512 |
set_line(lines,nline,"<th><a href="+txt0+"_model_vs_ob.png>"+txt0+"</a></th>")
|
forrest@0
|
513 |
set_line(lines,nline,"<th>"+txt1+"</th>")
|
forrest@0
|
514 |
set_line(lines,nline,"<th>"+txt2+"</th>")
|
forrest@0
|
515 |
set_line(lines,nline,"<th>"+txt3+"</th>")
|
forrest@0
|
516 |
set_line(lines,nline,"<th>"+txt4+"</th>")
|
forrest@0
|
517 |
set_line(lines,nline,"<th>"+txt5+"</th>")
|
forrest@0
|
518 |
set_line(lines,nline,"<th>"+txt6+"</th>")
|
forrest@0
|
519 |
set_line(lines,nline,"<th>"+txt7+"</th>")
|
forrest@0
|
520 |
set_line(lines,nline,"<th>"+txt8+"</th>")
|
forrest@0
|
521 |
set_line(lines,nline,"<th>"+txt9+"</th>")
|
forrest@0
|
522 |
set_line(lines,nline,"<th>"+txt10+"</th>")
|
forrest@0
|
523 |
|
forrest@0
|
524 |
set_line(lines,nline,row_footer)
|
forrest@0
|
525 |
end do
|
forrest@0
|
526 |
|
forrest@0
|
527 |
; last row, summary
|
forrest@0
|
528 |
set_line(lines,nline,row_header)
|
forrest@0
|
529 |
|
forrest@0
|
530 |
txt0 = "All_"+sprintf("%.0f", nstation)
|
forrest@0
|
531 |
txt1 = "-"
|
forrest@0
|
532 |
txt2 = "-"
|
forrest@0
|
533 |
txt3 = "-"
|
forrest@0
|
534 |
txt4 = M_energy_co2
|
forrest@0
|
535 |
txt5 = M_energy_rad
|
forrest@0
|
536 |
txt6 = M_energy_lh
|
forrest@0
|
537 |
txt7 = M_energy_sh
|
forrest@0
|
538 |
txt8 = M_energy_gpp
|
forrest@0
|
539 |
txt9 = M_energy_er
|
forrest@0
|
540 |
txt10 = M_energy_all
|
forrest@0
|
541 |
|
forrest@0
|
542 |
set_line(lines,nline,"<th>"+txt0+"</th>")
|
forrest@0
|
543 |
set_line(lines,nline,"<th>"+txt1+"</th>")
|
forrest@0
|
544 |
set_line(lines,nline,"<th>"+txt2+"</th>")
|
forrest@0
|
545 |
set_line(lines,nline,"<th>"+txt3+"</th>")
|
forrest@0
|
546 |
set_line(lines,nline,"<th>"+txt4+"</th>")
|
forrest@0
|
547 |
set_line(lines,nline,"<th>"+txt5+"</th>")
|
forrest@0
|
548 |
set_line(lines,nline,"<th>"+txt6+"</th>")
|
forrest@0
|
549 |
set_line(lines,nline,"<th>"+txt7+"</th>")
|
forrest@0
|
550 |
set_line(lines,nline,"<th>"+txt8+"</th>")
|
forrest@0
|
551 |
set_line(lines,nline,"<th>"+txt9+"</th>")
|
forrest@0
|
552 |
set_line(lines,nline,"<th>"+txt10+"</th>")
|
forrest@0
|
553 |
|
forrest@0
|
554 |
set_line(lines,nline,row_footer)
|
forrest@0
|
555 |
;-----------------------------------------------
|
forrest@0
|
556 |
set_line(lines,nline,table_footer)
|
forrest@0
|
557 |
set_line(lines,nline,footer)
|
forrest@0
|
558 |
|
forrest@0
|
559 |
; Now write to an HTML file.
|
forrest@0
|
560 |
idx = ind(.not.ismissing(lines))
|
forrest@0
|
561 |
if(.not.any(ismissing(idx))) then
|
forrest@0
|
562 |
asciiwrite(output_html,lines(idx))
|
forrest@0
|
563 |
else
|
forrest@0
|
564 |
print ("error?")
|
forrest@0
|
565 |
end if
|
forrest@0
|
566 |
delete (idx)
|
forrest@0
|
567 |
|
forrest@0
|
568 |
;***************************************************************************
|
forrest@0
|
569 |
; output plots
|
forrest@0
|
570 |
;***************************************************************************
|
forrest@0
|
571 |
output_dir = model_name+"/ameriflux"
|
forrest@0
|
572 |
|
forrest@0
|
573 |
system("mv *.png *.html " + output_dir)
|
forrest@0
|
574 |
;***************************************************************************
|
forrest@0
|
575 |
end
|