|
1 ;******************************************************** |
|
2 ; hardwire: flux = flux/1200. (for casa only) |
|
3 ;************************************************************** |
|
4 load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_code.ncl" |
|
5 load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_csm.ncl" |
|
6 load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/contributed.ncl" |
|
7 ;************************************************************** |
|
8 procedure set_line(lines:string,nline:integer,newlines:string) |
|
9 begin |
|
10 ; add line to ascci/html file |
|
11 |
|
12 nnewlines = dimsizes(newlines) |
|
13 if(nline+nnewlines-1.ge.dimsizes(lines)) |
|
14 print("set_line: bad index, not setting anything.") |
|
15 return |
|
16 end if |
|
17 lines(nline:nline+nnewlines-1) = newlines |
|
18 ; print ("lines = " + lines(nline:nline+nnewlines-1)) |
|
19 nline = nline + nnewlines |
|
20 return |
|
21 end |
|
22 ;************************************************************** |
|
23 ; Main code. |
|
24 begin |
|
25 |
|
26 plot_type = "ps" |
|
27 plot_type_new = "png" |
|
28 |
|
29 ;------------------------------------------------------ |
|
30 ; edit table.html of current model for movel1_vs_model2 |
|
31 |
|
32 if (isvar("compare")) then |
|
33 html_name2 = compare+"/table.html" |
|
34 html_new2 = html_name2 +".new" |
|
35 end if |
|
36 |
|
37 ;------------------------------------------------------ |
|
38 ; edit table.html for current model |
|
39 |
|
40 html_name = model_name+"/table.html" |
|
41 html_new = html_name +".new" |
|
42 |
|
43 ;--------------------------------------------------------------- |
|
44 ;components |
|
45 |
|
46 component = (/"Leaf","Wood","Fine_Root","Litter","Coarse_Woody_Debris","Soil"/) |
|
47 n_comp = dimsizes(component) |
|
48 |
|
49 field_pool = (/"LEAFC","WOODC","FROOTC","LITTERC","CWDC","SOILC"/) |
|
50 field_flux = (/"LEAFC_ALLOC","WOODC_ALLOC","FROOTC_ALLOC","LITTERC_LOSS","CWDC_LOSS","SOILC_HR"/) |
|
51 |
|
52 ;-------------------------------------------------- |
|
53 ; get landfrac data |
|
54 |
|
55 film_l = "lnd_"+ model_grid +".nc" |
|
56 fm_l = addfile (dirs+film_l,"r") |
|
57 landfrac = fm_l->landfrac |
|
58 |
|
59 delete (fm_l) |
|
60 ;--------------------------------------------------- |
|
61 ; read biome data: model |
|
62 |
|
63 biome_name_mod = "Model PFT Class" |
|
64 |
|
65 film_c = "class_pft_"+ model_grid +".nc" |
|
66 fm_c = addfile (dirs+film_c,"r") |
|
67 classmod = fm_c->CLASS_PFT |
|
68 |
|
69 delete (fm_c) |
|
70 |
|
71 ; model data has 17 land-type classes |
|
72 nclass_mod = 17 |
|
73 |
|
74 ;******************************************************************** |
|
75 ; use land-type class to bin the data in equally spaced ranges |
|
76 ;******************************************************************** |
|
77 |
|
78 ; using model biome class |
|
79 nclass = nclass_mod |
|
80 |
|
81 range = fspan(0,nclass,nclass+1) |
|
82 |
|
83 ; Use this range information to grab all the values in a |
|
84 ; particular range, and then take an average. |
|
85 |
|
86 nx = dimsizes(range) - 1 |
|
87 |
|
88 ; for 2 data: pool and flux |
|
89 data_n = 2 |
|
90 |
|
91 ; using model biome class |
|
92 |
|
93 base = ndtooned(classmod) |
|
94 |
|
95 ; output |
|
96 |
|
97 yvalues = new((/data_n,nx/),float) |
|
98 count = new((/data_n,nx/),float) |
|
99 |
|
100 ;-------------------------------------------------- |
|
101 ; read model data, each component: |
|
102 |
|
103 fm = addfile (dirm+film4,"r") |
|
104 |
|
105 do k = 0,n_comp-1 |
|
106 |
|
107 pool = fm->$field_pool(k)$ |
|
108 flux = fm->$field_flux(k)$ |
|
109 |
|
110 ; Units for these variables are: |
|
111 ; pool: g C/m^2 |
|
112 ; flux: g C/m^2/s |
|
113 |
|
114 nsec_per_year = 60*60*24*365 |
|
115 |
|
116 flux = flux * nsec_per_year |
|
117 |
|
118 unit_p = "gC/m2" |
|
119 unit_f = "gC/m2/year" |
|
120 unit_t = "year" |
|
121 |
|
122 ;############################################################# |
|
123 ; casa only |
|
124 ; all the plant pools (leaf, wood, and fine root) and |
|
125 ; coarse woody debris (cwd) and litter pools for |
|
126 ; CASA need to be divided by 1200. The soil flux |
|
127 ; and turnover time are fine and do not need to be adjusted. |
|
128 |
|
129 if (BGC .eq. "casa") then |
|
130 if (k .ne. n_comp-1) then |
|
131 flux = flux/1200. |
|
132 end if |
|
133 end if |
|
134 ;############################################################## |
|
135 |
|
136 ; take into account landfrac |
|
137 |
|
138 pool = pool * conform(pool,landfrac,(/1,2/)) |
|
139 flux = flux * conform(flux,landfrac,(/1,2/)) |
|
140 |
|
141 ; Loop through each range, using base |
|
142 |
|
143 do i=0,nx-1 |
|
144 |
|
145 if (i.ne.(nx-1)) then |
|
146 idx = ind((base.ge.range(i)).and.(base.lt.range(i+1))) |
|
147 else |
|
148 idx = ind(base.ge.range(i)) |
|
149 end if |
|
150 |
|
151 ; loop through each dataset |
|
152 |
|
153 do n = 0,data_n-1 |
|
154 |
|
155 if (n .eq. 0) then |
|
156 data = ndtooned(pool) |
|
157 end if |
|
158 |
|
159 if (n .eq. 1) then |
|
160 data = ndtooned(flux) |
|
161 end if |
|
162 |
|
163 ; Calculate average |
|
164 |
|
165 if (.not.any(ismissing(idx))) then |
|
166 yvalues(n,i) = avg(data(idx)) |
|
167 count(n,i) = dimsizes(idx) |
|
168 else |
|
169 yvalues(n,i) = yvalues@_FillValue |
|
170 count(n,i) = 0 |
|
171 end if |
|
172 |
|
173 ;############################################################# |
|
174 ; using model biome class: |
|
175 ; |
|
176 ; set the following 4 classes to _FillValue: |
|
177 ; (3)Needleleaf Deciduous Boreal Tree, |
|
178 ; (8)Broadleaf Deciduous Boreal Tree, |
|
179 ; (9)Broadleaf Evergreen Shrub, |
|
180 ; (16)Wheat |
|
181 |
|
182 if (i.eq.3 .or. i.eq.8 .or. i.eq.9 .or. i.eq.16) then |
|
183 yvalues(n,i) = yvalues@_FillValue |
|
184 count(n,i) = 0 |
|
185 end if |
|
186 ;############################################################# |
|
187 |
|
188 delete(data) |
|
189 end do ; n-loop |
|
190 |
|
191 delete(idx) |
|
192 end do ; i-loop |
|
193 |
|
194 delete (pool) |
|
195 delete (flux) |
|
196 |
|
197 ;============================ |
|
198 ;compute turnover time |
|
199 ;============================ |
|
200 |
|
201 u = yvalues(0,:) |
|
202 v = yvalues(1,:) |
|
203 u_count = count(0,:) |
|
204 v_count = count(1,:) |
|
205 |
|
206 good = ind(.not.ismissing(u) .and. .not.ismissing(v)) |
|
207 |
|
208 uu = u(good) |
|
209 vv = v(good) |
|
210 uu_count = u_count(good) |
|
211 vv_count = v_count(good) |
|
212 |
|
213 n_biome = dimsizes(uu) |
|
214 t_biome = new((/n_biome/),float) |
|
215 |
|
216 t_biome = uu/vv |
|
217 |
|
218 t_biome_avg = sum(uu*uu_count)/sum(vv*vv_count) |
|
219 |
|
220 ;=========================== |
|
221 ; for html table - biome |
|
222 ;=========================== |
|
223 |
|
224 output_html = "table_"+component(k)+".html" |
|
225 |
|
226 ; column (not including header column) |
|
227 |
|
228 col_head = (/component(k)+" Flux",component(k)+" Pool",component(k)+" Turnover Time"/) |
|
229 |
|
230 ncol = dimsizes(col_head) |
|
231 |
|
232 ; row (not including header row) |
|
233 |
|
234 ;---------------------------------------------------- |
|
235 ; using model biome class: |
|
236 row_head = (/"Not Vegetated" \ |
|
237 ,"Needleleaf Evergreen Temperate Tree" \ |
|
238 ,"Needleleaf Evergreen Boreal Tree" \ |
|
239 ; ,"Needleleaf Deciduous Boreal Tree" \ |
|
240 ,"Broadleaf Evergreen Tropical Tree" \ |
|
241 ,"Broadleaf Evergreen Temperate Tree" \ |
|
242 ,"Broadleaf Deciduous Tropical Tree" \ |
|
243 ,"Broadleaf Deciduous Temperate Tree" \ |
|
244 ; ,"Broadleaf Deciduous Boreal Tree" \ |
|
245 ; ,"Broadleaf Evergreen Shrub" \ |
|
246 ,"Broadleaf Deciduous Temperate Shrub" \ |
|
247 ,"Broadleaf Deciduous Boreal Shrub" \ |
|
248 ,"C3 Arctic Grass" \ |
|
249 ,"C3 Non-Arctic Grass" \ |
|
250 ,"C4 Grass" \ |
|
251 ,"Corn" \ |
|
252 ; ,"Wheat" \ |
|
253 ,"All Biome" \ |
|
254 /) |
|
255 nrow = dimsizes(row_head) |
|
256 |
|
257 ; arrays to be passed to table. |
|
258 text = new ((/nrow, ncol/),string ) |
|
259 |
|
260 do i=0,nrow-2 |
|
261 text(i,0) = sprintf("%.1f",vv(i)) |
|
262 text(i,1) = sprintf("%.1f",uu(i)) |
|
263 text(i,2) = sprintf("%.2f",t_biome(i)) |
|
264 end do |
|
265 text(nrow-1,0) = "-" |
|
266 text(nrow-1,1) = "-" |
|
267 text(nrow-1,2) = sprintf("%.2f",t_biome_avg) |
|
268 |
|
269 ;************************************************** |
|
270 ; html table |
|
271 ;************************************************** |
|
272 |
|
273 header_text = "<H1>"+component(k)+" Turnover Time: Model "+model_name+"</H1>" |
|
274 |
|
275 header = (/"<HTML>" \ |
|
276 ,"<HEAD>" \ |
|
277 ,"<TITLE>CLAMP metrics</TITLE>" \ |
|
278 ,"</HEAD>" \ |
|
279 ,header_text \ |
|
280 /) |
|
281 footer = "</HTML>" |
|
282 |
|
283 table_header = (/ \ |
|
284 "<table border=1 cellspacing=0 cellpadding=3 width=60%>" \ |
|
285 ,"<tr>" \ |
|
286 ," <th bgcolor=DDDDDD >Biome Class</th>" \ |
|
287 ," <th bgcolor=DDDDDD >"+col_head(0)+"<br>("+unit_f+")</th>" \ |
|
288 ," <th bgcolor=DDDDDD >"+col_head(1)+"<br>("+unit_p+")</th>" \ |
|
289 ," <th bgcolor=DDDDDD >"+col_head(2)+"<br>("+unit_t+")</th>" \ |
|
290 ,"</tr>" \ |
|
291 /) |
|
292 table_footer = "</table>" |
|
293 row_header = "<tr>" |
|
294 row_footer = "</tr>" |
|
295 |
|
296 lines = new(50000,string) |
|
297 nline = 0 |
|
298 |
|
299 set_line(lines,nline,header) |
|
300 set_line(lines,nline,table_header) |
|
301 ;----------------------------------------------- |
|
302 ; row of table |
|
303 |
|
304 do n = 0,nrow-1 |
|
305 set_line(lines,nline,row_header) |
|
306 |
|
307 txt1 = row_head(n) |
|
308 txt2 = text(n,0) |
|
309 txt3 = text(n,1) |
|
310 txt4 = text(n,2) |
|
311 |
|
312 set_line(lines,nline,"<th>"+txt1+"</th>") |
|
313 set_line(lines,nline,"<th>"+txt2+"</th>") |
|
314 set_line(lines,nline,"<th>"+txt3+"</th>") |
|
315 set_line(lines,nline,"<th>"+txt4+"</th>") |
|
316 |
|
317 set_line(lines,nline,row_footer) |
|
318 end do |
|
319 ;----------------------------------------------- |
|
320 set_line(lines,nline,table_footer) |
|
321 set_line(lines,nline,footer) |
|
322 |
|
323 ; Now write to an HTML file |
|
324 |
|
325 idx = ind(.not.ismissing(lines)) |
|
326 if(.not.any(ismissing(idx))) then |
|
327 asciiwrite(output_html,lines(idx)) |
|
328 else |
|
329 print ("error?") |
|
330 end if |
|
331 |
|
332 delete (idx) |
|
333 |
|
334 delete (good) |
|
335 delete (t_biome) |
|
336 delete (text) |
|
337 |
|
338 end do ; k-loop |
|
339 |
|
340 delete (fm) |
|
341 |
|
342 ;*************************************************************************** |
|
343 ; output plot and html |
|
344 ;*************************************************************************** |
|
345 output_dir = model_name+"/turnover" |
|
346 |
|
347 system("mv *.html " + output_dir) |
|
348 ;****************************** |
|
349 |
|
350 end |
|
351 |