[3471] | 1 | !> @virtual_measurement_mod.f90 |
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[3434] | 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 |
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| 6 | ! terms of the GNU General Public License as published by the Free Software |
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| 7 | ! Foundation, either version 3 of the License, or (at your option) any later |
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| 8 | ! version. |
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| 9 | ! |
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| 10 | ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY |
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| 11 | ! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR |
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| 12 | ! A PARTICULAR PURPOSE. See the GNU General Public License for more details. |
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| 13 | ! |
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| 14 | ! You should have received a copy of the GNU General Public License along with |
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| 15 | ! PALM. If not, see <http://www.gnu.org/licenses/>. |
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| 16 | ! |
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| 17 | ! Copyright 2017 Leibniz Universitaet Hannover |
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| 18 | !------------------------------------------------------------------------------! |
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| 19 | ! |
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| 20 | ! Current revisions: |
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| 21 | ! ----------------- |
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[3705] | 22 | ! |
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[3855] | 23 | ! |
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[3705] | 24 | ! Former revisions: |
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| 25 | ! ----------------- |
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| 26 | ! $Id: virtual_measurement_mod.f90 3988 2019-05-22 11:32:37Z suehring $ |
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[3988] | 27 | ! Add variables to enable steering of output interval for virtual measurements |
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| 28 | ! |
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| 29 | ! 3913 2019-04-17 15:12:28Z gronemeier |
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[3913] | 30 | ! Bugfix: rotate positions of measurements before writing them into file |
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| 31 | ! |
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| 32 | ! 3910 2019-04-17 11:46:56Z suehring |
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[3910] | 33 | ! Bugfix in rotation of UTM coordinates |
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| 34 | ! |
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| 35 | ! 3904 2019-04-16 18:22:51Z gronemeier |
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[3904] | 36 | ! Rotate coordinates of stations by given rotation_angle |
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| 37 | ! |
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| 38 | ! 3876 2019-04-08 18:41:49Z knoop |
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[3855] | 39 | ! Remove print statement |
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| 40 | ! |
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| 41 | ! 3854 2019-04-02 16:59:33Z suehring |
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[3854] | 42 | ! renamed nvar to nmeas, replaced USE chem_modules by USE chem_gasphase_mod and |
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| 43 | ! nspec by nvar |
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[3833] | 44 | ! |
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| 45 | ! 3766 2019-02-26 16:23:41Z raasch |
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[3766] | 46 | ! unused variables removed |
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| 47 | ! |
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| 48 | ! 3718 2019-02-06 11:08:28Z suehring |
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[3718] | 49 | ! Adjust variable name connections between UC2 and chemistry variables |
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| 50 | ! |
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| 51 | ! 3717 2019-02-05 17:21:16Z suehring |
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[3717] | 52 | ! Additional check + error numbers adjusted |
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| 53 | ! |
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| 54 | ! 3706 2019-01-29 20:02:26Z suehring |
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[3706] | 55 | ! unused variables removed |
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| 56 | ! |
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| 57 | ! 3705 2019-01-29 19:56:39Z suehring |
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[3704] | 58 | ! - initialization revised |
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| 59 | ! - binary data output |
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| 60 | ! - list of allowed variables extended |
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[3434] | 61 | ! |
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[3705] | 62 | ! 3704 2019-01-29 19:51:41Z suehring |
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[3522] | 63 | ! Sampling of variables |
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| 64 | ! |
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| 65 | ! 3494 2018-11-06 14:51:27Z suehring |
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[3494] | 66 | ! Bugfixing |
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| 67 | ! |
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| 68 | ! 3473 2018-10-30 20:50:15Z suehring |
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[3473] | 69 | ! Initial revision |
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[3434] | 70 | ! |
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| 71 | ! Authors: |
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| 72 | ! -------- |
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[3522] | 73 | ! @author Matthias Suehring |
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[3434] | 74 | ! |
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| 75 | ! Description: |
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| 76 | ! ------------ |
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[3471] | 77 | !> The module acts as an interface between 'real-world' observations and |
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| 78 | !> model simulations. Virtual measurements will be taken in the model at the |
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[3704] | 79 | !> coordinates representative for the 'real-world' observation coordinates. |
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[3471] | 80 | !> More precisely, coordinates and measured quanties will be read from a |
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| 81 | !> NetCDF file which contains all required information. In the model, |
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| 82 | !> the same quantities (as long as all the required components are switched-on) |
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| 83 | !> will be sampled at the respective positions and output into an extra file, |
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| 84 | !> which allows for straight-forward comparison of model results with |
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| 85 | !> observations. |
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[3522] | 86 | !> |
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| 87 | !> @todo list_of_allowed variables needs careful checking |
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| 88 | !> @todo Check if sign of surface fluxes for heat, radiation, etc., follows |
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| 89 | !> the (UC)2 standard |
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| 90 | !> @note Fluxes are not processed |
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[3434] | 91 | !------------------------------------------------------------------------------! |
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[3471] | 92 | MODULE virtual_measurement_mod |
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[3434] | 93 | |
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| 94 | USE arrays_3d, & |
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| 95 | ONLY: q, pt, u, v, w, zu, zw |
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| 96 | |
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[3904] | 97 | USE basic_constants_and_equations_mod, & |
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| 98 | ONLY: pi |
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| 99 | |
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[3833] | 100 | USE chem_gasphase_mod, & |
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| 101 | ONLY: nvar |
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[3522] | 102 | |
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[3876] | 103 | USE chem_modules, & |
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[3522] | 104 | ONLY: chem_species |
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| 105 | |
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[3434] | 106 | USE control_parameters, & |
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[3704] | 107 | ONLY: air_chemistry, dz, humidity, io_blocks, io_group, neutral, & |
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| 108 | message_string, time_since_reference_point, virtual_measurement |
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[3434] | 109 | |
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| 110 | USE cpulog, & |
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| 111 | ONLY: cpu_log, log_point |
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| 112 | |
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| 113 | USE grid_variables, & |
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| 114 | ONLY: dx, dy |
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| 115 | |
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| 116 | USE indices, & |
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[3704] | 117 | ONLY: nzb, nzt, nxl, nxr, nys, nyn, nx, ny, wall_flags_0 |
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[3434] | 118 | |
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| 119 | USE kinds |
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[3704] | 120 | |
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| 121 | USE netcdf_data_input_mod, & |
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| 122 | ONLY: init_model |
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| 123 | |
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| 124 | USE pegrid |
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| 125 | |
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| 126 | USE surface_mod, & |
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| 127 | ONLY: surf_lsm_h, surf_usm_h |
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| 128 | |
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| 129 | USE land_surface_model_mod, & |
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| 130 | ONLY: nzb_soil, nzs, nzt_soil, zs, t_soil_h, m_soil_h |
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| 131 | |
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| 132 | USE radiation_model_mod |
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| 133 | |
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| 134 | USE urban_surface_mod, & |
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| 135 | ONLY: nzb_wall, nzt_wall, t_wall_h |
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[3434] | 136 | |
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| 137 | |
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| 138 | IMPLICIT NONE |
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[3704] | 139 | |
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| 140 | TYPE virt_general |
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| 141 | INTEGER(iwp) :: id_vm !< NetCDF file id for virtual measurements |
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| 142 | INTEGER(iwp) :: nvm = 0 !< number of virtual measurements |
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| 143 | END TYPE virt_general |
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[3434] | 144 | |
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| 145 | TYPE virt_mea |
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| 146 | |
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[3704] | 147 | CHARACTER(LEN=100) :: feature_type !< type of the measurement |
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| 148 | CHARACTER(LEN=100) :: filename_original !< name of the original file |
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| 149 | CHARACTER(LEN=100) :: site !< name of the measurement site |
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[3434] | 150 | |
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| 151 | CHARACTER(LEN=10), DIMENSION(:), ALLOCATABLE :: measured_vars_name !< name of the measured variables |
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| 152 | |
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[3704] | 153 | INTEGER(iwp) :: ns = 0 !< number of observation coordinates on subdomain, for atmospheric measurements |
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| 154 | INTEGER(iwp) :: ns_tot = 0 !< total number of observation coordinates, for atmospheric measurements |
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| 155 | INTEGER(iwp) :: ntraj !< number of trajectories of a measurement |
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[3833] | 156 | INTEGER(iwp) :: nmeas !< number of measured variables (atmosphere + soil) |
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[3434] | 157 | |
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[3704] | 158 | INTEGER(iwp) :: ns_soil = 0 !< number of observation coordinates on subdomain, for soil measurements |
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| 159 | INTEGER(iwp) :: ns_soil_tot = 0 !< total number of observation coordinates, for soil measurements |
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| 160 | |
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[3434] | 161 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: dim_t !< number observations individual for each trajectory or station that are no _FillValues |
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| 162 | |
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[3704] | 163 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: i !< grid index for measurement position in x-direction |
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| 164 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: j !< grid index for measurement position in y-direction |
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| 165 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: k !< grid index for measurement position in k-direction |
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| 166 | |
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| 167 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: i_soil !< grid index for measurement position in x-direction |
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| 168 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: j_soil !< grid index for measurement position in y-direction |
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| 169 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: k_soil !< grid index for measurement position in k-direction |
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[3434] | 170 | |
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| 171 | LOGICAL :: trajectory = .FALSE. !< flag indicating that the observation is a mobile observation |
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| 172 | LOGICAL :: timseries = .FALSE. !< flag indicating that the observation is a stationary point measurement |
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| 173 | LOGICAL :: timseries_profile = .FALSE. !< flag indicating that the observation is a stationary profile measurement |
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[3704] | 174 | LOGICAL :: soil_sampling = .FALSE. !< flag indicating that soil state variables were sampled |
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[3434] | 175 | |
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[3704] | 176 | REAL(wp) :: fill_eutm !< fill value for UTM coordinates in case of missing values |
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| 177 | REAL(wp) :: fill_nutm !< fill value for UTM coordinates in case of missing values |
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| 178 | REAL(wp) :: fill_zag !< fill value for heigth coordinates in case of missing values |
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| 179 | REAL(wp) :: fillout = -999.9 !< fill value for output in case a observation is taken from inside a building |
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| 180 | REAL(wp) :: origin_x_obs !< origin of the observation in UTM coordiates in x-direction |
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| 181 | REAL(wp) :: origin_y_obs !< origin of the observation in UTM coordiates in y-direction |
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| 182 | |
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| 183 | REAL(wp), DIMENSION(:), ALLOCATABLE :: z_ag !< measurement height above ground level |
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| 184 | REAL(wp), DIMENSION(:), ALLOCATABLE :: depth !< measurement depth in soil |
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[3522] | 185 | |
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[3704] | 186 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: measured_vars !< measured variables |
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| 187 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: measured_vars_soil !< measured variables |
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[3434] | 188 | |
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| 189 | END TYPE virt_mea |
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| 190 | |
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| 191 | CHARACTER(LEN=5) :: char_eutm = "E_UTM" !< dimension name for UTM coordinate easting |
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| 192 | CHARACTER(LEN=11) :: char_feature = "featureType" !< attribute name for feature type |
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[3704] | 193 | |
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| 194 | ! This need to generalized |
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| 195 | CHARACTER(LEN=8) :: char_filename = "filename" !< attribute name for filename |
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| 196 | CHARACTER(LEN=11) :: char_soil = "soil_sample" !< attribute name for soil sampling indication |
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[3434] | 197 | CHARACTER(LEN=10) :: char_fillvalue = "_FillValue" !< variable attribute name for _FillValue |
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| 198 | CHARACTER(LEN=18) :: char_mv = "measured_variables" !< variable name for the array with the measured variable names |
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| 199 | CHARACTER(LEN=5) :: char_nutm = "N_UTM" !< dimension name for UTM coordinate northing |
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| 200 | CHARACTER(LEN=18) :: char_numstations = "number_of_stations" !< attribute name for number of stations |
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| 201 | CHARACTER(LEN=8) :: char_origx = "origin_x" !< attribute name for station coordinate in x |
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| 202 | CHARACTER(LEN=8) :: char_origy = "origin_y" !< attribute name for station coordinate in y |
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| 203 | CHARACTER(LEN=4) :: char_site = "site" !< attribute name for site name |
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| 204 | CHARACTER(LEN=19) :: char_zag = "height_above_ground" !< attribute name for height above ground variable |
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| 205 | CHARACTER(LEN=10) :: type_ts = 'timeSeries' !< name of stationary point measurements |
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| 206 | CHARACTER(LEN=10) :: type_traj = 'trajectory' !< name of line measurements |
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| 207 | CHARACTER(LEN=17) :: type_tspr = 'timeSeriesProfile' !< name of stationary profile measurements |
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[3704] | 208 | |
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| 209 | CHARACTER(LEN=6), DIMENSION(1:5) :: soil_vars = (/ & !< list of soil variables |
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| 210 | 't_soil', & |
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| 211 | 'm_soil', & |
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| 212 | 'lwc ', & |
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| 213 | 'lwcs ', & |
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| 214 | 'smp ' /) |
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| 215 | |
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| 216 | CHARACTER(LEN=10), DIMENSION(0:1,1:8) :: chem_vars = RESHAPE( (/ & |
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[3718] | 217 | 'mcpm1 ', 'PM1 ', & |
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| 218 | 'mcpm2p5 ', 'PM2.5 ', & |
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| 219 | 'mcpm25 ', 'PM25 ', & |
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| 220 | 'mcpm10 ', 'PM10 ', & |
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| 221 | 'mfno2 ', 'NO2 ', & |
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| 222 | 'mfno ', 'NO ', & |
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| 223 | 'tro3 ', 'O3 ', & |
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| 224 | 'mfco ', 'CO ' & |
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[3704] | 225 | /), (/ 2, 8 /) ) |
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[3522] | 226 | ! |
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| 227 | !-- MS: List requires careful revision! |
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[3704] | 228 | CHARACTER(LEN=10), DIMENSION(1:54), PARAMETER :: list_allowed_variables = & !< variables that can be sampled in PALM |
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[3471] | 229 | (/ 'hfls ', & ! surface latent heat flux (W/m2) |
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| 230 | 'hfss ', & ! surface sensible heat flux (W/m2) |
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| 231 | 'hur ', & ! relative humidity (-) |
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| 232 | 'hus ', & ! specific humidity (g/kg) |
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| 233 | 'haa ', & ! absolute atmospheric humidity (kg/m3) |
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| 234 | 'mcpm1 ', & ! mass concentration of PM1 (kg/m3) |
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| 235 | 'mcpm2p5 ', & ! mass concentration of PM2.5 (kg/m3) |
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| 236 | 'mcpm10 ', & ! mass concentration of PM10 (kg/m3) |
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| 237 | 'mcco ', & ! mass concentration of CO (kg/m3) |
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| 238 | 'mcco2 ', & ! mass concentration of CO2 (kg/m3) |
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| 239 | 'mcbcda ', & ! mass concentration of black carbon paritcles (kg/m3) |
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| 240 | 'ncaa ', & ! number concentation of particles (1/m3) |
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[3522] | 241 | 'mfco ', & ! mole fraction of CO (mol/mol) |
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[3471] | 242 | 'mfco2 ', & ! mole fraction of CO2 (mol/mol) |
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| 243 | 'mfch4 ', & ! mole fraction of methane (mol/mol) |
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| 244 | 'mfnh3 ', & ! mole fraction of amonia (mol/mol) |
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| 245 | 'mfno ', & ! mole fraction of nitrogen monoxide (mol/mol) |
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| 246 | 'mfno2 ', & ! mole fraction of nitrogen dioxide (mol/mol) |
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| 247 | 'mfso2 ', & ! mole fraction of sulfur dioxide (mol/mol) |
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| 248 | 'mfh20 ', & ! mole fraction of water (mol/mol) |
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| 249 | 'plev ', & ! ? air pressure - hydrostaic + perturbation? |
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| 250 | 'rlds ', & ! surface downward longwave flux (W/m2) |
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| 251 | 'rlus ', & ! surface upward longwave flux (W/m2) |
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| 252 | 'rsds ', & ! surface downward shortwave flux (W/m2) |
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| 253 | 'rsus ', & ! surface upward shortwave flux (W/m2) |
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| 254 | 'ta ', & ! air temperature (degree C) |
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| 255 | 't_va ', & ! virtual accoustic temperature (K) |
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| 256 | 'theta ', & ! potential temperature (K) |
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| 257 | 'tro3 ', & ! mole fraction of ozone air (mol/mol) |
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| 258 | 'ts ', & ! scaling parameter of temperature (K) |
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| 259 | 'wspeed ', & ! ? wind speed - horizontal? |
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| 260 | 'wdir ', & ! wind direction |
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| 261 | 'us ', & ! friction velocity |
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| 262 | 'msoil ', & ! ? soil moisture - which depth? |
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| 263 | 'tsoil ', & ! ? soil temperature - which depth? |
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| 264 | 'u ', & ! u-component |
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[3704] | 265 | 'utheta ', & ! total eastward kinematic heat flux |
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[3471] | 266 | 'ua ', & ! eastward wind (is there any difference to u?) |
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| 267 | 'v ', & ! v-component |
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[3704] | 268 | 'vtheta ', & ! total northward kinematic heat flux |
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[3471] | 269 | 'va ', & ! northward wind (is there any difference to v?) |
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| 270 | 'w ', & ! w-component |
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[3704] | 271 | 'wtheta ', & ! total vertical kinematic heat flux |
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[3471] | 272 | 'rld ', & ! downward longwave radiative flux (W/m2) |
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| 273 | 'rlu ', & ! upnward longwave radiative flux (W/m2) |
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| 274 | 'rsd ', & ! downward shortwave radiative flux (W/m2) |
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| 275 | 'rsu ', & ! upward shortwave radiative flux (W/m2) |
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| 276 | 'rsddif ', & ! downward shortwave diffuse radiative flux (W/m2) |
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[3704] | 277 | 'rnds ', & ! surface net downward radiative flux (W/m2) |
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| 278 | 't_soil ', & |
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| 279 | 'm_soil ', & |
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| 280 | 'lwc ', & |
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| 281 | 'lwcs ', & |
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| 282 | 'smp ' & |
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[3471] | 283 | /) |
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[3704] | 284 | |
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[3434] | 285 | |
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[3704] | 286 | LOGICAL :: global_attribute = .TRUE. !< flag indicating a global attribute |
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| 287 | LOGICAL :: init = .TRUE. !< flag indicating initialization of data output |
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[3434] | 288 | LOGICAL :: use_virtual_measurement = .FALSE. !< Namelist parameter |
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| 289 | |
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[3988] | 290 | REAL(wp) :: dt_virtual_measurement = 0.0_wp !< namelist parameter |
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| 291 | REAL(wp) :: time_virtual_measurement = 0.0_wp !< time since last 3d output |
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| 292 | REAL(wp) :: vm_time_start = 0.0 !< time after virtual measurements should start |
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| 293 | |
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[3704] | 294 | TYPE( virt_general ) :: vmea_general !< data structure which encompass general variables |
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[3434] | 295 | TYPE( virt_mea ), DIMENSION(:), ALLOCATABLE :: vmea !< virtual measurement data structure |
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| 296 | |
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| 297 | INTERFACE vm_check_parameters |
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| 298 | MODULE PROCEDURE vm_check_parameters |
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| 299 | END INTERFACE vm_check_parameters |
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| 300 | |
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[3704] | 301 | INTERFACE vm_data_output |
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| 302 | MODULE PROCEDURE vm_data_output |
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| 303 | END INTERFACE vm_data_output |
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| 304 | |
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[3434] | 305 | INTERFACE vm_init |
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| 306 | MODULE PROCEDURE vm_init |
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| 307 | END INTERFACE vm_init |
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| 308 | |
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[3704] | 309 | INTERFACE vm_last_actions |
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| 310 | MODULE PROCEDURE vm_last_actions |
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| 311 | END INTERFACE vm_last_actions |
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| 312 | |
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[3434] | 313 | INTERFACE vm_parin |
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| 314 | MODULE PROCEDURE vm_parin |
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| 315 | END INTERFACE vm_parin |
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| 316 | |
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| 317 | INTERFACE vm_sampling |
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| 318 | MODULE PROCEDURE vm_sampling |
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| 319 | END INTERFACE vm_sampling |
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| 320 | |
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| 321 | SAVE |
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| 322 | |
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| 323 | PRIVATE |
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| 324 | |
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| 325 | ! |
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| 326 | !-- Public interfaces |
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[3704] | 327 | PUBLIC vm_check_parameters, vm_data_output, vm_init, vm_last_actions, & |
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| 328 | vm_parin, vm_sampling |
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[3434] | 329 | |
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| 330 | ! |
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| 331 | !-- Public variables |
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[3988] | 332 | PUBLIC dt_virtual_measurement, time_virtual_measurement, vmea, vmea_general, vm_time_start |
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[3434] | 333 | |
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| 334 | CONTAINS |
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| 335 | |
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| 336 | |
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| 337 | !------------------------------------------------------------------------------! |
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| 338 | ! Description: |
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| 339 | ! ------------ |
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[3471] | 340 | !> Check parameters for virtual measurement module |
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[3434] | 341 | !------------------------------------------------------------------------------! |
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| 342 | SUBROUTINE vm_check_parameters |
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| 343 | |
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| 344 | USE control_parameters, & |
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| 345 | ONLY: message_string, virtual_measurement |
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| 346 | |
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| 347 | USE netcdf_data_input_mod, & |
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[3717] | 348 | ONLY: input_pids_static, input_pids_vm |
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[3434] | 349 | |
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| 350 | IMPLICIT NONE |
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[3717] | 351 | |
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[3434] | 352 | ! |
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[3717] | 353 | !-- Virtual measurements require a setup file. |
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| 354 | IF ( virtual_measurement .AND. .NOT. input_pids_vm ) THEN |
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| 355 | message_string = 'If virtual measurements are taken, a setup input ' // & |
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| 356 | 'file for the site locations is mandatory.' |
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| 357 | CALL message( 'vm_check_parameters', 'PA0533', 1, 2, 0, 6, 0 ) |
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| 358 | ENDIF |
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| 359 | ! |
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[3434] | 360 | !-- In case virtual measurements are taken, a static input file is required. |
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| 361 | !-- This is because UTM coordinates for the PALM domain origin are required |
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| 362 | !-- for correct mapping of the measurements. |
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| 363 | !-- ToDo: Revise this later and remove this requirement. |
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| 364 | IF ( virtual_measurement .AND. .NOT. input_pids_static ) THEN |
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[3704] | 365 | message_string = 'If virtual measurements are taken, a static input ' //& |
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[3434] | 366 | 'file is mandatory.' |
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[3717] | 367 | CALL message( 'vm_check_parameters', 'PA0534', 1, 2, 0, 6, 0 ) |
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[3434] | 368 | ENDIF |
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| 369 | |
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| 370 | END SUBROUTINE vm_check_parameters |
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| 371 | |
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| 372 | !------------------------------------------------------------------------------! |
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| 373 | ! Description: |
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| 374 | ! ------------ |
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[3471] | 375 | !> Read namelist for the virtual measurement module |
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[3434] | 376 | !------------------------------------------------------------------------------! |
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| 377 | SUBROUTINE vm_parin |
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| 378 | |
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| 379 | CHARACTER (LEN=80) :: line !< dummy string that contains the current line of the parameter file |
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| 380 | |
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[3988] | 381 | NAMELIST /virtual_measurement_parameters/ dt_virtual_measurement, & |
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| 382 | use_virtual_measurement, & |
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[3434] | 383 | vm_time_start |
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| 384 | |
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| 385 | line = ' ' |
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| 386 | |
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| 387 | ! |
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| 388 | !-- Try to find stg package |
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| 389 | REWIND ( 11 ) |
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| 390 | line = ' ' |
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| 391 | DO WHILE ( INDEX( line, '&virtual_measurement_parameters' ) == 0 ) |
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| 392 | READ ( 11, '(A)', END=20 ) line |
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| 393 | ENDDO |
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| 394 | BACKSPACE ( 11 ) |
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| 395 | |
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| 396 | ! |
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| 397 | !-- Read namelist |
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| 398 | READ ( 11, virtual_measurement_parameters, ERR = 10, END = 20 ) |
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| 399 | |
---|
| 400 | ! |
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[3471] | 401 | !-- Set flag that indicates that the virtual measurement module is switched on |
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[3434] | 402 | IF ( use_virtual_measurement ) virtual_measurement = .TRUE. |
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| 403 | |
---|
| 404 | GOTO 20 |
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| 405 | |
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| 406 | 10 BACKSPACE( 11 ) |
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| 407 | READ( 11 , '(A)') line |
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| 408 | CALL parin_fail_message( 'virtual_measurement_parameters', line ) |
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| 409 | |
---|
| 410 | 20 CONTINUE |
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| 411 | |
---|
| 412 | END SUBROUTINE vm_parin |
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| 413 | |
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| 414 | |
---|
| 415 | !------------------------------------------------------------------------------! |
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| 416 | ! Description: |
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| 417 | ! ------------ |
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| 418 | !> Initialize virtual measurements: read coordiante arrays and measured |
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| 419 | !> variables, set indicies indicating the measurement points, read further |
---|
| 420 | !> attributes, etc.. |
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| 421 | !------------------------------------------------------------------------------! |
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| 422 | SUBROUTINE vm_init |
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| 423 | |
---|
| 424 | USE arrays_3d, & |
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| 425 | ONLY: zu, zw |
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| 426 | |
---|
| 427 | USE grid_variables, & |
---|
| 428 | ONLY: ddx, ddy, dx, dy |
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| 429 | |
---|
| 430 | USE indices, & |
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| 431 | ONLY: nxl, nxr, nyn, nys |
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| 432 | |
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| 433 | USE netcdf_data_input_mod, & |
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[3704] | 434 | ONLY: init_model, input_file_vm, & |
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| 435 | netcdf_data_input_get_dimension_length, & |
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[3434] | 436 | netcdf_data_input_att, netcdf_data_input_var |
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| 437 | |
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| 438 | USE surface_mod, & |
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| 439 | ONLY: get_topography_top_index_ji |
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| 440 | |
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| 441 | IMPLICIT NONE |
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| 442 | |
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| 443 | CHARACTER(LEN=5) :: dum !< dummy string indicate station id |
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| 444 | CHARACTER(LEN=10), DIMENSION(50) :: measured_variables_file = '' !< array with all measured variables read from NetCDF |
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[3522] | 445 | CHARACTER(LEN=10), DIMENSION(50) :: measured_variables = '' !< dummy array with all measured variables that are allowed |
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[3434] | 446 | |
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| 447 | INTEGER(iwp) :: dim_ntime !< dimension size of time coordinate |
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[3704] | 448 | INTEGER(iwp) :: i !< grid index of virtual observation point in x-direction |
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[3434] | 449 | INTEGER(iwp) :: is !< grid index of real observation point of the respective station in x-direction |
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[3704] | 450 | INTEGER(iwp) :: j !< grid index of observation point in x-direction |
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[3434] | 451 | INTEGER(iwp) :: js !< grid index of real observation point of the respective station in y-direction |
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[3704] | 452 | INTEGER(iwp) :: k !< grid index of observation point in x-direction |
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[3522] | 453 | INTEGER(iwp) :: kl !< lower vertical index of surrounding grid points of an observation coordinate |
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[3434] | 454 | INTEGER(iwp) :: ks !< grid index of real observation point of the respective station in z-direction |
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| 455 | INTEGER(iwp) :: ksurf !< topography top index |
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[3522] | 456 | INTEGER(iwp) :: ku !< upper vertical index of surrounding grid points of an observation coordinate |
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[3434] | 457 | INTEGER(iwp) :: l !< running index over all stations |
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| 458 | INTEGER(iwp) :: len_char !< character length of single measured variables without Null character |
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| 459 | INTEGER(iwp) :: ll !< running index over all measured variables in file |
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| 460 | INTEGER(iwp) :: lll !< running index over all allowed variables |
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| 461 | INTEGER(iwp) :: n !< running index over trajectory coordinates |
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| 462 | INTEGER(iwp) :: ns !< counter variable for number of observation points on subdomain |
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| 463 | INTEGER(iwp) :: t !< running index over number of trajectories |
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[3704] | 464 | INTEGER(iwp) :: m |
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[3434] | 465 | |
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[3704] | 466 | INTEGER(KIND=1):: soil_dum |
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| 467 | |
---|
| 468 | INTEGER(iwp), DIMENSION(:), ALLOCATABLE :: ns_all !< dummy array used to sum-up the number of observation coordinates |
---|
| 469 | |
---|
[3522] | 470 | INTEGER(iwp), DIMENSION(:,:,:), ALLOCATABLE :: meas_flag !< mask array indicating measurement positions |
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| 471 | |
---|
[3766] | 472 | ! LOGICAL :: chem_include !< flag indicating that chemical species is considered in modelled mechanism |
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[3522] | 473 | LOGICAL :: on_pe !< flag indicating that the respective measurement coordinate is on subdomain |
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| 474 | |
---|
[3434] | 475 | REAL(wp) :: fill_eutm !< _FillValue for coordinate array E_UTM |
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| 476 | REAL(wp) :: fill_nutm !< _FillValue for coordinate array N_UTM |
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| 477 | REAL(wp) :: fill_zag !< _FillValue for height coordinate |
---|
| 478 | |
---|
[3910] | 479 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: e_utm !< easting UTM coordinate, temporary variable |
---|
| 480 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: n_utm !< northing UTM coordinate, temporary variable |
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| 481 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: e_utm_tmp !< EUTM coordinate before rotation |
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| 482 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: n_utm_tmp !< NUTM coordinate before rotation |
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| 483 | REAL(wp), DIMENSION(:,:), ALLOCATABLE :: z_ag !< height coordinate relative to origin_z, temporary variable |
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[3434] | 484 | ! |
---|
[3704] | 485 | !-- Obtain number of sites. Also, pass the 'open' string, in order to initially |
---|
| 486 | !-- open the measurement driver. |
---|
| 487 | CALL netcdf_data_input_att( vmea_general%nvm, char_numstations, & |
---|
| 488 | vmea_general%id_vm, input_file_vm, & |
---|
[3434] | 489 | global_attribute, 'open', '' ) |
---|
| 490 | ! |
---|
[3704] | 491 | !-- Allocate data structure which encompass all required information, such as |
---|
| 492 | !-- grid points indicies, absolute UTM coordinates, the measured quantities, |
---|
| 493 | !-- etc. . |
---|
| 494 | ALLOCATE( vmea(1:vmea_general%nvm) ) |
---|
[3434] | 495 | ! |
---|
[3704] | 496 | !-- Allocate flag array. This dummy array is used to identify grid points |
---|
| 497 | !-- where virtual measurements should be taken. Please note, at least one |
---|
| 498 | !-- ghost point is required, in order to include also the surrounding |
---|
| 499 | !-- grid points of the original coordinate. |
---|
[3522] | 500 | ALLOCATE( meas_flag(nzb:nzt+1,nys-1:nyn+1,nxl-1:nxr+1) ) |
---|
| 501 | meas_flag = 0 |
---|
| 502 | ! |
---|
[3704] | 503 | !-- Loop over all sites. |
---|
| 504 | DO l = 1, vmea_general%nvm |
---|
[3434] | 505 | ! |
---|
[3704] | 506 | !-- Determine suffix which contains the ID, ordered according to the number |
---|
| 507 | !-- of measurements. |
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[3434] | 508 | IF( l < 10 ) THEN |
---|
| 509 | WRITE( dum, '(I1)') l |
---|
| 510 | ELSEIF( l < 100 ) THEN |
---|
| 511 | WRITE( dum, '(I2)') l |
---|
| 512 | ELSEIF( l < 1000 ) THEN |
---|
| 513 | WRITE( dum, '(I3)') l |
---|
| 514 | ELSEIF( l < 10000 ) THEN |
---|
| 515 | WRITE( dum, '(I4)') l |
---|
| 516 | ELSEIF( l < 100000 ) THEN |
---|
| 517 | WRITE( dum, '(I5)') l |
---|
| 518 | ENDIF |
---|
[3704] | 519 | ! |
---|
| 520 | !-- Read site coordinates (UTM). |
---|
| 521 | CALL netcdf_data_input_att( vmea(l)%origin_x_obs, char_origx // & |
---|
| 522 | TRIM( dum ), vmea_general%id_vm, '', & |
---|
| 523 | global_attribute, '', '' ) |
---|
| 524 | CALL netcdf_data_input_att( vmea(l)%origin_y_obs, char_origy // & |
---|
| 525 | TRIM( dum ), vmea_general%id_vm, '', & |
---|
| 526 | global_attribute, '', '' ) |
---|
| 527 | ! |
---|
| 528 | !-- Read site name |
---|
| 529 | CALL netcdf_data_input_att( vmea(l)%site, char_site // TRIM( dum ), & |
---|
| 530 | vmea_general%id_vm, '', global_attribute, & |
---|
[3434] | 531 | '', '' ) |
---|
[3704] | 532 | ! |
---|
| 533 | !-- Read type of the measurement (trajectory, profile, timeseries). |
---|
| 534 | CALL netcdf_data_input_att( vmea(l)%feature_type, char_feature // & |
---|
| 535 | TRIM( dum ), vmea_general%id_vm, '', & |
---|
| 536 | global_attribute, '', '' ) |
---|
| 537 | ! |
---|
| 538 | !-- Read the name of the original file where observational data is stored. |
---|
| 539 | CALL netcdf_data_input_att( vmea(l)%filename_original, char_filename // & |
---|
| 540 | TRIM( dum ), vmea_general%id_vm, '', & |
---|
| 541 | global_attribute, '', '' ) |
---|
| 542 | ! |
---|
| 543 | !-- Read a flag which indicates that also soil quantities are take at the |
---|
| 544 | !-- respective site (is part of the virtual measurement driver). |
---|
| 545 | CALL netcdf_data_input_att( soil_dum, char_soil // TRIM( dum ), & |
---|
| 546 | vmea_general%id_vm, '', global_attribute, & |
---|
[3434] | 547 | '', '' ) |
---|
| 548 | ! |
---|
[3704] | 549 | !-- Set flag for soil-sampling. |
---|
| 550 | IF ( soil_dum == 1 ) vmea(l)%soil_sampling = .TRUE. |
---|
| 551 | ! |
---|
[3434] | 552 | !--- Set logicals depending on the type of the measurement |
---|
| 553 | IF ( INDEX( vmea(l)%feature_type, type_tspr ) /= 0 ) THEN |
---|
| 554 | vmea(l)%timseries_profile = .TRUE. |
---|
| 555 | ELSEIF ( INDEX( vmea(l)%feature_type, type_ts ) /= 0 ) THEN |
---|
| 556 | vmea(l)%timseries = .TRUE. |
---|
| 557 | ELSEIF ( INDEX( vmea(l)%feature_type, type_traj ) /= 0 ) THEN |
---|
| 558 | vmea(l)%trajectory = .TRUE. |
---|
[3704] | 559 | ! |
---|
| 560 | !-- Give error message in case the type matches non of the pre-defined types. |
---|
[3434] | 561 | ELSE |
---|
| 562 | message_string = 'Attribue featureType = ' // & |
---|
| 563 | TRIM( vmea(l)%feature_type ) // & |
---|
| 564 | ' is not allowed.' |
---|
[3717] | 565 | CALL message( 'vm_init', 'PA0535', 1, 2, 0, 6, 0 ) |
---|
[3434] | 566 | ENDIF |
---|
| 567 | ! |
---|
[3704] | 568 | !-- Read string with all measured variables at this site |
---|
[3434] | 569 | measured_variables_file = '' |
---|
| 570 | CALL netcdf_data_input_var( measured_variables_file, & |
---|
[3704] | 571 | char_mv // TRIM( dum ), vmea_general%id_vm ) |
---|
[3434] | 572 | ! |
---|
[3704] | 573 | !-- Count the number of measured variables. Only count variables that match |
---|
| 574 | !-- with the allowed variables. |
---|
| 575 | !-- Please note, for some NetCDF interal reasons characters end with a NULL, |
---|
| 576 | !-- i.e. also empty characters contain a NULL. Therefore, check the strings |
---|
| 577 | !-- for a NULL to get the correct character length in order to compare |
---|
| 578 | !-- them with the list of allowed variables. |
---|
[3833] | 579 | vmea(l)%nmeas = 0 |
---|
[3434] | 580 | DO ll = 1, SIZE( measured_variables_file ) |
---|
| 581 | IF ( measured_variables_file(ll)(1:1) /= CHAR(0) .AND. & |
---|
| 582 | measured_variables_file(ll)(1:1) /= ' ') THEN |
---|
| 583 | ! |
---|
| 584 | !-- Obtain character length of the character |
---|
| 585 | len_char = 1 |
---|
| 586 | DO WHILE ( measured_variables_file(ll)(len_char:len_char) /= CHAR(0)& |
---|
| 587 | .AND. measured_variables_file(ll)(len_char:len_char) /= ' ' ) |
---|
| 588 | len_char = len_char + 1 |
---|
| 589 | ENDDO |
---|
| 590 | len_char = len_char - 1 |
---|
| 591 | ! |
---|
| 592 | !-- Now, compare the measured variable with the list of allowed |
---|
| 593 | !-- variables. |
---|
| 594 | DO lll= 1, SIZE( list_allowed_variables ) |
---|
| 595 | IF ( measured_variables_file(ll)(1:len_char) == & |
---|
| 596 | TRIM( list_allowed_variables(lll) ) ) THEN |
---|
[3833] | 597 | vmea(l)%nmeas = vmea(l)%nmeas + 1 |
---|
| 598 | measured_variables(vmea(l)%nmeas) = & |
---|
[3434] | 599 | measured_variables_file(ll)(1:len_char) |
---|
| 600 | ENDIF |
---|
| 601 | ENDDO |
---|
| 602 | ENDIF |
---|
| 603 | ENDDO |
---|
[3910] | 604 | |
---|
| 605 | |
---|
[3434] | 606 | ! |
---|
[3704] | 607 | !-- Allocate array for the measured variables names for the respective site. |
---|
[3833] | 608 | ALLOCATE( vmea(l)%measured_vars_name(1:vmea(l)%nmeas) ) |
---|
[3434] | 609 | |
---|
[3833] | 610 | DO ll = 1, vmea(l)%nmeas |
---|
[3434] | 611 | vmea(l)%measured_vars_name(ll) = TRIM( measured_variables(ll) ) |
---|
| 612 | ENDDO |
---|
| 613 | ! |
---|
[3522] | 614 | !-- In case of chemistry, check if species is considered in the modelled |
---|
| 615 | !-- chemistry mechanism. |
---|
[3704] | 616 | ! IF ( air_chemistry ) THEN |
---|
[3833] | 617 | ! DO ll = 1, vmea(l)%nmeas |
---|
[3704] | 618 | ! chem_include = .FALSE. |
---|
[3833] | 619 | ! DO n = 1, nvar |
---|
[3704] | 620 | ! IF ( TRIM( vmea(l)%measured_vars_name(ll) ) == & |
---|
| 621 | ! TRIM( chem_species(n)%name ) ) chem_include = .TRUE. |
---|
| 622 | ! ENDDO |
---|
| 623 | ! ! |
---|
| 624 | ! !-- Revise this. It should only check for chemistry variables and not for all! |
---|
| 625 | ! IF ( .NOT. chem_include ) THEN |
---|
| 626 | ! message_string = TRIM( vmea(l)%measured_vars_name(ll) ) // & |
---|
| 627 | ! ' is not considered in the modelled ' // & |
---|
| 628 | ! 'chemistry mechanism' |
---|
| 629 | ! CALL message( 'vm_init', 'PA0000', 0, 0, 0, 6, 0 ) |
---|
| 630 | ! ENDIF |
---|
| 631 | ! ENDDO |
---|
| 632 | ! ENDIF |
---|
[3522] | 633 | ! |
---|
[3704] | 634 | !-- Read the UTM coordinates for the actual site. Based on the coordinates, |
---|
| 635 | !-- define the grid-index space on each subdomain where virtual measurements |
---|
| 636 | !-- should be taken. Note, the entire coordinate arrays will not be stored |
---|
| 637 | !-- as this would exceed memory requirements, particularly for trajectory |
---|
| 638 | !-- measurements. |
---|
[3833] | 639 | IF ( vmea(l)%nmeas > 0 ) THEN |
---|
[3434] | 640 | ! |
---|
| 641 | !-- For stationary measurements UTM coordinates are just one value and |
---|
| 642 | !-- its dimension is "station", while for mobile measurements UTM |
---|
[3704] | 643 | !-- coordinates are arrays depending on the number of trajectories and |
---|
| 644 | !-- time, according to (UC)2 standard. First, inquire dimension length |
---|
| 645 | !-- of the UTM coordinates. |
---|
[3434] | 646 | IF ( vmea(l)%trajectory ) THEN |
---|
| 647 | ! |
---|
| 648 | !-- For non-stationary measurements read the number of trajectories |
---|
[3704] | 649 | !-- and the number of time coordinates. |
---|
| 650 | CALL netcdf_data_input_get_dimension_length( vmea_general%id_vm, & |
---|
[3434] | 651 | vmea(l)%ntraj, & |
---|
| 652 | "traj" // & |
---|
| 653 | TRIM( dum ) ) |
---|
[3704] | 654 | CALL netcdf_data_input_get_dimension_length( vmea_general%id_vm, & |
---|
| 655 | dim_ntime, & |
---|
[3434] | 656 | "ntime" // & |
---|
| 657 | TRIM( dum ) ) |
---|
| 658 | ! |
---|
[3704] | 659 | !-- For stationary measurements the dimension for UTM and time |
---|
| 660 | !-- coordinates is 1. |
---|
[3434] | 661 | ELSE |
---|
| 662 | vmea(l)%ntraj = 1 |
---|
| 663 | dim_ntime = 1 |
---|
| 664 | ENDIF |
---|
| 665 | ! |
---|
| 666 | !- Allocate array which defines individual time frame for each |
---|
[3704] | 667 | !-- trajectory or station. |
---|
[3434] | 668 | ALLOCATE( vmea(l)%dim_t(1:vmea(l)%ntraj) ) |
---|
| 669 | ! |
---|
| 670 | !-- Allocate temporary arrays for UTM and height coordinates. Note, |
---|
| 671 | !-- on file UTM coordinates might be 1D or 2D variables |
---|
[3437] | 672 | ALLOCATE( e_utm(1:vmea(l)%ntraj,1:dim_ntime) ) |
---|
| 673 | ALLOCATE( n_utm(1:vmea(l)%ntraj,1:dim_ntime) ) |
---|
| 674 | ALLOCATE( z_ag(1:vmea(l)%ntraj,1:dim_ntime) ) |
---|
[3910] | 675 | |
---|
| 676 | ALLOCATE( e_utm_tmp(1:vmea(l)%ntraj,1:dim_ntime) ) |
---|
| 677 | ALLOCATE( n_utm_tmp(1:vmea(l)%ntraj,1:dim_ntime) ) |
---|
[3434] | 678 | ! |
---|
[3704] | 679 | !-- Read _FillValue attributes of the coordinate dimensions. |
---|
[3434] | 680 | CALL netcdf_data_input_att( fill_eutm, char_fillvalue, & |
---|
[3704] | 681 | vmea_general%id_vm, '', & |
---|
| 682 | .NOT. global_attribute, '', & |
---|
[3434] | 683 | char_eutm // TRIM( dum ) ) |
---|
| 684 | CALL netcdf_data_input_att( fill_nutm, char_fillvalue, & |
---|
[3704] | 685 | vmea_general%id_vm, '', & |
---|
| 686 | .NOT. global_attribute, '', & |
---|
[3434] | 687 | char_nutm // TRIM( dum ) ) |
---|
| 688 | CALL netcdf_data_input_att( fill_zag, char_fillvalue, & |
---|
[3704] | 689 | vmea_general%id_vm, '', & |
---|
| 690 | .NOT. global_attribute, '', & |
---|
[3434] | 691 | char_zag // TRIM( dum ) ) |
---|
| 692 | ! |
---|
| 693 | !-- Read UTM and height coordinates coordinates for all trajectories and |
---|
| 694 | !-- times. |
---|
[3437] | 695 | IF ( vmea(l)%trajectory ) THEN |
---|
[3704] | 696 | CALL netcdf_data_input_var( e_utm, char_eutm // TRIM( dum ), & |
---|
| 697 | vmea_general%id_vm, & |
---|
[3437] | 698 | 0, dim_ntime-1, 0, vmea(l)%ntraj-1 ) |
---|
[3704] | 699 | CALL netcdf_data_input_var( n_utm, char_nutm // TRIM( dum ), & |
---|
| 700 | vmea_general%id_vm, & |
---|
[3437] | 701 | 0, dim_ntime-1, 0, vmea(l)%ntraj-1 ) |
---|
[3704] | 702 | CALL netcdf_data_input_var( z_ag, char_zag // TRIM( dum ), & |
---|
| 703 | vmea_general%id_vm, & |
---|
[3437] | 704 | 0, dim_ntime-1, 0, vmea(l)%ntraj-1 ) |
---|
| 705 | ELSE |
---|
[3704] | 706 | CALL netcdf_data_input_var( e_utm(1,:), char_eutm // TRIM( dum ), & |
---|
| 707 | vmea_general%id_vm ) |
---|
| 708 | CALL netcdf_data_input_var( n_utm(1,:), char_nutm // TRIM( dum ), & |
---|
| 709 | vmea_general%id_vm ) |
---|
| 710 | CALL netcdf_data_input_var( z_ag(1,:), char_zag // TRIM( dum ), & |
---|
| 711 | vmea_general%id_vm ) |
---|
| 712 | ENDIF |
---|
[3434] | 713 | ! |
---|
| 714 | !-- Based on UTM coordinates, check if the measurement station or parts |
---|
| 715 | !-- of the trajectory is on subdomain. This case, setup grid index space |
---|
| 716 | !-- sample these quantities. |
---|
[3522] | 717 | meas_flag = 0 |
---|
[3434] | 718 | DO t = 1, vmea(l)%ntraj |
---|
[3704] | 719 | ! |
---|
| 720 | !-- First, compute relative x- and y-coordinates with respect to the |
---|
| 721 | !-- lower-left origin of the model domain, which is the difference |
---|
[3904] | 722 | !-- between UTM coordinates. Note, if the origin is not correct, the |
---|
[3704] | 723 | !-- virtual sites will be misplaced. |
---|
[3910] | 724 | e_utm_tmp(t,1:dim_ntime) = e_utm(t,1:dim_ntime) - init_model%origin_x |
---|
| 725 | n_utm_tmp(t,1:dim_ntime) = n_utm(t,1:dim_ntime) - init_model%origin_y |
---|
[3904] | 726 | e_utm(t,1:dim_ntime) = COS( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
[3910] | 727 | * e_utm_tmp(t,1:dim_ntime) & |
---|
[3904] | 728 | - SIN( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
[3910] | 729 | * n_utm_tmp(t,1:dim_ntime) |
---|
[3904] | 730 | n_utm(t,1:dim_ntime) = SIN( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
[3910] | 731 | * e_utm_tmp(t,1:dim_ntime) & |
---|
[3904] | 732 | + COS( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
[3910] | 733 | * n_utm_tmp(t,1:dim_ntime) |
---|
[3434] | 734 | ! |
---|
| 735 | !-- Determine the individual time coordinate length for each station and |
---|
| 736 | !-- trajectory. This is required as several stations and trajectories |
---|
| 737 | !-- are merged into one file but they do not have the same number of |
---|
| 738 | !-- points in time, hence, missing values may occur and cannot be |
---|
[3704] | 739 | !-- processed further. This is actually a work-around for the specific |
---|
| 740 | !-- (UC)2 dataset, but it won't harm in anyway. |
---|
[3434] | 741 | vmea(l)%dim_t(t) = 0 |
---|
| 742 | DO n = 1, dim_ntime |
---|
[3437] | 743 | IF ( e_utm(t,n) /= fill_eutm .AND. & |
---|
| 744 | n_utm(t,n) /= fill_nutm .AND. & |
---|
| 745 | z_ag(t,n) /= fill_zag ) vmea(l)%dim_t(t) = n |
---|
[3434] | 746 | ENDDO |
---|
| 747 | ! |
---|
| 748 | !-- Compute grid indices relative to origin and check if these are |
---|
| 749 | !-- on the subdomain. Note, virtual measurements will be taken also |
---|
| 750 | !-- at grid points surrounding the station, hence, check also for |
---|
| 751 | !-- these grid points. |
---|
[3437] | 752 | DO n = 1, vmea(l)%dim_t(t) |
---|
| 753 | is = INT( ( e_utm(t,n) + 0.5_wp * dx ) * ddx, KIND = iwp ) |
---|
| 754 | js = INT( ( n_utm(t,n) + 0.5_wp * dy ) * ddy, KIND = iwp ) |
---|
[3434] | 755 | ! |
---|
| 756 | !-- Is the observation point on subdomain? |
---|
| 757 | on_pe = ( is >= nxl .AND. is <= nxr .AND. & |
---|
| 758 | js >= nys .AND. js <= nyn ) |
---|
| 759 | ! |
---|
[3522] | 760 | !-- Check if observation coordinate is on subdomain |
---|
[3434] | 761 | IF ( on_pe ) THEN |
---|
[3522] | 762 | ! |
---|
| 763 | !-- Determine vertical index which correspond to the observation |
---|
| 764 | !-- height. |
---|
[3434] | 765 | ksurf = get_topography_top_index_ji( js, is, 's' ) |
---|
[3437] | 766 | ks = MINLOC( ABS( zu - zw(ksurf) - z_ag(t,n) ), DIM = 1 ) - 1 |
---|
[3434] | 767 | ! |
---|
[3522] | 768 | !-- Set mask array at the observation coordinates. Also, flag the |
---|
| 769 | !-- surrounding coordinate points, but first check whether the |
---|
| 770 | !-- surrounding coordinate points are on the subdomain. |
---|
[3704] | 771 | kl = MERGE( ks-1, ks, ks-1 >= nzb .AND. ks-1 >= ksurf ) |
---|
| 772 | ku = MERGE( ks+1, ks, ks+1 < nzt+1 ) |
---|
[3522] | 773 | |
---|
[3704] | 774 | DO i = is-1, is+1 |
---|
| 775 | DO j = js-1, js+1 |
---|
| 776 | DO k = kl, ku |
---|
| 777 | meas_flag(k,j,i) = MERGE( & |
---|
| 778 | IBSET( meas_flag(k,j,i), 0 ), & |
---|
| 779 | 0, & |
---|
| 780 | BTEST( wall_flags_0(k,j,i), 0 ) & |
---|
| 781 | ) |
---|
| 782 | ENDDO |
---|
| 783 | ENDDO |
---|
| 784 | ENDDO |
---|
[3434] | 785 | ENDIF |
---|
| 786 | ENDDO |
---|
| 787 | |
---|
| 788 | ENDDO |
---|
| 789 | ! |
---|
[3704] | 790 | !-- Based on the flag array count the number of of sampling coordinates. |
---|
| 791 | !-- Please note, sampling coordinates in atmosphere and soil may be |
---|
| 792 | !-- different, as within the soil all levels will be measured. |
---|
| 793 | !-- Hence, count individually. Start with atmoshere. |
---|
[3522] | 794 | ns = 0 |
---|
[3704] | 795 | DO i = nxl-1, nxr+1 |
---|
| 796 | DO j = nys-1, nyn+1 |
---|
| 797 | DO k = nzb, nzt+1 |
---|
| 798 | ns = ns + MERGE( 1, 0, BTEST( meas_flag(k,j,i), 0 ) ) |
---|
[3522] | 799 | ENDDO |
---|
| 800 | ENDDO |
---|
| 801 | ENDDO |
---|
[3704] | 802 | |
---|
[3522] | 803 | ! |
---|
[3434] | 804 | !-- Store number of observation points on subdomain and allocate index |
---|
[3704] | 805 | !-- arrays as well as array containing height information. |
---|
[3434] | 806 | vmea(l)%ns = ns |
---|
| 807 | |
---|
| 808 | ALLOCATE( vmea(l)%i(1:vmea(l)%ns) ) |
---|
| 809 | ALLOCATE( vmea(l)%j(1:vmea(l)%ns) ) |
---|
| 810 | ALLOCATE( vmea(l)%k(1:vmea(l)%ns) ) |
---|
[3910] | 811 | ALLOCATE( vmea(l)%z_ag(1:vmea(l)%ns) ) |
---|
[3434] | 812 | ! |
---|
[3522] | 813 | !-- Based on the flag array store the grid indices which correspond to |
---|
| 814 | !-- the observation coordinates. |
---|
[3704] | 815 | ns = 0 |
---|
| 816 | DO i = nxl-1, nxr+1 |
---|
| 817 | DO j = nys-1, nyn+1 |
---|
| 818 | DO k = nzb, nzt+1 |
---|
| 819 | IF ( BTEST( meas_flag(k,j,i), 0 ) ) THEN |
---|
[3522] | 820 | ns = ns + 1 |
---|
[3704] | 821 | vmea(l)%i(ns) = i |
---|
| 822 | vmea(l)%j(ns) = j |
---|
| 823 | vmea(l)%k(ns) = k |
---|
| 824 | vmea(l)%z_ag(ns) = zu(k) - & |
---|
| 825 | zw(get_topography_top_index_ji( j, i, 's' )) |
---|
[3522] | 826 | ENDIF |
---|
| 827 | ENDDO |
---|
[3434] | 828 | ENDDO |
---|
| 829 | ENDDO |
---|
| 830 | ! |
---|
[3704] | 831 | !-- Same for the soil. Based on the flag array, count the number of |
---|
| 832 | !-- sampling coordinates in soil. Sample at all soil levels in this case. |
---|
| 833 | IF ( vmea(l)%soil_sampling ) THEN |
---|
| 834 | DO i = nxl, nxr |
---|
| 835 | DO j = nys, nyn |
---|
| 836 | IF ( ANY( BTEST( meas_flag(:,j,i), 0 ) ) ) THEN |
---|
| 837 | IF ( surf_lsm_h%start_index(j,i) <= & |
---|
| 838 | surf_lsm_h%end_index(j,i) ) THEN |
---|
| 839 | vmea(l)%ns_soil = vmea(l)%ns_soil + & |
---|
| 840 | nzt_soil - nzb_soil + 1 |
---|
| 841 | ENDIF |
---|
| 842 | IF ( surf_usm_h%start_index(j,i) <= & |
---|
| 843 | surf_usm_h%end_index(j,i) ) THEN |
---|
| 844 | vmea(l)%ns_soil = vmea(l)%ns_soil + & |
---|
| 845 | nzt_wall - nzb_wall + 1 |
---|
| 846 | ENDIF |
---|
| 847 | ENDIF |
---|
| 848 | ENDDO |
---|
| 849 | ENDDO |
---|
| 850 | ENDIF |
---|
| 851 | ! |
---|
| 852 | !-- Allocate index arrays as well as array containing height information |
---|
| 853 | !-- for soil. |
---|
| 854 | IF ( vmea(l)%soil_sampling ) THEN |
---|
| 855 | ALLOCATE( vmea(l)%i_soil(1:vmea(l)%ns_soil) ) |
---|
| 856 | ALLOCATE( vmea(l)%j_soil(1:vmea(l)%ns_soil) ) |
---|
| 857 | ALLOCATE( vmea(l)%k_soil(1:vmea(l)%ns_soil) ) |
---|
| 858 | ALLOCATE( vmea(l)%depth(1:vmea(l)%ns_soil) ) |
---|
| 859 | ENDIF |
---|
| 860 | ! |
---|
| 861 | !-- For soil, store the grid indices. |
---|
| 862 | ns = 0 |
---|
| 863 | IF ( vmea(l)%soil_sampling ) THEN |
---|
| 864 | DO i = nxl, nxr |
---|
| 865 | DO j = nys, nyn |
---|
| 866 | IF ( ANY( BTEST( meas_flag(:,j,i), 0 ) ) ) THEN |
---|
| 867 | IF ( surf_lsm_h%start_index(j,i) <= & |
---|
| 868 | surf_lsm_h%end_index(j,i) ) THEN |
---|
| 869 | m = surf_lsm_h%start_index(j,i) |
---|
| 870 | DO k = nzb_soil, nzt_soil |
---|
| 871 | ns = ns + 1 |
---|
| 872 | vmea(l)%i_soil(ns) = i |
---|
| 873 | vmea(l)%j_soil(ns) = j |
---|
| 874 | vmea(l)%k_soil(ns) = k |
---|
| 875 | vmea(l)%depth(ns) = zs(k) |
---|
| 876 | ENDDO |
---|
| 877 | ENDIF |
---|
| 878 | |
---|
| 879 | IF ( surf_usm_h%start_index(j,i) <= & |
---|
| 880 | surf_usm_h%end_index(j,i) ) THEN |
---|
| 881 | m = surf_usm_h%start_index(j,i) |
---|
| 882 | DO k = nzb_wall, nzt_wall |
---|
| 883 | ns = ns + 1 |
---|
| 884 | vmea(l)%i_soil(ns) = i |
---|
| 885 | vmea(l)%j_soil(ns) = j |
---|
| 886 | vmea(l)%k_soil(ns) = k |
---|
| 887 | vmea(l)%depth(ns) = surf_usm_h%zw(k,m) |
---|
| 888 | ENDDO |
---|
| 889 | ENDIF |
---|
| 890 | ENDIF |
---|
| 891 | ENDDO |
---|
| 892 | ENDDO |
---|
| 893 | ENDIF |
---|
| 894 | ! |
---|
[3434] | 895 | !-- Allocate array to save the sampled values. |
---|
[3833] | 896 | ALLOCATE( vmea(l)%measured_vars(1:vmea(l)%ns,1:vmea(l)%nmeas) ) |
---|
[3704] | 897 | |
---|
| 898 | IF ( vmea(l)%soil_sampling ) & |
---|
| 899 | ALLOCATE( vmea(l)%measured_vars_soil(1:vmea(l)%ns_soil, & |
---|
[3833] | 900 | 1:vmea(l)%nmeas) ) |
---|
[3434] | 901 | ! |
---|
[3704] | 902 | !-- Initialize with _FillValues |
---|
[3833] | 903 | vmea(l)%measured_vars(1:vmea(l)%ns,1:vmea(l)%nmeas) = vmea(l)%fillout |
---|
[3704] | 904 | IF ( vmea(l)%soil_sampling ) & |
---|
[3833] | 905 | vmea(l)%measured_vars_soil(1:vmea(l)%ns_soil,1:vmea(l)%nmeas) = & |
---|
[3704] | 906 | vmea(l)%fillout |
---|
[3434] | 907 | ! |
---|
| 908 | !-- Deallocate temporary coordinate arrays |
---|
[3910] | 909 | IF ( ALLOCATED( e_utm ) ) DEALLOCATE( e_utm ) |
---|
| 910 | IF ( ALLOCATED( n_utm ) ) DEALLOCATE( n_utm ) |
---|
| 911 | IF ( ALLOCATED( e_utm_tmp ) ) DEALLOCATE( e_utm_tmp ) |
---|
| 912 | IF ( ALLOCATED( n_utm_tmp ) ) DEALLOCATE( n_utm_tmp ) |
---|
| 913 | IF ( ALLOCATED( n_utm ) ) DEALLOCATE( n_utm ) |
---|
| 914 | IF ( ALLOCATED( z_ag ) ) DEALLOCATE( z_ag ) |
---|
| 915 | IF ( ALLOCATED( z_ag ) ) DEALLOCATE( vmea(l)%dim_t ) |
---|
[3434] | 916 | ENDIF |
---|
| 917 | ENDDO |
---|
| 918 | ! |
---|
| 919 | !-- Close input file for virtual measurements. Therefore, just call |
---|
| 920 | !-- the read attribute routine with the "close" option. |
---|
[3704] | 921 | CALL netcdf_data_input_att( vmea_general%nvm, char_numstations, & |
---|
| 922 | vmea_general%id_vm, '', & |
---|
[3434] | 923 | global_attribute, 'close', '' ) |
---|
[3704] | 924 | ! |
---|
| 925 | !-- Sum-up the number of observation coordiates, for atmosphere first. |
---|
| 926 | !-- This is actually only required for data output. |
---|
| 927 | ALLOCATE( ns_all(1:vmea_general%nvm) ) |
---|
| 928 | ns_all = 0 |
---|
| 929 | #if defined( __parallel ) |
---|
| 930 | CALL MPI_ALLREDUCE( vmea(:)%ns, ns_all(:), vmea_general%nvm, MPI_INTEGER, & |
---|
| 931 | MPI_SUM, comm2d, ierr ) |
---|
| 932 | #else |
---|
| 933 | ns_all(:) = vmea(:)%ns |
---|
| 934 | #endif |
---|
| 935 | vmea(:)%ns_tot = ns_all(:) |
---|
| 936 | ! |
---|
| 937 | !-- Now for soil |
---|
| 938 | ns_all = 0 |
---|
| 939 | #if defined( __parallel ) |
---|
| 940 | CALL MPI_ALLREDUCE( vmea(:)%ns_soil, ns_all(:), vmea_general%nvm, & |
---|
| 941 | MPI_INTEGER, MPI_SUM, comm2d, ierr ) |
---|
| 942 | #else |
---|
| 943 | ns_all(:) = vmea(:)%ns_soil |
---|
| 944 | #endif |
---|
| 945 | vmea(:)%ns_soil_tot = ns_all(:) |
---|
| 946 | |
---|
| 947 | DEALLOCATE( ns_all ) |
---|
[3522] | 948 | ! |
---|
| 949 | !-- Dellocate flag array |
---|
| 950 | DEALLOCATE( meas_flag ) |
---|
[3704] | 951 | ! |
---|
| 952 | !-- Initialize binary data output of virtual measurements. |
---|
| 953 | !-- Open binary output file. |
---|
| 954 | CALL check_open( 27 ) |
---|
| 955 | ! |
---|
| 956 | !-- Output header information. |
---|
| 957 | CALL vm_data_output |
---|
[3522] | 958 | |
---|
[3434] | 959 | END SUBROUTINE vm_init |
---|
| 960 | |
---|
| 961 | |
---|
| 962 | !------------------------------------------------------------------------------! |
---|
| 963 | ! Description: |
---|
| 964 | ! ------------ |
---|
[3704] | 965 | !> Binary data output. |
---|
| 966 | !------------------------------------------------------------------------------! |
---|
| 967 | SUBROUTINE vm_data_output |
---|
| 968 | |
---|
| 969 | USE pegrid |
---|
| 970 | |
---|
| 971 | IMPLICIT NONE |
---|
| 972 | |
---|
[3913] | 973 | INTEGER(iwp) :: i !< running index over IO blocks |
---|
| 974 | INTEGER(iwp) :: l !< running index over all stations |
---|
| 975 | INTEGER(iwp) :: n !< running index over all measured variables at a station |
---|
[3704] | 976 | ! |
---|
| 977 | !-- Header output on each PE |
---|
| 978 | IF ( init ) THEN |
---|
| 979 | |
---|
| 980 | DO i = 0, io_blocks-1 |
---|
| 981 | IF ( i == io_group ) THEN |
---|
| 982 | WRITE ( 27 ) 'number of measurements ' |
---|
| 983 | WRITE ( 27 ) vmea_general%nvm |
---|
| 984 | |
---|
| 985 | DO l = 1, vmea_general%nvm |
---|
| 986 | WRITE ( 27 ) 'site ' |
---|
| 987 | WRITE ( 27 ) vmea(l)%site |
---|
| 988 | WRITE ( 27 ) 'file ' |
---|
| 989 | WRITE ( 27 ) vmea(l)%filename_original |
---|
| 990 | WRITE ( 27 ) 'feature_type ' |
---|
| 991 | WRITE ( 27 ) vmea(l)%feature_type |
---|
| 992 | WRITE ( 27 ) 'origin_x_obs ' |
---|
| 993 | WRITE ( 27 ) vmea(l)%origin_x_obs |
---|
| 994 | WRITE ( 27 ) 'origin_y_obs ' |
---|
| 995 | WRITE ( 27 ) vmea(l)%origin_y_obs |
---|
| 996 | WRITE ( 27 ) 'total number of observation points' |
---|
| 997 | WRITE ( 27 ) vmea(l)%ns_tot |
---|
| 998 | WRITE ( 27 ) 'number of measured variables ' |
---|
[3833] | 999 | WRITE ( 27 ) vmea(l)%nmeas |
---|
[3704] | 1000 | WRITE ( 27 ) 'variables ' |
---|
| 1001 | WRITE ( 27 ) vmea(l)%measured_vars_name(:) |
---|
| 1002 | WRITE ( 27 ) 'number of observation points ' |
---|
| 1003 | WRITE ( 27 ) vmea(l)%ns |
---|
| 1004 | WRITE ( 27 ) 'E_UTM ' |
---|
[3913] | 1005 | WRITE ( 27 ) init_model%origin_x & |
---|
| 1006 | + REAL( vmea(l)%i(1:vmea(l)%ns) + 0.5_wp, KIND = wp ) * dx & |
---|
| 1007 | * COS( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
| 1008 | + REAL( vmea(l)%j(1:vmea(l)%ns) + 0.5_wp, KIND = wp ) * dy & |
---|
| 1009 | * SIN( init_model%rotation_angle * pi / 180.0_wp ) |
---|
[3704] | 1010 | WRITE ( 27 ) 'N_UTM ' |
---|
[3913] | 1011 | WRITE ( 27 ) init_model%origin_y & |
---|
| 1012 | - REAL( vmea(l)%i(1:vmea(l)%ns) + 0.5_wp, KIND = wp ) * dx & |
---|
| 1013 | * SIN( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
| 1014 | + REAL( vmea(l)%j(1:vmea(l)%ns) + 0.5_wp, KIND = wp ) * dy & |
---|
| 1015 | * COS( init_model%rotation_angle * pi / 180.0_wp ) |
---|
[3704] | 1016 | WRITE ( 27 ) 'Z_AG ' |
---|
| 1017 | WRITE ( 27 ) vmea(l)%z_ag(1:vmea(l)%ns) |
---|
| 1018 | WRITE ( 27 ) 'soil sampling ' |
---|
| 1019 | WRITE ( 27 ) MERGE( 'yes ', & |
---|
| 1020 | 'no ', & |
---|
| 1021 | vmea(l)%soil_sampling ) |
---|
| 1022 | |
---|
| 1023 | IF ( vmea(l)%soil_sampling ) THEN |
---|
| 1024 | WRITE ( 27 ) 'total number of soil points ' |
---|
| 1025 | WRITE ( 27 ) vmea(l)%ns_soil_tot |
---|
| 1026 | WRITE ( 27 ) 'number of soil points ' |
---|
| 1027 | WRITE ( 27 ) vmea(l)%ns_soil |
---|
| 1028 | WRITE ( 27 ) 'E_UTM soil ' |
---|
[3913] | 1029 | WRITE ( 27 ) init_model%origin_x & |
---|
| 1030 | + REAL( vmea(l)%i_soil(1:vmea(l)%ns_soil) + 0.5_wp, & |
---|
| 1031 | KIND = wp ) * dx & |
---|
| 1032 | * COS( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
| 1033 | + REAL( vmea(l)%j_soil(1:vmea(l)%ns_soil) + 0.5_wp, & |
---|
| 1034 | KIND = wp ) * dy & |
---|
| 1035 | * SIN( init_model%rotation_angle * pi / 180.0_wp ) |
---|
[3704] | 1036 | WRITE ( 27 ) 'N_UTM soil ' |
---|
[3913] | 1037 | WRITE ( 27 ) init_model%origin_y & |
---|
| 1038 | - REAL( vmea(l)%i_soil(1:vmea(l)%ns_soil) + 0.5_wp, & |
---|
| 1039 | KIND = wp ) * dx & |
---|
| 1040 | * SIN( init_model%rotation_angle * pi / 180.0_wp ) & |
---|
| 1041 | + REAL( vmea(l)%j_soil(1:vmea(l)%ns_soil) + 0.5_wp, & |
---|
| 1042 | KIND = wp ) * dy & |
---|
| 1043 | * COS( init_model%rotation_angle * pi / 180.0_wp ) |
---|
[3704] | 1044 | WRITE ( 27 ) 'DEPTH ' |
---|
| 1045 | WRITE ( 27 ) vmea(l)%depth(1:vmea(l)%ns_soil) |
---|
| 1046 | ENDIF |
---|
| 1047 | ENDDO |
---|
| 1048 | |
---|
| 1049 | ENDIF |
---|
| 1050 | ENDDO |
---|
| 1051 | |
---|
| 1052 | #if defined( __parallel ) |
---|
| 1053 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 1054 | #endif |
---|
| 1055 | ! |
---|
| 1056 | !-- After header information is written, set control flag to .FALSE. |
---|
| 1057 | init = .FALSE. |
---|
| 1058 | ! |
---|
| 1059 | !-- Data output at each measurement timestep on each PE |
---|
| 1060 | ELSE |
---|
| 1061 | DO i = 0, io_blocks-1 |
---|
| 1062 | |
---|
| 1063 | IF ( i == io_group ) THEN |
---|
| 1064 | WRITE( 27 ) 'output time ' |
---|
| 1065 | WRITE( 27 ) time_since_reference_point |
---|
| 1066 | DO l = 1, vmea_general%nvm |
---|
| 1067 | ! |
---|
| 1068 | !-- Skip binary writing if no observation points are defined on PE |
---|
| 1069 | IF ( vmea(l)%ns < 1 .AND. vmea(l)%ns_soil < 1) CYCLE |
---|
[3833] | 1070 | DO n = 1, vmea(l)%nmeas |
---|
[3704] | 1071 | WRITE( 27 ) vmea(l)%measured_vars_name(n) |
---|
| 1072 | IF ( vmea(l)%soil_sampling .AND. & |
---|
| 1073 | ANY( TRIM( vmea(l)%measured_vars_name(n)) == & |
---|
| 1074 | soil_vars ) ) THEN |
---|
| 1075 | WRITE( 27 ) vmea(l)%measured_vars_soil(:,n) |
---|
| 1076 | ELSE |
---|
| 1077 | WRITE( 27 ) vmea(l)%measured_vars(:,n) |
---|
| 1078 | ENDIF |
---|
| 1079 | ENDDO |
---|
| 1080 | |
---|
| 1081 | ENDDO |
---|
| 1082 | ENDIF |
---|
| 1083 | ENDDO |
---|
| 1084 | #if defined( __parallel ) |
---|
| 1085 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 1086 | #endif |
---|
| 1087 | ENDIF |
---|
| 1088 | |
---|
| 1089 | END SUBROUTINE vm_data_output |
---|
| 1090 | |
---|
| 1091 | |
---|
| 1092 | !------------------------------------------------------------------------------! |
---|
| 1093 | ! Description: |
---|
| 1094 | ! ------------ |
---|
| 1095 | !> Write end-of-file statement as last action. |
---|
| 1096 | !------------------------------------------------------------------------------! |
---|
| 1097 | SUBROUTINE vm_last_actions |
---|
| 1098 | |
---|
| 1099 | USE pegrid |
---|
| 1100 | |
---|
| 1101 | IMPLICIT NONE |
---|
| 1102 | |
---|
| 1103 | INTEGER(iwp) :: i !< running index over IO blocks |
---|
| 1104 | |
---|
| 1105 | DO i = 0, io_blocks-1 |
---|
| 1106 | IF ( i == io_group ) THEN |
---|
| 1107 | WRITE( 27 ) 'EOF ' |
---|
| 1108 | ENDIF |
---|
| 1109 | ENDDO |
---|
| 1110 | #if defined( __parallel ) |
---|
| 1111 | CALL MPI_BARRIER( comm2d, ierr ) |
---|
| 1112 | #endif |
---|
| 1113 | ! |
---|
| 1114 | !-- Close binary file |
---|
| 1115 | CALL close_file( 27 ) |
---|
| 1116 | |
---|
| 1117 | END SUBROUTINE vm_last_actions |
---|
| 1118 | |
---|
| 1119 | !------------------------------------------------------------------------------! |
---|
| 1120 | ! Description: |
---|
| 1121 | ! ------------ |
---|
[3434] | 1122 | !> Sampling of the actual quantities along the observation coordinates |
---|
| 1123 | !------------------------------------------------------------------------------! |
---|
[3471] | 1124 | SUBROUTINE vm_sampling |
---|
[3434] | 1125 | |
---|
[3522] | 1126 | USE arrays_3d, & |
---|
| 1127 | ONLY: exner, pt, q, u, v, w |
---|
[3471] | 1128 | |
---|
[3522] | 1129 | USE radiation_model_mod, & |
---|
| 1130 | ONLY: radiation |
---|
| 1131 | |
---|
| 1132 | USE surface_mod, & |
---|
| 1133 | ONLY: surf_def_h, surf_lsm_h, surf_usm_h |
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| 1134 | |
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[3434] | 1135 | IMPLICIT NONE |
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| 1136 | |
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[3704] | 1137 | INTEGER(iwp) :: i !< grid index in x-direction |
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| 1138 | INTEGER(iwp) :: j !< grid index in y-direction |
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| 1139 | INTEGER(iwp) :: k !< grid index in z-direction |
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| 1140 | INTEGER(iwp) :: ind_chem !< dummy index to identify chemistry variable and translate it from (UC)2 standard to interal naming |
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| 1141 | INTEGER(iwp) :: l !< running index over the number of stations |
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| 1142 | INTEGER(iwp) :: m !< running index over all virtual observation coordinates |
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| 1143 | INTEGER(iwp) :: mm !< index of surface element which corresponds to the virtual observation coordinate |
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| 1144 | INTEGER(iwp) :: n !< running index over all measured variables at a station |
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| 1145 | INTEGER(iwp) :: nn !< running index over the number of chemcal species |
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| 1146 | |
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| 1147 | LOGICAL :: match_lsm !< flag indicating natural-type surface |
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| 1148 | LOGICAL :: match_usm !< flag indicating urban-type surface |
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[3434] | 1149 | ! |
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[3704] | 1150 | !-- Loop over all sites. |
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| 1151 | DO l = 1, vmea_general%nvm |
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[3434] | 1152 | ! |
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[3704] | 1153 | !-- At the beginning, set _FillValues |
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| 1154 | IF ( ALLOCATED( vmea(l)%measured_vars ) ) & |
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| 1155 | vmea(l)%measured_vars = vmea(l)%fillout |
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| 1156 | IF ( ALLOCATED( vmea(l)%measured_vars_soil ) ) & |
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| 1157 | vmea(l)%measured_vars_soil = vmea(l)%fillout |
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| 1158 | ! |
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| 1159 | !-- Loop over all variables measured at this site. |
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[3833] | 1160 | DO n = 1, vmea(l)%nmeas |
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[3522] | 1161 | |
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| 1162 | SELECT CASE ( TRIM( vmea(l)%measured_vars_name(n) ) ) |
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| 1163 | |
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| 1164 | CASE ( 'theta' ) |
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| 1165 | IF ( .NOT. neutral ) THEN |
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| 1166 | DO m = 1, vmea(l)%ns |
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| 1167 | k = vmea(l)%k(m) |
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| 1168 | j = vmea(l)%j(m) |
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| 1169 | i = vmea(l)%i(m) |
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[3704] | 1170 | vmea(l)%measured_vars(m,n) = pt(k,j,i) |
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[3522] | 1171 | ENDDO |
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| 1172 | ENDIF |
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| 1173 | |
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[3704] | 1174 | CASE ( 'ta' ) |
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[3522] | 1175 | IF ( .NOT. neutral ) THEN |
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| 1176 | DO m = 1, vmea(l)%ns |
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| 1177 | k = vmea(l)%k(m) |
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| 1178 | j = vmea(l)%j(m) |
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| 1179 | i = vmea(l)%i(m) |
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[3704] | 1180 | vmea(l)%measured_vars(m,n) = pt(k,j,i) * exner( k ) |
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[3522] | 1181 | ENDDO |
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| 1182 | ENDIF |
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[3704] | 1183 | |
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| 1184 | CASE ( 't_va' ) |
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[3522] | 1185 | |
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| 1186 | CASE ( 'hus', 'haa' ) |
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| 1187 | IF ( humidity ) THEN |
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| 1188 | DO m = 1, vmea(l)%ns |
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| 1189 | k = vmea(l)%k(m) |
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| 1190 | j = vmea(l)%j(m) |
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| 1191 | i = vmea(l)%i(m) |
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[3704] | 1192 | vmea(l)%measured_vars(m,n) = q(k,j,i) |
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[3522] | 1193 | ENDDO |
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| 1194 | ENDIF |
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| 1195 | |
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| 1196 | CASE ( 'u', 'ua' ) |
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| 1197 | DO m = 1, vmea(l)%ns |
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| 1198 | k = vmea(l)%k(m) |
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| 1199 | j = vmea(l)%j(m) |
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| 1200 | i = vmea(l)%i(m) |
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[3704] | 1201 | vmea(l)%measured_vars(m,n) = 0.5_wp * ( u(k,j,i) + u(k,j,i+1) ) |
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[3522] | 1202 | ENDDO |
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| 1203 | |
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| 1204 | CASE ( 'v', 'va' ) |
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| 1205 | DO m = 1, vmea(l)%ns |
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| 1206 | k = vmea(l)%k(m) |
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| 1207 | j = vmea(l)%j(m) |
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| 1208 | i = vmea(l)%i(m) |
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[3704] | 1209 | vmea(l)%measured_vars(m,n) = 0.5_wp * ( v(k,j,i) + v(k,j+1,i) ) |
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[3522] | 1210 | ENDDO |
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| 1211 | |
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| 1212 | CASE ( 'w' ) |
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| 1213 | DO m = 1, vmea(l)%ns |
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[3704] | 1214 | k = MAX ( 1, vmea(l)%k(m) ) |
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[3522] | 1215 | j = vmea(l)%j(m) |
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| 1216 | i = vmea(l)%i(m) |
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[3704] | 1217 | vmea(l)%measured_vars(m,n) = 0.5_wp * ( w(k,j,i) + w(k-1,j,i) ) |
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[3522] | 1218 | ENDDO |
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| 1219 | |
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| 1220 | CASE ( 'wspeed' ) |
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| 1221 | DO m = 1, vmea(l)%ns |
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| 1222 | k = vmea(l)%k(m) |
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| 1223 | j = vmea(l)%j(m) |
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| 1224 | i = vmea(l)%i(m) |
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[3704] | 1225 | vmea(l)%measured_vars(m,n) = SQRT( & |
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[3522] | 1226 | ( 0.5_wp * ( u(k,j,i) + u(k,j,i+1) ) )**2 + & |
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| 1227 | ( 0.5_wp * ( v(k,j,i) + v(k,j+1,i) ) )**2 & |
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| 1228 | ) |
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| 1229 | ENDDO |
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| 1230 | |
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| 1231 | CASE ( 'wdir' ) |
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| 1232 | DO m = 1, vmea(l)%ns |
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| 1233 | k = vmea(l)%k(m) |
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| 1234 | j = vmea(l)%j(m) |
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| 1235 | i = vmea(l)%i(m) |
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| 1236 | |
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[3704] | 1237 | vmea(l)%measured_vars(m,n) = ATAN2( & |
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[3522] | 1238 | - 0.5_wp * ( u(k,j,i) + u(k,j,i+1) ), & |
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| 1239 | - 0.5_wp * ( v(k,j,i) + v(k,j+1,i) ) & |
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| 1240 | ) * 180.0_wp / pi |
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| 1241 | ENDDO |
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[3704] | 1242 | |
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| 1243 | CASE ( 'utheta' ) |
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| 1244 | DO m = 1, vmea(l)%ns |
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| 1245 | k = vmea(l)%k(m) |
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| 1246 | j = vmea(l)%j(m) |
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| 1247 | i = vmea(l)%i(m) |
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| 1248 | vmea(l)%measured_vars(m,n) = 0.5_wp * & |
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| 1249 | ( u(k,j,i) + u(k,j,i+1) ) * & |
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| 1250 | pt(k,j,i) |
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| 1251 | ENDDO |
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| 1252 | |
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| 1253 | CASE ( 'vtheta' ) |
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| 1254 | DO m = 1, vmea(l)%ns |
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| 1255 | k = vmea(l)%k(m) |
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| 1256 | j = vmea(l)%j(m) |
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| 1257 | i = vmea(l)%i(m) |
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| 1258 | vmea(l)%measured_vars(m,n) = 0.5_wp * & |
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| 1259 | ( v(k,j,i) + v(k,j+1,i) ) * & |
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| 1260 | pt(k,j,i) |
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| 1261 | ENDDO |
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| 1262 | |
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| 1263 | CASE ( 'wtheta' ) |
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| 1264 | DO m = 1, vmea(l)%ns |
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| 1265 | k = MAX ( 1, vmea(l)%k(m) ) |
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| 1266 | j = vmea(l)%j(m) |
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| 1267 | i = vmea(l)%i(m) |
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| 1268 | vmea(l)%measured_vars(m,n) = 0.5_wp * & |
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| 1269 | ( w(k-1,j,i) + w(k,j,i) ) * & |
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| 1270 | pt(k,j,i) |
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| 1271 | ENDDO |
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| 1272 | |
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| 1273 | CASE ( 'uw' ) |
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| 1274 | DO m = 1, vmea(l)%ns |
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| 1275 | k = MAX ( 1, vmea(l)%k(m) ) |
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| 1276 | j = vmea(l)%j(m) |
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| 1277 | i = vmea(l)%i(m) |
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| 1278 | vmea(l)%measured_vars(m,n) = 0.25_wp * & |
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| 1279 | ( w(k-1,j,i) + w(k,j,i) ) * & |
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| 1280 | ( u(k,j,i) + u(k,j,i+1) ) |
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| 1281 | ENDDO |
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| 1282 | |
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| 1283 | CASE ( 'vw' ) |
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| 1284 | DO m = 1, vmea(l)%ns |
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| 1285 | k = MAX ( 1, vmea(l)%k(m) ) |
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| 1286 | j = vmea(l)%j(m) |
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| 1287 | i = vmea(l)%i(m) |
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| 1288 | vmea(l)%measured_vars(m,n) = 0.25_wp * & |
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| 1289 | ( w(k-1,j,i) + w(k,j,i) ) * & |
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| 1290 | ( v(k,j,i) + v(k,j+1,i) ) |
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| 1291 | ENDDO |
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| 1292 | |
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| 1293 | CASE ( 'uv' ) |
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| 1294 | DO m = 1, vmea(l)%ns |
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| 1295 | k = MAX ( 1, vmea(l)%k(m) ) |
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| 1296 | j = vmea(l)%j(m) |
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| 1297 | i = vmea(l)%i(m) |
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| 1298 | vmea(l)%measured_vars(m,n) = 0.25_wp * & |
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| 1299 | ( u(k,j,i) + u(k,j,i+1) ) * & |
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| 1300 | ( v(k,j,i) + v(k,j+1,i) ) |
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| 1301 | ENDDO |
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[3522] | 1302 | ! |
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[3704] | 1303 | !-- List of variables may need extension. |
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| 1304 | CASE ( 'mcpm1', 'mcpm2p5', 'mcpm10', 'mfco', 'mfno', 'mfno2', & |
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| 1305 | 'tro3' ) |
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| 1306 | IF ( air_chemistry ) THEN |
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| 1307 | ! |
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| 1308 | !-- First, search for the measured variable in the chem_vars |
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| 1309 | !-- list, in order to get the internal name of the variable. |
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| 1310 | DO nn = 1, UBOUND( chem_vars, 2 ) |
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| 1311 | IF ( TRIM( vmea(l)%measured_vars_name(m) ) == & |
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| 1312 | TRIM( chem_vars(0,nn) ) ) ind_chem = nn |
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| 1313 | ENDDO |
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| 1314 | ! |
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| 1315 | !-- Run loop over all chemical species, if the measured |
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| 1316 | !-- variable matches the interal name, sample the variable. |
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[3833] | 1317 | DO nn = 1, nvar |
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[3704] | 1318 | IF ( TRIM( chem_vars(1,ind_chem) ) == & |
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[3522] | 1319 | TRIM( chem_species(nn)%name ) ) THEN |
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| 1320 | DO m = 1, vmea(l)%ns |
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| 1321 | k = vmea(l)%k(m) |
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| 1322 | j = vmea(l)%j(m) |
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| 1323 | i = vmea(l)%i(m) |
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[3704] | 1324 | vmea(l)%measured_vars(m,n) = & |
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[3522] | 1325 | chem_species(nn)%conc(k,j,i) |
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| 1326 | ENDDO |
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| 1327 | ENDIF |
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| 1328 | ENDDO |
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| 1329 | ENDIF |
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| 1330 | |
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| 1331 | CASE ( 'us' ) |
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| 1332 | DO m = 1, vmea(l)%ns |
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| 1333 | ! |
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| 1334 | !-- Surface data is only available on inner subdomains, not |
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| 1335 | !-- on ghost points. Hence, limit the indices. |
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| 1336 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
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| 1337 | j = MERGE( j , nyn, j > nyn ) |
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| 1338 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
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| 1339 | i = MERGE( i , nxr, i > nxr ) |
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| 1340 | |
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| 1341 | DO mm = surf_def_h(0)%start_index(j,i), & |
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| 1342 | surf_def_h(0)%end_index(j,i) |
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[3704] | 1343 | vmea(l)%measured_vars(m,n) = surf_def_h(0)%us(mm) |
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[3522] | 1344 | ENDDO |
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| 1345 | DO mm = surf_lsm_h%start_index(j,i), & |
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| 1346 | surf_lsm_h%end_index(j,i) |
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[3704] | 1347 | vmea(l)%measured_vars(m,n) = surf_lsm_h%us(mm) |
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[3522] | 1348 | ENDDO |
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| 1349 | DO mm = surf_usm_h%start_index(j,i), & |
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| 1350 | surf_usm_h%end_index(j,i) |
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[3704] | 1351 | vmea(l)%measured_vars(m,n) = surf_usm_h%us(mm) |
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[3522] | 1352 | ENDDO |
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| 1353 | ENDDO |
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| 1354 | |
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| 1355 | CASE ( 'ts' ) |
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| 1356 | DO m = 1, vmea(l)%ns |
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| 1357 | ! |
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| 1358 | !-- Surface data is only available on inner subdomains, not |
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| 1359 | !-- on ghost points. Hence, limit the indices. |
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| 1360 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
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| 1361 | j = MERGE( j , nyn, j > nyn ) |
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| 1362 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
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| 1363 | i = MERGE( i , nxr, i > nxr ) |
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| 1364 | |
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| 1365 | DO mm = surf_def_h(0)%start_index(j,i), & |
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| 1366 | surf_def_h(0)%end_index(j,i) |
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[3704] | 1367 | vmea(l)%measured_vars(m,n) = surf_def_h(0)%ts(mm) |
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[3522] | 1368 | ENDDO |
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| 1369 | DO mm = surf_lsm_h%start_index(j,i), & |
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| 1370 | surf_lsm_h%end_index(j,i) |
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[3704] | 1371 | vmea(l)%measured_vars(m,n) = surf_lsm_h%ts(mm) |
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[3522] | 1372 | ENDDO |
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| 1373 | DO mm = surf_usm_h%start_index(j,i), & |
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| 1374 | surf_usm_h%end_index(j,i) |
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[3704] | 1375 | vmea(l)%measured_vars(m,n) = surf_usm_h%ts(mm) |
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[3522] | 1376 | ENDDO |
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| 1377 | ENDDO |
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| 1378 | |
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| 1379 | CASE ( 'hfls' ) |
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| 1380 | DO m = 1, vmea(l)%ns |
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| 1381 | ! |
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| 1382 | !-- Surface data is only available on inner subdomains, not |
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| 1383 | !-- on ghost points. Hence, limit the indices. |
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| 1384 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
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| 1385 | j = MERGE( j , nyn, j > nyn ) |
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| 1386 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
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| 1387 | i = MERGE( i , nxr, i > nxr ) |
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| 1388 | |
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| 1389 | DO mm = surf_def_h(0)%start_index(j,i), & |
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| 1390 | surf_def_h(0)%end_index(j,i) |
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[3704] | 1391 | vmea(l)%measured_vars(m,n) = surf_def_h(0)%qsws(mm) |
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[3522] | 1392 | ENDDO |
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| 1393 | DO mm = surf_lsm_h%start_index(j,i), & |
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| 1394 | surf_lsm_h%end_index(j,i) |
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[3704] | 1395 | vmea(l)%measured_vars(m,n) = surf_lsm_h%qsws(mm) |
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[3522] | 1396 | ENDDO |
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| 1397 | DO mm = surf_usm_h%start_index(j,i), & |
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| 1398 | surf_usm_h%end_index(j,i) |
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[3704] | 1399 | vmea(l)%measured_vars(m,n) = surf_usm_h%qsws(mm) |
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[3522] | 1400 | ENDDO |
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| 1401 | ENDDO |
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| 1402 | |
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| 1403 | CASE ( 'hfss' ) |
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| 1404 | DO m = 1, vmea(l)%ns |
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| 1405 | ! |
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| 1406 | !-- Surface data is only available on inner subdomains, not |
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| 1407 | !-- on ghost points. Hence, limit the indices. |
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| 1408 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
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| 1409 | j = MERGE( j , nyn, j > nyn ) |
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| 1410 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
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| 1411 | i = MERGE( i , nxr, i > nxr ) |
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| 1412 | |
---|
| 1413 | DO mm = surf_def_h(0)%start_index(j,i), & |
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| 1414 | surf_def_h(0)%end_index(j,i) |
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[3704] | 1415 | vmea(l)%measured_vars(m,n) = surf_def_h(0)%shf(mm) |
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[3522] | 1416 | ENDDO |
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| 1417 | DO mm = surf_lsm_h%start_index(j,i), & |
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| 1418 | surf_lsm_h%end_index(j,i) |
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[3704] | 1419 | vmea(l)%measured_vars(m,n) = surf_lsm_h%shf(mm) |
---|
[3522] | 1420 | ENDDO |
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| 1421 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1422 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1423 | vmea(l)%measured_vars(m,n) = surf_usm_h%shf(mm) |
---|
[3522] | 1424 | ENDDO |
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| 1425 | ENDDO |
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| 1426 | |
---|
| 1427 | CASE ( 'rnds' ) |
---|
| 1428 | IF ( radiation ) THEN |
---|
| 1429 | DO m = 1, vmea(l)%ns |
---|
| 1430 | ! |
---|
| 1431 | !-- Surface data is only available on inner subdomains, not |
---|
| 1432 | !-- on ghost points. Hence, limit the indices. |
---|
| 1433 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
---|
| 1434 | j = MERGE( j , nyn, j > nyn ) |
---|
| 1435 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
---|
| 1436 | i = MERGE( i , nxr, i > nxr ) |
---|
| 1437 | |
---|
| 1438 | DO mm = surf_lsm_h%start_index(j,i), & |
---|
| 1439 | surf_lsm_h%end_index(j,i) |
---|
[3704] | 1440 | vmea(l)%measured_vars(m,n) = surf_lsm_h%rad_net(mm) |
---|
[3522] | 1441 | ENDDO |
---|
| 1442 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1443 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1444 | vmea(l)%measured_vars(m,n) = surf_usm_h%rad_net(mm) |
---|
[3522] | 1445 | ENDDO |
---|
| 1446 | ENDDO |
---|
| 1447 | ENDIF |
---|
| 1448 | |
---|
[3704] | 1449 | CASE ( 'rsus' ) |
---|
[3522] | 1450 | IF ( radiation ) THEN |
---|
| 1451 | DO m = 1, vmea(l)%ns |
---|
| 1452 | ! |
---|
| 1453 | !-- Surface data is only available on inner subdomains, not |
---|
| 1454 | !-- on ghost points. Hence, limit the indices. |
---|
| 1455 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
---|
| 1456 | j = MERGE( j , nyn, j > nyn ) |
---|
| 1457 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
---|
| 1458 | i = MERGE( i , nxr, i > nxr ) |
---|
| 1459 | |
---|
| 1460 | DO mm = surf_lsm_h%start_index(j,i), & |
---|
| 1461 | surf_lsm_h%end_index(j,i) |
---|
[3704] | 1462 | vmea(l)%measured_vars(m,n) = surf_lsm_h%rad_sw_out(mm) |
---|
[3522] | 1463 | ENDDO |
---|
| 1464 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1465 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1466 | vmea(l)%measured_vars(m,n) = surf_usm_h%rad_sw_out(mm) |
---|
[3522] | 1467 | ENDDO |
---|
| 1468 | ENDDO |
---|
| 1469 | ENDIF |
---|
| 1470 | |
---|
[3704] | 1471 | CASE ( 'rsds' ) |
---|
[3522] | 1472 | IF ( radiation ) THEN |
---|
| 1473 | DO m = 1, vmea(l)%ns |
---|
| 1474 | ! |
---|
| 1475 | !-- Surface data is only available on inner subdomains, not |
---|
| 1476 | !-- on ghost points. Hence, limit the indices. |
---|
| 1477 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
---|
| 1478 | j = MERGE( j , nyn, j > nyn ) |
---|
| 1479 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
---|
| 1480 | i = MERGE( i , nxr, i > nxr ) |
---|
| 1481 | |
---|
| 1482 | DO mm = surf_lsm_h%start_index(j,i), & |
---|
| 1483 | surf_lsm_h%end_index(j,i) |
---|
[3704] | 1484 | vmea(l)%measured_vars(m,n) = surf_lsm_h%rad_sw_in(mm) |
---|
[3522] | 1485 | ENDDO |
---|
| 1486 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1487 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1488 | vmea(l)%measured_vars(m,n) = surf_usm_h%rad_sw_in(mm) |
---|
[3522] | 1489 | ENDDO |
---|
| 1490 | ENDDO |
---|
| 1491 | ENDIF |
---|
| 1492 | |
---|
[3704] | 1493 | CASE ( 'rlus' ) |
---|
[3522] | 1494 | IF ( radiation ) THEN |
---|
| 1495 | DO m = 1, vmea(l)%ns |
---|
| 1496 | ! |
---|
| 1497 | !-- Surface data is only available on inner subdomains, not |
---|
| 1498 | !-- on ghost points. Hence, limit the indices. |
---|
| 1499 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
---|
| 1500 | j = MERGE( j , nyn, j > nyn ) |
---|
| 1501 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
---|
| 1502 | i = MERGE( i , nxr, i > nxr ) |
---|
| 1503 | |
---|
| 1504 | DO mm = surf_lsm_h%start_index(j,i), & |
---|
| 1505 | surf_lsm_h%end_index(j,i) |
---|
[3704] | 1506 | vmea(l)%measured_vars(m,n) = surf_lsm_h%rad_lw_out(mm) |
---|
[3522] | 1507 | ENDDO |
---|
| 1508 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1509 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1510 | vmea(l)%measured_vars(m,n) = surf_usm_h%rad_lw_out(mm) |
---|
[3522] | 1511 | ENDDO |
---|
| 1512 | ENDDO |
---|
| 1513 | ENDIF |
---|
| 1514 | |
---|
[3704] | 1515 | CASE ( 'rlds' ) |
---|
[3522] | 1516 | IF ( radiation ) THEN |
---|
| 1517 | DO m = 1, vmea(l)%ns |
---|
| 1518 | ! |
---|
| 1519 | !-- Surface data is only available on inner subdomains, not |
---|
| 1520 | !-- on ghost points. Hence, limit the indices. |
---|
| 1521 | j = MERGE( vmea(l)%j(m), nys, vmea(l)%j(m) < nys ) |
---|
| 1522 | j = MERGE( j , nyn, j > nyn ) |
---|
| 1523 | i = MERGE( vmea(l)%i(m), nxl, vmea(l)%i(m) < nxl ) |
---|
| 1524 | i = MERGE( i , nxr, i > nxr ) |
---|
| 1525 | |
---|
| 1526 | DO mm = surf_lsm_h%start_index(j,i), & |
---|
| 1527 | surf_lsm_h%end_index(j,i) |
---|
[3704] | 1528 | vmea(l)%measured_vars(m,n) = surf_lsm_h%rad_lw_in(mm) |
---|
[3522] | 1529 | ENDDO |
---|
| 1530 | DO mm = surf_usm_h%start_index(j,i), & |
---|
| 1531 | surf_usm_h%end_index(j,i) |
---|
[3704] | 1532 | vmea(l)%measured_vars(m,n) = surf_usm_h%rad_lw_in(mm) |
---|
[3522] | 1533 | ENDDO |
---|
| 1534 | ENDDO |
---|
| 1535 | ENDIF |
---|
[3704] | 1536 | |
---|
| 1537 | CASE ( 'rsd' ) |
---|
| 1538 | IF ( radiation ) THEN |
---|
| 1539 | DO m = 1, vmea(l)%ns |
---|
| 1540 | k = MERGE( 0, vmea(l)%k(m), radiation_scheme /= 'rrtmg' ) |
---|
| 1541 | j = vmea(l)%j(m) |
---|
| 1542 | i = vmea(l)%i(m) |
---|
| 1543 | |
---|
| 1544 | vmea(l)%measured_vars(m,n) = rad_sw_in(k,j,i) |
---|
| 1545 | ENDDO |
---|
| 1546 | ENDIF |
---|
| 1547 | |
---|
| 1548 | CASE ( 'rsu' ) |
---|
| 1549 | IF ( radiation ) THEN |
---|
| 1550 | DO m = 1, vmea(l)%ns |
---|
| 1551 | k = MERGE( 0, vmea(l)%k(m), radiation_scheme /= 'rrtmg' ) |
---|
| 1552 | j = vmea(l)%j(m) |
---|
| 1553 | i = vmea(l)%i(m) |
---|
| 1554 | |
---|
| 1555 | vmea(l)%measured_vars(m,n) = rad_sw_out(k,j,i) |
---|
| 1556 | ENDDO |
---|
| 1557 | ENDIF |
---|
| 1558 | |
---|
| 1559 | CASE ( 'rlu' ) |
---|
| 1560 | IF ( radiation ) THEN |
---|
| 1561 | DO m = 1, vmea(l)%ns |
---|
| 1562 | k = MERGE( 0, vmea(l)%k(m), radiation_scheme /= 'rrtmg' ) |
---|
| 1563 | j = vmea(l)%j(m) |
---|
| 1564 | i = vmea(l)%i(m) |
---|
| 1565 | |
---|
| 1566 | vmea(l)%measured_vars(m,n) = rad_lw_out(k,j,i) |
---|
| 1567 | ENDDO |
---|
| 1568 | ENDIF |
---|
| 1569 | |
---|
| 1570 | CASE ( 'rld' ) |
---|
| 1571 | IF ( radiation ) THEN |
---|
| 1572 | DO m = 1, vmea(l)%ns |
---|
| 1573 | k = MERGE( 0, vmea(l)%k(m), radiation_scheme /= 'rrtmg' ) |
---|
| 1574 | j = vmea(l)%j(m) |
---|
| 1575 | i = vmea(l)%i(m) |
---|
| 1576 | |
---|
| 1577 | vmea(l)%measured_vars(m,n) = rad_lw_in(k,j,i) |
---|
| 1578 | ENDDO |
---|
| 1579 | ENDIF |
---|
| 1580 | |
---|
| 1581 | CASE ( 'rsddif' ) |
---|
| 1582 | IF ( radiation ) THEN |
---|
| 1583 | DO m = 1, vmea(l)%ns |
---|
| 1584 | j = vmea(l)%j(m) |
---|
| 1585 | i = vmea(l)%i(m) |
---|
| 1586 | |
---|
| 1587 | vmea(l)%measured_vars(m,n) = rad_sw_in_diff(j,i) |
---|
| 1588 | ENDDO |
---|
| 1589 | ENDIF |
---|
| 1590 | |
---|
| 1591 | CASE ( 't_soil' ) |
---|
| 1592 | DO m = 1, vmea(l)%ns_soil |
---|
| 1593 | i = vmea(l)%i_soil(m) |
---|
| 1594 | j = vmea(l)%j_soil(m) |
---|
| 1595 | k = vmea(l)%k_soil(m) |
---|
| 1596 | |
---|
| 1597 | match_lsm = surf_lsm_h%start_index(j,i) <= & |
---|
| 1598 | surf_lsm_h%end_index(j,i) |
---|
| 1599 | match_usm = surf_usm_h%start_index(j,i) <= & |
---|
| 1600 | surf_usm_h%end_index(j,i) |
---|
| 1601 | |
---|
| 1602 | IF ( match_lsm ) THEN |
---|
| 1603 | mm = surf_lsm_h%start_index(j,i) |
---|
| 1604 | vmea(l)%measured_vars_soil(m,n) = t_soil_h%var_2d(k,mm) |
---|
| 1605 | ENDIF |
---|
| 1606 | |
---|
| 1607 | IF ( match_usm ) THEN |
---|
| 1608 | mm = surf_usm_h%start_index(j,i) |
---|
| 1609 | vmea(l)%measured_vars_soil(m,n) = t_wall_h(k,mm) |
---|
| 1610 | ENDIF |
---|
| 1611 | ENDDO |
---|
| 1612 | |
---|
| 1613 | CASE ( 'm_soil' ) |
---|
| 1614 | DO m = 1, vmea(l)%ns_soil |
---|
| 1615 | i = vmea(l)%i_soil(m) |
---|
| 1616 | j = vmea(l)%j_soil(m) |
---|
| 1617 | k = vmea(l)%k_soil(m) |
---|
| 1618 | |
---|
| 1619 | match_lsm = surf_lsm_h%start_index(j,i) <= & |
---|
| 1620 | surf_lsm_h%end_index(j,i) |
---|
| 1621 | |
---|
| 1622 | IF ( match_lsm ) THEN |
---|
| 1623 | mm = surf_lsm_h%start_index(j,i) |
---|
| 1624 | vmea(l)%measured_vars_soil(m,n) = m_soil_h%var_2d(k,mm) |
---|
| 1625 | ENDIF |
---|
| 1626 | |
---|
| 1627 | ENDDO |
---|
[3522] | 1628 | ! |
---|
| 1629 | !-- More will follow ... |
---|
[3704] | 1630 | |
---|
| 1631 | ! |
---|
| 1632 | !-- No match found - just set a fill value |
---|
| 1633 | CASE DEFAULT |
---|
| 1634 | vmea(l)%measured_vars(:,n) = vmea(l)%fillout |
---|
[3522] | 1635 | END SELECT |
---|
| 1636 | |
---|
[3494] | 1637 | ENDDO |
---|
[3434] | 1638 | |
---|
| 1639 | ENDDO |
---|
[3704] | 1640 | |
---|
[3471] | 1641 | END SUBROUTINE vm_sampling |
---|
[3434] | 1642 | |
---|
| 1643 | |
---|
[3471] | 1644 | END MODULE virtual_measurement_mod |
---|