1 | !> @file data_output_3d.f90 |
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2 | !--------------------------------------------------------------------------------------------------! |
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3 | ! This file is part of the PALM model system. |
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4 | ! |
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5 | ! PALM is free software: you can redistribute it and/or modify it under the terms of the GNU General |
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6 | ! Public License as published by the Free Software Foundation, either version 3 of the License, or |
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7 | ! (at your option) any later version. |
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8 | ! |
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9 | ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the |
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10 | ! implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General |
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11 | ! Public License for more details. |
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12 | ! |
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13 | ! You should have received a copy of the GNU General Public License along with PALM. If not, see |
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14 | ! <http://www.gnu.org/licenses/>. |
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15 | ! |
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16 | ! Copyright 1997-2020 Leibniz Universitaet Hannover |
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17 | !--------------------------------------------------------------------------------------------------! |
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18 | ! |
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19 | ! Current revisions: |
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20 | ! ------------------ |
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21 | ! |
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22 | ! |
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23 | ! Former revisions: |
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24 | ! ----------------- |
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25 | ! $Id: data_output_3d.f90 4559 2020-06-11 08:51:48Z oliver.maas $ |
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26 | ! file re-formatted to follow the PALM coding standard |
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27 | ! |
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28 | ! 4457 2020-03-11 14:20:43Z raasch |
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29 | ! use statement for exchange horiz added |
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30 | ! |
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31 | ! 4444 2020-03-05 15:59:50Z raasch |
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32 | ! bugfix: cpp-directives for serial mode added |
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33 | ! |
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34 | ! 4360 2020-01-07 11:25:50Z suehring |
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35 | ! Introduction of wall_flags_total_0, which currently sets bits based on static topography |
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36 | ! information used in wall_flags_static_0 |
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37 | ! |
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38 | ! 4329 2019-12-10 15:46:36Z motisi |
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39 | ! Renamed wall_flags_0 to wall_flags_static_0 |
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40 | ! |
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41 | ! 4182 2019-08-22 15:20:23Z scharf |
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42 | ! Corrected "Former revisions" section |
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43 | ! |
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44 | ! 4162 2019-08-16 05:54:29Z raasch |
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45 | ! bugfix for r4155 |
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46 | ! |
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47 | ! 4155 2019-08-14 06:25:18Z raasch |
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48 | ! bugfix for 3d-output in serial mode (ghost points must not be written) |
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49 | ! |
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50 | ! 4127 2019-07-30 14:47:10Z suehring |
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51 | ! Adjustment for top boundary index for plant-canopy model outputs (merge from branch resler) |
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52 | ! |
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53 | ! 4048 2019-06-21 21:00:21Z knoop |
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54 | ! Moved tcm_data_output_3d to module_interface |
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55 | ! |
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56 | ! 4039 2019-06-18 10:32:41Z suehring |
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57 | ! modularize diagnostic output |
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58 | ! |
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59 | ! 3994 2019-05-22 18:08:09Z suehring |
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60 | ! output of turbulence intensity added |
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61 | ! |
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62 | ! 3987 2019-05-22 09:52:13Z kanani |
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63 | ! Introduce alternative switch for debug output during timestepping |
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64 | ! |
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65 | ! 3885 2019-04-11 11:29:34Z kanani |
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66 | ! Changes related to global restructuring of location messages and introduction of additional debug |
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67 | ! messages |
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68 | ! |
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69 | ! 3814 2019-03-26 08:40:31Z pavelkrc |
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70 | ! unused variables removed |
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71 | ! |
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72 | ! 3655 2019-01-07 16:51:22Z knoop |
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73 | ! Bugfix: use time_since_reference_point instead of simulated_time (relevant when using wall/soil |
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74 | ! spinup) |
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75 | ! |
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76 | ! Revision 1.1 1997/09/03 06:29:36 raasch |
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77 | ! Initial revision |
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78 | ! |
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79 | ! |
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80 | ! Description: |
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81 | ! ------------ |
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82 | !> Output of the 3D-arrays in netCDF and/or AVS format. |
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83 | !--------------------------------------------------------------------------------------------------! |
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84 | SUBROUTINE data_output_3d( av ) |
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85 | |
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86 | |
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87 | USE arrays_3d, & |
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88 | ONLY: d_exner, e, p, pt, q, ql, ql_c, ql_v, s, tend, u, v, vpt, w |
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89 | |
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90 | USE averaging |
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91 | |
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92 | USE basic_constants_and_equations_mod, & |
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93 | ONLY: lv_d_cp |
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94 | |
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95 | USE bulk_cloud_model_mod, & |
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96 | ONLY: bulk_cloud_model |
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97 | |
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98 | USE control_parameters, & |
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99 | ONLY: debug_output_timestep, do3d, do3d_no, do3d_time_count, land_surface, message_string,& |
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100 | ntdim_3d, nz_do3d, plant_canopy, psolver, time_since_reference_point, urban_surface,& |
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101 | varnamelength |
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102 | |
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103 | #if defined( __parallel ) |
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104 | USE control_parameters, & |
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105 | ONLY: io_blocks, io_group |
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106 | #endif |
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107 | |
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108 | USE cpulog, & |
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109 | ONLY: cpu_log, log_point |
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110 | |
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111 | USE exchange_horiz_mod, & |
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112 | ONLY: exchange_horiz |
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113 | |
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114 | USE indices, & |
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115 | ONLY: nbgp, nxl, nxlg, nxr, nxrg, nyn, nyng, nys, nysg, nzb, nzt, wall_flags_total_0 |
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116 | |
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117 | #if ! defined( __parallel ) |
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118 | USE indices, & |
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119 | ONLY: nx, ny |
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120 | #endif |
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121 | |
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122 | USE kinds |
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123 | |
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124 | USE land_surface_model_mod, & |
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125 | ONLY: lsm_data_output_3d, nzb_soil, nzt_soil |
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126 | |
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127 | USE module_interface, & |
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128 | ONLY: module_interface_data_output_3d |
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129 | |
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130 | #if defined( __netcdf ) |
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131 | USE NETCDF |
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132 | #endif |
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133 | |
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134 | USE netcdf_interface, & |
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135 | ONLY: fill_value, id_set_3d, id_var_do3d, id_var_time_3d, nc_stat, netcdf_data_format, & |
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136 | netcdf_handle_error |
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137 | |
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138 | USE particle_attributes, & |
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139 | ONLY: grid_particles, number_of_particles, particles, particle_advection_start, prt_count |
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140 | |
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141 | USE pegrid |
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142 | |
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143 | USE plant_canopy_model_mod, & |
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144 | ONLY: pch_index |
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145 | |
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146 | USE radiation_model_mod, & |
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147 | ONLY: nz_urban_b, nz_urban_t |
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148 | |
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149 | USE urban_surface_mod, & |
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150 | ONLY: usm_data_output_3d |
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151 | |
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152 | |
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153 | IMPLICIT NONE |
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154 | |
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155 | INTEGER(iwp) :: av !< flag for (non-)average output |
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156 | INTEGER(iwp) :: flag_nr !< number of masking flag |
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157 | INTEGER(iwp) :: i !< loop index |
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158 | INTEGER(iwp) :: ivar !< variable index |
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159 | INTEGER(iwp) :: j !< loop index |
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160 | INTEGER(iwp) :: k !< loop index |
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161 | INTEGER(iwp) :: n !< loop index |
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162 | INTEGER(iwp) :: nzb_do !< vertical lower limit for data output |
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163 | INTEGER(iwp) :: nzt_do !< vertical upper limit for data output |
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164 | |
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165 | LOGICAL :: found !< true if output variable was found |
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166 | LOGICAL :: resorted !< true if variable is resorted |
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167 | |
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168 | REAL(wp) :: mean_r !< mean particle radius |
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169 | REAL(wp) :: s_r2 !< sum( particle-radius**2 ) |
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170 | REAL(wp) :: s_r3 !< sum( particle-radius**3 ) |
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171 | |
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172 | REAL(sp), DIMENSION(:,:,:), ALLOCATABLE :: local_pf !< output array |
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173 | |
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174 | REAL(wp), DIMENSION(:,:,:), POINTER :: to_be_resorted !< pointer to array which shall be |
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175 | !< output |
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176 | |
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177 | CHARACTER (LEN=varnamelength) :: trimvar !< TRIM of output-variable string |
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178 | |
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179 | ! |
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180 | !-- Return, if nothing to output |
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181 | IF ( do3d_no(av) == 0 ) RETURN |
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182 | |
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183 | IF ( debug_output_timestep ) CALL debug_message( 'data_output_3d', 'start' ) |
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184 | |
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185 | CALL cpu_log (log_point(14),'data_output_3d','start') |
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186 | |
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187 | ! |
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188 | !-- Open output file. |
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189 | !-- For classic or 64bit netCDF output on more than one PE, each PE opens its own file and writes |
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190 | !-- the data of its subdomain in binary format. After the run, these files are combined to one |
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191 | !-- NetCDF file by combine_plot_fields. |
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192 | !-- For netCDF4/HDF5 output, data is written in parallel into one file. |
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193 | IF ( netcdf_data_format < 5 ) THEN |
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194 | #if defined( __parallel ) |
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195 | CALL check_open( 30 ) |
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196 | #endif |
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197 | IF ( myid == 0 ) CALL check_open( 106+av*10 ) |
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198 | ELSE |
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199 | CALL check_open( 106+av*10 ) |
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200 | ENDIF |
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201 | |
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202 | ! |
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203 | !-- For parallel netcdf output the time axis must be limited. Return, if this limit is exceeded. |
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204 | !-- This could be the case, if the simulated time exceeds the given end time by the length of the |
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205 | !-- given output interval. |
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206 | IF ( netcdf_data_format > 4 ) THEN |
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207 | IF ( do3d_time_count(av) + 1 > ntdim_3d(av) ) THEN |
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208 | WRITE ( message_string, * ) 'Output of 3d data is not given at t=', & |
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209 | time_since_reference_point, 's because the maximum ', & |
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210 | 'number of output time levels is ', & |
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211 | 'exceeded.' |
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212 | CALL message( 'data_output_3d', 'PA0387', 0, 1, 0, 6, 0 ) |
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213 | CALL cpu_log( log_point(14), 'data_output_3d', 'stop' ) |
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214 | RETURN |
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215 | ENDIF |
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216 | ENDIF |
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217 | |
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218 | ! |
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219 | !-- Update the netCDF time axis. |
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220 | !-- In case of parallel output, this is only done by PE0 to increase the performance. |
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221 | #if defined( __netcdf ) |
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222 | do3d_time_count(av) = do3d_time_count(av) + 1 |
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223 | IF ( myid == 0 ) THEN |
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224 | nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_time_3d(av), & |
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225 | (/ time_since_reference_point /), & |
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226 | start = (/ do3d_time_count(av) /), & |
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227 | count = (/ 1 /) ) |
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228 | CALL netcdf_handle_error( 'data_output_3d', 376 ) |
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229 | ENDIF |
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230 | #endif |
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231 | |
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232 | ! |
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233 | !-- Loop over all variables to be written. |
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234 | ivar = 1 |
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235 | |
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236 | DO WHILE ( do3d(av,ivar)(1:1) /= ' ' ) |
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237 | |
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238 | ! |
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239 | !-- Initiate found flag and resorting flag |
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240 | found = .FALSE. |
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241 | resorted = .FALSE. |
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242 | trimvar = TRIM( do3d(av,ivar) ) |
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243 | |
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244 | ! |
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245 | !-- Temporary solution to account for data output within the new urban surface model |
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246 | !-- (urban_surface_mod.f90), see also SELECT CASE ( trimvar ). |
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247 | !-- Store the array chosen on the temporary array. |
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248 | nzb_do = nzb |
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249 | ! |
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250 | !-- Set top index for 3D output. Note in case of plant-canopy model these index is determined by |
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251 | !-- pch_index. |
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252 | IF ( plant_canopy .AND. trimvar(1:4) == 'pcm_' ) THEN |
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253 | nzt_do = pch_index |
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254 | ELSE |
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255 | nzt_do = nz_do3d |
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256 | ENDIF |
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257 | |
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258 | ! |
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259 | !-- Allocate a temporary array with the desired output dimensions. |
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260 | ALLOCATE( local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do) ) |
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261 | ! |
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262 | !-- Before each output, set array local_pf to fill value |
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263 | local_pf = fill_value |
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264 | ! |
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265 | !-- Set masking flag for topography for not resorted arrays |
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266 | flag_nr = 0 |
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267 | |
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268 | SELECT CASE ( trimvar ) |
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269 | |
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270 | CASE ( 'e' ) |
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271 | IF ( av == 0 ) THEN |
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272 | to_be_resorted => e |
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273 | ELSE |
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274 | IF ( .NOT. ALLOCATED( e_av ) ) THEN |
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275 | ALLOCATE( e_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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276 | e_av = REAL( fill_value, KIND = wp ) |
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277 | ENDIF |
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278 | to_be_resorted => e_av |
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279 | ENDIF |
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280 | |
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281 | CASE ( 'thetal' ) |
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282 | IF ( av == 0 ) THEN |
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283 | to_be_resorted => pt |
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284 | ELSE |
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285 | IF ( .NOT. ALLOCATED( lpt_av ) ) THEN |
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286 | ALLOCATE( lpt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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287 | lpt_av = REAL( fill_value, KIND = wp ) |
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288 | ENDIF |
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289 | to_be_resorted => lpt_av |
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290 | ENDIF |
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291 | |
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292 | CASE ( 'p' ) |
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293 | IF ( av == 0 ) THEN |
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294 | IF ( psolver /= 'sor' ) CALL exchange_horiz( p, nbgp ) |
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295 | to_be_resorted => p |
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296 | ELSE |
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297 | IF ( .NOT. ALLOCATED( p_av ) ) THEN |
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298 | ALLOCATE( p_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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299 | p_av = REAL( fill_value, KIND = wp ) |
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300 | ENDIF |
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301 | IF ( psolver /= 'sor' ) CALL exchange_horiz( p_av, nbgp ) |
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302 | to_be_resorted => p_av |
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303 | ENDIF |
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304 | |
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305 | CASE ( 'pc' ) ! particle concentration (requires ghostpoint exchange) |
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306 | IF ( av == 0 ) THEN |
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307 | IF ( time_since_reference_point >= particle_advection_start ) THEN |
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308 | tend = prt_count |
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309 | ELSE |
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310 | tend = 0.0_wp |
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311 | ENDIF |
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312 | DO i = nxl, nxr |
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313 | DO j = nys, nyn |
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314 | DO k = nzb_do, nzt_do |
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315 | local_pf(i,j,k) = tend(k,j,i) |
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316 | ENDDO |
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317 | ENDDO |
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318 | ENDDO |
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319 | resorted = .TRUE. |
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320 | ELSE |
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321 | IF ( .NOT. ALLOCATED( pc_av ) ) THEN |
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322 | ALLOCATE( pc_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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323 | pc_av = REAL( fill_value, KIND = wp ) |
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324 | ENDIF |
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325 | to_be_resorted => pc_av |
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326 | ENDIF |
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327 | |
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328 | CASE ( 'pr' ) ! mean particle radius (effective radius) |
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329 | IF ( av == 0 ) THEN |
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330 | IF ( time_since_reference_point >= particle_advection_start ) THEN |
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331 | DO i = nxl, nxr |
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332 | DO j = nys, nyn |
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333 | DO k = nzb_do, nzt_do |
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334 | number_of_particles = prt_count(k,j,i) |
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335 | IF ( number_of_particles <= 0 ) CYCLE |
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336 | particles => grid_particles(k,j,i)%particles(1:number_of_particles) |
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337 | s_r2 = 0.0_wp |
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338 | s_r3 = 0.0_wp |
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339 | DO n = 1, number_of_particles |
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340 | IF ( particles(n)%particle_mask ) THEN |
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341 | s_r2 = s_r2 + particles(n)%radius**2 * particles(n)%weight_factor |
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342 | s_r3 = s_r3 + particles(n)%radius**3 * particles(n)%weight_factor |
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343 | ENDIF |
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344 | ENDDO |
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345 | IF ( s_r2 > 0.0_wp ) THEN |
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346 | mean_r = s_r3 / s_r2 |
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347 | ELSE |
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348 | mean_r = 0.0_wp |
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349 | ENDIF |
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350 | tend(k,j,i) = mean_r |
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351 | ENDDO |
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352 | ENDDO |
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353 | ENDDO |
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354 | ELSE |
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355 | tend = 0.0_wp |
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356 | ENDIF |
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357 | DO i = nxl, nxr |
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358 | DO j = nys, nyn |
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359 | DO k = nzb_do, nzt_do |
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360 | local_pf(i,j,k) = tend(k,j,i) |
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361 | ENDDO |
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362 | ENDDO |
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363 | ENDDO |
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364 | resorted = .TRUE. |
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365 | ELSE |
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366 | IF ( .NOT. ALLOCATED( pr_av ) ) THEN |
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367 | ALLOCATE( pr_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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368 | pr_av = REAL( fill_value, KIND = wp ) |
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369 | ENDIF |
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370 | to_be_resorted => pr_av |
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371 | ENDIF |
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372 | |
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373 | CASE ( 'theta' ) |
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374 | IF ( av == 0 ) THEN |
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375 | IF ( .NOT. bulk_cloud_model ) THEN |
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376 | to_be_resorted => pt |
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377 | ELSE |
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378 | DO i = nxl, nxr |
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379 | DO j = nys, nyn |
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380 | DO k = nzb_do, nzt_do |
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381 | local_pf(i,j,k) = pt(k,j,i) + lv_d_cp * d_exner(k) * ql(k,j,i) |
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382 | ENDDO |
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383 | ENDDO |
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384 | ENDDO |
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385 | resorted = .TRUE. |
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386 | ENDIF |
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387 | ELSE |
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388 | IF ( .NOT. ALLOCATED( pt_av ) ) THEN |
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389 | ALLOCATE( pt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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390 | pt_av = REAL( fill_value, KIND = wp ) |
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391 | ENDIF |
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392 | to_be_resorted => pt_av |
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393 | ENDIF |
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394 | |
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395 | CASE ( 'q' ) |
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396 | IF ( av == 0 ) THEN |
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397 | to_be_resorted => q |
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398 | ELSE |
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399 | IF ( .NOT. ALLOCATED( q_av ) ) THEN |
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400 | ALLOCATE( q_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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401 | q_av = REAL( fill_value, KIND = wp ) |
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402 | ENDIF |
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403 | to_be_resorted => q_av |
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404 | ENDIF |
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405 | |
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406 | CASE ( 'ql' ) |
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407 | IF ( av == 0 ) THEN |
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408 | to_be_resorted => ql |
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409 | ELSE |
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410 | IF ( .NOT. ALLOCATED( ql_av ) ) THEN |
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411 | ALLOCATE( ql_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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412 | ql_av = REAL( fill_value, KIND = wp ) |
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413 | ENDIF |
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414 | to_be_resorted => ql_av |
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415 | ENDIF |
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416 | |
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417 | CASE ( 'ql_c' ) |
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418 | IF ( av == 0 ) THEN |
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419 | to_be_resorted => ql_c |
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420 | ELSE |
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421 | IF ( .NOT. ALLOCATED( ql_c_av ) ) THEN |
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422 | ALLOCATE( ql_c_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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423 | ql_c_av = REAL( fill_value, KIND = wp ) |
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424 | ENDIF |
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425 | to_be_resorted => ql_c_av |
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426 | ENDIF |
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427 | |
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428 | CASE ( 'ql_v' ) |
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429 | IF ( av == 0 ) THEN |
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430 | to_be_resorted => ql_v |
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431 | ELSE |
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432 | IF ( .NOT. ALLOCATED( ql_v_av ) ) THEN |
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433 | ALLOCATE( ql_v_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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434 | ql_v_av = REAL( fill_value, KIND = wp ) |
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435 | ENDIF |
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436 | to_be_resorted => ql_v_av |
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437 | ENDIF |
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438 | |
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439 | CASE ( 'ql_vp' ) |
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440 | IF ( av == 0 ) THEN |
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441 | IF ( time_since_reference_point >= particle_advection_start ) THEN |
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442 | DO i = nxl, nxr |
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443 | DO j = nys, nyn |
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444 | DO k = nzb_do, nzt_do |
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445 | number_of_particles = prt_count(k,j,i) |
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446 | IF (number_of_particles <= 0) CYCLE |
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447 | particles => grid_particles(k,j,i)%particles(1:number_of_particles) |
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448 | DO n = 1, number_of_particles |
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449 | IF ( particles(n)%particle_mask ) THEN |
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450 | tend(k,j,i) = tend(k,j,i) + & |
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451 | particles(n)%weight_factor / prt_count(k,j,i) |
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452 | ENDIF |
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453 | ENDDO |
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454 | ENDDO |
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455 | ENDDO |
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456 | ENDDO |
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457 | ELSE |
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458 | tend = 0.0_wp |
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459 | ENDIF |
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460 | DO i = nxl, nxr |
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461 | DO j = nys, nyn |
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462 | DO k = nzb_do, nzt_do |
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463 | local_pf(i,j,k) = tend(k,j,i) |
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464 | ENDDO |
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465 | ENDDO |
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466 | ENDDO |
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467 | resorted = .TRUE. |
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468 | ELSE |
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469 | IF ( .NOT. ALLOCATED( ql_vp_av ) ) THEN |
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470 | ALLOCATE( ql_vp_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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471 | ql_vp_av = REAL( fill_value, KIND = wp ) |
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472 | ENDIF |
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473 | to_be_resorted => ql_vp_av |
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474 | ENDIF |
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475 | |
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476 | CASE ( 'qv' ) |
---|
477 | IF ( av == 0 ) THEN |
---|
478 | DO i = nxl, nxr |
---|
479 | DO j = nys, nyn |
---|
480 | DO k = nzb_do, nzt_do |
---|
481 | local_pf(i,j,k) = q(k,j,i) - ql(k,j,i) |
---|
482 | ENDDO |
---|
483 | ENDDO |
---|
484 | ENDDO |
---|
485 | resorted = .TRUE. |
---|
486 | ELSE |
---|
487 | IF ( .NOT. ALLOCATED( qv_av ) ) THEN |
---|
488 | ALLOCATE( qv_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
489 | qv_av = REAL( fill_value, KIND = wp ) |
---|
490 | ENDIF |
---|
491 | to_be_resorted => qv_av |
---|
492 | ENDIF |
---|
493 | |
---|
494 | CASE ( 's' ) |
---|
495 | IF ( av == 0 ) THEN |
---|
496 | to_be_resorted => s |
---|
497 | ELSE |
---|
498 | IF ( .NOT. ALLOCATED( s_av ) ) THEN |
---|
499 | ALLOCATE( s_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
500 | s_av = REAL( fill_value, KIND = wp ) |
---|
501 | ENDIF |
---|
502 | to_be_resorted => s_av |
---|
503 | ENDIF |
---|
504 | |
---|
505 | CASE ( 'u' ) |
---|
506 | flag_nr = 1 |
---|
507 | IF ( av == 0 ) THEN |
---|
508 | to_be_resorted => u |
---|
509 | ELSE |
---|
510 | IF ( .NOT. ALLOCATED( u_av ) ) THEN |
---|
511 | ALLOCATE( u_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
512 | u_av = REAL( fill_value, KIND = wp ) |
---|
513 | ENDIF |
---|
514 | to_be_resorted => u_av |
---|
515 | ENDIF |
---|
516 | |
---|
517 | CASE ( 'v' ) |
---|
518 | flag_nr = 2 |
---|
519 | IF ( av == 0 ) THEN |
---|
520 | to_be_resorted => v |
---|
521 | ELSE |
---|
522 | IF ( .NOT. ALLOCATED( v_av ) ) THEN |
---|
523 | ALLOCATE( v_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
524 | v_av = REAL( fill_value, KIND = wp ) |
---|
525 | ENDIF |
---|
526 | to_be_resorted => v_av |
---|
527 | ENDIF |
---|
528 | |
---|
529 | CASE ( 'thetav' ) |
---|
530 | IF ( av == 0 ) THEN |
---|
531 | to_be_resorted => vpt |
---|
532 | ELSE |
---|
533 | IF ( .NOT. ALLOCATED( vpt_av ) ) THEN |
---|
534 | ALLOCATE( vpt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
535 | vpt_av = REAL( fill_value, KIND = wp ) |
---|
536 | ENDIF |
---|
537 | to_be_resorted => vpt_av |
---|
538 | ENDIF |
---|
539 | |
---|
540 | CASE ( 'w' ) |
---|
541 | flag_nr = 3 |
---|
542 | IF ( av == 0 ) THEN |
---|
543 | to_be_resorted => w |
---|
544 | ELSE |
---|
545 | IF ( .NOT. ALLOCATED( w_av ) ) THEN |
---|
546 | ALLOCATE( w_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
---|
547 | w_av = REAL( fill_value, KIND = wp ) |
---|
548 | ENDIF |
---|
549 | to_be_resorted => w_av |
---|
550 | ENDIF |
---|
551 | |
---|
552 | CASE DEFAULT |
---|
553 | ! |
---|
554 | !-- Quantities of other modules |
---|
555 | IF ( .NOT. found ) THEN |
---|
556 | CALL module_interface_data_output_3d( av, trimvar, found, local_pf, fill_value, & |
---|
557 | resorted, nzb_do, nzt_do & |
---|
558 | ) |
---|
559 | ENDIF |
---|
560 | |
---|
561 | ! |
---|
562 | !-- Temporary workaround: ToDo: refactor local_pf allocation |
---|
563 | IF ( .NOT. found .AND. urban_surface .AND. trimvar(1:4) == 'usm_' ) THEN |
---|
564 | ! |
---|
565 | !-- For urban model quantities, it is required to re-allocate local_pf |
---|
566 | nzb_do = nz_urban_b |
---|
567 | nzt_do = nz_urban_t |
---|
568 | |
---|
569 | DEALLOCATE ( local_pf ) |
---|
570 | ALLOCATE( local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do) ) |
---|
571 | local_pf = fill_value |
---|
572 | |
---|
573 | CALL usm_data_output_3d( av, trimvar, found, local_pf, nzb_do, nzt_do ) |
---|
574 | resorted = .TRUE. |
---|
575 | |
---|
576 | ! |
---|
577 | !-- If no soil model variable was found, re-allocate local_pf |
---|
578 | IF ( .NOT. found ) THEN |
---|
579 | nzb_do = nzb |
---|
580 | nzt_do = nz_do3d |
---|
581 | |
---|
582 | DEALLOCATE ( local_pf ) |
---|
583 | ALLOCATE( local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do) ) |
---|
584 | ENDIF |
---|
585 | |
---|
586 | ENDIF |
---|
587 | |
---|
588 | ! |
---|
589 | !-- Temporary workaround: ToDo: refactor local_pf allocation |
---|
590 | IF ( .NOT. found .AND. land_surface ) THEN |
---|
591 | ! |
---|
592 | !-- For soil model quantities, it is required to re-allocate local_pf |
---|
593 | nzb_do = nzb_soil |
---|
594 | nzt_do = nzt_soil |
---|
595 | |
---|
596 | DEALLOCATE ( local_pf ) |
---|
597 | ALLOCATE( local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do) ) |
---|
598 | local_pf = fill_value |
---|
599 | |
---|
600 | CALL lsm_data_output_3d( av, trimvar, found, local_pf ) |
---|
601 | resorted = .TRUE. |
---|
602 | |
---|
603 | ! |
---|
604 | !-- If no soil model variable was found, re-allocate local_pf |
---|
605 | IF ( .NOT. found ) THEN |
---|
606 | nzb_do = nzb |
---|
607 | nzt_do = nz_do3d |
---|
608 | |
---|
609 | DEALLOCATE ( local_pf ) |
---|
610 | ALLOCATE( local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do) ) |
---|
611 | ENDIF |
---|
612 | |
---|
613 | ENDIF |
---|
614 | |
---|
615 | IF ( .NOT. found ) THEN |
---|
616 | message_string = 'no output available for: ' // TRIM( do3d(av,ivar) ) |
---|
617 | CALL message( 'data_output_3d', 'PA0182', 0, 0, 0, 6, 0 ) |
---|
618 | ENDIF |
---|
619 | |
---|
620 | END SELECT |
---|
621 | |
---|
622 | ! |
---|
623 | !-- Resort the array to be output, if not done above |
---|
624 | IF ( .NOT. resorted ) THEN |
---|
625 | DO i = nxl, nxr |
---|
626 | DO j = nys, nyn |
---|
627 | DO k = nzb_do, nzt_do |
---|
628 | local_pf(i,j,k) = MERGE( to_be_resorted(k,j,i), & |
---|
629 | REAL( fill_value, KIND = wp ), & |
---|
630 | BTEST( wall_flags_total_0(k,j,i), flag_nr ) ) |
---|
631 | ENDDO |
---|
632 | ENDDO |
---|
633 | ENDDO |
---|
634 | ENDIF |
---|
635 | |
---|
636 | ! |
---|
637 | !-- Output of the 3D-array |
---|
638 | #if defined( __parallel ) |
---|
639 | IF ( netcdf_data_format < 5 ) THEN |
---|
640 | ! |
---|
641 | !-- Non-parallel netCDF output. Data is output in parallel in FORTRAN binary format here, and |
---|
642 | !-- later collected into one file by combine_plot_fields |
---|
643 | IF ( myid == 0 ) THEN |
---|
644 | WRITE ( 30 ) time_since_reference_point, do3d_time_count(av), av |
---|
645 | ENDIF |
---|
646 | DO i = 0, io_blocks-1 |
---|
647 | IF ( i == io_group ) THEN |
---|
648 | WRITE ( 30 ) nxl, nxr, nys, nyn, nzb_do, nzt_do |
---|
649 | WRITE ( 30 ) local_pf(:,:,nzb_do:nzt_do) |
---|
650 | ENDIF |
---|
651 | |
---|
652 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
653 | |
---|
654 | ENDDO |
---|
655 | |
---|
656 | ELSE |
---|
657 | #if defined( __netcdf ) |
---|
658 | ! |
---|
659 | !-- Parallel output in netCDF4/HDF5 format. |
---|
660 | ! IF ( nxr == nx .AND. nyn /= ny ) THEN |
---|
661 | ! nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_do3d(av,ivar), & |
---|
662 | ! local_pf(nxl:nxr+1,nys:nyn,nzb_do:nzt_do), & |
---|
663 | ! start = (/ nxl+1, nys+1, nzb_do+1, do3d_time_count(av) /), & |
---|
664 | ! count = (/ nxr-nxl+2, nyn-nys+1, nzt_do-nzb_do+1, 1 /) ) |
---|
665 | ! ELSEIF ( nxr /= nx .AND. nyn == ny ) THEN |
---|
666 | ! nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_do3d(av,ivar), & |
---|
667 | ! local_pf(nxl:nxr,nys:nyn+1,nzb_do:nzt_do), & |
---|
668 | ! start = (/ nxl+1, nys+1, nzb_do+1, do3d_time_count(av) /), & |
---|
669 | ! count = (/ nxr-nxl+1, nyn-nys+2, nzt_do-nzb_do+1, 1 /) ) |
---|
670 | ! ELSEIF ( nxr == nx .AND. nyn == ny ) THEN |
---|
671 | ! nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_do3d(av,ivar), & |
---|
672 | ! local_pf(nxl:nxr+1,nys:nyn+1,nzb_do:nzt_do ), & |
---|
673 | ! start = (/ nxl+1, nys+1, nzb_do+1, do3d_time_count(av) /), & |
---|
674 | ! count = (/ nxr-nxl+2, nyn-nys+2, nzt_do-nzb_do+1, 1 /) ) |
---|
675 | ! ELSE |
---|
676 | nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_do3d(av,ivar), & |
---|
677 | local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do), & |
---|
678 | start = (/ nxl+1, nys+1, nzb_do+1, do3d_time_count(av) /), & |
---|
679 | count = (/ nxr-nxl+1, nyn-nys+1, nzt_do-nzb_do+1, 1 /) & |
---|
680 | ) |
---|
681 | ! ENDIF |
---|
682 | CALL netcdf_handle_error( 'data_output_3d', 386 ) |
---|
683 | #endif |
---|
684 | ENDIF |
---|
685 | #else |
---|
686 | #if defined( __netcdf ) |
---|
687 | nc_stat = NF90_PUT_VAR( id_set_3d(av), id_var_do3d(av,ivar), & |
---|
688 | local_pf(nxl:nxr,nys:nyn,nzb_do:nzt_do), & |
---|
689 | start = (/ 1, 1, 1, do3d_time_count(av) /), & |
---|
690 | count = (/ nx+1, ny+1, nzt_do-nzb_do+1, 1 /) ) |
---|
691 | CALL netcdf_handle_error( 'data_output_3d', 446 ) |
---|
692 | #endif |
---|
693 | #endif |
---|
694 | |
---|
695 | ivar = ivar + 1 |
---|
696 | |
---|
697 | ! |
---|
698 | !-- Deallocate temporary array |
---|
699 | DEALLOCATE ( local_pf ) |
---|
700 | |
---|
701 | ENDDO |
---|
702 | |
---|
703 | CALL cpu_log( log_point(14), 'data_output_3d', 'stop' ) |
---|
704 | |
---|
705 | IF ( debug_output_timestep ) CALL debug_message( 'data_output_3d', 'end' ) |
---|
706 | |
---|
707 | |
---|
708 | END SUBROUTINE data_output_3d |
---|