[2] | 1 | SUBROUTINE etat0_netcdf |
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| 2 | |
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[11] | 3 | USE startvar |
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| 4 | USE ioipsl |
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[2] | 5 | ! |
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| 6 | IMPLICIT NONE |
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| 7 | ! |
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[174] | 8 | #include "netcdf.inc" |
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[2] | 9 | #include "dimensions.h" |
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| 10 | #include "paramet.h" |
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| 11 | ! |
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| 12 | ! |
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[112] | 13 | c INTEGER, PARAMETER :: KIDIA=1, KFDIA=iim*(jjm-1)+2, |
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| 14 | c .KLON=KFDIA-KIDIA+1,KLEV=llm |
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[2] | 15 | ! |
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| 16 | #include "comgeom2.h" |
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| 17 | #include "comvert.h" |
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| 18 | #include "comconst.h" |
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[112] | 19 | #include "indicesol.h" |
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| 20 | #include "dimphy.h" |
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| 21 | #include "dimsoil.h" |
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[2] | 22 | ! |
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| 23 | REAL :: latfi(klon), lonfi(klon) |
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| 24 | REAL :: orog(iip1,jjp1), rugo(iip1,jjp1), masque(iip1,jjp1), |
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| 25 | . psol(iip1, jjp1), phis(iip1, jjp1) |
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[9] | 26 | REAL :: p3d(iip1, jjp1, llm+1) |
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[8] | 27 | REAL :: uvent(iip1, jjp1, llm) |
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| 28 | REAL :: vvent(iip1, jjm, llm) |
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| 29 | REAL :: t3d(iip1, jjp1, llm), tpot(iip1, jjp1, llm) |
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| 30 | REAL :: q3d(iip1, jjp1, llm,nqmx), qsat(iip1, jjp1, llm) |
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[112] | 31 | REAL :: tsol(klon), qsol(klon), sn(klon) |
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| 32 | REAL :: tsolsrf(klon,nbsrf), qsolsrf(klon,nbsrf),snsrf(klon,nbsrf) |
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| 33 | REAL :: albe(klon,nbsrf), evap(klon,nbsrf) |
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| 34 | REAL :: tsoil(klon,nsoilmx,nbsrf) |
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| 35 | REAL :: radsol(klon),rain_fall(klon), snow_fall(klon) |
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| 36 | REAL :: solsw(klon), sollw(klon) |
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| 37 | REAL :: deltat(klon), frugs(klon,nbsrf), agesno(klon),rugmer(klon) |
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[8] | 38 | REAL :: zmea(iip1*jjp1), zstd(iip1*jjp1) |
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| 39 | REAL :: zsig(iip1*jjp1), zgam(iip1*jjp1), zthe(iip1*jjp1) |
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| 40 | REAL :: zpic(iip1*jjp1), zval(iip1*jjp1), rugsrel(iip1*jjp1) |
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| 41 | REAL :: qd(iip1, jjp1, llm) |
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[112] | 42 | REAL :: pctsrf(klon, nbsrf) |
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| 43 | REAL :: t_ancien(klon,klev), q_ancien(klon,klev) ! |
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| 44 | ! declarations pour lecture glace de mer |
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[227] | 45 | REAL :: rugv(klon) |
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[112] | 46 | INTEGER :: iml_lic, jml_lic, llm_tmp, ttm_tmp, iret |
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| 47 | INTEGER :: itaul(1), fid |
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| 48 | REAL :: lev(1), date, dt |
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| 49 | REAL, ALLOCATABLE, DIMENSION(:,:) :: lon_lic, lat_lic |
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| 50 | REAL, ALLOCATABLE, DIMENSION(:) :: dlon_lic, dlat_lic |
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| 51 | REAL, ALLOCATABLE, DIMENSION (:,:) :: fraclic |
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| 52 | REAL :: flic_tmp(iip1, jjp1) |
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| 53 | REAL :: champint(iim, jjp1) |
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[2] | 54 | ! |
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[112] | 55 | |
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[2] | 56 | CHARACTER*80 :: varname |
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| 57 | ! |
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[112] | 58 | INTEGER :: i,j, ig, l, ji |
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[2] | 59 | REAL :: xpi |
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| 60 | ! |
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| 61 | REAL :: alpha(iip1,jjp1,llm),beta(iip1,jjp1,llm) |
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| 62 | REAL :: pk(iip1,jjp1,llm), pls(iip1,jjp1,llm), pks(ip1jmp1) |
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| 63 | REAL :: workvar(iip1,jjp1,llm) |
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| 64 | ! |
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| 65 | REAL :: prefkap, unskap |
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| 66 | ! |
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| 67 | REAL :: q_sat |
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| 68 | EXTERNAL q_sat |
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| 69 | real :: time_step,t_ops,t_wrt |
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| 70 | |
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| 71 | #include "comdissnew.h" |
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| 72 | #include "control.h" |
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| 73 | #include "serre.h" |
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| 74 | #include "clesph0.h" |
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| 75 | |
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| 76 | INTEGER :: longcles |
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| 77 | PARAMETER ( longcles = 20 ) |
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| 78 | REAL :: clesphy0 ( longcles ) |
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[8] | 79 | REAL :: p(iip1,jjp1,llm) |
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[2] | 80 | INTEGER :: itau, iday |
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| 81 | REAL :: masse(iip1,jjp1,llm) |
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| 82 | REAL :: xpn,xps,xppn(iim),xpps(iim) |
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| 83 | real :: time |
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| 84 | REAL :: phi(ip1jmp1,llm) |
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| 85 | REAL :: pbaru(ip1jmp1,llm),pbarv(ip1jm,llm) |
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| 86 | REAL :: w(ip1jmp1,llm) |
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[8] | 87 | REAL ::phystep,co2_ppm,solaire |
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| 88 | INTEGER :: radpas |
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[2] | 89 | |
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| 90 | CHARACTER*80 :: visu_file |
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| 91 | INTEGER :: visuid |
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[174] | 92 | |
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| 93 | ! pour la lecture du fichier masque ocean |
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| 94 | integer :: nid_o2a |
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| 95 | logical :: couple = .false. |
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| 96 | INTEGER :: iml_omask, jml_omask |
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| 97 | REAL, ALLOCATABLE, DIMENSION(:,:) :: lon_omask, lat_omask |
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| 98 | REAL, ALLOCATABLE, DIMENSION(:) :: dlon_omask, dlat_omask |
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| 99 | REAL, ALLOCATABLE, DIMENSION (:,:) :: ocemask, ocetmp |
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| 100 | real, dimension(klon) :: ocemask_fi |
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| 101 | integer :: isst(klon-2) |
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| 102 | |
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[2] | 103 | ! |
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| 104 | ! Constantes |
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| 105 | ! |
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| 106 | pi = 4. * ATAN(1.) |
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| 107 | rad = 6371229. |
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| 108 | omeg = 4.* ASIN(1.)/(24.*3600.) |
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| 109 | g = 9.8 |
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| 110 | daysec = 86400. |
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| 111 | kappa = 0.2857143 |
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| 112 | cpp = 1004.70885 |
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| 113 | ! |
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| 114 | preff = 101325. |
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| 115 | unskap = 1./kappa |
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| 116 | ! |
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| 117 | jmp1 = jjm + 1 |
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| 118 | ! |
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| 119 | ! Construct a grid |
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| 120 | ! |
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| 121 | |
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| 122 | CALL defrun_new(99,.TRUE.,clesphy0) |
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| 123 | |
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| 124 | dtvr = daysec/FLOAT(day_step) |
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| 125 | print*,'dtvr',dtvr |
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| 126 | |
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| 127 | CALL inicons0() |
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| 128 | CALL inigeom() |
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| 129 | ! |
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| 130 | CALL inifilr() |
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| 131 | ! |
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| 132 | latfi(1) = ASIN(1.0) |
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| 133 | DO j = 2, jjm |
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| 134 | DO i = 1, iim |
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| 135 | latfi((j-2)*iim+1+i)= rlatu(j) |
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| 136 | ENDDO |
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| 137 | ENDDO |
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| 138 | latfi(klon) = - ASIN(1.0) |
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| 139 | ! |
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| 140 | lonfi(1) = 0.0 |
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| 141 | DO j = 2, jjm |
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| 142 | DO i = 1, iim |
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| 143 | lonfi((j-2)*iim+1+i) = rlonv(i) |
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| 144 | ENDDO |
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| 145 | ENDDO |
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| 146 | lonfi(klon) = 0.0 |
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| 147 | ! |
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| 148 | xpi = 2.0 * ASIN(1.0) |
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| 149 | DO ig = 1, klon |
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| 150 | latfi(ig) = latfi(ig) * 180.0 / xpi |
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| 151 | lonfi(ig) = lonfi(ig) * 180.0 / xpi |
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| 152 | ENDDO |
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| 153 | ! |
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| 154 | varname = 'relief' |
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| 155 | ! This line needs to be replaced by a call to restget to get the values in the restart file |
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| 156 | orog(:,:) = 0.0 |
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| 157 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, orog, 0.0) |
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| 158 | ! |
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| 159 | WRITE(*,*) 'OUT OF GET VARIABLE : Relief' |
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| 160 | WRITE(*,'(49I1)') INT(orog(:,:)) |
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| 161 | ! |
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| 162 | varname = 'rugosite' |
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| 163 | ! This line needs to be replaced by a call to restget to get the values in the restart file |
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| 164 | rugo(:,:) = 0.0 |
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| 165 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, rugo, 0.0) |
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| 166 | ! |
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| 167 | WRITE(*,*) 'OUT OF GET VARIABLE : Rugosite' |
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| 168 | WRITE(*,'(49I1)') INT(rugo(:,:)*10) |
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| 169 | ! |
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| 170 | varname = 'masque' |
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| 171 | ! This line needs to be replaced by a call to restget to get the values in the restart file |
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[5] | 172 | masque(:,:) = 0.0 |
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[2] | 173 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, masque, 0.0) |
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| 174 | ! |
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| 175 | WRITE(*,*) 'MASQUE construit : Masque' |
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| 176 | WRITE(*,'(49I1)') INT(masque(:,:)) |
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| 177 | ! |
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| 178 | ! |
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[112] | 179 | |
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| 180 | |
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| 181 | C |
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| 182 | C on initialise les sous surfaces |
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| 183 | C |
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| 184 | pctsrf=0. |
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| 185 | !cree le masque a partir du fichier relief |
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| 186 | varname = 'zmasq' |
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| 187 | zmasq(:) = 0. |
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| 188 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zmasq,0.0) |
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[177] | 189 | WHERE (zmasq(1 : klon) .LT. EPSFRA) |
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[112] | 190 | zmasq(1 : klon) = 0. |
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| 191 | END WHERE |
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[177] | 192 | WHERE (1. - zmasq(1 : klon) .LT. EPSFRA) |
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| 193 | zmasq(1 : klon) = 1. |
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| 194 | END WHERE |
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[112] | 195 | WRITE(*,*)zmasq |
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| 196 | |
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| 197 | |
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| 198 | |
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| 199 | |
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[2] | 200 | varname = 'psol' |
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| 201 | psol(:,:) = 0.0 |
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| 202 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, psol, 0.0) |
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| 203 | ! |
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| 204 | ! Compute here the pressure on the intermediate levels. One would expect that this is available in the GCM |
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| 205 | ! anyway. |
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| 206 | ! |
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| 207 | WRITE(*,*) 'PSOL :', psol(10,20) |
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| 208 | WRITE(*,*) ap(:), bp(:) |
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| 209 | CALL pression(ip1jmp1, ap, bp, psol, p3d) |
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| 210 | WRITE(*,*) 'P3D :', p3d(10,20,:) |
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| 211 | CALL exner_hyb(ip1jmp1, psol, p3d, alpha, beta, pks, pk, workvar) |
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| 212 | WRITE(*,*) 'PK:', pk(10,20,:) |
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| 213 | ! |
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| 214 | ! |
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| 215 | ! |
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| 216 | prefkap = preff ** kappa |
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| 217 | WRITE(*,*) 'unskap, cpp, preff :', unskap, cpp, preff |
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| 218 | DO l = 1, llm |
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| 219 | DO j=1,jjp1 |
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| 220 | DO i =1, iip1 |
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| 221 | pls(i,j,l) = preff * ( pk(i,j,l)/cpp) ** unskap |
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| 222 | ENDDO |
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| 223 | ENDDO |
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| 224 | ENDDO |
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| 225 | ! |
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| 226 | WRITE(*,*) 'PLS :', pls(10,20,:) |
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| 227 | ! |
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| 228 | varname = 'surfgeo' |
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| 229 | phis(:,:) = 0.0 |
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| 230 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, phis, 0.0) |
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[174] | 231 | write(*,*) 'Phis = ' |
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| 232 | write(*,*)phis |
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[2] | 233 | ! |
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| 234 | varname = 'u' |
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| 235 | uvent(:,:,:) = 0.0 |
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| 236 | CALL startget(varname, iip1, jjp1, rlonu, rlatu, llm, pls, |
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| 237 | . workvar, uvent, 0.0) |
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| 238 | ! |
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| 239 | varname = 'v' |
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| 240 | vvent(:,:,:) = 0.0 |
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| 241 | CALL startget(varname, iip1, jjm, rlonv, rlatv, llm, pls, |
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| 242 | . workvar, vvent, 0.0) |
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| 243 | ! |
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| 244 | varname = 't' |
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| 245 | t3d(:,:,:) = 0.0 |
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| 246 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, llm, pls, |
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| 247 | . workvar, t3d, 0.0) |
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| 248 | ! |
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| 249 | WRITE(*,*) 'T3D min,max:',minval(t3d(:,:,:)), |
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| 250 | . maxval(t3d(:,:,:)) |
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| 251 | varname = 'tpot' |
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| 252 | tpot(:,:,:) = 0.0 |
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| 253 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, llm, pls, |
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| 254 | . pk, tpot, 0.0) |
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| 255 | ! |
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| 256 | WRITE(*,*) 'T3D min,max:',minval(t3d(:,:,:)), |
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| 257 | . maxval(t3d(:,:,:)) |
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| 258 | WRITE(*,*) 'PLS min,max:',minval(pls(:,:,:)), |
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| 259 | . maxval(pls(:,:,:)) |
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| 260 | DO l = 1, llm |
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| 261 | DO j=1,jjp1 |
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| 262 | DO i =1, iip1-1 |
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| 263 | qsat(i,j,l) = q_sat(t3d(i,j,l),pls(i,j,l)/100. ) |
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| 264 | ENDDO |
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| 265 | qsat(iip1,j,l) = qsat(1,j,l) |
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| 266 | ENDDO |
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| 267 | ENDDO |
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| 268 | WRITE(*,*) 'QSAT min,max:',minval(qsat(:,:,:)), |
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| 269 | . maxval(qsat(:,:,:)) |
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| 270 | ! |
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| 271 | WRITE(*,*) 'QSAT :', qsat(10,20,:) |
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| 272 | ! |
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| 273 | varname = 'q' |
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[99] | 274 | q3d(:,:,:,:) = 0.0 |
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[2] | 275 | qd(:,:,:) = 0.0 |
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[232] | 276 | q3d(:,:,:,:) = 0.0 |
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[2] | 277 | WRITE(*,*) 'QSAT min,max:',minval(qsat(:,:,:)), |
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| 278 | . maxval(qsat(:,:,:)) |
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| 279 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, llm, pls, |
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| 280 | . qsat, qd, 0.0) |
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| 281 | q3d(:,:,:,1) = qd(:,:,:) |
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| 282 | ! |
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| 283 | varname = 'tsol' |
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| 284 | ! This line needs to be replaced by a call to restget to get the values in the restart file |
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| 285 | tsol(:) = 0.0 |
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[112] | 286 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, klon, tsol,0.0) |
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[2] | 287 | ! |
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| 288 | WRITE(*,*) 'TSOL construit :' |
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| 289 | WRITE(*,'(48I3)') INT(TSOL(2:klon)-273) |
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| 290 | ! |
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| 291 | varname = 'qsol' |
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| 292 | qsol(:) = 0.0 |
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[112] | 293 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, klon, qsol,0.0) |
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[2] | 294 | ! |
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| 295 | varname = 'snow' |
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| 296 | sn(:) = 0.0 |
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[112] | 297 | CALL startget(varname, iip1, jjp1, rlonv, rlatu, klon, sn,0.0) |
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[2] | 298 | ! |
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| 299 | varname = 'rads' |
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| 300 | radsol(:) = 0.0 |
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| 301 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,radsol,0.0) |
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| 302 | ! |
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| 303 | varname = 'deltat' |
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| 304 | deltat(:) = 0.0 |
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| 305 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,deltat,0.0) |
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| 306 | ! |
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| 307 | varname = 'rugmer' |
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| 308 | rugmer(:) = 0.0 |
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| 309 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,rugmer,0.0) |
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| 310 | ! |
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| 311 | varname = 'agsno' |
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| 312 | agesno(:) = 0.0 |
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| 313 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,agesno,0.0) |
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| 314 | |
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| 315 | varname = 'zmea' |
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| 316 | zmea(:) = 0.0 |
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| 317 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zmea,0.0) |
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| 318 | varname = 'zstd' |
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| 319 | zstd(:) = 0.0 |
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| 320 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zstd,0.0) |
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| 321 | varname = 'zsig' |
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| 322 | zsig(:) = 0.0 |
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| 323 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zsig,0.0) |
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| 324 | varname = 'zgam' |
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| 325 | zgam(:) = 0.0 |
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| 326 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zgam,0.0) |
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| 327 | varname = 'zthe' |
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| 328 | zthe(:) = 0.0 |
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| 329 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zthe,0.0) |
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| 330 | varname = 'zpic' |
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| 331 | zpic(:) = 0.0 |
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| 332 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zpic,0.0) |
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| 333 | varname = 'zval' |
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| 334 | zval(:) = 0.0 |
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| 335 | CALL startget(varname,iip1,jjp1,rlonv,rlatu,klon,zval,0.0) |
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| 336 | rugsrel(:) = 0.0 |
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[112] | 337 | |
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[174] | 338 | C |
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| 339 | C En cas de simulation couplee, lecture du masque ocean issu du modele ocean |
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| 340 | C utilise pour calculer les poids et pour assurer l'adequation entre les |
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| 341 | C fractions d'ocean vu par l'atmosphere et l'ocean |
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| 342 | C |
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[112] | 343 | |
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[174] | 344 | write(*,*)'Essai de lecture masque ocean' |
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| 345 | iret = nf_open("o2a.nc", NF_NOWRITE, nid_o2a) |
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| 346 | if (iret .ne. 0) then |
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| 347 | write(*,*)'ATTENTION!! pas de fichier o2a.nc trouve' |
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| 348 | write(*,*)'Run force' |
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| 349 | else |
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| 350 | couple = .true. |
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| 351 | iret = nf_close(nid_o2a) |
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| 352 | call flininfo("o2a.nc", iml_omask, jml_omask, llm_tmp, ttm_tmp |
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| 353 | $ , nid_o2a) |
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| 354 | if (iml_omask /= iim .or. jml_omask /= jjp1) then |
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| 355 | write(*,*)'Dimensions non compatibles pour masque ocean' |
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| 356 | write(*,*)'iim = ',iim,' iml_omask = ',iml_omask |
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| 357 | write(*,*)'jjp1 = ',jjp1,' jml_omask = ',jml_omask |
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| 358 | stop |
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| 359 | endif |
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| 360 | ALLOCATE(lat_omask(iml_omask, jml_omask), stat=iret) |
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| 361 | ALLOCATE(lon_omask(iml_omask, jml_omask), stat=iret) |
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| 362 | ALLOCATE(dlon_omask(iml_omask), stat=iret) |
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| 363 | ALLOCATE(dlat_omask(jml_omask), stat=iret) |
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| 364 | ALLOCATE(ocemask(iml_omask, jml_omask), stat=iret) |
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| 365 | ALLOCATE(ocetmp(iml_omask, jml_omask), stat=iret) |
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| 366 | CALL flinopen("o2a.nc", .FALSE., iml_omask, jml_omask, llm_tmp |
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| 367 | $ , lon_omask, lat_omask, lev, ttm_tmp, itaul, date, dt, fid) |
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| 368 | CALL flinget(fid, 'OceMask', iml_omask, jml_omask, llm_tmp, |
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| 369 | $ ttm_tmp, 1, 1, ocetmp) |
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| 370 | CALL flinclo(fid) |
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| 371 | dlon_omask(1 : iml_omask) = lon_omask(1 : iml_omask, 1) |
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| 372 | dlat_omask(1 : jml_omask) = lat_omask(1 , 1 : jml_omask) |
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| 373 | ocemask = ocetmp |
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| 374 | if (dlat_omask(1) < dlat_omask(jml_omask)) then |
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| 375 | do j = 1, jml_omask |
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| 376 | ocemask(:,j) = ocetmp(:,jml_omask-j+1) |
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| 377 | enddo |
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| 378 | endif |
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[112] | 379 | C |
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[174] | 380 | C passage masque ocean a la grille physique |
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| 381 | C |
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| 382 | ocemask_fi(1) = ocemask(1,1) |
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| 383 | do j = 2, jjm |
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| 384 | do i = 1, iim |
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| 385 | ocemask_fi((j-2)*iim + i + 1) = ocemask(i,j) |
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| 386 | enddo |
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| 387 | enddo |
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| 388 | ocemask_fi(klon) = ocemask(1,jjp1) |
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| 389 | zmasq = 1. - ocemask_fi |
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| 390 | isst = 0 |
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| 391 | where (ocemask_fi(2:klon-1) >0.) isst = 1 |
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| 392 | write(45,'(72i1)')isst |
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| 393 | endif |
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| 394 | |
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| 395 | |
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| 396 | C |
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[112] | 397 | C lecture du fichier glace de terre pour fixer la fraction de terre |
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| 398 | C et de glace de terre |
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| 399 | C |
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| 400 | CALL flininfo("landiceref.nc", iml_lic, jml_lic,llm_tmp, ttm_tmp |
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| 401 | $ , fid) |
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| 402 | ALLOCATE(lat_lic(iml_lic, jml_lic), stat=iret) |
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| 403 | ALLOCATE(lon_lic(iml_lic, jml_lic), stat=iret) |
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| 404 | ALLOCATE(dlon_lic(iml_lic), stat=iret) |
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| 405 | ALLOCATE(dlat_lic(jml_lic), stat=iret) |
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| 406 | ALLOCATE(fraclic(iml_lic, jml_lic), stat=iret) |
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| 407 | CALL flinopen("landiceref.nc", .FALSE., iml_lic, jml_lic, llm_tmp |
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| 408 | $ , lon_lic, lat_lic, lev, ttm_tmp, itaul, date, dt, fid) |
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| 409 | CALL flinget(fid, 'landice', iml_lic, jml_lic, llm_tmp, ttm_tmp |
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| 410 | $ , 1, 1, fraclic) |
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| 411 | CALL flinclo(fid) |
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| 412 | C |
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| 413 | C interpolation sur la grille T du modele |
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| 414 | C |
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| 415 | WRITE(*,*) 'dimensions de landice iml_lic, jml_lic : ', |
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| 416 | $ iml_lic, jml_lic |
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| 417 | c |
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| 418 | C sil les coordonnees sont en degres, on les transforme |
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| 419 | C |
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| 420 | IF( MAXVAL( lon_lic(:,:) ) .GT. 2.0 * asin(1.0) ) THEN |
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| 421 | lon_lic(:,:) = lon_lic(:,:) * 2.0* ASIN(1.0) / 180. |
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| 422 | ENDIF |
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| 423 | IF( maxval( lat_lic(:,:) ) .GT. 2.0 * asin(1.0)) THEN |
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| 424 | lat_lic(:,:) = lat_lic(:,:) * 2.0 * asin(1.0) / 180. |
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| 425 | ENDIF |
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| 426 | |
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| 427 | dlon_lic(1 : iml_lic) = lon_lic(1 : iml_lic, 1) |
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| 428 | dlat_lic(1 : jml_lic) = lat_lic(1 , 1 : jml_lic) |
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| 429 | C |
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| 430 | CALL grille_m(iml_lic, jml_lic, dlon_lic, dlat_lic, fraclic |
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| 431 | $ ,iim, jjp1, |
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| 432 | $ rlonv, rlatu, flic_tmp(1 : iim, 1 : jjp1)) |
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| 433 | c$$$ flic_tmp(1 : iim, 1 : jjp1) = champint(1: iim, 1 : jjp1) |
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| 434 | flic_tmp(iip1, 1 : jjp1) = flic_tmp(1 , 1 : jjp1) |
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| 435 | C |
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| 436 | C passage sur la grille physique |
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| 437 | C |
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| 438 | CALL gr_dyn_fi(1, iip1, jjp1, klon, flic_tmp, |
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| 439 | $ pctsrf(1:klon, is_lic)) |
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| 440 | C adequation avec le maque terre/mer |
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[177] | 441 | c zmasq(157) = 0. |
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| 442 | WHERE (pctsrf(1 : klon, is_lic) .LT. EPSFRA ) |
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[112] | 443 | pctsrf(1 : klon, is_lic) = 0. |
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| 444 | END WHERE |
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[177] | 445 | WHERE (zmasq( 1 : klon) .LT. EPSFRA) |
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[112] | 446 | pctsrf(1 : klon, is_lic) = 0. |
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| 447 | END WHERE |
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| 448 | pctsrf(1 : klon, is_ter) = zmasq(1 : klon) |
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| 449 | DO ji = 1, klon |
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| 450 | IF (zmasq(ji) .GT. EPSFRA) THEN |
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| 451 | IF ( pctsrf(ji, is_lic) .GE. zmasq(ji)) THEN |
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| 452 | pctsrf(ji, is_lic) = zmasq(ji) |
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| 453 | pctsrf(ji, is_ter) = 0. |
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| 454 | ELSE |
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| 455 | pctsrf(ji,is_ter) = zmasq(ji) - pctsrf(ji, is_lic) |
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[177] | 456 | IF (pctsrf(ji,is_ter) .LT. EPSFRA) THEN |
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| 457 | pctsrf(ji,is_ter) = 0. |
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| 458 | pctsrf(ji, is_lic) = zmasq(ji) |
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| 459 | ENDIF |
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[112] | 460 | ENDIF |
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| 461 | ENDIF |
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| 462 | END DO |
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| 463 | C |
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| 464 | C sous surface ocean et glace de mer (pour demarrer on met glace de mer a 0) |
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| 465 | C |
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| 466 | pctsrf(1 : klon, is_oce) = (1. - zmasq(1 : klon)) |
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[174] | 467 | |
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| 468 | |
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[112] | 469 | WHERE (pctsrf(1 : klon, is_oce) .LT. EPSFRA) |
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| 470 | pctsrf(1 : klon, is_oce) = 0. |
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| 471 | END WHERE |
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[174] | 472 | |
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| 473 | if (couple) pctsrf(1 : klon, is_oce) = ocemask_fi(1 : klon) |
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| 474 | |
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| 475 | isst = 0 |
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| 476 | where (pctsrf(2:klon-1,is_oce) >0.) isst = 1 |
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| 477 | write(46,'(72i1)')isst |
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[112] | 478 | C |
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| 479 | C verif que somme des sous surface = 1 |
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| 480 | C |
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| 481 | ji=count( (abs( sum(pctsrf(1 : klon, 1 : nbsrf), dim = 2)) - 1.0 ) |
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| 482 | $ .GT. EPSFRA) |
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| 483 | IF (ji .NE. 0) THEN |
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| 484 | WRITE(*,*) 'pb repartition sous maille pour ',ji,' points' |
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| 485 | ENDIF |
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| 486 | |
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| 487 | |
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| 488 | |
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| 489 | |
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| 490 | |
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[2] | 491 | C Calcul intermediaire |
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| 492 | c |
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| 493 | CALL massdair( p3d, masse ) |
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| 494 | c |
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| 495 | |
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| 496 | print *,' ALPHAX ',alphax |
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| 497 | |
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[50] | 498 | DO l = 1, llm |
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| 499 | DO i = 1, iim |
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[2] | 500 | xppn(i) = aire( i, 1 ) * masse( i , 1 , l ) |
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| 501 | xpps(i) = aire( i,jjp1 ) * masse( i , jjp1 , l ) |
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[50] | 502 | ENDDO |
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[2] | 503 | xpn = SUM(xppn)/apoln |
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| 504 | xps = SUM(xpps)/apols |
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[50] | 505 | DO i = 1, iip1 |
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[2] | 506 | masse( i , 1 , l ) = xpn |
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| 507 | masse( i , jjp1 , l ) = xps |
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[50] | 508 | ENDDO |
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| 509 | ENDDO |
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[2] | 510 | q3d(iip1,:,:,:) = q3d(1,:,:,:) |
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| 511 | phis(iip1,:) = phis(1,:) |
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| 512 | |
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| 513 | C Ecriture |
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| 514 | |
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| 515 | |
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| 516 | CALL inidissip( lstardis, nitergdiv, nitergrot, niterh , |
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| 517 | * tetagdiv, tetagrot , tetatemp ) |
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| 518 | print*,'sortie inidissip' |
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| 519 | itau = 0 |
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| 520 | iday = dayref +itau/day_step |
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| 521 | time = FLOAT(itau-(iday-dayref)*day_step)/day_step |
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| 522 | c |
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| 523 | IF(time.GT.1) THEN |
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| 524 | time = time - 1 |
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| 525 | iday = iday + 1 |
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| 526 | ENDIF |
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| 527 | CALL geopot ( ip1jmp1, tpot , pk , pks, phis , phi ) |
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| 528 | print*,'sortie geopot' |
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| 529 | |
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| 530 | CALL caldyn0 ( itau,uvent,vvent,tpot,psol,masse,pk,phis , |
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| 531 | * phi,w, pbaru,pbarv,time+iday-dayref ) |
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| 532 | print*,'sortie caldyn0' |
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| 533 | CALL dynredem0("start.nc",dayref,anneeref,phis,nqmx) |
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| 534 | print*,'sortie dynredem0' |
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| 535 | CALL dynredem1("start.nc",0.0,vvent,uvent,tpot,q3d,nqmx,masse , |
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| 536 | . psol) |
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| 537 | print*,'sortie dynredem1' |
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| 538 | C |
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| 539 | C Ecriture etat initial physique |
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| 540 | C |
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| 541 | phystep = dtvr * FLOAT(iphysiq) |
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| 542 | radpas = NINT (86400./phystep/ FLOAT(nbapp_rad) ) |
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| 543 | co2_ppm = 330.0 |
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| 544 | solaire = 1370.0 |
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| 545 | |
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[112] | 546 | c call physdem(lonfi, latfi, phystep,radpas,co2_ppm, |
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| 547 | c . solaire,tsol, qsol, |
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| 548 | c . sn, radsol, deltat, rugmer, |
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| 549 | c . agesno, zmea, zstd, zsig, |
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| 550 | c . zgam, zthe, zpic, zval, |
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| 551 | c . rugsrel) |
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[2] | 552 | |
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[112] | 553 | c |
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| 554 | c Initialisation |
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| 555 | c tsol, qsol, sn,albe, evap,tsoil,rain_fall, snow_fall,solsw, sollw,frugs |
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| 556 | c |
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| 557 | tsolsrf(:,is_ter) = tsol |
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| 558 | tsolsrf(:,is_lic) = tsol |
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| 559 | tsolsrf(:,is_oce) = tsol |
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| 560 | tsolsrf(:,is_sic) = tsol |
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| 561 | snsrf(:,is_ter) = sn |
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| 562 | snsrf(:,is_lic) = sn |
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| 563 | snsrf(:,is_oce) = sn |
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| 564 | snsrf(:,is_sic) = sn |
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| 565 | albe(:,is_ter) = 0.08 |
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| 566 | albe(:,is_lic) = 0.6 |
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| 567 | albe(:,is_oce) = 0.5 |
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| 568 | albe(:,is_sic) = 0.6 |
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| 569 | evap(:,:) = 0. |
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[177] | 570 | qsolsrf(:,is_ter) = 150 |
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| 571 | qsolsrf(:,is_lic) = 150 |
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[112] | 572 | qsolsrf(:,is_oce) = 150. |
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| 573 | qsolsrf(:,is_sic) = 150. |
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| 574 | do i = 1, nbsrf |
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| 575 | do j = 1, nsoilmx |
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| 576 | tsoil(:,j,i) = tsol |
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| 577 | enddo |
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| 578 | enddo |
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| 579 | rain_fall = 0.; snow_fall = 0. |
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| 580 | solsw = 165. |
---|
| 581 | sollw = -53. |
---|
| 582 | t_ancien = 273.15 |
---|
| 583 | q_ancien = 0. |
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| 584 | agesno = 0. |
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| 585 | deltat = 0. |
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[227] | 586 | frugs(1:klon,is_oce) = rugmer(1:klon) |
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| 587 | frugs(1:klon,is_ter) = MAX(1.0e-05, zstd(1:klon)*zsig(1:klon)/2.0) |
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| 588 | frugs(1:klon,is_lic) = MAX(1.0e-05, zstd(1:klon)*zsig(1:klon)/2.0) |
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| 589 | frugs(1:klon,is_sic) = 0.001 |
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[112] | 590 | |
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[115] | 591 | call physdem("startphy.nc",phystep,radpas, co2_ppm, solaire, |
---|
[112] | 592 | $ latfi, lonfi, pctsrf, tsolsrf, tsoil, deltat, qsolsrf, snsrf, |
---|
| 593 | $ albe, evap, rain_fall, snow_fall, solsw, sollw, |
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| 594 | $ radsol, frugs, agesno, |
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| 595 | $ zmea, zstd, zsig, zgam, zthe, zpic, zval, rugsrel, |
---|
| 596 | $ t_ancien, q_ancien) |
---|
| 597 | |
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[2] | 598 | C Sortie Visu pour les champs dynamiques |
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| 599 | print*,'sortie visu' |
---|
| 600 | time_step = 1. |
---|
| 601 | t_ops = 2. |
---|
| 602 | t_wrt = 2. |
---|
| 603 | itau = 2. |
---|
| 604 | visu_file='Etat0_visu.nc' |
---|
| 605 | CALL initdynav(visu_file,dayref,anneeref,time_step, |
---|
| 606 | . t_ops, t_wrt, nqmx, visuid) |
---|
| 607 | CALL writedynav(visuid, nqmx, itau,vvent , |
---|
| 608 | . uvent,tpot,pk,phi,q3d,masse,psol,phis) |
---|
| 609 | print*,'entree histclo' |
---|
| 610 | CALL histclo |
---|
| 611 | RETURN |
---|
| 612 | ! |
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| 613 | END SUBROUTINE etat0_netcdf |
---|