SUBROUTINE cv3a_uncompress(nloc, len, ncum, nd, ntra, idcum, compress, & iflag, kbas, ktop, & precip, cbmf, plcl, plfc, wbeff, sig, w0, ptop2, & ft, fq, fqcomp, fu, fv, ftra, & sigd, ma, mip, vprecip, vprecipi, upwd, dnwd, dnwd0, & qcondc, wd, cape, cin, & tvp, & ftd, fqd, & plim1, plim2, asupmax, supmax0, & asupmaxmin, & da, phi, mp, phi2, d1a, dam, sigij, & ! RomP+AC+jyg qta, clw, elij, evap, ep, epmlmMm, eplaMm, & ! RomP+jyg wdtrainA, wdtrainS, wdtrainM, & ! RomP qtc, sigt, detrain, & epmax_diag, & ! epmax_cape iflag1, kbas1, ktop1, & precip1, cbmf1, plcl1, plfc1, wbeff1, sig1, w01, ptop21, & ft1, fq1, fqcomp1, fu1, fv1, ftra1, & sigd1, ma1, mip1, vprecip1, vprecipi1, upwd1, dnwd1, dnwd01, & qcondc1, wd1, cape1, cin1, & tvp1, & ftd1, fqd1, & plim11, plim21, asupmax1, supmax01, & asupmaxmin1, & da1, phi1, mp1, phi21, d1a1, dam1, sigij1, & ! RomP+AC+jyg qta1, clw1, elij1, evap1, ep1, epmlmMm1, eplaMm1, & ! RomP+jyg wdtrainA1, wdtrainS1, wdtrainM1, & ! RomP qtc1, sigt1, detrain1, & epmax_diag1 & ! epmax_cape #ifdef ISO & ,xtprecip,fxt,fxtd, xtvprecip,xtvprecipi, xtclw,xtevap,xtwdtraina & & ,xtprecip1,fxt1,fxtd1, xtvprecip1, xtvprecipi1, xtclw1,xtevap1,xtwdtraina1 & #ifdef DIAGISO & , water,xtwater,qp,xtp & & , fq_detrainement,fq_ddft,fq_fluxmasse,fq_evapprecip & & , fxt_detrainement,fxt_ddft,fxt_fluxmasse, fxt_evapprecip & & , f_detrainement,q_detrainement,xt_detrainement & & , water1,xtwater1,qp1,xtp1 & & , fq_detrainement1,fq_ddft1,fq_fluxmasse1,fq_evapprecip1 & & , fxt_detrainement1,fxt_ddft1,fxt_fluxmasse1, fxt_evapprecip1 & & , f_detrainement1,q_detrainement1,xt_detrainement1 & #endif #endif & ) ! ************************************************************** ! * ! CV3A_UNCOMPRESS * ! * ! * ! written by : Sandrine Bony-Lena , 17/05/2003, 11.22.15 * ! modified by : Jean-Yves Grandpeix, 23/06/2003, 10.36.17 * ! ************************************************************** #ifdef ISO USE infotrac_phy, ONLY : ntraciso=>ntiso #endif USE cv3param_mod_h IMPLICIT NONE ! inputs: INTEGER, INTENT (IN) :: nloc, len, ncum, nd, ntra INTEGER, DIMENSION (nloc), INTENT (IN) :: idcum(nloc) !jyg< LOGICAL, INTENT (IN) :: compress !>jyg INTEGER, DIMENSION (nloc), INTENT (IN) ::iflag, kbas, ktop REAL, DIMENSION (nloc), INTENT (IN) :: precip, cbmf, plcl, plfc REAL, DIMENSION (nloc), INTENT (IN) :: wbeff REAL, DIMENSION (nloc, nd), INTENT (IN) :: sig, w0 REAL, DIMENSION (nloc), INTENT (IN) :: ptop2 REAL, DIMENSION (nloc), INTENT (IN) :: epmax_diag REAL, DIMENSION (nloc, nd), INTENT (IN) :: ft, fq, fqcomp, fu, fv REAL, DIMENSION (nloc, nd, ntra), INTENT (IN) :: ftra REAL, DIMENSION (nloc), INTENT (IN) :: sigd REAL, DIMENSION (nloc, nd), INTENT (IN) :: ma, mip REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: vprecip REAL, DIMENSION (nloc, nd+1), INTENT (IN) :: vprecipi REAL, DIMENSION (nloc, nd), INTENT (IN) :: upwd, dnwd, dnwd0 REAL, DIMENSION (nloc, nd), INTENT (IN) :: qcondc REAL, DIMENSION (nloc), INTENT (IN) :: wd, cape, cin REAL, DIMENSION (nloc, nd), INTENT (IN) :: tvp REAL, DIMENSION (nloc, nd), INTENT (IN) :: ftd, fqd REAL, DIMENSION (nloc), INTENT (IN) :: plim1, plim2 REAL, DIMENSION (nloc, nd), INTENT (IN) :: asupmax REAL, DIMENSION (nloc), INTENT (IN) :: supmax0, asupmaxmin REAL, DIMENSION (nloc, nd), INTENT (IN) :: da REAL, DIMENSION (nloc, nd, nd), INTENT (IN) :: phi !AC! REAL, DIMENSION (nloc, nd), INTENT (IN) :: mp !RomP REAL, DIMENSION (nloc, nd, nd), INTENT (IN) :: phi2 !RomP REAL, DIMENSION (nloc, nd), INTENT (IN) :: d1a, dam !RomP REAL, DIMENSION (nloc, nd, nd), INTENT (IN) :: sigij !RomP REAL, DIMENSION (nloc, nd), INTENT (IN) :: qta !jyg REAL, DIMENSION (nloc, nd), INTENT (IN) :: clw !RomP REAL, DIMENSION (nloc, nd, nd), INTENT (IN) :: elij !RomP REAL, DIMENSION (nloc, nd), INTENT (IN) :: evap, ep !RomP REAL, DIMENSION (nloc, nd, nd), INTENT (IN) :: epmlmMm !RomP+jyg REAL, DIMENSION (nloc, nd), INTENT (IN) :: eplamM !RomP+jyg REAL, DIMENSION (nloc, nd), INTENT (IN) :: qtc, sigt, detrain !RomP REAL, DIMENSION (nloc, nd), INTENT (IN) :: wdtrainA, wdtrainS, wdtrainM !RomP #ifdef ISO real, DIMENSION (ntraciso,nloc), INTENT (IN) :: xtprecip real, DIMENSION (ntraciso,nloc,nd), INTENT (IN) :: fxt real, DIMENSION(ntraciso,nloc,nd), INTENT (IN) :: fxtd real, DIMENSION(ntraciso,nloc,nd+1), INTENT (IN) :: xtvprecip real, DIMENSION(ntraciso,nloc,nd+1), INTENT (IN) :: xtvprecipi real xtevap(ntraciso,nloc,nd) real xtwdtraina(ntraciso,nloc,nd) real xtclw(ntraciso,nloc,nd) #endif ! outputs: INTEGER, DIMENSION (len), INTENT (OUT) :: iflag1, kbas1, ktop1 REAL, DIMENSION (len), INTENT (OUT) :: precip1, cbmf1, plcl1, plfc1 REAL, DIMENSION (len), INTENT (OUT) :: wbeff1 REAL, DIMENSION (len, nd), INTENT (OUT) :: sig1, w01 REAL, DIMENSION (len), INTENT (OUT) :: epmax_diag1 ! epmax_cape REAL, DIMENSION (len), INTENT (OUT) :: ptop21 REAL, DIMENSION (len, nd), INTENT (OUT) :: ft1, fq1, fqcomp1, fu1, fv1 REAL, DIMENSION (len, nd, ntra), INTENT (OUT) :: ftra1 REAL, DIMENSION (len), INTENT (OUT) :: sigd1 REAL, DIMENSION (len, nd), INTENT (OUT) :: ma1, mip1 REAL, DIMENSION (len, nd+1), INTENT (OUT) :: vprecip1 REAL, DIMENSION (len, nd+1), INTENT (OUT) :: vprecipi1 REAL, DIMENSION (len, nd), INTENT (OUT) :: upwd1, dnwd1, dnwd01 REAL, DIMENSION (len, nd), INTENT (OUT) :: qcondc1 REAL, DIMENSION (len), INTENT (OUT) :: wd1, cape1, cin1 REAL, DIMENSION (len, nd), INTENT (OUT) :: tvp1 REAL, DIMENSION (len, nd), INTENT (OUT) :: ftd1, fqd1 REAL, DIMENSION (len), INTENT (OUT) :: plim11, plim21 REAL, DIMENSION (len, nd), INTENT (OUT) :: asupmax1 REAL, DIMENSION (len), INTENT (OUT) :: supmax01, asupmaxmin1 REAL, DIMENSION (len, nd), INTENT (OUT) :: da1 REAL, DIMENSION (len, nd, nd), INTENT (OUT) :: phi1 !AC! REAL, DIMENSION (len, nd), INTENT (OUT) :: mp1 !RomP REAL, DIMENSION (len, nd, nd), INTENT (OUT) :: phi21 !RomP REAL, DIMENSION (len, nd), INTENT (OUT) :: d1a1, dam1 !RomP !RomP REAL, DIMENSION (len, nd, nd), INTENT (OUT) :: sigij1 !RomP REAL, DIMENSION (len, nd), INTENT (OUT) :: qta1 !jyg REAL, DIMENSION (len, nd), INTENT (OUT) :: clw1 !RomP REAL, DIMENSION (len, nd, nd), INTENT (OUT) :: elij1 !RomP REAL, DIMENSION (len, nd), INTENT (OUT) :: evap1, ep1 !RomP REAL, DIMENSION (len, nd, nd), INTENT (OUT) :: epmlmMm1 !RomP+jyg REAL, DIMENSION (len, nd), INTENT (OUT) :: eplamM1 !RomP+jyg REAL, DIMENSION (len, nd), INTENT (OUT) :: qtc1, sigt1, detrain1 !RomP REAL, DIMENSION (len, nd), INTENT (OUT) :: wdtrainA1, wdtrainS1, wdtrainM1 !RomP #ifdef ISO REAL, DIMENSION (ntraciso,len), INTENT (OUT) :: xtprecip1 real, DIMENSION (ntraciso,len,nd), INTENT (OUT) :: fxt1 real, DIMENSION (ntraciso,len,nd), INTENT (OUT) :: fxtd1 real, DIMENSION (ntraciso,len,nd+1), INTENT (OUT) :: xtvprecip1 real, DIMENSION (ntraciso,len,nd+1), INTENT (OUT) :: xtvprecipi1 REAL, DIMENSION (ntraciso,len, nd), INTENT (OUT) :: xtevap1 REAL, DIMENSION (ntraciso,len, nd), INTENT (OUT) :: xtwdtrainA1 REAL, DIMENSION (ntraciso,len, nd), INTENT (OUT) :: xtclw1 #endif ! local variables: INTEGER i, k, j INTEGER jdcum ! c integer k1,k2 #ifdef ISO integer ixt #endif #ifdef DIAGISO real water(nloc,nd) real xtwater(ntraciso,nloc,nd) real qp(nloc,nd),xtp(ntraciso,nloc,nd) real fq_detrainement(nloc,nd) real f_detrainement(nloc,nd) real q_detrainement(nloc,nd) real xt_detrainement(ntraciso,nloc,nd) real fq_ddft(nloc,nd) real fq_fluxmasse(nloc,nd) real Amp_diag(nloc,nd) real tg_save(nloc,nd) ! temperature de cond pour les isos real fq_evapprecip(nloc,nd) real fxt_detrainement(ntraciso,nloc,nd) real fxt_ddft(ntraciso,nloc,nd) real fxt_fluxmasse(ntraciso,nloc,nd) real fxt_evapprecip(ntraciso,nloc,nd) real m(nloc,nd) real water1(len,nd) real xtwater1(ntraciso,len,nd) real qp1(len,nd),xtp1(ntraciso,len,nd) real fq_detrainement1(len,nd) real f_detrainement1(len,nd) real q_detrainement1(len,nd) real xt_detrainement1(ntraciso,len,nd) real fq_ddft1(len,nd) real fq_fluxmasse1(len,nd) real fq_evapprecip1(len,nd) real fxt_detrainement1(ntraciso,len,nd) real fxt_ddft1(ntraciso,len,nd) real fxt_fluxmasse1(ntraciso,len,nd) real fxt_evapprecip1(ntraciso,len,nd) #endif !jyg< IF (compress) THEN !>jyg #ifdef ISOVERIF write(*,*) 'cv3a_uncompress 151: entrée dans cv3a_uncompress' #endif DO i = 1, ncum sig1(idcum(i), nd) = sig(i, nd) ptop21(idcum(i)) = ptop2(i) sigd1(idcum(i)) = sigd(i) precip1(idcum(i)) = precip(i) cbmf1(idcum(i)) = cbmf(i) plcl1(idcum(i)) = plcl(i) plfc1(idcum(i)) = plfc(i) wbeff1(idcum(i)) = wbeff(i) iflag1(idcum(i)) = iflag(i) kbas1(idcum(i)) = kbas(i) ktop1(idcum(i)) = ktop(i) wd1(idcum(i)) = wd(i) cape1(idcum(i)) = cape(i) cin1(idcum(i)) = cin(i) plim11(idcum(i)) = plim1(i) plim21(idcum(i)) = plim2(i) supmax01(idcum(i)) = supmax0(i) asupmaxmin1(idcum(i)) = asupmaxmin(i) epmax_diag1(idcum(i)) = epmax_diag(i) #ifdef ISO do ixt = 1, ntraciso xtprecip1(ixt,idcum(i))=xtprecip(ixt,i) enddo #endif END DO DO k = 1, nl DO i = 1, ncum sig1(idcum(i), k) = sig(i, k) w01(idcum(i), k) = w0(i, k) ft1(idcum(i), k) = ft(i, k) fq1(idcum(i), k) = fq(i, k) fqcomp1(idcum(i), k) = fqcomp(i, k) fu1(idcum(i), k) = fu(i, k) fv1(idcum(i), k) = fv(i, k) ma1(idcum(i), k) = ma(i, k) mip1(idcum(i), k) = mip(i, k) vprecip1(idcum(i), k) = vprecip(i, k) vprecipi1(idcum(i), k) = vprecipi(i, k) upwd1(idcum(i), k) = upwd(i, k) dnwd1(idcum(i), k) = dnwd(i, k) dnwd01(idcum(i), k) = dnwd0(i, k) qcondc1(idcum(i), k) = qcondc(i, k) tvp1(idcum(i), k) = tvp(i, k) ftd1(idcum(i), k) = ftd(i, k) fqd1(idcum(i), k) = fqd(i, k) asupmax1(idcum(i), k) = asupmax(i, k) da1(idcum(i), k) = da(i, k) !AC! mp1(idcum(i), k) = mp(i, k) !RomP d1a1(idcum(i), k) = d1a(i, k) !RomP dam1(idcum(i), k) = dam(i, k) !RomP qta1(idcum(i), k) = qta(i, k) !jyg clw1(idcum(i), k) = clw(i, k) !RomP evap1(idcum(i), k) = evap(i, k) !RomP ep1(idcum(i), k) = ep(i, k) !RomP eplamM1(idcum(i), k) = eplamM(i, k) !RomP+jyg wdtrainA1(idcum(i), k) = wdtrainA(i, k) !RomP wdtrainS1(idcum(i), k) = wdtrainS(i, k) !RomP wdtrainM1(idcum(i), k) = wdtrainM(i, k) !RomP qtc1(idcum(i), k) = qtc(i, k) sigt1(idcum(i), k) = sigt(i, k) detrain1(idcum(i), k) = detrain(i, k) #ifdef ISO do ixt = 1, ntraciso fxt1(ixt,idcum(i),k)=fxt(ixt,i,k) fxtd1(ixt,idcum(i),k)=fxtd(ixt,i,k) xtvprecip1(ixt,idcum(i),k)=xtvprecip(ixt,i,k) xtvprecipi1(ixt,idcum(i),k)=xtvprecipi(ixt,i,k) xtevap1(ixt,idcum(i),k)=xtevap(ixt,i,k) xtwdtraina1(ixt,idcum(i),k)=xtwdtraina(ixt,i,k) xtclw1(ixt,idcum(i),k)=xtclw(ixt,i,k) enddo #endif END DO END DO #ifdef ISO #ifdef DIAGISO do k=1,nl do i=1,ncum water1(idcum(i),k)=water(i,k) qp1(idcum(i),k)=qp(i,k) fq_detrainement1(idcum(i),k)=fq_detrainement(i,k) f_detrainement1(idcum(i),k)=f_detrainement(i,k) q_detrainement1(idcum(i),k)=q_detrainement(i,k) fq_ddft1(idcum(i),k)=fq_ddft(i,k) fq_fluxmasse1(idcum(i),k)=fq_fluxmasse(i,k) fq_evapprecip1(idcum(i),k)=fq_evapprecip(i,k) do ixt = 1, ntraciso xtwater1(ixt,idcum(i),k)=xtwater(ixt,i,k) xtp1(ixt,idcum(i),k)=xtp(ixt,i,k) fxt_detrainement1(ixt,idcum(i),k)=fxt_detrainement(ixt,i,k) xt_detrainement1(ixt,idcum(i),k)=xt_detrainement(ixt,i,k) fxt_ddft1(ixt,idcum(i),k)=fxt_ddft(ixt,i,k) fxt_fluxmasse1(ixt,idcum(i),k)=fxt_fluxmasse(ixt,i,k) fxt_evapprecip1(ixt,idcum(i),k)=fxt_evapprecip(ixt,i,k) enddo enddo enddo #endif #endif ! Fluxes are defined on a staggered grid and extend up to nl+1 DO i = 1, ncum ma1(idcum(i), nlp) = 0. vprecip1(idcum(i), nlp) = 0. vprecipi1(idcum(i), nlp) = 0. upwd1(idcum(i), nlp) = 0. dnwd1(idcum(i), nlp) = 0. dnwd01(idcum(i), nlp) = 0. #ifdef ISO do ixt=1,ntraciso xtvprecip1(ixt,idcum(i), nlp) = 0. xtvprecipi1(ixt,idcum(i), nlp) = 0. enddo #endif END DO ! AC! do 2100 j=1,ntra ! AC!c oct3 do 2110 k=1,nl ! AC! do 2110 k=1,nd ! oct3 ! AC! do 2120 i=1,ncum ! AC! ftra1(idcum(i),k,j)=ftra(i,k,j) ! AC! 2120 continue ! AC! 2110 continue ! AC! 2100 continue ! AC! !jyg< ! Essais pour gagner du temps en diminuant l'adressage indirect !! DO j = 1, nd !! DO k = 1, nd !! DO i = 1, ncum !! phi1(idcum(i), k, j) = phi(i, k, j) !AC! !! phi21(idcum(i), k, j) = phi2(i, k, j) !RomP !! sigij1(idcum(i), k, j) = sigij(i, k, j) !RomP !! elij1(idcum(i), k, j) = elij(i, k, j) !RomP !! epmlmMm(idcum(i), k, j) = epmlmMm(i, k, j) !RomP+jyg !! END DO !! END DO !! END DO !! DO i = 1, ncum !! jdcum=idcum(i) !! phi1 (jdcum, 1:nl+1, 1:nl+1) = phi (i, 1:nl+1, 1:nl+1) !AC! !! phi21 (jdcum, 1:nl+1, 1:nl+1) = phi2 (i, 1:nl+1, 1:nl+1) !RomP !! sigij1 (jdcum, 1:nl+1, 1:nl+1) = sigij (i, 1:nl+1, 1:nl+1) !RomP !! elij1 (jdcum, 1:nl+1, 1:nl+1) = elij (i, 1:nl+1, 1:nl+1) !RomP !! epmlmMm1(jdcum, 1:nl+1, 1:nl+1) = epmlmMm(i, 1:nl+1, 1:nl+1) !RomP+jyg !! END DO ! These tracer associated arrays are defined up to nl, not nl+1 DO i = 1, ncum jdcum=idcum(i) DO k = 1,nl DO j = 1,nl phi1 (jdcum, j, k) = phi (i, j, k) !AC! phi21 (jdcum, j, k) = phi2 (i, j, k) !RomP sigij1 (jdcum, j, k) = sigij (i, j, k) !RomP elij1 (jdcum, j, k) = elij (i, j, k) !RomP epmlmMm1(jdcum, j, k) = epmlmMm(i, j, k) !RomP+jyg END DO ENDDO ENDDO !>jyg ! AC! ! do 2220 k2=1,nd ! do 2210 k1=1,nd ! do 2200 i=1,ncum ! ment1(idcum(i),k1,k2) = ment(i,k1,k2) ! sigij1(idcum(i),k1,k2) = sigij(i,k1,k2) ! 2200 enddo ! 2210 enddo ! 2220 enddo ! !jyg< ELSE !(compress) ! sig1(:,nd) = sig(:,nd) ptop21(:) = ptop2(:) sigd1(:) = sigd(:) precip1(:) = precip(:) cbmf1(:) = cbmf(:) plcl1(:) = plcl(:) plfc1(:) = plfc(:) wbeff1(:) = wbeff(:) iflag1(:) = iflag(:) kbas1(:) = kbas(:) ktop1(:) = ktop(:) wd1(:) = wd(:) cape1(:) = cape(:) cin1(:) = cin(:) plim11(:) = plim1(:) plim21(:) = plim2(:) supmax01(:) = supmax0(:) asupmaxmin1(:) = asupmaxmin(:) #ifdef ISO xtprecip1(:,:)=xtprecip(:,:) #endif ! sig1(:, 1:nl) = sig(:, 1:nl) w01(:, 1:nl) = w0(:, 1:nl) ft1(:, 1:nl) = ft(:, 1:nl) fq1(:, 1:nl) = fq(:, 1:nl) fqcomp1(:, 1:nl) = fqcomp(:, 1:nl) fu1(:, 1:nl) = fu(:, 1:nl) fv1(:, 1:nl) = fv(:, 1:nl) ma1(:, 1:nl) = ma(:, 1:nl) mip1(:, 1:nl) = mip(:, 1:nl) vprecip1(:, 1:nl) = vprecip(:, 1:nl) vprecipi1(:, 1:nl) = vprecipi(:, 1:nl) upwd1(:, 1:nl) = upwd(:, 1:nl) dnwd1(:, 1:nl) = dnwd(:, 1:nl) dnwd01(:, 1:nl) = dnwd0(:, 1:nl) qcondc1(:, 1:nl) = qcondc(:, 1:nl) tvp1(:, 1:nl) = tvp(:, 1:nl) ftd1(:, 1:nl) = ftd(:, 1:nl) fqd1(:, 1:nl) = fqd(:, 1:nl) asupmax1(:, 1:nl) = asupmax(:, 1:nl) da1(:, 1:nl) = da(:, 1:nl) !AC! mp1(:, 1:nl) = mp(:, 1:nl) !RomP d1a1(:, 1:nl) = d1a(:, 1:nl) !RomP dam1(:, 1:nl) = dam(:, 1:nl) !RomP qta1(:, 1:nl) = qta(:, 1:nl) !jyg clw1(:, 1:nl) = clw(:, 1:nl) !RomP evap1(:, 1:nl) = evap(:, 1:nl) !RomP ep1(:, 1:nl) = ep(:, 1:nl) !RomP eplamM1(:, 1:nl) = eplamM(:, 1:nl) !RomP+jyg wdtrainA1(:, 1:nl) = wdtrainA(:, 1:nl) !RomP wdtrainS1(:, 1:nl) = wdtrainS(:, 1:nl) !RomP wdtrainM1(:, 1:nl) = wdtrainM(:, 1:nl) !RomP qtc1(:, 1:nl) = qtc(:, 1:nl) sigt1(:, 1:nl) = sigt(:, 1:nl) detrain1(:, 1:nl) = detrain(:, 1:nl) ! ma1(:, nlp) = 0. vprecip1(:, nlp) = 0. vprecipi1(:, nlp) = 0. upwd1(:, nlp) = 0. dnwd1(:, nlp) = 0. dnwd01(:, nlp) = 0. ! phi1 (:, 1:nl, 1:nl) = phi (:, 1:nl, 1:nl) !AC! phi21 (:, 1:nl, 1:nl) = phi2 (:, 1:nl, 1:nl) !RomP sigij1 (:, 1:nl, 1:nl) = sigij (:, 1:nl, 1:nl) !RomP elij1 (:, 1:nl, 1:nl) = elij (:, 1:nl, 1:nl) !RomP epmlmMm1(:, 1:nl, 1:nl) = epmlmMm(:, 1:nl, 1:nl) !RomP+jyg #ifdef ISO do ixt = 1, ntraciso fxt1(:,:,1:nl)=fxt(:,:,1:nl) fxtd1(:,:,1:nl)=fxtd(:,:,1:nl) xtvprecip1(:,:,1:nlp)=xtvprecip(:,:,1:nlp) xtvprecipi1(:,:,1:nlp)=xtvprecipi(:,:,1:nlp) xtevap1(:,:,1:nl)=xtevap(:,:,1:nl) xtwdtrainA1(:,:,1:nl)=xtwdtrainA(:,:,1:nl) xtclw1(:,:,1:nl)=xtclw(:,:,1:nl) enddo #endif #ifdef ISO #ifdef DIAGISO water1(:,1:nl)=water(:,1:nl) qp1(:,1:nl)=qp(:,1:nl) fq_detrainement1(:,1:nl)=fq_detrainement(:,1:nl) f_detrainement1(:,1:nl)=f_detrainement(:,1:nl) q_detrainement1(:,1:nl)=q_detrainement(:,1:nl) fq_ddft1(:,1:nl)=fq_ddft(:,1:nl) fq_fluxmasse1(:,1:nl)=fq_fluxmasse(:,1:nl) fq_evapprecip1(:,1:nl)=fq_evapprecip(:,1:nl) do ixt = 1, ntraciso xtwater1(:,:,1:nl)=xtwater(:,:,1:nl) xtp1(:,:,1:nl)=xtp(:,:,1:nl) fxt_detrainement1(:,:,1:nl)=fxt_detrainement(:,:,1:nl) xt_detrainement1(:,:,1:nl)=xt_detrainement(:,:,1:nl) fxt_ddft1(:,:,1:nl)=fxt_ddft(:,:,1:nl) fxt_fluxmasse1(:,:,1:nl)=fxt_fluxmasse(:,:,1:nl) fxt_evapprecip1(:,:,1:nl)=fxt_evapprecip(:,:,1:nl) enddo #endif #endif ENDIF !(compress) !>jyg RETURN END SUBROUTINE cv3a_uncompress