eesupp/src/exch_rx.template

C $Header: /u/gcmpack/MITgcm/eesupp/src/exch_rx.template,v 1.4 2002/04/30 22:48:20 jmc Exp $
C $Name:  $

#include "CPP_EEOPTIONS.h"

CBOP

C      !ROUTINE: EXCH_RX

C      !INTERFACE:
       SUBROUTINE EXCH_RX( 
     U            array,
     I            myOLw, myOLe, myOLs, myOLn, myNz,
     I            exchWidthX, exchWidthY,
     I            simulationMode, cornerMode, myThid )
      IMPLICIT NONE

C     !DESCRIPTION:
C     *==========================================================*
C     | SUBROUTINE EXCH_RX                                        
C     | o Control edge exchanges for RX array.                    
C     *==========================================================*
C     |                                                           
C     | Controlling routine for exchange of XY edges of an array  
C     | distributed in X and Y. The routine interfaces to         
C     | communication routines that can use messages passing      
C     | exchanges, put type exchanges or get type exchanges.      
C     |  This allows anything from MPI to raw memory channel to   
C     | memmap segments to be used as a inter-process and/or      
C     | inter-thread communiation and synchronisation             
C     | mechanism.                                                
C     | Notes --                                                  
C     | 1. Some low-level mechanisms such as raw memory-channel   
C     | or SGI/CRAY shmem put do not have direct Fortran bindings 
C     | and are invoked through C stub routines.                  
C     | 2. Although this routine is fairly general but it does    
C     | require nSx and nSy are the same for all innvocations.    
C     | There are many common data structures ( myByLo,           
C     | westCommunicationMode, mpiIdW etc... ) tied in with       
C     | (nSx,nSy). To support arbitray nSx and nSy would require  
C     | general forms of these.                                   
C     | 3. RX arrays are used to generate code for both _RL and
C     | _RS forms.                                                
C     *==========================================================*

C      !USES:
C      == Global data ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "EESUPPORT.h"
#include "EXCH.h"

C      !INPUT/OUTPUT PARAMETERS:
C      == Routine arguments ==
C      array :: Array with edges to exchange.
C      myOLw :: West, East, North and South overlap region sizes.
C      myOLe
C      myOLn
C      myOLs
C      exchWidthX :: Width of data region exchanged in X.
C      exchWidthY :: Width of data region exchanged in Y.
C                    Note -- 
C                    1. In theory one could have a send width and
C                    a receive width for each face of each tile. The only
C                    restriction woul be that the send width of one
C                    face should equal the receive width of the sent to
C                    tile face. Dont know if this would be useful. I 
C                    have left it out for now as it requires additional 
C                     bookeeping.
C      simulationMode :: Forward or reverse mode exchange ( provides 
C                        support for adjoint integration of code. )
C      cornerMode     :: Flag indicating whether corner updates are 
C                        needed.
C      myThid         :: Thread number of this instance of S/R EXCH...
       INTEGER myOLw
       INTEGER myOLe
       INTEGER myOLs
       INTEGER myOLn
       INTEGER myNz
       INTEGER exchWidthX
       INTEGER exchWidthY
       INTEGER simulationMode
       INTEGER cornerMode
       INTEGER myThid
       _RX array(1-myOLw:sNx+myOLe,
     &           1-myOLs:sNy+myOLn, 
     &           myNZ, nSx, nSy)

C      !LOCAL VARIABLES:
C      == Local variables ==
C      theSimulationMode :: Holds working copy of simulation mode
C      theCornerMode     :: Holds working copy of corner mode
C      I,J,K,bi,bj       :: Loop counters
       INTEGER theSimulationMode
       INTEGER theCornerMode
       INTEGER I,J,K,bi,bj
CEOP

       theSimulationMode = simulationMode
       theCornerMode     = cornerMode

C--    Error checks
       IF ( exchWidthX .GT. myOLw   ) 
     &  STOP ' S/R EXCH_RX: exchWidthX .GT. myOLw'
       IF ( exchWidthX .GT. myOLe   ) 
     &  STOP ' S/R EXCH_RX: exchWidthX .GT. myOLe'
       IF ( exchWidthY .GT. myOLs   ) 
     &  STOP ' S/R EXCH_RX: exchWidthY .GT. myOLs'
       IF ( exchWidthY .GT. myOLn   ) 
     &  STOP ' S/R EXCH_RX: exchWidthY .GT. myOLn'
       IF ( myOLw      .GT. MAX_OLX_EXCH ) 
     &  STOP ' S/R EXCH_RX: myOLw .GT. MAX_OLX_EXCH'
       IF ( myOLe      .GT. MAX_OLX_EXCH ) 
     &  STOP ' S/R EXCH_RX: myOLe .GT. MAX_OLX_EXCH'
       IF ( myOLn      .GT. MAX_OLX_EXCH ) 
     &  STOP ' S/R EXCH_RX: myOLn .GT. MAX_OLY_EXCH'
       IF ( myOLs      .GT. MAX_OLY_EXCH ) 
     &  STOP ' S/R EXCH_RX: myOLs .GT. MAX_OLY_EXCH'
       IF ( myNZ       .GT. MAX_NR_EXCH  ) 
     &  STOP ' S/R EXCH_RX: myNZ  .GT. MAX_NR_EXCH '
       IF (       theSimulationMode .NE. FORWARD_SIMULATION
     &      .AND. theSimulationMode .NE. REVERSE_SIMULATION
     &    ) STOP ' S/R EXCH_RX: Unrecognised simulationMode '
       IF (       theCornerMode .NE. EXCH_IGNORE_CORNERS
     &      .AND. theCornerMode .NE. EXCH_UPDATE_CORNERS
     &    ) STOP ' S/R EXCH_RX: Unrecognised cornerMode '

C--    Cycle edge buffer level
       CALL EXCH_CYCLE_EBL( myThid )

       IF ( theSimulationMode .EQ. FORWARD_SIMULATION ) THEN
C--     "Put" east and west edges.
        CALL EXCH_RX_SEND_PUT_X( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
C--     If corners are important then sync and update east and west edges 
C--     before doing north and south exchanges.
        IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) THEN
         CALL EXCH_RX_RECV_GET_X( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
        ENDIF
C       "Put" north and south edges.
        CALL EXCH_RX_SEND_PUT_Y( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
C--     Sync and update north, south (and east, west if corner updating
C--     not active).
        IF ( theCornerMode .NE. EXCH_UPDATE_CORNERS ) THEN
         CALL EXCH_RX_RECV_GET_X( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
        ENDIF
        CALL EXCH_RX_RECV_GET_Y( array,
     I             myOLw, myOLe, myOLs, myOLn, myNz,
     I             exchWidthX, exchWidthY,
     I             theSimulationMode, theCornerMode, myThid )
       ENDIF

       IF ( theSimulationMode .EQ. REVERSE_SIMULATION ) THEN
C       "Put" north and south edges.
        CALL EXCH_RX_SEND_PUT_Y( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
C--     If corners are important then sync and update east and west edges
C--     before doing north and south exchanges.
        IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) THEN
         CALL EXCH_RX_RECV_GET_Y( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
        ENDIF
C--     "Put" east and west edges.
        CALL EXCH_RX_SEND_PUT_X( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
C--     Sync and update east, west (and north, south if corner updating
C--     not active).
        IF ( theCornerMode .NE. EXCH_UPDATE_CORNERS ) THEN
         CALL EXCH_RX_RECV_GET_Y( array,
     I              myOLw, myOLe, myOLs, myOLn, myNz,
     I              exchWidthX, exchWidthY,
     I              theSimulationMode, theCornerMode, myThid )
        ENDIF
        CALL EXCH_RX_RECV_GET_X( array,
     I             myOLw, myOLe, myOLs, myOLn, myNz,
     I             exchWidthX, exchWidthY,
     I             theSimulationMode, theCornerMode, myThid )
       ENDIF
C      Special case for zonal average model i.e. case where Nx == 1
C      In this case a forward mode exchange simply sets array to
C      the i=1 value for all i.
       IF ( Nx .EQ. 1 ) THEN
        DO bj=myByLo(myThid),myByHi(myThid)
         DO bi=myBxLo(myThid),myBxHi(myThid)
          DO K = 1,myNz
           DO J = 1-myOLs,sNy+myOLn
            DO I = 1-myOLw,sNx+myOLe
             array(I,J,K,bi,bj) = array(1,J,K,bi,bj)
            ENDDO
           ENDDO
          ENDDO
         ENDDO
        ENDDO
       ENDIF
C      Special case for X-slice domain i.e. case where Ny == 1
C      In this case a forward mode exchange simply sets array to
C      the j=1 value for all j.
       IF ( Ny .EQ. 1 ) THEN
        DO bj=myByLo(myThid),myByHi(myThid)
         DO bi=myBxLo(myThid),myBxHi(myThid)
          DO K = 1,myNz
           DO J = 1-myOLs,sNy+myOLn
            DO I = 1-myOLw,sNx+myOLe
             array(I,J,K,bi,bj) = array(I,1,K,bi,bj)
            ENDDO
           ENDDO
          ENDDO
         ENDDO
        ENDDO
       ENDIF

       RETURN
       END
1	C $Header: /u/gcmpack/MITgcm/eesupp/src/exch_rx.template,v 1.4 2002/04/30 22:48:20 jmc Exp $
2	C $Name: $
3
4	#include "CPP_EEOPTIONS.h"
5
6	CBOP
7
8	C !ROUTINE: EXCH_RX
9
10	C !INTERFACE:
11	SUBROUTINE EXCH_RX(
12	U array,
13	I myOLw, myOLe, myOLs, myOLn, myNz,
14	I exchWidthX, exchWidthY,
15	I simulationMode, cornerMode, myThid )
16	IMPLICIT NONE
17
18	C !DESCRIPTION:
19	C ==========================================================
20	C \| SUBROUTINE EXCH_RX
21	C \| o Control edge exchanges for RX array.
22	C ==========================================================
23	C \|
24	C \| Controlling routine for exchange of XY edges of an array
25	C \| distributed in X and Y. The routine interfaces to
26	C \| communication routines that can use messages passing
27	C \| exchanges, put type exchanges or get type exchanges.
28	C \| This allows anything from MPI to raw memory channel to
29	C \| memmap segments to be used as a inter-process and/or
30	C \| inter-thread communiation and synchronisation
31	C \| mechanism.
32	C \| Notes --
33	C \| 1. Some low-level mechanisms such as raw memory-channel
34	C \| or SGI/CRAY shmem put do not have direct Fortran bindings
35	C \| and are invoked through C stub routines.
36	C \| 2. Although this routine is fairly general but it does
37	C \| require nSx and nSy are the same for all innvocations.
38	C \| There are many common data structures ( myByLo,
39	C \| westCommunicationMode, mpiIdW etc... ) tied in with
40	C \| (nSx,nSy). To support arbitray nSx and nSy would require
41	C \| general forms of these.
42	C \| 3. RX arrays are used to generate code for both _RL and
43	C \| _RS forms.
44	C ==========================================================
45
46	C !USES:
47	C == Global data ==
48	#include "SIZE.h"
49	#include "EEPARAMS.h"
50	#include "EESUPPORT.h"
51	#include "EXCH.h"
52
53	C !INPUT/OUTPUT PARAMETERS:
54	C == Routine arguments ==
55	C array :: Array with edges to exchange.
56	C myOLw :: West, East, North and South overlap region sizes.
57	C myOLe
58	C myOLn
59	C myOLs
60	C exchWidthX :: Width of data region exchanged in X.
61	C exchWidthY :: Width of data region exchanged in Y.
62	C Note --
63	C 1. In theory one could have a send width and
64	C a receive width for each face of each tile. The only
65	C restriction woul be that the send width of one
66	C face should equal the receive width of the sent to
67	C tile face. Dont know if this would be useful. I
68	C have left it out for now as it requires additional
69	C bookeeping.
70	C simulationMode :: Forward or reverse mode exchange ( provides
71	C support for adjoint integration of code. )
72	C cornerMode :: Flag indicating whether corner updates are
73	C needed.
74	C myThid :: Thread number of this instance of S/R EXCH...
75	INTEGER myOLw
76	INTEGER myOLe
77	INTEGER myOLs
78	INTEGER myOLn
79	INTEGER myNz
80	INTEGER exchWidthX
81	INTEGER exchWidthY
82	INTEGER simulationMode
83	INTEGER cornerMode
84	INTEGER myThid
85	_RX array(1-myOLw:sNx+myOLe,
86	& 1-myOLs:sNy+myOLn,
87	& myNZ, nSx, nSy)
88
89	C !LOCAL VARIABLES:
90	C == Local variables ==
91	C theSimulationMode :: Holds working copy of simulation mode
92	C theCornerMode :: Holds working copy of corner mode
93	C I,J,K,bi,bj :: Loop counters
94	INTEGER theSimulationMode
95	INTEGER theCornerMode
96	INTEGER I,J,K,bi,bj
97	CEOP
98
99	theSimulationMode = simulationMode
100	theCornerMode = cornerMode
101
102	C-- Error checks
103	IF ( exchWidthX .GT. myOLw )
104	& STOP ' S/R EXCH_RX: exchWidthX .GT. myOLw'
105	IF ( exchWidthX .GT. myOLe )
106	& STOP ' S/R EXCH_RX: exchWidthX .GT. myOLe'
107	IF ( exchWidthY .GT. myOLs )
108	& STOP ' S/R EXCH_RX: exchWidthY .GT. myOLs'
109	IF ( exchWidthY .GT. myOLn )
110	& STOP ' S/R EXCH_RX: exchWidthY .GT. myOLn'
111	IF ( myOLw .GT. MAX_OLX_EXCH )
112	& STOP ' S/R EXCH_RX: myOLw .GT. MAX_OLX_EXCH'
113	IF ( myOLe .GT. MAX_OLX_EXCH )
114	& STOP ' S/R EXCH_RX: myOLe .GT. MAX_OLX_EXCH'
115	IF ( myOLn .GT. MAX_OLX_EXCH )
116	& STOP ' S/R EXCH_RX: myOLn .GT. MAX_OLY_EXCH'
117	IF ( myOLs .GT. MAX_OLY_EXCH )
118	& STOP ' S/R EXCH_RX: myOLs .GT. MAX_OLY_EXCH'
119	IF ( myNZ .GT. MAX_NR_EXCH )
120	& STOP ' S/R EXCH_RX: myNZ .GT. MAX_NR_EXCH '
121	IF ( theSimulationMode .NE. FORWARD_SIMULATION
122	& .AND. theSimulationMode .NE. REVERSE_SIMULATION
123	& ) STOP ' S/R EXCH_RX: Unrecognised simulationMode '
124	IF ( theCornerMode .NE. EXCH_IGNORE_CORNERS
125	& .AND. theCornerMode .NE. EXCH_UPDATE_CORNERS
126	& ) STOP ' S/R EXCH_RX: Unrecognised cornerMode '
127
128	C-- Cycle edge buffer level
129	CALL EXCH_CYCLE_EBL( myThid )
130
131	IF ( theSimulationMode .EQ. FORWARD_SIMULATION ) THEN
132	C-- "Put" east and west edges.
133	CALL EXCH_RX_SEND_PUT_X( array,
134	I myOLw, myOLe, myOLs, myOLn, myNz,
135	I exchWidthX, exchWidthY,
136	I theSimulationMode, theCornerMode, myThid )
137	C-- If corners are important then sync and update east and west edges
138	C-- before doing north and south exchanges.
139	IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) THEN
140	CALL EXCH_RX_RECV_GET_X( array,
141	I myOLw, myOLe, myOLs, myOLn, myNz,
142	I exchWidthX, exchWidthY,
143	I theSimulationMode, theCornerMode, myThid )
144	ENDIF
145	C "Put" north and south edges.
146	CALL EXCH_RX_SEND_PUT_Y( array,
147	I myOLw, myOLe, myOLs, myOLn, myNz,
148	I exchWidthX, exchWidthY,
149	I theSimulationMode, theCornerMode, myThid )
150	C-- Sync and update north, south (and east, west if corner updating
151	C-- not active).
152	IF ( theCornerMode .NE. EXCH_UPDATE_CORNERS ) THEN
153	CALL EXCH_RX_RECV_GET_X( array,
154	I myOLw, myOLe, myOLs, myOLn, myNz,
155	I exchWidthX, exchWidthY,
156	I theSimulationMode, theCornerMode, myThid )
157	ENDIF
158	CALL EXCH_RX_RECV_GET_Y( array,
159	I myOLw, myOLe, myOLs, myOLn, myNz,
160	I exchWidthX, exchWidthY,
161	I theSimulationMode, theCornerMode, myThid )
162	ENDIF
163
164	IF ( theSimulationMode .EQ. REVERSE_SIMULATION ) THEN
165	C "Put" north and south edges.
166	CALL EXCH_RX_SEND_PUT_Y( array,
167	I myOLw, myOLe, myOLs, myOLn, myNz,
168	I exchWidthX, exchWidthY,
169	I theSimulationMode, theCornerMode, myThid )
170	C-- If corners are important then sync and update east and west edges
171	C-- before doing north and south exchanges.
172	IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) THEN
173	CALL EXCH_RX_RECV_GET_Y( array,
174	I myOLw, myOLe, myOLs, myOLn, myNz,
175	I exchWidthX, exchWidthY,
176	I theSimulationMode, theCornerMode, myThid )
177	ENDIF
178	C-- "Put" east and west edges.
179	CALL EXCH_RX_SEND_PUT_X( array,
180	I myOLw, myOLe, myOLs, myOLn, myNz,
181	I exchWidthX, exchWidthY,
182	I theSimulationMode, theCornerMode, myThid )
183	C-- Sync and update east, west (and north, south if corner updating
184	C-- not active).
185	IF ( theCornerMode .NE. EXCH_UPDATE_CORNERS ) THEN
186	CALL EXCH_RX_RECV_GET_Y( array,
187	I myOLw, myOLe, myOLs, myOLn, myNz,
188	I exchWidthX, exchWidthY,
189	I theSimulationMode, theCornerMode, myThid )
190	ENDIF
191	CALL EXCH_RX_RECV_GET_X( array,
192	I myOLw, myOLe, myOLs, myOLn, myNz,
193	I exchWidthX, exchWidthY,
194	I theSimulationMode, theCornerMode, myThid )
195	ENDIF
196	C Special case for zonal average model i.e. case where Nx == 1
197	C In this case a forward mode exchange simply sets array to
198	C the i=1 value for all i.
199	IF ( Nx .EQ. 1 ) THEN
200	DO bj=myByLo(myThid),myByHi(myThid)
201	DO bi=myBxLo(myThid),myBxHi(myThid)
202	DO K = 1,myNz
203	DO J = 1-myOLs,sNy+myOLn
204	DO I = 1-myOLw,sNx+myOLe
205	array(I,J,K,bi,bj) = array(1,J,K,bi,bj)
206	ENDDO
207	ENDDO
208	ENDDO
209	ENDDO
210	ENDDO
211	ENDIF
212	C Special case for X-slice domain i.e. case where Ny == 1
213	C In this case a forward mode exchange simply sets array to
214	C the j=1 value for all j.
215	IF ( Ny .EQ. 1 ) THEN
216	DO bj=myByLo(myThid),myByHi(myThid)
217	DO bi=myBxLo(myThid),myBxHi(myThid)
218	DO K = 1,myNz
219	DO J = 1-myOLs,sNy+myOLn
220	DO I = 1-myOLw,sNx+myOLe
221	array(I,J,K,bi,bj) = array(I,1,K,bi,bj)
222	ENDDO
223	ENDDO
224	ENDDO
225	ENDDO
226	ENDDO
227	ENDIF
228
229	RETURN
230	END