source: trunk/MESOSCALE/LMD_MM_MARS/SRC/WRFV2/frame/module_integrate.F @ 1780

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

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1!WRF:DRIVER_LAYER:INTEGRATION
2!
3
4MODULE module_integrate
5
6CONTAINS
7
8RECURSIVE SUBROUTINE integrate ( grid )
9
10
11
12   USE module_domain
13   USE module_driver_constants
14   USE module_nesting
15   USE module_configure
16   USE module_timing
17   USE module_utility
18
19   IMPLICIT NONE
20
21   !  Input data.
22
23   TYPE(domain) , POINTER :: grid
24
25! module_integrate:integrate
26! <DESCRIPTION>
27! This is a driver-level routine that controls the integration of a
28! domain and subdomains rooted at the domain.
29!
30! The integrate routine takes a domain pointed to by the argument
31! <em>grid</em> and advances the domain and its associated nests from the
32! grid's current time, stored within grid%domain_clock, to a given time
33! forward in the simulation, stored as grid%stop_subtime. The
34! stop_subtime value is arbitrary and does not have to be the same as
35! time that the domain finished integrating.  The simulation stop time
36! for the grid is known to the grid's clock (grid%domain_clock) and that
37! is checked with a call to domain_clockisstoptime prior to beginning the
38! loop over time period that is specified by the
39! current time/stop_subtime interval.
40!
41! The clock, the simulation stop time for the domain, and other timing
42! aspects for the grid are set up in the routine
43! (<a href="setup_timekeeping.html">setup_timekeeping</a>) at the time
44! that the domain is initialized.
45! The lower-level time library and the type declarations for the times
46! and time intervals used are defined either in
47! external/esmf_time_f90/module_utility.F90 or in
48! external/io_esmf/module_utility.F90 depending on a build-time decision to
49! incorporate either the embedded ESMF subset implementation contained in
50! external/esmf_time_f90 or to use a site-specific installation of the ESMF
51! library.  This decision is made during the configuration step of the WRF
52! build process.  Note that arithmetic and comparison is performed on these
53! data types using F90 operator overloading, also defined in that library.
54!
55! This routine is the lowest level of the WRF Driver Layer and for the most
56! part the WRF routines that are called from here are in the topmost level
57! of the Mediation Layer.  Mediation layer routines typically are not
58! defined in modules. Therefore, the routines that this routine calls
59! have explicit interfaces specified in an interface block in this routine.
60!
61! As part of the Driver Layer, this routine is intended to be non model-specific
62! and so a minimum of WRF-specific logic is coded at this level. Rather, there
63! are a number of calls to mediation layer routines that contain this logic, some
64! of which are merely stubs in WRF Mediation Layer that sits below this routine
65! in the call tree.  The routines that integrate calls in WRF are defined in
66! share/mediation_integrate.F.
67!
68! Flow of control
69!
70! 1. Check to see that the domain is not finished
71! by testing the value returned by domain_clockisstoptime for the
72! domain.
73!
74! 2. <a href=model_to_grid_config_rec.html>Model_to_grid_config_rec</a> is called to load the local config_flags
75! structure with the configuration information for the grid stored
76! in model_config_rec and indexed by the grid's unique integer id. These
77! structures are defined in frame/module_configure.F.
78!
79! 3. The current time of the domain is retrieved from the domain's clock
80! using domain_get_current_time. 
81!
82! 4. Iterate forward while the current time is less than the stop subtime.
83!
84! 4.a. Start timing for this iteration (only on node zero in distributed-memory runs)
85!
86! 4.b. Call <a href=med_setup_step.html>med_setup_step</a> to allow the mediation layer to
87! do anything that's needed to call the solver for this domain.  In WRF this means setting
88! the indices into the 4D tracer arrays for the domain.
89!
90! 4.c. Check for any nests that need to be started up at this time.  This is done
91! calling the logical function <a href=nests_to_open.html>nests_to_open</a> (defined in
92! frame/module_nesting.F) which returns true and the index into the current domain's list
93! of children to use for the nest when one needs to be started.
94!
95! 4.c.1  Call <a href=alloc_and_configure_domain.html>alloc_and_configure_domain</a> to allocate
96! the new nest and link it as a child of this grid.
97!
98! 4.c.2  Call <a href=setup_Timekeeping.html>setup_Timekeeping</a> for the nest.
99!
100! 4.c.3  Initialize the nest's arrays by calling <a href=med_nest_initial.html>med_nest_initial</a>. This will
101! either interpolate data from this grid onto the nest, read it in from a file, or both. In a restart run, this
102! is also where the nest reads in its restart file.
103!
104! 4.d  If a nest was opened above, check for and resolve overlaps (this is not implemented in WRF 2.0, which
105! supports multiple nests on the same level but does not support overlapping).
106!
107! 4.e  Give the mediation layer an opportunity to do something before the solver is called by
108! calling <a href=med_before_solve_io.html>med_before_solve_io</a>. In WRF this is the point at which history and
109! restart data is output.
110!
111! 4.f  Call <a href=solve_interface.html>solve_interface</a> which calls the solver that advance the domain
112! one time step, then advance the domain's clock by calling domain_clockadvance. 
113! The enclosing WHILE loop around this section is for handling other domains
114! with which this domain may overlap.  It is not active in WRF 2.0 and only
115! executes one trip. 
116!
117! 4.g Call med_calc_model_time and med_after_solve_io, which are stubs in WRF.
118!
119! 4.h Iterate over the children of this domain (<tt>DO kid = 1, max_nests</tt>) and check each child pointer to see
120! if it is associated (and therefore, active).
121!
122! 4.h.1  Force the nested domain boundaries from this domain by calling <a href=med_nest_force.html>med_nest_force</a>.
123!
124! 4.h.2  Setup the time period over which the nest is to run. Sine the current grid has been advanced one time step
125! and the nest has not, the start for the nest is this grid's current time minus one time step.  The nest's stop_subtime
126! is the current time, bringing the nest up the same time level as this grid, its parent.
127!
128! 4.h.3  Recursively call this routine, integrate, to advance the nest's time.  Since it is recursive, this will
129! also advance all the domains who are nests of this nest and so on.  In other words, when this call returns, all
130! the domains rooted at the nest will be at the current time.
131!
132! 4.h.4  Feedback data from the nested domain back onto this domain by calling <a href=med_nest_feedback.html>med_nest_feedback</a>.
133!
134! 4.i  Write the time to compute this grid and its subtree. This marks the end of the loop begun at step 4, above.
135!
136! 5. Give the mediation layer an opportunity to do I/O at the end of the sequence of steps that brought the
137! grid up to stop_subtime with a call to <a href=med_last_solve_io.html>med_last_solve_io</a>.  In WRF, this
138! is used to generate the final history and/or restart output when the domain reaches the end of it's integration.
139! There is logic here to make sure this occurs correctly on a nest, since the nest may finish before its parent.
140! </DESCRIPTION>
141
142   !  Local data.
143
144   CHARACTER*32                           :: outname, rstname
145   TYPE(domain) , POINTER                 :: grid_ptr , new_nest
146   TYPE(domain)                           :: intermediate_grid
147   INTEGER                                :: step
148   INTEGER                                :: nestid , kid
149   LOGICAL                                :: a_nest_was_opened
150   INTEGER                                :: fid , rid
151   LOGICAL                                :: lbc_opened
152   REAL                                   :: time, btime, bfrq
153   CHARACTER*256                          :: message, message2
154   TYPE (grid_config_rec_type)            :: config_flags
155   LOGICAL , EXTERNAL                     :: wrf_dm_on_monitor
156   INTEGER                                :: idum1 , idum2 , ierr , open_status
157   LOGICAL                                :: should_do_last_io
158
159   ! interface
160   INTERFACE
161       ! mediation-supplied solver
162     SUBROUTINE solve_interface ( grid )
163       USE module_domain
164       TYPE (domain) grid
165     END SUBROUTINE solve_interface
166       ! mediation-supplied routine to allow driver to pass time information
167       ! down to mediation/model layer
168     SUBROUTINE med_calc_model_time ( grid , config_flags )
169       USE module_domain
170       USE module_configure
171       TYPE (domain) grid
172       TYPE (grid_config_rec_type) config_flags
173     END SUBROUTINE med_calc_model_time
174       ! mediation-supplied routine that gives mediation layer opportunity to
175       ! perform I/O before the call to the solve routine
176     SUBROUTINE med_before_solve_io ( grid , config_flags )
177       USE module_domain
178       USE module_configure
179       TYPE (domain) grid
180       TYPE (grid_config_rec_type) config_flags
181     END SUBROUTINE med_before_solve_io
182       ! mediation-supplied routine that gives mediation layer opportunity to
183       ! perform I/O after the call to the solve routine
184     SUBROUTINE med_after_solve_io ( grid , config_flags )
185       USE module_domain
186       USE module_configure
187       TYPE (domain) grid
188       TYPE (grid_config_rec_type) config_flags
189     END SUBROUTINE med_after_solve_io
190       ! mediation-supplied routine that gives mediation layer opportunity to
191       ! perform I/O to initialize a new nest
192     SUBROUTINE med_pre_nest_initial ( parent , newid , config_flags )
193       USE module_domain
194       USE module_configure
195       TYPE (domain), POINTER ::  parent
196       INTEGER, INTENT(IN)    ::  newid
197       TYPE (grid_config_rec_type) config_flags
198     END SUBROUTINE med_pre_nest_initial
199     SUBROUTINE med_nest_initial ( parent , grid , config_flags )
200       USE module_domain
201       USE module_configure
202       TYPE (domain), POINTER ::  grid , parent
203       TYPE (grid_config_rec_type) config_flags
204     END SUBROUTINE med_nest_initial
205       ! mediation-supplied routine that gives mediation layer opportunity to
206       ! provide parent->nest forcing
207     SUBROUTINE med_nest_force ( parent , grid , config_flags )
208       USE module_domain
209       USE module_configure
210       TYPE (domain), POINTER ::  grid, parent
211       TYPE (grid_config_rec_type) config_flags
212     END SUBROUTINE med_nest_force
213
214#ifdef MOVE_NESTS
215     SUBROUTINE med_nest_move ( parent , grid )
216       USE module_domain
217       USE module_configure
218       TYPE (domain), POINTER ::  grid , parent
219     END SUBROUTINE med_nest_move
220#endif
221
222       ! mediation-supplied routine that gives mediation layer opportunity to
223       ! provide parent->nest feedback
224     SUBROUTINE med_nest_feedback ( parent , grid , config_flags )
225       USE module_domain
226       USE module_configure
227       TYPE (domain), POINTER ::  grid , parent
228       TYPE (grid_config_rec_type) config_flags
229     END SUBROUTINE med_nest_feedback
230
231       ! mediation-supplied routine that gives mediation layer opportunity to
232       ! perform I/O prior to the close of this call to integrate
233     SUBROUTINE med_last_solve_io ( grid , config_flags )
234       USE module_domain
235       USE module_configure
236       TYPE (domain) grid
237       TYPE (grid_config_rec_type) config_flags
238     END SUBROUTINE med_last_solve_io
239       ! mediation-supplied routine that gives mediation layer opportunity to
240       ! perform setup before iteration over steps in this call to integrate
241     SUBROUTINE med_setup_step ( grid , config_flags )
242       USE module_domain
243       USE module_configure
244       TYPE (domain) grid
245       TYPE (grid_config_rec_type) config_flags
246     END SUBROUTINE med_setup_step
247       ! mediation-supplied routine that gives mediation layer opportunity to
248       ! perform setup before iteration over steps in this call to integrate
249     SUBROUTINE med_endup_step ( grid , config_flags )
250       USE module_domain
251       USE module_configure
252       TYPE (domain) grid
253       TYPE (grid_config_rec_type) config_flags
254     END SUBROUTINE med_endup_step
255       ! mediation-supplied routine that intializes the nest from the grid
256       ! by interpolation
257
258     SUBROUTINE Setup_Timekeeping( grid )
259       USE module_domain
260       TYPE(domain), POINTER :: grid
261     END SUBROUTINE
262
263   END INTERFACE
264
265   ! This allows us to reference the current grid from anywhere beneath
266   ! this point for debugging purposes. 
267   ! In the case of operations involving already initialized parent and child,
268   ! the current grid is set to the child grid. 
269!$$$ Improve this later to track both parent and child... 
270!$$$ Use either an optional argument or another interface... 
271   CALL set_current_grid_ptr( grid )
272
273   IF ( .NOT. domain_clockisstoptime( grid ) ) THEN
274      CALL model_to_grid_config_rec ( grid%id , model_config_rec , config_flags )
275      IF ( .NOT. grid%return_after_training_io ) THEN
276         CALL domain_clockprint ( 150, grid, 'DEBUG:  top of integrate(),' )
277      ENDIF
278      DO WHILE ( .NOT. domain_clockisstopsubtime(grid) )
279         IF ( .NOT. grid%return_after_training_io ) THEN
280            IF ( wrf_dm_on_monitor() ) THEN
281              CALL start_timing
282            END IF
283         ENDIF
284         CALL med_setup_step ( grid , config_flags )
285         IF ( .NOT. grid%return_after_training_io ) THEN
286            a_nest_was_opened = .false.
287            ! for each nest whose time has come...
288            DO WHILE ( nests_to_open( grid , nestid , kid ) )
289               ! nestid is index into model_config_rec (module_configure) of the grid
290               ! to be opened; kid is index into an open slot in grid's list of children
291               a_nest_was_opened = .true.
292               CALL med_pre_nest_initial ( grid , nestid , config_flags )
293               CALL alloc_and_configure_domain ( domain_id  = nestid ,   &
294                                                 grid       = new_nest , &
295                                                 parent     = grid ,     &
296                                                 kid        = kid        )
297               CALL Setup_Timekeeping (new_nest)
298               CALL med_nest_initial ( grid , new_nest , config_flags )
299            END DO
300            IF ( a_nest_was_opened ) THEN
301               CALL set_overlaps ( grid )   ! find overlapping and set pointers
302            END IF
303         ENDIF
304         CALL med_before_solve_io ( grid , config_flags )
305         IF ( grid%return_after_training_io ) THEN
306           CALL wrf_debug( 1, 'DEBUG:  module_integrate() returned after training' )
307           RETURN  ! an ugly hack for sure, only needed for ESMF
308         ENDIF
309         grid_ptr => grid
310         DO WHILE ( ASSOCIATED( grid_ptr ) )
311            CALL set_current_grid_ptr( grid_ptr )
312            CALL wrf_debug( 100 , 'module_integrate: calling solve interface ' )
313            CALL solve_interface ( grid_ptr )
314            CALL domain_clockadvance ( grid_ptr )
315            CALL wrf_debug( 100 , 'module_integrate: back from solve interface ' )
316            ! print lots of time-related information for testing
317            ! switch this on with namelist variable self_test_domain
318            CALL domain_time_test( grid_ptr, 'domain_clockadvance' )
319            grid_ptr => grid_ptr%sibling
320         END DO
321         CALL set_current_grid_ptr( grid )
322         CALL med_calc_model_time ( grid , config_flags )
323         CALL med_after_solve_io ( grid , config_flags )
324         grid_ptr => grid
325         DO WHILE ( ASSOCIATED( grid_ptr ) )
326            DO kid = 1, max_nests
327              IF ( ASSOCIATED( grid_ptr%nests(kid)%ptr ) ) THEN
328                CALL set_current_grid_ptr( grid_ptr%nests(kid)%ptr )
329                ! Recursive -- advance nests from previous time level to this time level.
330                CALL wrf_debug( 100 , 'module_integrate: calling med_nest_force ' )
331                CALL med_nest_force ( grid_ptr , grid_ptr%nests(kid)%ptr , config_flags )
332                CALL wrf_debug( 100 , 'module_integrate: back from med_nest_force ' )
333                grid_ptr%nests(kid)%ptr%start_subtime = &
334                  domain_get_current_time(grid) - domain_get_time_step(grid)
335                grid_ptr%nests(kid)%ptr%stop_subtime = &
336                  domain_get_current_time(grid)
337                CALL integrate ( grid_ptr%nests(kid)%ptr )
338                CALL wrf_debug( 100 , 'module_integrate: back from recursive call to integrate ' )
339                CALL wrf_debug( 100 , 'module_integrate: calling med_nest_feedback ' )
340                CALL med_nest_feedback ( grid_ptr , grid_ptr%nests(kid)%ptr , config_flags )
341                CALL wrf_debug( 100 , 'module_integrate: back from med_nest_feedback ' )
342#ifdef MOVE_NESTS
343                IF ( .NOT. domain_clockisstoptime( head_grid ) ) THEN
344                  CALL med_nest_move ( grid_ptr , grid_ptr%nests(kid)%ptr )
345                ENDIF
346#endif
347              END IF
348            END DO
349            grid_ptr => grid_ptr%sibling
350         END DO
351         CALL set_current_grid_ptr( grid )
352         !  Report on the timing for a single time step.
353         IF ( wrf_dm_on_monitor() ) THEN
354! begin KLUDGE
355! ia32 pgi 6.0-2 and prescribed moving nest: the returned date string message2 is
356! corrupt after the first specified move UNLESS the string is initialized to all
357! spaces - REMOVE THIS INIT OF MESSAGE2 WHEN POSSIBLE
358! 2005 10 28
359            message2='                                                                ' // &
360                     '                                                                ' // &
361                     '                                                                ' // &
362                     '                                                                '
363! end KLUDGE
364           CALL domain_clock_get ( grid, current_timestr=message2 )
365           WRITE ( message , FMT = '("main: time ",A," on domain ",I3)' ) TRIM(message2), grid%id
366           CALL end_timing ( TRIM(message) )
367         END IF
368         CALL med_endup_step ( grid , config_flags )
369      END DO
370      ! Avoid double writes on nests if this is not really the last time;
371      ! Do check for write if the parent domain is ending.
372      IF ( grid%id .EQ. 1 ) THEN               ! head_grid
373        CALL med_last_solve_io ( grid , config_flags )
374      ELSE
375
376! zip up the tree and see if any ancestor is at its stop time
377       
378        should_do_last_io = domain_clockisstoptime( head_grid )
379        grid_ptr => grid
380        DO WHILE ( grid_ptr%id .NE. 1 )
381           IF ( domain_clockisstoptime( grid_ptr ) ) should_do_last_io = .TRUE.
382           grid_ptr => grid_ptr%parents(1)%ptr
383        ENDDO
384        IF ( should_do_last_io ) THEN
385           CALL med_last_solve_io ( grid , config_flags )
386        ENDIF
387      ENDIF
388   END IF
389
390END SUBROUTINE integrate
391
392END MODULE module_integrate
393
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