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source: palm/trunk/SOURCE/exchange_horiz_2d.f90 @ 738

Last change on this file since 738 was 708, checked in by raasch, 14 years ago
last commit documented
Property svn:keywords set to `Id`
File size: 6.7 KB

Rev	Line
[1]	1	SUBROUTINE exchange_horiz_2d( ar )
	2
	3	!------------------------------------------------------------------------------!
[484]	4	! Current revisions:
[1]	5	! -----------------
[708]	6	!
[1]	7	!
	8	! Former revisions:
	9	! -----------------
[3]	10	! $Id: exchange_horiz_2d.f90 708 2011-03-29 12:34:54Z raasch $
[77]	11	!
[708]	12	! 707 2011-03-29 11:39:40Z raasch
	13	! bc_lr/ns replaced by bc_lr/ns_cyc
	14	!
[703]	15	! 702 2011-03-24 19:33:15Z suehring
	16	! Bugfix in declaration of ar in exchange_horiz_2d_int and number of MPI-blocks
	17	! in MPI_SENDRECV().
	18	!
[668]	19	! 667 2010-12-23 12:06:00Z suehring/gryschka
	20	! Dynamic exchange of ghost points with nbgp, which depends on the advection
	21	! scheme. Exchange between left and right PEs is now done with MPI-vectors.
	22	!
[77]	23	! 73 2007-03-20 08:33:14Z raasch
	24	! Neumann boundary conditions at inflow/outflow in case of non-cyclic boundary
	25	! conditions
	26	!
[3]	27	! RCS Log replace by Id keyword, revision history cleaned up
	28	!
[1]	29	! Revision 1.9 2006/05/12 19:15:52 letzel
	30	! MPI_REAL replaced by MPI_INTEGER in exchange_horiz_2d_int
	31	!
	32	! Revision 1.1 1998/01/23 09:58:21 raasch
	33	! Initial revision
	34	!
	35	!
	36	! Description:
	37	! ------------
	38	! Exchange of lateral (ghost) boundaries (parallel computers) and cyclic
	39	! boundary conditions, respectively, for 2D-arrays.
	40	!------------------------------------------------------------------------------!
	41
	42	USE control_parameters
	43	USE cpulog
	44	USE indices
	45	USE interfaces
	46	USE pegrid
	47
	48	IMPLICIT NONE
	49
[667]	50	REAL :: ar(nysg:nyng,nxlg:nxrg)
	51	INTEGER :: i
[1]	52
	53
	54	CALL cpu_log( log_point_s(13), 'exchange_horiz_2d', 'start' )
	55
	56	#if defined( __parallel )
	57
	58	!
	59	!-- Exchange of lateral boundary values for parallel computers
	60	IF ( pdims(1) == 1 ) THEN
	61
	62	!
	63	!-- One-dimensional decomposition along y, boundary values can be exchanged
	64	!-- within the PE memory
[702]	65	ar(:,nxlg:nxl-1) = ar(:,nxr-nbgp+1:nxr)
	66	ar(:,nxr+1:nxrg) = ar(:,nxl:nxl+nbgp-1)
[1]	67
	68	ELSE
	69	!
	70	!-- Send left boundary, receive right one
[667]	71
[702]	72	CALL MPI_SENDRECV( ar(nysg,nxl), 1, type_y, pleft, 0, &
	73	ar(nysg,nxr+1), 1, type_y, pright, 0, &
[1]	74	comm2d, status, ierr )
	75	!
	76	!-- Send right boundary, receive left one
[702]	77	CALL MPI_SENDRECV( ar(nysg,nxr+1-nbgp), 1, type_y, pright, 1, &
	78	ar(nysg,nxlg), 1, type_y, pleft, 1, &
[1]	79	comm2d, status, ierr )
[702]	80
	81
[1]	82	ENDIF
	83
	84	IF ( pdims(2) == 1 ) THEN
	85	!
	86	!-- One-dimensional decomposition along x, boundary values can be exchanged
	87	!-- within the PE memory
[702]	88	ar(nysg:nys-1,:) = ar(nyn-nbgp+1:nyn,:)
	89	ar(nyn+1:nyng,:) = ar(nys:nys+nbgp-1,:)
[1]	90
	91	ELSE
	92	!
	93	!-- Send front boundary, receive rear one
[667]	94
[702]	95	CALL MPI_SENDRECV( ar(nys,nxlg), 1, type_x, psouth, 0, &
	96	ar(nyn+1,nxlg), 1, type_x, pnorth, 0, &
[1]	97	comm2d, status, ierr )
	98	!
	99	!-- Send rear boundary, receive front one
[702]	100	CALL MPI_SENDRECV( ar(nyn+1-nbgp,nxlg), 1, type_x, pnorth, 1, &
	101	ar(nysg,nxlg), 1, type_x, psouth, 1, &
[1]	102	comm2d, status, ierr )
[667]	103
[1]	104	ENDIF
	105
	106	#else
	107
	108	!
	109	!-- Lateral boundary conditions in the non-parallel case
[707]	110	IF ( bc_lr_cyc ) THEN
[702]	111	ar(:,nxlg:nxl-1) = ar(:,nxr-nbgp+1:nxr)
	112	ar(:,nxr+1:nxrg) = ar(:,nxl:nxl+nbgp-1)
[1]	113	ENDIF
	114
[707]	115	IF ( bc_ns_cyc ) THEN
[702]	116	ar(nysg:nys-1,:) = ar(nyn-nbgp+1:nyn,:)
	117	ar(nyn+1:nyng,:) = ar(nys:nys+nbgp-1,:)
[1]	118	ENDIF
	119
[667]	120
[1]	121	#endif
	122
[73]	123	!
	124	!-- Neumann-conditions at inflow/outflow in case of non-cyclic boundary
	125	!-- conditions
[667]	126	IF ( inflow_l .OR. outflow_l ) THEN
	127	DO i=nbgp, 1, -1
	128	ar(:,nxl-i) = ar(:,nxl)
	129	END DO
	130	END IF
	131	IF ( inflow_r .OR. outflow_r ) THEN
	132	DO i=1, nbgp
	133	ar(:,nxr+i) = ar(:,nxr)
	134	END DO
	135	END IF
	136	IF ( inflow_s .OR. outflow_s ) THEN
	137	DO i=nbgp, 1, -1
	138	ar(nys-i,:) = ar(nys,:)
	139	END DO
	140	END IF
	141	IF ( inflow_n .OR. outflow_n ) THEN
	142	DO i=1, nbgp
	143	ar(nyn+i,:) = ar(nyn,:)
	144	END DO
	145	END IF
[1]	146	CALL cpu_log( log_point_s(13), 'exchange_horiz_2d', 'stop' )
	147
	148	END SUBROUTINE exchange_horiz_2d
	149
	150
	151
	152	SUBROUTINE exchange_horiz_2d_int( ar )
	153
	154	!------------------------------------------------------------------------------!
	155	! Description:
	156	! ------------
	157	! Exchange of lateral (ghost) boundaries (parallel computers) and cyclic
	158	! boundary conditions, respectively, for 2D integer arrays.
	159	!------------------------------------------------------------------------------!
	160
	161	USE control_parameters
	162	USE cpulog
	163	USE indices
	164	USE interfaces
	165	USE pegrid
	166
	167	IMPLICIT NONE
	168
[702]	169	INTEGER :: ar(nysg:nyng,nxlg:nxrg)
[667]	170	INTEGER :: i
[1]	171
	172	CALL cpu_log( log_point_s(13), 'exchange_horiz_2d', 'start' )
	173
	174	#if defined( __parallel )
	175
	176	!
	177	!-- Exchange of lateral boundary values for parallel computers
	178	IF ( pdims(1) == 1 ) THEN
	179
	180	!
	181	!-- One-dimensional decomposition along y, boundary values can be exchanged
	182	!-- within the PE memory
[702]	183	ar(:,nxlg:nxl-1) = ar(:,nxr-nbgp+1:nxr)
	184	ar(:,nxr+1:nxrg) = ar(:,nxl:nxl+nbgp-1)
[1]	185
[702]	186
[1]	187	ELSE
	188	!
	189	!-- Send left boundary, receive right one
[702]	190	CALL MPI_SENDRECV( ar(nysg,nxl), 1, type_y_int, pleft, 0, &
	191	ar(nysg,nxr+1), 1, type_y_int, pright, 0, &
[1]	192	comm2d, status, ierr )
	193	!
	194	!-- Send right boundary, receive left one
[702]	195	CALL MPI_SENDRECV( ar(nysg,nxr+1-nbgp), 1, type_y_int, pright, 1, &
	196	ar(nysg,nxlg), 1, type_y_int, pleft, 1, &
[1]	197	comm2d, status, ierr )
[667]	198
[1]	199	ENDIF
	200
	201	IF ( pdims(2) == 1 ) THEN
	202	!
	203	!-- One-dimensional decomposition along x, boundary values can be exchanged
	204	!-- within the PE memory
[667]	205	ar(nysg:nys-1,:) = ar(nyn+1-nbgp:nyn,:)
	206	ar(nyn+1:nyng,:) = ar(nys:nys-1+nbgp,:)
[1]	207
[667]	208
[1]	209	ELSE
	210	!
	211	!-- Send front boundary, receive rear one
[702]	212	CALL MPI_SENDRECV( ar(nys,nxlg), 1, type_x_int, psouth, 0, &
	213	ar(nyn+1,nxlg), 1, type_x_int, pnorth, 0, &
	214	comm2d, status, ierr )
[667]	215
[1]	216	!
	217	!-- Send rear boundary, receive front one
[702]	218	CALL MPI_SENDRECV( ar(nyn+1-nbgp,nxlg), 1, type_x_int, pnorth, 1, &
	219	ar(nysg,nxlg), 1, type_x_int, psouth, 1, &
[1]	220	comm2d, status, ierr )
[667]	221
[1]	222	ENDIF
	223
	224	#else
	225
	226	!
	227	!-- Lateral boundary conditions in the non-parallel case
[707]	228	IF ( bc_lr_cyc ) THEN
[702]	229	ar(:,nxlg:nxl-1) = ar(:,nxr-nbgp+1:nxr)
	230	ar(:,nxr+1:nxrg) = ar(:,nxl:nxl+nbgp-1)
[1]	231	ENDIF
	232
[707]	233	IF ( bc_ns_cyc ) THEN
[667]	234	ar(nysg:nys-1,:) = ar(nyn+1-nbgp:nyn,:)
	235	ar(nyn+1:nyng,:) = ar(nys:nys-1+nbgp,:)
[1]	236	ENDIF
	237
	238	#endif
	239	CALL cpu_log( log_point_s(13), 'exchange_horiz_2d', 'stop' )
	240
	241	END SUBROUTINE exchange_horiz_2d_int

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