source: trunk/MESOSCALE/LMD_MM_MARS/SRC/WRFV2/main/nup_em.F @ 1739

Last change on this file since 1739 was 11, checked in by aslmd, 14 years ago

spiga@svn-planeto:ajoute le modele meso-echelle martien

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1!WRF:DRIVER_LAYER:MAIN
2!
3
4! "Nest up" program in WRFV2.
5!
6! Description:
7!
8! The nest up (nup.exe) program reads from wrfout_d02_<date> files for
9! the nest and generates wrfout_d01_<date> files for the same periods as
10! are in the input files.  The fields in the output are the fields in the
11! input for state variables that have 'h' and 'u' in the I/O string of
12! the Registry.  In other words, these are the fields that are normally
13! fed back from nest->parent during 2-way nesting.  It will read and
14! output over multiple files of nest data and generate an equivalent
15! number of files of parent data.  The dimensions of the fields in the
16! output are the size of the nest fields divided by the nesting ratio.
17!
18! Source file:   main/nup_em.F
19!
20! Compile with WRF: compile em_real
21!
22! Resulting executable: 
23!
24!     main/nup.exe
25!      -and-
26!     symbolic link in test/em_real/nup.exe
27!
28! Run as:  nup.exe (no arguments)
29!
30! Namelist information:
31!
32! Nup.exe uses the same namelist as a nested run of the wrf.exe.
33! Important settings are:
34!
35!  &time_control
36!
37!    start_*            <start time information for both domains>
38!    end_*              <start time information for both domains>
39!    history_interval   <interval between frames in input/output files>
40!    frames_per_outfile <number of frames in input/output files>
41!    io_form_history    <2 for NetCDF>
42!
43!  &domains
44!     ...
45!    max_dom            <number of domains; must be 2>
46!    e_we               <col 2 is size of nested grid in west-east>
47!                       <col 1 is ignored in the namelist>
48!    e_sn               <col 2 is size of nested grid in south-north>
49!                       <col 1 is ignored in the namelist>
50!    parent_grid_ratio  <col 2 is nesting ratio in both dims>
51!    feedback           <must be 1>
52!    smooth_option      <recommend 0>
53!
54!  &physics
55!             <all options in this section should be the same
56!              as the run that generated the nest data>
57!
58!  created: JM 2006 01 25
59
60PROGRAM nup_em
61
62   USE module_machine
63   USE module_domain
64   USE module_initialize
65   USE module_integrate
66   USE module_driver_constants
67   USE module_configure
68   USE module_io_domain
69   USE module_utility
70
71   USE module_timing
72   USE module_wrf_error
73#ifdef DM_PARALLEL
74   USE module_dm
75#endif
76   USE read_util_module
77
78!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
79!new for bc
80   USE module_bc
81   USE module_big_step_utilities_em
82   USE module_get_file_names
83#ifdef WRF_CHEM
84!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
85! for chemistry
86   USE module_input_chem_data
87!  USE module_input_chem_bioemiss
88!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
89#endif
90
91   IMPLICIT NONE
92 ! interface
93   INTERFACE
94     ! mediation-supplied
95     SUBROUTINE med_read_wrf_chem_bioemiss ( grid , config_flags)
96       USE module_domain
97       TYPE (domain) grid
98       TYPE (grid_config_rec_type) config_flags
99     END SUBROUTINE med_read_wrf_chem_bioemiss
100     SUBROUTINE nup ( parent_grid , nested_grid, in_id, out_id, newly_opened )
101       USE module_domain
102       TYPE (domain), POINTER :: parent_grid, nested_grid
103       INTEGER, INTENT(IN) :: in_id, out_id    ! io units
104       LOGICAL, INTENT(IN) :: newly_opened     ! whether to add global metadata
105     END SUBROUTINE nup
106
107   END INTERFACE
108
109   TYPE(WRFU_TimeInterval) :: RingInterval
110
111!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
112!new for bc
113   INTEGER :: ids , ide , jds , jde , kds , kde
114   INTEGER :: ims , ime , jms , jme , kms , kme
115   INTEGER :: ips , ipe , jps , jpe , kps , kpe
116   INTEGER :: its , ite , jts , jte , kts , kte
117   INTEGER :: ijds , ijde , spec_bdy_width
118   INTEGER :: i , j , k
119   INTEGER :: time_loop_max , time_loop
120   INTEGER :: total_time_sec , file_counter
121   INTEGER :: julyr , julday , iswater , map_proj
122   INTEGER :: icnt
123
124   REAL    :: dt , new_bdy_frq
125   REAL    :: gmt , cen_lat , cen_lon , dx , dy , truelat1 , truelat2 , moad_cen_lat , stand_lon
126
127   REAL , DIMENSION(:,:,:) , ALLOCATABLE :: ubdy3dtemp1 , vbdy3dtemp1 , tbdy3dtemp1 , pbdy3dtemp1 , qbdy3dtemp1
128   REAL , DIMENSION(:,:,:) , ALLOCATABLE :: mbdy2dtemp1
129   REAL , DIMENSION(:,:,:) , ALLOCATABLE :: ubdy3dtemp2 , vbdy3dtemp2 , tbdy3dtemp2 , pbdy3dtemp2 , qbdy3dtemp2
130   REAL , DIMENSION(:,:,:) , ALLOCATABLE :: mbdy2dtemp2
131
132   CHARACTER(LEN=19) :: start_timestr , current_timestr , end_timestr, timestr
133   CHARACTER(LEN=19) :: stopTimeStr
134
135!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
136
137   INTEGER :: num_veg_cat , num_soil_top_cat , num_soil_bot_cat
138
139   REAL    :: time
140   INTEGER :: rc
141
142   INTEGER :: loop , levels_to_process
143   INTEGER , PARAMETER :: max_sanity_file_loop = 100
144
145   TYPE (domain) , POINTER :: keep_grid, grid_ptr, null_domain, parent_grid , nested_grid
146   TYPE (domain)           :: dummy
147   TYPE (grid_config_rec_type)              :: config_flags
148   INTEGER                 :: number_at_same_level
149   INTEGER                 :: time_step_begin_restart
150
151   INTEGER :: max_dom , domain_id , fid , fido, fidb , idum1 , idum2 , ierr
152   INTEGER :: status_next_var
153   INTEGER :: debug_level
154   LOGICAL :: newly_opened
155   CHARACTER (LEN=19) :: date_string
156
157#ifdef DM_PARALLEL
158   INTEGER                 :: nbytes
159   INTEGER, PARAMETER      :: configbuflen = 4* CONFIG_BUF_LEN
160   INTEGER                 :: configbuf( configbuflen )
161   LOGICAL , EXTERNAL      :: wrf_dm_on_monitor
162#endif
163
164   INTEGER                 :: idsi, in_id, out_id
165   INTEGER                 :: e_sn, e_we, pgr
166   CHARACTER (LEN=80)      :: inpname , outname , bdyname
167   CHARACTER (LEN=80)      :: si_inpname
168   CHARACTER *19 :: temp19
169   CHARACTER *24 :: temp24 , temp24b
170   CHARACTER *132 :: fname
171   CHARACTER(len=24) :: start_date_hold
172
173   CHARACTER (LEN=80)      :: message
174integer :: ii
175
176#include "version_decl"
177
178   !  Interface block for routine that passes pointers and needs to know that they
179   !  are receiving pointers.
180
181   INTERFACE
182
183      SUBROUTINE med_feedback_domain ( parent_grid , nested_grid )
184         USE module_domain
185         USE module_configure
186         TYPE(domain), POINTER :: parent_grid , nested_grid
187      END SUBROUTINE med_feedback_domain
188
189      SUBROUTINE Setup_Timekeeping( parent_grid )
190         USE module_domain
191         TYPE(domain), POINTER :: parent_grid
192      END SUBROUTINE Setup_Timekeeping
193
194   END INTERFACE
195
196   !  Define the name of this program (program_name defined in module_domain)
197
198   program_name = "NUP_EM " // TRIM(release_version) // " PREPROCESSOR"
199
200#ifdef DM_PARALLEL
201   CALL disable_quilting
202#endif
203
204   !  Initialize the modules used by the WRF system.  Many of the CALLs made from the
205   !  init_modules routine are NO-OPs.  Typical initializations are: the size of a
206   !  REAL, setting the file handles to a pre-use value, defining moisture and
207   !  chemistry indices, etc.
208
209   CALL init_modules(1)   ! Phase 1 returns after MPI_INIT() (if it is called)
210   CALL WRFU_Initialize( defaultCalendar=WRFU_CAL_GREGORIAN, rc=rc )
211   CALL init_modules(2)   ! Phase 2 resumes after MPI_INIT() (if it is called)
212
213   !  Get the NAMELIST data.  This is handled in the initial_config routine.  All of the
214   !  NAMELIST input variables are assigned to the model_config_rec structure.  Below,
215   !  note for parallel processing, only the monitor processor handles the raw Fortran
216   !  I/O, and then broadcasts the info to each of the other nodes.
217
218#ifdef DM_PARALLEL
219   IF ( wrf_dm_on_monitor() ) THEN
220     CALL initial_config
221   ENDIF
222   CALL get_config_as_buffer( configbuf, configbuflen, nbytes )
223   CALL wrf_dm_bcast_bytes( configbuf, nbytes )
224   CALL set_config_as_buffer( configbuf, configbuflen )
225   CALL wrf_dm_initialize
226#else
227   CALL initial_config
228#endif
229
230   !  And here is an instance of using the information in the NAMELIST. 
231
232   CALL nl_get_debug_level ( 1, debug_level )
233   CALL set_wrf_debug_level ( debug_level )
234
235   ! set the specified boundary to zero so the feedback goes all the way
236   ! to the edge of the coarse domain
237   CALL nl_set_spec_zone( 1, 0 )
238
239   !  Allocated and configure the mother domain.  Since we are in the nesting down
240   !  mode, we know a) we got a nest, and b) we only got 1 nest.
241
242   NULLIFY( null_domain )
243
244!!!! set up the parent grid  (for nup_em, this is the grid we do output from)
245
246   CALL       nl_set_shw( 1, 0 )
247   CALL       nl_set_shw( 2, 0 )
248   CALL       nl_set_i_parent_start( 2, 1 )
249   CALL       nl_set_j_parent_start( 2, 1 )
250   CALL       nl_get_e_we( 2, e_we )
251   CALL       nl_get_e_sn( 2, e_sn )
252   CALL       nl_get_parent_grid_ratio( 2, pgr )
253
254   ! parent grid must cover the entire nest, which is always dimensioned a factor of 3 + 1
255   ! so add two here temporarily, then remove later after nest is allocated.
256
257   e_we = e_we / pgr + 2
258   e_sn = e_sn / pgr + 2
259   CALL       nl_set_e_we( 1, e_we )
260   CALL       nl_set_e_sn( 1, e_sn )
261
262   CALL       wrf_message ( program_name )
263   CALL       wrf_debug ( 100 , 'nup_em: calling alloc_and_configure_domain coarse ' )
264   CALL alloc_and_configure_domain ( domain_id  = 1 ,                  &
265                                     grid       = head_grid ,          &
266                                     parent     = null_domain ,        &
267                                     kid        = -1                   )
268
269   parent_grid => head_grid
270
271   !  Set up time initializations.
272
273   CALL Setup_Timekeeping ( parent_grid )
274
275   CALL domain_clock_set( head_grid, &
276                          time_step_seconds=model_config_rec%interval_seconds )
277
278   CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
279   CALL set_scalar_indices_from_config ( parent_grid%id , idum1, idum2 )
280
281!!!! set up the fine grid  (for nup_em, this is the grid we do input into)
282
283   CALL       wrf_message ( program_name )
284   CALL       wrf_debug ( 100 , 'wrf: calling alloc_and_configure_domain fine ' )
285   CALL alloc_and_configure_domain ( domain_id  = 2 ,                  &
286                                     grid       = nested_grid ,        &
287                                     parent     = parent_grid ,        &
288                                     kid        = 1                   )
289
290! now that the nest is allocated, pinch off the extra two rows/columns of the parent
291! note the IKJ assumption here.
292   parent_grid%ed31 = parent_grid%ed31 - 2
293   parent_grid%ed33 = parent_grid%ed33 - 2
294   CALL       nl_set_e_we( 1, e_we-2 )
295   CALL       nl_set_e_sn( 1, e_sn-2 )
296
297write(0,*)'after alloc_and_configure_domain ',associated(nested_grid%intermediate_grid)
298
299   CALL model_to_grid_config_rec ( nested_grid%id , model_config_rec , config_flags )
300   CALL set_scalar_indices_from_config ( nested_grid%id , idum1, idum2 )
301
302   !  Set up time initializations for the fine grid.
303
304   CALL Setup_Timekeeping ( nested_grid )
305   !  Adjust the time step on the clock so that it's the same as the history interval
306
307   CALL WRFU_AlarmGet( nested_grid%alarms(HISTORY_ALARM), RingInterval=RingInterval )
308   CALL WRFU_ClockSet( nested_grid%domain_clock, TimeStep=RingInterval, rc=rc )
309   CALL WRFU_ClockSet( parent_grid%domain_clock, TimeStep=RingInterval, rc=rc )
310   
311   !  Get and store the history interval from the fine grid; use for time loop
312
313
314   !  Initialize the I/O for WRF.
315
316   CALL init_wrfio
317
318   !  Some of the configuration values may have been modified from the initial READ
319   !  of the NAMELIST, so we re-broadcast the configuration records.
320
321#ifdef DM_PARALLEL
322   CALL get_config_as_buffer( configbuf, configbuflen, nbytes )
323   CALL wrf_dm_bcast_bytes( configbuf, nbytes )
324   CALL set_config_as_buffer( configbuf, configbuflen )
325#endif
326
327   !  Open the input data (wrfout_d01_xxxxxx) for reading.
328   in_id = 0
329   out_id = 0
330   main_loop : DO WHILE ( domain_get_current_time(nested_grid) .LT. domain_get_stop_time(nested_grid) )
331
332      IF( WRFU_AlarmIsRinging( nested_grid%alarms( HISTORY_ALARM ), rc=rc ) ) THEN
333        CALL domain_clock_get( nested_grid, current_timestr=timestr )
334        newly_opened = .FALSE.
335        IF ( in_id.EQ. 0 ) THEN
336          CALL model_to_grid_config_rec ( nested_grid%id , model_config_rec , config_flags )
337          CALL construct_filename2a ( fname , config_flags%history_outname , nested_grid%id , 2 , timestr )
338          CALL open_r_dataset ( in_id, TRIM(fname), nested_grid ,  &
339                                 config_flags , 'DATASET=HISTORY' , ierr )
340          IF ( ierr .NE. 0 ) THEN
341            WRITE(message,*)'Failed to open ',TRIM(fname),' for reading. '
342            CALL wrf_message(message)
343            EXIT main_loop
344          ENDIF
345
346          CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
347          CALL construct_filename2a ( fname , config_flags%history_outname , parent_grid%id , 2 , timestr )
348          CALL open_w_dataset ( out_id, TRIM(fname), parent_grid ,  &
349                                 config_flags , output_history, 'DATASET=HISTORY' , ierr )
350          IF ( ierr .NE. 0 ) THEN
351            WRITE(message,*)'Failed to open ',TRIM(fname),' for writing. '
352            CALL wrf_message(message)
353            EXIT main_loop
354          ENDIF
355          newly_opened = .TRUE.
356        ENDIF
357
358        CALL model_to_grid_config_rec ( nested_grid%id , model_config_rec , config_flags )
359        CALL input_history ( in_id, nested_grid , config_flags , ierr )
360        IF ( ierr .NE. 0 ) THEN
361          WRITE(message,*)'Unable to read time ',timestr
362          CALL wrf_message(message)
363          EXIT main_loop
364        ENDIF
365!
366        CALL nup ( nested_grid , parent_grid, in_id, out_id, newly_opened  )
367!
368        CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
369        CALL output_history ( out_id, parent_grid , config_flags , ierr )
370        IF ( ierr .NE. 0 ) THEN
371          WRITE(message,*)'Unable to write time ',timestr
372          CALL wrf_message(message)
373          EXIT main_loop
374        ENDIF
375
376        nested_grid%nframes(0) = nested_grid%nframes(0) + 1
377        IF ( nested_grid%nframes(0) >= config_flags%frames_per_outfile ) THEN
378          CALL model_to_grid_config_rec ( nested_grid%id , model_config_rec , config_flags )
379          CALL close_dataset ( in_id , config_flags , "DATASET=HISTORY" )
380          CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
381          CALL close_dataset ( out_id , config_flags , "DATASET=HISTORY" )
382          in_id = 0
383          out_id = 0
384          nested_grid%nframes(0) = 0
385        ENDIF
386        CALL WRFU_AlarmRingerOff( nested_grid%alarms( HISTORY_ALARM ), rc=rc )
387      ENDIF
388      CALL domain_clockadvance( nested_grid )
389      CALL domain_clockadvance( parent_grid )
390   ENDDO main_loop
391   CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
392   CALL med_shutdown_io ( parent_grid , config_flags )
393
394   CALL wrf_debug ( 0 , 'nup_em: SUCCESS COMPLETE NUP_EM INIT' )
395
396!  CALL wrf_shutdown
397
398   CALL WRFU_Finalize( rc=rc )
399
400END PROGRAM nup_em
401
402SUBROUTINE nup ( nested_grid, parent_grid , in_id, out_id, newly_opened )
403  USE module_domain
404  USE module_io_domain
405  USE module_utility
406  USE module_timing
407  USE module_wrf_error
408!
409  IMPLICIT NONE
410
411! Args
412  TYPE(domain), POINTER :: parent_grid, nested_grid
413  INTEGER, INTENT(IN) :: in_id, out_id    ! io descriptors
414  LOGICAL, INTENT(IN) :: newly_opened     ! whether to add global metadata
415! Local
416  INTEGER :: julyr , julday , iswater , map_proj
417  INTEGER :: icnt, ierr
418  REAL    :: dt , new_bdy_frq
419  REAL    :: gmt , cen_lat , cen_lon , dx , dy , truelat1 , truelat2 , moad_cen_lat , stand_lon
420  REAL , DIMENSION(:,:,:) , ALLOCATABLE :: ubdy3dtemp1 , vbdy3dtemp1 , tbdy3dtemp1 , pbdy3dtemp1 , qbdy3dtemp1
421  REAL , DIMENSION(:,:,:) , ALLOCATABLE :: mbdy2dtemp1
422  REAL , DIMENSION(:,:,:) , ALLOCATABLE :: ubdy3dtemp2 , vbdy3dtemp2 , tbdy3dtemp2 , pbdy3dtemp2 , qbdy3dtemp2
423  REAL , DIMENSION(:,:,:) , ALLOCATABLE :: mbdy2dtemp2
424  INTEGER :: ids , ide , jds , jde , kds , kde
425  INTEGER :: ims , ime , jms , jme , kms , kme
426  INTEGER :: ips , ipe , jps , jpe , kps , kpe
427  INTEGER :: its , ite , jts , jte , kts , kte
428
429  INTERFACE
430     SUBROUTINE med_feedback_domain ( parent_grid , nested_grid )
431        USE module_domain
432        USE module_configure
433        TYPE(domain), POINTER :: parent_grid , nested_grid
434     END SUBROUTINE med_feedback_domain
435     SUBROUTINE med_interp_domain ( parent_grid , nested_grid )
436        USE module_domain
437        USE module_configure
438        TYPE(domain), POINTER :: parent_grid , nested_grid
439     END SUBROUTINE med_interp_domain
440  END INTERFACE
441
442  IF ( newly_opened ) THEN
443    CALL wrf_get_dom_ti_integer ( in_id , 'MAP_PROJ' , map_proj , 1 , icnt , ierr )
444    CALL wrf_get_dom_ti_real    ( in_id , 'DX'  , dx  , 1 , icnt , ierr )
445    CALL wrf_get_dom_ti_real    ( in_id , 'DY'  , dy  , 1 , icnt , ierr )
446    CALL wrf_get_dom_ti_real    ( in_id , 'CEN_LAT' , cen_lat , 1 , icnt , ierr )
447    CALL wrf_get_dom_ti_real    ( in_id , 'CEN_LON' , cen_lon , 1 , icnt , ierr )
448    CALL wrf_get_dom_ti_real    ( in_id , 'TRUELAT1' , truelat1 , 1 , icnt , ierr )
449    CALL wrf_get_dom_ti_real    ( in_id , 'TRUELAT2' , truelat2 , 1 , icnt , ierr )
450    CALL wrf_get_dom_ti_real    ( in_id , 'MOAD_CEN_LAT' , moad_cen_lat , 1 , icnt , ierr )
451    CALL wrf_get_dom_ti_real    ( in_id , 'STAND_LON' , stand_lon , 1 , icnt , ierr )
452!     CALL wrf_get_dom_ti_real    ( in_id , 'GMT' , gmt , 1 , icnt , ierr )
453!     CALL wrf_get_dom_ti_integer ( in_id , 'JULYR' , julyr , 1 , icnt , ierr )
454!     CALL wrf_get_dom_ti_integer ( in_id , 'JULDAY' , julday , 1 , icnt , ierr )
455    CALL wrf_get_dom_ti_integer ( in_id , 'ISWATER' , iswater , 1 , icnt , ierr )
456  ENDIF
457
458  parent_grid%em_fnm    = nested_grid%em_fnm
459  parent_grid%em_fnp    = nested_grid%em_fnp
460  parent_grid%em_rdnw   = nested_grid%em_rdnw
461  parent_grid%em_rdn    = nested_grid%em_rdn
462  parent_grid%em_dnw    = nested_grid%em_dnw
463  parent_grid%em_dn     = nested_grid%em_dn
464  parent_grid%em_znu    = nested_grid%em_znu
465  parent_grid%em_znw    = nested_grid%em_znw
466
467  parent_grid%zs        = nested_grid%zs
468  parent_grid%dzs       = nested_grid%dzs
469
470  parent_grid%p_top     = nested_grid%p_top
471  parent_grid%rdx       = nested_grid%rdx * 3.
472  parent_grid%rdy       = nested_grid%rdy * 3.
473  parent_grid%resm      = nested_grid%resm
474  parent_grid%zetatop   = nested_grid%zetatop
475  parent_grid%cf1       = nested_grid%cf1
476  parent_grid%cf2       = nested_grid%cf2
477  parent_grid%cf3       = nested_grid%cf3
478
479  parent_grid%cfn       = nested_grid%cfn
480  parent_grid%cfn1      = nested_grid%cfn1
481
482#ifdef WRF_CHEM
483  parent_grid%chem_opt    = nested_grid%chem_opt
484  parent_grid%chem_in_opt = nested_grid%chem_in_opt
485#endif
486
487!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
488
489  !  Various sizes that we need to be concerned about.
490
491  ids = parent_grid%sd31
492  ide = parent_grid%ed31
493  kds = parent_grid%sd32
494  kde = parent_grid%ed32
495  jds = parent_grid%sd33
496  jde = parent_grid%ed33
497
498  ims = parent_grid%sm31
499  ime = parent_grid%em31
500  kms = parent_grid%sm32
501  kme = parent_grid%em32
502  jms = parent_grid%sm33
503  jme = parent_grid%em33
504
505  ips = parent_grid%sp31
506  ipe = parent_grid%ep31
507  kps = parent_grid%sp32
508  kpe = parent_grid%ep32
509  jps = parent_grid%sp33
510  jpe = parent_grid%ep33
511
512  nested_grid%imask_nostag = 1
513  nested_grid%imask_xstag = 1
514  nested_grid%imask_ystag = 1
515  nested_grid%imask_xystag = 1
516
517! Interpolate from nested_grid back onto parent_grid
518  CALL med_feedback_domain ( parent_grid , nested_grid )
519
520  parent_grid%ht_int = parent_grid%ht
521
522!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
523
524#if 0
525         CALL construct_filename2( si_inpname , 'wrf_real_input_em' , parent_grid%id , 2 , start_date_char )
526         CALL       wrf_debug ( 100 , 'med_sidata_input: calling open_r_dataset for ' // TRIM(si_inpname) )
527         CALL model_to_grid_config_rec ( parent_grid%id , model_config_rec , config_flags )
528         CALL open_r_dataset ( idsi, TRIM(si_inpname) , parent_grid , config_flags , "DATASET=INPUT", ierr )
529         IF ( ierr .NE. 0 ) THEN
530            CALL wrf_error_fatal( 'real: error opening wrf_real_input_em for reading: ' // TRIM (si_inpname) )
531         END IF
532
533         !  Input data.
534   
535         CALL       wrf_debug ( 100 , 'nup_em: calling input_aux_model_input2' )
536         CALL input_aux_model_input2 ( idsi , parent_grid , config_flags , ierr )
537         parent_grid%ht_input = parent_grid%ht
538   
539         !  Close this fine grid static input file.
540   
541         CALL       wrf_debug ( 100 , 'nup_em: closing fine grid static input' )
542         CALL close_dataset ( idsi , config_flags , "DATASET=INPUT" )
543
544         !  We need a parent grid landuse in the interpolation.  So we need to generate
545         !  that field now.
546
547         IF      ( ( parent_grid%ivgtyp(ips,jps) .GT. 0 ) .AND. &
548                   ( parent_grid%isltyp(ips,jps) .GT. 0 ) ) THEN
549            DO j = jps, MIN(jde-1,jpe)
550               DO i = ips, MIN(ide-1,ipe)
551                  parent_grid% vegcat(i,j) = parent_grid%ivgtyp(i,j)
552                  parent_grid%soilcat(i,j) = parent_grid%isltyp(i,j)
553               END DO
554            END DO
555
556         ELSE IF ( ( parent_grid% vegcat(ips,jps) .GT. 0.5 ) .AND. &
557                   ( parent_grid%soilcat(ips,jps) .GT. 0.5 ) ) THEN
558            DO j = jps, MIN(jde-1,jpe)
559               DO i = ips, MIN(ide-1,ipe)
560                  parent_grid%ivgtyp(i,j) = NINT(parent_grid% vegcat(i,j))
561                  parent_grid%isltyp(i,j) = NINT(parent_grid%soilcat(i,j))
562               END DO
563            END DO
564
565         ELSE
566            num_veg_cat      = SIZE ( parent_grid%landusef , DIM=2 )
567            num_soil_top_cat = SIZE ( parent_grid%soilctop , DIM=2 )
568            num_soil_bot_cat = SIZE ( parent_grid%soilcbot , DIM=2 )
569   
570            CALL land_percentages (  parent_grid%xland , &
571                                     parent_grid%landusef , parent_grid%soilctop , parent_grid%soilcbot , &
572                                     parent_grid%isltyp , parent_grid%ivgtyp , &
573                                     num_veg_cat , num_soil_top_cat , num_soil_bot_cat , &
574                                     ids , ide , jds , jde , kds , kde , &
575                                     ims , ime , jms , jme , kms , kme , &
576                                     ips , ipe , jps , jpe , kps , kpe , &
577                                     model_config_rec%iswater(parent_grid%id) )
578
579          END IF
580
581          DO j = jps, MIN(jde-1,jpe)
582            DO i = ips, MIN(ide-1,ipe)
583               parent_grid%lu_index(i,j) = parent_grid%ivgtyp(i,j)
584            END DO
585         END DO
586
587         CALL check_consistency ( parent_grid%ivgtyp , parent_grid%isltyp , parent_grid%landmask , &
588                                  ids , ide , jds , jde , kds , kde , &
589                                  ims , ime , jms , jme , kms , kme , &
590                                  ips , ipe , jps , jpe , kps , kpe , &
591                                  model_config_rec%iswater(parent_grid%id) )
592
593         CALL check_consistency2( parent_grid%ivgtyp , parent_grid%isltyp , parent_grid%landmask , &
594                                  parent_grid%tmn , parent_grid%tsk , parent_grid%sst , parent_grid%xland , &
595                                  parent_grid%tslb , parent_grid%smois , parent_grid%sh2o , &
596                                  config_flags%num_soil_layers , parent_grid%id , &
597                                  ids , ide , jds , jde , kds , kde , &
598                                  ims , ime , jms , jme , kms , kme , &
599                                  ips , ipe , jps , jpe , kps , kpe , &
600                                  model_config_rec%iswater(parent_grid%id) )
601
602
603!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
604   
605      !  We have 2 terrain elevations.  One is from input and the other is from the
606      !  the horizontal interpolation.
607
608      parent_grid%ht_fine = parent_grid%ht_input
609      parent_grid%ht      = parent_grid%ht_int
610
611      !  We have both the interpolated fields and the higher-resolution static fields.  From these
612      !  the rebalancing is now done.  Note also that the field parent_grid%ht is now from the
613      !  fine grid input file (after this call is completed).
614
615      CALL rebalance_driver ( parent_grid )
616
617      !  Different things happen during the different time loops:
618      !      first loop - write wrfinput file, close data set, copy files to holder arrays
619      !      middle loops - diff 3d/2d arrays, compute and output bc
620      !      last loop - diff 3d/2d arrays, compute and output bc, write wrfbdy file, close wrfbdy file
621
622         !  Set the time info.
623
624         print *,'current_date = ',current_date
625         CALL domain_clock_set( parent_grid, &
626                                current_timestr=current_date(1:19) )
627!
628! SEP     Put in chemistry data
629!
630#ifdef WRF_CHEM
631         IF( parent_grid%chem_opt .NE. 0 ) then
632            IF( parent_grid%chem_in_opt .EQ. 0 ) then
633             ! Read the chemistry data from a previous wrf forecast (wrfout file)
634              ! Generate chemistry data from a idealized vertical profile
635              message = 'STARTING WITH BACKGROUND CHEMISTRY '
636              CALL  wrf_message ( message )
637
638              CALL input_chem_profile ( parent_grid )
639
640              message = 'READING BEIS3.11 EMISSIONS DATA'
641              CALL  wrf_message ( message )
642
643              CALL med_read_wrf_chem_bioemiss ( parent_grid , config_flags)
644            ELSE
645              message = 'RUNNING WITHOUT CHEMISTRY INITIALIZATION'
646              CALL  wrf_message ( message )
647            ENDIF
648         ENDIF
649#endif
650
651#endif
652
653         !  Output the first time period of the data.
654   
655  IF ( newly_opened ) THEN
656    CALL wrf_put_dom_ti_integer ( out_id , 'MAP_PROJ' , map_proj , 1 , ierr )
657!     CALL wrf_put_dom_ti_real    ( out_id , 'DX'  , dx  , 1 , ierr )
658!     CALL wrf_put_dom_ti_real    ( out_id , 'DY'  , dy  , 1 , ierr )
659    CALL wrf_put_dom_ti_real    ( out_id , 'CEN_LAT' , cen_lat , 1 , ierr )
660    CALL wrf_put_dom_ti_real    ( out_id , 'CEN_LON' , cen_lon , 1 , ierr )
661    CALL wrf_put_dom_ti_real    ( out_id , 'TRUELAT1' , truelat1 , 1 , ierr )
662    CALL wrf_put_dom_ti_real    ( out_id , 'TRUELAT2' , truelat2 , 1 , ierr )
663    CALL wrf_put_dom_ti_real    ( out_id , 'MOAD_CEN_LAT' , moad_cen_lat , 1 , ierr )
664    CALL wrf_put_dom_ti_real    ( out_id , 'STAND_LON' , stand_lon , 1 , ierr )
665    CALL wrf_put_dom_ti_integer ( out_id , 'ISWATER' , iswater , 1 , ierr )
666
667    CALL wrf_put_dom_ti_real    ( out_id , 'GMT' , gmt , 1 , ierr )
668    CALL wrf_put_dom_ti_integer ( out_id , 'JULYR' , julyr , 1 , ierr )
669    CALL wrf_put_dom_ti_integer ( out_id , 'JULDAY' , julday , 1 , ierr )
670  ENDIF
671
672END SUBROUTINE nup
673
674SUBROUTINE land_percentages ( xland , &
675                              landuse_frac , soil_top_cat , soil_bot_cat , &
676                              isltyp , ivgtyp , &
677                              num_veg_cat , num_soil_top_cat , num_soil_bot_cat , &
678                              ids , ide , jds , jde , kds , kde , &
679                              ims , ime , jms , jme , kms , kme , &
680                              its , ite , jts , jte , kts , kte , &
681                              iswater )
682   USE module_soil_pre
683
684   IMPLICIT NONE
685
686   INTEGER , INTENT(IN) :: ids , ide , jds , jde , kds , kde , &
687                           ims , ime , jms , jme , kms , kme , &
688                           its , ite , jts , jte , kts , kte , &
689                           iswater
690
691   INTEGER , INTENT(IN) :: num_veg_cat , num_soil_top_cat , num_soil_bot_cat
692   REAL , DIMENSION(ims:ime,1:num_veg_cat,jms:jme) , INTENT(INOUT):: landuse_frac
693   REAL , DIMENSION(ims:ime,1:num_soil_top_cat,jms:jme) , INTENT(IN):: soil_top_cat
694   REAL , DIMENSION(ims:ime,1:num_soil_bot_cat,jms:jme) , INTENT(IN):: soil_bot_cat
695   INTEGER , DIMENSION(ims:ime,jms:jme), INTENT(OUT) :: isltyp , ivgtyp
696   REAL , DIMENSION(ims:ime,jms:jme) , INTENT(OUT) :: xland
697
698   CALL process_percent_cat_new ( xland , &
699                                  landuse_frac , soil_top_cat , soil_bot_cat , &
700                                  isltyp , ivgtyp , &
701                                  num_veg_cat , num_soil_top_cat , num_soil_bot_cat , &
702                                  ids , ide , jds , jde , kds , kde , &
703                                  ims , ime , jms , jme , kms , kme , &
704                                  its , ite , jts , jte , kts , kte , &
705                                  iswater )
706
707END SUBROUTINE land_percentages
708
709SUBROUTINE check_consistency ( ivgtyp , isltyp , landmask , &
710                                  ids , ide , jds , jde , kds , kde , &
711                                  ims , ime , jms , jme , kms , kme , &
712                                  its , ite , jts , jte , kts , kte , &
713                                  iswater )
714
715   IMPLICIT NONE
716
717   INTEGER , INTENT(IN) :: ids , ide , jds , jde , kds , kde , &
718                           ims , ime , jms , jme , kms , kme , &
719                           its , ite , jts , jte , kts , kte , &
720                           iswater
721   INTEGER , DIMENSION(ims:ime,jms:jme), INTENT(INOUT) :: isltyp , ivgtyp
722   REAL    , DIMENSION(ims:ime,jms:jme), INTENT(INOUT) :: landmask
723
724   LOGICAL :: oops
725   INTEGER :: oops_count , i , j
726
727   oops = .FALSE.
728   oops_count = 0
729
730   DO j = jts, MIN(jde-1,jte)
731      DO i = its, MIN(ide-1,ite)
732         IF ( ( ( landmask(i,j) .LT. 0.5 ) .AND. ( ivgtyp(i,j) .NE. iswater ) ) .OR. &
733              ( ( landmask(i,j) .GT. 0.5 ) .AND. ( ivgtyp(i,j) .EQ. iswater ) ) ) THEN
734            print *,'mismatch in landmask and veg type'
735            print *,'i,j=',i,j, '  landmask =',NINT(landmask(i,j)),'  ivgtyp=',ivgtyp(i,j)
736            oops = .TRUE.
737            oops_count = oops_count + 1
738landmask(i,j) = 0
739ivgtyp(i,j)=16
740isltyp(i,j)=14
741         END IF
742      END DO
743   END DO
744
745   IF ( oops ) THEN
746      CALL wrf_debug( 0, 'mismatch in check_consistency, turned to water points, be careful' )
747   END IF
748
749END SUBROUTINE check_consistency
750
751SUBROUTINE check_consistency2( ivgtyp , isltyp , landmask , &
752                               tmn , tsk , sst , xland , &
753                               tslb , smois , sh2o , &
754                               num_soil_layers , id , &
755                               ids , ide , jds , jde , kds , kde , &
756                               ims , ime , jms , jme , kms , kme , &
757                               its , ite , jts , jte , kts , kte , &
758                               iswater )
759
760   USE module_configure
761   USE module_optional_si_input
762
763   INTEGER , INTENT(IN) :: ids , ide , jds , jde , kds , kde , &
764                           ims , ime , jms , jme , kms , kme , &
765                           its , ite , jts , jte , kts , kte
766   INTEGER , INTENT(IN) :: num_soil_layers , id
767
768   INTEGER , DIMENSION(ims:ime,jms:jme) :: ivgtyp , isltyp
769   REAL    , DIMENSION(ims:ime,jms:jme) :: landmask , tmn , tsk , sst , xland
770   REAL    , DIMENSION(ims:ime,num_soil_layers,jms:jme) :: tslb , smois , sh2o
771
772   INTEGER :: oops1 , oops2
773   INTEGER :: i , j , k
774
775      fix_tsk_tmn : SELECT CASE ( model_config_rec%sf_surface_physics(id) )
776
777         CASE ( SLABSCHEME , LSMSCHEME , RUCLSMSCHEME )
778            DO j = jts, MIN(jde-1,jte)
779               DO i = its, MIN(ide-1,ite)
780                  IF ( ( landmask(i,j) .LT. 0.5 ) .AND. ( flag_sst .EQ. 1 ) ) THEN
781                     tmn(i,j) = sst(i,j)
782                     tsk(i,j) = sst(i,j)
783                  ELSE IF ( landmask(i,j) .LT. 0.5 ) THEN
784                     tmn(i,j) = tsk(i,j)
785                  END IF
786               END DO
787            END DO
788      END SELECT fix_tsk_tmn
789
790      !  Is the TSK reasonable?
791
792      DO j = jts, MIN(jde-1,jte)
793         DO i = its, MIN(ide-1,ite)
794            IF ( tsk(i,j) .LT. 170 .or. tsk(i,j) .GT. 400. ) THEN
795               print *,'error in the TSK'
796               print *,'i,j=',i,j
797               print *,'landmask=',landmask(i,j)
798               print *,'tsk, sst, tmn=',tsk(i,j),sst(i,j),tmn(i,j)
799               if(tmn(i,j).gt.170. .and. tmn(i,j).lt.400.)then
800                  tsk(i,j)=tmn(i,j)
801               else if(sst(i,j).gt.170. .and. sst(i,j).lt.400.)then
802                  tsk(i,j)=sst(i,j)
803               else
804                  CALL wrf_error_fatal ( 'TSK unreasonable' )
805               end if
806            END IF
807         END DO
808      END DO
809
810      !  Is the TMN reasonable?
811
812      DO j = jts, MIN(jde-1,jte)
813         DO i = its, MIN(ide-1,ite)
814            IF ( ( ( tmn(i,j) .LT. 170. ) .OR. ( tmn(i,j) .GT. 400. ) ) .AND. ( landmask(i,j) .GT. 0.5 ) ) THEN
815                  print *,'error in the TMN'
816                  print *,'i,j=',i,j
817                  print *,'landmask=',landmask(i,j)
818                  print *,'tsk, sst, tmn=',tsk(i,j),sst(i,j),tmn(i,j)
819               if(tsk(i,j).gt.170. .and. tsk(i,j).lt.400.)then
820                  tmn(i,j)=tsk(i,j)
821               else if(sst(i,j).gt.170. .and. sst(i,j).lt.400.)then
822                  tmn(i,j)=sst(i,j)
823               else
824                  CALL wrf_error_fatal ( 'TMN unreasonable' )
825               endif
826            END IF
827         END DO
828      END DO
829
830      !  Is the TSLB reasonable?
831
832      DO j = jts, MIN(jde-1,jte)
833         DO i = its, MIN(ide-1,ite)
834            IF ( ( ( tslb(i,1,j) .LT. 170. ) .OR. ( tslb(i,1,j) .GT. 400. ) ) .AND. ( landmask(i,j) .GT. 0.5 ) ) THEN
835                  print *,'error in the TSLB'
836                  print *,'i,j=',i,j
837                  print *,'landmask=',landmask(i,j)
838                  print *,'tsk, sst, tmn=',tsk(i,j),sst(i,j),tmn(i,j)
839                  print *,'tslb = ',tslb(i,:,j)
840                  print *,'old smois = ',smois(i,:,j)
841                  DO l = 1 , num_soil_layers
842                     sh2o(i,l,j) = 0.0
843                  END DO
844                  DO l = 1 , num_soil_layers
845                     smois(i,l,j) = 0.3
846                  END DO
847                  if(tsk(i,j).gt.170. .and. tsk(i,j).lt.400.)then
848                     DO l = 1 , num_soil_layers
849                        tslb(i,l,j)=tsk(i,j)
850                     END DO
851                  else if(sst(i,j).gt.170. .and. sst(i,j).lt.400.)then
852                     DO l = 1 , num_soil_layers
853                        tslb(i,l,j)=sst(i,j)
854                     END DO
855                  else if(tmn(i,j).gt.170. .and. tmn(i,j).lt.400.)then
856                     DO l = 1 , num_soil_layers
857                        tslb(i,l,j)=tmn(i,j)
858                     END DO
859                  else
860                     CALL wrf_error_fatal ( 'TSLB unreasonable' )
861                  endif
862            END IF
863         END DO
864      END DO
865
866      !  Let us make sure (again) that the landmask and the veg/soil categories match.
867
868oops1=0
869oops2=0
870      DO j = jts, MIN(jde-1,jte)
871         DO i = its, MIN(ide-1,ite)
872            IF ( ( ( landmask(i,j) .LT. 0.5 ) .AND. ( ivgtyp(i,j) .NE. iswater .OR. isltyp(i,j) .NE. 14 ) ) .OR. &
873                 ( ( landmask(i,j) .GT. 0.5 ) .AND. ( ivgtyp(i,j) .EQ. iswater .OR. isltyp(i,j) .EQ. 14 ) ) ) THEN
874               IF ( tslb(i,1,j) .GT. 1. ) THEN
875oops1=oops1+1
876                  ivgtyp(i,j) = 5
877                  isltyp(i,j) = 8
878                  landmask(i,j) = 1
879                  xland(i,j) = 1
880               ELSE IF ( sst(i,j) .GT. 1. ) THEN
881oops2=oops2+1
882                  ivgtyp(i,j) = iswater
883                  isltyp(i,j) = 14
884                  landmask(i,j) = 0
885                  xland(i,j) = 2
886               ELSE
887                  print *,'the landmask and soil/veg cats do not match'
888                  print *,'i,j=',i,j
889                  print *,'landmask=',landmask(i,j)
890                  print *,'ivgtyp=',ivgtyp(i,j)
891                  print *,'isltyp=',isltyp(i,j)
892                  print *,'iswater=', iswater
893                  print *,'tslb=',tslb(i,:,j)
894                  print *,'sst=',sst(i,j)
895                  CALL wrf_error_fatal ( 'mismatch_landmask_ivgtyp' )
896               END IF
897            END IF
898         END DO
899      END DO
900if (oops1.gt.0) then
901print *,'points artificially set to land : ',oops1
902endif
903if(oops2.gt.0) then
904print *,'points artificially set to water: ',oops2
905endif
906
907END SUBROUTINE check_consistency2
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