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read_var_list.f90 @ 518

Last change on this file since 518 was 482, checked in by raasch, 15 years ago

New:
---
compare_palm_logs is additionally compiled with mbuild -u (Makefile in trunk/UTIL)

make options (mopts) to be set by configuration file implemented (mrun, mbuild)

humidity=.T. is now usable for runs with topography. wall_humidityflux and
wall_scalarflux are the corresponding new parin arrays.
(check_parameters, init_3d_model, parin)

Large scale vertical motion (subsidence/ascent) can be applied to the
prognostic equation for the potential temperature. (check_parameters, header,
Makefile, modules, parin, prognostic_equations, read_var_list, subsidence,
write_var_list)

A simple method for installing and running palm (with limited features)
has been added. (Makefile, palm_simple_install, palm_simple_run)

Changed:

2d-decomposition is default for Cray-XT machines (init_pegrid)

var_ts is replaced by dots_max (modules,init_3d_model)

Every cloud droplet has now an own weighting factor and can be deleted due to
collisions. Condensation and collision of cloud droplets are adjusted
accordingly. (advec_particles)

Collision efficiency for large cloud droplets has changed according to table of
Rogers and Yau. (collision_efficiency)

Errors:

Bugfix for generating serial jobs (subjob)

Bugfix: index problem concerning gradient_level indices removed (header)

Dimension of array stat in cascade change to prevent type problems with
mpi2 libraries (poisfft_hybrid)

Loop was split to make runs reproducible when using ifort compiler.
(disturb_field)

Bugfix: exchange of ghost points for prho included (time_integration)

Bugfix: calculation of time-averaged surface heatfluxes (sum_up_3d_data)

Bugfix: calculation of precipitation_rate (calc_precipitation)

Bugfix: initial data assignments to some dvrp arrays changed due to error
messages from gfortran compiler (modules)

Bugfix: calculation of cloud droplet velocity (advec_particles)

Bugfix: transfer of particles at south/left edge (advec_particles)

Bugfix: calculation of collision_efficiency (collision_efficiency)

Bugfix: initialisation of var_mod (subsidence)

Property svn:keywords set to Id

File size: 30.9 KB

Rev	Line
[1]	1	SUBROUTINE read_var_list
	2
	3	!------------------------------------------------------------------------------!
[257]	4	! Current revisions:
[1]	5	! -----------------
[482]	6	!
[392]	7	!
	8	! Former revisions:
	9	! -----------------
	10	! $Id: read_var_list.f90 482 2010-02-05 06:37:03Z heinze $
	11	!
[482]	12	! 411 2009-12-11 14:15:58Z heinze
	13	! +large_scale_subsidence, ws_vertical_gradient, ws_vertical_gradient_level,
	14	! ws_vertical_gradient_level_ind
	15	!
[392]	16	! 345 2009-07-01 14:37:56Z heinze
[345]	17	! +output_for_t0
[336]	18	! dt_fixed is read into a dummy variable.
[257]	19	! Output of messages replaced by message handling routine.
[240]	20	! +canyon_height, canyon_width_x, canyon_width_y, canyon_wall_left,
[291]	21	! canyon_wall_south, conserve_volume_flow_mode, coupling_start_time,
	22	! dp_external, dp_level_b, dp_smooth, dpdxy, run_coupled,
	23	! time_since_reference_point, topography_grid_convention, u_bulk, v_bulk
[198]	24	!
[226]	25	! 216 2008-11-25 07:12:43Z raasch
	26	! limitations for nx_on_file, ny_on_file removed (read_parts_of_var_list)
	27	!
[198]	28	! 173 2008-05-23 20:39:38Z raasch
[153]	29	! +cthf, leaf_surface_concentration, scalar_exchange_coefficient
[151]	30	! +numprocs_previous_run, hor_index_bounds_previous_run, inflow_damping_factor,
	31	! inflow_damping_height, inflow_damping_width, mean_inflow_profiles,
	32	! recycling_width, turbulent_inflow,
[145]	33	! -cross_ts_*, npex, npey,
	34	! hom_sum, volume_flow_area, volume_flow_initial moved from
[146]	35	! read_3d_binary to here,
[147]	36	! routines read_parts_of_var_list and skip_var_list added at the end
[138]	37	!
[139]	38	! 138 2007-11-28 10:03:58Z letzel
	39	! +canopy_mode, drag_coefficient, lad, lad_surface, lad_vertical_gradient,
	40	! lad_vertical_gradient_level, lad_vertical_gradient_level_ind, pch_index,
	41	! plant_canopy, time_sort_particles
	42	!
[110]	43	! 102 2007-07-27 09:09:17Z raasch
	44	! +time_coupling, top_momentumflux_u\|v
	45	!
[98]	46	! 95 2007-06-02 16:48:38Z raasch
	47	! +bc_sa_t, ocean, sa_init, sa_surface, sa_vertical_gradient,
	48	! sa_vertical_gradient_level, bottom/top_salinity_flux
	49	!
[90]	50	! 87 2007-05-22 15:46:47Z raasch
	51	! +max_pr_user (version 3.1), var_hom renamed pr_palm
	52	!
[77]	53	! 75 2007-03-22 09:54:05Z raasch
	54	! +loop_optimization, pt_reference, moisture renamed humidity
	55	!
[39]	56	! 20 2007-02-26 00:12:32Z raasch
	57	! +top_heatflux, use_top_fluxes
	58	!
[3]	59	! RCS Log replace by Id keyword, revision history cleaned up
	60	!
[1]	61	! Revision 1.34 2006/08/22 14:14:27 raasch
	62	! +dz_max
	63	!
	64	! Revision 1.1 1998/03/18 20:18:48 raasch
	65	! Initial revision
	66	!
	67	!
	68	! Description:
	69	! ------------
[143]	70	! Reading values of global control variables from restart-file (binary format)
[1]	71	!------------------------------------------------------------------------------!
	72
	73	USE arrays_3d
	74	USE averaging
[87]	75	USE control_parameters
[1]	76	USE grid_variables
	77	USE indices
	78	USE model_1d
[345]	79	USE netcdf_control
[116]	80	USE particle_attributes
[1]	81	USE pegrid
	82	USE profil_parameter
	83	USE statistics
	84
	85	IMPLICIT NONE
	86
	87	CHARACTER (LEN=10) :: binary_version, version_on_file
	88	CHARACTER (LEN=30) :: variable_chr
[87]	89
[336]	90	LOGICAL :: ldum
[143]	91
[336]	92
[1]	93	CALL check_open( 13 )
	94
	95	!
	96	!-- Make version number check first
	97	READ ( 13 ) version_on_file
[241]	98	binary_version = '3.4'
[1]	99	IF ( TRIM( version_on_file ) /= TRIM( binary_version ) ) THEN
[257]	100	WRITE( message_string, * ) 'version mismatch concerning control ', &
	101	'variables', &
	102	'&version on file = "', &
	103	TRIM( version_on_file ), '"', &
	104	'&version on program = "', &
	105	TRIM( binary_version ), '"'
	106	CALL message( 'read_var_list', 'PA0296', 1, 2, 0, 6, 0 )
[1]	107	ENDIF
	108
	109	!
[145]	110	!-- Read number of PEs and horizontal index bounds of all PEs used in previous
	111	!-- run
	112	READ ( 13 ) variable_chr
	113	IF ( TRIM( variable_chr ) /= 'numprocs' ) THEN
[274]	114	WRITE( message_string, * ) 'numprocs not found in data from prior ', &
	115	'run on PE ', myid
[257]	116	CALL message( 'read_var_list', 'PA0297', 1, 2, 0, 6, 0 )
[145]	117	ENDIF
	118	READ ( 13 ) numprocs_previous_run
	119
[146]	120	IF ( .NOT. ALLOCATED( hor_index_bounds_previous_run ) ) THEN
	121	ALLOCATE( hor_index_bounds_previous_run(4,0:numprocs_previous_run-1) )
	122	ENDIF
[145]	123
	124	READ ( 13 ) variable_chr
	125	IF ( TRIM( variable_chr ) /= 'hor_index_bounds' ) THEN
[257]	126	WRITE( message_string, * ) 'hor_index_bounds not found in data from ', &
	127	'prior run on PE ', myid
	128	CALL message( 'read_var_list', 'PA0298', 1, 2, 0, 6, 0 )
[145]	129	ENDIF
	130	READ ( 13 ) hor_index_bounds_previous_run
	131
	132	!
[1]	133	!-- Read vertical number of gridpoints and number of different areas used
	134	!-- for computing statistics. Allocate arrays depending on these values,
	135	!-- which are needed for the following read instructions.
	136	READ ( 13 ) variable_chr
	137	IF ( TRIM( variable_chr ) /= 'nz' ) THEN
[257]	138	WRITE( message_string, * ) 'nz not found in data from prior run on PE ',&
	139	myid
	140	CALL message( 'read_var_list', 'PA0299', 1, 2, 0, 6, 0 )
[1]	141	ENDIF
	142	READ ( 13 ) nz
[87]	143
[1]	144	READ ( 13 ) variable_chr
[87]	145	IF ( TRIM( variable_chr ) /= 'max_pr_user' ) THEN
[257]	146	WRITE( message_string, * ) 'max_pr_user not found in data from ', &
[87]	147	'prior run on PE ', myid
[257]	148	CALL message( 'read_var_list', 'PA0300', 1, 2, 0, 6, 0 )
[87]	149	ENDIF
[159]	150	READ ( 13 ) max_pr_user ! This value is checked against the number of
	151	! user profiles given for the current run
	152	! in routine user_parin (it has to match)
[87]	153
	154	READ ( 13 ) variable_chr
[1]	155	IF ( TRIM( variable_chr ) /= 'statistic_regions' ) THEN
[257]	156	WRITE( message_string, * ) 'statistic_regions not found in data from ', &
[1]	157	'prior run on PE ', myid
[257]	158	CALL message( 'read_var_list', 'PA0301', 1, 2, 0, 6, 0 )
[1]	159	ENDIF
	160	READ ( 13 ) statistic_regions
[146]	161	IF ( .NOT. ALLOCATED( ug ) ) THEN
[147]	162	ALLOCATE( lad(0:nz+1), ug(0:nz+1), u_init(0:nz+1), vg(0:nz+1), &
	163	v_init(0:nz+1), pt_init(0:nz+1), q_init(0:nz+1), &
	164	sa_init(0:nz+1), &
[146]	165	hom(0:nz+1,2,pr_palm+max_pr_user,0:statistic_regions), &
	166	hom_sum(0:nz+1,pr_palm+max_pr_user,0:statistic_regions) )
	167	ENDIF
[1]	168
	169	!
	170	!-- Now read all control parameters:
	171	!-- Caution: When the following read instructions have been changed, the
	172	!-- ------- version number stored in the variable binary_version has to be
	173	!-- increased. The same changes must also be done in write_var_list.
	174	READ ( 13 ) variable_chr
	175	DO WHILE ( TRIM( variable_chr ) /= '* end *' )
	176
	177	SELECT CASE ( TRIM( variable_chr ) )
	178
	179	CASE ( 'adjust_mixing_length' )
	180	READ ( 13 ) adjust_mixing_length
	181	CASE ( 'advected_distance_x' )
	182	READ ( 13 ) advected_distance_x
	183	CASE ( 'advected_distance_y' )
	184	READ ( 13 ) advected_distance_y
	185	CASE ( 'alpha_surface' )
	186	READ ( 13 ) alpha_surface
	187	CASE ( 'average_count_pr' )
	188	READ ( 13 ) average_count_pr
	189	CASE ( 'average_count_sp' )
	190	READ ( 13 ) average_count_sp
	191	CASE ( 'average_count_3d' )
	192	READ ( 13 ) average_count_3d
	193	CASE ( 'bc_e_b' )
	194	READ ( 13 ) bc_e_b
	195	CASE ( 'bc_lr' )
	196	READ ( 13 ) bc_lr
	197	CASE ( 'bc_ns' )
	198	READ ( 13 ) bc_ns
	199	CASE ( 'bc_p_b' )
	200	READ ( 13 ) bc_p_b
	201	CASE ( 'bc_p_t' )
	202	READ ( 13 ) bc_p_t
	203	CASE ( 'bc_pt_b' )
	204	READ ( 13 ) bc_pt_b
	205	CASE ( 'bc_pt_t' )
	206	READ ( 13 ) bc_pt_t
	207	CASE ( 'bc_pt_t_val' )
	208	READ ( 13 ) bc_pt_t_val
	209	CASE ( 'bc_q_b' )
	210	READ ( 13 ) bc_q_b
	211	CASE ( 'bc_q_t' )
	212	READ ( 13 ) bc_q_t
	213	CASE ( 'bc_q_t_val' )
	214	READ ( 13 ) bc_q_t_val
	215	CASE ( 'bc_s_b' )
	216	READ ( 13 ) bc_s_b
	217	CASE ( 'bc_s_t' )
	218	READ ( 13 ) bc_s_t
[95]	219	CASE ( 'bc_sa_t' )
	220	READ ( 13 ) bc_sa_t
[1]	221	CASE ( 'bc_uv_b' )
	222	READ ( 13 ) bc_uv_b
	223	CASE ( 'bc_uv_t' )
	224	READ ( 13 ) bc_uv_t
[95]	225	CASE ( 'bottom_salinityflux' )
	226	READ ( 13 ) bottom_salinityflux
[1]	227	CASE ( 'building_height' )
	228	READ ( 13 ) building_height
	229	CASE ( 'building_length_x' )
	230	READ ( 13 ) building_length_x
	231	CASE ( 'building_length_y' )
	232	READ ( 13 ) building_length_y
	233	CASE ( 'building_wall_left' )
	234	READ ( 13 ) building_wall_left
	235	CASE ( 'building_wall_south' )
	236	READ ( 13 ) building_wall_south
[138]	237	CASE ( 'canopy_mode' )
	238	READ ( 13 ) canopy_mode
[240]	239	CASE ( 'canyon_height' )
	240	READ ( 13 ) canyon_height
	241	CASE ( 'canyon_width_x' )
	242	READ ( 13 ) canyon_width_x
	243	CASE ( 'canyon_width_y' )
	244	READ ( 13 ) canyon_width_y
	245	CASE ( 'canyon_wall_left' )
	246	READ ( 13 ) canyon_wall_left
	247	CASE ( 'canyon_wall_south' )
	248	READ ( 13 ) canyon_wall_south
[1]	249	CASE ( 'cloud_droplets' )
	250	READ ( 13 ) cloud_droplets
	251	CASE ( 'cloud_physics' )
	252	READ ( 13 ) cloud_physics
	253	CASE ( 'conserve_volume_flow' )
	254	READ ( 13 ) conserve_volume_flow
[241]	255	CASE ( 'conserve_volume_flow_mode' )
	256	READ ( 13 ) conserve_volume_flow_mode
[291]	257	CASE ( 'coupling_start_time' )
	258	READ ( 13 ) coupling_start_time
[153]	259	CASE ( 'cthf' )
	260	READ ( 13 ) cthf
[1]	261	CASE ( 'current_timestep_number' )
	262	READ ( 13 ) current_timestep_number
	263	CASE ( 'cut_spline_overshoot' )
	264	READ ( 13 ) cut_spline_overshoot
	265	CASE ( 'damp_level_1d' )
	266	READ ( 13 ) damp_level_1d
	267	CASE ( 'dissipation_1d' )
	268	READ ( 13 ) dissipation_1d
[240]	269	CASE ( 'dp_external' )
	270	READ ( 13 ) dp_external
	271	CASE ( 'dp_level_b' )
	272	READ ( 13 ) dp_level_b
	273	CASE ( 'dp_smooth' )
	274	READ ( 13 ) dp_smooth
	275	CASE ( 'dpdxy' )
	276	READ ( 13 ) dpdxy
[138]	277	CASE ( 'drag_coefficient' )
	278	READ ( 13 ) drag_coefficient
[1]	279	CASE ( 'dt_fixed' )
[336]	280	READ ( 13 ) ldum ! restart files created before rev 333
	281	! contained dt_fixed by mistake; it is still
	282	! read here in order to allow usage of these
	283	! older restart files; can be removed in a
	284	! later version
[1]	285	CASE ( 'dt_pr_1d' )
	286	READ ( 13 ) dt_pr_1d
	287	CASE ( 'dt_run_control_1d' )
	288	READ ( 13 ) dt_run_control_1d
	289	CASE ( 'dt_3d' )
	290	READ ( 13 ) dt_3d
	291	CASE ( 'dvrp_filecount' )
	292	READ ( 13 ) dvrp_filecount
	293	CASE ( 'dx' )
	294	READ ( 13 ) dx
	295	CASE ( 'dy' )
	296	READ ( 13 ) dy
	297	CASE ( 'dz' )
	298	READ ( 13 ) dz
	299	CASE ( 'dz_max' )
	300	READ ( 13 ) dz_max
	301	CASE ( 'dz_stretch_factor' )
	302	READ ( 13 ) dz_stretch_factor
	303	CASE ( 'dz_stretch_level' )
	304	READ ( 13 ) dz_stretch_level
	305	CASE ( 'e_min' )
	306	READ ( 13 ) e_min
	307	CASE ( 'end_time_1d' )
	308	READ ( 13 ) end_time_1d
	309	CASE ( 'fft_method' )
	310	READ ( 13 ) fft_method
	311	CASE ( 'first_call_advec_particles' )
	312	READ ( 13 ) first_call_advec_particles
	313	CASE ( 'galilei_transformation' )
	314	READ ( 13 ) galilei_transformation
	315	CASE ( 'grid_matching' )
	316	READ ( 13 ) grid_matching
	317	CASE ( 'hom' )
	318	READ ( 13 ) hom
[143]	319	CASE ( 'hom_sum' )
	320	READ ( 13 ) hom_sum
[151]	321	CASE ( 'humidity' )
	322	READ ( 13 ) humidity
	323	CASE ( 'inflow_damping_factor' )
	324	IF ( .NOT. ALLOCATED( inflow_damping_factor ) ) THEN
	325	ALLOCATE( inflow_damping_factor(0:nz+1) )
	326	ENDIF
	327	READ ( 13 ) inflow_damping_factor
	328	CASE ( 'inflow_damping_height' )
	329	READ ( 13 ) inflow_damping_height
	330	CASE ( 'inflow_damping_width' )
	331	READ ( 13 ) inflow_damping_width
[1]	332	CASE ( 'inflow_disturbance_begin' )
	333	READ ( 13 ) inflow_disturbance_begin
	334	CASE ( 'inflow_disturbance_end' )
	335	READ ( 13 ) inflow_disturbance_end
	336	CASE ( 'km_constant' )
	337	READ ( 13 ) km_constant
	338	CASE ( 'km_damp_max' )
	339	READ ( 13 ) km_damp_max
[138]	340	CASE ( 'lad' )
	341	READ ( 13 ) lad
	342	CASE ( 'lad_surface' )
	343	READ ( 13 ) lad_surface
	344	CASE ( 'lad_vertical_gradient' )
	345	READ ( 13 ) lad_vertical_gradient
	346	CASE ( 'lad_vertical_gradient_level' )
	347	READ ( 13 ) lad_vertical_gradient_level
	348	CASE ( 'lad_vertical_gradient_level_in' )
	349	READ ( 13 ) lad_vertical_gradient_level_ind
[1]	350	CASE ( 'last_dt_change' )
	351	READ ( 13 ) last_dt_change
[411]	352	CASE ( 'large_scale_subsidence' )
	353	READ ( 13 ) large_scale_subsidence
[153]	354	CASE ( 'leaf_surface_concentration' )
	355	READ ( 13 ) leaf_surface_concentration
[1]	356	CASE ( 'long_filter_factor' )
	357	READ ( 13 ) long_filter_factor
[63]	358	CASE ( 'loop_optimization' )
	359	READ ( 13 ) loop_optimization
[151]	360	CASE ( 'mean_inflow_profiles' )
	361	IF ( .NOT. ALLOCATED( mean_inflow_profiles ) ) THEN
	362	ALLOCATE( mean_inflow_profiles(0:nz+1,5) )
	363	ENDIF
	364	READ ( 13 ) mean_inflow_profiles
[1]	365	CASE ( 'mixing_length_1d' )
	366	READ ( 13 ) mixing_length_1d
	367	CASE ( 'momentum_advec' )
	368	READ ( 13 ) momentum_advec
	369	CASE ( 'netcdf_precision' )
	370	READ ( 13 ) netcdf_precision
	371	CASE ( 'nsor_ini' )
	372	READ ( 13 ) nsor_ini
	373	CASE ( 'nx' )
	374	READ ( 13 ) nx
[147]	375	nx_on_file = nx
[1]	376	CASE ( 'ny' )
	377	READ ( 13 ) ny
[147]	378	ny_on_file = ny
[94]	379	CASE ( 'ocean' )
	380	READ ( 13 ) ocean
[1]	381	CASE ( 'old_dt' )
	382	READ ( 13 ) old_dt
	383	CASE ( 'omega' )
	384	READ ( 13 ) omega
	385	CASE ( 'outflow_damping_width' )
	386	READ ( 13 ) outflow_damping_width
[345]	387	CASE ( 'output_for_t0' )
	388	READ (13) output_for_t0
[1]	389	CASE ( 'overshoot_limit_e' )
	390	READ ( 13 ) overshoot_limit_e
	391	CASE ( 'overshoot_limit_pt' )
	392	READ ( 13 ) overshoot_limit_pt
	393	CASE ( 'overshoot_limit_u' )
	394	READ ( 13 ) overshoot_limit_u
	395	CASE ( 'overshoot_limit_v' )
	396	READ ( 13 ) overshoot_limit_v
	397	CASE ( 'overshoot_limit_w' )
	398	READ ( 13 ) overshoot_limit_w
	399	CASE ( 'passive_scalar' )
	400	READ ( 13 ) passive_scalar
[138]	401	CASE ( 'pch_index' )
	402	READ ( 13 ) pch_index
[1]	403	CASE ( 'phi' )
	404	READ ( 13 ) phi
[138]	405	CASE ( 'plant_canopy' )
	406	READ ( 13 ) plant_canopy
[1]	407	CASE ( 'prandtl_layer' )
	408	READ ( 13 ) prandtl_layer
	409	CASE ( 'precipitation' )
	410	READ ( 13 ) precipitation
	411	CASE ( 'pt_init' )
	412	READ ( 13 ) pt_init
[57]	413	CASE ( 'pt_reference' )
	414	READ ( 13 ) pt_reference
[1]	415	CASE ( 'pt_surface' )
	416	READ ( 13 ) pt_surface
	417	CASE ( 'pt_surface_initial_change' )
	418	READ ( 13 ) pt_surface_initial_change
	419	CASE ( 'pt_vertical_gradient' )
	420	READ ( 13 ) pt_vertical_gradient
	421	CASE ( 'pt_vertical_gradient_level' )
	422	READ ( 13 ) pt_vertical_gradient_level
	423	CASE ( 'pt_vertical_gradient_level_ind' )
	424	READ ( 13 ) pt_vertical_gradient_level_ind
	425	CASE ( 'q_init' )
	426	READ ( 13 ) q_init
	427	CASE ( 'q_surface' )
	428	READ ( 13 ) q_surface
	429	CASE ( 'q_surface_initial_change' )
	430	READ ( 13 ) q_surface_initial_change
	431	CASE ( 'q_vertical_gradient' )
	432	READ ( 13 ) q_vertical_gradient
	433	CASE ( 'q_vertical_gradient_level' )
	434	READ ( 13 ) q_vertical_gradient_level
	435	CASE ( 'q_vertical_gradient_level_ind' )
	436	READ ( 13 ) q_vertical_gradient_level_ind
	437	CASE ( 'radiation' )
	438	READ ( 13 ) radiation
	439	CASE ( 'random_generator' )
	440	READ ( 13 ) random_generator
	441	CASE ( 'random_heatflux' )
	442	READ ( 13 ) random_heatflux
[151]	443	CASE ( 'recycling_width' )
	444	READ ( 13 ) recycling_width
[1]	445	CASE ( 'rif_max' )
	446	READ ( 13 ) rif_max
	447	CASE ( 'rif_min' )
	448	READ ( 13 ) rif_min
	449	CASE ( 'roughness_length' )
	450	READ ( 13 ) roughness_length
	451	CASE ( 'runnr' )
	452	READ ( 13 ) runnr
[291]	453	CASE ( 'run_coupled' )
	454	READ ( 13 ) run_coupled
[94]	455	CASE ( 'sa_init' )
	456	READ ( 13 ) sa_init
	457	CASE ( 'sa_surface' )
	458	READ ( 13 ) sa_surface
	459	CASE ( 'sa_vertical_gradient' )
	460	READ ( 13 ) sa_vertical_gradient
	461	CASE ( 'sa_vertical_gradient_level' )
	462	READ ( 13 ) sa_vertical_gradient_level
[1]	463	CASE ( 'scalar_advec' )
	464	READ ( 13 ) scalar_advec
[153]	465	CASE ( 'scalar_exchange_coefficient' )
	466	READ ( 13 ) scalar_exchange_coefficient
[1]	467	CASE ( 'simulated_time' )
	468	READ ( 13 ) simulated_time
	469	CASE ( 'surface_heatflux' )
	470	READ ( 13 ) surface_heatflux
	471	CASE ( 'surface_pressure' )
	472	READ ( 13 ) surface_pressure
	473	CASE ( 'surface_scalarflux' )
	474	READ ( 13 ) surface_scalarflux
	475	CASE ( 'surface_waterflux' )
	476	READ ( 13 ) surface_waterflux
	477	CASE ( 's_surface' )
	478	READ ( 13 ) s_surface
	479	CASE ( 's_surface_initial_change' )
	480	READ ( 13 ) s_surface_initial_change
	481	CASE ( 's_vertical_gradient' )
	482	READ ( 13 ) s_vertical_gradient
	483	CASE ( 's_vertical_gradient_level' )
	484	READ ( 13 ) s_vertical_gradient_level
[102]	485	CASE ( 'time_coupling' )
	486	READ ( 13 ) time_coupling
[1]	487	CASE ( 'time_disturb' )
	488	READ ( 13 ) time_disturb
	489	CASE ( 'time_dopr' )
	490	READ ( 13 ) time_dopr
	491	CASE ( 'time_dopr_av' )
	492	READ ( 13 ) time_dopr_av
	493	CASE ( 'time_dopr_listing' )
	494	READ ( 13 ) time_dopr_listing
	495	CASE ( 'time_dopts' )
	496	READ ( 13 ) time_dopts
	497	CASE ( 'time_dosp' )
	498	READ ( 13 ) time_dosp
	499	CASE ( 'time_dots' )
	500	READ ( 13 ) time_dots
	501	CASE ( 'time_do2d_xy' )
	502	READ ( 13 ) time_do2d_xy
	503	CASE ( 'time_do2d_xz' )
	504	READ ( 13 ) time_do2d_xz
	505	CASE ( 'time_do2d_yz' )
	506	READ ( 13 ) time_do2d_yz
	507	CASE ( 'time_do3d' )
	508	READ ( 13 ) time_do3d
	509	CASE ( 'time_do_av' )
	510	READ ( 13 ) time_do_av
	511	CASE ( 'time_do_sla' )
	512	READ ( 13 ) time_do_sla
	513	CASE ( 'time_dvrp' )
	514	READ ( 13 ) time_dvrp
	515	CASE ( 'time_restart' )
	516	READ ( 13 ) time_restart
	517	CASE ( 'time_run_control' )
	518	READ ( 13 ) time_run_control
[291]	519	CASE ( 'time_since_reference_point' )
	520	READ ( 13 ) time_since_reference_point
[116]	521	CASE ( 'time_sort_particles' )
	522	READ ( 13 ) time_sort_particles
[1]	523	CASE ( 'timestep_scheme' )
	524	READ ( 13 ) timestep_scheme
	525	CASE ( 'topography' )
	526	READ ( 13 ) topography
[256]	527	CASE ( 'topography_grid_convention' )
	528	READ ( 13 ) topography_grid_convention
[19]	529	CASE ( 'top_heatflux' )
	530	READ ( 13 ) top_heatflux
[102]	531	CASE ( 'top_momentumflux_u' )
	532	READ ( 13 ) top_momentumflux_u
	533	CASE ( 'top_momentumflux_v' )
	534	READ ( 13 ) top_momentumflux_v
[94]	535	CASE ( 'top_salinityflux' )
	536	READ ( 13 ) top_salinityflux
[1]	537	CASE ( 'tsc' )
	538	READ ( 13 ) tsc
[151]	539	CASE ( 'turbulent_inflow' )
	540	READ ( 13 ) turbulent_inflow
[241]	541	CASE ( 'u_bulk' )
	542	READ ( 13 ) u_bulk
[1]	543	CASE ( 'u_init' )
	544	READ ( 13 ) u_init
	545	CASE ( 'u_max' )
	546	READ ( 13 ) u_max
	547	CASE ( 'u_max_ijk' )
	548	READ ( 13 ) u_max_ijk
	549	CASE ( 'ug' )
	550	READ ( 13 ) ug
	551	CASE ( 'ug_surface' )
	552	READ ( 13 ) ug_surface
	553	CASE ( 'ug_vertical_gradient' )
	554	READ ( 13 ) ug_vertical_gradient
	555	CASE ( 'ug_vertical_gradient_level' )
	556	READ ( 13 ) ug_vertical_gradient_level
	557	CASE ( 'ug_vertical_gradient_level_ind' )
	558	READ ( 13 ) ug_vertical_gradient_level_ind
	559	CASE ( 'ups_limit_e' )
	560	READ ( 13 ) ups_limit_e
	561	CASE ( 'ups_limit_pt' )
	562	READ ( 13 ) ups_limit_pt
	563	CASE ( 'ups_limit_u' )
	564	READ ( 13 ) ups_limit_u
	565	CASE ( 'ups_limit_v' )
	566	READ ( 13 ) ups_limit_v
	567	CASE ( 'ups_limit_w' )
	568	READ ( 13 ) ups_limit_w
	569	CASE ( 'use_surface_fluxes' )
	570	READ ( 13 ) use_surface_fluxes
[20]	571	CASE ( 'use_top_fluxes' )
	572	READ ( 13 ) use_top_fluxes
[1]	573	CASE ( 'use_ug_for_galilei_tr' )
	574	READ ( 13 ) use_ug_for_galilei_tr
	575	CASE ( 'use_upstream_for_tke' )
	576	READ ( 13 ) use_upstream_for_tke
[241]	577	CASE ( 'v_bulk' )
	578	READ ( 13 ) v_bulk
[1]	579	CASE ( 'v_init' )
	580	READ ( 13 ) v_init
	581	CASE ( 'v_max' )
	582	READ ( 13 ) v_max
	583	CASE ( 'v_max_ijk' )
	584	READ ( 13 ) v_max_ijk
	585	CASE ( 'vg' )
	586	READ ( 13 ) vg
	587	CASE ( 'vg_surface' )
	588	READ ( 13 ) vg_surface
	589	CASE ( 'vg_vertical_gradient' )
	590	READ ( 13 ) vg_vertical_gradient
	591	CASE ( 'vg_vertical_gradient_level' )
	592	READ ( 13 ) vg_vertical_gradient_level
	593	CASE ( 'vg_vertical_gradient_level_ind' )
	594	READ ( 13 ) vg_vertical_gradient_level_ind
[143]	595	CASE ( 'volume_flow_area' )
	596	READ ( 13 ) volume_flow_area
	597	CASE ( 'volume_flow_initial' )
	598	READ ( 13 ) volume_flow_initial
[1]	599	CASE ( 'wall_adjustment' )
	600	READ ( 13 ) wall_adjustment
[411]	601	CASE ( 'ws_vertical_gradient' )
	602	READ ( 13 ) ws_vertical_gradient
	603	CASE ( 'ws_vertical_gradient_level' )
	604	READ ( 13 ) ws_vertical_gradient_level
	605	CASE ( 'ws_vertical_gradient_level_ind' )
	606	READ ( 13 ) ws_vertical_gradient_level_ind
[1]	607	CASE ( 'w_max' )
	608	READ ( 13 ) w_max
	609	CASE ( 'w_max_ijk' )
	610	READ ( 13 ) w_max_ijk
	611
	612	CASE DEFAULT
[257]	613	WRITE( message_string, * ) 'unknown variable named "', &
	614	TRIM( variable_chr ), '" found in', &
	615	' data from prior run on PE ', myid
	616	CALL message( 'read_var_list', 'PA0302', 1, 2, 0, 6, 0 )
[1]	617	END SELECT
	618	!
	619	!-- Read next string
	620	READ ( 13 ) variable_chr
	621
	622	ENDDO
	623
	624
[146]	625	END SUBROUTINE read_var_list
[143]	626
[146]	627
	628
[147]	629	SUBROUTINE read_parts_of_var_list
	630
	631	!------------------------------------------------------------------------------!
	632	! Description:
	633	! ------------
	634	! Skipping the global control variables from restart-file (binary format)
	635	! except some informations needed when reading restart data from a previous
[151]	636	! run which used a smaller total domain or/and a different domain decomposition.
[147]	637	!------------------------------------------------------------------------------!
	638
[151]	639	USE arrays_3d
[147]	640	USE control_parameters
	641	USE indices
	642	USE pegrid
	643	USE statistics
	644
	645	IMPLICIT NONE
	646
	647	CHARACTER (LEN=10) :: version_on_file
	648	CHARACTER (LEN=30) :: variable_chr
	649
	650	INTEGER :: idum, max_pr_user_on_file, nz_on_file, &
[170]	651	statistic_regions_on_file, tmp_mpru, tmp_sr
[147]	652
[151]	653	REAL, DIMENSION(:,:,:), ALLOCATABLE :: hom_sum_on_file
[147]	654	REAL, DIMENSION(:,:,:,:), ALLOCATABLE :: hom_on_file
	655
	656
	657	CALL check_open( 13 )
	658
	659	WRITE (9,*) 'rpovl: after check open 13'
	660	CALL local_flush( 9 )
	661	READ ( 13 ) version_on_file
	662
	663	!
	664	!-- Read number of PEs and horizontal index bounds of all PEs used in previous
	665	!-- run
	666	READ ( 13 ) variable_chr
	667	IF ( TRIM( variable_chr ) /= 'numprocs' ) THEN
[274]	668	WRITE( message_string, * ) 'numprocs not found in data from prior ', &
	669	'run on PE ', myid
[257]	670	CALL message( 'read_parts_of_var_list', 'PA0297', 1, 2, 0, 6, 0 )
[147]	671	ENDIF
	672	READ ( 13 ) numprocs_previous_run
	673
	674	IF ( .NOT. ALLOCATED( hor_index_bounds_previous_run ) ) THEN
	675	ALLOCATE( hor_index_bounds_previous_run(4,0:numprocs_previous_run-1) )
	676	ENDIF
	677
	678	READ ( 13 ) variable_chr
	679	IF ( TRIM( variable_chr ) /= 'hor_index_bounds' ) THEN
[257]	680	WRITE( message_string, * ) 'hor_index_bounds not found in data from ', &
	681	'prior run on PE ', myid
	682	CALL message( 'read_parts_of_var_list', 'PA0298', 1, 2, 0, 6, 0 )
[147]	683	ENDIF
	684	READ ( 13 ) hor_index_bounds_previous_run
	685
	686	!
	687	!-- Read vertical number of gridpoints and number of different areas used
	688	!-- for computing statistics. Allocate arrays depending on these values,
	689	!-- which are needed for the following read instructions.
	690	READ ( 13 ) variable_chr
	691	IF ( TRIM( variable_chr ) /= 'nz' ) THEN
[257]	692	message_string = 'nz not found in restart data file'
	693	CALL message( 'read_parts_of_var_list', 'PA0303', 1, 2, 0, 6, 0 )
[147]	694	ENDIF
	695	READ ( 13 ) nz_on_file
	696	IF ( nz_on_file /= nz ) THEN
[257]	697	WRITE( message_string, * ) 'mismatch concerning number of ', &
[274]	698	'gridpoints along z', &
	699	'&nz on file = "', nz_on_file, '"', &
	700	'&nz from run = "', nz, '"'
[257]	701	CALL message( 'read_parts_of_var_list', 'PA0304', 1, 2, 0, 6, 0 )
[147]	702	ENDIF
	703
	704	READ ( 13 ) variable_chr
	705	IF ( TRIM( variable_chr ) /= 'max_pr_user' ) THEN
[257]	706	message_string = 'max_pr_user not found in restart data file'
	707	CALL message( 'read_parts_of_var_list', 'PA0305', 1, 2, 0, 6, 0 )
[147]	708	ENDIF
	709	READ ( 13 ) max_pr_user_on_file
[170]	710	IF ( max_pr_user_on_file /= max_pr_user ) THEN
[274]	711	WRITE( message_string, * ) 'number of user profiles on res', &
	712	'tart data file differs from the current ', &
	713	'run&max_pr_user on file = "', &
	714	max_pr_user_on_file, '"', &
	715	'&max_pr_user from run = "', &
[257]	716	max_pr_user, '"'
	717	CALL message( 'read_parts_of_var_list', 'PA0306', 0, 0, 0, 6, 0 )
[170]	718	tmp_mpru = MIN( max_pr_user_on_file, max_pr_user )
	719	ELSE
	720	tmp_mpru = max_pr_user
[147]	721	ENDIF
	722
	723	READ ( 13 ) variable_chr
	724	IF ( TRIM( variable_chr ) /= 'statistic_regions' ) THEN
[257]	725	message_string = 'statistic_regions not found in restart data file'
	726	CALL message( 'read_parts_of_var_list', 'PA0307', 1, 2, 0, 6, 0 )
[147]	727	ENDIF
	728	READ ( 13 ) statistic_regions_on_file
[173]	729	IF ( statistic_regions_on_file /= statistic_regions ) THEN
[274]	730	WRITE( message_string, * ) 'statistic regions on restart data file ',&
	731	'differ from the current run', &
	732	'&statistic regions on file = "', &
	733	statistic_regions_on_file, '"', &
	734	'&statistic regions from run = "', &
	735	statistic_regions, '"', &
[257]	736	'&statistic data may be lost!'
	737	CALL message( 'read_parts_of_var_list', 'PA0308', 0, 1, 0, 6, 0 )
[170]	738	tmp_sr = MIN( statistic_regions_on_file, statistic_regions )
	739	ELSE
	740	tmp_sr = statistic_regions
[147]	741	ENDIF
	742
	743
	744	!
	745	!-- Now read and check some control parameters and skip the rest
	746	WRITE (9,*) 'wpovl: begin reading variables'
	747	CALL local_flush( 9 )
	748	READ ( 13 ) variable_chr
	749
	750	DO WHILE ( TRIM( variable_chr ) /= '* end *' )
	751
	752	SELECT CASE ( TRIM( variable_chr ) )
	753
[151]	754	CASE ( 'average_count_pr' )
	755	READ ( 13 ) average_count_pr
[257]	756	IF ( average_count_pr /= 0 ) THEN
[274]	757	WRITE( message_string, * ) 'inflow profiles not temporally ', &
	758	'averaged. &Averaging will be done now using ', &
	759	average_count_pr, ' samples.'
	760	CALL message( 'read_parts_of_var_list', 'PA0309', &
	761	0, 1, 0, 6, 0 )
[151]	762	ENDIF
	763
[147]	764	CASE ( 'hom' )
	765	ALLOCATE( hom_on_file(0:nz+1,2,pr_palm+max_pr_user_on_file, &
	766	0:statistic_regions_on_file) )
	767	READ ( 13 ) hom_on_file
[170]	768	hom(:,:,1:pr_palm+tmp_mpru,0:tmp_sr) = &
	769	hom_on_file(:,:,1:pr_palm+tmp_mpru,0:tmp_sr)
[147]	770	DEALLOCATE( hom_on_file )
	771
[151]	772	CASE ( 'hom_sum' )
	773	ALLOCATE( hom_sum_on_file(0:nz+1,pr_palm+max_pr_user_on_file, &
	774	0:statistic_regions_on_file) )
	775	READ ( 13 ) hom_sum_on_file
[170]	776	hom_sum(:,1:pr_palm+tmp_mpru,0:tmp_sr) = &
	777	hom_sum_on_file(:,1:pr_palm+tmp_mpru,0:tmp_sr)
[151]	778	DEALLOCATE( hom_sum_on_file )
	779
[147]	780	CASE ( 'nx' )
	781	READ ( 13 ) nx_on_file
	782
	783	CASE ( 'ny' )
	784	READ ( 13 ) ny_on_file
	785
	786
	787	CASE DEFAULT
	788
	789	READ ( 13 ) idum
	790
	791	END SELECT
	792
	793	READ ( 13 ) variable_chr
	794
	795	ENDDO
	796
[151]	797	!
	798	!-- Calculate the temporal average of vertical profiles, if neccessary
	799	IF ( average_count_pr /= 0 ) THEN
	800	hom_sum = hom_sum / REAL( average_count_pr )
	801	ENDIF
[147]	802
[151]	803
[147]	804	END SUBROUTINE read_parts_of_var_list
	805
	806
	807
[146]	808	SUBROUTINE skip_var_list
	809
	810	!------------------------------------------------------------------------------!
	811	! Description:
	812	! ------------
	813	! Skipping the global control variables from restart-file (binary format)
	814	!------------------------------------------------------------------------------!
	815
[147]	816	IMPLICIT NONE
	817
[146]	818	CHARACTER (LEN=10) :: version_on_file
	819	CHARACTER (LEN=30) :: variable_chr
	820
	821	INTEGER :: idum
	822
	823
[147]	824	WRITE (9,*) 'skipvl #1'
	825	CALL local_flush( 9 )
[146]	826	READ ( 13 ) version_on_file
	827
[147]	828	WRITE (9,*) 'skipvl before variable_chr'
	829	CALL local_flush( 9 )
[146]	830	READ ( 13 ) variable_chr
[147]	831	WRITE (9,*) 'skipvl after variable_chr'
	832	CALL local_flush( 9 )
[146]	833
	834	DO WHILE ( TRIM( variable_chr ) /= '* end *' )
	835
[147]	836	WRITE (9,*) 'skipvl chr = ', variable_chr
	837	CALL local_flush( 9 )
[146]	838	READ ( 13 ) idum
	839	READ ( 13 ) variable_chr
	840
	841	ENDDO
[147]	842	WRITE (9,*) 'skipvl last'
	843	CALL local_flush( 9 )
[146]	844
	845
	846	END SUBROUTINE skip_var_list

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