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std_plot_all.pro in branches/2013/dev_MERGE_2013/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts – NEMO

source: branches/2013/dev_MERGE_2013/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_plot_all.pro @ 4516

Last change on this file since 4516 was 4516, checked in by flavoni, 10 years ago

small fix in plots, see ticket #724

File size: 25.0 KB
Line 
1pro std_plot_all, doplot = doplot, _extra = ex
2
3  compile_opt idl2, strictarrsubs
4
5@common
6@std_common
7                                ; scripts for nemo v3_2 and v3_3
8
9  PRINT, ''
10  PRINT, '  ############################################'
11  PRINT, ''
12  PRINT, '                    LAUNCH of std_plots'
13  PRINT, ''
14  PRINT, '  ############################################'
15  PRINT, ''
16;
17  std_iodir_data    = isadirectory(getenv('DIR_DATA'),     title = 'path of data in NetCdf format')
18  std_iodir_climato = isadirectory(getenv('DIR_CLIMATO'),  title = 'path of climatological data')
19  std_iodir_mask    = isadirectory(getenv('DIR_MASK'),     title = 'path of mask files (ex: subbasins)')
20; meshmask
21  std_file_mesh = isafile(getenv('FILE_MESH_MASK'),        title = 'mesh_mask', iodir = std_iodir_mask)
22  std_file_msksub = isafile(getenv('FILE_MASK_SUBDOMAIN'), title = 'sub-bassin masks', iodir = std_iodir_mask)
23
24; climatologies
25  std_file_Levitus_T =  isafile(getenv('FILE_TEMP_3D'),    title = 'Levitus_T', iodir = std_iodir_climato)
26  std_file_Levitus_S =  isafile(getenv('FILE_SAL_3D'),     title = 'Levitus_S', iodir = std_iodir_climato)
27  std_file_reynolds  =  isafile(getenv('FILE_SST'),        title = 'Reynolds', iodir = std_iodir_climato)
28  std_file_oaflux    =  isafile(getenv('FILE_FLUX'),       title = 'oaflux', iodir = std_iodir_climato)
29  std_file_mld       =  isafile(getenv('FILE_MLD'),        title = 'Mixed layer depth', iodir = std_iodir_climato)
30  std_file_ice       =  isafile(getenv('FILE_ICE'),        title = 'ICE', iodir = std_iodir_climato)
31  std_file_snow_arc  =  isafile(getenv('FILE_SNOW_ARC'),   title = 'SNOW_ARC', iodir = std_iodir_climato)
32  std_file_snow_ant  =  isafile(getenv('FILE_SNOW_ANT'),   title = 'SNOW_ANT', iodir = std_iodir_climato)
33
34  IF strlowcase(getenv('FILE_GEOHEAT')) EQ 'no' THEN std_file_geoheat = 'no' $
35  ELSE std_file_geoheat =  isafile(getenv('FILE_GEOHEAT'), title = 'Geothermal heating', iodir = std_iodir_climato)
36;
37  allrec =  1 - keyword_set(long(getenv('READ_ONLY_FIRST_RECORD')))
38; Output run experience1
39  std_file1_T     = isafile(getenv('FILE1_T'), title = 'exp1 grid T input file', iodir = std_iodir_data)
40  std_file1_U     = isafile(getenv('FILE1_U'), title = 'exp1 grid U input file', iodir = std_iodir_data)
41  std_file1_V     = isafile(getenv('FILE1_V'), title = 'exp1 grid V input file', iodir = std_iodir_data)
42  std_file1_I     = isafile(getenv('FILE1_I'), title = 'exp1 ice    input file', iodir = std_iodir_data)
43 
44; Output run experience2
45  std_file2_T     = isafile(getenv('FILE2_T'), title = 'exp2 grid T input file', iodir = std_iodir_data)
46  std_file2_U     = isafile(getenv('FILE2_U'), title = 'exp2 grid U input file', iodir = std_iodir_data)
47  std_file2_V     = isafile(getenv('FILE2_V'), title = 'exp2 grid V input file', iodir = std_iodir_data)
48  std_file2_I     = isafile(getenv('FILE2_I'), title = 'exp2 ice    input file', iodir = std_iodir_data)
49
50  PRINT, ''
51  PRINT, '  std_iodir_data : ' + std_iodir_data
52  PRINT, '  std_file1T : ' + std_file1_T
53  PRINT, '  std_file1U : ' + std_file1_U
54  PRINT, '  std_file1V : ' + std_file1_V
55;  PRINT, ' std_file1W : ' + std_file1_W
56  PRINT, '  std_file2I : ' + std_file1_I
57  PRINT, '  std_file2T : ' + std_file2_T
58  PRINT, '  std_file2U : ' + std_file2_U
59  PRINT, '  std_file2V : ' + std_file2_V
60;  PRINT, ' std_file2W : ' + std_file2_W
61  PRINT, '  std_file2I : ' + std_file2_I
62  PRINT, ''
63
64;#########################################################################
65;##########################  Load Grids   ################################
66;#########################################################################
67; load the grid
68  load_orca, std_file_mesh 
69; reading variables
70  masknp = read_ncdf('tmaskutil', file = std_file_mesh, /nostruct, /cont_nofill)
71;#########################################################################
72;############################  Read Data  ################################
73;#########################################################################
74;
75  allrec =  1; - keyword_set(long(getenv('READ_ONLY_FIRST_RECORD')))
76;
77;;; 3D ;;;
78; temperature
79  T1 = read_ncdf(getenv('VAR1_T'), allrecords = allrec, direc = 't', filename = std_file1_T )
80  IF std_file2_T NE std_file1_T THEN BEGIN
81    T2 = read_ncdf(getenv('VAR2_T'), allrecords = allrec, direc = 't', filename = std_file2_T )
82  ENDIF ELSE T2 = {arr:-1}
83  TLev = read_ncdf(getenv('VAR_TEMP_3D'), filename = std_file_Levitus_T )
84  TRey = read_ncdf(getenv('VAR_SST'), filename = std_file_reynolds )
85
86; salinity
87  S1 = read_ncdf(getenv('VAR1_S'), allrecords = allrec, direc = 't', filename = std_file1_T )
88  IF std_file2_T NE std_file1_T THEN BEGIN
89    S2 = read_ncdf(getenv('VAR2_S'), allrecords = allrec, direc = 't', filename = std_file2_T )
90  ENDIF ELSE S2 = {arr:-1}
91  SLev = read_ncdf(getenv('VAR_SAL_3D'), filename = std_file_Levitus_S )
92
93;;; 2D ;;;
94; Net Downward heat flux
95  Q1 = read_ncdf(getenv('VAR1_QNET'), allrecords = allrec, direc = 't', filename = std_file1_T )
96  IF std_file2_T NE std_file1_T THEN BEGIN
97    Q2 = read_ncdf(getenv('VAR2_QNET'), allrecords = allrec, direc = 't', filename = std_file2_T )
98  ENDIF ELSE Q2 = {arr:-1}
99; Geothermal heating
100  IF std_file_geoheat EQ 'no' THEN geo = {arr:float(getenv('VAR_GEOHEAT'))} $
101  ELSE geo = read_ncdf(getenv('VAR_GEOHEAT'), filename =  std_file_geoheat )
102  geo = geo.arr*1.e-3          ; convert into W/m2
103;climatology
104  QNET = read_ncdf(getenv('VAR_FLUX'), filename = std_file_oaflux )
105 
106; erp (evaporation damping)
107  ERP1 = read_ncdf(getenv('VAR1_ERP'), allrecords = allrec, direc = 't', filename = std_file1_T )
108  ERP1 = {arr:ERP1.arr * 86400., unit:'mm/day', grid:'T'}
109  IF std_file2_T NE std_file1_T THEN BEGIN
110     ERP2 = read_ncdf(getenv('VAR2_ERP'), allrecords = allrec, direc = 't', filename = std_file2_T )
111     ERP2 = {arr:ERP2.arr * 86400., unit:'mm/day', grid:'T'}
112  ENDIF ELSE ERP2 = {arr:-1}
113 
114; emp (evaporation minus precipitation)
115  EMP1 = read_ncdf(getenv('VAR1_EMP'), allrecords = allrec, direc = 't', filename = std_file1_T )
116  EMP1 = {arr:EMP1.arr * 86400., unit:'mm/day', grid:'T'}
117   IF std_file2_T NE std_file1_T THEN BEGIN
118     EMP2 = read_ncdf(getenv('VAR2_EMP'), allrecords = allrec, direc = 't', filename = std_file2_T )
119     EMP2 = {arr:EMP2.arr * 86400., unit:'mm/day', grid:'T'}
120   ENDIF ELSE EMP2 = {arr:-1}
121   
122 ;mixed layer depth
123   MLD1 = read_ncdf(getenv('VAR1_MLD'), allrecords = allrec, direc = 't', filename = std_file1_T ) ; 10 m
124   IF std_file2_T NE std_file1_T THEN BEGIN
125     MLD2 = read_ncdf(getenv('VAR2_MLD'), allrecords = allrec, direc = 't', filename = std_file2_T ) ; 10 m
126   ENDIF ELSE MLD2 = {arr:-1}
127 ;climatology
128   MLD = read_ncdf(getenv('VAR_MLD'), filename = std_file_mld )
129
130 ; velocities
131   U1 = read_ncdf(getenv('VAR1_U'), allrecords = allrec, direc = 't', filename = std_file1_U )
132   ; old formulation: we tested variable name
133   ; IF strlowcase(getenv('VAR1_U')) EQ 'uocetr_eff' OR strlowcase(getenv('VAR1_U')) EQ 'vozoeftr' THEN BEGIN
134   IF strlowcase(U1.unit) EQ 'm3/s' THEN BEGIN
135     ;IF it is a transport it is transofrmed in velocity
136     U1.arr = U1.arr / e3u_3d(/e2) * umask()
137     U1.unit = 'm/s'
138   ENDIF
139   IF std_file2_U NE std_file1_U THEN BEGIN
140     U2 = read_ncdf(getenv('VAR2_U'), allrecords = allrec, direc = 't', filename = std_file2_U )
141     ; old formulation: we tested variable name
142     ; IF strlowcase(getenv('VAR2_U')) EQ 'uocetr_eff' OR strlowcase(getenv('VAR2_U')) EQ 'vozoeftr' THEN BEGIN
143     IF strlowcase(U2.unit) EQ 'm3/s' THEN BEGIN
144       U2.arr = U2.arr / e3u_3d(/e2) * umask()
145       U2.unit = 'm/s'
146     ENDIF
147   ENDIF ELSE U2 = {arr:-1}
148;
149   V1 = read_ncdf(getenv('VAR1_V'), allrecords = allrec, direc = 't', filename = std_file1_V )
150   ; old formulation: we tested variable name
151   ; IF strlowcase(getenv('VAR1_V')) EQ 'vocetr_eff' OR strlowcase(getenv('VAR1_V')) EQ 'vomeeftr' THEN BEGIN
152   IF strlowcase(V1.unit) EQ 'm3/s' THEN BEGIN ; test on unit to understand if it is a transport or velocity
153     ;IF it is a transport it is transofrmed in velocity
154     V1.arr = V1.arr / e3v_3d(/e1) * vmask()
155     V1.unit = 'm/s'
156   ENDIF
157   IF std_file2_V NE std_file1_V THEN BEGIN
158     V2 = read_ncdf(getenv('VAR2_V'), allrecords = allrec, direc = 't', filename = std_file2_V )
159     ; old formulation
160     ; IF strlowcase(getenv('VAR2_V')) EQ 'vocetr_eff' OR strlowcase(getenv('VAR2_V')) EQ 'vozoeftr' THEN BEGIN
161     IF strlowcase(V2.unit) EQ 'm3/s' THEN BEGIN
162       V2.arr = V2.arr / e3v_3d(/e1) * vmask()
163       V2.unit = 'm/s'
164     ENDIF
165   ENDIF ELSE V2 = {arr:-1}
166
167; ice
168  Ithi_1 = read_ncdf(getenv('VAR1_Ithick'), allrecords = allrec, filename = std_file1_I )
169  caldat, time, mm
170  april = where(mm EQ 4, cnt)
171  Ithi_april_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(april)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
172  sept = where(mm EQ 9, cnt)
173  Ithi_sept_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
174  undefine, Ithi_1
175;
176  IF std_file2_I NE std_file1_I THEN BEGIN
177     Ithi_2 = read_ncdf(getenv('VAR2_Ithick'), allrecords = allrec, filename = std_file2_I )
178     caldat, time, mm
179     april = where(mm EQ 4, cnt)
180     Ithi_april_2 = {arr:1./float(cnt) * total(reform(Ithi_2.arr[*, *, temporary(april)],nxt,nyt,cnt), 3), unit:Ithi_2.unit}
181     sept = where(mm EQ 9, cnt)
182     Ithi_sept_2 = {arr:1./float(cnt) * total(reform(Ithi_2.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Ithi_2.unit}
183     undefine, Ithi_2
184  ENDIF ELSE BEGIN
185     Ithi_april_2 = {arr:-1}
186     Ithi_sept_2 = {arr:-1}
187  ENDELSE
188;
189  Iage_1 = read_ncdf(getenv('VAR1_Iage'), allrecords = allrec, filename = std_file1_I )
190  caldat, time, mm
191  march = where(mm EQ 3, cnt)
192  Iage_march_1 = {arr:1./float(cnt) * total(reform(Iage_1.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Iage_1.unit}
193  sept = where(mm EQ 9, cnt)
194  Iage_sept_1 = {arr:1./float(cnt) * total(reform(Iage_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Iage_1.unit}
195  undefine, Iage_1
196;
197  IF std_file2_I NE std_file1_I THEN BEGIN
198     Iage_2 = read_ncdf(getenv('VAR2_Iage'), allrecords = allrec, filename = std_file2_I )
199     caldat, time, mm
200     march = where(mm EQ 3, cnt)
201     Iage_march_2 = {arr:1./float(cnt) * total(reform(Iage_2.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Iage_2.unit}
202     sept = where(mm EQ 9, cnt)
203     Iage_sept_2 = {arr:1./float(cnt) * total(reform(Iage_2.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Iage_2.unit}
204     undefine, Iage_2
205  ENDIF ELSE BEGIN
206     Iage_march_2 = {arr:-1}
207     Iage_sept_2 = {arr:-1}
208  ENDELSE
209;
210  Ifra_1 = read_ncdf(getenv('VAR1_Ifrac'), allrecords = allrec, filename = std_file1_I )
211  caldat, time, mm
212  march = where(mm EQ 3, cnt)
213  Ifra_march_1 = {arr:1./float(cnt) * total(reform(Ifra_1.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Ifra_1.unit}
214  sept = where(mm EQ 9, cnt)
215  Ifra_sept_1 = {arr:1./float(cnt) * total(reform(Ifra_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Ifra_1.unit}
216  undefine, Ifra_1
217;
218  IF std_file2_I NE std_file1_I THEN BEGIN
219    Ifra_2 = read_ncdf(getenv('VAR2_Ifrac'), allrecords = allrec, filename = std_file2_I )
220    caldat, time, mm
221    march = where(mm EQ 3, cnt)
222    Ifra_march_2 = {arr:1./float(cnt) * total(reform(Ifra_2.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Ifra_2.unit}
223    sept = where(mm EQ 9, cnt)
224    Ifra_sept_2 = {arr:1./float(cnt) * total(reform(Ifra_2.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Ifra_2.unit}
225    undefine, Ifra_2
226  ENDIF ELSE BEGIN
227    Ifra_march_2 = {arr:-1}
228    Ifra_sept_2 = {arr:-1}
229  ENDELSE
230;
231   Isnow_1 = read_ncdf(getenv('VAR1_Isnow'), allrecords = allrec, filename = std_file1_I )
232   caldat, time, mm
233   march = where(mm EQ 3, cnt)
234   Isnow_march_1 = {arr:1./float(cnt) * total(reform(Isnow_1.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Isnow_1.unit}
235   sept = where(mm EQ 9, cnt)
236   Isnow_sept_1 = {arr:1./float(cnt) * total(reform(Isnow_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Isnow_1.unit}
237   ;undefine, Isnow_1
238 ;
239   IF std_file2_I NE std_file1_I THEN BEGIN
240     Isnow_2 = read_ncdf(getenv('VAR2_Isnow'), allrecords = allrec, filename = std_file2_I )
241     caldat, time, mm
242     march = where(mm EQ 3, cnt)
243     Isnow_march_2 = {arr:1./float(cnt) * total(reform(Isnow_2.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Isnow_2.unit}
244     sept = where(mm EQ 9, cnt)
245     Isnow_sept_2 = {arr:1./float(cnt) * total(reform(Isnow_2.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Isnow_2.unit}
246   ;  undefine, Isnow_2
247   ENDIF ELSE BEGIN
248     Isnow_march_2 = {arr:-1}
249     Isnow_sept_2 = {arr:-1}
250   ENDELSE
251;
252   Isal_1 = read_ncdf(getenv('VAR1_Isal'), allrecords = allrec, filename = std_file1_I )
253   Ifra_1 = read_ncdf(getenv('VAR1_Ifrac'), allrecords = allrec, filename = std_file1_I )
254   msk = Ifra_1.arr gt 0.15 ; remove 0.15% for observations
255   help, Ifra_1
256   help, mask
257   caldat, time, mm
258   march = where(mm EQ 3, cnt)
259   febr = where(mm EQ 2, cnt)
260   ;SF  Isal_march_1 = {arr:1./float(cnt) * total(reform(Isal_1.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Isal_1.unit}
261   Isal_1.arr = Isal_1.arr * msk
262   help, Isal_1
263   Isal_march_1 = {arr:1./float(cnt) * total(reform(Isal_1.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Isal_1.unit}
264   help, Isal_march_1
265   Isal_febr_1 = {arr:1./float(cnt) * total(reform(Isal_1.arr[*, *, temporary(febr)],nxt,nyt,cnt), 3), unit:Isal_1.unit}
266   sept = where(mm EQ 9, cnt)
267   Isal_sept_1 = {arr:1./float(cnt) * total(reform(Isal_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Isal_1.unit}
268   ;undefine, Isal_1
269 ;
270   Isal_2 = read_ncdf(getenv('VAR2_Isal'), allrecords = allrec, filename = std_file2_I )
271   Ifra_2 = read_ncdf(getenv('VAR2_Ifrac'), allrecords = allrec, filename = std_file2_I )
272   msk = Ifra_2.arr gt 0.15 ; remove 0.15% for observations
273   IF std_file2_I NE std_file1_I THEN BEGIN
274     Isal_2 = read_ncdf(getenv('VAR2_Isal'), allrecords = allrec, filename = std_file2_I )
275     Isal_2.arr = Isal_2.arr * msk
276     caldat, time, mm
277     march = where(mm EQ 3, cnt)
278     febr = where(mm EQ 2, cnt)
279     Isal_march_2 = {arr:1./float(cnt) * total(reform(Isal_2.arr[*, *, temporary(march)],nxt,nyt,cnt), 3), unit:Isal_2.unit}
280     Isal_febr_2 = {arr:1./float(cnt) * total(reform(Isal_2.arr[*, *, temporary(febr)],nxt,nyt,cnt), 3), unit:Isal_2.unit}
281     sept = where(mm EQ 9, cnt)
282     Isal_sept_2 = {arr:1./float(cnt) * total(reform(Isal_2.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Isal_2.unit}
283   ;  undefine, Isal_2
284   ENDIF ELSE BEGIN
285     Isal_febr_2 = {arr:-1}
286     Isal_march_2 = {arr:-1}
287     Isal_sept_2 = {arr:-1}
288   ENDELSE
289;
290  jpt = 1
291;
292; shorter file names for legends...
293;
294  std_file1_T = file_basename(std_file1_T,'.nc')
295  std_file1_T = (strsplit(std_file1_T,'_grid_T',/extract,/regex))[0]
296  std_file2_T = file_basename(std_file2_T,'.nc')
297  std_file2_T = (strsplit(std_file2_T,'_grid_T',/extract,/regex))[0]
298  std_file1_U = file_basename(std_file1_U,'.nc')
299  std_file1_U = (strsplit(std_file1_U,'_grid_U',/extract,/regex))[0]
300  std_file2_U = file_basename(std_file2_U,'.nc')
301  std_file2_U = (strsplit(std_file2_U,'_grid_U',/extract,/regex))[0]
302  std_file1_V = file_basename(std_file1_V,'.nc')
303  std_file1_V = (strsplit(std_file1_V,'_grid_V',/extract,/regex))[0]
304  std_file2_V = file_basename(std_file2_V,'.nc')
305  std_file2_V = (strsplit(std_file2_V,'_grid_V',/extract,/regex))[0]
306  std_file1_I = file_basename(std_file1_I,'.nc')
307  std_file1_I = (strsplit(std_file1_I,'_icemod',/extract,/regex))[0]
308  std_file2_I = file_basename(std_file2_I,'.nc')
309  std_file2_I = (strsplit(std_file2_I,'_icemod',/extract,/regex))[0]
310
311;#########################################################################
312;######################  STANDARD PLOTS   ################################
313;#########################################################################
314
315  IF keyword_set(doplot) EQ 0 THEN doplot = 0
316
317; fixed color tabled
318  lct, 64
319  cnt = 0
320  htmltxt = ''
321;
322  cnt = cnt+1   &   blabla = 'Erp salinity damping term'
323  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_erp, ERP1, ERP2, _extra = ex
324;
325  cnt = cnt+1   &   blabla = 'Evaporation - Precipitation - Runoff term'
326  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_emp, EMP1, EMP2, _extra = ex
327;
328  cnt = cnt+1   &   blabla = 'Net heat flux'
329  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_qnet, Q1, Q2, QNET, _extra = ex
330;
331  cnt = cnt+1   &   blabla = 'Meridionnal Heat Transport'
332  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_mht, Q1.arr+geo, Q2.arr+geo, masknp, std_file_msksub, _extra = ex
333;
334  cnt = cnt+1   &   blabla = 'Global Barotropic stream Function'
335  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_bsf, U1, U2, _extra = ex
336;
337  cnt = cnt+1   &   blabla = 'mean Temperature diff with New Reynolds'
338  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_sst, T1, T2, TRey, _extra = ex
339;
340  cnt = cnt+1   &   blabla = 'mean Salinity diff with Levitus'
341  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_sss, S1, S2, SLev, _extra = ex
342;
343  cnt = cnt+1   &   blabla = 'Arctic mean Salinity diff with Levitus'
344  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ArcSal, S1, SLev, _extra = ex       
345;
346  cnt = cnt+1   &   blabla = 'Arctic mean Salinity diff with Levitus and exp2'
347  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ArcSal, S1, S2, SLev, _extra = ex
348;
349  cnt = cnt+1   &   blabla = 'Arctic mean Salinity diff with Levitus at z=100 meters'
350  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ArcSal, S1, SLev, /z100, _extra = ex       
351;
352  cnt = cnt+1   &   blabla = 'Arctic mean Salinity diff with Levitus and exp2 at z=100 meters'
353  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ArcSal, S1, S2, SLev, /z100, _extra = ex
354;
355  cnt = cnt+1   &   blabla = 'mean Temperature diff with Levitus at z=100 meters'
356  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_T100m, T1, T2, Tlev, _extra = ex
357
358  cnt = cnt+1   &   blabla = 'mean Salinity diff with Levitus at z=100 meters'
359  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_S100m, S1, S2, SLev, _extra = ex
360
361  cnt = cnt+1   &   blabla = 'Mixed layer depth'
362  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_mld, MLD1, MLD, _extra = ex
363;
364  cnt = cnt+1   &   blabla = 'Mixed layer depth differences'
365  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_mld, MLD1, MLD2, MLD, _extra = ex
366;
367  cnt = cnt+1   &   blabla = 'Zonal mean Mixed layer depth'
368  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ZonMld, MLD1, MLD2, MLD, _extra = ex
369
370  cnt = cnt+1   &   blabla = 'Zonal mean Temperature diff with Levitus: Global'
371  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_T, T1, T2, TLev, _extra = ex
372;
373  cnt = cnt+1   &   blabla = 'Zonal mean Temperature diff with Levitus: Atlantic'
374  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_T, T1, T2, TLev, SUBBASIN = 'Atl', _extra = ex
375
376  cnt = cnt+1   &   blabla = 'Zonal mean Temperature diff with Levitus: Indian'
377  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_T, T1, T2, TLev, SUBBASIN = 'Ind', _extra = ex
378
379  cnt = cnt+1   &   blabla = 'Zonal mean Temperature diff with Levitus: Pacific'
380  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_T, T1, T2, TLev, SUBBASIN = 'Pac', _extra = ex
381;
382  cnt = cnt+1   &   blabla = 'Zonal mean Salinity diff with Levitus: Global'
383  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_S, S1, S2, SLev, _extra = ex
384;
385  cnt = cnt+1   &   blabla = 'Zonal mean Salinity diff with Levitus: Atlantic'
386  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_S, S1, S2, SLev, SUBBASIN = 'Atl', _extra = ex
387;
388  cnt = cnt+1   &   blabla = 'Zonal mean Salinity diff with Levitus: Indian'
389  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_S, S1, S2, SLev, SUBBASIN = 'Ind', _extra = ex
390;
391  cnt = cnt+1   &   blabla = 'Zonal mean Salinity diff with Levitus: Pacific'
392  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_zonal_S, S1, S2, SLev, SUBBASIN = 'Pac', _extra = ex
393
394;  cnt = cnt+1   &   blabla = 'Arctic Ice Thickness: MARCH'
395;  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_march_1, Ithi_march_2, /ARC, /MARCH, _extra = ex
396;
397  cnt = cnt+1   &   blabla = 'Arctic Ice Thickness: APRIL'
398  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_april_1, Ithi_april_2, /ARC, /APRIL, _extra = ex
399;
400  cnt = cnt+1   &   blabla = 'Arctic Ice Thickness: SEPT'
401  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_sept_1, Ithi_sept_2, /ARC, /SEPT, _extra = ex
402
403;  cnt = cnt+1   &   blabla = 'Antarctic Ice Thickness: MARCH'
404;  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_march_1, Ithi_march_2, /ANT, /MARCH, _extra = ex
405;
406  cnt = cnt+1   &   blabla = 'Antarctic Ice Thickness: APRIL'
407  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_april_1, Ithi_april_2, /ANT, /APRIL, _extra = ex
408;
409  cnt = cnt+1   &   blabla = 'Antarctic Ice Thickness: SEPT'
410  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceThick, Ithi_sept_1, Ithi_sept_2, /ANT, /SEPT, _extra = ex
411;
412  cnt = cnt+1   &   blabla = 'Arctic Ice Age: MARCH'
413  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceAge, Iage_march_1, Iage_march_2, /ARC, /MARCH, _extra = ex
414
415  cnt = cnt+1   &   blabla = 'Arctic Ice Age: SEPT'
416  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceAge, Iage_sept_1, Iage_sept_2, /ARC, /SEPT, _extra = ex
417
418  cnt = cnt+1   &   blabla = 'Antarctic Ice Age: MARCH'
419  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceAge, Iage_march_1, Iage_march_2, /ANT, /MARCH, _extra = ex
420;
421  cnt = cnt+1   &   blabla = 'Antarctic Ice Age: SEPT'
422  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceAge, Iage_sept_1, Iage_sept_2, /ANT, /SEPT, _extra = ex
423;
424  cnt = cnt+1   &   blabla = 'Arctic Ice Fraction: MARCH'
425  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceFrac, Ifra_march_1, Ifra_march_2, /ARC, /MARCH, _extra = ex
426
427  cnt = cnt+1   &   blabla = 'Arctic Ice Fraction: SEPT'
428  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceFrac, Ifra_sept_1, Ifra_sept_2, /ARC, /SEPT, _extra = ex
429
430  cnt = cnt+1   &   blabla = 'Antarctic Ice Fraction: MARCH'
431  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceFrac, Ifra_march_1, Ifra_march_2, /ANT, /MARCH, _extra = ex
432;
433  cnt = cnt+1   &   blabla = 'Antarctic Ice Fraction: SEPT'
434  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceFrac, Ifra_sept_1, Ifra_sept_2, /ANT, /SEPT, _extra = ex
435;
436  cnt = cnt+1   &   blabla = 'Arctic SNOW Thickness: MARCH'
437  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_SnowThick, Isnow_march_1, Isnow_march_2, /ARC, /MARCH, _extra = ex
438;
439  cnt = cnt+1   &   blabla = 'Arctic SNOW Thickness: SEPT'
440  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_SnowThick, Isnow_sept_1, Isnow_sept_2, /ARC, /SEPT, _extra = ex
441
442  cnt = cnt+1   &   blabla = 'Antarctic SNOW Thickness: MARCH'
443  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_SnowThick, Isnow_march_1, Isnow_march_2, /ANT, /MARCH, _extra = ex
444;
445  cnt = cnt+1   &   blabla = 'Antarctic SNOW Thickness: SEPT'
446  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_SnowThick, Isnow_sept_1, Isnow_sept_2, /ANT, /SEPT, _extra = ex
447;
448  cnt = cnt+1   &   blabla = 'Arctic Ice Salinity: MARCH'
449  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceSal, Isal_march_1, Isal_march_2, /ARC, /MARCH, _extra = ex
450;
451  cnt = cnt+1   &   blabla = 'Arctic Ice Salinity: SEPT'
452  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceSal, Isal_sept_1, Isal_sept_2, /ARC, /SEPT, _extra = ex
453
454  cnt = cnt+1   &   blabla = 'Antarctic Ice Salinity: FEBRUARY'
455  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceSal, Isal_febr_1, Isal_febr_2, /ANT, /FEBR, _extra = ex
456;
457  cnt = cnt+1   &   blabla = 'Antarctic Ice Salinity: SEPT'
458  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceSal, Isal_sept_1, Isal_sept_2, /ANT, /SEPT, _extra = ex
459;
460  cnt = cnt+1   &   blabla = 'Meridional stream Function: Global (no Med)'
461  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_msf, V1, V2, SUBBASIN = 'GloNoMed', _extra = ex
462
463  cnt = cnt+1   &   blabla = 'Meridional stream Function: Atlantic'
464  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_msf, V1, V2, SUBBASIN = 'Atl', _extra = ex
465 ;
466  cnt = cnt+1   &   blabla = 'Meridional stream Function: Indian'
467  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_msf, V1, V2, SUBBASIN = 'Ind', _extra = ex
468 ;
469  cnt = cnt+1   &   blabla = 'Meridional stream Function: Indo-Pacific'
470  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_msf, V1, V2, SUBBASIN = 'IndoPac', _extra = ex
471;
472  cnt = cnt+1   &   blabla = 'Equatorial Temperature'
473  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_EqT, T1, T2, Tlev, _extra = ex
474;
475  cnt = cnt+1   &   blabla = 'Equatorial Salinity'
476  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_EqS, S1, S2, SLev, _extra = ex
477;
478  cnt = cnt+1   &   blabla = 'Equatorial zonal velocity'
479  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_EqU, U1, U2, _extra = ex
480;
481  cnt = cnt+1   &   blabla = 'Mediterranean salt tongue at depth=700'
482  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_Med_Sspread, S1, S2, SLev, 700, _extra = ex
483;
484  cnt = cnt+1   &   blabla = 'Mediterranean salt tongue at depth=1000'
485  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_Med_Sspread, S1, S2, SLev, 1000, _extra = ex
486;
487  cnt = cnt+1   &   blabla = 'Mediterranean water at lat=40°N'
488  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_Med_Sdepth, S1, S2, SLev, 40, _extra = ex
489;
490  cnt = cnt+1   &   blabla = 'Mediterranean water at lat=38°N'
491  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_Med_Sdepth, S1, S2, SLev, 38, _extra = ex
492;
493  cnt = cnt+1   &   blabla = 'Vertical Global mean T & S'
494  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_GlobMeanTS, T1, T2, TLev, S1, S2, SLev, _extra = ex
495;
496  IF n_elements(htmltxt) GT 1 THEN putfile, psdir+'std_plot_html_body.txt', htmltxt[1:*]
497 
498  return
499END
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