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read_pstoke0.F @ 2930

Last change on this file since 2930 was 1403, checked in by Laurent Fairhead, 14 years ago

Merged LMDZ4V5.0-dev branch changes r1292:r1399 to trunk.

Validation:
Validation consisted in compiling the HEAD revision of the trunk,
LMDZ4V5.0-dev branch and the merged sources and running different
configurations on local and SX8 machines comparing results.

Local machine: bench configuration, 32x24x11, gfortran

IPSLCM5A configuration (comparison between trunk and merged sources):
- numerical convergence on dynamical fields over 3 days
- start files are equivalent (except for RN and PB fields)
- daily history files equivalent

MH07 configuration, new physics package (comparison between LMDZ4V5.0-dev branch and merged sources):
- numerical convergence on dynamical fields over 3 days
- start files are equivalent (except for RN and PB fields)
- daily history files equivalent

SX8 machine (brodie), 96x95x39 on 4 processors:

IPSLCM5A configuration:
- start files are equivalent (except for RN and PB fields)
- monthly history files equivalent

MH07 configuration:
- start files are equivalent (except for RN and PB fields)
- monthly history files equivalent

Changes to the makegcm and create_make_gcm scripts to take into account
main programs in F90 files

Fusion de la branche LMDZ4V5.0-dev (r1292:r1399) au tronc principal

Validation:
La validation a consisté à compiler la HEAD de le trunk et de la banche
LMDZ4V5.0-dev et les sources fusionnées et de faire tourner le modéle selon
différentes configurations en local et sur SX8 et de comparer les résultats

En local: 32x24x11, config bench/gfortran

pour une config IPSLCM5A (comparaison tronc/fusion):
- convergence numérique sur les champs dynamiques après 3 jours
- restart et restartphy égaux (à part sur RN et Pb)
- fichiers histoire égaux

pour une config nlle physique (MH07) (comparaison LMDZ4v5.0-dev/fusion):
- convergence numérique sur les champs dynamiques après 3 jours
- restart et restartphy égaux
- fichiers histoire équivalents

Sur brodie, 96x95x39 sur 4 proc:

pour une config IPSLCM5A:
- restart et restartphy égaux (à part sur RN et PB)
- pas de différence dans les fichiers histmth.nc

pour une config MH07
- restart et restartphy égaux (à part sur RN et PB)
- pas de différence dans les fichiers histmth.nc

Changement sur makegcm et create_make-gcm pour pouvoir prendre en compte des
programmes principaux en *F90

Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 15.1 KB

Rev	Line
[524]	1	!
[1403]	2	! $Id: read_pstoke0.F 1403 2010-07-01 09:02:53Z fairhead $
[524]	3	!
	4	c
	5	c
	6	subroutine read_pstoke0(irec,
	7	. zrec,zkon,zkev,airefi,phisfi,
	8	. t,mfu,mfd,en_u,de_u,en_d,de_d,coefh,
[541]	9	. fm_therm,en_therm,
[524]	10	. frac_impa,frac_nucl,pyu1,pyv1,ftsol,psrf)
	11
[541]	12	C******************************************************************************
	13	C Frederic HOURDIN, Abderrahmane IDELKADI
	14	C Lecture des parametres physique stockes online necessaires pour
	15	C recalculer offline le transport des traceurs sur la meme grille que online
	16	C A FAIRE : une seule routine au lieu de 2 (lectflux, redecoupe)!
	17	C******************************************************************************
[524]	18
[1146]	19	use netcdf
[940]	20	USE dimphy
[1403]	21	USE control_mod
	22
[524]	23	IMPLICIT NONE
	24
	25	#include "netcdf.inc"
	26	#include "dimensions.h"
	27	#include "paramet.h"
	28	#include "comconst.h"
	29	#include "comgeom.h"
	30	#include "temps.h"
	31	#include "ener.h"
	32	#include "logic.h"
	33	#include "description.h"
	34	#include "serre.h"
	35	#include "indicesol.h"
[940]	36	cccc#include "dimphy.h"
[524]	37
[541]	38	integer kon,kev,zkon,zkev
[524]	39	parameter(kon=iim*(jjm-1)+2,kev=llm)
[541]	40	REAL phisfi(kon)
	41	REAL phisfi2(iim,jjm+1),airefi2(iim,jjm+1)
[524]	42
[541]	43	REAL mfu(kon,kev), mfd(kon,kev)
	44	REAL en_u(kon,kev), de_u(kon,kev)
	45	REAL en_d(kon,kev), de_d(kon,kev)
	46	REAL coefh(kon,kev)
[524]	47
[541]	48	c abd 25 11 02
	49	c Thermiques
	50	REAL fm_therm(kon,kev),en_therm(kon,kev)
	51	REAL t(kon,kev)
[524]	52
[541]	53	REAL mfu2(iim,jjm+1,kev), mfd2(iim,jjm+1,kev)
	54	REAL en_u2(iim,jjm+1,kev), de_u2(iim,jjm+1,kev)
	55	REAL en_d2(iim,jjm+1,kev), de_d2(iim,jjm+1,kev)
	56	REAL coefh2(iim,jjm+1,kev)
	57	REAL t2(iim,jjm+1,kev)
	58	c Thermiques
	59	REAL fm_therm2(iim,jjm+1,kev)
	60	REAL en_therm2(iim,jjm+1,kev)
	61
	62	REAL pl(kev)
[524]	63	integer irec
[541]	64	integer xid,yid,zid,tid
	65	integer zrec,zim,zjm
	66	integer ncrec,nckon,nckev,ncim,ncjm
[524]	67
[541]	68	real airefi(kon)
	69	character*20 namedim
[524]	70
	71	c !! attention !!
	72	c attention il y a aussi le pb de def kon
	73	c dim de phis??
	74
[541]	75	REAL frac_impa(kon,kev), frac_nucl(kon,kev)
	76	REAL frac_impa2(iim,jjm+1,kev),
[524]	77	. frac_nucl2(iim,jjm+1,kev)
[541]	78	REAL pyu1(kon), pyv1(kon)
	79	REAL pyu12(iim,jjm+1), pyv12(iim,jjm+1)
	80	REAL ftsol(kon,nbsrf)
	81	REAL psrf(kon,nbsrf)
	82	REAL ftsol1(kon),ftsol2(kon),ftsol3(kon),ftsol4(kon)
	83	REAL psrf1(kon),psrf2(kon),psrf3(kon),psrf4(kon)
	84	REAL ftsol12(iim,jjm+1),ftsol22(iim,jjm+1),
[524]	85	. ftsol32(iim,jjm+1),
	86	. ftsol42(iim,jjm+1)
[541]	87	REAL psrf12(iim,jjm+1),psrf22(iim,jjm+1),psrf32(iim,jjm+1),
[524]	88	. psrf42(iim,jjm+1)
	89
	90	integer ncidp
	91	save ncidp
	92	integer varidmfu, varidmfd, varidps, varidenu, variddeu
	93	integer varidt
	94	integer varidend,varidded,varidch,varidfi,varidfn
[541]	95	c therm
	96	integer varidfmth,varidenth
[524]	97	integer varidyu1,varidyv1,varidpl,varidai,varididvt
	98	integer varidfts1,varidfts2,varidfts3,varidfts4
	99	integer varidpsr1,varidpsr2,varidpsr3,varidpsr4
	100	save varidmfu, varidmfd, varidps, varidenu, variddeu
	101	save varidt
	102	save varidend,varidded,varidch,varidfi,varidfn
[541]	103	c therm
	104	save varidfmth,varidenth
[524]	105	save varidyu1,varidyv1,varidpl,varidai,varididvt
	106	save varidfts1,varidfts2,varidfts3,varidfts4
	107	save varidpsr1,varidpsr2,varidpsr3,varidpsr4
	108
	109	integer l, i
	110	integer start(4),count(4),status
	111	real rcode
	112	logical first
	113	save first
	114	data first/.true./
	115
	116
	117
	118	c ---------------------------------------------
	119	c Initialisation de la lecture des fichiers
	120	c ---------------------------------------------
	121
	122	if (irec .eq. 0) then
	123
[1146]	124	rcode=nf90_open('phystoke.nc',nf90_nowrite,ncidp)
[524]	125
[1146]	126	rcode = nf90_inq_varid(ncidp, 'phis', varidps)
[524]	127	print*,'ncidp,varidps',ncidp,varidps
	128
[1146]	129	rcode = nf90_inq_varid(ncidp, 'sig_s', varidpl)
[524]	130	print*,'ncidp,varidpl',ncidp,varidpl
	131
[1146]	132	rcode = nf90_inq_varid(ncidp, 'aire', varidai)
[524]	133	print*,'ncidp,varidai',ncidp,varidai
	134
[1146]	135	rcode = nf90_inq_varid(ncidp, 't', varidt)
[541]	136	print*,'ncidp,varidt',ncidp,varidt
	137
[1146]	138	rcode = nf90_inq_varid(ncidp, 'mfu', varidmfu)
[524]	139	print*,'ncidp,varidmfu',ncidp,varidmfu
	140
[1146]	141	rcode = nf90_inq_varid(ncidp, 'mfd', varidmfd)
[524]	142	print*,'ncidp,varidmfd',ncidp,varidmfd
	143
[1146]	144	rcode = nf90_inq_varid(ncidp, 'en_u', varidenu)
[524]	145	print*,'ncidp,varidenu',ncidp,varidenu
	146
[1146]	147	rcode = nf90_inq_varid(ncidp, 'de_u', variddeu)
[524]	148	print*,'ncidp,variddeu',ncidp,variddeu
	149
[1146]	150	rcode = nf90_inq_varid(ncidp, 'en_d', varidend)
[524]	151	print*,'ncidp,varidend',ncidp,varidend
	152
[1146]	153	rcode = nf90_inq_varid(ncidp, 'de_d', varidded)
[524]	154	print*,'ncidp,varidded',ncidp,varidded
	155
[1146]	156	rcode = nf90_inq_varid(ncidp, 'coefh', varidch)
[524]	157	print*,'ncidp,varidch',ncidp,varidch
[541]	158
	159	c Thermiques
[1146]	160	rcode = nf90_inq_varid(ncidp, 'fm_th', varidfmth)
[541]	161	print*,'ncidp,varidfmth',ncidp,varidfmth
	162
[1146]	163	rcode = nf90_inq_varid(ncidp, 'en_th', varidenth)
[541]	164	print*,'ncidp,varidenth',ncidp,varidenth
[524]	165
[1146]	166	rcode = nf90_inq_varid(ncidp, 'frac_impa', varidfi)
[524]	167	print*,'ncidp,varidfi',ncidp,varidfi
	168
[1146]	169	rcode = nf90_inq_varid(ncidp, 'frac_nucl', varidfn)
[524]	170	print*,'ncidp,varidfn',ncidp,varidfn
	171
[1146]	172	rcode = nf90_inq_varid(ncidp, 'pyu1', varidyu1)
[524]	173	print*,'ncidp,varidyu1',ncidp,varidyu1
	174
[1146]	175	rcode = nf90_inq_varid(ncidp, 'pyv1', varidyv1)
[524]	176	print*,'ncidp,varidyv1',ncidp,varidyv1
	177
[1146]	178	rcode = nf90_inq_varid(ncidp, 'ftsol1', varidfts1)
[524]	179	print*,'ncidp,varidfts1',ncidp,varidfts1
	180
[1146]	181	rcode = nf90_inq_varid(ncidp, 'ftsol2', varidfts2)
[524]	182	print*,'ncidp,varidfts2',ncidp,varidfts2
	183
[1146]	184	rcode = nf90_inq_varid(ncidp, 'ftsol3', varidfts3)
[524]	185	print*,'ncidp,varidfts3',ncidp,varidfts3
	186
[1146]	187	rcode = nf90_inq_varid(ncidp, 'ftsol4', varidfts4)
[524]	188	print*,'ncidp,varidfts4',ncidp,varidfts4
	189
[1146]	190	rcode = nf90_inq_varid(ncidp, 'psrf1', varidpsr1)
[524]	191	print*,'ncidp,varidpsr1',ncidp,varidpsr1
	192
[1146]	193	rcode = nf90_inq_varid(ncidp, 'psrf2', varidpsr2)
[524]	194	print*,'ncidp,varidpsr2',ncidp,varidpsr2
	195
[1146]	196	rcode = nf90_inq_varid(ncidp, 'psrf3', varidpsr3)
[524]	197	print*,'ncidp,varidpsr3',ncidp,varidpsr3
	198
[1146]	199	rcode = nf90_inq_varid(ncidp, 'psrf4', varidpsr4)
[524]	200	print*,'ncidp,varidpsr4',ncidp,varidpsr4
	201
	202	c ID pour les dimensions
	203
	204	status = nf_inq_dimid(ncidp,'y',yid)
	205	status = nf_inq_dimid(ncidp,'x',xid)
	206	status = nf_inq_dimid(ncidp,'sig_s',zid)
	207	status = nf_inq_dimid(ncidp,'time_counter',tid)
	208
	209	c lecture des dimensions
	210
	211	status = nf_inq_dim(ncidp,yid,namedim,ncjm)
	212	status = nf_inq_dim(ncidp,xid,namedim,ncim)
	213	status = nf_inq_dim(ncidp,zid,namedim,nckev)
	214	status = nf_inq_dim(ncidp,tid,namedim,ncrec)
	215
	216	zrec=ncrec
	217	zkev=nckev
	218	zim=ncim
	219	zjm=ncjm
	220
	221	zkon=zim*(zjm-2)+2
	222
	223	write(,) 'read_pstoke : zrec = ', zrec
	224	write(,) 'read_pstoke : kev = ', zkev
	225	write(,) 'read_pstoke : zim = ', zim
	226	write(,) 'read_pstoke : zjm = ', zjm
	227	write(,) 'read_pstoke : kon = ', zkon
	228
	229	c niveaux de pression
	230
	231	status=NF_GET_VARA_REAL(ncidp,varidpl,1,kev,pl)
	232
	233	c lecture de aire et phis
	234
	235	start(1)=1
	236	start(2)=1
	237	start(3)=1
	238	start(4)=0
	239
	240	count(1)=zim
	241	count(2)=zjm
	242	count(3)=1
	243	count(4)=0
	244
	245	c
[541]	246	C** Geopotentiel au sol *************************************
[524]	247	c phis
[541]	248	#ifdef NC_DOUBLE
	249	status=NF_GET_VARA_DOUBLE(ncidp,varidps,start,count,phisfi2)
	250	#else
	251	status=NF_GET_VARA_REAL(ncidp,varidps,start,count,phisfi2)
	252	#endif
[524]	253	call gr_ecrit_fi(1,kon,iim,jjm+1,phisfi2,phisfi)
	254
[541]	255	C** Aires des mails aux sol **********************************
[524]	256	c aire
[541]	257	#ifdef NC_DOUBLE
	258	status=NF_GET_VARA_DOUBLE(ncidp,varidai,start,count,airefi2)
	259	#else
	260	status=NF_GET_VARA_REAL(ncidp,varidai,start,count,airefi2)
	261	#endif
[524]	262	call gr_ecrit_fi(1,kon,iim,jjm+1,airefi2,airefi)
	263	else
	264
	265	print*,'ok1'
	266
	267	c ---------------------
	268	c lecture des champs
	269	c ---------------------
	270
	271	print*,'WARNING!!! Il n y a pas de test de coherence'
	272	print*,'sur le nombre de niveaux verticaux dans le fichier nc'
	273
	274	start(1)=1
	275	start(2)=1
	276	start(3)=1
	277	start(4)=irec
	278
	279	count(1)=zim
	280	count(2)=zjm
	281	count(3)=kev
	282	count(4)=1
	283
[541]	284	C** Temperature ******************************************
	285	cA FAIRE : Es-ce necessaire ?
[524]	286
	287	c abder t
[541]	288	#ifdef NC_DOUBLE
	289	status=NF_GET_VARA_DOUBLE(ncidp,varidt,start,count,t2)
	290	#else
	291	status=NF_GET_VARA_REAL(ncidp,varidt,start,count,t2)
	292	#endif
[524]	293	call gr_ecrit_fi(kev,kon,iim,jjm+1,t2,t)
	294
[541]	295	C** Flux pour la convection (Tiedtk) ******************************************
[524]	296	c mfu
[541]	297	#ifdef NC_DOUBLE
	298	status=NF_GET_VARA_DOUBLE(ncidp,varidmfu,start,count,mfu2)
	299	#else
	300	status=NF_GET_VARA_REAL(ncidp,varidmfu,start,count,mfu2)
	301	#endif
[524]	302	call gr_ecrit_fi(kev,kon,iim,jjm+1,mfu2,mfu)
	303
	304	c mfd
[541]	305	#ifdef NC_DOUBLE
	306	status=NF_GET_VARA_DOUBLE(ncidp,varidmfd,start,count,mfd2)
	307	#else
	308	status=NF_GET_VARA_REAL(ncidp,varidmfd,start,count,mfd2)
	309	#endif
[524]	310	call gr_ecrit_fi(kev,kon,iim,jjm+1,mfd2,mfd)
	311
	312	c en_u
[541]	313	#ifdef NC_DOUBLE
	314	status=NF_GET_VARA_DOUBLE(ncidp,varidenu,start,count,en_u2)
	315	#else
	316	status=NF_GET_VARA_REAL(ncidp,varidenu,start,count,en_u2)
	317	#endif
[524]	318	call gr_ecrit_fi(kev,kon,iim,jjm+1,en_u2,en_u)
	319
	320	c de_u
[541]	321	#ifdef NC_DOUBLE
	322	status=NF_GET_VARA_DOUBLE(ncidp,variddeu,start,count,de_u2)
	323	#else
	324	status=NF_GET_VARA_REAL(ncidp,variddeu,start,count,de_u2)
	325	#endif
[524]	326	call gr_ecrit_fi(kev,kon,iim,jjm+1,de_u2,de_u)
	327
	328	c en_d
[541]	329	#ifdef NC_DOUBLE
	330	status=NF_GET_VARA_DOUBLE(ncidp,varidend,start,count,en_d2)
	331	#else
	332	status=NF_GET_VARA_REAL(ncidp,varidend,start,count,en_d2)
	333	#endif
[524]	334	call gr_ecrit_fi(kev,kon,iim,jjm+1,en_d2,en_d)
	335
	336	c de_d
[541]	337	#ifdef NC_DOUBLE
	338	status=NF_GET_VARA_DOUBLE(ncidp,varidded,start,count,de_d2)
	339	#else
	340	status=NF_GET_VARA_REAL(ncidp,varidded,start,count,de_d2)
	341	#endif
[524]	342	call gr_ecrit_fi(kev,kon,iim,jjm+1,de_d2,de_d)
	343
[541]	344	C** Coefficient de mellange turbulent *****************************************
[524]	345	c coefh
	346	print*,'LECTURE de coefh a irec =',irec
[541]	347	#ifdef NC_DOUBLE
	348	status=NF_GET_VARA_DOUBLE(ncidp,varidch,start,count,coefh2)
	349	#else
	350	status=NF_GET_VARA_REAL(ncidp,varidch,start,count,coefh2)
	351	#endif
[524]	352	call gr_ecrit_fi(kev,kon,iim,jjm+1,coefh2,coefh)
[541]	353	c call dump2d(iip1,jjp1,coefh2(1,2),'COEFH2READ ')
	354	c call dump2d(iim ,jjm ,coefh (2,2),'COEFH2READ ')
[524]	355
[541]	356	C** Flux ascendants et entrant dans le thermique ********************************
	357	cThermiques
	358	print*,'LECTURE de fm_therm a irec =',irec
	359	#ifdef NC_DOUBLE
	360	status=NF_GET_VARA_DOUBLE(ncidp,varidfmth,start,
	361	. count,fm_therm2)
	362	#else
	363	status=NF_GET_VARA_REAL(ncidp,varidfmth,start,
	364	. count,fm_therm2)
	365	#endif
	366	call gr_ecrit_fi(kev,kon,iim,jjm+1,fm_therm2,fm_therm)
	367	print*,'LECTURE de en_therm a irec =',irec
	368	#ifdef NC_DOUBLE
	369	status=NF_GET_VARA_DOUBLE(ncidp,varidenth,start,
	370	. count,en_therm2)
	371	#else
	372	status=NF_GET_VARA_REAL(ncidp,varidenth,start,
	373	. count,en_therm2)
	374	#endif
	375	call gr_ecrit_fi(kev,kon,iim,jjm+1,en_therm2,en_therm)
	376
	377	C** Coefficients de lessivage *****************************************
	378	c frac_impa
	379	#ifdef NC_DOUBLE
	380	status=NF_GET_VARA_DOUBLE(ncidp,varidfi,start,count,frac_impa2)
	381	#else
	382	status=NF_GET_VARA_REAL(ncidp,varidfi,start,count,frac_impa2)
	383	#endif
	384	call gr_ecrit_fi(kev,kon,iim,jjm+1,frac_impa2,frac_impa)
	385
	386	c frac_nucl
	387
	388	#ifdef NC_DOUBLE
	389	status=NF_GET_VARA_DOUBLE(ncidp,varidfn,start,count,frac_nucl2)
	390	#else
	391	status=NF_GET_VARA_REAL(ncidp,varidfn,start,count,frac_nucl2)
	392	#endif
	393	call gr_ecrit_fi(kev,kon,iim,jjm+1,frac_nucl2,frac_nucl)
	394
	395	C** Vents aux sol ******************************************
	396
[524]	397	start(3)=irec
	398	start(4)=0
	399	count(3)=1
	400	count(4)=0
	401
	402	c pyu1
	403	print*,'LECTURE de yu1 a irec =',irec
[541]	404	#ifdef NC_DOUBLE
	405	status=NF_GET_VARA_DOUBLE(ncidp,varidyu1,start,count,pyu12)
	406	#else
	407	status=NF_GET_VARA_REAL(ncidp,varidyu1,start,count,pyu12)
	408	#endif
[524]	409	call gr_ecrit_fi(1,kon,iim,jjm+1,pyu12,pyu1)
	410
	411	c pyv1
	412	print*,'LECTURE de yv1 a irec =',irec
[541]	413	#ifdef NC_DOUBLE
	414	status=NF_GET_VARA_DOUBLE(ncidp,varidyv1,start,count,pyv12)
	415	#else
	416	status=NF_GET_VARA_REAL(ncidp,varidyv1,start,count,pyv12)
	417	#endif
[524]	418	call gr_ecrit_fi(1,kon,iim,jjm+1,pyv12,pyv1)
	419
[541]	420	C** Temerature au sol ******************************************
[524]	421	c ftsol1
	422	print*,'LECTURE de ftsol1 a irec =',irec
[541]	423	#ifdef NC_DOUBLE
	424	status=NF_GET_VARA_DOUBLE(ncidp,varidfts1,start,count,ftsol12)
	425	#else
[524]	426	status=NF_GET_VARA_REAL(ncidp,varidfts1,start,count,ftsol12)
[541]	427	#endif
[524]	428	call gr_ecrit_fi(1,kon,iim,jjm+1,ftsol12,ftsol1)
	429
	430	c ftsol2
	431	print*,'LECTURE de ftsol2 a irec =',irec
[541]	432	#ifdef NC_DOUBLE
	433	status=NF_GET_VARA_DOUBLE(ncidp,varidfts2,start,count,ftsol22)
	434	#else
[524]	435	status=NF_GET_VARA_REAL(ncidp,varidfts2,start,count,ftsol22)
[541]	436	#endif
[524]	437	call gr_ecrit_fi(1,kon,iim,jjm+1,ftsol22,ftsol2)
	438
	439	c ftsol3
	440	print*,'LECTURE de ftsol3 a irec =',irec
[541]	441	#ifdef NC_DOUBLE
	442	status=NF_GET_VARA_DOUBLE(ncidp,varidfts3,start,count,ftsol32)
	443	#else
[524]	444	status=NF_GET_VARA_REAL(ncidp,varidfts3,start,count,ftsol32)
[541]	445	#endif
[524]	446	call gr_ecrit_fi(1,kon,iim,jjm+1,ftsol32,ftsol3)
	447
	448	c ftsol4
[541]	449	#ifdef NC_DOUBLE
	450	status=NF_GET_VARA_DOUBLE(ncidp,varidfts4,start,count,ftsol42)
	451	#else
[524]	452	status=NF_GET_VARA_REAL(ncidp,varidfts4,start,count,ftsol42)
[541]	453	#endif
[524]	454	call gr_ecrit_fi(1,kon,iim,jjm+1,ftsol42,ftsol4)
	455
[541]	456	C** Nature sol ******************************************
[524]	457	c psrf1
[541]	458	#ifdef NC_DOUBLE
	459	status=NF_GET_VARA_DOUBLE(ncidp,varidpsr1,start,count,psrf12)
	460	#else
[524]	461	status=NF_GET_VARA_REAL(ncidp,varidpsr1,start,count,psrf12)
[541]	462	#endif
[524]	463	c call dump2d(iip1-1,jjm+1,psrf12,'PSRF1NC')
	464	call gr_ecrit_fi(1,kon,iim,jjm+1,psrf12,psrf1)
	465
	466	c psrf2
[541]	467	#ifdef NC_DOUBLE
	468	status=NF_GET_VARA_DOUBLE(ncidp,varidpsr2,start,count,psrf22)
	469	#else
[524]	470	status=NF_GET_VARA_REAL(ncidp,varidpsr2,start,count,psrf22)
[541]	471	#endif
[524]	472	c call dump2d(iip1-1,jjm+1,psrf22,'PSRF2NC')
	473	call gr_ecrit_fi(1,kon,iim,jjm+1,psrf22,psrf2)
	474
	475	c psrf3
[541]	476	#ifdef NC_DOUBLE
	477	status=NF_GET_VARA_DOUBLE(ncidp,varidpsr3,start,count,psrf32)
	478	#else
[524]	479	status=NF_GET_VARA_REAL(ncidp,varidpsr3,start,count,psrf32)
[541]	480	#endif
[524]	481	call gr_ecrit_fi(1,kon,iim,jjm+1,psrf32,psrf3)
	482
	483	c psrf4
[541]	484	#ifdef NC_DOUBLE
	485	status=NF_GET_VARA_DOUBLE(ncidp,varidpsr4,start,count,psrf42)
	486	#else
[524]	487	status=NF_GET_VARA_REAL(ncidp,varidpsr4,start,count,psrf42)
[541]	488	#endif
[524]	489	call gr_ecrit_fi(1,kon,iim,jjm+1,psrf42,psrf4)
	490
	491	do i = 1,kon
	492
	493	psrf(i,1) = psrf1(i)
	494	psrf(i,2) = psrf2(i)
	495	psrf(i,3) = psrf3(i)
[541]	496	c test abderr
	497	c print*,'Dans read_pstoke psrf3 =',psrf3(i),i
[524]	498	psrf(i,4) = psrf4(i)
	499
	500	ftsol(i,1) = ftsol1(i)
	501	ftsol(i,2) = ftsol2(i)
	502	ftsol(i,3) = ftsol3(i)
	503	ftsol(i,4) = ftsol4(i)
	504
	505	enddo
	506
	507	endif
	508
	509	return
	510
	511	end
	512

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