source: trunk/LMDZ.MARS/util/aeroptical.F90 @ 3026

Last change on this file since 3026 was 2904, checked in by abierjon, 23 months ago

Mars GCM:
In aeroptical.F90, handle cases between :

  • "all opacities in the column are missing values" (in which case we set column-integrated tau=missval)

and

  • "at least one opacity is not a missing value but is 0" (in which case we set tau=0)

AB

File size: 64.6 KB
Line 
1program aeroptical
2! program for computation of aerosol opacities
3! author : Antoine Bierjon, April-May 2020
4! Rebranding in November 2022
5!
6!===============================================================================
7!     PREFACE
8!===============================================================================
9! This program can be used to compute the opacity of any aerosol.
10!
11! It takes as input a GCM output file (diagfi,stats,concat) that
12! contains:
13!      - the Mass Mixing Ratios of the aerosols to be computed
14!      - their effective radius (replaceable by a single value given by the user)
15!      - the atmospheric density
16! The user also inputs the wavelength to calibrate the opacities,
17! the type of opacity (extinction or absorption) and the directory
18! containing the ASCII files of the aerosols' optical properties.
19!
20! Finally, for each aerosol to be computed, the user inputs :
21! <aerosol_name>,<aerosol_mmr_varname>,<aerosol_reff_varname/value>,<aerosol_rho_value>,<optpropfile_name>
22!
23! The program outputs a netcdf file containing the opacities [1/km] of
24! the aerosols calibrated at the prescribed wavelength.
25!
26! NB: this program requires to compile the module aeropt_mod.F90 at the same time
27!===============================================================================
28
29
30use netcdf
31use aeropt_mod
32
33!===============================================================================
34! Variable declarations
35!===============================================================================
36
37implicit none ! for no implicitly typed variables
38
39! User inputs
40character(len=256) :: datadir                                        ! directory containing the ASCII optical properties files
41real :: wvl_val                                                      ! reference wavelength of the output opacities [m]
42character(len=3) :: opatype                                          ! opacity type : extinction (ext) or absorption (abs)
43character(len=3) :: compute_col                                      ! does the user want to compute the column-integrated optical depth [yes/no]
44character(len=50),dimension(20) :: name_aer,mmrname_aer,reffname_aer ! aerosols' name, MMR varname, reff varname (or value)
45integer,dimension(20) :: reffval_ok                                  ! to know if the user gave a variable name or a value for reff_aer
46real,dimension(20) :: reffval_aer                                    ! value given by the user for reff_aer [m]
47real,dimension(20) :: rho_aer                                        ! Density of the aerosols [kg.m-3]
48character(len=128),dimension(20) :: optpropfile_aer                  ! name of the ASCII optical properties file
49integer :: read_ok                                                   ! to know if the user input is well read
50integer :: naerkind                                                  ! nb of aerosols to consider
51
52! GCM file
53character(len=128) :: gcmfile                  ! name of the netcdf GCM input file
54integer :: gcmfid                              ! [netcdf] GCM input file ID number
55integer :: ierr                                ! [netcdf] subroutine returned error code
56character(len=256) :: error_text               ! text to display in case of error
57integer :: lonlen,latlen,altlen,timelen        ! nb of grid points along longitude,latitude,altitude,time
58integer :: GCM_layers                          ! number of GCM layers
59integer :: layerdimout,interlayerdimout        ! "GCM_layers" and "GCM_layers+1" IDs
60
61logical,dimension(:),allocatable :: aerok      ! to know if the needed fields are in the GCM file
62integer,dimension(:),allocatable :: mmrvarid   ! stores a MMR variable ID number
63integer,dimension(:),allocatable :: reffvarid  ! stores a reff variable ID number
64integer :: tmpvarid                            ! temporarily stores a variable ID number
65real,dimension(:,:,:,:),allocatable :: mmr     ! aerosols mass mixing ratios [kg/kg]
66real,dimension(:,:,:,:),allocatable :: reff    ! aerosols effective radii [m]
67real,dimension(:,:,:,:),allocatable :: rho     ! atmospheric density [kg.m-3]
68integer :: iaer                                ! Loop index for aerosols
69integer :: ilon,ilat,ialt,it                   ! Loop indices for coordinates
70
71! Opacity computation
72character(len=128) :: aeroptlogfile            ! name of the aeropt_mod log file
73real :: Qext_val                               ! Qext after interpolations
74real :: omeg_val                               ! omeg after interpolations
75
76! Output file
77character(len=128) :: outfile                  ! name of the netcdf output file
78integer :: outfid                              ! [netcdf] file ID number
79integer :: latdimout,londimout,altdimout,timedimout
80                                               ! latdimout: stores latitude dimension ID number
81                                               ! londimout: stores longitude dimension ID number
82                                               ! altdimout: stores altitude dimension ID number
83                                               ! timedimout: stores time dimension ID number
84integer :: tmpvaridout                         ! temporarily stores a variable ID number
85integer :: varshape(4)                         ! stores a variable shape (of dimensions' IDs)
86character(len=16) :: tmpvarname                ! temporarily stores a variable name
87character(len=128) :: tmplongname              ! temporarily stores a variable long_name attribute
88real,dimension(:,:,:,:),allocatable :: opa_aer ! Aerosols opacities dtau/dz [1/km]
89real,dimension(:),allocatable :: missval       ! Value to put in outfile when the reff is out of bounds
90                                               ! or when there is a mising value in input file
91integer :: tauvarshape(3)                      ! stores the column variable shape (of dimensions' IDs)
92real,dimension(:,:,:,:),allocatable :: delta_z ! Layers' height for column computation [km]
93real,dimension(:,:,:),allocatable :: tau_aer   ! Aerosols column-integrated optical depth [/]
94
95
96!===============================================================================
97! 0. USER INPUTS FOR NEW AEROPTICAL.DEF
98
99!1) Name of the GCM input file
100!2) Directory where the optical properties files are
101!3) The wavelength at which the output opacities are calibrated (in meters)
102!4) Opacity type : extinction (ext) or absorption (abs)
103!5) Does the user want to compute the column-integrated optical depth? [yes/no]
104!6) aerosol_name,aerosol_mmr(variable name),aerosol_reff(variable name or single value in m),aerosol_rho(value in kg/m3),optpropfile_name
105!7) aerosol_name,aerosol_mmr(variable name),aerosol_reff(variable name or single value in m),aerosol_rho(value in kg/m3),optpropfile_name
106!...
107!N) aerosol_name,aerosol_mmr(variable name),aerosol_reff(variable name or single value in m),aerosol_rho(value in kg/m3),optpropfile_name
108
109!===============================================================================
110write(*,*) "Welcome in the aerosol opacities' computation program !"
111write(*,*)
112
113! 1) Ask the GCM file name
114WRITE(*,*) "Enter an input file name (GCM diagfi/stats/concat) :"
115READ(*,*) gcmfile
116
117! 2) Ask the directory containing the optical properties files
118write(*,*)""
119WRITE(*,*) "In which directory should we look for the optical properties' files ?"
120READ(*,'(a)') datadir
121
122! 3) Ask the wavelength to the user
123write(*,*)""
124WRITE(*,*) "Value of the reference wavelength for the opacities' computation (in meters) ?"
125READ(*,*) wvl_val
126
127! 4) Ask the type of opacity that has to be computed
128write(*,*)""
129WRITE(*,*) "Do you want to compute extinction or absorption opacities ? (ext/abs)"
130READ(*,*) opatype
131if ((trim(opatype).ne."ext").and.(trim(opatype).ne."abs")) then
132  write(*,*) "opatype = "//opatype
133  write(*,*) "Error: the opacity type must be ext or abs"
134  stop
135endif
136
137! 5) Computation of the column-integrated optical depth?
138write(*,*)""
139WRITE(*,*) "Do you want to compute the column-integrated optical depth ? (yes/no)"
140READ(*,*) compute_col
141if ((trim(compute_col).ne."yes").and.(trim(compute_col).ne."no")) then
142  write(*,*) "compute_col = "//compute_col
143  write(*,*) "Error: please answer yes or no"
144  stop
145endif
146
147
148! 6-N) Ask for aerosols to compute to the user
149write(*,*)""
150write(*,*) "For which aerosols do you want to compute the opacity?"
151write(*,*) "List of aerosols (up to 20), separated by <Enter>s, with each line containing :"
152write(*,*) "<aerosol_name>,<aerosol_mmr>,<aerosol_reff>,<aerosol_rho>,<optpropfile_name>"
153write(*,*) "(aerosol_mmr is a variable name, aerosol_reff can be variable name or value in meter ; aerosol_rho is a value in kg/m3)"
154write(*,*)""
155write(*,*) "An empty line , i.e: just <Enter>, implies end of list."
156
157reffval_ok(:) = 0 ! initialize reffval_ok to 0 for all aerosols
158
159naerkind=0
160read(*,*,iostat=read_ok) name_aer(1),mmrname_aer(1),reffname_aer(1),rho_aer(1),optpropfile_aer(1)
161
162do while ((read_ok.eq.0).and.(name_aer(naerkind+1)/=""))
163  naerkind=naerkind+1
164 
165  ! Check if reffname_aer is a variable name or a value (in meters)
166  read(reffname_aer(naerkind),*,iostat=reffval_ok(naerkind)) reffval_aer(naerkind)
167  if (reffval_ok(naerkind).eq.0) then
168    write(*,*) "This value for reff of ",trim(name_aer(naerkind))," will be broadcasted to the whole grid :",reffval_aer(naerkind)
169  endif
170
171  ! Read next line
172  read(*,*,iostat=read_ok) name_aer(naerkind+1),mmrname_aer(naerkind+1),reffname_aer(naerkind+1),rho_aer(naerkind+1),optpropfile_aer(naerkind+1)
173enddo
174
175if(naerkind==0) then
176   write(*,*) "no aerosol... better stop now."
177   stop
178endif
179
180write(*,*) "naerkind=",naerkind
181write(*,*) "name_aer=",name_aer(1:naerkind)
182write(*,*) "mmrname_aer=",mmrname_aer(1:naerkind)
183write(*,*) "reffname_aer=",reffname_aer(1:naerkind)
184write(*,*) "rho_aer=",rho_aer(1:naerkind)
185write(*,*) "optpropfile_aer=",optpropfile_aer(1:naerkind)
186
187
188!===============================================================================
189! 1. GCM FILE & OUTPUT FILE INITIALIZATIONS
190!===============================================================================
191
192!==========================================================================
193! 1.1 GCM file opening & dimensions - Output file initializations
194!==========================================================================
195
196!==========================================================================
197! --> 1.1.1 Open the netcdf GCM file given by the user
198
199ierr=nf90_open(gcmfile,nf90_nowrite,gcmfid) ! nowrite mode=the program can only read the opened file
200error_text="Error: could not open file "//trim(gcmfile)
201call status_check(ierr,error_text)
202
203!==========================================================================
204! --> 1.1.2 Creation of the outfile
205if (opatype.eq."ext") then
206  outfile=gcmfile(1:index(gcmfile, ".nc")-1)//"_OPAext.nc"
207else ! opatype.eq."abs"
208  outfile=gcmfile(1:index(gcmfile, ".nc")-1)//"_OPAabs.nc"
209endif
210
211 
212ierr=NF90_CREATE(outfile,IOR(nf90_clobber,nf90_64bit_offset),outfid)
213! NB: clobber mode=overwrite any dataset with the same file name !
214! 64bit_offset enables the creation of large netcdf files with variables>2GB
215error_text="Error: could not create file "//trim(outfile)
216call status_check(ierr,error_text)
217write(*,*)"";WRITE(*,*)"Output file is: ",trim(outfile);write(*,*)""
218
219!==========================================================================
220! --> 1.1.3 Get the dimensions and create them in the output file
221
222! Initialize output file's lat,lon,alt,time and controle dimensions
223call inidims(gcmfile,gcmfid,outfile,outfid,&
224             lonlen,latlen,altlen,timelen,&
225             latdimout,londimout,altdimout,timedimout,&
226             GCM_layers,layerdimout,interlayerdimout)
227
228! Length allocation for each dimension of the 4D variable delta_z
229allocate(delta_z(lonlen,latlen,altlen,timelen))
230
231! Initialize output file's aps,bps,ap,bp and phisinit variables
232! + compute delta_z for the column integration
233call init2(gcmfid,lonlen,latlen,altlen,timelen,GCM_layers,&
234           outfid,londimout,latdimout,altdimout,timedimout,&
235           layerdimout,interlayerdimout,&
236           compute_col,delta_z)
237
238!==========================================================================
239! 1.2 Check GCM aerosols
240!==========================================================================
241
242! Variables length allocation
243allocate(mmrvarid(naerkind))
244allocate(reffvarid(naerkind))
245
246! Initialize missing value
247allocate(missval(naerkind))
248missval(:)=1.e+20
249
250! Initialize aerok to .true. for all aerosols
251allocate(aerok(naerkind))
252aerok(:)=.true.
253
254! Loop on all aerosols
255DO iaer = 1, naerkind
256  ! MASS MIXING RATIO
257  ! Check that the GCM file contains that variable
258  ierr=nf90_inq_varid(gcmfid,mmrname_aer(iaer),mmrvarid(iaer))
259  error_text="Failed to find variable "//trim(mmrname_aer(iaer))//&
260             " in "//trim(gcmfile)//&
261             " We'll skip the "//name_aer(iaer)//" aerosol."
262  if (ierr.ne.nf90_noerr) then
263    write(*,*)trim(error_text)
264    aerok(iaer)=.false.
265  endif
266
267  ! EFFECTIVE RADIUS
268  if (aerok(iaer)) then
269    IF (reffval_ok(iaer).ne.0) THEN ! if the user gave a variable's name and not a value
270      ! Check that the GCM file contains that variable
271      ierr=nf90_inq_varid(gcmfid,reffname_aer(iaer),reffvarid(iaer))
272      error_text="Failed to find variable "//trim(reffname_aer(iaer))//&
273                 " in "//trim(gcmfile)//&
274                 " We'll skip the "//trim(name_aer(iaer))//" aerosol."
275      if (ierr.ne.nf90_noerr) then
276        write(*,*)trim(error_text)
277        aerok(iaer)=.false.
278      endif
279    ENDIF
280  endif
281ENDDO !iaer
282
283! Check if there is still at least one aerosol to compute
284IF (.NOT.ANY(aerok)) THEN
285  write(*,*) "No aerosol among those listed was found in the file. Better stop now..."
286  stop
287ENDIF
288
289!==========================================================================
290! 1.3 Get GCM atmospheric density
291!==========================================================================
292
293! Check that the GCM file contains that variable
294ierr=nf90_inq_varid(gcmfid,"rho",tmpvarid)
295error_text="Failed to find variable rho in "//trim(gcmfile)&
296            //" We need it to compute the opacity [1/km]."
297call status_check(ierr,error_text)
298! Length allocation for each dimension of the 4D variable
299allocate(rho(lonlen,latlen,altlen,timelen))
300! Load dataset
301ierr=nf90_get_var(gcmfid,tmpvarid,rho)
302error_text="Failed to load atmospheric density"
303call status_check(ierr,error_text)
304write(*,*) "Atmospheric density rho loaded from "//trim(gcmfile)
305
306
307!===============================================================================
308! 2. OUTPUT FILE VARIABLES
309!===============================================================================
310!==========================================================================
311! 2.1 Output variable's initializations and datasets loading
312!==========================================================================
313! Define the ID shape of the output variables
314varshape(1)=londimout
315varshape(2)=latdimout
316varshape(3)=altdimout
317varshape(4)=timedimout
318
319tauvarshape(1)=londimout
320tauvarshape(2)=latdimout
321tauvarshape(3)=timedimout
322
323
324! Loop on all aerosols
325DO iaer = 1, naerkind
326  if (aerok(iaer)) then ! check if this aerosol can be computed
327    write(*,*)""
328    write(*,*)"Computing ",trim(name_aer(iaer))," opacity..."
329   
330    ! Length allocation of the input variables
331    ALLOCATE(mmr(lonlen,latlen,altlen,timelen))
332    ALLOCATE(reff(lonlen,latlen,altlen,timelen))
333   
334    ! Datasets loading
335    ! ->MMR
336    ierr=NF90_GET_VAR(gcmfid,mmrvarid(iaer),mmr(:,:,:,:))
337    error_text="Failed to load mass mixing ratio"
338    call status_check(ierr,error_text)
339    write(*,*) "Mass mixing ratio loaded from "//trim(gcmfile)
340    ! Get missing value
341    ierr=nf90_get_att(gcmfid,mmrvarid(iaer),"missing_value",missval(iaer))
342    if (ierr.ne.nf90_noerr) then
343      missval(iaer) = 1.e+20
344    endif
345   
346    ! ->REFF
347    IF (reffval_ok(iaer).ne.0) THEN ! if the user gave a variable's name and not a value
348      ! Load dataset
349      ierr=NF90_GET_VAR(gcmfid,reffvarid(iaer),reff(:,:,:,:))
350      error_text="Failed to load effective radius"
351      call status_check(ierr,error_text)
352      write(*,*) "Effective radius loaded from "//trim(gcmfile)
353    ELSE ! if reffval_ok(iaer)=0
354      reff(:,:,:,:) = reffval_aer(iaer)
355      write(*,*) "Effective radius loaded from the user input"
356    ENDIF
357   
358 
359    ! Length allocation of the output variables
360    ALLOCATE(opa_aer(lonlen,latlen,altlen,timelen))
361   
362    if (trim(compute_col).eq."yes") then
363      ALLOCATE(tau_aer(lonlen,latlen,timelen))
364      tau_aer(:,:,:) = 0.
365    endif ! trim(compute_col).eq."yes"
366   
367   
368!==========================================================================
369! 2.2 Reading optical properties
370!==========================================================================
371
372    write(*,*)""
373    ! create the aeropt_mod log file for this aerosol
374    write(aeroptlogfile,*) "aeropt_log_",trim(name_aer(iaer)),".txt"
375    aeroptlogfileID = 100+iaer ! update the log file unit
376    CALL create_logfile(aeroptlogfile)
377
378    write(*,*)"Reading the optical properties..."
379    ! Read the properties tables
380    CALL read_optpropfile(datadir,optpropfile_aer(iaer))
381
382!==========================================================================
383! 2.3 Creation of the output aerosol opacity variable
384!==========================================================================
385    ! Switch to netcdf define mode
386    ierr=nf90_redef(outfid)
387    error_text="ERROR: Couldn't start netcdf define mode"
388    call status_check(ierr,error_text)
389    write(*,*)""
390   
391    ! Insert the definition of the variable
392    tmpvarname="opa_"//trim(name_aer(iaer))
393    ierr=NF90_DEF_VAR(outfid,trim(tmpvarname),nf90_float,varshape,tmpvaridout)
394    error_text="ERROR: Couldn't create "//trim(tmpvarname)//" in the outfile"
395    call status_check(ierr,error_text)
396    write(*,*) trim(tmpvarname)//" has been created in the outfile"
397
398    ! Write the attributes
399    if (opatype.eq."ext") then
400      tmplongname=trim(name_aer(iaer))//" extinction opacity at reference wavelength"
401      ierr=nf90_put_att(outfid,tmpvaridout,"long_name",tmplongname)
402    else ! opatype.eq."abs"
403      tmplongname=trim(name_aer(iaer))//" absorption opacity at reference wavelength"
404      ierr=nf90_put_att(outfid,tmpvaridout,"long_name",tmplongname)
405    endif
406   
407    ierr=nf90_put_att(outfid,tmpvaridout,"units","opacity/km")
408    ierr=nf90_put_att(outfid,tmpvaridout,"refwavelength",wvl_val)
409    ierr=nf90_put_att(outfid,tmpvaridout,"missing_value",missval(iaer))
410    write(*,*)"with missing value = ",missval(iaer)
411   
412    ! End netcdf define mode
413    ierr=nf90_enddef(outfid)
414    error_text="ERROR: Couldn't end netcdf define mode"
415    call status_check(ierr,error_text)
416
417!==========================================================================
418! 2.4 Computation of the opacities
419!==========================================================================
420    IF (reffval_ok(iaer).eq.0) THEN
421    ! if the user gave a reff value,
422    ! do the interpolation only once
423      CALL interp_wvl_reff(wvl_val,reffval_aer(iaer),missval(iaer),&
424                           Qext_val,omeg_val)
425      write(*,*) "Qext(reff_val)=",Qext_val," ; omeg(reff_val)=",omeg_val
426    ENDIF
427
428    do it=1,timelen
429     do ilon=1,lonlen
430      do ilat=1,latlen
431     
432       do ialt=1,altlen
433         IF (reffval_ok(iaer).ne.0) THEN ! if the user gave a variable's name and not a value
434           CALL interp_wvl_reff(wvl_val,reff(ilon,ilat,ialt,it),missval(iaer),&
435                                Qext_val,omeg_val)
436         ENDIF
437         
438         if ((Qext_val.eq.missval(iaer))) then
439           ! if the user's effective radius is
440           ! out of the optpropfile boundaries
441           opa_aer(ilon,ilat,ialt,it)=missval(iaer)
442           write(aeroptlogfileID,*) "(mmr(", ilon, ",", ilat, ",", ialt, ",", it,") = ",mmr(ilon,ilat,ialt,it),"kg/kg)"
443           write(aeroptlogfileID,*)""
444           
445         else if ((mmr(ilon,ilat,ialt,it).eq.missval(iaer))) then
446           ! if there is a missing value in input file
447           opa_aer(ilon,ilat,ialt,it)=missval(iaer)
448           
449         else
450           ! COMPUTATION OF THE EXTINCTION OPACITY [1/km]
451           opa_aer(ilon,ilat,ialt,it)= 750.*Qext_val*mmr(ilon,ilat,ialt,it)*rho(ilon,ilat,ialt,it)&
452                                               / ( rho_aer(iaer) * reff(ilon,ilat,ialt,it) )
453       
454           if (opatype.eq."abs") then
455              ! COMPUTATION OF THE ABSORPTION OPACITY [1/km]
456              opa_aer(ilon,ilat,ialt,it)= (1 - omeg_val) * opa_aer(ilon,ilat,ialt,it)
457           endif ! opatype.eq."abs"
458
459         endif
460         
461         if (trim(compute_col).eq."yes") then
462           ! COMPUTATION OF THE COLUMN-INTEGRATED OPTICAL DEPTH [/]
463           if (opa_aer(ilon,ilat,ialt,it).ne.missval(iaer)) then
464             tau_aer(ilon,ilat,it)= tau_aer(ilon,ilat,it)+opa_aer(ilon,ilat,ialt,it)*delta_z(ilon,ilat,ialt,it)
465           endif
466         endif ! trim(compute_col).eq."yes"
467             
468       enddo ! ialt
469       
470       if (trim(compute_col).eq."yes") then
471         ! COMPUTATION OF THE COLUMN-INTEGRATED OPTICAL DEPTH [/]
472         if (tau_aer(ilon,ilat,it).eq.0) then
473           ! Handle cases between "all opacities are missing values" (in which case we set tau=missval)
474           ! and "at least one opacity is not a missing value but is 0" (in which case we set tau=0)
475           if (ANY(opa_aer(ilon,ilat,:,it).ne.missval(iaer))) then
476             ! if at least one opacity in the column is not a missing value, i.e at least one opacity equals 0
477             tau_aer(ilon,ilat,it)= 0
478           else
479             tau_aer(ilon,ilat,it)= missval(iaer)
480           endif
481         endif
482       endif ! trim(compute_col).eq."yes"
483       
484      enddo ! ilat
485     enddo ! ilon
486    enddo ! it
487
488!==========================================================================
489! 3.3 Writing opacity in the output file
490!==========================================================================
491    ierr = NF90_PUT_VAR(outfid, tmpvaridout, opa_aer(:,:,:,:))
492    error_text="Error: could not write "//trim(tmpvarname)//" data in the outfile"
493    call status_check(ierr,error_text)
494   
495!==========================================================================
496! 3.4 Writing column-integrated optical depth in the output file
497!==========================================================================
498    if (trim(compute_col).eq."yes") then
499      ! Switch to netcdf define mode
500      ierr=nf90_redef(outfid)
501      error_text="ERROR: Couldn't start netcdf define mode"
502      call status_check(ierr,error_text)
503      write(*,*)""
504
505      ! Insert the definition of the variable
506      tmpvarname="tau_"//trim(name_aer(iaer))
507      ierr=NF90_DEF_VAR(outfid,trim(tmpvarname),nf90_float,tauvarshape,tmpvaridout)
508      error_text="ERROR: Couldn't create "//trim(tmpvarname)//" in the outfile"
509      call status_check(ierr,error_text)
510      write(*,*) trim(tmpvarname)//" has been created in the outfile"
511
512      ! Write the attributes
513      if (opatype.eq."ext") then
514        tmplongname=trim(name_aer(iaer))//" extinction column-integrated optical depth at ref. wavelength"
515        ierr=nf90_put_att(outfid,tmpvaridout,"long_name",tmplongname)
516      else ! opatype.eq."abs"
517        tmplongname=trim(name_aer(iaer))//" absorption column-integrated optical depth at ref. wavelength"
518        ierr=nf90_put_att(outfid,tmpvaridout,"long_name",tmplongname)
519      endif
520
521      ierr=nf90_put_att(outfid,tmpvaridout,"units","/")
522      ierr=nf90_put_att(outfid,tmpvaridout,"refwavelength",wvl_val)
523      ierr=nf90_put_att(outfid,tmpvaridout,"missing_value",missval(iaer))
524      write(*,*)"with missing value = ",missval(iaer)
525
526      ! End netcdf define mode
527      ierr=nf90_enddef(outfid)
528      error_text="ERROR: Couldn't end netcdf define mode"
529      call status_check(ierr,error_text)
530
531
532      ! Writing variable in output file
533      ierr = NF90_PUT_VAR(outfid, tmpvaridout, tau_aer(:,:,:))
534      error_text="Error: could not write "//trim(tmpvarname)//" data in the outfile"
535      call status_check(ierr,error_text)
536    endif ! trim(compute_col).eq."yes"
537   
538   
539!==========================================================================
540! 3.5 Prepare next loop
541!==========================================================================
542    DEALLOCATE(mmr)
543    DEALLOCATE(reff)
544    DEALLOCATE(opa_aer)
545    IF (allocated(tau_aer)) DEALLOCATE(tau_aer)
546   
547    CALL end_aeropt_mod
548   
549  endif ! if aerok(iaer)
550
551ENDDO ! iaer
552
553!===============================================================================
554! 4. Close the files and end the program
555!===============================================================================
556ierr = nf90_close(gcmfid)
557error_text="Error: could not close file "//trim(gcmfile)
558call status_check(ierr,error_text)
559
560ierr = nf90_close(outfid)
561error_text="Error: could not close file "//trim(outfile)
562call status_check(ierr,error_text)
563
564write(*,*)"";write(*,*)"Program aeroptical completed!"
565
566end program aeroptical
567
568
569
570
571
572!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
573!! SUBROUTINES
574!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
575
576subroutine status_check(ierr,error_text)
577
578use netcdf
579implicit none
580!================================================================
581!  Arguments:
582!================================================================
583integer,intent(in) :: ierr ! NetCDF status number
584character(len=256),intent(in) :: error_text
585
586if (ierr.ne.nf90_noerr) then
587  write(*,*)trim(error_text)
588  write(*,*)trim(nf90_strerror(ierr))
589  stop
590endif
591
592end subroutine status_check
593
594
595!*******************************************************************************
596
597subroutine inidims(gcmfile,gcmfid,outfile,outfid,lonlen,latlen,altlen,timelen,&
598                   latdimout,londimout,altdimout,timedimout,&
599                   GCM_layers,layerdimout,interlayerdimout)
600
601!==============================================================================
602! Purpose:
603! Read the dimensions of the input file
604! and write them in the output file
605!==============================================================================
606! Remarks:
607! The NetCDF files must be open
608!==============================================================================
609use netcdf
610
611implicit none
612
613!==============================================================================
614! Arguments:
615!==============================================================================
616character(len=128),intent(in) :: gcmfile ! name of the netcdf GCM input file
617integer,intent(in) :: gcmfid ! [netcdf] GCM input file ID number
618character(len=128),intent(in) :: outfile ! name of the netcdf output file
619integer,intent(in) :: outfid ! [netcdf] file ID number
620
621integer,intent(out) ::  lonlen,latlen,altlen,timelen
622! nb of grid points along longitude,latitude,altitude,time
623integer,intent(out) :: latdimout,londimout,altdimout,timedimout
624! latdimout: stores latitude dimension ID number
625! londimout: stores longitude dimension ID number
626! altdimout: stores altitude dimension ID number
627! timedimout: stores time dimension ID number
628integer,intent(out) :: GCM_layers ! number of GCM layers
629integer,intent(out) :: layerdimout ! "GCM_layers" ID
630integer,intent(out) :: interlayerdimout ! "GCM_layers+1" ID
631
632!==============================================================================
633! Local variables:
634!==============================================================================
635integer :: ierr ! [netcdf] subroutine returned error code
636character(len=256) :: error_text ! text to display in case of error
637
638integer :: tmpdimid,tmpvarid ! temporary store a dimension/variable ID number
639character (len=64) :: long_name,units,positive
640! long_name(): [netcdf] long_name attribute
641! units(): [netcdf] units attribute
642! positive(): [netcdf] positive direction attribute (for altitude)
643real, dimension(:), allocatable:: lat,lon,alt,time,ctl
644! lat(): array, stores latitude coordinates
645! lon(): array, stores longitude coordinates
646! alt(): array, stores altitude coordinates
647! time(): array, stores time coordinates
648! ctl(): array, stores controle variable
649integer :: ctllen ! nb of elements in the controle array
650integer :: tmpdimidout,tmpvaridout ! temporary stores a dimension/variable ID number
651
652!==============================================================================
653! LONGITUDE
654!==============================================================================
655! Get the dimension in GCM file
656ierr=nf90_inq_dimid(gcmfid,"longitude",tmpdimid)
657error_text="Error: Dimension <longitude> is missing in file "//trim(gcmfile)
658call status_check(ierr,error_text)
659
660ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=lonlen)
661allocate(lon(lonlen))
662
663! Create the dimension in output file
664ierr=NF90_DEF_DIM(outfid,"longitude",lonlen,londimout)
665error_text="Error: could not define the longitude dimension in the outfile"
666call status_check(ierr,error_text)
667
668! Get the field in GCM file
669ierr=nf90_inq_varid(gcmfid,"longitude",tmpvarid)
670error_text="Error: Field <longitude> is missing in file "//trim(gcmfile)
671call status_check(ierr,error_text)
672
673ierr=NF90_GET_VAR(gcmfid,tmpvarid,lon)
674error_text="Failed to load longitude"
675call status_check(ierr,error_text)
676
677! Create the field in the output file
678ierr=NF90_DEF_VAR(outfid,"longitude",nf90_float,(/londimout/),tmpvaridout)
679error_text="Error: could not define the longitude variable in the outfile"
680call status_check(ierr,error_text)
681
682! Get the field attributes in the GCM file
683ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",long_name)
684if (ierr.ne.nf90_noerr) then
685! if no attribute "long_name", try "title"
686  ierr=nf90_get_att(gcmfid,tmpvarid,"title",long_name)
687endif
688ierr=nf90_get_att(gcmfid,tmpvarid,"units",units)
689
690! Put the field attributes in the output file
691ierr=nf90_put_att(outfid,tmpvaridout,"long_name",long_name)
692ierr=nf90_put_att(outfid,tmpvaridout,"units",units)
693
694! Write the field values in the output file
695ierr=nf90_enddef(outfid) ! end netcdf define mode
696error_text="Error: could not end the define mode of the outfile"
697call status_check(ierr,error_text)
698
699ierr=NF90_PUT_VAR(outfid,tmpvaridout,lon)
700error_text="Error: could not write the longitude field in the outfile"
701call status_check(ierr,error_text)
702
703!==============================================================================
704! LATITUDE
705!==============================================================================
706! Switch to netcdf define mode
707ierr=nf90_redef(outfid)
708error_text="Error: could not switch to define mode in the outfile"
709call status_check(ierr,error_text)
710
711! Get the dimension in GCM file
712ierr=nf90_inq_dimid(gcmfid,"latitude",tmpdimid)
713error_text="Error: Dimension <latitude> is missing in file "//trim(gcmfile)
714call status_check(ierr,error_text)
715
716ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=latlen)
717allocate(lat(latlen))
718
719! Create the dimension in output file
720ierr=NF90_DEF_DIM(outfid,"latitude",latlen,latdimout)
721error_text="Error: could not define the latitude dimension in the outfile"
722call status_check(ierr,error_text)
723
724! Get the field in GCM file
725ierr=nf90_inq_varid(gcmfid,"latitude",tmpvarid)
726error_text="Error: Field <latitude> is missing in file "//trim(gcmfile)
727call status_check(ierr,error_text)
728
729ierr=NF90_GET_VAR(gcmfid,tmpvarid,lat)
730error_text="Failed to load latitude"
731call status_check(ierr,error_text)
732
733! Create the field in the output file
734ierr=NF90_DEF_VAR(outfid,"latitude",nf90_float,(/latdimout/),tmpvaridout)
735error_text="Error: could not define the latitude variable in the outfile"
736call status_check(ierr,error_text)
737
738! Get the field attributes in the GCM file
739ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",long_name)
740if (ierr.ne.nf90_noerr) then
741! if no attribute "long_name", try "title"
742  ierr=nf90_get_att(gcmfid,tmpvarid,"title",long_name)
743endif
744ierr=nf90_get_att(gcmfid,tmpvarid,"units",units)
745
746! Put the field attributes in the output file
747ierr=nf90_put_att(outfid,tmpvaridout,"long_name",long_name)
748ierr=nf90_put_att(outfid,tmpvaridout,"units",units)
749
750! Write the field values in the output file
751ierr=nf90_enddef(outfid) ! end netcdf define mode
752error_text="Error: could not end the define mode of the outfile"
753call status_check(ierr,error_text)
754
755ierr=NF90_PUT_VAR(outfid,tmpvaridout,lat)
756error_text="Error: could not write the latitude field in the outfile"
757call status_check(ierr,error_text)
758
759!==============================================================================
760! ALTITUDE
761!==============================================================================
762! Switch to netcdf define mode
763ierr=nf90_redef(outfid)
764error_text="Error: could not switch to define mode in the outfile"
765call status_check(ierr,error_text)
766
767! Get the dimension in GCM file
768ierr=nf90_inq_dimid(gcmfid,"altitude",tmpdimid)
769error_text="Error: Dimension <altitude> is missing in file "//trim(gcmfile)
770call status_check(ierr,error_text)
771
772ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=altlen)
773allocate(alt(altlen))
774
775! Create the dimension in output file
776ierr=NF90_DEF_DIM(outfid,"altitude",altlen,altdimout)
777error_text="Error: could not define the altitude dimension in the outfile"
778call status_check(ierr,error_text)
779
780! Get the field in GCM file
781ierr=nf90_inq_varid(gcmfid,"altitude",tmpvarid)
782error_text="Error: Field <altitude> is missing in file "//trim(gcmfile)
783call status_check(ierr,error_text)
784
785ierr=NF90_GET_VAR(gcmfid,tmpvarid,alt)
786error_text="Failed to load altitude"
787call status_check(ierr,error_text)
788
789! Create the field in the output file
790ierr=NF90_DEF_VAR(outfid,"altitude",nf90_float,(/altdimout/),tmpvaridout)
791error_text="Error: could not define the altitude variable in the outfile"
792call status_check(ierr,error_text)
793
794! Get the field attributes in the GCM file
795ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",long_name)
796if (ierr.ne.nf90_noerr) then
797! if no attribute "long_name", try "title"
798  ierr=nf90_get_att(gcmfid,tmpvarid,"title",long_name)
799endif
800ierr=nf90_get_att(gcmfid,tmpvarid,"units",units)
801ierr=nf90_get_att(gcmfid,tmpvarid,"positive",positive)
802
803! Put the field attributes in the output file
804ierr=nf90_put_att(outfid,tmpvaridout,"long_name",long_name)
805ierr=nf90_put_att(outfid,tmpvaridout,"units",units)
806ierr=nf90_put_att(outfid,tmpvaridout,"positive",positive)
807
808! Write the field values in the output file
809ierr=nf90_enddef(outfid) ! end netcdf define mode
810error_text="Error: could not end the define mode of the outfile"
811call status_check(ierr,error_text)
812
813ierr=NF90_PUT_VAR(outfid,tmpvaridout,alt)
814error_text="Error: could not write the altitude field in the outfile"
815call status_check(ierr,error_text)
816
817!==============================================================================
818! TIME
819!==============================================================================
820! Switch to netcdf define mode
821ierr=nf90_redef(outfid)
822error_text="Error: could not switch to define mode in the outfile"
823call status_check(ierr,error_text)
824
825! Get the dimension in GCM file
826ierr=nf90_inq_dimid(gcmfid,"Time",tmpdimid)
827error_text="Error: Dimension <Time> is missing in file "//trim(gcmfile)
828call status_check(ierr,error_text)
829
830ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=timelen)
831allocate(time(timelen))
832
833! Create the dimension in output file
834ierr=NF90_DEF_DIM(outfid,"Time",timelen,timedimout)
835error_text="Error: could not define the time dimension in the outfile"
836call status_check(ierr,error_text)
837
838! Get the field in GCM file
839ierr=nf90_inq_varid(gcmfid,"Time",tmpvarid)
840error_text="Error: Field <Time> is missing in file "//trim(gcmfile)
841call status_check(ierr,error_text)
842
843ierr=NF90_GET_VAR(gcmfid,tmpvarid,time)
844error_text="Failed to load Time"
845call status_check(ierr,error_text)
846
847! Create the field in the output file
848ierr=NF90_DEF_VAR(outfid,"Time",nf90_float,(/timedimout/),tmpvaridout)
849error_text="Error: could not define the Time variable in the outfile"
850call status_check(ierr,error_text)
851
852! Get the field attributes in the GCM file
853ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",long_name)
854if (ierr.ne.nf90_noerr) then
855! if no attribute "long_name", try "title"
856  ierr=nf90_get_att(gcmfid,tmpvarid,"title",long_name)
857endif
858ierr=nf90_get_att(gcmfid,tmpvarid,"units",units)
859
860! Put the field attributes in the output file
861ierr=nf90_put_att(outfid,tmpvaridout,"long_name",long_name)
862ierr=nf90_put_att(outfid,tmpvaridout,"units",units)
863
864! Write the field values in the output file
865ierr=nf90_enddef(outfid) ! end netcdf define mode
866error_text="Error: could not end the define mode of the outfile"
867call status_check(ierr,error_text)
868
869ierr=NF90_PUT_VAR(outfid,tmpvaridout,time)
870error_text="Error: could not write the Time field in the outfile"
871call status_check(ierr,error_text)
872
873!==============================================================================
874! CONTROLE
875!==============================================================================
876! Switch to netcdf define mode
877ierr=nf90_redef(outfid)
878error_text="Error: could not switch to define mode in the outfile"
879call status_check(ierr,error_text)
880
881! Get the dimension in GCM file
882ierr=nf90_inq_dimid(gcmfid,"index",tmpdimid)
883error_text="Dimension <index> is missing in file "//trim(gcmfile)&
884           //". We'll skip that one."
885if (ierr.ne.nf90_noerr) then
886  write(*,*)trim(error_text)
887  ierr=nf90_enddef(outfid) ! end netcdf define mode
888  error_text="Error: could not end the define mode of the outfile"
889  call status_check(ierr,error_text)
890else
891  ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=ctllen)
892  allocate(ctl(ctllen))
893
894  ! Create the dimension in output file
895  ierr=NF90_DEF_DIM(outfid,"index",ctllen,tmpdimidout)
896  error_text="Error: could not define the index dimension in the outfile"
897  call status_check(ierr,error_text)
898
899  ! Get the field in GCM file
900  ierr=nf90_inq_varid(gcmfid,"controle",tmpvarid)
901  error_text="Error: Field <controle> is missing in file "//trim(gcmfile)
902  call status_check(ierr,error_text)
903
904  ierr=NF90_GET_VAR(gcmfid,tmpvarid,ctl)
905  error_text="Failed to load ctl"
906  call status_check(ierr,error_text)
907
908  ! Create the field in the output file
909  ierr=NF90_DEF_VAR(outfid,"controle",nf90_float,(/tmpdimidout/),tmpvaridout)
910  error_text="Error: could not define the controle variable in the outfile"
911  call status_check(ierr,error_text)
912
913  ! Get the field attributes in the GCM file
914  ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",long_name)
915  if (ierr.ne.nf90_noerr) then
916  ! if no attribute "long_name", try "title"
917    ierr=nf90_get_att(gcmfid,tmpvarid,"title",long_name)
918  endif
919
920  ! Put the field attributes in the output file
921  ierr=nf90_put_att(outfid,tmpvaridout,"long_name",long_name)
922
923  ! Write the field values in the output file
924  ierr=nf90_enddef(outfid) ! end netcdf define mode
925  error_text="Error: could not end the define mode of the outfile"
926  call status_check(ierr,error_text)
927
928  ierr=NF90_PUT_VAR(outfid,tmpvaridout,ctl)
929  error_text="Error: could not write the controle field in the outfile"
930  call status_check(ierr,error_text)
931endif
932
933
934!==============================================================================
935! Load size of aps() or sigma() (in case it is not altlen)
936!==============================================================================
937! Switch to netcdf define mode
938ierr=nf90_redef(outfid)
939error_text="Error: could not switch to define mode in the outfile"
940call status_check(ierr,error_text)
941
942! Default is that GCM_layers=altlen
943! but for outputs of zrecast, it may be a different value
944ierr=nf90_inq_dimid(gcmfid,"GCM_layers",tmpdimid)
945if (ierr.ne.nf90_noerr) then
946  ! didn't find a GCM_layers dimension;
947  ! we look for interlayer dimension
948  ierr=nf90_inq_dimid(gcmfid,"interlayer",tmpdimid)
949  if (ierr.eq.nf90_noerr) then
950    ! load value of GCM_layers
951    ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=GCM_layers)
952    GCM_layers=GCM_layers-1
953  else
954    ! didn't find a GCM_layers or interlayer dimension; therefore we have:
955    GCM_layers=altlen
956  endif
957else
958  ! load value of GCM_layers
959  ierr=nf90_inquire_dimension(gcmfid,tmpdimid,len=GCM_layers)
960endif
961
962! Create the dimensions in output file
963ierr = NF90_DEF_DIM(outfid,"GCM_layers",GCM_layers,layerdimout)
964error_text="Error: could not define the GCM_layers dimension in the outfile"
965call status_check(ierr,error_text)
966ierr = NF90_DEF_DIM(outfid,"GCM_interlayers",GCM_layers+1,interlayerdimout)
967error_text="Error: could not define the GCM_interlayers dimension in the outfile"
968call status_check(ierr,error_text)
969
970! End netcdf define mode
971ierr=nf90_enddef(outfid)
972error_text="Error: could not end the define mode of the outfile"
973call status_check(ierr,error_text)
974
975end subroutine inidims
976
977
978!*******************************************************************************
979
980subroutine init2(gcmfid,lonlen,latlen,altlen,timelen,GCM_layers, &
981                 outfid,londimout,latdimout,altdimout,timedimout, &
982                 layerdimout,interlayerdimout,&
983                 compute_col,delta_z)
984!==============================================================================
985! Purpose:
986! Copy ap() , bp(), aps(), bps(), aire() and phisinit()
987! from input file to output file
988! + compute layers' height if needed
989!==============================================================================
990! Remarks:
991! The NetCDF files must be open
992!==============================================================================
993
994use netcdf
995
996implicit none
997
998!==============================================================================
999! Arguments:
1000!==============================================================================
1001integer, intent(in) :: gcmfid               ! NetCDF output file ID
1002integer, intent(in) :: lonlen               ! # of grid points along longitude
1003integer, intent(in) :: latlen               ! # of grid points along latitude
1004integer, intent(in) :: altlen               ! # of grid points along altitude
1005integer, intent(in) :: timelen              ! # of grid points along time
1006integer, intent(in) :: GCM_layers           ! # of GCM atmospheric layers
1007integer, intent(in) :: outfid               ! NetCDF output file ID
1008integer, intent(in) :: londimout            ! longitude dimension ID
1009integer, intent(in) :: latdimout            ! latitude dimension ID
1010integer, intent(in) :: altdimout            ! altitude dimension ID
1011integer, intent(in) :: timedimout           ! time dimension ID
1012integer, intent(in) :: layerdimout          ! GCM_layers dimension ID
1013integer, intent(in) :: interlayerdimout     ! GCM_layers+1 dimension ID
1014character(len=3), intent(in) :: compute_col ! does the user want to compute the column-integrated optical depth [yes/no]
1015
1016real,dimension(lonlen,latlen,altlen,timelen), intent(out) :: delta_z ! altitude difference between interlayers [km]
1017
1018!==============================================================================
1019! Local variables:
1020!==============================================================================
1021real,dimension(:),allocatable :: aps,bps    ! hybrid vertical coordinates
1022real,dimension(:),allocatable :: ap,bp      ! hybrid vertical coordinates
1023real,dimension(:),allocatable :: sigma      ! sigma levels
1024real,dimension(:,:),allocatable :: aire     ! mesh areas
1025real,dimension(:,:),allocatable :: phisinit ! Ground geopotential
1026
1027integer :: ierr                  ! [netcdf] subroutine returned error code
1028character(len=256) :: error_text ! text to display in case of error
1029integer :: tmpvarid              ! temporary variable ID
1030
1031logical :: area   ! is "aire" available ?
1032logical :: phis   ! is "phisinit" available ?
1033logical :: hybrid ! are "aps" and "bps" available ?
1034logical :: apbp   ! are "ap" and "bp" available ? + are they usable for delta_z computation ?
1035
1036
1037! for delta_z computation
1038real,dimension(:,:,:,:),allocatable :: zlev ! altitude of the interlayers [km]
1039logical :: is_zlev                          ! is zzlev available ?
1040integer,dimension(4) :: zlevdimids          ! dimensions of zzlev in GCM file
1041integer :: zlevvertlen                      ! length of the vertical dimension of zlev
1042
1043real,dimension(altlen) :: alt               ! altitude coordinates
1044character (len=64) :: altlong_name,altunits ! altitude long_name and units attributes
1045
1046real,dimension(:,:,:,:),allocatable :: plev ! pressure of the interlayers [km]
1047real,dimension(:,:,:),allocatable :: ps     ! surface pressure [Pa]
1048real,dimension(:,:,:,:),allocatable :: rho  ! atmospheric density [kg/m3]
1049real,parameter :: g0 =3.7257964             ! Mars gravity [m.s-2]
1050
1051real,dimension(:,:,:,:),allocatable :: zlay ! altitude of the layers [km]
1052
1053integer :: ilon,ilat,it,ialt                ! loop indices
1054real :: missval                             ! GCM variables missing value attribute
1055
1056!==============================================================================
1057! 1. Read data from input file
1058!==============================================================================
1059
1060! hybrid coordinate aps
1061!write(*,*) "aps: altlen=",altlen," GCM_layers=",GCM_layers
1062allocate(aps(GCM_layers),stat=ierr)
1063if (ierr.ne.0) then
1064  write(*,*) "init2: failed to allocate aps!"
1065  stop
1066endif
1067ierr=nf90_inq_varid(gcmfid,"aps",tmpvarid)
1068if (ierr.ne.nf90_noerr) then
1069  write(*,*) "Ooops. Failed to get aps ID. OK, will look for sigma coord."
1070  hybrid=.false.
1071else
1072  ierr=NF90_GET_VAR(gcmfid,tmpvarid,aps)
1073  hybrid=.true.
1074  if (ierr.ne.nf90_noerr) then
1075    write(*,*) "init2 Error: Failed reading aps"
1076    stop
1077  endif
1078
1079  ! hybrid coordinate bps
1080!  write(*,*) "bps: altlen=",altlen," GCM_layers=",GCM_layers
1081  allocate(bps(GCM_layers),stat=ierr)
1082  if (ierr.ne.0) then
1083    write(*,*) "init2: failed to allocate bps!"
1084    stop
1085  endif
1086  ierr=nf90_inq_varid(gcmfid,"bps",tmpvarid)
1087  if (ierr.ne.nf90_noerr) then
1088    write(*,*) "init2 Error: Failed to get bps ID."
1089    stop
1090  endif
1091  ierr=NF90_GET_VAR(gcmfid,tmpvarid,bps)
1092  if (ierr.ne.nf90_noerr) then
1093    write(*,*) "init2 Error: Failed reading bps"
1094    stop
1095  endif
1096endif
1097
1098! hybrid coordinate ap
1099allocate(ap(GCM_layers+1),stat=ierr)
1100if (ierr.ne.0) then
1101  write(*,*) "init2: failed to allocate ap!"
1102  stop
1103else
1104  ierr=nf90_inq_varid(gcmfid,"ap",tmpvarid)
1105  if (ierr.ne.nf90_noerr) then
1106    write(*,*) "Ooops. Failed to get ap ID. OK."
1107    apbp=.false.
1108  else
1109    ierr=NF90_GET_VAR(gcmfid,tmpvarid,ap)
1110    apbp=.true.
1111    if (ierr.ne.nf90_noerr) then
1112      write(*,*) "Error: Failed reading ap"
1113      stop
1114    endif
1115  endif
1116endif
1117
1118! hybrid coordinate bp
1119allocate(bp(GCM_layers+1),stat=ierr)
1120if (ierr.ne.0) then
1121  write(*,*) "init2: failed to allocate bp!"
1122  stop
1123else
1124  ierr=nf90_inq_varid(gcmfid,"bp",tmpvarid)
1125  if (ierr.ne.nf90_noerr) then
1126    write(*,*) "Ooops. Failed to get bp ID. OK."
1127    apbp=.false.
1128  else
1129    ierr=NF90_GET_VAR(gcmfid,tmpvarid,bp)
1130    apbp=.true.
1131    if (ierr.ne.nf90_noerr) then
1132      write(*,*) "Error: Failed reading bp"
1133      stop
1134    endif
1135  endif
1136endif
1137
1138! sigma levels (if any)
1139if (.not.hybrid) then
1140  allocate(sigma(GCM_layers),stat=ierr)
1141  if (ierr.ne.0) then
1142    write(*,*) "init2: failed to allocate sigma"
1143    stop
1144  endif
1145  ierr=nf90_inq_varid(gcmfid,"sigma",tmpvarid)
1146  ierr=NF90_GET_VAR(gcmfid,tmpvarid,sigma)
1147  if (ierr.ne.nf90_noerr) then
1148    write(*,*) "init2 Error: Failed reading sigma"
1149    stop
1150  endif
1151endif ! of if (.not.hybrid)
1152
1153! mesh area
1154allocate(aire(lonlen,latlen),stat=ierr)
1155if (ierr.ne.0) then
1156  write(*,*) "init2: failed to allocate aire!"
1157  stop
1158endif
1159ierr=nf90_inq_varid(gcmfid,"aire",tmpvarid)
1160if (ierr.ne.nf90_noerr) then
1161  write(*,*)"init2 warning: Failed to get aire ID."
1162  area = .false.
1163else
1164  ierr=NF90_GET_VAR(gcmfid,tmpvarid,aire)
1165  if (ierr.ne.nf90_noerr) then
1166    write(*,*) "init2 Error: Failed reading aire"
1167    stop
1168  endif
1169  area = .true.
1170endif
1171
1172! ground geopotential phisinit
1173allocate(phisinit(lonlen,latlen),stat=ierr)
1174if (ierr.ne.0) then
1175  write(*,*) "init2: failed to allocate phisinit!"
1176  stop
1177endif
1178ierr=nf90_inq_varid(gcmfid,"phisinit",tmpvarid)
1179if (ierr.ne.nf90_noerr) then
1180  write(*,*)"init2 warning: Failed to get phisinit ID."
1181  phis = .false.
1182else
1183  ierr=NF90_GET_VAR(gcmfid,tmpvarid,phisinit)
1184  if (ierr.ne.nf90_noerr) then
1185    write(*,*) "init2 Error: Failed reading phisinit"
1186    stop
1187  endif
1188  phis = .true.
1189endif
1190
1191!==============================================================================
1192! 2. Write
1193!==============================================================================
1194
1195!=========================================================================
1196! 2.1 Hybrid coordinates ap(), bp(), aps() and bps()
1197!=========================================================================
1198if(hybrid) then
1199! define aps
1200  ! Switch to netcdf define mode
1201  ierr=nf90_redef(outfid)
1202  ! Insert the definition of the variable
1203  ierr=NF90_DEF_VAR(outfid,"aps",nf90_float,(/layerdimout/),tmpvarid)
1204  if (ierr.ne.nf90_noerr) then
1205     write(*,*) "init2 Error: Failed to define the variable aps"
1206     stop
1207  endif
1208  ! Write the attributes
1209  ierr=nf90_put_att(outfid,tmpvarid,"long_name","hybrid pressure at midlayers")
1210  ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1211  ! End netcdf define mode
1212  ierr=nf90_enddef(outfid)
1213
1214! write aps
1215  ierr=NF90_PUT_VAR(outfid,tmpvarid,aps)
1216  if (ierr.ne.nf90_noerr) then
1217    write(*,*) "init2 Error: Failed to write aps"
1218    stop
1219  endif
1220
1221! define bps
1222  ! Switch to netcdf define mode
1223  ierr=nf90_redef(outfid)
1224  ! Insert the definition of the variable
1225  ierr=NF90_DEF_VAR(outfid,"bps",nf90_float,(/layerdimout/),tmpvarid)
1226  if (ierr.ne.nf90_noerr) then
1227     write(*,*) "init2 Error: Failed to define the variable bps"
1228     stop
1229  endif
1230  ! Write the attributes
1231  ierr=nf90_put_att(outfid,tmpvarid,"long_name","hybrid sigma at midlayers")
1232  ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1233  ! End netcdf define mode
1234  ierr=nf90_enddef(outfid)
1235   
1236! write bps
1237  ierr=NF90_PUT_VAR(outfid,tmpvarid,bps)
1238  if (ierr.ne.nf90_noerr) then
1239    write(*,*) "init2 Error: Failed to write bps"
1240    stop
1241  endif
1242
1243  if (apbp) then
1244! define ap
1245
1246    ! Switch to netcdf define mode
1247    ierr=nf90_redef(outfid)
1248    ! Insert the definition of the variable
1249    ierr=NF90_DEF_VAR(outfid,"ap",nf90_float,(/interlayerdimout/),tmpvarid)
1250    if (ierr.ne.nf90_noerr) then
1251       write(*,*) "init2 Error: Failed to define the variable ap"
1252       stop
1253    endif
1254    ! Write the attributes
1255    ierr=nf90_put_att(outfid,tmpvarid,"long_name","hybrid sigma at interlayers")
1256    ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1257    ! End netcdf define mode
1258    ierr=nf90_enddef(outfid)
1259
1260! write ap
1261    ierr=NF90_PUT_VAR(outfid,tmpvarid,ap)
1262    if (ierr.ne.nf90_noerr) then
1263      write(*,*) "Error: Failed to write ap"
1264      stop
1265    endif
1266
1267! define bp
1268
1269    ! Switch to netcdf define mode
1270    ierr=nf90_redef(outfid)
1271    ! Insert the definition of the variable
1272    ierr=NF90_DEF_VAR(outfid,"bp",nf90_float,(/interlayerdimout/),tmpvarid)
1273    if (ierr.ne.nf90_noerr) then
1274       write(*,*) "init2 Error: Failed to define the variable bp"
1275       stop
1276    endif
1277    ! Write the attributes
1278    ierr=nf90_put_att(outfid,tmpvarid,"long_name","hybrid sigma at interlayers")
1279    ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1280    ! End netcdf define mode
1281    ierr=nf90_enddef(outfid)
1282 
1283! write bp
1284    ierr=NF90_PUT_VAR(outfid,tmpvarid,bp)
1285    if (ierr.ne.nf90_noerr) then
1286      write(*,*) "Error: Failed to write bp"
1287      stop
1288    endif
1289  endif ! of if (apbp)
1290
1291else
1292
1293  ! Switch to netcdf define mode
1294  ierr=nf90_redef(outfid)
1295  ! Insert the definition of the variable
1296  ierr=NF90_DEF_VAR(outfid,"sigma",nf90_float,(/layerdimout/),tmpvarid)
1297  if (ierr.ne.nf90_noerr) then
1298     write(*,*) "init2 Error: Failed to define the variable sigma"
1299     stop
1300  endif
1301  ! Write the attributes
1302  ierr=nf90_put_att(outfid,tmpvarid,"long_name","sigma at midlayers")
1303  ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1304  ! End netcdf define mode
1305  ierr=nf90_enddef(outfid)
1306 
1307! write sigma
1308  ierr=NF90_PUT_VAR(outfid,tmpvarid,sigma)
1309  if (ierr.ne.nf90_noerr) then
1310    write(*,*) "init2 Error: Failed to write sigma"
1311    stop
1312  endif
1313endif ! of if (hybrid)
1314
1315!=========================================================================
1316! 2.2 aire() and phisinit()
1317!=========================================================================
1318
1319if (area) then
1320
1321  ! Switch to netcdf define mode
1322  ierr=nf90_redef(outfid)
1323  ! Insert the definition of the variable
1324  ierr=NF90_DEF_VAR(outfid,"aire",nf90_float,(/londimout,latdimout/),tmpvarid)
1325  if (ierr.ne.nf90_noerr) then
1326     write(*,*) "init2 Error: Failed to define the variable aire"
1327     stop
1328  endif
1329  ! Write the attributes
1330  ierr=nf90_put_att(outfid,tmpvarid,"long_name","Mesh area")
1331  ierr=nf90_put_att(outfid,tmpvarid,"units","m2")
1332  ! End netcdf define mode
1333  ierr=nf90_enddef(outfid)
1334 
1335  ! write aire
1336  ierr=NF90_PUT_VAR(outfid,tmpvarid,aire)
1337  if (ierr.ne.nf90_noerr) then
1338    write(*,*) "init2 Error: Failed to write aire"
1339    stop
1340  endif
1341endif ! of if (area)
1342
1343if (phis) then
1344
1345  ! Switch to netcdf define mode
1346  ierr=nf90_redef(outfid)
1347  ! Insert the definition of the variable
1348  ierr=NF90_DEF_VAR(outfid,"phisinit",nf90_float,(/londimout,latdimout/),tmpvarid)
1349  if (ierr.ne.nf90_noerr) then
1350    write(*,*) "init2 Error: Failed to define the variable phisinit"
1351    stop
1352  endif
1353  ! Write the attributes
1354  ierr=nf90_put_att(outfid,tmpvarid,"long_name","Ground level geopotential")
1355  ierr=nf90_put_att(outfid,tmpvarid,"units"," ")
1356  ! End netcdf define mode
1357  ierr=nf90_enddef(outfid)
1358
1359  ! write phisinit
1360  ierr=NF90_PUT_VAR(outfid,tmpvarid,phisinit)
1361  if (ierr.ne.nf90_noerr) then
1362    write(*,*) "init2 Error: Failed to write phisinit"
1363    stop
1364  endif
1365
1366endif ! of if (phis)
1367
1368
1369!==============================================================================
1370! 3. Compute delta_z for column integration
1371!==============================================================================
1372if (trim(compute_col).eq."yes") then
1373  write(*,*) "Computing the layers' height delta_z..."
1374 
1375!=========================================================================
1376! 3.1 CASE 1: the GCM file contains zzlev variable
1377!=========================================================================
1378  ! Does the field exist in GCM file?
1379  is_zlev=.false.
1380  ierr=nf90_inq_varid(gcmfid,"zzlev",tmpvarid)
1381 
1382  IF (ierr.eq.nf90_noerr) THEN
1383    ! zzlev is present in the GCM file
1384    is_zlev=.true.
1385    write(*,*) "zzlev was found in GCM file"
1386   
1387    ! Get the field's dimensions
1388    ierr=nf90_inquire_variable(gcmfid,tmpvarid,dimids=zlevdimids)
1389   
1390    ! Get the length of the vertical dimension (assuming vertical dim is #3 like other variables)
1391    ierr=nf90_inquire_dimension(gcmfid,zlevdimids(3),len=zlevvertlen)
1392   
1393    ! Get missing value
1394    ierr=nf90_get_att(gcmfid,tmpvarid,"missing_value",missval)
1395    if (ierr.ne.nf90_noerr) then
1396      missval = 1.e+20
1397    endif
1398   
1399    if (zlevvertlen.eq.altlen+1) then
1400      ! we have every interlayer altitudes, even the top one
1401      allocate(zlev(lonlen,latlen,altlen+1,timelen))
1402
1403      ! Get zlev variable
1404      ierr=NF90_GET_VAR(gcmfid,tmpvarid,zlev)
1405      error_text="Failed to load zzlev"
1406      call status_check(ierr,error_text)
1407     
1408      ! Compute delta_z [km]
1409      ! NB : the unit for zzlev variable is "m"
1410      do ilon=1,lonlen
1411       do ilat=1,latlen
1412        do it=1,timelen
1413         do ialt=1,altlen
1414         
1415          if ((zlev(ilon,ilat,ialt+1,it).eq.missval).or.(zlev(ilon,ilat,ialt,it).eq.missval)) then
1416            delta_z(ilon,ilat,ialt,it) = 0
1417          else
1418            delta_z(ilon,ilat,ialt,it) = (zlev(ilon,ilat,ialt+1,it)-zlev(ilon,ilat,ialt,it)) /1000
1419          endif ! missval
1420           
1421         enddo ! ialt=1,altlen
1422        enddo ! it=1,timelen
1423       enddo ! ilat=1,latlen
1424      enddo ! ilon=1,lonlen
1425     
1426    else if (zlevvertlen.eq.altlen) then
1427      ! we have every interlayer altitudes, except the top one
1428      allocate(zlev(lonlen,latlen,altlen,timelen))
1429
1430      ! Get zlev variable
1431      ierr=NF90_GET_VAR(gcmfid,tmpvarid,zlev)
1432      error_text="Failed to load zzlev"
1433      call status_check(ierr,error_text)
1434     
1435      ! Compute delta_z [km]
1436      ! NB : the unit for zrecasted altitude is "m"
1437      do ilon=1,lonlen
1438       do ilat=1,latlen
1439        do it=1,timelen
1440         do ialt=1,altlen-1
1441         
1442          if ((zlev(ilon,ilat,ialt+1,it).eq.missval).or.(zlev(ilon,ilat,ialt,it).eq.missval)) then
1443            delta_z(ilon,ilat,ialt,it) = 0
1444          else
1445            delta_z(ilon,ilat,ialt,it) = (zlev(ilon,ilat,ialt+1,it)-zlev(ilon,ilat,ialt,it)) /1000
1446          endif ! missval
1447           
1448         enddo ! ialt=1,altlen-1
1449         
1450         ! top of last layer : we assume the same height than the layer below
1451         delta_z(ilon,ilat,altlen,it) = delta_z(ilon,ilat,altlen-1,it)
1452         
1453        enddo ! it=1,timelen
1454       enddo ! ilat=1,latlen
1455      enddo ! ilon=1,lonlen
1456           
1457     
1458      write(*,*) "delta_z has been well computed from variable zzlev"
1459      write(*,*)""
1460   
1461    else
1462      ! weird case where the GCM file would have been zrecasted but not the zzlev variable?
1463      ! anyway, we can't use zzlev then
1464      write(*,*) "zzlev and altitude of GCM file don't have the same dimension."
1465      write(*,*) "We will try to use the altitude dimension to compute the layers' height."
1466      write(*,*)""
1467      is_zlev=.false.
1468
1469    endif ! (zlevvertlen.eq.altlen+1)
1470     
1471  ENDIF ! (ierr.eq.nf90_noerr) = zzlev present in file
1472
1473!=========================================================================
1474! 3.2 CASE 2: try to use the GCM altitude dimension
1475!=========================================================================
1476  IF (is_zlev.eq..false.) THEN
1477    ! Get the field in GCM file
1478    ierr=nf90_inq_varid(gcmfid,"altitude",tmpvarid)
1479
1480    ierr=NF90_GET_VAR(gcmfid,tmpvarid,alt)
1481    error_text="Failed to load altitude"
1482    call status_check(ierr,error_text)
1483
1484    ! Get the field attributes in the GCM file
1485    ierr=nf90_get_att(gcmfid,tmpvarid,"long_name",altlong_name)
1486    if (ierr.ne.nf90_noerr) then
1487    ! if no attribute "long_name", try "title"
1488      ierr=nf90_get_att(gcmfid,tmpvarid,"title",altlong_name)
1489    endif
1490    ierr=nf90_get_att(gcmfid,tmpvarid,"units",altunits)
1491   
1492    IF (trim(altlong_name).eq."pseudo-alt") THEN
1493      ! GCM file has not been zrecasted, so we can use ap,bp
1494      ! and compute delta_z from the layer mass
1495      ! we need ps and rho to use this method
1496     
1497      ! Check that ap,bp have the same dimension length than altlen+1
1498      if (GCM_layers+1.ne.altlen+1) then
1499        apbp=.false.
1500      endif 
1501     
1502      ! Load Psurf to reconstruct pressure
1503      ! Does the field exist in GCM file?
1504      ierr=nf90_inq_varid(gcmfid,"ps",tmpvarid)
1505      if (ierr.eq.nf90_noerr) then
1506        allocate(ps(lonlen,latlen,timelen))
1507        ! Get ps variable
1508        ierr=NF90_GET_VAR(gcmfid,tmpvarid,ps)
1509        error_text="Failed to load surface pressure ps"
1510        call status_check(ierr,error_text)
1511      else
1512        apbp=.false.
1513      endif
1514
1515      ! Load rho to compute delta_z from the layer mass
1516      ! Does the field exist in GCM file?
1517      ierr=nf90_inq_varid(gcmfid,"rho",tmpvarid)
1518      if (ierr.eq.nf90_noerr) then
1519        allocate(rho(lonlen,latlen,altlen,timelen))
1520        ! Get temp variable
1521        ierr=NF90_GET_VAR(gcmfid,tmpvarid,rho)
1522        error_text="Failed to load atmospheric rho"
1523        call status_check(ierr,error_text)
1524      else
1525        apbp=.false.
1526      endif
1527       
1528      if (apbp) then
1529        allocate(plev(lonlen,latlen,altlen+1,timelen))
1530        ! Compute delta_z [km]
1531        do ilon=1,lonlen
1532         do ilat=1,latlen
1533          do it=1,timelen
1534           ! plev at first level
1535           plev(ilon,ilat,1,it) = ap(1)+bp(1)*ps(ilon,ilat,it)
1536           
1537           do ialt=1,altlen
1538              ! plev just above
1539              plev(ilon,ilat,ialt+1,it) = ap(ialt+1)+bp(ialt+1)*ps(ilon,ilat,it)
1540              ! delta_z [km] from layer mass
1541              delta_z(ilon,ilat,ialt,it) = (plev(ilon,ilat,ialt,it)-plev(ilon,ilat,ialt+1,it)) &
1542                                           / (g0*rho(ilon,ilat,ialt,it)) /1000
1543
1544           enddo ! ialt=1,altlen
1545           
1546          enddo ! it=1,timelen
1547         enddo ! ilat=1,latlen
1548        enddo ! ilon=1,lonlen
1549
1550        write(*,*) "delta_z has been well computed from variables ap,bp,ps,rho"
1551        write(*,*)""       
1552       
1553      else
1554        ! no ap,bp in GCM file
1555        ! => take the middle of the layer altitudes as the interlayer altitude
1556        ! NB : the unit for "pseudo-alt" altitude (not zrecasted) is "km"
1557        do ialt=2,altlen-1
1558          delta_z(:,:,ialt,:) = (alt(ialt+1)-alt(ialt-1))/2
1559        enddo
1560        delta_z(:,:,1,:) = alt(2)/2 ! bottom at 0km (ok since pseudo-alt can't be negative)
1561        delta_z(:,:,altlen,:) = delta_z(:,:,altlen-1,:) ! top of last layer : we assume the same height than the layer below
1562
1563        write(*,*) "delta_z has been well computed from dimension pseudo-altitude"
1564        write(*,*)""
1565       
1566      endif ! apbp
1567     
1568    ELSE IF (trim(altunits).eq."m") THEN
1569      ! GCM file has been zrecasted in altitude above surface/areoid/center of planet
1570      ! NB : the unit for zrecasted altitude is "m"
1571     
1572      ! Take the arithmetic mean of the layer altitudes as the interlayer altitude
1573      do ialt=2,altlen-1
1574        delta_z(:,:,ialt,:) = (alt(ialt+1)-alt(ialt-1))/2 /1000
1575      enddo
1576     
1577      ! Bottom layer : we can't assume a bottom of the first layer at 0km
1578      ! since "altitude above areoid" can be negative
1579      ! We thus assume zlev(2)-zlev(1) = zlay(2)-zlay(1)
1580      delta_z(:,:,1,:) = (alt(2)-alt(1)) /1000
1581     
1582      ! Top of last layer : we assume the same height than the layer below
1583      delta_z(:,:,altlen,:) = delta_z(:,:,altlen-1,:)
1584
1585      write(*,*) "delta_z has been well computed from dimension altitude"
1586      write(*,*)""
1587   
1588    ELSE IF (trim(altunits).eq."Pa") THEN
1589      ! GCM file has been zrecasted in pressure
1590     
1591      ! Check if "zareoid" exist in GCM file
1592      ierr=nf90_inq_varid(gcmfid,"zareoid",tmpvarid)
1593      if (ierr.eq.nf90_noerr) then
1594        allocate(zlay(lonlen,latlen,altlen,timelen))
1595        ! Get zareoid variable
1596        ierr=NF90_GET_VAR(gcmfid,tmpvarid,zlay)
1597        error_text="Failed to load zareoid"
1598        call status_check(ierr,error_text)
1599       
1600        ! Get missing value
1601        ierr=nf90_get_att(gcmfid,tmpvarid,"missing_value",missval)
1602        if (ierr.ne.nf90_noerr) then
1603          missval = 1.e+20
1604        endif
1605       
1606        ! Take the arithmetic mean of the layer altitudes as the interlayer altitude
1607        ! NB : the unit for zareoid is "m"
1608        ! Compute delta_z [km]
1609        do ilon=1,lonlen
1610         do ilat=1,latlen
1611          do it=1,timelen
1612         
1613           ! Bottom layer
1614           if ((zlay(ilon,ilat,2,it).eq.missval).or.(zlay(ilon,ilat,1,it).eq.missval)) then
1615             delta_z(ilon,ilat,1,it) = 0
1616           else
1617             ! We can't assume a bottom of the first layer at 0km
1618             ! since "altitude above areoid" can be negative
1619             ! We thus assume zlev(2)-zlev(1) = zlay(2)-zlay(1)
1620             delta_z(:,:,1,:) = (zlay(ilon,ilat,2,it)-zlay(ilon,ilat,1,it)) /1000
1621           endif ! missval
1622           
1623           ! rest of the column
1624           do ialt=2,altlen-1
1625            if ((zlay(ilon,ilat,ialt+1,it).eq.missval).or.(zlay(ilon,ilat,ialt-1,it).eq.missval)) then
1626              delta_z(ilon,ilat,ialt,it) = 0
1627            else
1628              delta_z(ilon,ilat,ialt,it) = (zlay(ilon,ilat,ialt+1,it)-zlay(ilon,ilat,ialt-1,it))/2 /1000
1629            endif ! missval
1630           enddo ! ialt=2,altlen-1
1631           
1632           ! Top of last layer : we assume the same height than the layer below
1633           delta_z(ilon,ilat,altlen,it) = delta_z(ilon,ilat,altlen-1,it)
1634           
1635          enddo ! it=1,timelen
1636         enddo ! ilat=1,latlen
1637        enddo ! ilon=1,lonlen
1638
1639        write(*,*) "delta_z has been well computed from variable zareoid"
1640        write(*,*)""
1641       
1642      else
1643     
1644        write(*,*) "No variable zareoid present in GCM file"
1645        write(*,*) "Computing the layers' height with the layers' pressure coordinate"
1646        write(*,*) "is not (yet?) handled by the program."
1647        write(*,*) "The column-integrated optical depths can thus not be computed."
1648        write(*,*) "Better stop now..."
1649        write(*,*) "You may retry with putting 'no' for the column computation."
1650        stop
1651       
1652      endif ! (ierr.eq.nf90_noerr) = zareoid present in file
1653     
1654
1655    ELSE
1656      ! abort the program
1657      write(*,*) "delta_z can not be computed from the GCM file's variables."
1658      write(*,*) "The column-integrated optical depths can thus not be computed."
1659      write(*,*) "Better stop now..."
1660      write(*,*) "You may retry with putting 'no' for the column computation."
1661      stop
1662
1663    ENDIF ! trim(altlong_name).eq."pseudo-alt"
1664   
1665  ENDIF ! is_zlev.eq.false
1666 
1667!=========================================================================
1668! 3.3 Write delta_z in output file
1669!=========================================================================
1670 
1671  ! Switch to netcdf define mode
1672  ierr=nf90_redef(outfid)
1673  ! Insert the definition of the variable
1674  ierr=NF90_DEF_VAR(outfid,"delta_z",nf90_float,(/londimout,latdimout,altdimout,timedimout/),tmpvarid)
1675  if (ierr.ne.nf90_noerr) then
1676    write(*,*) "init2 Error: Failed to define the variable delta_z"
1677    stop
1678  endif
1679  ! Write the attributes
1680  ierr=nf90_put_att(outfid,tmpvarid,"long_name","Layer height used for column optical depth computation")
1681  ierr=nf90_put_att(outfid,tmpvarid,"units","km")
1682  ! End netcdf define mode
1683  ierr=nf90_enddef(outfid)
1684
1685  ! write delta_z
1686  ierr=NF90_PUT_VAR(outfid,tmpvarid,delta_z)
1687  if (ierr.ne.nf90_noerr) then
1688    write(*,*) "init2 Error: Failed to write delta_z"
1689    stop
1690  endif
1691 
1692endif ! trim(compute_col).eq."yes"
1693
1694!==============================================================================
1695! 4. Cleanup
1696!==============================================================================
1697
1698if (allocated(aps)) deallocate(aps)
1699if (allocated(bps)) deallocate(bps)
1700if (allocated(ap)) deallocate(ap)
1701if (allocated(bp)) deallocate(bp)
1702if (allocated(sigma)) deallocate(sigma)
1703if (allocated(phisinit)) deallocate(phisinit)
1704if (allocated(aire)) deallocate(aire)
1705
1706end subroutine init2
1707
1708
1709!*******************************************************************************
Note: See TracBrowser for help on using the repository browser.