1 | ! |
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2 | ! $Id$ |
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3 | ! |
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4 | MODULE etat0phys |
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5 | ! |
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6 | !******************************************************************************* |
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7 | ! Purpose: Create physical initial state using atmospheric fields from a |
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8 | ! database of atmospheric to initialize the model. |
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9 | !------------------------------------------------------------------------------- |
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10 | ! Comments: |
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11 | ! |
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12 | ! * This module is designed to work for Earth (and with ioipsl) |
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13 | ! |
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14 | ! * etat0phys_netcdf routine can access to NetCDF data through subroutines: |
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15 | ! "start_init_phys" for variables contained in file "ECPHY.nc": |
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16 | ! 'ST' : Surface temperature |
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17 | ! 'CDSW' : Soil moisture |
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18 | ! "start_init_orog" for variables contained in file "Relief.nc": |
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19 | ! 'RELIEF' : High resolution orography |
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20 | ! |
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21 | ! * The land mask and corresponding weights can be: |
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22 | ! 1) computed using the ocean mask from the ocean model (to ensure ocean |
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23 | ! fractions are the same for atmosphere and ocean) for coupled runs. |
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24 | ! File name: "o2a.nc" ; variable name: "OceMask" |
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25 | ! 2) computed from topography file "Relief.nc" for forced runs. |
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26 | ! |
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27 | ! * Allowed values for read_climoz flag are 0, 1 and 2: |
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28 | ! 0: do not read an ozone climatology |
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29 | ! 1: read a single ozone climatology that will be used day and night |
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30 | ! 2: read two ozone climatologies, the average day and night climatology |
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31 | ! and the daylight climatology |
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32 | !------------------------------------------------------------------------------- |
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33 | ! * There is a big mess with the longitude size. Should it be iml or iml+1 ? |
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34 | ! I have chosen to use the iml+1 as an argument to this routine and we declare |
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35 | ! internaly smaller fields when needed. This needs to be cleared once and for |
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36 | ! all in LMDZ. A convention is required. |
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37 | !------------------------------------------------------------------------------- |
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38 | |
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39 | USE ioipsl, ONLY: flininfo, flinopen, flinget, flinclo |
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40 | USE assert_eq_m, ONLY: assert_eq |
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41 | USE dimphy, ONLY: klon |
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42 | USE conf_dat_m, ONLY: conf_dat2d |
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43 | USE phys_state_var_mod, ONLY: zmea, zstd, zsig, zgam, zthe, zpic, zval, z0m, & |
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44 | solsw, radsol, t_ancien, wake_deltat, wake_s, rain_fall, qsol, z0h, & |
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45 | sollw,sollwdown, rugoro, q_ancien, wake_deltaq, wake_pe, snow_fall, ratqs,w01, & |
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46 | sig1, ftsol, clwcon, fm_therm, wake_Cstar, pctsrf, entr_therm,radpas, f0,& |
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47 | zmax0,fevap, rnebcon,falb_dir, falb_dif, wake_fip, agesno, detr_therm, pbl_tke, & |
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48 | phys_state_var_init, ql_ancien, qs_ancien, prlw_ancien, prsw_ancien, & |
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49 | prw_ancien, u10m,v10m, treedrg, u_ancien, v_ancien, wake_delta_pbl_TKE, wake_dens, & |
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50 | ale_bl, ale_bl_trig, alp_bl |
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51 | USE comconst_mod, ONLY: pi, dtvr |
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52 | |
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53 | PRIVATE |
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54 | PUBLIC :: etat0phys_netcdf |
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55 | |
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56 | include "iniprint.h" |
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57 | include "dimensions.h" |
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58 | include "paramet.h" |
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59 | include "comgeom2.h" |
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60 | include "dimsoil.h" |
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61 | include "clesphys.h" |
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62 | REAL, SAVE :: deg2rad |
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63 | REAL, SAVE, ALLOCATABLE :: tsol(:) |
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64 | INTEGER, SAVE :: iml_phys, jml_phys, llm_phys, ttm_phys, fid_phys |
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65 | REAL, ALLOCATABLE, SAVE :: lon_phys(:,:), lat_phys(:,:), levphys_ini(:) |
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66 | CHARACTER(LEN=256), PARAMETER :: oroparam="oro_params.nc" |
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67 | CHARACTER(LEN=256), PARAMETER :: orofname="Relief.nc", orogvar="RELIEF" |
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68 | CHARACTER(LEN=256), PARAMETER :: phyfname="ECPHY.nc", psrfvar="SP" |
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69 | CHARACTER(LEN=256), PARAMETER :: qsolvar="CDSW", tsrfvar="ST" |
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70 | |
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71 | |
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72 | CONTAINS |
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73 | |
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74 | |
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75 | !------------------------------------------------------------------------------- |
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76 | ! |
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77 | SUBROUTINE etat0phys_netcdf(masque, phis) |
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78 | ! |
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79 | !------------------------------------------------------------------------------- |
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80 | ! Purpose: Creates initial states |
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81 | !------------------------------------------------------------------------------- |
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82 | ! Notes: 1) This routine is designed to work for Earth |
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83 | ! 2) If masque(:,:)/=-99999., masque and phis are already known. |
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84 | ! Otherwise: compute it. |
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85 | !------------------------------------------------------------------------------- |
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86 | USE control_mod |
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87 | USE fonte_neige_mod |
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88 | USE pbl_surface_mod |
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89 | USE regr_horiz_time_climoz_m, ONLY: regr_horiz_time_climoz |
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90 | USE indice_sol_mod |
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91 | USE conf_phys_m, ONLY: conf_phys |
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92 | USE init_ssrf_m, ONLY: start_init_subsurf |
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93 | !use ioipsl_getincom |
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94 | IMPLICIT NONE |
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95 | !------------------------------------------------------------------------------- |
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96 | ! Arguments: |
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97 | REAL, INTENT(INOUT) :: masque(:,:) !--- Land mask dim(iip1,jjp1) |
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98 | REAL, INTENT(INOUT) :: phis (:,:) !--- Ground geopotential dim(iip1,jjp1) |
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99 | !------------------------------------------------------------------------------- |
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100 | ! Local variables: |
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101 | CHARACTER(LEN=256) :: modname="etat0phys_netcdf", fmt |
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102 | INTEGER :: i, j, l, ji, iml, jml |
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103 | LOGICAL :: read_mask |
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104 | REAL :: phystep, dummy |
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105 | REAL, DIMENSION(SIZE(masque,1),SIZE(masque,2)) :: masque_tmp,phiso |
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106 | REAL, DIMENSION(klon) :: sn, rugmer, run_off_lic_0, fder |
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107 | REAL, DIMENSION(klon,nbsrf) :: qsolsrf, snsrf |
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108 | REAL, DIMENSION(klon,nsoilmx,nbsrf) :: tsoil |
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109 | |
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110 | !--- Arguments for conf_phys |
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111 | LOGICAL :: ok_journe, ok_mensuel, ok_instan, ok_hf, ok_LES, callstats |
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112 | REAL :: solarlong0, seuil_inversion, fact_cldcon, facttemps |
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113 | LOGICAL :: ok_newmicro |
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114 | INTEGER :: iflag_radia, iflag_cldcon, iflag_ratqs |
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115 | REAL :: ratqsbas, ratqshaut, tau_ratqs |
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116 | LOGICAL :: ok_ade, ok_aie, ok_volcan, ok_alw, ok_cdnc, aerosol_couple, chemistry_couple |
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117 | INTEGER :: flag_aerosol |
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118 | INTEGER :: flag_aerosol_strat |
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119 | LOGICAL :: flag_aer_feedback |
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120 | LOGICAL :: flag_bc_internal_mixture |
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121 | LOGICAL :: new_aod |
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122 | REAL :: bl95_b0, bl95_b1 |
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123 | INTEGER :: read_climoz !--- Read ozone climatology |
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124 | REAL :: alp_offset |
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125 | LOGICAL :: filtre_oro=.false. |
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126 | |
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127 | deg2rad= pi/180.0 |
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128 | iml=assert_eq(SIZE(masque,1),SIZE(phis,1),TRIM(modname)//" iml") |
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129 | jml=assert_eq(SIZE(masque,2),SIZE(phis,2),TRIM(modname)//" jml") |
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130 | |
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131 | ! Physics configuration |
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132 | !******************************************************************************* |
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133 | CALL conf_phys( ok_journe, ok_mensuel, ok_instan, ok_hf, ok_LES, & |
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134 | callstats, & |
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135 | solarlong0,seuil_inversion, & |
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136 | fact_cldcon, facttemps,ok_newmicro,iflag_radia, & |
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137 | iflag_cldcon, & |
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138 | iflag_ratqs,ratqsbas,ratqshaut,tau_ratqs, & |
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139 | ok_ade, ok_aie, ok_alw, ok_cdnc, ok_volcan, & |
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140 | aerosol_couple, & |
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141 | chemistry_couple, flag_aerosol, flag_aerosol_strat, & |
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142 | flag_aer_feedback, & |
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143 | new_aod, flag_bc_internal_mixture, bl95_b0, bl95_b1, & |
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144 | read_climoz, alp_offset) |
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145 | CALL phys_state_var_init(read_climoz) |
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146 | |
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147 | !--- Initial atmospheric CO2 conc. from .def file |
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148 | co2_ppm0 = co2_ppm |
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149 | |
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150 | ! Compute ground geopotential, sub-cells quantities and possibly the mask. |
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151 | !******************************************************************************* |
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152 | read_mask=ANY(masque/=-99999.); masque_tmp=masque |
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153 | CALL start_init_orog(rlonv, rlatu, phis, masque_tmp) |
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154 | |
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155 | CALL getin('filtre_oro',filtre_oro) |
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156 | IF (filtre_oro) CALL filtreoro(size(phis,1),size(phis,2),phis,masque_tmp,rlatu) |
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157 | |
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158 | WRITE(fmt,"(i4,'i1)')")iml ; fmt='('//ADJUSTL(fmt) |
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159 | IF(.NOT.read_mask) THEN !--- Keep mask form orography |
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160 | masque=masque_tmp |
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161 | IF(prt_level>=1) THEN |
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162 | WRITE(lunout,*)'BUILT MASK :' |
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163 | WRITE(lunout,fmt) NINT(masque) |
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164 | END IF |
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165 | WHERE( masque(:,:)<EPSFRA) masque(:,:)=0. |
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166 | WHERE(1.-masque(:,:)<EPSFRA) masque(:,:)=1. |
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167 | END IF |
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168 | CALL gr_dyn_fi(1,iml,jml,klon,masque,zmasq) !--- Land mask to physical grid |
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169 | |
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170 | ! Compute tsol and qsol on physical grid, knowing phis on 2D grid. |
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171 | !******************************************************************************* |
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172 | CALL start_init_phys(rlonu, rlatv, phis) |
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173 | |
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174 | ! Some initializations. |
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175 | !******************************************************************************* |
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176 | sn (:) = 0.0 !--- Snow |
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177 | radsol(:) = 0.0 !--- Net radiation at ground |
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178 | rugmer(:) = 0.001 !--- Ocean rugosity |
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179 | !--- Ozone (zonal or 3D) interpolation in space and time (if 2nd arg is TRUE) |
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180 | IF(read_climoz>=1) CALL regr_horiz_time_climoz(read_climoz,ok_daily_climoz) |
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181 | |
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182 | ! Sub-surfaces initialization. |
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183 | !******************************************************************************* |
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184 | CALL start_init_subsurf(read_mask) |
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185 | |
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186 | ! Write physical initial state |
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187 | !******************************************************************************* |
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188 | WRITE(lunout,*)'phystep ',dtvr,iphysiq,nbapp_rad |
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189 | phystep = dtvr * FLOAT(iphysiq) |
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190 | radpas = NINT (86400./phystep/ FLOAT(nbapp_rad) ) |
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191 | WRITE(lunout,*)'phystep =', phystep, radpas |
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192 | |
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193 | ! Init: ftsol, snsrf, qsolsrf, tsoil, rain_fall, snow_fall, solsw, sollw, z0 |
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194 | !******************************************************************************* |
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195 | DO i=1,nbsrf; ftsol(:,i) = tsol; END DO |
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196 | DO i=1,nbsrf; snsrf(:,i) = sn; END DO |
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197 | falb_dir(:, :, is_ter) = 0.08 |
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198 | falb_dir(:, :, is_lic) = 0.6 |
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199 | falb_dir(:, :, is_oce) = 0.5 |
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200 | falb_dir(:, :, is_sic) = 0.6 |
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201 | |
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202 | !ym warning missing init for falb_dif => set to 0 |
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203 | falb_dif(:,:,:)=0 |
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204 | |
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205 | u10m(:,:)=0 |
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206 | v10m(:,:)=0 |
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207 | treedrg(:,:,:)=0 |
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208 | |
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209 | fevap(:,:) = 0. |
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210 | DO i=1,nbsrf; qsolsrf(:,i)=150.; END DO |
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211 | DO i=1,nbsrf; DO j=1,nsoilmx; tsoil(:,j,i) = tsol; END DO; END DO |
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212 | rain_fall = 0. |
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213 | snow_fall = 0. |
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214 | solsw = 165. |
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215 | sollw = -53. |
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216 | !ym warning missing init for sollwdown => set to 0 |
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217 | sollwdown = 0. |
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218 | t_ancien = 273.15 |
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219 | q_ancien = 0. |
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220 | ql_ancien = 0. |
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221 | qs_ancien = 0. |
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222 | prlw_ancien = 0. |
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223 | prsw_ancien = 0. |
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224 | prw_ancien = 0. |
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225 | agesno = 0. |
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226 | |
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227 | u_ancien = 0. |
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228 | v_ancien = 0. |
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229 | wake_delta_pbl_TKE(:,:,:)=0 |
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230 | wake_dens(:)=0 |
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231 | ale_bl = 0. |
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232 | ale_bl_trig =0. |
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233 | alp_bl=0. |
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234 | |
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235 | z0m(:,:)=0 ! ym missing 5th subsurface initialization |
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236 | |
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237 | z0m(:,is_oce) = rugmer(:) |
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238 | z0m(:,is_ter) = MAX(1.0e-05,zstd(:)*zsig(:)/2.0) |
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239 | z0m(:,is_lic) = MAX(1.0e-05,zstd(:)*zsig(:)/2.0) |
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240 | z0m(:,is_sic) = 0.001 |
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241 | z0h(:,:)=z0m(:,:) |
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242 | |
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243 | fder = 0.0 |
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244 | clwcon = 0.0 |
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245 | rnebcon = 0.0 |
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246 | ratqs = 0.0 |
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247 | run_off_lic_0 = 0.0 |
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248 | rugoro = 0.0 |
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249 | |
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250 | ! Before phyredem calling, surface modules and values to be saved in startphy.nc |
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251 | ! are initialized |
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252 | !******************************************************************************* |
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253 | dummy = 1.0 |
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254 | pbl_tke(:,:,:) = 1.e-8 |
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255 | zmax0(:) = 40. |
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256 | f0(:) = 1.e-5 |
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257 | sig1(:,:) = 0. |
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258 | w01(:,:) = 0. |
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259 | wake_deltat(:,:) = 0. |
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260 | wake_deltaq(:,:) = 0. |
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261 | wake_s(:) = 0. |
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262 | wake_cstar(:) = 0. |
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263 | wake_fip(:) = 0. |
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264 | wake_pe = 0. |
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265 | fm_therm = 0. |
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266 | entr_therm = 0. |
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267 | detr_therm = 0. |
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268 | |
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269 | CALL fonte_neige_init(run_off_lic_0) |
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270 | CALL pbl_surface_init( fder, snsrf, qsolsrf, tsoil ) |
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271 | CALL phyredem( "startphy.nc" ) |
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272 | |
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273 | ! WRITE(lunout,*)'CCCCCCCCCCCCCCCCCC REACTIVER SORTIE VISU DANS ETAT0' |
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274 | ! WRITE(lunout,*)'entree histclo' |
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275 | CALL histclo() |
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276 | |
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277 | END SUBROUTINE etat0phys_netcdf |
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278 | ! |
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279 | !------------------------------------------------------------------------------- |
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280 | |
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281 | |
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282 | !------------------------------------------------------------------------------- |
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283 | ! |
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284 | SUBROUTINE start_init_orog(lon_in,lat_in,phis,masque) |
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285 | ! |
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286 | !=============================================================================== |
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287 | ! Comment: |
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288 | ! This routine launch grid_noro, which computes parameters for SSO scheme as |
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289 | ! described in LOTT & MILLER (1997) and LOTT(1999). |
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290 | ! In case the file oroparam is present and the key read_orop is activated, |
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291 | ! grid_noro is bypassed and sub-cell parameters are read from the file. |
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292 | !=============================================================================== |
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293 | USE grid_noro_m, ONLY: grid_noro, read_noro |
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294 | USE logic_mod, ONLY: read_orop |
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295 | IMPLICIT NONE |
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296 | !------------------------------------------------------------------------------- |
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297 | ! Arguments: |
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298 | REAL, INTENT(IN) :: lon_in(:), lat_in(:) ! dim (iml) (jml) |
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299 | REAL, INTENT(INOUT) :: phis(:,:), masque(:,:) ! dim (iml,jml) |
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300 | !------------------------------------------------------------------------------- |
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301 | ! Local variables: |
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302 | CHARACTER(LEN=256) :: modname |
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303 | INTEGER :: fid, llm_tmp,ttm_tmp, iml,jml, iml_rel,jml_rel, itau(1) |
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304 | INTEGER :: ierr |
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305 | REAL :: lev(1), date, dt |
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306 | REAL, ALLOCATABLE :: lon_rad(:), lon_ini(:), lon_rel(:,:), relief_hi(:,:) |
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307 | REAL, ALLOCATABLE :: lat_rad(:), lat_ini(:), lat_rel(:,:), tmp_var (:,:) |
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308 | REAL, ALLOCATABLE :: zmea0(:,:), zstd0(:,:), zsig0(:,:) |
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309 | REAL, ALLOCATABLE :: zgam0(:,:), zthe0(:,:), zpic0(:,:), zval0(:,:) |
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310 | !------------------------------------------------------------------------------- |
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311 | modname="start_init_orog" |
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312 | iml=assert_eq(SIZE(lon_in),SIZE(phis,1),SIZE(masque,1),TRIM(modname)//" iml") |
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313 | jml=assert_eq(SIZE(lat_in),SIZE(phis,2),SIZE(masque,2),TRIM(modname)//" jml") |
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314 | |
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315 | !--- HIGH RESOLUTION OROGRAPHY |
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316 | CALL flininfo(orofname, iml_rel, jml_rel, llm_tmp, ttm_tmp, fid) |
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317 | |
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318 | ALLOCATE(lat_rel(iml_rel,jml_rel),lon_rel(iml_rel,jml_rel)) |
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319 | CALL flinopen(orofname, .FALSE., iml_rel, jml_rel, llm_tmp, lon_rel, lat_rel,& |
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320 | lev, ttm_tmp, itau, date, dt, fid) |
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321 | ALLOCATE(relief_hi(iml_rel,jml_rel)) |
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322 | CALL flinget(fid, orogvar, iml_rel, jml_rel, llm_tmp, ttm_tmp, 1,1, relief_hi) |
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323 | CALL flinclo(fid) |
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324 | |
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325 | !--- IF ANGLES ARE IN DEGREES, THEY ARE CONVERTED INTO RADIANS |
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326 | ALLOCATE(lon_ini(iml_rel),lat_ini(jml_rel)) |
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327 | lon_ini(:)=lon_rel(:,1); IF(MAXVAL(lon_rel)>pi) lon_ini=lon_ini*deg2rad |
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328 | lat_ini(:)=lat_rel(1,:); IF(MAXVAL(lat_rel)>pi) lat_ini=lat_ini*deg2rad |
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329 | |
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330 | !--- FIELDS ARE PROCESSED TO BE ON STANDARD ANGULAR DOMAINS |
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331 | ALLOCATE(lon_rad(iml_rel),lat_rad(jml_rel)) |
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332 | CALL conf_dat2d(orogvar, lon_ini, lat_ini, lon_rad, lat_rad, relief_hi,.FALSE.) |
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333 | DEALLOCATE(lon_ini,lat_ini) |
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334 | |
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335 | !--- COMPUTING THE REQUIRED FIELDS USING ROUTINE grid_noro |
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336 | WRITE(lunout,*) |
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337 | WRITE(lunout,*)'*** Compute parameters needed for gravity wave drag code ***' |
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338 | |
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339 | !--- ALLOCATIONS OF SUB-CELL SCALES QUANTITIES |
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340 | ALLOCATE(zmea0(iml,jml),zstd0(iml,jml)) !--- Mean orography and std deviation |
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341 | ALLOCATE(zsig0(iml,jml),zgam0(iml,jml)) !--- Slope and nisotropy |
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342 | zsig0(:,:)=0 !ym uninitialized variable |
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343 | zgam0(:,:)=0 !ym uninitialized variable |
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344 | ALLOCATE(zthe0(iml,jml)) !--- Highest slope orientation |
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345 | zthe0(:,:)=0 !ym uninitialized variable |
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346 | ALLOCATE(zpic0(iml,jml),zval0(iml,jml)) !--- Peaks and valley heights |
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347 | |
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348 | !--- READ SUB-CELL SCALES PARAMETERS FROM A FILE (AT RIGHT RESOLUTION) |
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349 | OPEN(UNIT=66,FILE=oroparam,STATUS='OLD',IOSTAT=ierr) |
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350 | IF(ierr==0.AND.read_orop) THEN |
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351 | CLOSE(UNIT=66) |
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352 | CALL read_noro(lon_in,lat_in,oroparam, & |
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353 | phis,zmea0,zstd0,zsig0,zgam0,zthe0,zpic0,zval0,masque) |
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354 | ELSE |
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355 | !--- CALL OROGRAPHY MODULE TO COMPUTE FIELDS |
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356 | CALL grid_noro(lon_rad,lat_rad,relief_hi,lon_in,lat_in, & |
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357 | phis,zmea0,zstd0,zsig0,zgam0,zthe0,zpic0,zval0,masque) |
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358 | END IF |
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359 | phis = phis * 9.81 |
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360 | phis(iml,:) = phis(1,:) |
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361 | DEALLOCATE(relief_hi,lon_rad,lat_rad) |
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362 | |
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363 | !--- PUT QUANTITIES TO PHYSICAL GRID |
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364 | CALL gr_dyn_fi(1,iml,jml,klon,zmea0,zmea); DEALLOCATE(zmea0) |
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365 | CALL gr_dyn_fi(1,iml,jml,klon,zstd0,zstd); DEALLOCATE(zstd0) |
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366 | CALL gr_dyn_fi(1,iml,jml,klon,zsig0,zsig); DEALLOCATE(zsig0) |
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367 | CALL gr_dyn_fi(1,iml,jml,klon,zgam0,zgam); DEALLOCATE(zgam0) |
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368 | CALL gr_dyn_fi(1,iml,jml,klon,zthe0,zthe); DEALLOCATE(zthe0) |
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369 | CALL gr_dyn_fi(1,iml,jml,klon,zpic0,zpic); DEALLOCATE(zpic0) |
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370 | CALL gr_dyn_fi(1,iml,jml,klon,zval0,zval); DEALLOCATE(zval0) |
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371 | |
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372 | |
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373 | END SUBROUTINE start_init_orog |
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374 | ! |
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375 | !------------------------------------------------------------------------------- |
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376 | |
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377 | |
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378 | !------------------------------------------------------------------------------- |
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379 | ! |
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380 | SUBROUTINE start_init_phys(lon_in,lat_in,phis) |
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381 | ! |
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382 | !=============================================================================== |
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383 | ! Purpose: Compute tsol and qsol, knowing phis. |
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384 | !=============================================================================== |
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385 | IMPLICIT NONE |
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386 | !------------------------------------------------------------------------------- |
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387 | ! Arguments: |
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388 | REAL, INTENT(IN) :: lon_in(:), lat_in(:) ! dim (iml) (jml2) |
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389 | REAL, INTENT(IN) :: phis(:,:) ! dim (iml,jml) |
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390 | !------------------------------------------------------------------------------- |
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391 | ! Local variables: |
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392 | CHARACTER(LEN=256) :: modname |
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393 | REAL :: date, dt |
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394 | INTEGER :: iml, jml, jml2, itau(1) |
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395 | REAL, ALLOCATABLE :: lon_rad(:), lon_ini(:), var_ana(:,:) |
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396 | REAL, ALLOCATABLE :: lat_rad(:), lat_ini(:) |
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397 | REAL, ALLOCATABLE :: ts(:,:), qs(:,:) |
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398 | !------------------------------------------------------------------------------- |
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399 | modname="start_init_phys" |
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400 | iml=assert_eq(SIZE(lon_in),SIZE(phis,1),TRIM(modname)//" iml") |
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401 | jml=SIZE(phis,2); jml2=SIZE(lat_in) |
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402 | |
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403 | WRITE(lunout,*)'Opening the surface analysis' |
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404 | CALL flininfo(phyfname, iml_phys, jml_phys, llm_phys, ttm_phys, fid_phys) |
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405 | WRITE(lunout,*) 'Values read: ', iml_phys, jml_phys, llm_phys, ttm_phys |
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406 | |
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407 | ALLOCATE(lat_phys(iml_phys,jml_phys),lon_phys(iml_phys,jml_phys)) |
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408 | ALLOCATE(levphys_ini(llm_phys)) |
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409 | CALL flinopen(phyfname, .FALSE., iml_phys, jml_phys, llm_phys, & |
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410 | lon_phys,lat_phys,levphys_ini,ttm_phys,itau,date,dt,fid_phys) |
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411 | |
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412 | !--- IF ANGLES ARE IN DEGREES, THEY ARE CONVERTED INTO RADIANS |
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413 | ALLOCATE(lon_ini(iml_phys),lat_ini(jml_phys)) |
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414 | lon_ini(:)=lon_phys(:,1); IF(MAXVAL(lon_phys)>pi) lon_ini=lon_ini*deg2rad |
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415 | lat_ini(:)=lat_phys(1,:); IF(MAXVAL(lat_phys)>pi) lat_ini=lat_ini*deg2rad |
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416 | |
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417 | ALLOCATE(var_ana(iml_phys,jml_phys),lon_rad(iml_phys),lat_rad(jml_phys)) |
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418 | CALL get_var_phys(tsrfvar,ts) !--- SURFACE TEMPERATURE |
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419 | CALL get_var_phys(qsolvar,qs) !--- SOIL MOISTURE |
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420 | CALL flinclo(fid_phys) |
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421 | DEALLOCATE(var_ana,lon_rad,lat_rad,lon_ini,lat_ini) |
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422 | |
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423 | !--- TSOL AND QSOL ON PHYSICAL GRID |
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424 | ALLOCATE(tsol(klon)) |
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425 | CALL gr_dyn_fi(1,iml,jml,klon,ts,tsol) |
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426 | CALL gr_dyn_fi(1,iml,jml,klon,qs,qsol) |
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427 | DEALLOCATE(ts,qs) |
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428 | |
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429 | CONTAINS |
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430 | |
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431 | !------------------------------------------------------------------------------- |
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432 | ! |
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433 | SUBROUTINE get_var_phys(title,field) |
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434 | ! |
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435 | !------------------------------------------------------------------------------- |
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436 | IMPLICIT NONE |
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437 | !------------------------------------------------------------------------------- |
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438 | ! Arguments: |
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439 | CHARACTER(LEN=*), INTENT(IN) :: title |
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440 | REAL, ALLOCATABLE, INTENT(INOUT) :: field(:,:) |
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441 | !------------------------------------------------------------------------------- |
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442 | ! Local variables: |
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443 | INTEGER :: tllm |
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444 | !------------------------------------------------------------------------------- |
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445 | SELECT CASE(title) |
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446 | CASE(psrfvar); tllm=0 |
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447 | CASE(tsrfvar,qsolvar); tllm=llm_phys |
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448 | END SELECT |
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449 | IF(ALLOCATED(field)) RETURN |
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450 | ALLOCATE(field(iml,jml)); field(:,:)=0. |
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451 | CALL flinget(fid_phys,title,iml_phys,jml_phys,tllm,ttm_phys,1,1,var_ana) |
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452 | CALL conf_dat2d(title, lon_ini, lat_ini, lon_rad, lat_rad, var_ana, .TRUE.) |
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453 | CALL interp_startvar(title, .TRUE., lon_rad, lat_rad, var_ana, & |
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454 | lon_in, lat_in, field) |
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455 | |
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456 | END SUBROUTINE get_var_phys |
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457 | ! |
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458 | !------------------------------------------------------------------------------- |
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459 | ! |
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460 | END SUBROUTINE start_init_phys |
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461 | ! |
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462 | !------------------------------------------------------------------------------- |
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463 | |
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464 | |
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465 | !------------------------------------------------------------------------------- |
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466 | ! |
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467 | SUBROUTINE interp_startvar(nam,ibeg,lon,lat,vari,lon2,lat2,varo) |
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468 | ! |
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469 | !------------------------------------------------------------------------------- |
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470 | USE inter_barxy_m, ONLY: inter_barxy |
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471 | IMPLICIT NONE |
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472 | !------------------------------------------------------------------------------- |
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473 | ! Arguments: |
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474 | CHARACTER(LEN=*), INTENT(IN) :: nam |
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475 | LOGICAL, INTENT(IN) :: ibeg |
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476 | REAL, INTENT(IN) :: lon(:), lat(:) ! dim (ii) (jj) |
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477 | REAL, INTENT(IN) :: vari(:,:) ! dim (ii,jj) |
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478 | REAL, INTENT(IN) :: lon2(:), lat2(:) ! dim (i1) (j2) |
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479 | REAL, INTENT(OUT) :: varo(:,:) ! dim (i1) (j1) |
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480 | !------------------------------------------------------------------------------- |
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481 | ! Local variables: |
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482 | CHARACTER(LEN=256) :: modname |
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483 | INTEGER :: ii, jj, i1, j1, j2 |
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484 | REAL, ALLOCATABLE :: vtmp(:,:) |
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485 | !------------------------------------------------------------------------------- |
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486 | modname="interp_startvar" |
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487 | ii=assert_eq(SIZE(lon), SIZE(vari,1),TRIM(modname)//" ii") |
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488 | jj=assert_eq(SIZE(lat), SIZE(vari,2),TRIM(modname)//" jj") |
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489 | i1=assert_eq(SIZE(lon2),SIZE(varo,1),TRIM(modname)//" i1") |
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490 | j1=SIZE(varo,2); j2=SIZE(lat2) |
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491 | ALLOCATE(vtmp(i1-1,j1)) |
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492 | IF(ibeg.AND.prt_level>1) THEN |
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493 | WRITE(lunout,*)"--------------------------------------------------------" |
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494 | WRITE(lunout,*)"$$$ Interpolation barycentrique pour "//TRIM(nam)//" $$$" |
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495 | WRITE(lunout,*)"--------------------------------------------------------" |
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496 | END IF |
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497 | CALL inter_barxy(lon, lat(:jj-1), vari, lon2(:i1-1), lat2, vtmp) |
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498 | CALL gr_int_dyn(vtmp, varo, i1-1, j1) |
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499 | |
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500 | END SUBROUTINE interp_startvar |
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501 | ! |
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502 | !------------------------------------------------------------------------------- |
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503 | ! |
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504 | !******************************************************************************* |
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505 | |
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506 | SUBROUTINE filtreoro(imp1,jmp1,phis,masque,rlatu) |
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507 | |
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508 | IMPLICIT NONE |
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509 | |
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510 | INTEGER imp1,jmp1 |
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511 | REAL, DIMENSION(imp1,jmp1) :: phis,masque |
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512 | REAL, DIMENSION(jmp1) :: rlatu |
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513 | REAL, DIMENSION(imp1) :: wwf |
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514 | REAL, DIMENSION(imp1,jmp1) :: phiso |
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515 | INTEGER :: ifiltre,ifi,ii,i,j |
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516 | REAL :: coslat0,ssz |
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517 | |
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518 | coslat0=0.5 |
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519 | phiso=phis |
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520 | do j=2,jmp1-1 |
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521 | print*,'avant if ',cos(rlatu(j)),coslat0 |
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522 | if (cos(rlatu(j))<coslat0) then |
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523 | ! nb de pts affectes par le filtrage de part et d'autre du pt |
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524 | ifiltre=(coslat0/cos(rlatu(j))-1.)/2. |
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525 | wwf=0. |
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526 | do i=1,ifiltre |
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527 | wwf(i)=1. |
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528 | enddo |
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529 | wwf(ifiltre+1)=(coslat0/cos(rlatu(j))-1.)/2.-ifiltre |
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530 | do i=1,imp1-1 |
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531 | if (masque(i,j)>0.9) then |
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532 | ssz=phis(i,j) |
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533 | do ifi=1,ifiltre+1 |
---|
534 | ii=i+ifi |
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535 | if (ii>imp1-1) ii=ii-imp1+1 |
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536 | ssz=ssz+wwf(ifi)*phis(ii,j) |
---|
537 | ii=i-ifi |
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538 | if (ii<1) ii=ii+imp1-1 |
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539 | ssz=ssz+wwf(ifi)*phis(ii,j) |
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540 | enddo |
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541 | phis(i,j)=ssz*cos(rlatu(j))/coslat0 |
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542 | endif |
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543 | enddo |
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544 | print*,'j=',j,coslat0/cos(rlatu(j)), (1.+2.*sum(wwf))*cos(rlatu(j))/coslat0 |
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545 | endif |
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546 | enddo |
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547 | call dump2d(imp1,jmp1,phis,'phis ') |
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548 | call dump2d(imp1,jmp1,masque,'masque ') |
---|
549 | call dump2d(imp1,jmp1,phis-phiso,'dphis ') |
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550 | |
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551 | END SUBROUTINE filtreoro |
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552 | |
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553 | |
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554 | END MODULE etat0phys |
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