source: trunk/WRF.COMMON/WRFV2/share/input_wrf.F @ 3553

Last change on this file since 3553 was 11, checked in by aslmd, 14 years ago

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

File size: 25.7 KB
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1!WRF:MEDIATION:IO
2!  ---principal wrf input routine (called from routines in module_io_domain )
3
4  SUBROUTINE input_wrf ( fid , grid , config_flags , switch , ierr )
5    USE module_domain
6    USE module_state_description
7    USE module_configure
8    USE module_io
9    USE module_io_wrf
10    USE module_date_time
11    USE module_bc_time_utilities
12    USE module_utility
13    IMPLICIT NONE
14#include <wrf_io_flags.h>
15#include <wrf_status_codes.h>
16    TYPE(domain) :: grid
17    TYPE(grid_config_rec_type),  INTENT(INOUT)    :: config_flags
18    INTEGER, INTENT(IN) :: fid
19    INTEGER, INTENT(IN) :: switch
20    INTEGER, INTENT(INOUT) :: ierr
21
22    ! Local data
23    INTEGER ids , ide , jds , jde , kds , kde , &
24            ims , ime , jms , jme , kms , kme , &
25            ips , ipe , jps , jpe , kps , kpe
26
27    INTEGER       iname(9)
28    INTEGER       iordering(3)
29    INTEGER       icurrent_date(24)
30    INTEGER       i,j,k
31    INTEGER       icnt
32    INTEGER       ndim
33    INTEGER       ilen
34    INTEGER , DIMENSION(3) :: domain_start , domain_end
35    INTEGER , DIMENSION(3) :: memory_start , memory_end
36    INTEGER , DIMENSION(3) :: patch_start , patch_end
37    CHARACTER*256 errmess, currtimestr
38    CHARACTER*40            :: this_datestr, next_datestr
39    CHARACTER*9   NAMESTR
40    INTEGER       IBDY, NAMELEN
41    LOGICAL wrf_dm_on_monitor
42    EXTERNAL wrf_dm_on_monitor
43    Type(WRFU_Time) time, currtime
44    CHARACTER*19  new_date
45    CHARACTER*24  base_date
46    CHARACTER*80  fname
47    LOGICAL dryrun
48    INTEGER idt
49    INTEGER itmp
50    INTEGER dyn_opt_tmp, dyn_opt, filestate, ierr3
51    INTEGER :: ide_compare , jde_compare , kde_compare
52    REAL , DIMENSION(16) :: lats16 , lons16
53    CHARACTER (len=19) simulation_start_date
54    INTEGER simulation_start_year   , &
55            simulation_start_month  , &
56            simulation_start_day    , &
57            simulation_start_hour   , &
58            simulation_start_minute , &
59            simulation_start_second
60    REAL dx_compare , dy_compare , dum
61
62!<DESCRIPTION>
63!
64! Core wrf input routine for all input data streams. Part of mediation layer.
65!
66! Note that WRF IOAPI routines wrf_get_dom_ti_*() do not return values during
67! training reads (dryrun). 
68!
69!</DESCRIPTION>
70
71    WRITE(wrf_err_message,*)'input_wrf: begin, fid = ',fid
72    CALL wrf_debug( 300 , wrf_err_message )
73
74    ierr = 0
75
76    CALL get_ijk_from_grid (  grid ,                        &
77                              ids, ide, jds, jde, kds, kde,    &
78                              ims, ime, jms, jme, kms, kme,    &
79                              ips, ipe, jps, jpe, kps, kpe    )
80
81! simulation start time is a Singleton maintained by head_grid
82    IF ( ( switch .EQ.     model_input_only  ) .OR. &
83         ( switch .EQ.          restart_only ) ) THEN
84      CALL wrf_get_dom_ti_char ( fid , 'SIMULATION_START_DATE' , simulation_start_date , ierr )
85      IF ( ierr .EQ. 0 ) THEN
86        ! Overwrite simulation start date with metadata. 
87        READ ( simulation_start_date , fmt = '(I4,1x,I2,1x,I2,1x,I2,1x,I2,1x,I2)' ) &
88               simulation_start_year,   simulation_start_month,                     &
89               simulation_start_day,    simulation_start_hour,                      &
90               simulation_start_minute, simulation_start_second
91        CALL nl_set_simulation_start_year   ( 1 , simulation_start_year   )
92        CALL nl_set_simulation_start_month  ( 1 , simulation_start_month  )
93        CALL nl_set_simulation_start_day    ( 1 , simulation_start_day    )
94        CALL nl_set_simulation_start_hour   ( 1 , simulation_start_hour   )
95        CALL nl_set_simulation_start_minute ( 1 , simulation_start_minute )
96        CALL nl_set_simulation_start_second ( 1 , simulation_start_second )
97        IF ( switch .EQ. model_input_only  ) THEN
98          WRITE(wrf_err_message,*)fid,' input_wrf, model_input_only:  SIMULATION_START_DATE = ', &
99                                  simulation_start_date(1:19)
100          CALL wrf_debug ( 300 , TRIM(wrf_err_message ) )
101        ELSE IF ( switch .EQ. restart_only  ) THEN
102          WRITE(wrf_err_message,*)fid,' input_wrf, restart_only:  SIMULATION_START_DATE = ', &
103                                  simulation_start_date(1:19)
104          CALL wrf_debug ( 300 , TRIM(wrf_err_message ) )
105        ENDIF
106      ELSE
107        CALL nl_get_start_year   ( 1 , simulation_start_year   )
108        CALL nl_get_start_month  ( 1 , simulation_start_month  )
109        CALL nl_get_start_day    ( 1 , simulation_start_day    )
110        CALL nl_get_start_hour   ( 1 , simulation_start_hour   )
111        CALL nl_get_start_minute ( 1 , simulation_start_minute )
112        CALL nl_get_start_second ( 1 , simulation_start_second )
113        CALL nl_set_simulation_start_year   ( 1 , simulation_start_year   )
114        CALL nl_set_simulation_start_month  ( 1 , simulation_start_month  )
115        CALL nl_set_simulation_start_day    ( 1 , simulation_start_day    )
116        CALL nl_set_simulation_start_hour   ( 1 , simulation_start_hour   )
117        CALL nl_set_simulation_start_minute ( 1 , simulation_start_minute )
118        CALL nl_set_simulation_start_second ( 1 , simulation_start_second )
119        CALL wrf_message('input_wrf: SIMULATION_START_DATE not available in input')
120        CALL wrf_message('will use head_grid start time from namelist')
121      ENDIF
122      ! Initialize derived time quantity in grid%xtime. 
123      ! Note that this call is also made in setup_timekeeping(). 
124      ! Ugh, what a hack.  Simplify all this later... 
125      CALL domain_clock_get( grid, minutesSinceSimulationStart=grid%xtime )
126      ! Note that it is NOT necessary to reset grid%julian here. 
127      WRITE(wrf_err_message,*) 'input_wrf:  set xtime to ',grid%xtime
128      CALL wrf_debug ( 100, TRIM(wrf_err_message) )
129    ENDIF
130
131#if (EM_CORE == 1)
132
133    !  Test to make sure that the input data is the right size.  Do this for input from real/ideal into
134    !  WRF, and from the standard initialization into real.
135
136    IF ( ( switch .EQ.     model_input_only  ) .OR. &
137         ( switch .EQ. aux_model_input1_only ) ) THEN
138       ierr = 0
139       CALL wrf_get_dom_ti_integer ( fid , 'WEST-EAST_GRID_DIMENSION' ,    ide_compare , 1 , icnt , ierr3 )
140       ierr = max( ierr, ierr3 )
141       CALL wrf_get_dom_ti_integer ( fid , 'SOUTH-NORTH_GRID_DIMENSION' ,  jde_compare , 1 , icnt , ierr3 )
142       ierr = max( ierr, ierr3 )
143       CALL wrf_get_dom_ti_integer ( fid , 'BOTTOM-TOP_GRID_DIMENSION' ,   kde_compare , 1 , icnt , ierr3 )
144       ierr = max( ierr, ierr3 )
145!      IF ( ierr3 .NE. 0 ) CALL wrf_error_fatal( 'wrf_get_dom_ti_integer getting dimension information from dataset' )
146       IF ( ierr3 .NE. 0 ) CALL wrf_debug( 'wrf_get_dom_ti_integer getting dimension information from dataset' )
147   
148       !  Test to make sure that the grid distances are the right size.
149   
150       CALL wrf_get_dom_ti_real ( fid , 'DX' ,  dx_compare , 1 , icnt , ierr )
151       CALL wrf_get_dom_ti_real ( fid , 'DY' ,  dy_compare , 1 , icnt , ierr )
152       IF ( ( ABS ( dx_compare - config_flags%dx ) .GT. 1.E-5 * dx_compare ) .OR. &
153            ( ABS ( dy_compare - config_flags%dy ) .GT. 1.E-5 * dy_compare ) ) THEN
154print *,'dx_compare,dy_compare = ',dx_compare,dy_compare
155          CALL wrf_error_fatal( 'DX and DY do not match from the namelist and the input file' )
156       END IF
157    END IF
158
159    ! do the check later (see check_if_dryrun below)
160
161#endif
162
163
164    CALL nl_get_dyn_opt( 1, dyn_opt )
165    CALL wrf_get_dom_ti_integer ( fid, 'DYN_OPT', dyn_opt_tmp, 1, icnt, ierr )
166
167    !  We do not want the CEN_LAT LON values from the boundary file.  For 1-way nests
168    !  with ndown, this ends up being the data from the previous coarse domain.
169
170    IF ( switch .NE. boundary_only ) THEN
171       CALL wrf_get_dom_ti_real ( fid , 'CEN_LAT' ,  config_flags%cen_lat , 1 , icnt , ierr )
172       WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LAT returns ',config_flags%cen_lat
173       CALL wrf_debug ( 300 , wrf_err_message )
174       CALL nl_set_cen_lat ( grid%id , config_flags%cen_lat )
175
176       CALL wrf_get_dom_ti_real ( fid , 'CEN_LON' ,  config_flags%cen_lon , 1 , icnt , ierr )
177       WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LON returns ',config_flags%cen_lon
178       CALL wrf_debug ( 300 , wrf_err_message )
179       CALL nl_set_cen_lon ( grid%id , config_flags%cen_lon )
180    ELSE
181       CALL wrf_get_dom_ti_real ( fid , 'CEN_LAT' ,  dum , 1 , icnt , ierr )
182       WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LAT returns ',dum
183       CALL wrf_debug ( 300 , wrf_err_message )
184
185       CALL wrf_get_dom_ti_real ( fid , 'CEN_LON' ,  dum , 1 , icnt , ierr )
186       WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LON returns ',dum
187       CALL wrf_debug ( 300 , wrf_err_message )
188    END IF
189
190    CALL wrf_get_dom_ti_real ( fid , 'TRUELAT1' ,  config_flags%truelat1 , 1 , icnt , ierr )
191    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for TRUELAT1 returns ',config_flags%truelat1
192    CALL wrf_debug ( 300 , wrf_err_message )
193    CALL nl_set_truelat1 ( grid%id , config_flags%truelat1 )
194
195    CALL wrf_get_dom_ti_real ( fid , 'TRUELAT2' ,  config_flags%truelat2 , 1 , icnt , ierr )
196    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for TRUELAT2 returns ',config_flags%truelat2
197    CALL wrf_debug ( 300 , wrf_err_message )
198    CALL nl_set_truelat2 ( grid%id , config_flags%truelat2 )
199
200    CALL wrf_get_dom_ti_real ( fid , 'MOAD_CEN_LAT' ,  config_flags%moad_cen_lat , 1 , icnt , ierr )
201    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for MOAD_CEN_LAT returns ',config_flags%moad_cen_lat
202    CALL wrf_debug ( 300 , wrf_err_message )
203    CALL nl_set_moad_cen_lat ( grid%id , config_flags%moad_cen_lat )
204
205    CALL wrf_get_dom_ti_real ( fid , 'STAND_LON' ,  config_flags%stand_lon , 1 , icnt , ierr )
206    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for STAND_LON returns ',config_flags%stand_lon
207    CALL wrf_debug ( 300 , wrf_err_message )
208    CALL nl_set_stand_lon ( grid%id , config_flags%stand_lon )
209
210#if ( NMM_CORE != 1 )
211    IF ( program_name(1:7) .EQ. "REAL_EM" ) THEN
212    CALL wrf_get_dom_ti_real ( fid , 'corner_lats' ,  lats16 , 16 , icnt , ierr )
213    WRITE(wrf_err_message,FMT='(A,16f6.1)')'input_wrf: wrf_get_dom_ti_real for CORNER_LATS returns ',lats16
214    CALL wrf_debug ( 300 , wrf_err_message )
215    grid%em_lat_ll_t = lats16( 1)
216    grid%em_lat_ul_t = lats16( 2)
217    grid%em_lat_ur_t = lats16( 3)
218    grid%em_lat_lr_t = lats16( 4)
219    grid%em_lat_ll_u = lats16( 5)
220    grid%em_lat_ul_u = lats16( 6)
221    grid%em_lat_ur_u = lats16( 7)
222    grid%em_lat_lr_u = lats16( 8)
223    grid%em_lat_ll_v = lats16( 9)
224    grid%em_lat_ul_v = lats16(10)
225    grid%em_lat_ur_v = lats16(11)
226    grid%em_lat_lr_v = lats16(12)
227    grid%em_lat_ll_d = lats16(13)
228    grid%em_lat_ul_d = lats16(14)
229    grid%em_lat_ur_d = lats16(15)
230    grid%em_lat_lr_d = lats16(16)
231
232    CALL wrf_get_dom_ti_real ( fid , 'corner_lons' ,  lons16 , 16 , icnt , ierr )
233    WRITE(wrf_err_message,FMT='(A,16f6.1)')'input_wrf: wrf_get_dom_ti_real for CORNER_LONS returns ',lons16
234    CALL wrf_debug ( 300 , wrf_err_message )
235    grid%em_lon_ll_t = lons16( 1)
236    grid%em_lon_ul_t = lons16( 2)
237    grid%em_lon_ur_t = lons16( 3)
238    grid%em_lon_lr_t = lons16( 4)
239    grid%em_lon_ll_u = lons16( 5)
240    grid%em_lon_ul_u = lons16( 6)
241    grid%em_lon_ur_u = lons16( 7)
242    grid%em_lon_lr_u = lons16( 8)
243    grid%em_lon_ll_v = lons16( 9)
244    grid%em_lon_ul_v = lons16(10)
245    grid%em_lon_ur_v = lons16(11)
246    grid%em_lon_lr_v = lons16(12)
247    grid%em_lon_ll_d = lons16(13)
248    grid%em_lon_ul_d = lons16(14)
249    grid%em_lon_ur_d = lons16(15)
250    grid%em_lon_lr_d = lons16(16)
251    ENDIF
252#endif
253
254#if ( NMM_CORE != 1 )
255! program_name is defined in module_domain and set in the main program for whatever application
256! is using subroutine input_wrf (that is, the subroutine you are looking at here). Data files
257! written by SI have P_TOP as a metadata item; the real program and wrf model have it as a
258! state variable. This test is to supress non-fatal but confusing messages from the model complaining
259! that P_TOP cannot be read from the metadata for this dataset.  JM 20040905
260!
261! Note, P_TOP is not defined in the NMM core.
262
263    IF ( program_name(1:7) .EQ. "REAL_EM" ) THEN
264      CALL wrf_get_dom_ti_real ( fid , 'P_TOP' ,  grid%p_top , 1 , icnt , ierr )
265      WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for P_TOP returns ',grid%p_top
266      CALL wrf_debug ( 300 , wrf_err_message )
267    ENDIF
268#endif
269
270    IF ( switch .NE. boundary_only ) THEN
271      CALL wrf_get_dom_ti_real ( fid , 'GMT' ,  config_flags%gmt , 1 , icnt , ierr )
272      WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for GMT returns ',config_flags%gmt
273      CALL wrf_debug ( 300 , wrf_err_message )
274      CALL nl_set_gmt ( grid%id , config_flags%gmt )
275
276      CALL wrf_get_dom_ti_integer ( fid , 'JULYR' ,  config_flags%julyr , 1 , icnt , ierr )
277      WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for JULYR returns ',config_flags%julyr
278      CALL wrf_debug ( 300 , wrf_err_message )
279      CALL nl_set_julyr ( grid%id , config_flags%julyr )
280
281      CALL wrf_get_dom_ti_integer ( fid , 'JULDAY' ,  config_flags%julday , 1 , icnt , ierr )
282      WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for JULDAY returns ',config_flags%julday
283      CALL wrf_debug ( 300 , wrf_err_message )
284      CALL nl_set_julday ( grid%id , config_flags%julday )
285    ENDIF
286
287    CALL wrf_get_dom_ti_integer ( fid , 'MAP_PROJ' ,  config_flags%map_proj , 1 , icnt , ierr )
288    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for MAP_PROJ returns ',config_flags%map_proj
289    CALL wrf_debug ( 300 , wrf_err_message )
290    CALL nl_set_map_proj ( grid%id , config_flags%map_proj )
291
292    CALL wrf_get_dom_ti_char ( fid , 'MMINLU', mminlu , ierr )
293    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_char for MMINLU returns ',mminlu(1:4)
294    CALL wrf_debug ( 300 , wrf_err_message )
295    CALL nl_set_mminlu ( 1, mminlu(1:4) )
296
297    CALL wrf_get_dom_ti_integer ( fid , 'ISWATER' ,  config_flags%iswater , 1 , icnt , ierr )
298    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISWATER returns ',config_flags%iswater
299    CALL wrf_debug ( 300 , wrf_err_message )
300    IF ( ierr .NE. 0 ) THEN
301         IF (mminlu == 'UMD') THEN
302              config_flags%iswater = 14
303         ELSE
304              config_flags%iswater = 16
305         ENDIF
306    ENDIF
307    CALL nl_set_iswater ( grid%id , config_flags%iswater )
308
309    CALL wrf_get_dom_ti_integer ( fid , 'ISICE' ,  config_flags%isice , 1 , icnt , ierr )
310    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISICE returns ',config_flags%isice
311    CALL wrf_debug ( 300 , wrf_err_message )
312    IF ( ierr .NE.  0 ) THEN
313         IF (mminlu == 'UMD') THEN
314              config_flags%isice = 14
315         ELSE
316              config_flags%isice = 24
317         ENDIF
318    ENDIF
319    CALL nl_set_isice ( grid%id , config_flags%isice )
320
321    CALL wrf_get_dom_ti_integer ( fid , 'ISURBAN' ,  config_flags%isurban , 1 , icnt , ierr )
322    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISURBAN returns ',config_flags%isurban
323    CALL wrf_debug ( 300 , wrf_err_message )
324    IF ( ierr .NE. 0 ) THEN
325         IF (mminlu == 'UMD') THEN
326              config_flags%isurban = 13
327         ELSE
328              config_flags%isurban = 1
329         ENDIF
330    ENDIF
331    CALL nl_set_isurban ( grid%id , config_flags%isurban )
332
333    CALL wrf_get_dom_ti_integer ( fid , 'ISOILWATER' ,  config_flags%isoilwater , 1 , icnt , ierr )
334    WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISOILWATER returns ',config_flags%isoilwater
335    CALL wrf_debug ( 300 , wrf_err_message )
336    IF ( ierr .NE. 0 ) THEN
337         config_flags%isoilwater = 14
338    ENDIF
339    CALL nl_set_isoilwater ( grid%id , config_flags%isoilwater )
340
341#ifdef MOVE_NESTS
342! Added these fields for restarting of moving nests, JM
343! DANGER and TODO
344! It is very important that these be set correctly if they are set at all in here.
345! Garbage values will produce unpredictable results, possibly segfaults, in the nesting
346! code. Need some integrity checking here or elsewhere in the code to at least check to
347! make sure that the istart and jstart values make sense with respect to the nest dimensions
348! and the position in the parent domain.
349    CALL wrf_get_dom_ti_integer ( fid , 'I_PARENT_START' ,  itmp  , 1 , icnt, ierr )
350    IF ( ierr .EQ. 0 .AND. switch .EQ. restart_only ) THEN
351      config_flags%i_parent_start = itmp
352      CALL nl_set_i_parent_start ( grid%id , config_flags%i_parent_start )
353    ENDIF
354    CALL wrf_get_dom_ti_integer ( fid , 'J_PARENT_START' ,  itmp  , 1 , icnt, ierr )
355    IF ( ierr .EQ. 0 .AND. switch .EQ. restart_only ) THEN
356      config_flags%j_parent_start = itmp
357      CALL nl_set_j_parent_start ( grid%id , config_flags%j_parent_start )
358    ENDIF
359#endif
360
361! If this was not a training read (dry run) check for erroneous values. 
362    CALL wrf_inquire_filename ( fid , fname , filestate , ierr )
363    IF ( ierr /= 0 ) THEN
364      WRITE(wrf_err_message,*)'module_io_wrf: input_wrf: wrf_inquire_filename Status = ',ierr
365      CALL wrf_error_fatal( wrf_err_message )
366    ENDIF
367
368    WRITE(wrf_err_message,*)'input_wrf: fid,filestate = ',fid,filestate
369    CALL wrf_debug( 300 , wrf_err_message )
370
371    dryrun        = ( filestate .EQ. WRF_FILE_OPENED_NOT_COMMITTED )
372
373    WRITE(wrf_err_message,*)'input_wrf: dryrun = ',dryrun
374    CALL wrf_debug( 300 , wrf_err_message )
375
376    check_if_dryrun : IF ( .NOT. dryrun ) THEN
377
378#if (EM_CORE == 1)
379
380!KLUDGE - is there a more elegant way to determine "old si" input
381    IF      ( ( switch .EQ.     model_input_only  ) .OR. &
382            ( ( switch .EQ. aux_model_input1_only ) .AND. &
383              ( config_flags%auxinput1_inname(1:8) .EQ. 'wrf_real' ) ) ) THEN
384
385       !  Test to make sure that the input data is the right size.
386
387       IF ( ( ide .NE. ide_compare    ) .OR. &
388            ( kde .NE. kde_compare    ) .OR. &
389            ( jde .NE. jde_compare    ) ) THEN
390! a hack for sure
391#ifndef ESMFIO
392          WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH:  namelist ide,jde,kde=',ide,jde,kde,&
393                                  '; input data ide,jde,kde=',ide_compare , jde_compare , kde_compare
394          CALL wrf_error_fatal( wrf_err_message )
395#else
396          WRITE(wrf_err_message,*)'DEBUG input_wrf.F switch = ',switch, &
397                                  ': namelist ide,jde,kde=',ide,jde,kde,&
398                                  '; input data ide,jde,kde=',ide_compare , jde_compare , kde_compare
399          CALL wrf_debug( 100, wrf_err_message )
400#endif
401       ENDIF
402
403    ELSE IF ( switch .EQ. aux_model_input1_only ) THEN
404
405       !  Test to make sure that the input data is the right size.
406       
407       IF ( ( ide                             .NE. ide_compare ) .OR. &
408            ( config_flags%num_metgrid_levels .NE. kde_compare ) .OR. &
409            ( jde                             .NE. jde_compare ) ) THEN
410         WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH:  ',&
411                                 'namelist ide,jde,num_metgrid_levels=',ide,jde,config_flags%num_metgrid_levels,&
412                                 '; input data ide,jde,num_metgrid_levels=',ide_compare , jde_compare , kde_compare
413         CALL wrf_error_fatal( wrf_err_message )
414       ENDIF
415    ENDIF
416
417#endif
418
419    IF ( dyn_opt_tmp .NE. dyn_opt .AND. switch .EQ. model_input_only ) THEN
420      WRITE(wrf_err_message,*)'input_wrf: dyn_opt in file ',dyn_opt_tmp,' NE namelist ',dyn_opt
421      CALL wrf_error_fatal( wrf_err_message )
422    ENDIF
423
424    ENDIF check_if_dryrun
425
426!
427! This call to wrf_get_next_time will position the dataset over the next time-frame
428! in the file and return the current_date, which is used as an argument to the
429! read_field routines in the blocks of code included below.  Note that we read the
430! next time *after* all the meta data has been read. This is only important for the
431! WRF internal I/O format because it is order-dependent. Other formats shouldn't care
432! about this.
433!
434
435    3003 continue
436
437    CALL wrf_get_next_time(fid, current_date , ierr)
438    WRITE(wrf_err_message,*)fid,' input_wrf: wrf_get_next_time current_date: ',current_date(1:19),' Status = ',ierr
439    CALL wrf_debug ( 300 , TRIM(wrf_err_message ) )
440    IF ( ierr .NE. 0 .AND. ierr .NE. WRF_WARN_NOTSUPPORTED .AND. ierr .NE. WRF_WARN_DRYRUN_READ ) THEN
441      CALL wrf_message ( TRIM(wrf_err_message ) )
442      IF ( switch .EQ. boundary_only ) THEN
443        WRITE(wrf_err_message,*) ' ... May have run out of valid boundary conditions in file ',TRIM(fname)
444        CALL wrf_error_fatal( TRIM(wrf_err_message) )
445      ELSE
446#if ( NMM_CORE != 1 )
447        WRITE(wrf_err_message,*) '... Could not find matching time in input file ',TRIM(fname)
448        CALL wrf_error_fatal( TRIM(wrf_err_message) )
449#endif
450      ENDIF
451    ELSE IF ( ierr .NE. WRF_WARN_NOTSUPPORTED .AND. ierr .NE. WRF_WARN_DRYRUN_READ) THEN
452!
453! check input time against domain time (which will be start time at beginning, see share/set_timekeeping.F)
454! JM 20040511
455!
456      SELECT CASE ( switch )
457        CASE ( model_input_only, aux_model_input1_only, aux_model_input2_only,       &
458               aux_model_input3_only, aux_model_input4_only, aux_model_input5_only )
459            CALL wrf_atotime( current_date(1:19), time )
460            CALL domain_clock_get( grid, current_time=currtime, &
461                                         current_timestr=currtimestr )
462            CALL domain_clockprint(150, grid, &
463                   'DEBUG input_wrf():  get CurrTime from clock,')
464            IF ( time .NE. currtime ) THEN
465                WRITE( wrf_err_message , * )'Time in file: ',trim( current_date(1:19) )
466                CALL wrf_message ( trim(wrf_err_message) )
467                WRITE( wrf_err_message , * )'Time on domain: ',trim( currtimestr )
468                CALL wrf_message ( trim(wrf_err_message) )
469                CALL wrf_message( "**WARNING** Time in input file not equal to time on domain **WARNING**" )
470                WRITE(wrf_err_message,*) "**WARNING** Trying next time in file ",TRIM(fname)," ..."
471                CALL wrf_message( TRIM(wrf_err_message) )
472                GOTO 3003
473            ENDIF
474        CASE DEFAULT
475      END SELECT
476    ENDIF
477
478! set the lbc time interval fields in the domain data structure
479! these time values are checked as stopping condition for the while loop in
480! latbound_in() defined in share/medation_integrate.F, which is used to
481! iterate forward to the correct interval in the input LBC file
482!
483    IF ( switch .EQ. boundary_only ) THEN
484        CALL wrf_get_dom_td_char ( fid , 'THISBDYTIME' ,  current_date(1:19), this_datestr , ierr )
485        CALL wrf_atotime( this_datestr(1:19), grid%this_bdy_time )
486        CALL wrf_get_dom_td_char ( fid , 'NEXTBDYTIME' ,  current_date(1:19), next_datestr , ierr )
487        CALL wrf_atotime( next_datestr(1:19), grid%next_bdy_time )
488    ENDIF
489
490#if 1
491    IF      ( switch .EQ. model_input_only ) THEN
492      CALL wrf_inputin( fid , grid , config_flags , switch , ierr )
493    ELSE IF ( switch .EQ. history_only ) THEN
494      CALL wrf_histin( fid , grid , config_flags , switch , ierr )
495    ELSE IF ( switch .EQ. aux_model_input1_only ) THEN
496      CALL wrf_auxinput1in( fid , grid , config_flags , switch , ierr )
497    ELSE IF ( switch .EQ. aux_model_input2_only ) THEN
498      CALL wrf_auxinput2in( fid , grid , config_flags , switch , ierr )
499    ELSE IF ( switch .EQ. aux_model_input3_only ) THEN
500      CALL wrf_auxinput3in( fid , grid , config_flags , switch , ierr )
501    ELSE IF ( switch .EQ. aux_model_input4_only ) THEN
502      CALL wrf_auxinput4in( fid , grid , config_flags , switch , ierr )
503    ELSE IF ( switch .EQ. aux_model_input5_only ) THEN
504      CALL wrf_auxinput5in( fid , grid , config_flags , switch , ierr )
505    ELSE IF ( switch .EQ. aux_model_input6_only ) THEN
506      CALL wrf_auxinput6in( fid , grid , config_flags , switch , ierr )
507    ELSE IF ( switch .EQ. aux_model_input7_only ) THEN
508      CALL wrf_auxinput7in( fid , grid , config_flags , switch , ierr )
509    ELSE IF ( switch .EQ. aux_model_input8_only ) THEN
510      CALL wrf_auxinput8in( fid , grid , config_flags , switch , ierr )
511    ELSE IF ( switch .EQ. aux_model_input9_only ) THEN
512      CALL wrf_auxinput9in( fid , grid , config_flags , switch , ierr )
513    ELSE IF ( switch .EQ. aux_model_input10_only ) THEN
514      CALL wrf_auxinput10in( fid , grid , config_flags , switch , ierr )
515    ELSE IF ( switch .EQ. aux_model_input11_only ) THEN
516      CALL wrf_auxinput11in( fid , grid , config_flags , switch , ierr )
517
518
519    ELSE IF ( switch .EQ. aux_hist1_only ) THEN
520      CALL wrf_auxhist1in( fid , grid , config_flags , switch , ierr )
521    ELSE IF ( switch .EQ. aux_hist2_only ) THEN
522      CALL wrf_auxhist2in( fid , grid , config_flags , switch , ierr )
523    ELSE IF ( switch .EQ. aux_hist3_only ) THEN
524      CALL wrf_auxhist3in( fid , grid , config_flags , switch , ierr )
525    ELSE IF ( switch .EQ. aux_hist4_only ) THEN
526      CALL wrf_auxhist4in( fid , grid , config_flags , switch , ierr )
527    ELSE IF ( switch .EQ. aux_hist5_only ) THEN
528      CALL wrf_auxhist5in( fid , grid , config_flags , switch , ierr )
529    ELSE IF ( switch .EQ. aux_hist6_only ) THEN
530      CALL wrf_auxhist6in( fid , grid , config_flags , switch , ierr )
531    ELSE IF ( switch .EQ. aux_hist7_only ) THEN
532      CALL wrf_auxhist7in( fid , grid , config_flags , switch , ierr )
533    ELSE IF ( switch .EQ. aux_hist8_only ) THEN
534      CALL wrf_auxhist8in( fid , grid , config_flags , switch , ierr )
535    ELSE IF ( switch .EQ. aux_hist9_only ) THEN
536      CALL wrf_auxhist9in( fid , grid , config_flags , switch , ierr )
537    ELSE IF ( switch .EQ. aux_hist10_only ) THEN
538      CALL wrf_auxhist10in( fid , grid , config_flags , switch , ierr )
539    ELSE IF ( switch .EQ. aux_hist11_only ) THEN
540      CALL wrf_auxhist11in( fid , grid , config_flags , switch , ierr )
541
542    ELSE IF ( switch .EQ. restart_only ) THEN
543      CALL wrf_restartin( fid , grid , config_flags , switch , ierr )
544    ELSE IF ( switch .EQ. boundary_only ) THEN
545      CALL wrf_bdyin( fid , grid , config_flags , switch , ierr )
546    ENDIF
547#else
548    CALL wrf_message ( "ALL I/O DISABLED IN share/module_io_wrf.F")
549#endif
550
551    WRITE(wrf_err_message,*)'input_wrf: end, fid = ',fid
552    CALL wrf_debug( 300 , wrf_err_message )
553
554    RETURN
555  END SUBROUTINE input_wrf
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