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pbar.f90 @ 5221

Last change on this file since 5221 was 5159, checked in by abarral, 5 months ago
Put dimensions.h and paramet.h into modules
Property copyright set to Name of program: LMDZ Creation date: 1984 Version: LMDZ5 License: CeCILL version 2 Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539 See the license file in the root directory Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 3.1 KB

Rev	Line
[5099]	1
[524]	2	! $Header$
[5099]	3
[5106]	4	SUBROUTINE pbar( pext, pbarx, pbary, pbarxy )
[5136]	5	USE lmdz_comgeom
	6
[5159]	7	USE lmdz_dimensions, ONLY: iim, jjm, llm, ndm
	8	USE lmdz_paramet
[5105]	9	IMPLICIT NONE
[524]	10
[5105]	11	!=======================================================================
[5159]	12
[5105]	13	! Auteur: P. Le Van
	14	! -------
[5159]	15
[5105]	16	! Objet:
	17	! ------
[5159]	18
[5105]	19	! **********************************************************************
	20	! calcul des moyennes en x et en y de (pression au sol*aire variable) ..
	21	! *********************************************************************
[5159]	22
[5105]	23	! pext est un argum. d'entree pour le s-pg ..
	24	! pbarx,pbary et pbarxy sont des argum. de sortie pour le s-pg ..
[5159]	25
[5105]	26	! Methode:
	27	! --------
[5159]	28
[5105]	29	! A chaque point scalaire P (i,j) est affecte 4 coefficients d'aires
	30	! alpha1(i,j) calcule au point ( i+1/4,j-1/4 )
	31	! alpha2(i,j) calcule au point ( i+1/4,j+1/4 )
	32	! alpha3(i,j) calcule au point ( i-1/4,j+1/4 )
	33	! alpha4(i,j) calcule au point ( i-1/4,j-1/4 )
[5159]	34
[5105]	35	! Avec alpha1(i,j) = aire(i+1/4,j-1/4)/ aire(i,j)
[5159]	36
[5105]	37	! N.B . Pour plus de details, voir s-pg ... iniconst ...
[5159]	38
	39
	40
[5105]	41	! alpha4 . . alpha1 . alpha4
	42	! (i,j) (i,j) (i+1,j)
[5159]	43
[5105]	44	! P . U . . P
	45	! (i,j) (i,j) (i+1,j)
[5159]	46
[5105]	47	! alpha3 . . alpha2 .alpha3
	48	! (i,j) (i,j) (i+1,j)
[5159]	49
[5105]	50	! V . Z . . V
	51	! (i,j)
[5159]	52
[5105]	53	! alpha4 . . alpha1 .alpha4
	54	! (i,j+1) (i,j+1) (i+1,j+1)
[5159]	55
[5105]	56	! P . U . . P
	57	! (i,j+1) (i+1,j+1)
[5159]	58
	59
	60
	61
[5105]	62	! On a :
[5159]	63
[5105]	64	! pbarx(i,j) = Pext(i ,j) * ( alpha1(i ,j) + alpha2(i,j)) +
	65	! Pext(i+1,j) * ( alpha3(i+1,j) + alpha4(i+1,j) )
	66	! localise au point ... U (i,j) ...
[5159]	67
[5105]	68	! pbary(i,j) = Pext(i,j ) * ( alpha2(i,j ) + alpha3(i,j ) +
	69	! Pext(i,j+1) * ( alpha1(i,j+1) + alpha4(i,j+1)
	70	! localise au point ... V (i,j) ...
[5159]	71
[5105]	72	! pbarxy(i,j)= Pext(i,j) alpha2(i,j) + Pext(i+1,j) alpha3(i+1,j) +
	73	! Pext(i,j+1)alpha1(i,j+1)+ Pext(i+1,j+1)alpha4(i+1,j+1)
	74	! localise au point ... Z (i,j) ...
[5159]	75
	76
	77
[5105]	78	!=======================================================================
[524]	79
	80
	81
[5159]	82
	83
[5105]	84	REAL :: pext( ip1jmp1 ), pbarx ( ip1jmp1 )
	85	REAL :: pbary( ip1jm ), pbarxy( ip1jm )
[524]	86
[5105]	87	INTEGER :: ij
[524]	88
	89
	90
[5105]	91	DO ij = 1, ip1jmp1 - 1
	92	pbarx( ij ) = pext(ij) * alpha1p2(ij) + pext(ij+1)*alpha3p4(ij+1)
	93	END DO
[524]	94
[5105]	95	! .... correction pour pbarx( iip1,j) .....
[524]	96
[5105]	97	! ... pbarx(iip1,j)= pbarx(1,j) ...
	98	!DIR$ IVDEP
	99	DO ij = iip1, ip1jmp1, iip1
	100	pbarx( ij ) = pbarx( ij - iim )
	101	END DO
[524]	102
	103
[5105]	104	DO ij = 1,ip1jm
	105	pbary( ij ) = pext( ij ) * alpha2p3( ij ) + &
	106	pext( ij+iip1 ) * alpha1p4( ij+iip1 )
	107	END DO
[524]	108
	109
[5105]	110	DO ij = 1, ip1jm - 1
	111	pbarxy( ij ) = pext(ij)alpha2(ij) + pext(ij+1)alpha3(ij+1) + &
	112	pext(ij+iip1)alpha1(ij+iip1) + pext(ij+iip2)alpha4(ij+iip2)
	113	END DO
[524]	114
	115
[5105]	116	! .... correction pour pbarxy( iip1,j ) ........
[524]	117
[5105]	118	!DIR$ IVDEP
[524]	119
[5105]	120	DO ij = iip1, ip1jm, iip1
	121	pbarxy( ij ) = pbarxy( ij - iim )
	122	END DO
[524]	123
	124
[5105]	125	RETURN
	126	END SUBROUTINE pbar

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