!> @file read_restart_data_mod.f90 !------------------------------------------------------------------------------! ! This file is part of the PALM model system. ! ! PALM is free software: you can redistribute it and/or modify it under the ! terms of the GNU General Public License as published by the Free Software ! Foundation, either version 3 of the License, or (at your option) any later ! version. ! ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY ! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR ! A PARTICULAR PURPOSE. See the GNU General Public License for more details. ! ! You should have received a copy of the GNU General Public License along with ! PALM. If not, see . ! ! Copyright 1997-2018 Leibniz Universitaet Hannover !------------------------------------------------------------------------------! ! ! Current revisions: ! ----------------- ! ! ! Former revisions: ! ----------------- ! $Id: read_restart_data_mod.f90 2956 2018-04-10 11:01:03Z raasch $ ! spectrum_x and spectrum_y have been moved to global data ! ! 2921 2018-03-22 15:05:23Z Giersch ! spinup_time, day_of_year_init and time_utc_init are also read now ! ! 2912 2018-03-20 13:00:05Z knoop ! Added gust module interface calls ! ! 2894 2018-03-15 09:17:58Z Giersch ! Initial revision ! ! ! Description: ! ------------ !> Reads restart data from restart-file(s) (binary format). !------------------------------------------------------------------------------! MODULE read_restart_data_mod USE control_parameters IMPLICIT NONE INTERFACE rrd_global MODULE PROCEDURE rrd_global END INTERFACE rrd_global INTERFACE rrd_read_parts_of_global MODULE PROCEDURE rrd_read_parts_of_global END INTERFACE rrd_read_parts_of_global INTERFACE rrd_local MODULE PROCEDURE rrd_local END INTERFACE rrd_local INTERFACE rrd_skip_global MODULE PROCEDURE rrd_skip_global END INTERFACE rrd_skip_global PUBLIC rrd_global, rrd_read_parts_of_global, rrd_local, & rrd_skip_global CONTAINS ! Description: ! ------------ !> Reads values of global control variables from restart-file (binary format) !> created by PE0 of the previous run !------------------------------------------------------------------------------! SUBROUTINE rrd_global USE arrays_3d, & ONLY: inflow_damping_factor, mean_inflow_profiles, pt_init, & q_init, ref_state, s_init, sa_init, u_init, ug, v_init, vg USE date_and_time_mod, & ONLY: day_of_year_init, time_utc_init USE flight_mod, & ONLY: flight_rrd_global USE grid_variables, & ONLY: dx, dy USE gust_mod, & ONLY : gust_rrd_global USE indices, & ONLY: nz, nx, nx_on_file, ny, ny_on_file USE microphysics_mod, & ONLY: c_sedimentation, collision_turbulence, & cloud_water_sedimentation, limiter_sedimentation, & nc_const, ventilation_effect USE model_1d_mod, & ONLY: damp_level_1d, dt_pr_1d, dt_run_control_1d, end_time_1d USE netcdf_interface, & ONLY: netcdf_precision, output_for_t0 USE particle_attributes, & ONLY: curvature_solution_effects USE pegrid USE radiation_model_mod, & ONLY: time_radiation USE spectra_mod, & ONLY: average_count_sp, spectrum_x, spectrum_y USE statistics, & ONLY: statistic_regions, hom, hom_sum, pr_palm, u_max, u_max_ijk, & v_max, v_max_ijk, w_max, w_max_ijk USE synthetic_turbulence_generator_mod, & ONLY: stg_rrd_global USE user_read_restart_data_mod, & ONLY: user_rrd_global USE vertical_nesting_mod, & ONLY: vnest_init USE wind_turbine_model_mod, & ONLY: wtm_rrd_global IMPLICIT NONE CHARACTER (LEN=10) :: binary_version_global, version_on_file LOGICAL :: found CALL check_open( 13 ) ! !-- Make version number check first READ ( 13 ) length READ ( 13 ) restart_string(1:length) READ ( 13 ) version_on_file binary_version_global = '4.7' IF ( TRIM( version_on_file ) /= TRIM( binary_version_global ) ) THEN WRITE( message_string, * ) 'version mismatch concerning control ', & 'variables', & '&version on file = "', & TRIM( version_on_file ), '"', & '&version on program = "', & TRIM( binary_version_global ), '"' CALL message( 'rrd_global', 'PA0296', 1, 2, 0, 6, 0 ) ENDIF ! !-- Read number of PEs and horizontal index bounds of all PEs used in previous !-- run READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( TRIM( restart_string(1:length) ) /= 'numprocs' ) THEN WRITE( message_string, * ) 'numprocs not found in data from prior ', & 'run on PE ', myid CALL message( 'rrd_global', 'PA0297', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) numprocs_previous_run IF ( .NOT. ALLOCATED( hor_index_bounds_previous_run ) ) THEN ALLOCATE( hor_index_bounds_previous_run(4,0:numprocs_previous_run-1) ) ENDIF READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'hor_index_bounds' ) THEN WRITE( message_string, * ) 'hor_index_bounds not found in data ', & 'from prior run on PE ', myid CALL message( 'rrd_global', 'PA0298', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) hor_index_bounds_previous_run ! !-- Read vertical number of gridpoints and number of different areas used !-- for computing statistics. Allocate arrays depending on these values, !-- which are needed for the following read instructions. READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'nz' ) THEN WRITE( message_string, * ) 'nz not found in data from prior run ', & 'on PE ', myid CALL message( 'rrd_global', 'PA0299', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) nz READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'max_pr_user' ) THEN WRITE( message_string, * ) 'max_pr_user not found in data from ', & 'prior run on PE ', myid CALL message( 'rrd_global', 'PA0300', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) max_pr_user ! This value is checked against the number of ! user profiles given for the current run ! in routine user_parin (it has to match) READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'statistic_regions' ) THEN WRITE( message_string, * ) 'statistic_regions not found in data ', & 'from prior run on PE ', myid CALL message( 'rrd_global', 'PA0301', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) statistic_regions IF ( .NOT. ALLOCATED( ug ) ) THEN ALLOCATE( ug(0:nz+1), u_init(0:nz+1), vg(0:nz+1), & v_init(0:nz+1), pt_init(0:nz+1), q_init(0:nz+1), & ref_state(0:nz+1), s_init(0:nz+1), sa_init(0:nz+1), & hom(0:nz+1,2,pr_palm+max_pr_user,0:statistic_regions), & hom_sum(0:nz+1,pr_palm+max_pr_user,0:statistic_regions) ) ENDIF ! !-- Now read all control parameters: !-- Caution: When the following read instructions have been changed, the !-- ------- version number stored in the variable binary_version_global has to !-- be increased. The same changes must also be done in !-- wrd_write_global. READ ( 13 ) length READ ( 13 ) restart_string(1:length) DO WHILE ( restart_string(1:length) /= 'binary_version_local' ) found = .FALSE. SELECT CASE ( restart_string(1:length) ) CASE ( 'advected_distance_x' ) READ ( 13 ) advected_distance_x CASE ( 'advected_distance_y' ) READ ( 13 ) advected_distance_y CASE ( 'alpha_surface' ) READ ( 13 ) alpha_surface CASE ( 'average_count_pr' ) READ ( 13 ) average_count_pr CASE ( 'average_count_sp' ) READ ( 13 ) average_count_sp CASE ( 'average_count_3d' ) READ ( 13 ) average_count_3d CASE ( 'bc_e_b' ) READ ( 13 ) bc_e_b CASE ( 'bc_lr' ) READ ( 13 ) bc_lr CASE ( 'bc_ns' ) READ ( 13 ) bc_ns CASE ( 'bc_p_b' ) READ ( 13 ) bc_p_b CASE ( 'bc_p_t' ) READ ( 13 ) bc_p_t CASE ( 'bc_pt_b' ) READ ( 13 ) bc_pt_b CASE ( 'bc_pt_t' ) READ ( 13 ) bc_pt_t CASE ( 'bc_pt_t_val' ) READ ( 13 ) bc_pt_t_val CASE ( 'bc_q_b' ) READ ( 13 ) bc_q_b CASE ( 'bc_q_t' ) READ ( 13 ) bc_q_t CASE ( 'bc_q_t_val' ) READ ( 13 ) bc_q_t_val CASE ( 'bc_s_b' ) READ ( 13 ) bc_s_b CASE ( 'bc_s_t' ) READ ( 13 ) bc_s_t CASE ( 'bc_sa_t' ) READ ( 13 ) bc_sa_t CASE ( 'bc_uv_b' ) READ ( 13 ) bc_uv_b CASE ( 'bc_uv_t' ) READ ( 13 ) bc_uv_t CASE ( 'bottom_salinityflux' ) READ ( 13 ) bottom_salinityflux CASE ( 'building_height' ) READ ( 13 ) building_height CASE ( 'building_length_x' ) READ ( 13 ) building_length_x CASE ( 'building_length_y' ) READ ( 13 ) building_length_y CASE ( 'building_wall_left' ) READ ( 13 ) building_wall_left CASE ( 'building_wall_south' ) READ ( 13 ) building_wall_south CASE ( 'c_sedimentation' ) READ ( 13 ) c_sedimentation CASE ( 'call_psolver_at_all_substeps' ) READ ( 13 ) call_psolver_at_all_substeps CASE ( 'canyon_height' ) READ ( 13 ) canyon_height CASE ( 'canyon_wall_left' ) READ ( 13 ) canyon_wall_left CASE ( 'canyon_wall_south' ) READ ( 13 ) canyon_wall_south CASE ( 'canyon_width_x' ) READ ( 13 ) canyon_width_x CASE ( 'canyon_width_y' ) READ ( 13 ) canyon_width_y CASE ( 'cfl_factor' ) READ ( 13 ) cfl_factor CASE ( 'cloud_droplets' ) READ ( 13 ) cloud_droplets CASE ( 'cloud_physics' ) READ ( 13 ) cloud_physics CASE ( 'cloud_scheme' ) READ ( 13 ) cloud_scheme CASE ( 'cloud_top_radiation' ) READ ( 13 ) cloud_top_radiation CASE ( 'cloud_water_sedimentation' ) READ ( 13 ) cloud_water_sedimentation CASE ( 'collective_wait' ) READ ( 13 ) collective_wait CASE ( 'collision_turbulence' ) READ ( 13 ) collision_turbulence CASE ( 'conserve_volume_flow' ) READ ( 13 ) conserve_volume_flow CASE ( 'conserve_volume_flow_mode' ) READ ( 13 ) conserve_volume_flow_mode CASE ( 'constant_flux_layer' ) READ ( 13 ) constant_flux_layer CASE ( 'coupling_start_time' ) READ ( 13 ) coupling_start_time CASE ( 'current_timestep_number' ) READ ( 13 ) current_timestep_number CASE ( 'curvature_solution_effects' ) READ ( 13 ) curvature_solution_effects CASE ( 'cycle_mg' ) READ ( 13 ) cycle_mg CASE ( 'damp_level_1d' ) READ ( 13 ) damp_level_1d CASE ( 'day_of_year_init' ) READ ( 13 ) day_of_year_init CASE ( 'dissipation_1d' ) READ ( 13 ) dissipation_1d CASE ( 'do2d_xy_time_count' ) READ ( 13 ) do2d_xy_time_count CASE ( 'do2d_xz_time_count' ) READ ( 13 ) do2d_xz_time_count CASE ( 'do2d_yz_time_count' ) READ ( 13 ) do2d_yz_time_count CASE ( 'do3d_time_count' ) READ ( 13 ) do3d_time_count CASE ( 'dp_external' ) READ ( 13 ) dp_external CASE ( 'dp_level_b' ) READ ( 13 ) dp_level_b CASE ( 'dp_smooth' ) READ ( 13 ) dp_smooth CASE ( 'dpdxy' ) READ ( 13 ) dpdxy CASE ( 'dt_3d' ) READ ( 13 ) dt_3d CASE ( 'dt_pr_1d' ) READ ( 13 ) dt_pr_1d CASE ( 'dt_run_control_1d' ) READ ( 13 ) dt_run_control_1d CASE ( 'dvrp_filecount' ) READ ( 13 ) dvrp_filecount CASE ( 'dx' ) READ ( 13 ) dx CASE ( 'dy' ) READ ( 13 ) dy CASE ( 'dz' ) READ ( 13 ) dz CASE ( 'dz_max' ) READ ( 13 ) dz_max CASE ( 'dz_stretch_factor' ) READ ( 13 ) dz_stretch_factor CASE ( 'dz_stretch_level' ) READ ( 13 ) dz_stretch_level CASE ( 'e_min' ) READ ( 13 ) e_min CASE ( 'end_time_1d' ) READ ( 13 ) end_time_1d CASE ( 'fft_method' ) READ ( 13 ) fft_method CASE ( 'first_call_lpm' ) READ ( 13 ) first_call_lpm CASE ( 'galilei_transformation' ) READ ( 13 ) galilei_transformation CASE ( 'hom' ) READ ( 13 ) hom CASE ( 'hom_sum' ) READ ( 13 ) hom_sum CASE ( 'humidity' ) READ ( 13 ) humidity CASE ( 'inflow_damping_factor' ) IF ( .NOT. ALLOCATED( inflow_damping_factor ) ) THEN ALLOCATE( inflow_damping_factor(0:nz+1) ) ENDIF READ ( 13 ) inflow_damping_factor CASE ( 'inflow_damping_height' ) READ ( 13 ) inflow_damping_height CASE ( 'inflow_damping_width' ) READ ( 13 ) inflow_damping_width CASE ( 'inflow_disturbance_begin' ) READ ( 13 ) inflow_disturbance_begin CASE ( 'inflow_disturbance_end' ) READ ( 13 ) inflow_disturbance_end CASE ( 'km_constant' ) READ ( 13 ) km_constant CASE ( 'large_scale_forcing' ) READ ( 13 ) large_scale_forcing CASE ( 'large_scale_subsidence' ) READ ( 13 ) large_scale_subsidence CASE ( 'latitude' ) READ ( 13 ) latitude CASE ( 'limiter_sedimentation' ) READ ( 13 ) limiter_sedimentation CASE ( 'longitude' ) READ ( 13 ) longitude CASE ( 'loop_optimization' ) READ ( 13 ) loop_optimization CASE ( 'masking_method' ) READ ( 13 ) masking_method CASE ( 'mean_inflow_profiles' ) IF ( .NOT. ALLOCATED( mean_inflow_profiles ) ) THEN ALLOCATE( mean_inflow_profiles(0:nz+1,7) ) ENDIF READ ( 13 ) mean_inflow_profiles CASE ( 'mg_cycles' ) READ ( 13 ) mg_cycles CASE ( 'mg_switch_to_pe0_level' ) READ ( 13 ) mg_switch_to_pe0_level CASE ( 'mixing_length_1d' ) READ ( 13 ) mixing_length_1d CASE ( 'momentum_advec' ) READ ( 13 ) momentum_advec CASE ( 'most_method' ) READ ( 13 ) most_method CASE ( 'nc_const' ) READ ( 13 ) nc_const CASE ( 'netcdf_precision' ) READ ( 13 ) netcdf_precision CASE ( 'neutral' ) READ ( 13 ) neutral CASE ( 'ngsrb' ) READ ( 13 ) ngsrb CASE ( 'nsor' ) READ ( 13 ) nsor CASE ( 'nsor_ini' ) READ ( 13 ) nsor_ini CASE ( 'nudging' ) READ ( 13 ) nudging CASE ( 'num_leg' ) READ ( 13 ) num_leg CASE ( 'nx' ) READ ( 13 ) nx nx_on_file = nx CASE ( 'ny' ) READ ( 13 ) ny ny_on_file = ny CASE ( 'ocean' ) READ ( 13 ) ocean CASE ( 'old_dt' ) READ ( 13 ) old_dt CASE ( 'omega' ) READ ( 13 ) omega CASE ( 'omega_sor' ) READ ( 13 ) omega_sor CASE ( 'output_for_t0' ) READ (13) output_for_t0 CASE ( 'passive_scalar' ) READ ( 13 ) passive_scalar CASE ( 'prandtl_number' ) READ ( 13 ) prandtl_number CASE ( 'precipitation' ) READ ( 13 ) precipitation CASE ( 'psolver' ) READ ( 13 ) psolver CASE ( 'pt_damping_factor' ) READ ( 13 ) pt_damping_factor CASE ( 'pt_damping_width' ) READ ( 13 ) pt_damping_width CASE ( 'pt_init' ) READ ( 13 ) pt_init CASE ( 'pt_reference' ) READ ( 13 ) pt_reference CASE ( 'pt_surface' ) READ ( 13 ) pt_surface CASE ( 'pt_surface_initial_change' ) READ ( 13 ) pt_surface_initial_change CASE ( 'pt_vertical_gradient' ) READ ( 13 ) pt_vertical_gradient CASE ( 'pt_vertical_gradient_level' ) READ ( 13 ) pt_vertical_gradient_level CASE ( 'pt_vertical_gradient_level_ind' ) READ ( 13 ) pt_vertical_gradient_level_ind CASE ( 'q_init' ) READ ( 13 ) q_init CASE ( 'q_surface' ) READ ( 13 ) q_surface CASE ( 'q_surface_initial_change' ) READ ( 13 ) q_surface_initial_change CASE ( 'q_vertical_gradient' ) READ ( 13 ) q_vertical_gradient CASE ( 'q_vertical_gradient_level' ) READ ( 13 ) q_vertical_gradient_level CASE ( 'q_vertical_gradient_level_ind' ) READ ( 13 ) q_vertical_gradient_level_ind CASE ( 'random_generator' ) READ ( 13 ) random_generator CASE ( 'random_heatflux' ) READ ( 13 ) random_heatflux CASE ( 'rans_mode' ) READ ( 13 ) rans_mode CASE ( 'rayleigh_damping_factor' ) READ ( 13 ) rayleigh_damping_factor CASE ( 'rayleigh_damping_height' ) READ ( 13 ) rayleigh_damping_height CASE ( 'recycling_width' ) READ ( 13 ) recycling_width CASE ( 'recycling_yshift' ) READ ( 13 ) recycling_yshift CASE ( 'ref_state' ) READ ( 13 ) ref_state CASE ( 'reference_state' ) READ ( 13 ) reference_state CASE ( 'residual_limit' ) READ ( 13 ) residual_limit CASE ( 'roughness_length' ) READ ( 13 ) roughness_length CASE ( 'run_coupled' ) READ ( 13 ) run_coupled CASE ( 'runnr' ) READ ( 13 ) runnr CASE ( 's_init' ) READ ( 13 ) s_init CASE ( 's_surface' ) READ ( 13 ) s_surface CASE ( 's_surface_initial_change' ) READ ( 13 ) s_surface_initial_change CASE ( 's_vertical_gradient' ) READ ( 13 ) s_vertical_gradient CASE ( 's_vertical_gradient_level' ) READ ( 13 ) s_vertical_gradient_level CASE ( 's_vertical_gradient_level_ind' ) READ ( 13 ) s_vertical_gradient_level_ind CASE ( 'sa_init' ) READ ( 13 ) sa_init CASE ( 'sa_surface' ) READ ( 13 ) sa_surface CASE ( 'sa_vertical_gradient' ) READ ( 13 ) sa_vertical_gradient CASE ( 'sa_vertical_gradient_level' ) READ ( 13 ) sa_vertical_gradient_level CASE ( 'scalar_advec' ) READ ( 13 ) scalar_advec CASE ( 'simulated_time' ) READ ( 13 ) simulated_time CASE ( 'spectrum_x' ) IF ( .NOT. ALLOCATED( spectrum_x ) ) THEN ALLOCATE( spectrum_x( 1:nx/2, 1:100, 1:10 ) ) ENDIF READ ( 13 ) spectrum_x CASE ( 'spectrum_y' ) IF ( .NOT. ALLOCATED( spectrum_y ) ) THEN ALLOCATE( spectrum_y( 1:ny/2, 1:100, 1:10 ) ) ENDIF READ ( 13 ) spectrum_y CASE ( 'spinup_time' ) READ ( 13 ) spinup_time CASE ( 'surface_heatflux' ) READ ( 13 ) surface_heatflux CASE ( 'surface_pressure' ) READ ( 13 ) surface_pressure CASE ( 'surface_scalarflux' ) READ ( 13 ) surface_scalarflux CASE ( 'surface_waterflux' ) READ ( 13 ) surface_waterflux CASE ( 'time_coupling' ) READ ( 13 ) time_coupling CASE ( 'time_disturb' ) READ ( 13 ) time_disturb CASE ( 'time_do2d_xy' ) READ ( 13 ) time_do2d_xy CASE ( 'time_do2d_xz' ) READ ( 13 ) time_do2d_xz CASE ( 'time_do2d_yz' ) READ ( 13 ) time_do2d_yz CASE ( 'time_do3d' ) READ ( 13 ) time_do3d CASE ( 'time_do_av' ) READ ( 13 ) time_do_av CASE ( 'time_do_sla' ) READ ( 13 ) time_do_sla CASE ( 'time_domask' ) READ ( 13 ) time_domask CASE ( 'time_dopr' ) READ ( 13 ) time_dopr CASE ( 'time_dopr_av' ) READ ( 13 ) time_dopr_av CASE ( 'time_dopr_listing' ) READ ( 13 ) time_dopr_listing CASE ( 'time_dopts' ) READ ( 13 ) time_dopts CASE ( 'time_dosp' ) READ ( 13 ) time_dosp CASE ( 'time_dots' ) READ ( 13 ) time_dots CASE ( 'time_dvrp' ) READ ( 13 ) time_dvrp CASE ( 'time_radiation' ) READ ( 13 ) time_radiation CASE ( 'time_restart' ) READ ( 13 ) time_restart CASE ( 'time_run_control' ) READ ( 13 ) time_run_control CASE ( 'time_since_reference_point' ) READ ( 13 ) time_since_reference_point CASE ( 'time_utc_init' ) READ ( 13 ) time_utc_init CASE ( 'timestep_scheme' ) READ ( 13 ) timestep_scheme CASE ( 'top_heatflux' ) READ ( 13 ) top_heatflux CASE ( 'top_momentumflux_u' ) READ ( 13 ) top_momentumflux_u CASE ( 'top_momentumflux_v' ) READ ( 13 ) top_momentumflux_v CASE ( 'top_salinityflux' ) READ ( 13 ) top_salinityflux CASE ( 'top_scalarflux' ) READ ( 13 ) top_scalarflux CASE ( 'topography' ) READ ( 13 ) topography CASE ( 'topography_grid_convention' ) READ ( 13 ) topography_grid_convention CASE ( 'tsc' ) READ ( 13 ) tsc CASE ( 'tunnel_height' ) READ ( 13 ) tunnel_height CASE ( 'tunnel_length' ) READ ( 13 ) tunnel_length CASE ( 'tunnel_wall_depth' ) READ ( 13 ) tunnel_wall_depth CASE ( 'tunnel_width_x' ) READ ( 13 ) tunnel_width_x CASE ( 'tunnel_width_y' ) READ ( 13 ) tunnel_width_y CASE ( 'turbulence_closure' ) READ ( 13 ) turbulence_closure CASE ( 'turbulent_inflow' ) READ ( 13 ) turbulent_inflow CASE ( 'u_bulk' ) READ ( 13 ) u_bulk CASE ( 'u_init' ) READ ( 13 ) u_init CASE ( 'u_max' ) READ ( 13 ) u_max CASE ( 'u_max_ijk' ) READ ( 13 ) u_max_ijk CASE ( 'ug' ) READ ( 13 ) ug CASE ( 'ug_surface' ) READ ( 13 ) ug_surface CASE ( 'ug_vertical_gradient' ) READ ( 13 ) ug_vertical_gradient CASE ( 'ug_vertical_gradient_level' ) READ ( 13 ) ug_vertical_gradient_level CASE ( 'ug_vertical_gradient_level_ind' ) READ ( 13 ) ug_vertical_gradient_level_ind CASE ( 'use_surface_fluxes' ) READ ( 13 ) use_surface_fluxes CASE ( 'use_top_fluxes' ) READ ( 13 ) use_top_fluxes CASE ( 'use_ug_for_galilei_tr' ) READ ( 13 ) use_ug_for_galilei_tr CASE ( 'use_upstream_for_tke' ) READ ( 13 ) use_upstream_for_tke CASE ( 'v_bulk' ) READ ( 13 ) v_bulk CASE ( 'v_init' ) READ ( 13 ) v_init CASE ( 'v_max' ) READ ( 13 ) v_max CASE ( 'v_max_ijk' ) READ ( 13 ) v_max_ijk CASE ( 'ventilation_effect' ) READ ( 13 ) ventilation_effect CASE ( 'vg' ) READ ( 13 ) vg CASE ( 'vg_surface' ) READ ( 13 ) vg_surface CASE ( 'vg_vertical_gradient' ) READ ( 13 ) vg_vertical_gradient CASE ( 'vg_vertical_gradient_level' ) READ ( 13 ) vg_vertical_gradient_level CASE ( 'vg_vertical_gradient_level_ind' ) READ ( 13 ) vg_vertical_gradient_level_ind CASE ( 'virtual_flight' ) READ ( 13 ) virtual_flight CASE ( 'vnest_init' ) READ ( 13 ) vnest_init CASE ( 'volume_flow_area' ) READ ( 13 ) volume_flow_area CASE ( 'volume_flow_initial' ) READ ( 13 ) volume_flow_initial CASE ( 'subs_vertical_gradient' ) READ ( 13 ) subs_vertical_gradient CASE ( 'subs_vertical_gradient_level' ) READ ( 13 ) subs_vertical_gradient_level CASE ( 'subs_vertical_gradient_level_i' ) READ ( 13 ) subs_vertical_gradient_level_i CASE ( 'w_max' ) READ ( 13 ) w_max CASE ( 'w_max_ijk' ) READ ( 13 ) w_max_ijk CASE ( 'wall_adjustment' ) READ ( 13 ) wall_adjustment CASE ( 'wall_heatflux' ) READ ( 13 ) wall_heatflux CASE ( 'wall_humidityflux' ) READ ( 13 ) wall_humidityflux CASE ( 'wall_salinityflux' ) READ ( 13 ) wall_salinityflux CASE ( 'wall_scalarflux' ) READ ( 13 ) wall_scalarflux CASE ( 'y_shift' ) READ ( 13 ) y_shift CASE ( 'z0h_factor' ) READ ( 13 ) z0h_factor CASE ( 'zeta_max' ) READ ( 13 ) zeta_max CASE ( 'zeta_min' ) READ ( 13 ) zeta_min CASE DEFAULT IF ( .NOT. found ) CALL wtm_rrd_global( found ) IF ( .NOT. found ) CALL flight_rrd_global( found ) IF ( .NOT. found ) CALL stg_rrd_global ( found ) IF ( .NOT. found ) CALL gust_rrd_global( found ) IF ( .NOT. found ) CALL user_rrd_global( found ) IF ( .NOT. found ) THEN WRITE( message_string, * ) 'unknown variable named "', & restart_string(1:length), & '" found in global data from ', & 'prior run on PE ', myid CALL message( 'rrd_global', 'PA0302', 1, 2, 0, 6, 0 ) ENDIF END SELECT ! !-- Read next string READ ( 13 ) length READ ( 13 ) restart_string(1:length) ENDDO CALL close_file( 13 ) END SUBROUTINE rrd_global !------------------------------------------------------------------------------! ! Description: ! ------------ !> Skipping the global control variables from restart-file (binary format) !> except some information needed when reading restart data from a previous !> run which used a smaller total domain or/and a different domain decomposition !> (initializing_actions == 'cyclic_fill'). !------------------------------------------------------------------------------! SUBROUTINE rrd_read_parts_of_global USE arrays_3d, & ONLY: inflow_damping_factor, mean_inflow_profiles, ref_state, ug, vg USE indices, & ONLY: nz, nx, nx_on_file, ny, ny_on_file USE kinds USE pegrid USE statistics, & ONLY: statistic_regions, hom, hom_sum, pr_palm, u_max, u_max_ijk, & v_max, v_max_ijk, w_max, w_max_ijk IMPLICIT NONE CHARACTER (LEN=10) :: version_on_file CHARACTER (LEN=20) :: momentum_advec_check CHARACTER (LEN=20) :: scalar_advec_check CHARACTER (LEN=1) :: cdum INTEGER(iwp) :: max_pr_user_on_file INTEGER(iwp) :: nz_on_file INTEGER(iwp) :: statistic_regions_on_file INTEGER(iwp) :: tmp_mpru INTEGER(iwp) :: tmp_sr REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: hom_sum_on_file REAL(wp), DIMENSION(:,:,:,:), ALLOCATABLE :: hom_on_file CALL check_open( 13 ) READ ( 13 ) length READ ( 13 ) restart_string(1:length) READ ( 13 ) version_on_file ! !-- Read number of PEs and horizontal index bounds of all PEs used in previous !-- run READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'numprocs' ) THEN WRITE( message_string, * ) 'numprocs not found in data from prior ', & 'run on PE ', myid CALL message( 'rrd_read_parts_of_global', 'PA0297', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) numprocs_previous_run IF ( .NOT. ALLOCATED( hor_index_bounds_previous_run ) ) THEN ALLOCATE( hor_index_bounds_previous_run(4,0:numprocs_previous_run-1) ) ENDIF READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'hor_index_bounds' ) THEN WRITE( message_string, * ) 'hor_index_bounds not found in data ', & 'from prior run on PE ', myid CALL message( 'rrd_read_parts_of_global', 'PA0298', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) hor_index_bounds_previous_run ! !-- Read vertical number of gridpoints and number of different areas used !-- for computing statistics. Allocate arrays depending on these values, !-- which are needed for the following read instructions. READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'nz' ) THEN message_string = 'nz not found in restart data file' CALL message( 'rrd_read_parts_of_global', 'PA0303', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) nz_on_file IF ( nz_on_file /= nz ) THEN WRITE( message_string, * ) 'mismatch concerning number of ', & 'gridpoints along z', & '&nz on file = "', nz_on_file, '"', & '&nz from run = "', nz, '"' CALL message( 'rrd_read_parts_of_global', 'PA0304', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'max_pr_user' ) THEN message_string = 'max_pr_user not found in restart data file' CALL message( 'rrd_read_parts_of_global', 'PA0305', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) max_pr_user_on_file IF ( max_pr_user_on_file /= max_pr_user ) THEN WRITE( message_string, * ) 'number of user profiles on res', & 'tart data file differs from the ', & 'current run&max_pr_user on file = "', & max_pr_user_on_file, '"', & '&max_pr_user from run = "', & max_pr_user, '"' CALL message( 'rrd_read_parts_of_global', 'PA0306', 0, 0, 0, 6, 0 ) tmp_mpru = MIN( max_pr_user_on_file, max_pr_user ) ELSE tmp_mpru = max_pr_user ENDIF READ ( 13 ) length READ ( 13 ) restart_string(1:length) IF ( restart_string(1:length) /= 'statistic_regions' ) THEN message_string = 'statistic_regions not found in restart data file' CALL message( 'rrd_read_parts_of_global', 'PA0307', 1, 2, 0, 6, 0 ) ENDIF READ ( 13 ) statistic_regions_on_file IF ( statistic_regions_on_file /= statistic_regions ) THEN WRITE( message_string, * ) 'statistic regions on restart data file ',& 'differ from the current run', & '&statistic regions on file = "', & statistic_regions_on_file, '"', & '&statistic regions from run = "', & statistic_regions, '"', & '&statistic data may be lost!' CALL message( 'rrd_read_parts_of_global', 'PA0308', 0, 1, 0, 6, 0 ) tmp_sr = MIN( statistic_regions_on_file, statistic_regions ) ELSE tmp_sr = statistic_regions ENDIF ! !-- Now read and check some control parameters and skip the rest READ ( 13 ) length READ ( 13 ) restart_string(1:length) DO WHILE ( restart_string(1:length) /= 'binary_version_local' ) SELECT CASE ( restart_string(1:length) ) CASE ( 'average_count_pr' ) READ ( 13 ) average_count_pr IF ( average_count_pr /= 0 ) THEN WRITE( message_string, * ) 'inflow profiles not ', & 'temporally averaged. &Averaging will be ', & 'done now using', average_count_pr, & ' samples.' CALL message( 'rrd_read_parts_of_global', 'PA0309', & 0, 1, 0, 6, 0 ) ENDIF CASE ( 'hom' ) ALLOCATE( hom_on_file(0:nz+1,2,pr_palm+max_pr_user_on_file, & 0:statistic_regions_on_file) ) READ ( 13 ) hom_on_file hom(:,:,1:pr_palm+tmp_mpru,0:tmp_sr) = & hom_on_file(:,:,1:pr_palm+tmp_mpru,0:tmp_sr) DEALLOCATE( hom_on_file ) CASE ( 'hom_sum' ) ALLOCATE( hom_sum_on_file(0:nz+1,pr_palm+max_pr_user_on_file, & 0:statistic_regions_on_file) ) READ ( 13 ) hom_sum_on_file hom_sum(:,1:pr_palm+tmp_mpru,0:tmp_sr) = & hom_sum_on_file(:,1:pr_palm+tmp_mpru,0:tmp_sr) DEALLOCATE( hom_sum_on_file ) CASE ( 'momentum_advec' ) momentum_advec_check = momentum_advec READ ( 13 ) momentum_advec IF ( TRIM( momentum_advec_check ) /= TRIM( momentum_advec ) ) & THEN WRITE( message_string, * ) 'momentum_advec of the restart ',& 'run differs from momentum_advec of the ', & 'initial run.' CALL message( 'rrd_read_parts_of_global', 'PA0100', & 1, 2, 0, 6, 0 ) ENDIF CASE ( 'nx' ) READ ( 13 ) nx_on_file CASE ( 'ny' ) READ ( 13 ) ny_on_file CASE ( 'ref_state' ) READ ( 13 ) ref_state CASE ( 'scalar_advec' ) scalar_advec_check = scalar_advec READ ( 13 ) scalar_advec IF ( TRIM( scalar_advec_check ) /= TRIM( scalar_advec ) ) & THEN WRITE( message_string, * ) 'scalar_advec of the restart ', & 'run differs from scalar_advec of the ', & 'initial run.' CALL message( 'rrd_read_parts_of_global', 'PA0101', & 1, 2, 0, 6, 0 ) ENDIF CASE DEFAULT READ ( 13 ) cdum END SELECT READ ( 13 ) length READ ( 13 ) restart_string(1:length) ENDDO ! !-- Calculate the temporal average of vertical profiles, if neccessary IF ( average_count_pr /= 0 ) THEN hom_sum = hom_sum / REAL( average_count_pr, KIND=wp ) ENDIF CALL close_file( 13 ) END SUBROUTINE rrd_read_parts_of_global ! Description: ! ------------ !> Reads processor specific data of variables and arrays from restart file !> (binary format). !------------------------------------------------------------------------------! SUBROUTINE rrd_local USE arrays_3d, & ONLY: e, kh, km, p, pt, q, ql, qc, nc, nr, prr, precipitation_amount, & qr, s, sa, u, u_m_l, u_m_n, u_m_r, u_m_s, v, v_m_l, v_m_n, & v_m_r, v_m_s, vpt, w, w_m_l, w_m_n, w_m_r, w_m_s USE averaging USE chemistry_model_mod, & ONLY: chem_rrd_local, chem_species, nspec USE cpulog, & ONLY: cpu_log, log_point_s USE gust_mod, & ONLY : gust_rrd_local USE indices, & ONLY: nbgp, nx, nxl, nxlg, nxr, nxrg, nx_on_file, ny, nys, nysg, nyn, & nyng, ny_on_file, nzb, nzt USE kinds USE land_surface_model_mod, & ONLY: lsm_rrd_local USE particle_attributes, & ONLY: iran_part USE pegrid USE radiation_model_mod, & ONLY: radiation, radiation_rrd_local USE random_function_mod, & ONLY: random_iv, random_iy USE random_generator_parallel, & ONLY: id_random_array, seq_random_array USE surface_mod, & ONLY : surface_rrd_local USE urban_surface_mod, & ONLY: usm_rrd_local USE user_read_restart_data_mod, & ONLY: user_rrd_local IMPLICIT NONE CHARACTER (LEN=7) :: myid_char_save CHARACTER (LEN=10) :: binary_version_local CHARACTER (LEN=10) :: version_on_file INTEGER(iwp) :: files_to_be_opened !< INTEGER(iwp) :: i !< INTEGER(iwp) :: j !< INTEGER(iwp) :: k !< INTEGER(iwp) :: myid_on_file !< INTEGER(iwp) :: numprocs_on_file !< INTEGER(iwp) :: nxlc !< INTEGER(iwp) :: nxlf !< INTEGER(iwp) :: nxlpr !< INTEGER(iwp) :: nxl_on_file !< INTEGER(iwp) :: nxrc !< INTEGER(iwp) :: nxrf !< INTEGER(iwp) :: nxrpr !< INTEGER(iwp) :: nxr_on_file !< INTEGER(iwp) :: nync !< INTEGER(iwp) :: nynf !< INTEGER(iwp) :: nynpr !< INTEGER(iwp) :: nyn_on_file !< INTEGER(iwp) :: nysc !< INTEGER(iwp) :: nysf !< INTEGER(iwp) :: nyspr !< INTEGER(iwp) :: nys_on_file !< INTEGER(iwp) :: nzb_on_file !< INTEGER(iwp) :: nzt_on_file !< INTEGER(iwp) :: offset_x !< INTEGER(iwp) :: offset_y !< INTEGER(iwp) :: shift_x !< INTEGER(iwp) :: shift_y !< INTEGER(iwp), DIMENSION(numprocs_previous_run) :: file_list !< INTEGER(iwp), DIMENSION(numprocs_previous_run) :: overlap_count !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: nxlfa !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: nxrfa !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: nynfa !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: nysfa !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: offset_xa !< INTEGER(iwp), DIMENSION(numprocs_previous_run,1000) :: offset_ya !< INTEGER(isp), DIMENSION(:,:), ALLOCATABLE :: tmp_2d_id_random !< temporary array for storing random generator data INTEGER(isp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_2d_seq_random !< temporary array for storing random generator data LOGICAL :: found REAL(wp) :: rdummy REAL(wp), DIMENSION(:,:), ALLOCATABLE :: tmp_2d !< temporary array for storing 2D data REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3d !< temporary array for storing 3D data REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwul !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwun !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwur !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwus !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwvl !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwvn !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwvr !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwvs !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwwl !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwwn !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwwr !< REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: tmp_3dwws !< ! !-- Read data from previous model run. CALL cpu_log( log_point_s(14), 'rrd_local', 'start' ) ! !-- Check which of the restart files contain data needed for the subdomain !-- of this PE files_to_be_opened = 0 DO i = 1, numprocs_previous_run ! !-- Store array bounds of the previous run ("pr") in temporary scalars nxlpr = hor_index_bounds_previous_run(1,i-1) nxrpr = hor_index_bounds_previous_run(2,i-1) nyspr = hor_index_bounds_previous_run(3,i-1) nynpr = hor_index_bounds_previous_run(4,i-1) ! !-- Determine the offsets. They may be non-zero in case that the total domain !-- on file is smaller than the current total domain. offset_x = ( nxl / ( nx_on_file + 1 ) ) * ( nx_on_file + 1 ) offset_y = ( nys / ( ny_on_file + 1 ) ) * ( ny_on_file + 1 ) ! !-- Start with this offset and then check, if the subdomain on file !-- matches another time(s) in the current subdomain by shifting it !-- for nx_on_file+1, ny_on_file+1 respectively shift_y = 0 j = 0 DO WHILE ( nyspr+shift_y <= nyn-offset_y ) IF ( nynpr+shift_y >= nys-offset_y ) THEN shift_x = 0 DO WHILE ( nxlpr+shift_x <= nxr-offset_x ) IF ( nxrpr+shift_x >= nxl-offset_x ) THEN j = j +1 IF ( j > 1000 ) THEN ! !-- Array bound exceeded message_string = 'data from subdomain of previous' // & ' run mapped more than 1000 times' CALL message( 'rrd_local', 'PA0284', 2, 2, -1, & 6, 1 ) ENDIF IF ( j == 1 ) THEN files_to_be_opened = files_to_be_opened + 1 file_list(files_to_be_opened) = i-1 ENDIF offset_xa(files_to_be_opened,j) = offset_x + shift_x offset_ya(files_to_be_opened,j) = offset_y + shift_y ! !-- Index bounds of overlapping data nxlfa(files_to_be_opened,j) = MAX( nxl-offset_x-shift_x, & nxlpr ) nxrfa(files_to_be_opened,j) = MIN( nxr-offset_x-shift_x, & nxrpr ) nysfa(files_to_be_opened,j) = MAX( nys-offset_y-shift_y, & nyspr ) nynfa(files_to_be_opened,j) = MIN( nyn-offset_y-shift_y, & nynpr ) ENDIF shift_x = shift_x + ( nx_on_file + 1 ) ENDDO ENDIF shift_y = shift_y + ( ny_on_file + 1 ) ENDDO IF ( j > 0 ) overlap_count(files_to_be_opened) = j ENDDO ! !-- Save the id-string of the current process, since myid_char may now be used !-- to open files created by PEs with other id. myid_char_save = myid_char IF ( files_to_be_opened /= 1 .OR. numprocs /= numprocs_previous_run ) & THEN WRITE( message_string, * ) 'number of PEs or virtual PE-grid changed ', & 'in restart run& PE', myid, ' will read from files ', & file_list(1:files_to_be_opened) CALL message( 'rrd_local', 'PA0285', 0, 0, 0, 6, 0 ) ENDIF ! !-- Read data from all restart files determined above DO i = 1, files_to_be_opened j = file_list(i) ! !-- Set the filename (underscore followed by four digit processor id) WRITE (myid_char,'(''_'',I6.6)') j ! !-- Open the restart file. If this file has been created by PE0 (_000000), !-- the global variables at the beginning of the file have to be skipped !-- first. CALL check_open( 13 ) IF ( j == 0 ) CALL rrd_skip_global ! !-- First compare the version numbers READ ( 13 ) length READ ( 13 ) restart_string(1:length) READ ( 13 ) version_on_file binary_version_local = '4.7' IF ( TRIM( version_on_file ) /= TRIM( binary_version_local ) ) THEN WRITE( message_string, * ) 'version mismatch concerning data ', & 'from prior run', & '&version on file = "', TRIM( version_on_file ), '"', & '&version in program = "', TRIM( binary_version_local ), '"' CALL message( 'rrd_local', 'PA0286', 1, 2, 0, 6, 0 ) ENDIF ! !-- Read number of processors, processor-id, and array ranges. !-- Compare the array ranges with those stored in the index bound array. READ ( 13 ) numprocs_on_file, myid_on_file, nxl_on_file, nxr_on_file, & nys_on_file, nyn_on_file, nzb_on_file, nzt_on_file IF ( nxl_on_file /= hor_index_bounds_previous_run(1,j) ) THEN WRITE( message_string, * ) 'problem with index bound nxl on ', & 'restart file "', myid_char, '"', & '&nxl = ', nxl_on_file, ' but it should be', & '&= ', hor_index_bounds_previous_run(1,j), & '&from the index bound information array' CALL message( 'rrd_local', 'PA0287', 2, 2, -1, 6, 1 ) ENDIF IF ( nxr_on_file /= hor_index_bounds_previous_run(2,j) ) THEN WRITE( message_string, * ) 'problem with index bound nxr on ', & 'restart file "', myid_char, '"' , & '&nxr = ', nxr_on_file, ' but it should be', & '&= ', hor_index_bounds_previous_run(2,j), & '&from the index bound information array' CALL message( 'rrd_local', 'PA0288', 2, 2, -1, 6, 1 ) ENDIF IF ( nys_on_file /= hor_index_bounds_previous_run(3,j) ) THEN WRITE( message_string, * ) 'problem with index bound nys on ', & 'restart file "', myid_char, '"', & '&nys = ', nys_on_file, ' but it should be', & '&= ', hor_index_bounds_previous_run(3,j), & '&from the index bound information array' CALL message( 'rrd_local', 'PA0289', 2, 2, -1, 6, 1 ) ENDIF IF ( nyn_on_file /= hor_index_bounds_previous_run(4,j) ) THEN WRITE( message_string, * ) 'problem with index bound nyn on ', & 'restart file "', myid_char, '"', & '&nyn = ', nyn_on_file, ' but it should be', & '&= ', hor_index_bounds_previous_run(4,j), & '&from the index bound information array' CALL message( 'rrd_local', 'PA0290', 2, 2, -1, 6, 1 ) ENDIF IF ( nzb_on_file /= nzb ) THEN WRITE( message_string, * ) 'mismatch between actual data and data ', & '&from prior run on PE ', myid, & '&nzb on file = ', nzb_on_file, & '&nzb = ', nzb CALL message( 'rrd_local', 'PA0291', 1, 2, 0, 6, 0 ) ENDIF IF ( nzt_on_file /= nzt ) THEN WRITE( message_string, * ) 'mismatch between actual data and data ', & '&from prior run on PE ', myid, & '&nzt on file = ', nzt_on_file, & '&nzt = ', nzt CALL message( 'rrd_local', 'PA0292', 1, 2, 0, 6, 0 ) ENDIF ! !-- Allocate temporary arrays sized as the arrays on the restart file ALLOCATE( tmp_2d(nys_on_file-nbgp:nyn_on_file+nbgp, & nxl_on_file-nbgp:nxr_on_file+nbgp), & tmp_3d(nzb:nzt+1,nys_on_file-nbgp:nyn_on_file+nbgp, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) ! !-- Read arrays !-- ATTENTION: If the following read commands have been altered, the !-- ---------- version number of the variable binary_version_local must !-- be altered, too. Furthermore, the output list of arrays in !-- wrd_write_local must also be altered !-- accordingly. READ ( 13 ) length READ ( 13 ) restart_string(1:length) ! !-- Loop over processor specific field data DO WHILE ( restart_string(1:length) /= '*** end ***' ) found = .FALSE. ! !-- Map data on file as often as needed (data are read only for k=1) DO k = 1, overlap_count(i) ! !-- Get the index range of the subdomain on file which overlap with !-- the current subdomain nxlf = nxlfa(i,k) nxlc = nxlfa(i,k) + offset_xa(i,k) nxrf = nxrfa(i,k) nxrc = nxrfa(i,k) + offset_xa(i,k) nysf = nysfa(i,k) nysc = nysfa(i,k) + offset_ya(i,k) nynf = nynfa(i,k) nync = nynfa(i,k) + offset_ya(i,k) SELECT CASE ( restart_string(1:length) ) CASE ( 'ghf_av' ) IF ( .NOT. ALLOCATED( ghf_av ) ) THEN ALLOCATE( ghf_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d ghf_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'e' ) IF ( k == 1 ) READ ( 13 ) tmp_3d e(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'e_av' ) IF ( .NOT. ALLOCATED( e_av ) ) THEN ALLOCATE( e_av(nzb:nzt+1,nys-nbgp:nyn+nbgp, & nxl-nbgp:nxr+nbgp) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d e_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'iran' ) ! matching random numbers is still unresolved ! issue IF ( k == 1 ) READ ( 13 ) iran, iran_part CASE ( 'kh' ) IF ( k == 1 ) READ ( 13 ) tmp_3d kh(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'kh_av' ) IF ( .NOT. ALLOCATED( kh_av ) ) THEN ALLOCATE( kh_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg )) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d kh_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'km' ) IF ( k == 1 ) READ ( 13 ) tmp_3d km(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'km_av' ) IF ( .NOT. ALLOCATED( km_av ) ) THEN ALLOCATE( km_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg )) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d km_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'lpt_av' ) IF ( .NOT. ALLOCATED( lpt_av ) ) THEN ALLOCATE( lpt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg )) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d lpt_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'lwp_av' ) IF ( .NOT. ALLOCATED( lwp_av ) ) THEN ALLOCATE( lwp_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d lwp_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'nc' ) IF ( k == 1 ) READ ( 13 ) tmp_3d nc(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'nc_av' ) IF ( .NOT. ALLOCATED( nc_av ) ) THEN ALLOCATE( nc_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d nc_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'nr' ) IF ( k == 1 ) READ ( 13 ) tmp_3d nr(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'nr_av' ) IF ( .NOT. ALLOCATED( nr_av ) ) THEN ALLOCATE( nr_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d nr_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'p' ) IF ( k == 1 ) READ ( 13 ) tmp_3d p(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'p_av' ) IF ( .NOT. ALLOCATED( p_av ) ) THEN ALLOCATE( p_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d p_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'pc_av' ) IF ( .NOT. ALLOCATED( pc_av ) ) THEN ALLOCATE( pc_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d pc_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'pr_av' ) IF ( .NOT. ALLOCATED( pr_av ) ) THEN ALLOCATE( pr_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d pr_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'prr' ) IF ( .NOT. ALLOCATED( prr ) ) THEN ALLOCATE( prr(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d prr(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'prr_av' ) IF ( .NOT. ALLOCATED( prr_av ) ) THEN ALLOCATE( prr_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d prr_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'precipitation_amount' ) IF ( k == 1 ) READ ( 13 ) tmp_2d precipitation_amount(nysc-nbgp:nync+nbgp, & nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'precipitation_rate_av' ) IF ( .NOT. ALLOCATED( precipitation_rate_av ) ) THEN ALLOCATE( precipitation_rate_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d precipitation_rate_av(nysc-nbgp:nync+nbgp, & nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'pt' ) IF ( k == 1 ) READ ( 13 ) tmp_3d pt(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'pt_av' ) IF ( .NOT. ALLOCATED( pt_av ) ) THEN ALLOCATE( pt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d pt_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'q' ) IF ( k == 1 ) READ ( 13 ) tmp_3d q(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'q_av' ) IF ( .NOT. ALLOCATED( q_av ) ) THEN ALLOCATE( q_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg )) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d q_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qc' ) IF ( k == 1 ) READ ( 13 ) tmp_3d qc(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qc_av' ) IF ( .NOT. ALLOCATED( qc_av ) ) THEN ALLOCATE( qc_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d qc_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ql' ) IF ( k == 1 ) READ ( 13 ) tmp_3d ql(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ql_av' ) IF ( .NOT. ALLOCATED( ql_av ) ) THEN ALLOCATE( ql_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d ql_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qr' ) IF ( k == 1 ) READ ( 13 ) tmp_3d qr(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qr_av' ) IF ( .NOT. ALLOCATED( qr_av ) ) THEN ALLOCATE( qr_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d qr_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ql_c_av' ) IF ( .NOT. ALLOCATED( ql_c_av ) ) THEN ALLOCATE( ql_c_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d ql_c_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ql_v_av' ) IF ( .NOT. ALLOCATED( ql_v_av ) ) THEN ALLOCATE( ql_v_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d ql_v_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ql_vp_av' ) IF ( .NOT. ALLOCATED( ql_vp_av ) ) THEN ALLOCATE( ql_vp_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d ql_vp_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qsws_av' ) IF ( .NOT. ALLOCATED( qsws_av ) ) THEN ALLOCATE( qsws_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d qsws_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'qv_av' ) IF ( .NOT. ALLOCATED( qv_av ) ) THEN ALLOCATE( qv_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d qv_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'r_a_av' ) IF ( .NOT. ALLOCATED( r_a_av ) ) THEN ALLOCATE( r_a_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d r_a_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'random_iv' ) ! still unresolved issue IF ( k == 1 ) READ ( 13 ) random_iv IF ( k == 1 ) READ ( 13 ) random_iy CASE ( 'seq_random_array' ) ALLOCATE( tmp_2d_id_random(nys_on_file:nyn_on_file, & nxl_on_file:nxr_on_file) ) ALLOCATE( tmp_2d_seq_random(5,nys_on_file:nyn_on_file, & nxl_on_file:nxr_on_file) ) IF ( .NOT. ALLOCATED( id_random_array ) ) THEN ALLOCATE( id_random_array(nys:nyn,nxl:nxr) ) ENDIF IF ( .NOT. ALLOCATED( seq_random_array ) ) THEN ALLOCATE( seq_random_array(5,nys:nyn,nxl:nxr) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d_id_random IF ( k == 1 ) READ ( 13 ) tmp_2d_seq_random id_random_array(nysc:nync,nxlc:nxrc) = & tmp_2d_id_random(nysf:nynf,nxlf:nxrf) seq_random_array(:,nysc:nync,nxlc:nxrc) = & tmp_2d_seq_random(:,nysf:nynf,nxlf:nxrf) DEALLOCATE( tmp_2d_id_random, tmp_2d_seq_random ) CASE ( 'rho_ocean_av' ) IF ( .NOT. ALLOCATED( rho_ocean_av ) ) THEN ALLOCATE( rho_ocean_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d rho_ocean_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 's' ) IF ( k == 1 ) READ ( 13 ) tmp_3d s(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 's_av' ) IF ( .NOT. ALLOCATED( s_av ) ) THEN ALLOCATE( s_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg)) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d s_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'sa' ) IF ( k == 1 ) READ ( 13 ) tmp_3d sa(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'sa_av' ) IF ( .NOT. ALLOCATED( sa_av ) ) THEN ALLOCATE( sa_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d sa_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'shf_av' ) IF ( .NOT. ALLOCATED( shf_av ) ) THEN ALLOCATE( shf_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d shf_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ssws_av' ) IF ( .NOT. ALLOCATED( ssws_av ) ) THEN ALLOCATE( ssws_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d ssws_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'ts_av' ) IF ( .NOT. ALLOCATED( ts_av ) ) THEN ALLOCATE( ts_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d ts_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'tsurf_av' ) IF ( .NOT. ALLOCATED( tsurf_av ) ) THEN ALLOCATE( tsurf_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d tsurf_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'u' ) IF ( k == 1 ) READ ( 13 ) tmp_3d u(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'u_av' ) IF ( .NOT. ALLOCATED( u_av ) ) THEN ALLOCATE( u_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d u_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'u_m_l' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwul(nzb:nzt+1, & nys_on_file-nbgp:nyn_on_file+nbgp,1:2) ) READ ( 13 ) tmp_3dwul ENDIF IF ( outflow_l ) THEN u_m_l(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwul(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'u_m_n' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwun(nzb:nzt+1,ny-1:ny, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwun ENDIF IF ( outflow_n ) THEN u_m_n(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwun(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'u_m_r' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwur(nzb:nzt+1, & nys_on_file-nbgp:nyn_on_file+nbgp,nx-1:nx) ) READ ( 13 ) tmp_3dwur ENDIF IF ( outflow_r ) THEN u_m_r(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwur(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'u_m_s' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwus(nzb:nzt+1,0:1, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwus ENDIF IF ( outflow_s ) THEN u_m_s(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwus(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'us_av' ) IF ( .NOT. ALLOCATED( us_av ) ) THEN ALLOCATE( us_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d us_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'v' ) IF ( k == 1 ) READ ( 13 ) tmp_3d v(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'v_av' ) IF ( .NOT. ALLOCATED( v_av ) ) THEN ALLOCATE( v_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d v_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'v_m_l' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwvl(nzb:nzt+1, & nys_on_file-nbgp:nyn_on_file+nbgp,0:1) ) READ ( 13 ) tmp_3dwvl ENDIF IF ( outflow_l ) THEN v_m_l(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwvl(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'v_m_n' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwvn(nzb:nzt+1,ny-1:ny, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwvn ENDIF IF ( outflow_n ) THEN v_m_n(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwvn(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'v_m_r' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwvr(nzb:nzt+1, & nys_on_file-nbgp:nyn_on_file+nbgp,nx-1:nx) ) READ ( 13 ) tmp_3dwvr ENDIF IF ( outflow_r ) THEN v_m_r(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwvr(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'v_m_s' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwvs(nzb:nzt+1,1:2, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwvs ENDIF IF ( outflow_s ) THEN v_m_s(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwvs(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'vpt' ) IF ( k == 1 ) READ ( 13 ) tmp_3d vpt(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'vpt_av' ) IF ( .NOT. ALLOCATED( vpt_av ) ) THEN ALLOCATE( vpt_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d vpt_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'w' ) IF ( k == 1 ) READ ( 13 ) tmp_3d w(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'w_av' ) IF ( .NOT. ALLOCATED( w_av ) ) THEN ALLOCATE( w_av(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_3d w_av(:,nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_3d(:,nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'w_m_l' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwwl(nzb:nzt+1,& nys_on_file-nbgp:nyn_on_file+nbgp,0:1) ) READ ( 13 ) tmp_3dwwl ENDIF IF ( outflow_l ) THEN w_m_l(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwwl(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'w_m_n' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwwn(nzb:nzt+1,ny-1:ny, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwwn ENDIF IF ( outflow_n ) THEN w_m_n(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwwn(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'w_m_r' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwwr(nzb:nzt+1,& nys_on_file-nbgp:nyn_on_file+nbgp,nx-1:nx) ) READ ( 13 ) tmp_3dwwr ENDIF IF ( outflow_r ) THEN w_m_r(:,nysc-nbgp:nync+nbgp,:) = & tmp_3dwwr(:,nysf-nbgp:nynf+nbgp,:) ENDIF CASE ( 'w_m_s' ) IF ( k == 1 ) THEN ALLOCATE( tmp_3dwws(nzb:nzt+1,0:1, & nxl_on_file-nbgp:nxr_on_file+nbgp) ) READ ( 13 ) tmp_3dwws ENDIF IF ( outflow_s ) THEN w_m_s(:,:,nxlc-nbgp:nxrc+nbgp) = & tmp_3dwws(:,:,nxlf-nbgp:nxrf+nbgp) ENDIF CASE ( 'z0_av' ) IF ( .NOT. ALLOCATED( z0_av ) ) THEN ALLOCATE( z0_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d z0_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'z0h_av' ) IF ( .NOT. ALLOCATED( z0h_av ) ) THEN ALLOCATE( z0h_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d z0h_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE ( 'z0q_av' ) IF ( .NOT. ALLOCATED( z0q_av ) ) THEN ALLOCATE( z0q_av(nysg:nyng,nxlg:nxrg) ) ENDIF IF ( k == 1 ) READ ( 13 ) tmp_2d z0q_av(nysc-nbgp:nync+nbgp,nxlc-nbgp:nxrc+nbgp) = & tmp_2d(nysf-nbgp:nynf+nbgp,nxlf-nbgp:nxrf+nbgp) CASE DEFAULT ! !-- Read surface related variables IF ( .NOT. found ) CALL surface_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, found ) ! !-- Read urban surface restart data IF ( .NOT. found ) CALL usm_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, found ) ! !-- Read land surface restart data IF ( .NOT. found ) CALL lsm_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, tmp_2d, found ) ! !-- Read radiation restart data IF ( .NOT. found ) CALL radiation_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, tmp_2d, tmp_3d, found ) ! !-- Read chemistry restart data IF ( .NOT. found ) CALL chem_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, tmp_3d, found ) ! !-- Read gust module restart data IF ( .NOT. found ) CALL gust_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, tmp_2d, tmp_3d, found ) ! !-- Read user-defined restart data IF ( .NOT. found ) CALL user_rrd_local( i, k, nxlf, & nxlc, nxl_on_file, nxrf, nxrc, & nxr_on_file, nynf, nync, & nyn_on_file, nysf, nysc, & nys_on_file, tmp_3d, found ) IF ( .NOT. found ) THEN WRITE( message_string, * ) 'unknown variable named "', & restart_string(1:length), & '" found in subdomain data ', & 'from prior run on PE ', myid CALL message( 'rrd_local', 'PA0302', 1, 2, 0, 6, 0 ) ENDIF END SELECT ENDDO ! overlaploop ! !-- Deallocate arrays needed for specific variables only IF ( ALLOCATED( tmp_3dwul ) ) DEALLOCATE( tmp_3dwul ) IF ( ALLOCATED( tmp_3dwun ) ) DEALLOCATE( tmp_3dwun ) IF ( ALLOCATED( tmp_3dwur ) ) DEALLOCATE( tmp_3dwur ) IF ( ALLOCATED( tmp_3dwus ) ) DEALLOCATE( tmp_3dwus ) IF ( ALLOCATED( tmp_3dwvl ) ) DEALLOCATE( tmp_3dwvl ) IF ( ALLOCATED( tmp_3dwvn ) ) DEALLOCATE( tmp_3dwvn ) IF ( ALLOCATED( tmp_3dwvr ) ) DEALLOCATE( tmp_3dwvr ) IF ( ALLOCATED( tmp_3dwvs ) ) DEALLOCATE( tmp_3dwvs ) IF ( ALLOCATED( tmp_3dwwl ) ) DEALLOCATE( tmp_3dwwl ) IF ( ALLOCATED( tmp_3dwwn ) ) DEALLOCATE( tmp_3dwwn ) IF ( ALLOCATED( tmp_3dwwr ) ) DEALLOCATE( tmp_3dwwr ) IF ( ALLOCATED( tmp_3dwws ) ) DEALLOCATE( tmp_3dwws ) ! !-- Read next character string READ ( 13 ) length READ ( 13 ) restart_string(1:length) ENDDO ! dataloop ! !-- Close the restart file CALL close_file( 13 ) DEALLOCATE( tmp_2d, tmp_3d ) ENDDO ! loop over restart files ! !-- Restore the original filename for the restart file to be written myid_char = myid_char_save ! !-- End of time measuring for reading binary data CALL cpu_log( log_point_s(14), 'rrd_local', 'stop' ) END SUBROUTINE rrd_local !------------------------------------------------------------------------------! ! Description: ! ------------ !> Skipping the global control variables from restart-file (binary format) !------------------------------------------------------------------------------! SUBROUTINE rrd_skip_global IMPLICIT NONE CHARACTER (LEN=10) :: version_on_file CHARACTER (LEN=1) :: cdum READ ( 13 ) length READ ( 13 ) restart_string(1:length) DO WHILE ( restart_string(1:length) /= 'binary_version_local' ) READ ( 13 ) cdum READ ( 13 ) length READ ( 13 ) restart_string(1:length) ENDDO BACKSPACE ( 13 ) BACKSPACE ( 13 ) END SUBROUTINE rrd_skip_global END MODULE read_restart_data_mod