!WRF:MEDIATION:IO ! ---principal wrf output routine (called from routines in module_io_domain ) SUBROUTINE output_wrf ( fid , grid , config_flags, switch , ierr ) USE module_io USE module_wrf_error USE module_io_wrf USE module_domain USE module_state_description USE module_configure ! USE module_date_time USE module_model_constants USE module_utility IMPLICIT NONE #include #include TYPE(domain) :: grid TYPE(grid_config_rec_type), INTENT(INOUT) :: config_flags INTEGER, INTENT(IN) :: fid, switch INTEGER, INTENT(INOUT) :: ierr ! Local data INTEGER ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe INTEGER , DIMENSION(3) :: domain_start , domain_end INTEGER , DIMENSION(3) :: memory_start , memory_end INTEGER , DIMENSION(3) :: patch_start , patch_end INTEGER i,j INTEGER julyr, julday, idt, iswater , map_proj INTEGER filestate LOGICAL dryrun REAL gmt, cen_lat, cen_lon, bdyfrq , truelat1 , truelat2 , moad_cen_lat , stand_lon INTEGER km_opt, diff_opt, damp_opt, & mp_physics, ra_lw_physics, ra_sw_physics, sf_sfclay_physics, & sf_surface_physics, bl_pbl_physics, cu_physics REAL khdif, kvdif, swrad_scat INTEGER ucmcall, w_damping, smooth_option, feedback, surface_input_source, sst_update #if (EM_CORE == 1) INTEGER grid_id , parent_id , i_parent_start , j_parent_start , parent_grid_ratio INTEGER diff_6th_opt REAL diff_6th_factor INTEGER grid_fdda, gfdda_interval_m, gfdda_end_h, if_ramping, & obs_nudge_opt, obs_nudge_wind, obs_nudge_temp, obs_nudge_mois, obs_nudge_pstr, obs_idynin, obs_ionf REAL fgdt, guv, gt, gq, dtramp_min, & obs_coef_wind, obs_coef_temp, obs_coef_mois, obs_coef_pstr, obs_dtramp, fdda_end LOGICAL pd_moist, pd_scalar, pd_tke #endif CHARACTER (len=19) simulation_start_date CHARACTER (len=len_current_date) current_date_save INTEGER simulation_start_year , & simulation_start_month , & simulation_start_day , & simulation_start_hour , & simulation_start_minute , & simulation_start_second INTEGER rc INTEGER :: io_form LOGICAL, EXTERNAL :: multi_files INTEGER, EXTERNAL :: use_package INTEGER p_hr, p_min, p_sec, p_ms CHARACTER*256 message CHARACTER*80 fname CHARACTER*80 char_junk INTEGER ibuf(1) REAL rbuf(1) TYPE(WRFU_TimeInterval) :: bdy_increment TYPE(WRFU_Time) :: next_time, currentTime, startTime CHARACTER*40 :: next_datestr INTEGER :: start_year , start_month , start_day , start_hour , start_minute , start_second LOGICAL :: adjust WRITE(wrf_err_message,*)'output_wrf: begin, fid = ',fid CALL wrf_debug( 300 , wrf_err_message ) CALL wrf_inquire_filename ( fid , fname , filestate , ierr ) IF ( ierr /= 0 ) THEN WRITE(wrf_err_message,*)'module_io_wrf: output_wrf: wrf_inquire_filename Status = ',ierr CALL wrf_error_fatal( wrf_err_message ) ENDIF WRITE(wrf_err_message,*)'output_wrf: fid,filestate = ',fid,filestate CALL wrf_debug( 300 , wrf_err_message ) ! io_form is used to determine if multi-file I/O is enabled and to ! control writing of format-specific time-independent metadata IF ( switch .EQ. model_input_only ) THEN CALL nl_get_io_form_input( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input1_only ) THEN CALL nl_get_io_form_auxinput1( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input2_only ) THEN CALL nl_get_io_form_auxinput2( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input3_only ) THEN CALL nl_get_io_form_auxinput3( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input4_only ) THEN CALL nl_get_io_form_auxinput4( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input5_only ) THEN CALL nl_get_io_form_auxinput5( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input6_only ) THEN CALL nl_get_io_form_auxinput6( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input7_only ) THEN CALL nl_get_io_form_auxinput7( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input8_only ) THEN CALL nl_get_io_form_auxinput8( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input9_only ) THEN CALL nl_get_io_form_auxinput9( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input10_only ) THEN CALL nl_get_io_form_gfdda( 1, io_form ) ELSE IF ( switch .EQ. aux_model_input11_only ) THEN CALL nl_get_io_form_auxinput11( 1, io_form ) ELSE IF ( switch .EQ. history_only ) THEN CALL nl_get_io_form_history( 1, io_form ) ELSE IF ( switch .EQ. aux_hist1_only ) THEN CALL nl_get_io_form_auxhist1( 1, io_form ) ELSE IF ( switch .EQ. aux_hist2_only ) THEN CALL nl_get_io_form_auxhist2( 1, io_form ) ELSE IF ( switch .EQ. aux_hist3_only ) THEN CALL nl_get_io_form_auxhist3( 1, io_form ) ELSE IF ( switch .EQ. aux_hist4_only ) THEN CALL nl_get_io_form_auxhist4( 1, io_form ) ELSE IF ( switch .EQ. aux_hist5_only ) THEN CALL nl_get_io_form_auxhist5( 1, io_form ) ELSE IF ( switch .EQ. aux_hist6_only ) THEN CALL nl_get_io_form_auxhist6( 1, io_form ) ELSE IF ( switch .EQ. aux_hist7_only ) THEN CALL nl_get_io_form_auxhist7( 1, io_form ) ELSE IF ( switch .EQ. aux_hist8_only ) THEN CALL nl_get_io_form_auxhist8( 1, io_form ) ELSE IF ( switch .EQ. aux_hist9_only ) THEN CALL nl_get_io_form_auxhist9( 1, io_form ) ELSE IF ( switch .EQ. aux_hist10_only ) THEN CALL nl_get_io_form_auxhist10( 1, io_form ) ELSE IF ( switch .EQ. aux_hist11_only ) THEN CALL nl_get_io_form_auxhist11( 1, io_form ) ELSE IF ( switch .EQ. restart_only ) THEN CALL nl_get_io_form_restart( 1, io_form ) ELSE IF ( switch .EQ. boundary_only ) THEN CALL nl_get_io_form_boundary( 1, io_form ) ELSE ! default: use history CALL nl_get_io_form_history( 1, io_form ) ENDIF dryrun = ( filestate .EQ. WRF_FILE_OPENED_NOT_COMMITTED ) WRITE(wrf_err_message,*)'output_wrf: dryrun = ',dryrun CALL wrf_debug( 300 , wrf_err_message ) CALL get_ijk_from_grid ( grid , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe ) call nl_get_diff_opt ( 1, diff_opt ) call nl_get_km_opt ( 1, km_opt ) call nl_get_damp_opt ( 1, damp_opt ) call nl_get_khdif ( grid%id, khdif ) call nl_get_kvdif ( grid%id, kvdif ) call nl_get_mp_physics ( grid%id, mp_physics ) call nl_get_ra_lw_physics ( grid%id, ra_lw_physics ) call nl_get_ra_sw_physics ( grid%id, ra_sw_physics ) call nl_get_sf_sfclay_physics ( grid%id, sf_sfclay_physics ) call nl_get_sf_surface_physics ( grid%id, sf_surface_physics ) call nl_get_bl_pbl_physics ( grid%id, bl_pbl_physics ) call nl_get_cu_physics ( grid%id, cu_physics ) ! add nml variables in 2.2 call nl_get_surface_input_source ( 1 , surface_input_source ) call nl_get_sst_update ( 1 , sst_update ) call nl_get_feedback ( 1 , feedback ) call nl_get_smooth_option ( 1 , smooth_option ) call nl_get_swrad_scat ( 1 , swrad_scat ) call nl_get_ucmcall ( 1 , ucmcall ) call nl_get_w_damping ( 1 , w_damping ) #if (EM_CORE == 1) CALL nl_get_pd_moist ( grid%id , pd_moist ) CALL nl_get_pd_scalar ( grid%id , pd_scalar ) CALL nl_get_pd_tke ( grid%id , pd_tke ) CALL nl_get_diff_6th_opt ( grid%id , diff_6th_opt ) CALL nl_get_diff_6th_factor ( grid%id , diff_6th_factor ) CALL nl_get_grid_fdda ( grid%id , grid_fdda ) CALL nl_get_gfdda_end_h( grid%id , gfdda_end_h ) CALL nl_get_gfdda_interval_m ( grid%id , gfdda_interval_m ) IF ( grid_fdda == 1 ) THEN CALL nl_get_fgdt ( grid%id , fgdt ) CALL nl_get_guv ( grid%id , guv ) CALL nl_get_gt ( grid%id , gt ) CALL nl_get_gq ( grid%id , gq ) CALL nl_get_if_ramping ( 1 , if_ramping ) CALL nl_get_dtramp_min ( 1 , dtramp_min ) ENDIF CALL nl_get_obs_nudge_opt ( grid%id , obs_nudge_opt ) IF ( obs_nudge_opt == 1 ) THEN CALL nl_get_fdda_end ( grid%id , fdda_end ) CALL nl_get_obs_nudge_wind ( grid%id , obs_nudge_wind ) CALL nl_get_obs_coef_wind ( grid%id , obs_coef_wind ) CALL nl_get_obs_nudge_temp ( grid%id , obs_nudge_temp ) CALL nl_get_obs_coef_temp ( grid%id , obs_coef_temp ) CALL nl_get_obs_nudge_mois ( grid%id , obs_nudge_mois ) CALL nl_get_obs_coef_mois ( grid%id , obs_coef_mois ) CALL nl_get_obs_nudge_pstr ( grid%id , obs_nudge_pstr ) CALL nl_get_obs_coef_pstr ( grid%id , obs_coef_pstr ) CALL nl_get_obs_ionf ( 1 , obs_ionf ) CALL nl_get_obs_idynin ( 1 , obs_idynin ) CALL nl_get_obs_dtramp ( 1 , obs_dtramp ) ENDIF #endif ! julday and gmt can be set in namelist_03 for ideal.exe run CALL nl_get_gmt (grid%id, gmt) CALL nl_get_julyr (grid%id, julyr) CALL nl_get_julday (grid%id, julday) CALL nl_get_mminlu ( 1, char_junk(1:4) ) CALL nl_get_iswater (grid%id, iswater ) CALL nl_get_cen_lat ( grid%id , cen_lat ) CALL nl_get_cen_lon ( grid%id , cen_lon ) CALL nl_get_truelat1 ( grid%id , truelat1 ) CALL nl_get_truelat2 ( grid%id , truelat2 ) CALL nl_get_moad_cen_lat ( grid%id , moad_cen_lat ) CALL nl_get_stand_lon ( grid%id , stand_lon ) CALL nl_get_map_proj ( grid%id , map_proj ) #if (EM_CORE == 1) CALL nl_get_parent_id ( grid%id , parent_id ) CALL nl_get_i_parent_start ( grid%id , i_parent_start ) CALL nl_get_j_parent_start ( grid%id , j_parent_start ) CALL nl_get_parent_grid_ratio ( grid%id , parent_grid_ratio ) #endif CALL domain_clockprint(150, grid, & 'DEBUG output_wrf(): before call to domain_clock_get,') CALL domain_clock_get( grid, current_time=currentTime, & start_time=startTime, & current_timestr=current_date ) WRITE ( wrf_err_message , * ) 'output_wrf: begin, current_date=',current_date CALL wrf_debug ( 300 , wrf_err_message ) WRITE( message , * ) "OUTPUT FROM " , TRIM(program_name) CALL wrf_put_dom_ti_char ( fid , 'TITLE' , TRIM(message) , ierr ) ! added grib-specific metadata: Todd Hutchinson 8/21/2005 IF ( ( use_package( io_form ) == IO_GRIB1 ) .OR. & ( use_package( io_form ) == IO_GRIB2 ) ) THEN CALL wrf_put_dom_ti_char ( fid, 'PROGRAM_NAME', TRIM(program_name) , ierr ) ENDIF CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) #ifdef PLANET WRITE ( start_date , FMT = '(I4.4,"-",I5.5,"_",I2.2,":",I2.2,":",I2.2)' ) & start_year,start_day,start_hour,start_minute,start_second #else WRITE ( start_date , FMT = '(I4.4,"-",I2.2,"-",I2.2,"_",I2.2,":",I2.2,":",I2.2)' ) & start_year,start_month,start_day,start_hour,start_minute,start_second #endif CALL wrf_put_dom_ti_char ( fid , 'START_DATE', TRIM(start_date) , ierr ) IF ( switch .EQ. model_input_only) THEN CALL wrf_put_dom_ti_char ( fid , 'SIMULATION_START_DATE', TRIM(start_date) , ierr ) ELSE IF ( ( switch .EQ. restart_only ) .OR. ( switch .EQ. history_only ) ) THEN CALL nl_get_simulation_start_year ( 1, simulation_start_year ) CALL nl_get_simulation_start_month ( 1, simulation_start_month ) CALL nl_get_simulation_start_day ( 1, simulation_start_day ) CALL nl_get_simulation_start_hour ( 1, simulation_start_hour ) CALL nl_get_simulation_start_minute ( 1, simulation_start_minute ) CALL nl_get_simulation_start_second ( 1, simulation_start_second ) #ifdef PLANET WRITE ( simulation_start_date , FMT = '(I4.4,"-",I5.5,"_",I2.2,":",I2.2,":",I2.2)' ) & simulation_start_year,simulation_start_day,& simulation_start_hour,simulation_start_minute,simulation_start_second #else WRITE ( simulation_start_date , FMT = '(I4.4,"-",I2.2,"-",I2.2,"_",I2.2,":",I2.2,":",I2.2)' ) & simulation_start_year,simulation_start_month,simulation_start_day,& simulation_start_hour,simulation_start_minute,simulation_start_second #endif CALL wrf_put_dom_ti_char ( fid , 'SIMULATION_START_DATE', TRIM(simulation_start_date) , ierr ) END IF ibuf(1) = config_flags%e_we - config_flags%s_we + 1 CALL wrf_put_dom_ti_integer ( fid , 'WEST-EAST_GRID_DIMENSION' , ibuf , 1 , ierr ) ibuf(1) = config_flags%e_sn - config_flags%s_sn + 1 CALL wrf_put_dom_ti_integer ( fid , 'SOUTH-NORTH_GRID_DIMENSION' , ibuf , 1 , ierr ) ibuf(1) = config_flags%e_vert - config_flags%s_vert + 1 CALL wrf_put_dom_ti_integer ( fid , 'BOTTOM-TOP_GRID_DIMENSION' , ibuf , 1 , ierr ) #if (EM_CORE == 1) IF (grid%map_proj == 6) THEN ! Global ... dx determined automatically ! Don't use value from namelist ... used derived value instead CALL wrf_put_dom_ti_real ( fid , 'DX' , grid%dx , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'DY' , grid%dy , 1 , ierr ) ELSE CALL wrf_put_dom_ti_real ( fid , 'DX' , config_flags%dx , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'DY' , config_flags%dy , 1 , ierr ) END IF #endif ! added this metadatum for H. Chuan, NCEP, 030417, JM #if (NMM_CORE == 1) CALL wrf_put_dom_ti_char ( fid , 'GRIDTYPE', 'E' , ierr ) #endif #if (EM_CORE == 1) CALL wrf_put_dom_ti_char ( fid , 'GRIDTYPE', 'C' , ierr ) #endif #if (COAMPS_CORE == 1 ) CALL wrf_put_dom_ti_char ( fid , 'GRIDTYPE', 'B' , ierr ) #endif ! added these fields for W. Skamarock, 020402, JM ibuf(1) = diff_opt CALL wrf_put_dom_ti_integer ( fid , 'DIFF_OPT' , ibuf , 1 , ierr ) ibuf(1) = km_opt CALL wrf_put_dom_ti_integer ( fid , 'KM_OPT' , ibuf , 1 , ierr ) ibuf(1) = damp_opt CALL wrf_put_dom_ti_integer ( fid , 'DAMP_OPT' , ibuf , 1 , ierr ) rbuf(1) = khdif CALL wrf_put_dom_ti_real ( fid , 'KHDIF' , rbuf , 1 , ierr ) rbuf(1) = kvdif CALL wrf_put_dom_ti_real ( fid , 'KVDIF' , rbuf , 1 , ierr ) ibuf(1) = mp_physics CALL wrf_put_dom_ti_integer ( fid , 'MP_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = ra_lw_physics CALL wrf_put_dom_ti_integer ( fid , 'RA_LW_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = ra_sw_physics CALL wrf_put_dom_ti_integer ( fid , 'RA_SW_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = sf_sfclay_physics CALL wrf_put_dom_ti_integer ( fid , 'SF_SFCLAY_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = sf_surface_physics CALL wrf_put_dom_ti_integer ( fid , 'SF_SURFACE_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = bl_pbl_physics CALL wrf_put_dom_ti_integer ( fid , 'BL_PBL_PHYSICS' , ibuf , 1 , ierr ) ibuf(1) = cu_physics CALL wrf_put_dom_ti_integer ( fid , 'CU_PHYSICS' , ibuf , 1 , ierr ) ! added netcdf-specific metadata: IF ( ( use_package( io_form ) == IO_NETCDF ) .OR. & ( use_package( io_form ) == IO_PHDF5 ) .OR. & ( use_package( io_form ) == IO_PNETCDF ) ) THEN CALL wrf_put_dom_ti_integer ( fid, 'SURFACE_INPUT_SOURCE', surface_input_source , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'SST_UPDATE', sst_update , 1 , ierr ) #if (EM_CORE == 1) CALL wrf_put_dom_ti_integer ( fid, 'GRID_FDDA', grid_fdda , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'GFDDA_INTERVAL_M', gfdda_interval_m , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'GFDDA_END_H', gfdda_end_h , 1 , ierr ) #endif IF ( switch .EQ. history_only ) THEN CALL wrf_put_dom_ti_integer ( fid, 'UCMCALL', ucmcall , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'FEEDBACK', feedback , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'SMOOTH_OPTION', smooth_option , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'SWRAD_SCAT', swrad_scat , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'W_DAMPING', w_damping , 1 , ierr ) #if (EM_CORE == 1) CALL wrf_put_dom_ti_logical ( fid, 'PD_MOIST', pd_moist , 1 , ierr ) CALL wrf_put_dom_ti_logical ( fid, 'PD_SCALAR', pd_scalar , 1 , ierr ) CALL wrf_put_dom_ti_logical ( fid, 'PD_TKE', pd_tke , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'DIFF_6TH_OPT', diff_6th_opt , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'DIFF_6TH_FACTOR', diff_6th_factor , 1 , ierr ) IF ( grid_fdda == 1 ) THEN CALL wrf_put_dom_ti_real ( fid, 'FGDT', fgdt , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'GUV', guv , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'GT', gt , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'GQ', gq , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'IF_RAMPING', if_ramping , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'DTRAMP_MIN', dtramp_min , 1 , ierr ) ENDIF CALL wrf_put_dom_ti_integer ( fid, 'OBS_NUDGE_OPT', obs_nudge_opt , 1 , ierr ) IF ( obs_nudge_opt == 1 ) THEN CALL wrf_put_dom_ti_real ( fid, 'FDDA_END', fdda_end , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_NUDGE_WIND', obs_nudge_wind , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'OBS_COEF_WIND', obs_coef_wind , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_NUDGE_TEMP', obs_nudge_temp , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'OBS_COEF_TEMP', obs_coef_temp , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_NUDGE_MOIS', obs_nudge_mois , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'OBS_COEF_MOIS', obs_coef_mois , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_NUDGE_PSTR', obs_nudge_pstr , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'OBS_COEF_PSTR', obs_coef_pstr , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_IONF', obs_ionf , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid, 'OBS_IDYNIN', obs_idynin , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid, 'OBS_DTRAMP', obs_dtramp , 1 , ierr ) ENDIF #endif ENDIF ! history_only ENDIF ! added these fields for use by reassembly programs , 010831, JM ! modified these fields so "patch" == "domain" when multi-file output ! formats are not used. 051018, TBH ibuf(1) = MAX(ips,ids) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = ids CALL wrf_put_dom_ti_integer ( fid , 'WEST-EAST_PATCH_START_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(ipe,ide-1) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = ide - 1 CALL wrf_put_dom_ti_integer ( fid , 'WEST-EAST_PATCH_END_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MAX(ips,ids) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = ids CALL wrf_put_dom_ti_integer ( fid , 'WEST-EAST_PATCH_START_STAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(ipe,ide) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = ide CALL wrf_put_dom_ti_integer ( fid , 'WEST-EAST_PATCH_END_STAG' , ibuf , 1 , ierr ) ibuf(1) = MAX(jps,jds) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = jds CALL wrf_put_dom_ti_integer ( fid , 'SOUTH-NORTH_PATCH_START_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(jpe,jde-1) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = jde - 1 CALL wrf_put_dom_ti_integer ( fid , 'SOUTH-NORTH_PATCH_END_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MAX(jps,jds) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = jds CALL wrf_put_dom_ti_integer ( fid , 'SOUTH-NORTH_PATCH_START_STAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(jpe,jde) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = jde CALL wrf_put_dom_ti_integer ( fid , 'SOUTH-NORTH_PATCH_END_STAG' , ibuf , 1 , ierr ) ibuf(1) = MAX(kps,kds) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = kds CALL wrf_put_dom_ti_integer ( fid , 'BOTTOM-TOP_PATCH_START_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(kpe,kde-1) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = kde - 1 CALL wrf_put_dom_ti_integer ( fid , 'BOTTOM-TOP_PATCH_END_UNSTAG' , ibuf , 1 , ierr ) ibuf(1) = MAX(kps,kds) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = kds CALL wrf_put_dom_ti_integer ( fid , 'BOTTOM-TOP_PATCH_START_STAG' , ibuf , 1 , ierr ) ibuf(1) = MIN(kpe,kde) IF ( .NOT. multi_files ( io_form ) ) ibuf(1) = kde CALL wrf_put_dom_ti_integer ( fid , 'BOTTOM-TOP_PATCH_END_STAG' , ibuf , 1 , ierr ) #if (EM_CORE == 1) ibuf(1) = grid%id CALL wrf_put_dom_ti_integer ( fid , 'GRID_ID' , ibuf , 1 , ierr ) ibuf(1) = parent_id CALL wrf_put_dom_ti_integer ( fid , 'PARENT_ID' , ibuf , 1 , ierr ) ibuf(1) = i_parent_start CALL wrf_put_dom_ti_integer ( fid , 'I_PARENT_START' , ibuf , 1 , ierr ) ibuf(1) = j_parent_start CALL wrf_put_dom_ti_integer ( fid , 'J_PARENT_START' , ibuf , 1 , ierr ) ibuf(1) = parent_grid_ratio CALL wrf_put_dom_ti_integer ( fid , 'PARENT_GRID_RATIO' , ibuf , 1 , ierr ) #endif ! end add 010831 JM #if (EM_CORE != 1) CALL wrf_put_dom_ti_real ( fid , 'DX' , config_flags%dx , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'DY' , config_flags%dy , 1 , ierr ) #endif ! Updated by T. Hutchinson to use adaptive time step. CALL wrf_put_dom_ti_real ( fid , 'DT' , grid%dt , 1 , ierr ) ! CALL wrf_put_dom_ti_real ( fid , 'DT' , config%dt , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'CEN_LAT' , config_flags%cen_lat , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'CEN_LON' , config_flags%cen_lon , 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'TRUELAT1', config_flags%truelat1, 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'TRUELAT2', config_flags%truelat2, 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'MOAD_CEN_LAT', config_flags%moad_cen_lat, 1 , ierr ) CALL wrf_put_dom_ti_real ( fid , 'STAND_LON', config_flags%stand_lon, 1 , ierr ) IF ( switch .NE. boundary_only ) THEN #ifdef PLANET ! When writing to restart files, use the values of the instantaneous ! time for determining the values of JULYR, JULDAY, and GMT. If the ! original values in config_flags are used, this assumes that the ! restart simulation will start with an itimestep NE 0. If we use ! the instantaneous time, we can start a restart simulation with a ! different value of delta-t for timestep and still get the clocks ! calendars (and orbital information!) correct. ! ! Current time is still defined from above call to WRF_UTIL_ClockGet CALL WRFU_TimeGet( currentTime, YY=julyr, dayOfYear=julday, H=p_hr, M=p_min, S=p_sec, MS=p_ms, rc=rc) WRITE(wrf_err_message,*)'output_wrf: julyr,julday,hr,min,sec,ms = ',julyr,julday,p_hr,p_min,p_sec,p_ms CALL wrf_debug( 100 , wrf_err_message ) gmt = REAL(p_hr)+REAL(p_min)/60.+REAL(p_sec)/3600.+REAL(p_ms)/3600000. CALL wrf_put_dom_ti_real ( fid , 'GMT' , gmt , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'JULYR' , julyr , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'JULDAY' , julday , 1 , ierr ) #else CALL wrf_put_dom_ti_real ( fid , 'GMT' , config_flags%gmt , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'JULYR' , config_flags%julyr , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'JULDAY' , config_flags%julday , 1 , ierr ) #endif ENDIF #if (NMM_CORE == 1) write(0,*) 'MMINLU would be: ', MMINLU(1:4) MMINLU(1:4)='USGS' write(0,*) 'MMINLU now: ', MMINLU(1:4) #endif CALL wrf_put_dom_ti_integer ( fid , 'MAP_PROJ' , config_flags%map_proj , 1 , ierr ) CALL wrf_put_dom_ti_char ( fid , 'MMINLU', mminlu(1:4) , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'ISWATER' , iswater , 1 , ierr ) ! CALL wrf_put_dom_ti_integer ( fid , 'ISWATER' , config_flags%iswater , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'ISICE' , config_flags%isice , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'ISURBAN' , config_flags%isurban , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'ISOILWATER' , config_flags%isoilwater , 1 , ierr ) ! added these fields for restarting of moving nests, JM CALL wrf_put_dom_ti_integer ( fid , 'I_PARENT_START' , config_flags%i_parent_start , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'J_PARENT_START' , config_flags%j_parent_start , 1 , ierr ) IF ( switch .EQ. boundary_only ) THEN CALL WRFU_TimeIntervalSet( bdy_increment, S=NINT(config_flags%bdyfrq),rc=rc) next_time = currentTime + bdy_increment CALL wrf_timetoa ( next_time, next_datestr ) CALL wrf_put_dom_td_char ( fid , 'THISBDYTIME' , current_date(1:19), current_date(1:19), ierr ) CALL wrf_put_dom_td_char ( fid , 'NEXTBDYTIME' , current_date(1:19), next_datestr(1:19), ierr ) ENDIF ! added grib2-specific metadata: Todd Hutchinson 8/21/2005 IF ( use_package( io_form ) == IO_GRIB2 ) THEN CALL wrf_put_dom_ti_integer ( fid , 'BACKGROUND_PROC_ID' , config_flags%background_proc_id , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'FORECAST_PROC_ID' , config_flags%forecast_proc_id , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'PRODUCTION_STATUS' , config_flags%production_status , 1 , ierr ) CALL wrf_put_dom_ti_integer ( fid , 'COMPRESSION' , config_flags%compression , 1 , ierr ) ENDIF CALL nl_get_adjust_output_times( grid%id, adjust ) current_date_save = current_date #if 1 IF ( switch .EQ. model_input_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_inputout.inc' ) CALL wrf_inputout( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input1_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput1out.inc' ) CALL wrf_auxinput1out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input2_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput2out.inc' ) CALL wrf_auxinput2out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input3_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput3out.inc' ) CALL wrf_auxinput3out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input4_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput4out.inc' ) CALL wrf_auxinput4out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input5_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput5out.inc' ) CALL wrf_auxinput5out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input6_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput6out.inc' ) CALL wrf_auxinput6out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input7_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput7out.inc' ) CALL wrf_auxinput7out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input8_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput8out.inc' ) CALL wrf_auxinput8out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input9_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput9out.inc' ) CALL wrf_auxinput9out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input10_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput10out.inc' ) CALL wrf_auxinput10out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_model_input11_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxinput11out.inc' ) CALL wrf_auxinput11out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. history_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_histout.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( HISTORY_ALARM ), currentTime, startTime, current_date ) CALL wrf_histout( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist1_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist1out' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST1_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist1out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist2_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist2out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST2_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist2out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist3_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist3out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST3_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist3out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist4_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist4out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST4_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist4out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist5_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist5out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST5_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist5out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist6_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist6out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST6_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist6out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist7_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist7out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST7_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist7out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist8_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist8out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST8_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist8out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist9_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist9out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST9_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist9out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist10_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist10out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST10_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist10out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. aux_hist11_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_auxhist11out.inc' ) IF ( adjust ) CALL adjust_io_timestr( grid%io_intervals( AUXHIST11_ALARM ), currentTime, startTime, current_date ) CALL wrf_auxhist11out( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. restart_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_restartout.inc' ) CALL wrf_restartout( fid , grid , config_flags, switch, dryrun, ierr ) ELSE IF ( switch .EQ. boundary_only ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling code in wrf_bdyout.inc' ) CALL wrf_bdyout( fid , grid , config_flags, switch, dryrun, ierr ) ENDIF #else CALL wrf_message ( "ALL I/O DISABLED IN share/module_io_wrf.F") #endif current_date = current_date_save IF ( .NOT. dryrun ) THEN CALL wrf_debug ( 300 , 'output_wrf: calling wrf_iosync ' ) CALL wrf_iosync ( fid , ierr ) CALL wrf_debug ( 300 , 'output_wrf: back from wrf_iosync ' ) ENDIF WRITE(wrf_err_message,*)'output_wrf: end, fid = ',fid CALL wrf_debug( 300 , wrf_err_message ) RETURN END SUBROUTINE output_wrf