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qminimum.F @ 5065

Last change on this file since 5065 was 5001, checked in by dcugnet, 4 months ago

strings_mod:
- remove "test()" function (was not very clear)
- modifications of the "str2bool" function: result is O/1 for .FALSE./.TRUE. and -1 if the string was not a boolean.
- more general "find()" function (for several numerical types)
- more general "cat()" function (can append a 2D array with vectors, 1D arrays with scalars)
- few simplifications (in "strParse") and minor changes
readTracFiles_mod:
- remove internal usage of direct keys ("%" symbol) in favor of the "getKey" function. => moving toward a totally generic tracers derived type.
- improve the internal management of the error return value "lerr".
- remove "fGetKey", "fGetKeys", "setDirectKeys" functions
- new functions to add/remove a phase: "addPhase", "delPhase"
- more general "addKey(key[(:)], val[(:)], ky(:), [lOverWrite])" function: . input argument "val" can be string/integer/real/logical . (key, val, ky ): add the <key> =<val> pair to ky . (key, val(:), ky(:)): add the <key> =<val(i)> pair to ky(i) for 1<=i<=SIZE(ky) . (key(:), val(:), ky(:)): add the <key(i)>=<val(i)> pair to ky(i) for 1<=i<=SIZE(ky)
- more general "getKey(key[(:)], val[(:)], itr [, ky(:)][, nam(:)][, def][, lDisp])" (tracer index version)

and "getKey(key[(:)], val[(:)], tname[, ky(:)]. [, def][, lDisp])" (tracer name version) functions:

. output argument "val" can be string/integer/real/logical
. if present, the default value <def> is retained if the corresponding key was not found.
. get values from "ky(:)" if present, otherwise from internal database "tracers(:)" or "isotope ».
. if "keyn" is a vector, try with each element in indices order until a value is found
. (key[(:)], val, itr/tname[,ky(:)][, ...]): get the value <val> of tracer nr. itr or named "tname"
. (key[(:)], val(:), itr/tname[,ky(:)][, ...]): same + parsing of the value with « , », then storage in <val(:)>
. (key[(:)], val(:)[, ky(:)][, nam(:)][, ...]): same for all tracers (optional names list <nam(:)>) of database.
. (key[(:)], val(:), tname(:)[, ky(:)][, ...]): same for the tracers named « tnames(:)"

more general "dispTraSection" function
much simplified "indexUpdate" function ; "ancestor*" and "idxAncestor" functions are removed.
"readIsotopesFile" is renamed to "processIsotopes" for more clarity
cosmetic changes

fix for isotopes: iq_val and iq_liq are usable for "q" only, not for "q_follow" and "zx_defau_diag" => use hardcoded indices (1 for vapor and 2 for liquid) for these variables

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: 6.5 KB

Rev	Line
[524]	1	!
	2	! $Header$
	3	!
[2270]	4	SUBROUTINE qminimum( q,nqtot,deltap )
[524]	5
[4143]	6	USE infotrac, ONLY: niso, ntiso,iqIsoPha, tracers
	7	USE strings_mod, ONLY: strIdx
	8	USE readTracFiles_mod, ONLY: addPhase
[524]	9	IMPLICIT none
	10	c
	11	c -- Objet : Traiter les valeurs trop petites (meme negatives)
	12	c pour l'eau vapeur et l'eau liquide
	13	c
[2600]	14	include "dimensions.h"
	15	include "paramet.h"
[524]	16	c
[2270]	17	INTEGER nqtot
	18	REAL q(ip1jmp1,llm,nqtot), deltap(ip1jmp1,llm)
[524]	19	c
[4143]	20	LOGICAL, SAVE :: first=.TRUE.
	21	INTEGER, SAVE :: iq_vap, iq_liq ! indices pour l'eau vapeur/liquide
	22	REAL, PARAMETER :: seuil_vap = 1.0e-10 ! seuil pour l'eau vapeur
	23	REAL, PARAMETER :: seuil_liq = 1.0e-11 ! seuil pour l'eau liquide
[524]	24	c
	25	c NB. ....( Il est souhaitable mais non obligatoire que les valeurs des
	26	c parametres seuil_vap, seuil_liq soient pareilles a celles
	27	c qui sont utilisees dans la routine ADDFI )
	28	c .................................................................
	29	c
[5001]	30	cDC iq_val and iq_liq are usable for q only, NOT for q_follow
	31	c and zx_defau_diag (crash if iq_val/liq==3) => vapor/liquid
	32	c water at hardcoded indices 1/2 in these variables
[524]	33	INTEGER i, k, iq
	34	REAL zx_defau, zx_abc, zx_pump(ip1jmp1), pompe
[2270]	35
	36	real zx_defau_diag(ip1jmp1,llm,2)
	37	real q_follow(ip1jmp1,llm,2)
[524]	38	c
	39	REAL SSUM
	40	c
	41	INTEGER imprim
	42	SAVE imprim
	43	DATA imprim /0/
[2270]	44	!INTEGER ijb,ije
	45	!INTEGER Index_pump(ij_end-ij_begin+1)
	46	!INTEGER nb_pump
	47	INTEGER ixt
[4143]	48
	49	IF(first) THEN
	50	iq_vap = strIdx(tracers(:)%name, addPhase('H2O', 'g'))
	51	iq_liq = strIdx(tracers(:)%name, addPhase('H2O', 'l'))
	52	first = .FALSE.
	53	END IF
[524]	54	c
	55	c Quand l'eau liquide est trop petite (ou negative), on prend
	56	c l'eau vapeur de la meme couche et la convertit en eau liquide
	57	c (sans changer la temperature !)
	58	c
[2270]	59
[4143]	60	call check_isotopes_seq(q,ip1jmp1,'qminimum 52')
[2270]	61
	62	zx_defau_diag(:,:,:)=0.0
[5001]	63	q_follow(:,:,1)=q(:,:,iq_vap)
	64	q_follow(:,:,2)=q(:,:,iq_liq)
	65	DO k = 1, llm
	66	DO i = 1, ip1jmp1
[1146]	67	if (seuil_liq - q(i,k,iq_liq) .gt. 0.d0 ) then
[2270]	68
[5001]	69	if (niso > 0) zx_defau_diag(i,k,2)=AMAX1
[2270]	70	: ( seuil_liq - q(i,k,iq_liq), 0.0 )
	71
[5001]	72	q(i,k,iq_vap) = q(i,k,iq_vap) + q(i,k,iq_liq) - seuil_liq
	73	q(i,k,iq_liq) = seuil_liq
	74	endif
	75	ENDDO
	76	ENDDO
[524]	77	c
	78	c Quand l'eau vapeur est trop faible (ou negative), on complete
	79	c le defaut en prennant de l'eau vapeur de la couche au-dessous.
	80	c
	81	DO k = llm, 2, -1
	82	ccc zx_abc = dpres(k) / dpres(k-1)
[1146]	83	DO i = 1, ip1jmp1
[5001]	84	if ( seuil_vap - q(i,k,iq_vap) .gt. 0.d0 ) then
[2270]	85
[5001]	86	if (niso > 0) zx_defau_diag(i,k,1)
	87	& = AMAX1( seuil_vap - q(i,k,iq_vap), 0.0 )
[2270]	88
[5001]	89	q(i,k-1,iq_vap) = q(i,k-1,iq_vap) - (seuil_vap
	90	& -q(i,k,iq_vap)) * deltap(i,k)/deltap(i,k-1)
	91	q(i,k,iq_vap) = seuil_vap
	92
[1146]	93	endif
	94	ENDDO
[524]	95	ENDDO
[5001]	96
[524]	97	c
	98	c Quand il s'agit de la premiere couche au-dessus du sol, on
	99	c doit imprimer un message d'avertissement (saturation possible).
	100	c
	101	DO i = 1, ip1jmp1
[5001]	102	zx_pump(i) = AMAX1( 0.0, seuil_vap - q(i,1,iq_vap) )
	103	q(i,1,iq_vap) = AMAX1( q(i,1,iq_vap), seuil_vap )
[524]	104	ENDDO
	105	pompe = SSUM(ip1jmp1,zx_pump,1)
	106	IF (imprim.LE.500 .AND. pompe.GT.0.0) THEN
	107	WRITE(6,'(1x,"ATT!:on pompe de l eau au sol",e15.7)') pompe
	108	DO i = 1, ip1jmp1
	109	IF (zx_pump(i).GT.0.0) THEN
	110	imprim = imprim + 1
	111	PRINT*,'QMINIMUM: en ',i,zx_pump(i)
	112	ENDIF
	113	ENDDO
	114	ENDIF
[2270]	115
[2286]	116	!write(,) 'qminimum 128'
[4124]	117	if (niso > 0) then
[2270]	118	! CRisi: traiter de même les traceurs d'eau
	119	! Mais il faut les prendre à l'envers pour essayer de conserver la
	120	! masse.
	121	! 1) pompage dans le sol
	122	! On suppose que ce pompage se fait sans isotopes -> on ne modifie
	123	! rien ici et on croise les doigts pour que ça ne soit pas trop
	124	! génant
	125	DO i = 1,ip1jmp1
	126	if (zx_pump(i).gt.0.0) then
[5001]	127	q_follow(i,1,1)=q_follow(i,1,1)+zx_pump(i)
[2270]	128	endif !if (zx_pump(i).gt.0.0) then
	129	enddo !DO i = 1,ip1jmp1
	130
	131	! 2) transfert de vap vers les couches plus hautes
	132	!write(,) 'qminimum 139'
	133	do k=2,llm
	134	DO i = 1,ip1jmp1
[5001]	135	if (zx_defau_diag(i,k,1).gt.0.0) then
[2270]	136	! on ajoute la vapeur en k
[4143]	137	do ixt=1,ntiso
	138	q(i,k,iqIsoPha(ixt,iq_vap))=q(i,k,iqIsoPha(ixt,iq_vap))
[5001]	139	: +zx_defau_diag(i,k,1)
	140	: *q(i,k-1,iqIsoPha(ixt,iq_vap))/q_follow(i,k-1,1)
[2270]	141
	142	! et on la retranche en k-1
[4143]	143	q(i,k-1,iqIsoPha(ixt,iq_vap))=
	144	: q(i,k-1,iqIsoPha(ixt,iq_vap))
[5001]	145	: -zx_defau_diag(i,k,1)
[2270]	146	: *deltap(i,k)/deltap(i,k-1)
[4143]	147	: *q(i,k-1,iqIsoPha(ixt,iq_vap))
[5001]	148	: /q_follow(i,k-1,1)
[2270]	149
	150	enddo !do ixt=1,niso
[5001]	151	q_follow(i,k,1)= q_follow(i,k,1)
	152	: +zx_defau_diag(i,k,1)
	153	q_follow(i,k-1,1)= q_follow(i,k-1,1)
	154	: -zx_defau_diag(i,k,1)
[2270]	155	: *deltap(i,k)/deltap(i,k-1)
[5001]	156	endif !if (zx_defau_diag(i,k,1).gt.0.0) then
[2270]	157	enddo !DO i = 1, ip1jmp1
	158	enddo !do k=2,llm
	159
[4143]	160	call check_isotopes_seq(q,ip1jmp1,'qminimum 168')
[2270]	161
	162
	163	! 3) transfert d'eau de la vapeur au liquide
[2286]	164	!write(,) 'qminimum 164'
[2270]	165	do k=1,llm
	166	DO i = 1,ip1jmp1
[5001]	167	if (zx_defau_diag(i,k,2).gt.0.0) then
[2270]	168
	169	! on ajoute eau liquide en k en k
[4143]	170	do ixt=1,ntiso
	171	q(i,k,iqIsoPha(ixt,iq_liq))=q(i,k,iqIsoPha(ixt,iq_liq))
[5001]	172	: +zx_defau_diag(i,k,2)
	173	: *q(i,k,iqIsoPha(ixt,iq_vap))/q_follow(i,k,1)
[2270]	174	! et on la retranche à la vapeur en k
[4143]	175	q(i,k,iqIsoPha(ixt,iq_vap))=q(i,k,iqIsoPha(ixt,iq_vap))
[5001]	176	: -zx_defau_diag(i,k,2)
	177	: *q(i,k,iqIsoPha(ixt,iq_vap))/q_follow(i,k,1)
[2270]	178	enddo !do ixt=1,niso
[5001]	179	q_follow(i,k,2)= q_follow(i,k,2)
	180	: +zx_defau_diag(i,k,2)
	181	q_follow(i,k,1)= q_follow(i,k,1)
	182	: -zx_defau_diag(i,k,2)
	183	endif !if (zx_defau_diag(i,k,1).gt.0.0) then
[2270]	184	enddo !DO i = 1, ip1jmp1
	185	enddo !do k=2,llm
	186
[4143]	187	call check_isotopes_seq(q,ip1jmp1,'qminimum 197')
[2270]	188
[4124]	189	endif !if (niso > 0) then
[2286]	190	!write(,) 'qminimum 188'
[2270]	191
[524]	192	c
	193	RETURN
	194	END

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