1 | !---------------------------------------------------------------------- |
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2 | ! NEMO system team, System and Interface for oceanic RElocable Nesting |
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3 | !---------------------------------------------------------------------- |
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4 | ! |
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5 | ! PROGRAM: create_meshmask |
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6 | ! |
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7 | ! DESCRIPTION: |
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8 | !> @file |
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9 | !> @brief |
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10 | !> This program creates the NetCDF file(s) which contain(s) all the |
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11 | !> ocean domain informations. |
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12 | !> It allows to create the domain_cfg.nc file needed to run NEMO, or |
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13 | !> the mesh_mask file(s). |
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14 | !> |
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15 | !> @details |
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16 | !> @section sec1 method |
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17 | !> Bathymetry (and optionally ice shelf draft) is read on input file.<br/> |
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18 | !> Horizontal grid-point position and scale factors, and the coriolis factor |
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19 | !> are read in coordinates file or computed.<br/> |
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20 | !> Vertical coordinate is defined, and the bathymetry recomputed to fit the |
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21 | !> vertical grid.<br/> |
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22 | !> Finally the masks from the bathymetry are computed. |
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23 | !> |
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24 | !> All the arrays generated, are writen in one to three file(s) depending on |
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25 | !> output option. |
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26 | !> @note the file contain depends on |
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27 | !> the vertical coordinate used (z-coord, partial steps, s-coord) |
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28 | !> |
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29 | !> @section sec2 how to |
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30 | !> to create domain_cfg or meshmask file:<br/> |
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31 | !> @code{.sh} |
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32 | !> ./SIREN/bin/create_meshmask create_meshmask.nam |
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33 | !> @endcode |
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34 | !> |
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35 | !> @note |
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36 | !> you could find a template of the namelist in templates directory. |
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37 | !> |
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38 | !> create_meshmask.nam contains 13 namelists:<br/> |
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39 | !> - logger namelist (namlog) |
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40 | !> - config namelist (namcfg) |
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41 | !> - input files namelist (namin) |
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42 | !> - horizontal grid namelist (namhgr) |
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43 | !> - vertical grid namelist (namzgr) |
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44 | !> - minimum depth namelist (namdmin) |
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45 | !> - vertical coordinate namelist (namzco) |
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46 | !> - partial step namelist (namzps) |
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47 | !> - sigma or hybrid namelist (namsco) |
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48 | !> - lateral boundary condition namelist (namlbc) |
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49 | !> - wetting and dryong namelist (namwd) |
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50 | !> - grid namelist (namgrd) |
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51 | !> - output namelist (namout) |
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52 | !> |
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53 | !> * _logger namelist (namlog)_:<br/> |
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54 | !> - cn_logfile : log filename |
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55 | !> - cn_verbosity : verbosity ('trace','debug','info', |
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56 | !> 'warning','error','fatal','none') |
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57 | !> - in_maxerror : maximum number of error allowed |
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58 | !> |
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59 | !> * _config namelist (namcfg)_:<br/> |
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60 | !> - cn_varcfg : variable configuration file |
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61 | !> (see ./SIREN/cfg/variable.cfg). |
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62 | !> - cn_dimcfg : dimension configuration file. define dimensions allowed |
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63 | !> (see ./SIREN/cfg/dimension.cfg). |
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64 | !> - cn_dumcfg : useless (dummy) configuration file, for useless |
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65 | !> dimension or variable (see ./SIREN/cfg/dummy.cfg). |
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66 | !> |
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67 | !> * _input files namelist (namin)_:<br/> |
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68 | !> - cn_bathy : Bathymetry file |
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69 | !> - cn_varbathy : Bathymetry variable name |
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70 | !> - cn_coord : coordinate file (in_mshhgr=0) |
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71 | !> - cn_isfdep : Iceshelf draft (ln_isfcav=true) |
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72 | !> - cn_varisfdep : Iceshelf draft variable name (ln_isfcav=true) |
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73 | !> - in_perio : NEMO periodicity |
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74 | !> - ln_closea : |
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75 | !> |
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76 | !> * _horizontal grid namelist (namhgr)_:<br/> |
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77 | !> - in_mshhgr : type of horizontal mesh |
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78 | !> - 0: curvilinear coordinate on the sphere read in coordinate.nc |
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79 | !> - 1: geographical mesh on the sphere with regular grid-spacing |
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80 | !> - 2: f-plane with regular grid-spacing |
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81 | !> - 3: beta-plane with regular grid-spacing |
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82 | !> - 4: Mercator grid with T/U point at the equator |
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83 | !> - 5: beta-plane with regular grid-spacing and rotated domain (GYRE configuration) |
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84 | !> - dn_ppglam0 : longitude of first raw and column T-point (in_mshhgr = 1 or 4) |
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85 | !> - dn_ppgphi0 : latitude of first raw and column T-point (in_mshhgr = 1 or 4) |
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86 | !> - dn_ppe1_deg : zonal grid-spacing (degrees) (in_mshhgr = 1,2,3 or 4) |
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87 | !> - dn_ppe2_deg : meridional grid-spacing (degrees) (in_mshhgr = 1,2,3 or 4) |
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88 | !> |
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89 | !> * _vertical grid namelist (namzgr)_:<br/> |
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90 | !> - ln_zco : z-coordinate - full steps |
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91 | !> - ln_zps : z-coordinate - partial steps |
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92 | !> - ln_sco : s- or hybrid z-s-coordinate |
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93 | !> - ln_isfcav : ice shelf cavities |
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94 | !> - ln_iscpl : coupling with ice sheet |
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95 | !> - ln_wd : Wetting/drying activation |
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96 | !> - in_nlevel : number of vertical level |
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97 | !> |
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98 | !> * _depth namelist (namdmin)_:<br/> |
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99 | !> - dn_hmin : minimum ocean depth (>0) or minimum number of ocean levels (<0) |
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100 | !> - dn_isfhmin : threshold to discriminate grounded ice to floating ice |
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101 | !> |
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102 | !> * _vertical coordinate namelist (namzco)_:<br/> |
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103 | !> - dn_ppsur : coefficient to compute vertical grid |
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104 | !> - dn_ppa0 : coefficient to compute vertical grid |
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105 | !> - dn_ppa1 : coefficient to compute vertical grid |
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106 | !> - dn_ppkth : coefficient to compute vertical grid |
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107 | !> - dn_ppacr : coefficient to compute vertical grid |
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108 | !> - ln_dbletanh : use double tanh function for vertical coordinates |
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109 | !> - dn_ppa2 : double tanh function parameter |
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110 | !> - dn_ppkth2 : double tanh function parameter |
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111 | !> - dn_ppacr2 : double tanh function parameter |
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112 | !> - dn_ppdzmin : minimum vertical spacing |
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113 | !> - dn_pphmax : maximum depth |
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114 | !> |
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115 | !> @note If *ppa1* and *ppa0* and *ppsur* are undefined |
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116 | !> NEMO will compute them from *ppdzmin* , *pphmax*, *ppkth*, *ppacr* |
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117 | !> |
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118 | !> this namelist is also needed to define partial steps, sigma or hybrid coordinate. |
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119 | !> |
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120 | !> * _partial step namelist (namzps)_:<br/> |
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121 | !> - dn_e3zps_min : minimum thickness of partial step level (meters) |
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122 | !> - dn_e3zps_rat : minimum thickness ratio of partial step level |
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123 | !> |
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124 | !> * _sigma or hybrid namelist (namsco)_:<br/> |
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125 | !> - ln_s_sh94 : use hybrid s-sig Song and Haidvogel 1994 stretching function fssig1 |
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126 | !> - ln_s_sf12 : use hybrid s-z-sig Siddorn and Furner 2012 stretching function fgamma |
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127 | !> - dn_sbot_min : minimum depth of s-bottom surface (>0) (m) |
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128 | !> - dn_sbot_max : maximum depth of s-bottom surface (= ocean depth) (>0) (m) |
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129 | !> - dn_hc : Critical depth for transition from sigma to stretched coordinates |
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130 | !> Song and Haidvogel 1994 stretching additional parameters |
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131 | !> - dn_rmax : maximum cut-off r-value allowed (0<dn_rmax<1) |
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132 | !> - dn_theta : surface control parameter (0<=dn_theta<=20) |
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133 | !> - dn_thetb : bottom control parameter (0<=dn_thetb<= 1) |
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134 | !> - dn_bb : stretching parameter ( dn_bb=0; top only, dn_bb =1; top and bottom) |
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135 | !> Siddorn and Furner stretching additional parameters |
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136 | !> - ln_sigcrit : switching to sigma (T) or Z (F) at H<Hc |
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137 | !> - dn_alpha : stretchin parameter ( >1 surface; <1 bottom) |
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138 | !> - dn_efold : e-fold length scale for transition region |
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139 | !> - dn_zs : Surface cell depth (Zs) (m) |
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140 | !> Bottom cell (Zb) (m) = H*rn_zb_a + rn_zb_b' |
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141 | !> - dn_zb_a : Bathymetry multiplier for Zb |
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142 | !> - dn_zb_b : Offset for Zb |
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143 | !> |
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144 | !> * _lateral boundary condition namelist (namlbc)_:<br/> |
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145 | !> - rn_shlat : lateral boundary conditions at the coast (modify fmask) |
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146 | !> - shlat = 0 : free slip |
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147 | !> - 0 < shlat < 2 : partial slip |
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148 | !> - shlat = 2 : no slip |
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149 | !> - shlat > 2 : strong slip |
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150 | !> for more information see Boundary Condition at the Coast |
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151 | !> in [NEMO documentation](http://www.nemo-ocean.eu/About-NEMO/Reference-manuals)) |
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152 | !> |
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153 | !> * _wetting and drying namelist (namwd)_:<br/> |
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154 | !> - dn_wdmin1 : minimum water depth on dried cells |
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155 | !> - dn_wdmin2 : tolerrance of minimum water depth on dried cells |
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156 | !> - dn_wdld : land elevation below which wetting/drying |
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157 | !> |
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158 | !> * _grid namelist (namgrd)_:<br/> |
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159 | !> - in_cfg : inverse resolution of the configuration (1/4° => 4) |
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160 | !> - ln_bench : GYRE (in_mshhgr = 5 ) used as Benchmark.<br/> |
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161 | !> => forced the resolution to be about 100 km |
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162 | !> - ln_c1d : use configuration 1D |
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163 | !> - ln_e3_dep : vertical scale factors =T: e3.=dk[depth] =F: old definition |
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164 | !> * _output namelist (namout)_:<br/> |
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165 | !> - cn_domcfg : output file name |
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166 | !> - in_msh : number of output file and contain (0-9) |
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167 | !> - in_nproc : number of processor to be used |
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168 | !> - in_niproc : i-direction number of processor |
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169 | !> - in_njproc : j-direction numebr of processor |
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170 | !> |
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171 | !> @note |
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172 | !> - if in_msh = 0 : write '**domain_cfg.nc**' file. |
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173 | !> - if MOD(in_msh, 3) = 1 : write '<b>mesh_mask.nc</b>' file. |
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174 | !> - if MOD(in_msh, 3) = 2 : write '<b>mesh.nc</b>' and '<b>mask.nc</b>' files. |
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175 | !> - if MOD(in_msh, 3) = 0 : write '<b>mesh_hgr.nc</b>', '<b>mesh_zgr.nc</b>' and '<b>mask.nc</b>' files.<br/> |
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176 | !> For huge size domain, use option 2 or 3 depending on your vertical coordinate. |
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177 | !> - if in_msh <= 3: write full 3D arrays for e3[tuvw] and gdep[tuvw] |
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178 | !> - if 3 < in_msh <= 6: write full 3D arrays for e3[tuvw] and 2D arrays |
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179 | !> corresponding to the depth of the bottom t- and w-points |
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180 | !> - if 6 < in_msh <= 9: write 2D arrays corresponding to the depth and the |
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181 | !> thickness (e3[tw]_ps) of the bottom points |
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182 | !> |
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183 | !> @author |
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184 | !> J.Paul |
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185 | ! REVISION HISTORY: |
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186 | !> @date September, 2015 - Initial Version (based on domhgr.F90, domzgr.F90, domwri.F90) |
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187 | !> @date October, 2016 |
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188 | !> - update from trunk (revision 6961): add wetting and drying, ice sheet coupling.. |
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189 | !> @date October, 2016 |
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190 | !> - dimension to be used select from configuration file |
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191 | !> - do not use anymore special case for ORCA grid |
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192 | !> - allow to write domain_cfg file |
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193 | !> @date November, 2016 |
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194 | !> - choose vertical scale factors (e3.=dk[depth] or old definition) |
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195 | !> |
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196 | !> @note Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) |
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197 | !---------------------------------------------------------------------- |
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198 | PROGRAM create_meshmask |
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199 | |
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200 | USE global ! global variable |
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201 | USE kind ! F90 kind parameter |
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202 | USE phycst ! physical constant |
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203 | USE logger ! log file manager |
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204 | USE date ! date manager |
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205 | USE fct ! basic useful function |
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206 | USE att ! attribute manager |
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207 | USE dim ! dimension manager |
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208 | USE var ! variable manager |
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209 | USE mpp ! MPP manager |
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210 | USE iom_mpp ! I/O MPP manager |
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211 | USE lbc ! lateral boundary conditions |
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212 | USE grid |
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213 | USE grid_hgr |
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214 | USE grid_zgr |
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215 | |
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216 | IMPLICIT NONE |
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217 | |
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218 | ! local variable |
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219 | CHARACTER(LEN=lc) :: cl_namelist |
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220 | CHARACTER(LEN=lc) :: cl_date |
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221 | |
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222 | INTEGER(i1), DIMENSION(:) , ALLOCATABLE :: bl_tmp |
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223 | |
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224 | INTEGER(i4) :: il_narg |
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225 | INTEGER(i4) :: il_status |
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226 | INTEGER(i4) :: il_fileid |
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227 | INTEGER(i4) :: il_attid |
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228 | INTEGER(i4) :: il_ew |
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229 | INTEGER(i4) :: jpi |
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230 | INTEGER(i4) :: jpj |
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231 | INTEGER(i4) :: jpk |
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232 | INTEGER(i4), DIMENSION(:) , ALLOCATABLE :: il_tmp |
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233 | INTEGER(i4), DIMENSION(:,:) , ALLOCATABLE :: il_mask |
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234 | |
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235 | LOGICAL :: ll_exist |
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236 | LOGICAL :: ll_domcfg |
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237 | |
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238 | REAL(dp) , DIMENSION(:,:) , ALLOCATABLE :: dl_tmp2D |
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239 | REAL(dp) , DIMENSION(:,:,:) , ALLOCATABLE :: dl_tmp3D |
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240 | |
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241 | TYPE(TATT) :: tl_att |
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242 | TYPE(TATT) , DIMENSION(:) , ALLOCATABLE :: tl_gatt |
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243 | |
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244 | TYPE(TDIM) :: tl_dim |
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245 | |
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246 | TYPE(TVAR) :: tl_bathy |
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247 | TYPE(TVAR) :: tl_risfdep |
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248 | TYPE(TVAR) :: tl_misf |
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249 | TYPE(TVAR) :: tl_gdepu |
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250 | TYPE(TVAR) :: tl_gdepv |
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251 | TYPE(TVAR) :: tl_hdept |
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252 | TYPE(TVAR) :: tl_hdepw |
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253 | TYPE(TVAR) :: tl_scalar |
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254 | |
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255 | TYPE(TNAMH) :: tl_namh |
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256 | TYPE(TNAMZ) :: tl_namz |
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257 | |
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258 | TYPE(TMPP) :: tl_mpp |
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259 | TYPE(TMPP) , TARGET :: tl_mppout0 |
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260 | TYPE(TMPP) , TARGET :: tl_mppout1 |
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261 | TYPE(TMPP) , TARGET :: tl_mppout2 |
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262 | TYPE(TMPP) , POINTER :: tl_mppmsk |
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263 | TYPE(TMPP) , POINTER :: tl_mpphgr |
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264 | TYPE(TMPP) , POINTER :: tl_mppzgr |
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265 | |
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266 | ! parameter |
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267 | INTEGER(i4) , PARAMETER :: ip_maxatt = 40 |
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268 | |
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269 | ! loop indices |
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270 | INTEGER(i4) :: ji |
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271 | INTEGER(i4) :: jj |
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272 | INTEGER(i4) :: jk |
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273 | |
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274 | INTEGER(i4) :: ik |
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275 | |
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276 | ! namelist variable |
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277 | ! namlog |
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278 | CHARACTER(LEN=lc) :: cn_logfile = 'create_meshmask.log' |
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279 | CHARACTER(LEN=lc) :: cn_verbosity= 'warning' |
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280 | INTEGER(i4) :: in_maxerror = 5 |
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281 | |
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282 | ! namcfg |
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283 | CHARACTER(LEN=lc) :: cn_varcfg = './cfg/variable.cfg' |
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284 | CHARACTER(LEN=lc) :: cn_dimcfg = './cfg/dimension.cfg' |
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285 | CHARACTER(LEN=lc) :: cn_dumcfg = './cfg/dummy.cfg' |
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286 | |
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287 | ! namin |
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288 | CHARACTER(LEN=lc) :: cn_bathy = '' |
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289 | CHARACTER(LEN=lc) :: cn_varbathy = '' |
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290 | CHARACTER(LEN=lc) :: cn_coord = '' |
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291 | CHARACTER(LEN=lc) :: cn_isfdep = '' |
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292 | CHARACTER(LEN=lc) :: cn_varisfdep= 'isfdraft' |
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293 | INTEGER(i4) :: in_perio = -1 |
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294 | LOGICAL :: ln_closea = .TRUE. |
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295 | |
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296 | ! namzgr |
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297 | LOGICAL :: ln_zco = .FALSE. |
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298 | LOGICAL :: ln_zps = .FALSE. |
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299 | LOGICAL :: ln_sco = .FALSE. |
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300 | LOGICAL :: ln_isfcav = .FALSE. |
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301 | LOGICAL :: ln_iscpl = .FALSE. |
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302 | LOGICAL :: ln_wd = .FALSE. |
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303 | INTEGER(i4) :: in_nlevel = 75 |
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304 | |
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305 | ! namlbc |
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306 | REAL(sp) :: rn_shlat = 2. |
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307 | |
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308 | ! namout |
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309 | CHARACTER(LEN=lc) :: cn_domcfg = 'domain_cfg.nc' |
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310 | INTEGER(i4) :: in_msh = 0 |
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311 | CHARACTER(LEN=lc) :: cn_type = 'cdf' |
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312 | INTEGER(i4) :: in_nproc = 0 |
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313 | INTEGER(i4) :: in_niproc = 0 |
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314 | INTEGER(i4) :: in_njproc = 0 |
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315 | !------------------------------------------------------------------- |
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316 | NAMELIST /namlog/ & !< logger namelist |
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317 | & cn_logfile, & !< log file |
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318 | & cn_verbosity, & !< log verbosity |
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319 | & in_maxerror |
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320 | |
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321 | NAMELIST /namcfg/ & !< configuration namelist |
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322 | & cn_varcfg, & !< variable configuration file |
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323 | & cn_dimcfg, & !< dimension configuration file |
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324 | & cn_dumcfg !< dummy configuration file |
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325 | |
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326 | NAMELIST /namin/ & !< input namelist |
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327 | & cn_bathy, & !< Bathymetry file |
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328 | & cn_varbathy, & !< Bathymetry variable name |
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329 | & cn_coord, & !< Coordinate file (in_mshhgr=0) |
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330 | & cn_isfdep, & !< Iceshelf draft (ln_isfcav=true) |
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331 | & cn_varisfdep, & !< Iceshelf draft variable name (ln_isfcav=true) |
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332 | & in_perio, & !< NEMO periodicity |
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333 | & ln_closea |
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334 | |
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335 | NAMELIST /namzgr/ & |
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336 | & ln_zco, & !< z-coordinate |
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337 | & ln_zps, & !< z-coordinate with partial steps |
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338 | & ln_sco, & !< s-coordinate |
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339 | & ln_isfcav, & !< presence of ISF |
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340 | & ln_iscpl, & !< coupling with ice sheet |
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341 | & ln_wd, & !< Wetting/drying activation |
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342 | & in_nlevel |
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343 | |
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344 | NAMELIST /namlbc/ & |
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345 | & rn_shlat !< lateral momentum boundary condition |
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346 | |
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347 | NAMELIST /namout/ & !< output namlist |
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348 | & cn_domcfg, & !< output file name |
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349 | & in_msh, & !< number of output file (1,2,3) |
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350 | & in_nproc, & !< number of processor to be used |
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351 | & in_niproc, & !< i-direction number of processor |
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352 | & in_njproc !< j-direction numebr of processor |
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353 | !------------------------------------------------------------------- |
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354 | |
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355 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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356 | !1- namelist |
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357 | !1-1 get namelist |
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358 | il_narg=COMMAND_ARGUMENT_COUNT() !f03 intrinsec |
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359 | IF( il_narg/=1 )THEN |
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360 | PRINT *,"ERROR in create_mask: need a namelist" |
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361 | STOP |
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362 | ELSE |
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363 | CALL GET_COMMAND_ARGUMENT(1,cl_namelist) !f03 intrinsec |
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364 | ENDIF |
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365 | !1-2 read namelist |
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366 | INQUIRE(FILE=TRIM(cl_namelist), EXIST=ll_exist) |
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367 | IF( ll_exist )THEN |
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368 | |
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369 | il_fileid=fct_getunit() |
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370 | |
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371 | OPEN( il_fileid, FILE=TRIM(cl_namelist), & |
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372 | & FORM='FORMATTED', & |
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373 | & ACCESS='SEQUENTIAL', & |
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374 | & STATUS='OLD', & |
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375 | & ACTION='READ', & |
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376 | & IOSTAT=il_status) |
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377 | CALL fct_err(il_status) |
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378 | IF( il_status /= 0 )THEN |
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379 | PRINT *,"ERROR in create_mask: error opening "//TRIM(cl_namelist) |
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380 | STOP |
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381 | ENDIF |
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382 | |
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383 | READ( il_fileid, NML = namlog ) |
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384 | !1-2-1 define log file |
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385 | CALL logger_open(TRIM(cn_logfile),TRIM(cn_verbosity),in_maxerror) |
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386 | CALL logger_header() |
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387 | |
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388 | READ( il_fileid, NML = namcfg ) |
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389 | !1-2-2 get variable extra information |
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390 | CALL var_def_extra(TRIM(cn_varcfg)) |
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391 | |
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392 | ! get dimension allowed |
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393 | CALL dim_def_extra(TRIM(cn_dimcfg)) |
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394 | |
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395 | ! get dummy variable |
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396 | CALL var_get_dummy(TRIM(cn_dumcfg)) |
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397 | ! get dummy dimension |
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398 | CALL dim_get_dummy(TRIM(cn_dumcfg)) |
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399 | ! get dummy attribute |
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400 | CALL att_get_dummy(TRIM(cn_dumcfg)) |
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401 | |
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402 | READ( il_fileid, NML = namin ) |
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403 | READ( il_fileid, NML = namzgr ) |
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404 | READ( il_fileid, NML = namlbc ) |
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405 | |
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406 | READ( il_fileid, NML = namout ) |
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407 | |
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408 | CLOSE( il_fileid, IOSTAT=il_status ) |
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409 | CALL fct_err(il_status) |
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410 | IF( il_status /= 0 )THEN |
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411 | CALL logger_error("CREATE MASK: closing "//TRIM(cl_namelist)) |
---|
412 | ENDIF |
---|
413 | |
---|
414 | ELSE |
---|
415 | |
---|
416 | PRINT *,"ERROR in create_mask: can't find "//TRIM(cl_namelist) |
---|
417 | |
---|
418 | ENDIF |
---|
419 | |
---|
420 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
421 | ll_domcfg=.FALSE. |
---|
422 | IF( in_msh == 0 )THEN |
---|
423 | ll_domcfg=.TRUE. |
---|
424 | ENDIF |
---|
425 | |
---|
426 | ! open file |
---|
427 | IF( cn_bathy /= '' )THEN |
---|
428 | tl_mpp=mpp_init( file_init(TRIM(cn_bathy)), id_perio=in_perio) |
---|
429 | CALL grid_get_info(tl_mpp) |
---|
430 | ELSE |
---|
431 | CALL logger_fatal("CREATE MESH MASK: no input bathymetry file found. "//& |
---|
432 | & "check namelist") |
---|
433 | ENDIF |
---|
434 | |
---|
435 | ! read bathymetry |
---|
436 | WRITE(*,*) 'FILE TO BE USED:',TRIM(cn_bathy) |
---|
437 | CALL iom_mpp_open(tl_mpp) |
---|
438 | |
---|
439 | ! get dimension |
---|
440 | jpi=tl_mpp%t_dim(jp_I)%i_len |
---|
441 | jpj=tl_mpp%t_dim(jp_J)%i_len |
---|
442 | jpk=in_nlevel |
---|
443 | |
---|
444 | WRITE(*,*) 'DIMENSION TO BE USED :',jpi,jpj,jpk |
---|
445 | |
---|
446 | ! read variable |
---|
447 | IF( TRIM(cn_varbathy) == '' )THEN |
---|
448 | IF( ln_zco )THEN |
---|
449 | cn_varbathy='Bathy_level' |
---|
450 | ELSEIF( ln_zps .OR. ln_sco )THEN |
---|
451 | IF( ln_isfcav )THEN |
---|
452 | cn_varbathy='Bathymetry_isf' |
---|
453 | ELSE |
---|
454 | cn_varbathy='Bathymetry' |
---|
455 | ENDIF |
---|
456 | ENDIF |
---|
457 | ENDIF |
---|
458 | WRITE(*,*) 'VARIABLE READ : '//TRIM(cn_varbathy) |
---|
459 | tl_bathy=iom_mpp_read_var(tl_mpp, TRIM(cn_varbathy)) |
---|
460 | CALL iom_mpp_close(tl_mpp) |
---|
461 | |
---|
462 | WHERE( tl_bathy%d_value(:,:,1,1) == tl_bathy%d_fill .OR. & |
---|
463 | & tl_bathy%d_value(:,:,1,1) < 0._dp ) |
---|
464 | tl_bathy%d_value(:,:,1,1) = 0._dp |
---|
465 | END WHERE |
---|
466 | |
---|
467 | IF ( ln_isfcav ) THEN |
---|
468 | WRITE(*,*) 'ICESHELF DRAFT FILE TO BE USED:',TRIM(cn_isfdep) |
---|
469 | WRITE(*,*) 'ICESHELF VARIABLE READ : '//TRIM(cn_varisfdep) |
---|
470 | ! open Iceshelf draft |
---|
471 | IF( cn_isfdep /= '' )THEN |
---|
472 | tl_mpp=mpp_init( file_init(TRIM(cn_isfdep)), id_perio=in_perio) |
---|
473 | CALL grid_get_info(tl_mpp) |
---|
474 | ELSE |
---|
475 | CALL logger_fatal("CREATE MESH MASK: no input Iceshelf draft '//& |
---|
476 | & 'file found. check namelist") |
---|
477 | ENDIF |
---|
478 | |
---|
479 | ! read Iceshelf draft |
---|
480 | CALL iom_mpp_open(tl_mpp) |
---|
481 | IF( ln_zps .OR. ln_sco ) THEN |
---|
482 | tl_risfdep=iom_mpp_read_var(tl_mpp, cn_varisfdep) |
---|
483 | ENDIF |
---|
484 | CALL iom_mpp_close(tl_mpp) |
---|
485 | ELSE |
---|
486 | ALLOCATE(dl_tmp2D(jpi,jpj)) |
---|
487 | dl_tmp2D(:,:)=0._dp |
---|
488 | |
---|
489 | tl_risfdep=var_init(cn_varisfdep, dl_tmp2D(:,:), id_type=NF90_DOUBLE) |
---|
490 | |
---|
491 | DEALLOCATE(dl_tmp2D) |
---|
492 | ENDIF |
---|
493 | |
---|
494 | ! fill closed sea |
---|
495 | IF( ln_closea )THEN |
---|
496 | WRITE(*,*) "CLOSED SEA" |
---|
497 | ALLOCATE( il_mask(tl_bathy%t_dim(1)%i_len, & |
---|
498 | & tl_bathy%t_dim(2)%i_len) ) |
---|
499 | |
---|
500 | ! split domain in N sea subdomain |
---|
501 | il_mask(:,:)=grid_split_domain(tl_bathy) |
---|
502 | |
---|
503 | ! fill smallest domain |
---|
504 | CALL grid_fill_small_dom( tl_bathy, il_mask(:,:) ) |
---|
505 | |
---|
506 | DEALLOCATE( il_mask ) |
---|
507 | ENDIF |
---|
508 | |
---|
509 | in_perio = tl_mpp%i_perio |
---|
510 | il_ew = tl_mpp%i_ew |
---|
511 | |
---|
512 | ! clean |
---|
513 | CALL mpp_clean(tl_mpp) |
---|
514 | |
---|
515 | ! Horizontal mesh (dom_hgr) ------------------------------------------------- |
---|
516 | tl_namh=grid_hgr_nam( cn_coord, in_perio, cl_namelist ) |
---|
517 | |
---|
518 | ! init Horizontal grid global variable |
---|
519 | CALL grid_hgr_init(jpi,jpj,jpk,ll_domcfg) |
---|
520 | |
---|
521 | ! compute horizontal mesh |
---|
522 | WRITE(*,*) "COMPUTE HORIZONTAL MESH" |
---|
523 | CALL grid_hgr_fill(tl_namh,jpi,jpj,ll_domcfg) |
---|
524 | |
---|
525 | ! Vertyical mesh (dom_zgr) ------------------------------------------------- |
---|
526 | tl_namz=grid_zgr_nam( cn_coord, in_perio, cl_namelist ) |
---|
527 | |
---|
528 | ! init Vertical grid global variable |
---|
529 | CALL grid_zgr_init(jpi,jpj,jpk,ln_sco) |
---|
530 | IF( ln_zps ) CALL grid_zgr_zps_init(jpi,jpj) |
---|
531 | IF( ln_sco ) CALL grid_zgr_sco_init(jpi,jpj) |
---|
532 | |
---|
533 | ! compute vertical mesh |
---|
534 | WRITE(*,*) "COMPUTE VERTICAL MESH" |
---|
535 | CALL grid_zgr_fill( tl_namz,jpi,jpj,jpk, tl_bathy, tl_risfdep ) |
---|
536 | |
---|
537 | ! compute masks |
---|
538 | WRITE(*,*) "COMPUTE MASK" |
---|
539 | CALL create__mask(tl_namh,jpi,jpj,jpk,ll_domcfg) |
---|
540 | |
---|
541 | ! Maximum stiffness ratio/hydrostatic consistency |
---|
542 | IF( ln_sco ) CALL grid_zgr_sco_stiff(tl_namz,jpi,jpj,jpk) |
---|
543 | |
---|
544 | ! clean |
---|
545 | CALL var_clean(tl_bathy) |
---|
546 | |
---|
547 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
548 | ! create ouptut structure |
---|
549 | IF( in_niproc == 0 .AND. & |
---|
550 | & in_njproc == 0 .AND. & |
---|
551 | & in_nproc == 0 )THEN |
---|
552 | in_niproc = 1 |
---|
553 | in_njproc = 1 |
---|
554 | in_nproc = 1 |
---|
555 | ENDIF |
---|
556 | |
---|
557 | WRITE(*,*) "WRITE FILE(S)" |
---|
558 | IF( ll_domcfg )THEN |
---|
559 | ! ! ============================ |
---|
560 | ! ! create 'domain_cfg.nc' file |
---|
561 | ! ! ============================ |
---|
562 | tl_mppout0=mpp_init( cn_domcfg, tg_tmask, & |
---|
563 | & in_niproc, in_njproc, in_nproc, & |
---|
564 | & cd_type=cn_type ) |
---|
565 | |
---|
566 | tl_mppmsk=>tl_mppout0 |
---|
567 | tl_mpphgr=>tl_mppout0 |
---|
568 | tl_mppzgr=>tl_mppout0 |
---|
569 | |
---|
570 | ELSE |
---|
571 | SELECT CASE ( MOD(in_msh, 3) ) |
---|
572 | ! ! ============================ |
---|
573 | CASE ( 1 ) ! create 'mesh_mask.nc' file |
---|
574 | ! ! ============================ |
---|
575 | tl_mppout0=mpp_init( 'mesh_mask', tg_tmask, & |
---|
576 | & in_niproc, in_njproc, in_nproc, & |
---|
577 | & cd_type=cn_type ) |
---|
578 | |
---|
579 | tl_mppmsk=>tl_mppout0 |
---|
580 | tl_mpphgr=>tl_mppout0 |
---|
581 | tl_mppzgr=>tl_mppout0 |
---|
582 | |
---|
583 | ! ! ============================ |
---|
584 | CASE ( 2 ) ! create 'mesh.nc' and |
---|
585 | ! ! 'mask.nc' files |
---|
586 | ! ! ============================ |
---|
587 | tl_mppout0=mpp_init( 'mask', tg_tmask, & |
---|
588 | & in_niproc, in_njproc, in_nproc, & |
---|
589 | & cd_type=cn_type ) |
---|
590 | tl_mppout1=mpp_init( 'mesh', tg_tmask, & |
---|
591 | & in_niproc, in_njproc, in_nproc, & |
---|
592 | & cd_type=cn_type ) |
---|
593 | |
---|
594 | tl_mppmsk=>tl_mppout0 |
---|
595 | tl_mpphgr=>tl_mppout1 |
---|
596 | tl_mppzgr=>tl_mppout1 |
---|
597 | |
---|
598 | ! ! ============================ |
---|
599 | CASE ( 0 ) ! create 'mesh_hgr.nc' |
---|
600 | ! ! 'mesh_zgr.nc' and |
---|
601 | ! ! 'mask.nc' files |
---|
602 | ! ! ============================ |
---|
603 | tl_mppout0=mpp_init( 'mask', tg_tmask, & |
---|
604 | & in_niproc, in_njproc, in_nproc, & |
---|
605 | & cd_type=cn_type ) |
---|
606 | tl_mppout1=mpp_init( 'mesh_hgr', tg_tmask, & |
---|
607 | & in_niproc, in_njproc, in_nproc, & |
---|
608 | & cd_type=cn_type ) |
---|
609 | tl_mppout2=mpp_init( 'mesh_zgr', tg_tmask, & |
---|
610 | & in_niproc, in_njproc, in_nproc, & |
---|
611 | & cd_type=cn_type ) |
---|
612 | ! |
---|
613 | |
---|
614 | tl_mppmsk=>tl_mppout0 |
---|
615 | tl_mpphgr=>tl_mppout1 |
---|
616 | tl_mppzgr=>tl_mppout2 |
---|
617 | |
---|
618 | END SELECT |
---|
619 | ENDIF |
---|
620 | |
---|
621 | ! add variables |
---|
622 | IF( ll_domcfg )THEN |
---|
623 | ALLOCATE(il_tmp(1)) |
---|
624 | tl_dim%l_use=.FALSE. |
---|
625 | |
---|
626 | il_tmp(:)=jpi |
---|
627 | tl_scalar=var_init('jpiglo', il_tmp(:), id_type=NF90_INT, td_dim=tl_dim) |
---|
628 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
629 | |
---|
630 | il_tmp(:)=jpj |
---|
631 | tl_scalar=var_init('jpjglo', il_tmp(:), id_type=NF90_INT, td_dim=tl_dim) |
---|
632 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
633 | |
---|
634 | il_tmp(:)=jpk |
---|
635 | tl_scalar=var_init('jpkglo', il_tmp(:), id_type=NF90_INT, td_dim=tl_dim) |
---|
636 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
637 | |
---|
638 | il_tmp(:)=tl_mppout0%i_perio |
---|
639 | tl_scalar=var_init('jperio', il_tmp(:), id_type=NF90_INT, td_dim=tl_dim) |
---|
640 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
641 | |
---|
642 | DEALLOCATE(il_tmp) |
---|
643 | ALLOCATE(bl_tmp(1)) |
---|
644 | |
---|
645 | bl_tmp(:)=0 |
---|
646 | IF( ln_zco ) bl_tmp(:)=1 |
---|
647 | tl_scalar=var_init('ln_zco',bl_tmp(:), id_type=NF90_BYTE, td_dim=tl_dim) |
---|
648 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
649 | |
---|
650 | bl_tmp(:)=0 |
---|
651 | IF( ln_zps ) bl_tmp(:)=1 |
---|
652 | tl_scalar=var_init('ln_zps',bl_tmp(:), id_type=NF90_BYTE, td_dim=tl_dim) |
---|
653 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
654 | |
---|
655 | bl_tmp(:)=0 |
---|
656 | IF( ln_sco ) bl_tmp(:)=1 |
---|
657 | tl_scalar=var_init('ln_sco',bl_tmp(:), id_type=NF90_BYTE, td_dim=tl_dim) |
---|
658 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
659 | |
---|
660 | bl_tmp(:)=0 |
---|
661 | IF( ln_isfcav ) bl_tmp(:)=1 |
---|
662 | tl_scalar=var_init('ln_isfcav',bl_tmp(:), id_type=NF90_BYTE, td_dim=tl_dim) |
---|
663 | CALL mpp_add_var(tl_mppmsk, tl_scalar) |
---|
664 | |
---|
665 | DEALLOCATE(bl_tmp) |
---|
666 | CALL var_clean(tl_scalar) |
---|
667 | ENDIF |
---|
668 | |
---|
669 | !!! mask (msk) |
---|
670 | !!!---------------------- |
---|
671 | IF( .NOT. ll_domcfg )THEN |
---|
672 | ! tmask |
---|
673 | CALL mpp_add_var(tl_mppmsk, tg_tmask) |
---|
674 | CALL var_clean(tg_tmask) |
---|
675 | ! umask |
---|
676 | CALL mpp_add_var(tl_mppmsk, tg_umask) |
---|
677 | CALL var_clean(tg_umask) |
---|
678 | ! vmask |
---|
679 | CALL mpp_add_var(tl_mppmsk, tg_vmask) |
---|
680 | CALL var_clean(tg_vmask) |
---|
681 | ! fmask |
---|
682 | CALL mpp_add_var(tl_mppmsk, tg_fmask) |
---|
683 | CALL var_clean(tg_fmask) |
---|
684 | ENDIF |
---|
685 | |
---|
686 | !!! horizontal mesh (hgr) |
---|
687 | !!!---------------------- |
---|
688 | |
---|
689 | ! latitude |
---|
690 | ! glamt |
---|
691 | CALL mpp_add_var(tl_mpphgr, tg_glamt) |
---|
692 | CALL var_clean(tg_glamt) |
---|
693 | ! glamu |
---|
694 | CALL mpp_add_var(tl_mpphgr, tg_glamu) |
---|
695 | CALL var_clean(tg_glamu) |
---|
696 | ! glamV |
---|
697 | CALL mpp_add_var(tl_mpphgr, tg_glamv) |
---|
698 | CALL var_clean(tg_glamv) |
---|
699 | ! glamf |
---|
700 | CALL mpp_add_var(tl_mpphgr, tg_glamf) |
---|
701 | CALL var_clean(tg_glamf) |
---|
702 | |
---|
703 | ! longitude |
---|
704 | ! gphit |
---|
705 | CALL mpp_add_var(tl_mpphgr, tg_gphit) |
---|
706 | CALL var_clean(tg_gphit) |
---|
707 | ! gphiu |
---|
708 | CALL mpp_add_var(tl_mpphgr, tg_gphiu) |
---|
709 | CALL var_clean(tg_gphiu) |
---|
710 | ! gphiv |
---|
711 | CALL mpp_add_var(tl_mpphgr, tg_gphiv) |
---|
712 | CALL var_clean(tg_gphiv) |
---|
713 | ! gphif |
---|
714 | CALL mpp_add_var(tl_mpphgr, tg_gphif) |
---|
715 | CALL var_clean(tg_gphif) |
---|
716 | |
---|
717 | ! e1 scale factors |
---|
718 | ! e1t |
---|
719 | CALL mpp_add_var(tl_mpphgr, tg_e1t) |
---|
720 | CALL var_clean(tg_e1t) |
---|
721 | ! e1u |
---|
722 | CALL mpp_add_var(tl_mpphgr, tg_e1u) |
---|
723 | CALL var_clean(tg_e1u) |
---|
724 | ! e1v |
---|
725 | CALL mpp_add_var(tl_mpphgr, tg_e1v) |
---|
726 | CALL var_clean(tg_e1v) |
---|
727 | ! e1f |
---|
728 | CALL mpp_add_var(tl_mpphgr, tg_e1f) |
---|
729 | CALL var_clean(tg_e1f) |
---|
730 | |
---|
731 | ! e2 scale factors |
---|
732 | ! e2t |
---|
733 | CALL mpp_add_var(tl_mpphgr, tg_e2t) |
---|
734 | CALL var_clean(tg_e2t) |
---|
735 | ! e2u |
---|
736 | CALL mpp_add_var(tl_mpphgr, tg_e2u) |
---|
737 | CALL var_clean(tg_e2u) |
---|
738 | ! e2v |
---|
739 | CALL mpp_add_var(tl_mpphgr, tg_e2v) |
---|
740 | CALL var_clean(tg_e2v) |
---|
741 | ! e2f |
---|
742 | CALL mpp_add_var(tl_mpphgr, tg_e2f) |
---|
743 | CALL var_clean(tg_e2f) |
---|
744 | |
---|
745 | ! coriolis factor |
---|
746 | ! ff_t |
---|
747 | CALL mpp_add_var(tl_mpphgr, tg_ff_t) |
---|
748 | CALL var_clean(tg_ff_t) |
---|
749 | ! ff_f |
---|
750 | CALL mpp_add_var(tl_mpphgr, tg_ff_f) |
---|
751 | CALL var_clean(tg_ff_f) |
---|
752 | |
---|
753 | ! angles |
---|
754 | IF( .NOT. ll_domcfg )THEN |
---|
755 | ! cost |
---|
756 | CALL mpp_add_var(tl_mpphgr, tg_gcost) |
---|
757 | CALL var_clean(tg_gcost) |
---|
758 | ! cosu |
---|
759 | CALL mpp_add_var(tl_mpphgr, tg_gcosu) |
---|
760 | CALL var_clean(tg_gcosu) |
---|
761 | ! cosv |
---|
762 | CALL mpp_add_var(tl_mpphgr, tg_gcosv) |
---|
763 | CALL var_clean(tg_gcosv) |
---|
764 | ! cosf |
---|
765 | CALL mpp_add_var(tl_mpphgr, tg_gcosf) |
---|
766 | CALL var_clean(tg_gcosf) |
---|
767 | |
---|
768 | ! sint |
---|
769 | CALL mpp_add_var(tl_mpphgr, tg_gsint) |
---|
770 | CALL var_clean(tg_gsint) |
---|
771 | ! sinu |
---|
772 | CALL mpp_add_var(tl_mpphgr, tg_gsinu) |
---|
773 | CALL var_clean(tg_gsinu) |
---|
774 | ! sinv |
---|
775 | CALL mpp_add_var(tl_mpphgr, tg_gsinv) |
---|
776 | CALL var_clean(tg_gsinv) |
---|
777 | ! sinf |
---|
778 | CALL mpp_add_var(tl_mpphgr, tg_gsinf) |
---|
779 | CALL var_clean(tg_gsinf) |
---|
780 | ENDIF |
---|
781 | |
---|
782 | !!! vertical mesh (zgr) |
---|
783 | !!!---------------------- |
---|
784 | ! note that mbkt is set to 1 over land ==> use surface tmask |
---|
785 | ! |
---|
786 | ! mbathy |
---|
787 | tg_mbathy%d_value(:,:,:,:) = tg_ssmask%d_value(:,:,:,:) * & |
---|
788 | & tg_mbkt%d_value(:,:,:,:) |
---|
789 | ! |
---|
790 | IF( ll_domcfg )THEN |
---|
791 | tg_mbathy%c_name='bottom_level' |
---|
792 | ENDIF |
---|
793 | CALL mpp_add_var(tl_mppzgr, tg_mbathy) |
---|
794 | CALL var_clean(tg_mbathy) |
---|
795 | |
---|
796 | ! misf |
---|
797 | ALLOCATE(dl_tmp2D(jpi,jpj)) |
---|
798 | dl_tmp2D(:,:)=dp_fill |
---|
799 | |
---|
800 | tl_misf =var_init('misf ',dl_tmp2D(:,:), id_type=NF90_INT) |
---|
801 | |
---|
802 | DEALLOCATE(dl_tmp2D) |
---|
803 | tl_misf%d_value(:,:,1,1) = tg_ssmask%d_value(:,:,1,1) * & |
---|
804 | & tg_mikt%d_value(:,:,1,1) |
---|
805 | ! |
---|
806 | IF( ll_domcfg ) tl_misf%c_name='top_level' |
---|
807 | CALL mpp_add_var(tl_mppzgr, tl_misf) |
---|
808 | CALL var_clean(tl_misf) |
---|
809 | |
---|
810 | IF( .NOT. ll_domcfg )THEN |
---|
811 | ! isfdraft |
---|
812 | tl_risfdep%d_value(:,:,:,:) = tl_risfdep%d_value(:,:,:,:) * & |
---|
813 | & tg_mikt%d_value(:,:,:,:) |
---|
814 | |
---|
815 | CALL mpp_add_var(tl_mppzgr, tl_risfdep) |
---|
816 | CALL var_clean(tl_risfdep) |
---|
817 | ENDIF |
---|
818 | |
---|
819 | IF( ln_sco ) THEN ! s-coordinate |
---|
820 | |
---|
821 | IF( .NOT. ll_domcfg )THEN |
---|
822 | ! hbatt |
---|
823 | CALL mpp_add_var(tl_mppzgr, tg_hbatt) |
---|
824 | CALL var_clean(tg_hbatt) |
---|
825 | ! hbatu |
---|
826 | CALL mpp_add_var(tl_mppzgr, tg_hbatu) |
---|
827 | CALL var_clean(tg_hbatu) |
---|
828 | ! hbatv |
---|
829 | CALL mpp_add_var(tl_mppzgr, tg_hbatv) |
---|
830 | CALL var_clean(tg_hbatv) |
---|
831 | ! hbatf |
---|
832 | CALL mpp_add_var(tl_mppzgr, tg_hbatf) |
---|
833 | CALL var_clean(tg_hbatf) |
---|
834 | |
---|
835 | ! scaling coef. |
---|
836 | IF( .NOT. (tl_namz%l_s_sh94 .OR. tl_namz%l_s_sf12) )THEN |
---|
837 | ! gsigt |
---|
838 | CALL mpp_add_var(tl_mppzgr, tg_gsigt) |
---|
839 | CALL var_clean(tg_gsigt) |
---|
840 | ! gsigw |
---|
841 | CALL mpp_add_var(tl_mppzgr, tg_gsigw) |
---|
842 | CALL var_clean(tg_gsigw) |
---|
843 | ! gsi3w |
---|
844 | CALL mpp_add_var(tl_mppzgr, tg_gsi3w) |
---|
845 | CALL var_clean(tg_gsi3w) |
---|
846 | ! esigt |
---|
847 | CALL mpp_add_var(tl_mppzgr, tg_esigt) |
---|
848 | CALL var_clean(tg_esigt) |
---|
849 | ! esigw |
---|
850 | CALL mpp_add_var(tl_mppzgr, tg_esigw) |
---|
851 | CALL var_clean(tg_esigw) |
---|
852 | ENDIF |
---|
853 | ENDIF |
---|
854 | |
---|
855 | ! scale factors |
---|
856 | ! e3t_0 |
---|
857 | CALL mpp_add_var(tl_mppzgr, tg_e3t_0) |
---|
858 | CALL var_clean(tg_e3t_0) |
---|
859 | ! e3u_0 |
---|
860 | CALL mpp_add_var(tl_mppzgr, tg_e3u_0) |
---|
861 | CALL var_clean(tg_e3u_0) |
---|
862 | ! e3v_0 |
---|
863 | CALL mpp_add_var(tl_mppzgr, tg_e3v_0) |
---|
864 | CALL var_clean(tg_e3v_0) |
---|
865 | ! e3f_0 |
---|
866 | CALL mpp_add_var(tl_mppzgr, tg_e3f_0) |
---|
867 | CALL var_clean(tg_e3f_0) |
---|
868 | ! e3w_0 |
---|
869 | CALL mpp_add_var(tl_mppzgr, tg_e3w_0) |
---|
870 | CALL var_clean(tg_e3w_0) |
---|
871 | ! e3uw_0 |
---|
872 | CALL mpp_add_var(tl_mppzgr, tg_e3uw_0) |
---|
873 | CALL var_clean(tg_e3uw_0) |
---|
874 | ! e3vw_0 |
---|
875 | CALL mpp_add_var(tl_mppzgr, tg_e3vw_0) |
---|
876 | CALL var_clean(tg_e3vw_0) |
---|
877 | |
---|
878 | ! Max. grid stiffness ratio |
---|
879 | ! rx1 |
---|
880 | IF( ll_domcfg ) tg_rx1%c_name='stiffness' |
---|
881 | CALL mpp_add_var(tl_mppzgr, tg_rx1) |
---|
882 | CALL var_clean(tg_rx1) |
---|
883 | |
---|
884 | ! stretched system |
---|
885 | IF( .NOT. tl_namz%l_e3_dep )THEN |
---|
886 | ! gdept_1d |
---|
887 | CALL mpp_add_var(tl_mppzgr, tg_gdept_1d) |
---|
888 | CALL var_clean(tg_gdept_1d) |
---|
889 | ! gdepw_1d |
---|
890 | CALL mpp_add_var(tl_mppzgr, tg_gdepw_1d) |
---|
891 | CALL var_clean(tg_gdepw_1d) |
---|
892 | |
---|
893 | ! gdept_0 |
---|
894 | CALL mpp_add_var(tl_mppzgr, tg_gdept_0) |
---|
895 | CALL var_clean(tg_gdept_0) |
---|
896 | ! gdepw_0 |
---|
897 | CALL mpp_add_var(tl_mppzgr, tg_gdepw_0) |
---|
898 | CALL var_clean(tg_gdepw_0) |
---|
899 | ENDIF |
---|
900 | |
---|
901 | ENDIF |
---|
902 | |
---|
903 | IF( ln_zps ) THEN ! z-coordinate - partial steps |
---|
904 | |
---|
905 | IF( ll_domcfg .OR. in_msh <= 6 ) THEN ! 3D vertical scale factors |
---|
906 | |
---|
907 | ! e3t_0 |
---|
908 | CALL mpp_add_var(tl_mppzgr, tg_e3t_0) |
---|
909 | CALL var_clean(tg_e3t_0) |
---|
910 | ! e3u_0 |
---|
911 | CALL mpp_add_var(tl_mppzgr, tg_e3u_0) |
---|
912 | CALL var_clean(tg_e3u_0) |
---|
913 | ! e3v_0 |
---|
914 | CALL mpp_add_var(tl_mppzgr, tg_e3v_0) |
---|
915 | CALL var_clean(tg_e3v_0) |
---|
916 | ! e3w_0 |
---|
917 | CALL mpp_add_var(tl_mppzgr, tg_e3w_0) |
---|
918 | CALL var_clean(tg_e3w_0) |
---|
919 | |
---|
920 | ELSE |
---|
921 | |
---|
922 | DO jj = 1,jpj |
---|
923 | DO ji = 1,jpi |
---|
924 | ik=tg_mbkt%d_value(ji,jj,1,1) |
---|
925 | tg_e3tp%d_value(ji,jj,1,1) = tg_e3t_0%d_value(ji,jj,ik,1) * & |
---|
926 | & tg_ssmask%d_value(ji,jj,1,1) |
---|
927 | tg_e3wp%d_value(ji,jj,1,1) = tg_e3w_0%d_value(ji,jj,ik,1) * & |
---|
928 | & tg_ssmask%d_value(ji,jj,1,1) |
---|
929 | END DO |
---|
930 | END DO |
---|
931 | ! e3t_ps |
---|
932 | CALL mpp_add_var(tl_mppzgr, tg_e3tp) |
---|
933 | CALL var_clean(tg_e3tp) |
---|
934 | ! e3w_ps |
---|
935 | CALL mpp_add_var(tl_mppzgr, tg_e3wp) |
---|
936 | CALL var_clean(tg_e3wp) |
---|
937 | |
---|
938 | ENDIF ! 3D vertical scale factors |
---|
939 | |
---|
940 | IF( ll_domcfg .OR. in_msh <= 3 ) THEN ! 3D depth |
---|
941 | |
---|
942 | IF( .NOT. tl_namz%l_e3_dep )THEN |
---|
943 | |
---|
944 | ! gdepu, gdepv |
---|
945 | IF( .NOT. ll_domcfg )THEN |
---|
946 | ALLOCATE(dl_tmp3D(jpi,jpj,jpk)) |
---|
947 | dl_tmp3D(:,:,:)=dp_fill |
---|
948 | |
---|
949 | tl_gdepu=var_init('gdepu',dl_tmp3D(:,:,:), id_type=NF90_FLOAT) |
---|
950 | tl_gdepv=var_init('gdepv',dl_tmp3D(:,:,:), id_type=NF90_FLOAT) |
---|
951 | |
---|
952 | DEALLOCATE(dl_tmp3D) |
---|
953 | DO jk = 1,jpk |
---|
954 | DO jj = 1, jpj-1 |
---|
955 | DO ji = 1, jpi-1 ! vector opt. |
---|
956 | tl_gdepu%d_value(ji,jj,jk,1) = MIN( tg_gdept_0%d_value(ji ,jj ,jk,1) , & |
---|
957 | & tg_gdept_0%d_value(ji+1,jj ,jk,1) ) |
---|
958 | |
---|
959 | tl_gdepv%d_value(ji,jj,jk,1) = MIN( tg_gdept_0%d_value(ji ,jj ,jk,1) , & |
---|
960 | & tg_gdept_0%d_value(ji ,jj+1,jk,1) ) |
---|
961 | END DO |
---|
962 | END DO |
---|
963 | END DO |
---|
964 | CALL lbc_lnk( tl_gdepu%d_value(:,:,:,1), 'U', in_perio, 1._dp ) |
---|
965 | CALL lbc_lnk( tl_gdepv%d_value(:,:,:,1), 'V', in_perio, 1._dp ) |
---|
966 | |
---|
967 | ! gdepu |
---|
968 | CALL mpp_add_var(tl_mppzgr, tl_gdepu) |
---|
969 | CALL var_clean(tl_gdepu) |
---|
970 | ! gdepv |
---|
971 | CALL mpp_add_var(tl_mppzgr, tl_gdepv) |
---|
972 | CALL var_clean(tl_gdepv) |
---|
973 | ENDIF |
---|
974 | |
---|
975 | ! gdept_0 |
---|
976 | CALL mpp_add_var(tl_mppzgr, tg_gdept_0) |
---|
977 | CALL var_clean(tg_gdept_0) |
---|
978 | |
---|
979 | ! gdepw_0 |
---|
980 | CALL mpp_add_var(tl_mppzgr, tg_gdepw_0) |
---|
981 | CALL var_clean(tg_gdepw_0) |
---|
982 | ENDIF |
---|
983 | |
---|
984 | ELSE ! 2D bottom depth |
---|
985 | ALLOCATE(dl_tmp2D(jpi,jpj)) |
---|
986 | dl_tmp2D(:,:)=dp_fill |
---|
987 | |
---|
988 | tl_hdept=var_init('hdept',dl_tmp2D(:,:), id_type=NF90_INT) |
---|
989 | tl_hdepw=var_init('hdepw',dl_tmp2D(:,:), id_type=NF90_INT) |
---|
990 | |
---|
991 | DEALLOCATE(dl_tmp2D) |
---|
992 | DO jj = 1,jpj |
---|
993 | DO ji = 1,jpi |
---|
994 | ik=tg_mbkt%d_value(ji,jj,1,1) |
---|
995 | tl_hdept%d_value(ji,jj,1,1) = tg_gdept_0%d_value(ji,jj,ik ,1) * tg_ssmask%d_value(ji,jj,1,1) |
---|
996 | tl_hdepw%d_value(ji,jj,1,1) = tg_gdepw_0%d_value(ji,jj,ik+1,1) * tg_ssmask%d_value(ji,jj,1,1) |
---|
997 | END DO |
---|
998 | END DO |
---|
999 | ! hdept |
---|
1000 | CALL mpp_add_var(tl_mppzgr, tl_hdept) |
---|
1001 | CALL var_clean(tl_hdept) |
---|
1002 | ! hdepw |
---|
1003 | CALL mpp_add_var(tl_mppzgr, tl_hdepw) |
---|
1004 | CALL var_clean(tl_hdepw) |
---|
1005 | |
---|
1006 | ! clean |
---|
1007 | CALL var_clean(tg_gdept_0) |
---|
1008 | |
---|
1009 | ENDIF ! 3D depth |
---|
1010 | |
---|
1011 | ENDIF |
---|
1012 | |
---|
1013 | ! scale factors |
---|
1014 | IF( ll_domcfg )THEN |
---|
1015 | ! e3t_1d |
---|
1016 | CALL mpp_add_var(tl_mppzgr, tg_e3t_1d) |
---|
1017 | CALL var_clean(tg_e3t_1d) |
---|
1018 | ! e3w_1d |
---|
1019 | CALL mpp_add_var(tl_mppzgr, tg_e3w_1d) |
---|
1020 | CALL var_clean(tg_e3w_1d) |
---|
1021 | ENDIF |
---|
1022 | |
---|
1023 | IF( ln_zps .OR. ln_zco )THEN ! z-coordinate |
---|
1024 | IF( .NOT. tl_namz%l_e3_dep )THEN |
---|
1025 | ! depth |
---|
1026 | ! gdept_1d |
---|
1027 | CALL mpp_add_var(tl_mppzgr, tg_gdept_1d) |
---|
1028 | CALL var_clean(tg_gdept_1d) |
---|
1029 | ! gdepw_1d |
---|
1030 | CALL mpp_add_var(tl_mppzgr, tg_gdepw_1d) |
---|
1031 | CALL var_clean(tg_gdepw_1d) |
---|
1032 | ENDIF |
---|
1033 | ENDIF |
---|
1034 | |
---|
1035 | ! define global attributes |
---|
1036 | ALLOCATE(tl_gatt(ip_maxatt)) |
---|
1037 | |
---|
1038 | tl_gatt(:) = create__gloatt(cn_bathy,cn_coord,cn_isfdep,tl_namh,tl_namz) |
---|
1039 | |
---|
1040 | |
---|
1041 | IF( in_msh == 0 ) in_msh=1 |
---|
1042 | SELECT CASE ( MOD(in_msh, 3) ) |
---|
1043 | CASE ( 1 ) |
---|
1044 | ! add some attribute |
---|
1045 | tl_att=att_init("Created_by","SIREN create_meshmask") |
---|
1046 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1047 | |
---|
1048 | cl_date=date_print(date_now()) |
---|
1049 | tl_att=att_init("Creation_date",TRIM(cl_date)) |
---|
1050 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1051 | |
---|
1052 | ! add attribute periodicity |
---|
1053 | il_attid=0 |
---|
1054 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1055 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'periodicity') |
---|
1056 | ENDIF |
---|
1057 | IF( in_perio >= 0 .AND. il_attid == 0 )THEN |
---|
1058 | tl_att=att_init('periodicity',in_perio) |
---|
1059 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1060 | ENDIF |
---|
1061 | |
---|
1062 | il_attid=0 |
---|
1063 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1064 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'ew_overlap') |
---|
1065 | ENDIF |
---|
1066 | IF( il_ew >= 0 .AND. il_attid == 0 )THEN |
---|
1067 | tl_att=att_init('ew_overlap',il_ew) |
---|
1068 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1069 | ENDIF |
---|
1070 | |
---|
1071 | ji=1 |
---|
1072 | DO WHILE( tl_gatt(ji)%c_name /= '' ) |
---|
1073 | CALL mpp_add_att(tl_mppmsk,tl_gatt(ji)) |
---|
1074 | ji=ji+1 |
---|
1075 | ENDDO |
---|
1076 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
1077 | ! create file |
---|
1078 | CALL iom_mpp_create(tl_mppmsk) |
---|
1079 | |
---|
1080 | ! write file |
---|
1081 | CALL iom_mpp_write_file(tl_mppmsk) |
---|
1082 | ! close file |
---|
1083 | CALL iom_mpp_close(tl_mppmsk) |
---|
1084 | |
---|
1085 | ! clean |
---|
1086 | CALL mpp_clean(tl_mppmsk) |
---|
1087 | |
---|
1088 | CASE ( 2 ) |
---|
1089 | ! add some attribute |
---|
1090 | tl_att=att_init("Created_by","SIREN create_meshmask") |
---|
1091 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1092 | CALL mpp_add_att(tl_mpphgr, tl_att) |
---|
1093 | |
---|
1094 | cl_date=date_print(date_now()) |
---|
1095 | tl_att=att_init("Creation_date",TRIM(cl_date)) |
---|
1096 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1097 | CALL mpp_add_att(tl_mpphgr, tl_att) |
---|
1098 | |
---|
1099 | ! add attribute periodicity |
---|
1100 | il_attid=0 |
---|
1101 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1102 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'periodicity') |
---|
1103 | ENDIF |
---|
1104 | IF( in_perio >= 0 .AND. il_attid == 0 )THEN |
---|
1105 | tl_att=att_init('periodicity',in_perio) |
---|
1106 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1107 | CALL mpp_add_att(tl_mpphgr,tl_att) |
---|
1108 | ENDIF |
---|
1109 | |
---|
1110 | il_attid=0 |
---|
1111 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1112 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'ew_overlap') |
---|
1113 | ENDIF |
---|
1114 | IF( il_ew >= 0 .AND. il_attid == 0 )THEN |
---|
1115 | tl_att=att_init('ew_overlap',il_ew) |
---|
1116 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1117 | CALL mpp_add_att(tl_mpphgr,tl_att) |
---|
1118 | ENDIF |
---|
1119 | |
---|
1120 | ji=1 |
---|
1121 | DO WHILE( tl_gatt(ji)%c_name /= '' ) |
---|
1122 | CALL mpp_add_att(tl_mppmsk,tl_gatt(ji)) |
---|
1123 | CALL mpp_add_att(tl_mpphgr,tl_gatt(ji)) |
---|
1124 | ji=ji+1 |
---|
1125 | ENDDO |
---|
1126 | |
---|
1127 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
1128 | ! create mask file |
---|
1129 | !----------------- |
---|
1130 | CALL iom_mpp_create(tl_mppmsk) |
---|
1131 | |
---|
1132 | ! write file |
---|
1133 | CALL iom_mpp_write_file(tl_mppmsk) |
---|
1134 | ! close file |
---|
1135 | CALL iom_mpp_close(tl_mppmsk) |
---|
1136 | |
---|
1137 | ! clean |
---|
1138 | CALL mpp_clean(tl_mppmsk) |
---|
1139 | |
---|
1140 | ! create mesh file |
---|
1141 | !----------------- |
---|
1142 | CALL iom_mpp_create(tl_mpphgr) |
---|
1143 | |
---|
1144 | ! write file |
---|
1145 | CALL iom_mpp_write_file(tl_mpphgr) |
---|
1146 | ! close file |
---|
1147 | CALL iom_mpp_close(tl_mpphgr) |
---|
1148 | |
---|
1149 | ! clean |
---|
1150 | CALL mpp_clean(tl_mpphgr) |
---|
1151 | |
---|
1152 | CASE(0) |
---|
1153 | ! add some attribute |
---|
1154 | tl_att=att_init("Created_by","SIREN create_meshmask") |
---|
1155 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1156 | CALL mpp_add_att(tl_mpphgr, tl_att) |
---|
1157 | CALL mpp_add_att(tl_mppzgr, tl_att) |
---|
1158 | |
---|
1159 | cl_date=date_print(date_now()) |
---|
1160 | tl_att=att_init("Creation_date",TRIM(cl_date)) |
---|
1161 | CALL mpp_add_att(tl_mppmsk, tl_att) |
---|
1162 | CALL mpp_add_att(tl_mpphgr, tl_att) |
---|
1163 | CALL mpp_add_att(tl_mppzgr, tl_att) |
---|
1164 | |
---|
1165 | ! add attribute periodicity |
---|
1166 | il_attid=0 |
---|
1167 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1168 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'periodicity') |
---|
1169 | ENDIF |
---|
1170 | IF( in_perio >= 0 .AND. il_attid == 0 )THEN |
---|
1171 | tl_att=att_init('periodicity',in_perio) |
---|
1172 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1173 | CALL mpp_add_att(tl_mpphgr,tl_att) |
---|
1174 | CALL mpp_add_att(tl_mppzgr,tl_att) |
---|
1175 | ENDIF |
---|
1176 | |
---|
1177 | il_attid=0 |
---|
1178 | IF( ASSOCIATED(tl_mppmsk%t_proc(1)%t_att) )THEN |
---|
1179 | il_attid=att_get_id(tl_mppmsk%t_proc(1)%t_att(:),'ew_overlap') |
---|
1180 | ENDIF |
---|
1181 | IF( il_ew >= 0 .AND. il_attid == 0 )THEN |
---|
1182 | tl_att=att_init('ew_overlap',il_ew) |
---|
1183 | CALL mpp_add_att(tl_mppmsk,tl_att) |
---|
1184 | CALL mpp_add_att(tl_mpphgr,tl_att) |
---|
1185 | CALL mpp_add_att(tl_mppzgr,tl_att) |
---|
1186 | ENDIF |
---|
1187 | |
---|
1188 | ji=1 |
---|
1189 | DO WHILE( tl_gatt(ji)%c_name /= '' ) |
---|
1190 | CALL mpp_add_att(tl_mppmsk,tl_gatt(ji)) |
---|
1191 | CALL mpp_add_att(tl_mpphgr,tl_gatt(ji)) |
---|
1192 | CALL mpp_add_att(tl_mppzgr,tl_gatt(ji)) |
---|
1193 | ji=ji+1 |
---|
1194 | ENDDO |
---|
1195 | |
---|
1196 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
1197 | ! create mask file |
---|
1198 | !----------------- |
---|
1199 | CALL iom_mpp_create(tl_mppmsk) |
---|
1200 | |
---|
1201 | ! write file |
---|
1202 | CALL iom_mpp_write_file(tl_mppmsk) |
---|
1203 | ! close file |
---|
1204 | CALL iom_mpp_close(tl_mppmsk) |
---|
1205 | |
---|
1206 | ! clean |
---|
1207 | WRITE(*,*) "CLEAN MSK" |
---|
1208 | CALL mpp_clean(tl_mppmsk) |
---|
1209 | |
---|
1210 | ! create mesh_hgr file |
---|
1211 | !----------------- |
---|
1212 | CALL iom_mpp_create(tl_mpphgr) |
---|
1213 | |
---|
1214 | ! write file |
---|
1215 | CALL iom_mpp_write_file(tl_mpphgr) |
---|
1216 | ! close file |
---|
1217 | CALL iom_mpp_close(tl_mpphgr) |
---|
1218 | |
---|
1219 | ! clean |
---|
1220 | WRITE(*,*) "CLEAN HGR" |
---|
1221 | CALL mpp_clean(tl_mpphgr) |
---|
1222 | |
---|
1223 | ! create mesh_zgr file |
---|
1224 | !----------------- |
---|
1225 | WRITE(*,*) "CREATE ZGR" |
---|
1226 | CALL iom_mpp_create(tl_mppzgr) |
---|
1227 | |
---|
1228 | ! write file |
---|
1229 | WRITE(*,*) "WRITE ZGR" |
---|
1230 | CALL iom_mpp_write_file(tl_mppzgr) |
---|
1231 | ! close file |
---|
1232 | WRITE(*,*) "CLOSE ZGR" |
---|
1233 | CALL iom_mpp_close(tl_mppzgr) |
---|
1234 | |
---|
1235 | ! clean |
---|
1236 | WRITE(*,*) "CLEAN ZGR" |
---|
1237 | CALL mpp_clean(tl_mppzgr) |
---|
1238 | |
---|
1239 | CASE DEFAULT |
---|
1240 | CALL logger_fatal("CREATE MESHMASK : something wrong with in_msh("//& |
---|
1241 | & TRIM(fct_str(in_msh))//"), check your namelist.") |
---|
1242 | END SELECT |
---|
1243 | |
---|
1244 | ! clean |
---|
1245 | WRITE(*,*) "CLEAN" |
---|
1246 | CALL att_clean(tl_att) |
---|
1247 | CALL att_clean(tl_gatt) |
---|
1248 | |
---|
1249 | DEALLOCATE(tl_gatt) |
---|
1250 | |
---|
1251 | CALL grid_hgr_clean(ll_domcfg) |
---|
1252 | CALL grid_zgr_clean(ln_sco) |
---|
1253 | IF( ln_zps ) CALL grid_zgr_zps_clean() |
---|
1254 | IF( ln_sco ) CALL grid_zgr_sco_clean() |
---|
1255 | CALL var_clean_extra() |
---|
1256 | |
---|
1257 | ! close log file |
---|
1258 | CALL logger_footer() |
---|
1259 | CALL logger_close() |
---|
1260 | CONTAINS |
---|
1261 | !------------------------------------------------------------------- |
---|
1262 | !> @brief This subroutine compute land/ocean mask arrays at tracer points, |
---|
1263 | !> horizontal velocity points (u & v), vorticity points (f) and |
---|
1264 | !> barotropic stream function points (b). |
---|
1265 | !> |
---|
1266 | !> @details |
---|
1267 | !> |
---|
1268 | !> ** Method : The ocean/land mask is computed from the basin bathymetry in level (mbathy) which is defined or read in dommba. |
---|
1269 | !> mbathy equals 0 over continental T-point and the number of ocean level over the ocean. |
---|
1270 | !> |
---|
1271 | !> At a given position (ji,jj,jk) the ocean/land mask is given by: |
---|
1272 | !> - t-point : |
---|
1273 | !> - 0. IF mbathy( ji ,jj) =< 0 |
---|
1274 | !> - 1. IF mbathy( ji ,jj) >= jk |
---|
1275 | !> - u-point : |
---|
1276 | !> - 0. IF mbathy( ji ,jj) or mbathy(ji+1, jj ) =< 0 |
---|
1277 | !> - 1. IF mbathy( ji ,jj) and mbathy(ji+1, jj ) >= jk. |
---|
1278 | !> - v-point : |
---|
1279 | !> - 0. IF mbathy( ji ,jj) or mbathy( ji ,jj+1) =< 0 |
---|
1280 | !> - 1. IF mbathy( ji ,jj) and mbathy( ji ,jj+1) >= jk. |
---|
1281 | !> - f-point : |
---|
1282 | !> - 0. IF mbathy( ji ,jj) or mbathy( ji ,jj+1) or mbathy(ji+1,jj) or mbathy(ji+1,jj+1) =< 0 |
---|
1283 | !> - 1. IF mbathy( ji ,jj) and mbathy( ji ,jj+1) and mbathy(ji+1,jj) and mbathy(ji+1,jj+1) >= jk. |
---|
1284 | !> - b-point : the same definition as for f-point of the first ocean |
---|
1285 | !> level (surface level) but with 0 along coastlines. |
---|
1286 | !> - tmask_i : interior ocean mask at t-point, i.e. excluding duplicated |
---|
1287 | !> rows/lines due to cyclic or North Fold boundaries as well |
---|
1288 | !> as MPP halos. |
---|
1289 | !> |
---|
1290 | !> @warning do not set the lateral friction through the value of fmask along |
---|
1291 | !> the coast and topography. |
---|
1292 | !> |
---|
1293 | !> @note If nperio not equal to 0, the land/ocean mask arrays |
---|
1294 | !> are defined with the proper value at lateral domain boundaries, |
---|
1295 | !> but bmask. indeed, bmask defined the domain over which the |
---|
1296 | !> barotropic stream function is computed. this domain cannot |
---|
1297 | !> contain identical columns because the matrix associated with |
---|
1298 | !> the barotropic stream function equation is then no more inverti- |
---|
1299 | !> ble. therefore bmask is set to 0 along lateral domain boundaries |
---|
1300 | !> even IF nperio is not zero. |
---|
1301 | !> |
---|
1302 | !> In case of open boundaries (lk_bdy=T): |
---|
1303 | !> - tmask is set to 1 on the points to be computed bay the open |
---|
1304 | !> boundaries routines. |
---|
1305 | !> - bmask is set to 0 on the open boundaries. |
---|
1306 | !> |
---|
1307 | !> ** Action : |
---|
1308 | !> - tmask : land/ocean mask at t-point (=0. or 1.) |
---|
1309 | !> - umask : land/ocean mask at u-point (=0. or 1.) |
---|
1310 | !> - vmask : land/ocean mask at v-point (=0. or 1.) |
---|
1311 | !> - fmask : land/ocean mask at f-point (=0. or 1.) |
---|
1312 | !> - bmask : land/ocean mask at barotropic stream |
---|
1313 | !> function point (=0. or 1.) and set to 0 along lateral boundaries |
---|
1314 | !> - tmask_i : interior ocean mask |
---|
1315 | !> |
---|
1316 | !> @author J.Paul |
---|
1317 | !> @date September, 2015 - rewrite from dom_msk |
---|
1318 | !> @date October, 2016 |
---|
1319 | !> - do not use anymore special case for ORCA grid |
---|
1320 | !> |
---|
1321 | !> @param[in] td_nam |
---|
1322 | !> @param[in] jpi |
---|
1323 | !> @param[in] jpj |
---|
1324 | !> @param[in] jpk |
---|
1325 | !------------------------------------------------------------------- |
---|
1326 | SUBROUTINE create__mask(td_nam,jpi,jpj,jpk,ld_domcfg) |
---|
1327 | IMPLICIT NONE |
---|
1328 | ! Argument |
---|
1329 | TYPE(TNAMH), INTENT(IN) :: td_nam |
---|
1330 | INTEGER(i4), INTENT(IN) :: jpi |
---|
1331 | INTEGER(i4), INTENT(IN) :: jpj |
---|
1332 | INTEGER(i4), INTENT(IN) :: jpk |
---|
1333 | LOGICAL , INTENT(IN) :: ld_domcfg |
---|
1334 | |
---|
1335 | ! local variable |
---|
1336 | ! INTEGER(i4) :: ii0, ii1 ! local integers |
---|
1337 | ! INTEGER(i4) :: ij0, ij1 |
---|
1338 | ! INTEGER(i4) :: isrow |
---|
1339 | |
---|
1340 | ! INTEGER(i4), DIMENSION(:,:), ALLOCATABLE :: imsk |
---|
1341 | REAL(dp) , DIMENSION(:,:), ALLOCATABLE :: zwf |
---|
1342 | |
---|
1343 | ! REAL(dp) , DIMENSION(:) , ALLOCATABLE :: dl_tpol |
---|
1344 | ! REAL(dp) , DIMENSION(:) , ALLOCATABLE :: dl_fpol |
---|
1345 | |
---|
1346 | ! loop indices |
---|
1347 | INTEGER(i4) :: ji |
---|
1348 | INTEGER(i4) :: jj |
---|
1349 | INTEGER(i4) :: jk |
---|
1350 | !---------------------------------------------------------------- |
---|
1351 | |
---|
1352 | ! ALLOCATE( imsk(jpi,jpj) ) |
---|
1353 | |
---|
1354 | ! ALLOCATE( dl_tpol(jpi) ) |
---|
1355 | ! ALLOCATE( dl_fpol(jpi) ) |
---|
1356 | |
---|
1357 | CALL logger_info('dommsk : ocean mask ') |
---|
1358 | CALL logger_info('~~~~~~') |
---|
1359 | IF ( rn_shlat == 0. )THEN ; CALL logger_info(' ocean lateral free-slip ') |
---|
1360 | ELSEIF( rn_shlat == 2. )THEN ; CALL logger_info(' ocean lateral no-slip ') |
---|
1361 | ELSEIF( 0. < rn_shlat .AND. rn_shlat < 2. )THEN ; CALL logger_info(' ocean lateral partial-slip ') |
---|
1362 | ELSEIF( 2. < rn_shlat )THEN ; CALL logger_info(' ocean lateral strong-slip ') |
---|
1363 | ELSE ; CALL logger_info(' rn_shlat is negative = '//TRIM(fct_str(rn_shlat))) |
---|
1364 | ENDIF |
---|
1365 | |
---|
1366 | ! 1. Ocean/land mask at t-point (computed from mbathy) |
---|
1367 | ! ----------------------------- |
---|
1368 | ! N.B. tmask has already the right boundary conditions since mbathy is ok |
---|
1369 | ! |
---|
1370 | tg_tmask%d_value(:,:,:,1) = 0._dp |
---|
1371 | DO jk = 1, jpk |
---|
1372 | DO jj = 1, jpj |
---|
1373 | DO ji = 1, jpi |
---|
1374 | IF( tg_mbathy%d_value(ji,jj,1,1) - REAL(jk,dp) + 0.1_dp >= 0._dp )THEN |
---|
1375 | tg_tmask%d_value(ji,jj,jk,1) = 1._dp |
---|
1376 | ENDIF |
---|
1377 | ENDDO |
---|
1378 | ENDDO |
---|
1379 | ENDDO |
---|
1380 | |
---|
1381 | ! (ISF) define barotropic mask and mask the ice shelf point |
---|
1382 | tg_ssmask%d_value(:,:,1,1)=tg_tmask%d_value(:,:,1,1) ! at this stage ice shelf is not masked |
---|
1383 | |
---|
1384 | DO jk = 1, jpk |
---|
1385 | DO jj = 1, jpj |
---|
1386 | DO ji = 1, jpi |
---|
1387 | IF( tg_misfdep%d_value(ji,jj,1,1) - REAL(jk,dp) - 0.1_dp >= 0._dp ) THEN |
---|
1388 | tg_tmask%d_value(ji,jj,jk,1) = 0._dp |
---|
1389 | END IF |
---|
1390 | ENDDO |
---|
1391 | ENDDO |
---|
1392 | ENDDO |
---|
1393 | |
---|
1394 | ! ! Interior domain mask (used for global sum) |
---|
1395 | ! ! -------------------- |
---|
1396 | ! tg_tmask_i%d_value(:,:,1,1) = tg_ssmask%d_value(:,:,1,1) ! (ISH) tmask_i = 1 even on the ice shelf |
---|
1397 | ! |
---|
1398 | ! tg_tmask_h%d_value(:,:,1,1) = 1._dp ! 0 on the halo and 1 elsewhere |
---|
1399 | ! |
---|
1400 | ! tg_tmask_h%d_value( 1 , : ,1,1) = 0._dp ! first columns |
---|
1401 | ! tg_tmask_h%d_value(jpi, : ,1,1) = 0._dp ! last columns |
---|
1402 | ! tg_tmask_h%d_value( : , 1 ,1,1) = 0._dp ! first rows |
---|
1403 | ! tg_tmask_h%d_value( : ,jpj,1,1) = 0._dp ! last rows |
---|
1404 | ! |
---|
1405 | ! ! north fold mask |
---|
1406 | ! ! --------------- |
---|
1407 | ! dl_tpol(1:jpi) = 1._dp |
---|
1408 | ! dl_fpol(1:jpi) = 1._dp |
---|
1409 | ! IF( td_nam%i_perio == 3 .OR. td_nam%i_perio == 4 )THEN ! T-point pivot |
---|
1410 | ! dl_tpol(jpi/2+1:jpi) = 0._dp |
---|
1411 | ! dl_fpol( 1 :jpi) = 0._dp |
---|
1412 | ! IF( mjg(nlej) == jpj ) THEN ! only half of the nlcj-1 row |
---|
1413 | ! DO ji = iif+1, iil-1 |
---|
1414 | ! tg_tmask_h%d_value(ji,nlej-1,1,1) = tg_tmask_h%d_value(ji,nlej-1,1,1) * dl_tpol(mig(ji)) |
---|
1415 | ! END DO |
---|
1416 | ! ENDIF |
---|
1417 | ! ENDIF |
---|
1418 | ! |
---|
1419 | ! tg_tmask_i%d_value(:,:,1,1) = tg_tmask_i%d_value(:,:,1,1) * tg_tmask_h%d_value(:,:,1,1) |
---|
1420 | ! |
---|
1421 | ! IF( td_nam%i_perio == 5 .OR. td_nam%i_perio == 6 )THEN ! F-point pivot |
---|
1422 | ! dl_tpol( 1 :jpi) = 0._dp |
---|
1423 | ! dl_fpol(jpi/2+1:jpi) = 0._dp |
---|
1424 | ! ENDIF |
---|
1425 | |
---|
1426 | ! 2. Ocean/land mask at u-, v-, and z-points (computed from tmask) |
---|
1427 | ! ------------------------------------------- |
---|
1428 | DO jk = 1, jpk |
---|
1429 | DO jj = 1, jpj-1 |
---|
1430 | DO ji = 1, jpi-1 ! vector loop |
---|
1431 | tg_umask%d_value(ji,jj,jk,1) = tg_tmask%d_value(ji ,jj ,jk,1) * & |
---|
1432 | & tg_tmask%d_value(ji+1,jj ,jk,1) |
---|
1433 | |
---|
1434 | tg_vmask%d_value(ji,jj,jk,1) = tg_tmask%d_value(ji ,jj ,jk,1) * & |
---|
1435 | & tg_tmask%d_value(ji ,jj+1,jk,1) |
---|
1436 | !END DO |
---|
1437 | !DO ji = 1, jpi-1 ! NO vector opt. |
---|
1438 | IF( .NOT. ld_domcfg )THEN |
---|
1439 | tg_fmask%d_value(ji,jj,jk,1) = tg_tmask%d_value(ji ,jj ,jk,1) * & |
---|
1440 | & tg_tmask%d_value(ji+1,jj ,jk,1) * & |
---|
1441 | & tg_tmask%d_value(ji ,jj+1,jk,1) * & |
---|
1442 | & tg_tmask%d_value(ji+1,jj+1,jk,1) |
---|
1443 | ENDIF |
---|
1444 | ENDDO |
---|
1445 | ENDDO |
---|
1446 | ENDDO |
---|
1447 | |
---|
1448 | ! ! (ISF) MIN(1,SUM(umask)) is here to check if you have effectively at least 1 wet cell at u point |
---|
1449 | ! DO jj = 1, jpjm1 |
---|
1450 | ! DO ji = 1, fs_jpim1 ! vector loop |
---|
1451 | ! tg_ssumask%d_value(ji,jj,1,1) = tg_ssmask%d_value(ji ,jj ,1,1) * & |
---|
1452 | ! & tg_ssmask%d_value(ji+1,jj ,1,1) * & |
---|
1453 | ! & MIN( 1._wp, SUM(tg_umask%d_value(ji,jj,:,1)) ) |
---|
1454 | ! tg_ssvmask%d_value(ji,jj,1,1) = tg_ssmask%d_value(ji ,jj ,1,1) * & |
---|
1455 | ! & tg_ssmask%d_value(ji ,jj+1,1,1) * & |
---|
1456 | ! & MIN( 1._wp, SUM(tg_vmask%d_value(ji,jj,:,1)) ) |
---|
1457 | ! END DO |
---|
1458 | ! DO ji = 1, jpim1 ! NO vector opt. |
---|
1459 | ! tg_ssfmask%d_value(ji,jj,1,1) = tg_ssmask%d_value(ji ,jj ,1,1) * & |
---|
1460 | ! & tg_ssmask%d_value(ji+1,jj ,1,1) * & |
---|
1461 | ! & tg_ssmask%d_value(ji ,jj+1,1,1) * & |
---|
1462 | ! & tg_ssmask%d_value(ji+1,jj+1,1,1) * & |
---|
1463 | ! & MIN( 1._wp, SUM(tg_fmask%d_value(ji,jj,:,1)) ) |
---|
1464 | ! END DO |
---|
1465 | ! END DO |
---|
1466 | CALL lbc_lnk( tg_umask%d_value (:,:,:,1), 'U', td_nam%i_perio, 1._dp ) ! Lateral boundary conditions |
---|
1467 | CALL lbc_lnk( tg_vmask%d_value (:,:,:,1), 'V', td_nam%i_perio, 1._dp ) |
---|
1468 | IF( .NOT. ld_domcfg )THEN |
---|
1469 | CALL lbc_lnk( tg_fmask%d_value (:,:,:,1), 'F', td_nam%i_perio, 1._dp ) |
---|
1470 | ENDIF |
---|
1471 | ! CALL lbc_lnk( tg_ssumask%d_value(:,:,:,1), 'U', td_nam%i_perio, 1._dp ) ! Lateral boundary conditions |
---|
1472 | ! CALL lbc_lnk( tg_ssvmask%d_value(:,:,:,1), 'V', td_nam%i_perio, 1._dp ) |
---|
1473 | ! CALL lbc_lnk( tg_ssfmask%d_value(:,:,:,1), 'F', td_nam%i_perio, 1._dp ) |
---|
1474 | |
---|
1475 | ! 3. Ocean/land mask at wu-, wv- and w points |
---|
1476 | !---------------------------------------------- |
---|
1477 | ! tg_wmask%d_value (:,:,1,1) = tg_tmask%d_value(:,:,1,1) ! surface |
---|
1478 | ! tg_wumask%d_value(:,:,1,1) = tg_umask%d_value(:,:,1,1) |
---|
1479 | ! tg_wvmask%d_value(:,:,1,1) = tg_vmask%d_value(:,:,1,1) |
---|
1480 | ! |
---|
1481 | ! DO jk=2,jpk ! interior values |
---|
1482 | ! tg_wmask%d_value (:,:,jk,1) = tg_tmask%d_value(:,:,jk ,1) * & |
---|
1483 | ! & tg_tmask%d_value(:,:,jk-1,1) |
---|
1484 | ! tg_wumask%d_value(:,:,jk,1) = tg_umask%d_value(:,:,jk ,1) * & |
---|
1485 | ! & tg_umask%d_value(:,:,jk-1,1) |
---|
1486 | ! tg_wvmask%d_value(:,:,jk,1) = tg_vmask%d_value(:,:,jk ,1) * & |
---|
1487 | ! & tg_vmask%d_value(:,:,jk-1,1) |
---|
1488 | ! ENDDO |
---|
1489 | |
---|
1490 | ! Lateral boundary conditions on velocity (modify fmask) |
---|
1491 | ! --------------------------------------- |
---|
1492 | IF( .NOT. ld_domcfg )THEN |
---|
1493 | ALLOCATE( zwf(jpi,jpj) ) |
---|
1494 | DO jk = 1, jpk |
---|
1495 | zwf(:,:) = tg_fmask%d_value(:,:,jk,1) |
---|
1496 | DO jj = 2, jpj-1 |
---|
1497 | DO ji = 2, jpi-1 ! vector opt. |
---|
1498 | IF( tg_fmask%d_value(ji,jj,jk,1) == 0._dp )THEN |
---|
1499 | tg_fmask%d_value(ji,jj,jk,1) = rn_shlat * & |
---|
1500 | & MIN(1._dp , MAX(zwf(ji+1,jj), zwf(ji,jj+1), & |
---|
1501 | & zwf(ji-1,jj), zwf(ji,jj-1)) ) |
---|
1502 | ENDIF |
---|
1503 | END DO |
---|
1504 | END DO |
---|
1505 | DO jj = 2, jpj-1 |
---|
1506 | IF( tg_fmask%d_value(1,jj,jk,1) == 0._dp )THEN |
---|
1507 | tg_fmask%d_value(1 ,jj,jk,1) = rn_shlat * & |
---|
1508 | & MIN(1._dp, MAX(zwf(2,jj), zwf(1,jj+1), zwf(1,jj-1))) |
---|
1509 | ENDIF |
---|
1510 | IF( tg_fmask%d_value(jpi,jj,jk,1) == 0._dp )THEN |
---|
1511 | tg_fmask%d_value(jpi,jj,jk,1) = rn_shlat * & |
---|
1512 | & MIN(1._wp, MAX(zwf(jpi,jj+1), zwf(jpi-1,jj), zwf(jpi,jj-1))) |
---|
1513 | ENDIF |
---|
1514 | END DO |
---|
1515 | DO ji = 2, jpi-1 |
---|
1516 | IF( tg_fmask%d_value(ji,1,jk,1) == 0._dp )THEN |
---|
1517 | tg_fmask%d_value(ji, 1 ,jk,1) = rn_shlat * & |
---|
1518 | & MIN(1._dp, MAX(zwf(ji+1,1), zwf(ji,2), zwf(ji-1,1))) |
---|
1519 | ENDIF |
---|
1520 | IF( tg_fmask%d_value(ji,jpj,jk,1) == 0._dp )THEN |
---|
1521 | tg_fmask%d_value(ji,jpj,jk,1) = rn_shlat * & |
---|
1522 | & MIN(1._dp, MAX(zwf(ji+1,jpj), zwf(ji-1,jpj), zwf(ji,jpj-1))) |
---|
1523 | ENDIF |
---|
1524 | END DO |
---|
1525 | END DO |
---|
1526 | DEALLOCATE( zwf ) |
---|
1527 | |
---|
1528 | ! IF( td_nam%c_cfg == "orca" .AND. td_nam%i_cfg == 2 )THEN ! ORCA_R2 configuration |
---|
1529 | ! ! ! Increased lateral friction near of some straits |
---|
1530 | ! IF( td_nam%i_cla == 0 ) THEN |
---|
1531 | ! ! Gibraltar strait : partial slip (fmask=0.5) |
---|
1532 | ! ij0 = 101 ; ij1 = 101 |
---|
1533 | ! ii0 = 139 ; ii1 = 140 |
---|
1534 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1) = 0.5_dp |
---|
1535 | ! |
---|
1536 | ! ij0 = 102 ; ij1 = 102 |
---|
1537 | ! ii0 = 139 ; ii1 = 140 |
---|
1538 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1) = 0.5_dp |
---|
1539 | ! ! |
---|
1540 | ! !Bab el Mandeb : partial slip (fmask=1) |
---|
1541 | ! ij0 = 87 ; ij1 = 88 |
---|
1542 | ! ii0 = 160 ; ii1 = 160 |
---|
1543 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1) = 1._dp |
---|
1544 | ! |
---|
1545 | ! ij0 = 88 ; ij1 = 88 |
---|
1546 | ! ii0 = 159 ; ii1 = 159 |
---|
1547 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1) = 1._dp |
---|
1548 | ! ! |
---|
1549 | ! ENDIF |
---|
1550 | ! ENDIF |
---|
1551 | ! ! |
---|
1552 | ! IF( td_nam%c_cfg == "orca" .AND. td_nam%i_cfg == 1 )THEN ! ORCA R1 configuration |
---|
1553 | ! ! Increased lateral friction near of some straits |
---|
1554 | ! ! This dirty section will be suppressed by simplification process: |
---|
1555 | ! ! all this will come back in input files |
---|
1556 | ! ! Currently these hard-wired indices relate to configuration with |
---|
1557 | ! ! extend grid (jpjglo=332) |
---|
1558 | ! ! |
---|
1559 | ! isrow = 332 - jpj |
---|
1560 | ! ! Gibraltar Strait |
---|
1561 | ! ii0 = 282 ; ii1 = 283 |
---|
1562 | ! ij0 = 201 + isrow ; ij1 = 241 - isrow |
---|
1563 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1) = 2._dp |
---|
1564 | ! |
---|
1565 | ! ! Bhosporus Strait |
---|
1566 | ! ii0 = 314 ; ii1 = 315 |
---|
1567 | ! ij0 = 208 + isrow ; ij1 = 248 - isrow |
---|
1568 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 2._dp |
---|
1569 | ! |
---|
1570 | ! ! Makassar Strait (Top) |
---|
1571 | ! ii0 = 48 ; ii1 = 48 |
---|
1572 | ! ij0 = 149 + isrow ; ij1 = 190 - isrow |
---|
1573 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 3._dp |
---|
1574 | ! |
---|
1575 | ! ! Lombok Strait |
---|
1576 | ! ii0 = 44 ; ii1 = 44 |
---|
1577 | ! ij0 = 124 + isrow ; ij1 = 165 - isrow |
---|
1578 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 2._dp |
---|
1579 | ! |
---|
1580 | ! ! Ombai Strait |
---|
1581 | ! ii0 = 53 ; ii1 = 53 |
---|
1582 | ! ij0 = 124 + isrow ; ij1 = 165 - isrow |
---|
1583 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 2._dp |
---|
1584 | ! |
---|
1585 | ! ! Timor Passage |
---|
1586 | ! ii0 = 56 ; ii1 = 56 |
---|
1587 | ! ij0 = 124 + isrow ; ij1 = 165 - isrow |
---|
1588 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 2._dp |
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1589 | ! |
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1590 | ! ! West Halmahera Strait |
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1591 | ! ii0 = 58 ; ii1 = 58 |
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1592 | ! ij0 = 141 + isrow ; ij1 = 182 - isrow |
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1593 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 3._dp |
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1594 | ! |
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1595 | ! ! East Halmahera Strait |
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1596 | ! ii0 = 55 ; ii1 = 55 |
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1597 | ! ij0 = 141 + isrow ; ij1 = 182 - isrow |
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1598 | ! tg_fmask%d_value(ii0:ii1,ij0:ij1,1:jpk,1 ) = 3._dp |
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1599 | ! ! |
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1600 | ! ENDIF |
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1601 | ! |
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1602 | CALL lbc_lnk( tg_fmask%d_value(:,:,:,1), 'F', td_nam%i_perio, 1._dp ) ! Lateral boundary conditions on fmask |
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1603 | ENDIF |
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1604 | |
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1605 | ! DEALLOCATE( imsk ) |
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1606 | |
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1607 | ! DEALLOCATE( dl_tpol ) |
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1608 | ! DEALLOCATE( dl_fpol ) |
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1609 | |
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1610 | END SUBROUTINE create__mask |
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1611 | !------------------------------------------------------------------- |
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1612 | !> @brief |
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1613 | !> this function create array of global attributes. |
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1614 | !> |
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1615 | !> @author J.Paul |
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1616 | !> @date October, 2016 - initial release |
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1617 | !> |
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1618 | !> @param[in] cd_bathy |
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1619 | !> @param[in] cd_coord |
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1620 | !> @param[in] cd_isfdep |
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1621 | !> @param[in] td_namh |
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1622 | !> @param[in] td_namz |
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1623 | !------------------------------------------------------------------- |
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1624 | FUNCTION create__gloatt(cd_bathy,cd_coord,cd_isfdep,td_namh,td_namz) RESULT(td_att) |
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1625 | IMPLICIT NONE |
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1626 | ! Argument |
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1627 | CHARACTER(LEN=*), INTENT(IN ) :: cd_bathy |
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1628 | CHARACTER(LEN=*), INTENT(IN ) :: cd_coord |
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1629 | CHARACTER(LEN=*), INTENT(IN ) :: cd_isfdep |
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1630 | TYPE(TNAMH) , INTENT(IN ) :: td_namh |
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1631 | TYPE(TNAMZ) , INTENT(IN ) :: td_namz |
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1632 | |
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1633 | ! function |
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1634 | TYPE(TATT), DIMENSION(ip_maxatt) :: td_att |
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1635 | |
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1636 | ! loop indices |
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1637 | INTEGER(i4) :: ji |
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1638 | !---------------------------------------------------------------- |
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1639 | |
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1640 | ji=1 ; td_att(ji)=att_init("src_bathy",TRIM(cd_bathy)) |
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1641 | ! horizontal grid |
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1642 | ji=ji+1 ; td_att(ji)=att_init("in_mshhgr",td_namh%i_mshhgr) |
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1643 | SELECT CASE(td_namh%i_mshhgr) |
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1644 | CASE(0) |
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1645 | ji=ji+1 ; td_att(ji)=att_init("src_coord",TRIM(cd_coord)) |
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1646 | CASE(1,4) |
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1647 | ji=ji+1 ; td_att(ji)=att_init("ppglam0",td_namh%d_ppglam0) |
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1648 | ji=ji+1 ; td_att(ji)=att_init("ppgphi0",td_namh%d_ppgphi0) |
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1649 | CASE(2,3) |
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1650 | ji=ji+1 ; td_att(ji)=att_init("ppglam0",td_namh%d_ppglam0) |
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1651 | ji=ji+1 ; td_att(ji)=att_init("ppgphi0",td_namh%d_ppgphi0) |
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1652 | ji=ji+1 ; td_att(ji)=att_init("ppe1_deg",td_namh%d_ppe1_deg) |
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1653 | ji=ji+1 ; td_att(ji)=att_init("ppe2_deg",td_namh%d_ppe2_deg) |
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1654 | END SELECT |
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1655 | |
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1656 | IF( td_namz%l_isfcav )THEN |
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1657 | ji=ji+1 ; td_att(ji)=att_init("ice_shelf_cavities","activated") |
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1658 | ji=ji+1 ; td_att(ji)=att_init("src_isfdep",TRIM(cd_isfdep)) |
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1659 | ENDIF |
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1660 | IF( td_namz%l_iscpl )THEN |
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1661 | ji=ji+1 ; td_att(ji)=att_init("ice_sheet_coupling","activated") |
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1662 | ENDIF |
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1663 | |
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1664 | ! vertical grid |
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1665 | IF( td_namz%l_zco )THEN |
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1666 | ji=ji+1 ; td_att(ji)=att_init("z_coord","full steps") |
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1667 | ENDIF |
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1668 | IF( td_namz%l_zps )THEN |
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1669 | ji=ji+1 ; td_att(ji)=att_init("z_coord","partial steps") |
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1670 | ENDIF |
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1671 | IF( td_namz%l_sco )THEN |
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1672 | IF( td_namz%l_s_sh94 )THEN |
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1673 | ji=ji+1 ; td_att(ji)=att_init("z_coord","hybrid Song and Haidvogel 1994") |
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1674 | ELSEIF( td_namz%l_s_sf12 )THEN |
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1675 | ji=ji+1 ; td_att(ji)=att_init("z_coord","hybrid Siddorn and Furner 2012") |
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1676 | ELSE |
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1677 | ji=ji+1 ; td_att(ji)=att_init("z_coord","sigma") |
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1678 | ENDIF |
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1679 | ENDIF |
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1680 | ji=ji+1 ; td_att(ji)=att_init("hmin",td_namz%d_hmin) |
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1681 | IF( td_namz%l_isfcav ) ji=ji+1 ; td_att(ji)=att_init("isfhmin",td_namz%d_isfhmin) |
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1682 | |
---|
1683 | ! zco |
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1684 | IF( td_namz%d_ppsur /= NF90_FILL_DOUBLE )THEN |
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1685 | ji=ji+1 ; td_att(ji)=att_init("ppsur",td_namz%d_ppsur) |
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1686 | ELSE |
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1687 | ji=ji+1 ; td_att(ji)=att_init("ppsur","to_be_computed") |
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1688 | ENDIF |
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1689 | IF( td_namz%d_ppa0 /= NF90_FILL_DOUBLE )THEN |
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1690 | ji=ji+1 ; td_att(ji)=att_init("ppa0",td_namz%d_ppa0) |
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1691 | ELSE |
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1692 | ji=ji+1 ; td_att(ji)=att_init("ppa0","to_be_computed") |
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1693 | ENDIF |
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1694 | IF( td_namz%d_ppa1 /= NF90_FILL_DOUBLE )THEN |
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1695 | ji=ji+1 ; td_att(ji)=att_init("ppa1",td_namz%d_ppa1) |
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1696 | ELSE |
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1697 | ji=ji+1 ; td_att(ji)=att_init("ppa1","to_be_computed") |
---|
1698 | ENDIF |
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1699 | |
---|
1700 | ji=ji+1 ; td_att(ji)=att_init("ppkth",td_namz%d_ppkth) |
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1701 | ji=ji+1 ; td_att(ji)=att_init("ppacr",td_namz%d_ppacr) |
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1702 | ji=ji+1 ; td_att(ji)=att_init("ppdzmin",td_namz%d_ppdzmin) |
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1703 | ji=ji+1 ; td_att(ji)=att_init("pphmax",td_namz%d_pphmax) |
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1704 | |
---|
1705 | IF( td_namz%l_dbletanh )THEN |
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1706 | ji=ji+1 ; td_att(ji)=att_init("ppa2",td_namz%d_ppa2) |
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1707 | ji=ji+1 ; td_att(ji)=att_init("ppkth2",td_namz%d_ppkth2) |
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1708 | ji=ji+1 ; td_att(ji)=att_init("ppacr2",td_namz%d_ppacr2) |
---|
1709 | ENDIF |
---|
1710 | |
---|
1711 | IF( td_namz%l_zps )THEN |
---|
1712 | ji=ji+1 ; td_att(ji)=att_init("e3zps_min",td_namz%d_e3zps_min) |
---|
1713 | ji=ji+1 ; td_att(ji)=att_init("e3zps_rat",td_namz%d_e3zps_rat) |
---|
1714 | ENDIF |
---|
1715 | |
---|
1716 | IF( td_namz%l_sco )THEN |
---|
1717 | ji=ji+1 ; td_att(ji)=att_init("sbot_min",td_namz%d_sbot_min) |
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1718 | ji=ji+1 ; td_att(ji)=att_init("sbot_max",td_namz%d_sbot_max) |
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1719 | ji=ji+1 ; td_att(ji)=att_init("hc",td_namz%d_hc) |
---|
1720 | IF( td_namz%l_s_sh94 )THEN |
---|
1721 | ji=ji+1 ; td_att(ji)=att_init("rmax",td_namz%d_rmax) |
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1722 | ji=ji+1 ; td_att(ji)=att_init("theta",td_namz%d_theta) |
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1723 | ji=ji+1 ; td_att(ji)=att_init("thetb",td_namz%d_thetb) |
---|
1724 | ji=ji+1 ; td_att(ji)=att_init("bb",td_namz%d_bb) |
---|
1725 | ELSEIF( td_namz%l_s_sf12 )THEN |
---|
1726 | IF( td_namz%l_sigcrit ) ji=ji+1 ; td_att(ji)=att_init("sigma_below_critical_depth","activated") |
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1727 | ji=ji+1 ; td_att(ji)=att_init("alpha",td_namz%d_alpha) |
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1728 | ji=ji+1 ; td_att(ji)=att_init("efold",td_namz%d_efold) |
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1729 | ji=ji+1 ; td_att(ji)=att_init("zs",td_namz%d_zs) |
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1730 | ji=ji+1 ; td_att(ji)=att_init("zb_a",td_namz%d_zb_a) |
---|
1731 | ji=ji+1 ; td_att(ji)=att_init("zb_b",td_namz%d_zb_b) |
---|
1732 | ENDIF |
---|
1733 | ENDIF |
---|
1734 | |
---|
1735 | IF( td_namz%l_wd )THEN |
---|
1736 | ji=ji+1 ; td_att(ji)=att_init("wetting_drying","activated") |
---|
1737 | ENDIF |
---|
1738 | |
---|
1739 | IF( td_namz%l_wd )THEN |
---|
1740 | ji=ji+1 ; td_att(ji)=att_init("wdmin1",td_namz%d_wdmin1) |
---|
1741 | ji=ji+1 ; td_att(ji)=att_init("wdmin2",td_namz%d_wdmin2) |
---|
1742 | ji=ji+1 ; td_att(ji)=att_init("wdld",td_namz%d_wdld) |
---|
1743 | ENDIF |
---|
1744 | |
---|
1745 | END FUNCTION create__gloatt |
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1746 | |
---|
1747 | END PROGRAM |
---|