!WRF:MEDIATION:IO ! ---principal wrf input routine (called from routines in module_io_domain ) SUBROUTINE input_wrf ( fid , grid , config_flags , switch , ierr ) USE module_domain USE module_state_description USE module_configure USE module_io USE module_io_wrf USE module_date_time USE module_bc_time_utilities USE module_utility IMPLICIT NONE #include #include TYPE(domain) :: grid TYPE(grid_config_rec_type), INTENT(INOUT) :: config_flags INTEGER, INTENT(IN) :: fid INTEGER, INTENT(IN) :: 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 iname(9) INTEGER iordering(3) INTEGER icurrent_date(24) INTEGER i,j,k INTEGER icnt INTEGER ndim INTEGER ilen INTEGER , DIMENSION(3) :: domain_start , domain_end INTEGER , DIMENSION(3) :: memory_start , memory_end INTEGER , DIMENSION(3) :: patch_start , patch_end CHARACTER*256 errmess, currtimestr CHARACTER*40 :: this_datestr, next_datestr CHARACTER*9 NAMESTR INTEGER IBDY, NAMELEN LOGICAL wrf_dm_on_monitor EXTERNAL wrf_dm_on_monitor Type(WRFU_Time) time, currtime CHARACTER*19 new_date CHARACTER*24 base_date CHARACTER*80 fname LOGICAL dryrun INTEGER idt INTEGER itmp INTEGER filestate, ierr3 INTEGER :: ide_compare , jde_compare , kde_compare CHARACTER (len=19) simulation_start_date INTEGER simulation_start_year , & simulation_start_month , & simulation_start_day , & simulation_start_hour , & simulation_start_minute , & simulation_start_second LOGICAL reset_simulation_start REAL dx_compare , dy_compare , dum ! ! ! Core wrf input routine for all input data streams. Part of mediation layer. ! ! Note that WRF IOAPI routines wrf_get_dom_ti_*() do not return values during ! training reads (dryrun). ! ! WRITE(wrf_err_message,*)'input_wrf: begin, fid = ',fid CALL wrf_debug( 300 , wrf_err_message ) ierr = 0 CALL get_ijk_from_grid ( grid , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe ) ! simulation start time is a Singleton maintained by head_grid IF ( ( switch .EQ. model_input_only ) .OR. & ( switch .EQ. restart_only ) ) THEN CALL wrf_get_dom_ti_char ( fid , 'SIMULATION_START_DATE' , simulation_start_date , ierr ) CALL nl_get_reset_simulation_start ( 1, reset_simulation_start ) IF ( ( ierr .EQ. 0 ) .AND. ( .NOT. reset_simulation_start ) ) THEN ! Overwrite simulation start date with metadata. #ifdef PLANET READ ( simulation_start_date , fmt = '(I4,1x,I5,1x,I2,1x,I2,1x,I2)' ) & simulation_start_year, & simulation_start_day, simulation_start_hour, & simulation_start_minute, simulation_start_second simulation_start_month = 0 #else READ ( simulation_start_date , fmt = '(I4,1x,I2,1x,I2,1x,I2,1x,I2,1x,I2)' ) & simulation_start_year, simulation_start_month, & simulation_start_day, simulation_start_hour, & simulation_start_minute, simulation_start_second #endif CALL nl_set_simulation_start_year ( 1 , simulation_start_year ) CALL nl_set_simulation_start_month ( 1 , simulation_start_month ) CALL nl_set_simulation_start_day ( 1 , simulation_start_day ) CALL nl_set_simulation_start_hour ( 1 , simulation_start_hour ) CALL nl_set_simulation_start_minute ( 1 , simulation_start_minute ) CALL nl_set_simulation_start_second ( 1 , simulation_start_second ) IF ( switch .EQ. model_input_only ) THEN WRITE(wrf_err_message,*)fid,' input_wrf, model_input_only: SIMULATION_START_DATE = ', & simulation_start_date(1:19) CALL wrf_debug ( 300 , TRIM(wrf_err_message ) ) ELSE IF ( switch .EQ. restart_only ) THEN WRITE(wrf_err_message,*)fid,' input_wrf, restart_only: SIMULATION_START_DATE = ', & simulation_start_date(1:19) CALL wrf_debug ( 300 , TRIM(wrf_err_message ) ) ENDIF ELSE CALL nl_get_start_year ( 1 , simulation_start_year ) CALL nl_get_start_month ( 1 , simulation_start_month ) CALL nl_get_start_day ( 1 , simulation_start_day ) CALL nl_get_start_hour ( 1 , simulation_start_hour ) CALL nl_get_start_minute ( 1 , simulation_start_minute ) CALL nl_get_start_second ( 1 , simulation_start_second ) CALL nl_set_simulation_start_year ( 1 , simulation_start_year ) CALL nl_set_simulation_start_month ( 1 , simulation_start_month ) CALL nl_set_simulation_start_day ( 1 , simulation_start_day ) CALL nl_set_simulation_start_hour ( 1 , simulation_start_hour ) CALL nl_set_simulation_start_minute ( 1 , simulation_start_minute ) CALL nl_set_simulation_start_second ( 1 , simulation_start_second ) IF ( reset_simulation_start ) THEN CALL wrf_message('input_wrf: forcing SIMULATION_START_DATE = head_grid start time') CALL wrf_message(' due to namelist variable reset_simulation_start') ELSE CALL wrf_message('input_wrf: SIMULATION_START_DATE not available in input') CALL wrf_message('will use head_grid start time from namelist') ENDIF ENDIF ! Initialize derived time quantity in grid%xtime. ! Note that this call is also made in setup_timekeeping(). ! Ugh, what a hack. Simplify all this later... CALL domain_clock_get( grid, minutesSinceSimulationStart=grid%xtime ) ! Note that it is NOT necessary to reset grid%julian here. WRITE(wrf_err_message,*) 'input_wrf: set xtime to ',grid%xtime CALL wrf_debug ( 100, TRIM(wrf_err_message) ) ENDIF ! Test to make sure that the input data is the right size. Do this for input from real/ideal into ! WRF, and from the standard initialization into real. IF ( ( switch .EQ. model_input_only ) .OR. & ( switch .EQ. aux_model_input1_only ) ) THEN ierr = 0 CALL wrf_get_dom_ti_integer ( fid , 'WEST-EAST_GRID_DIMENSION' , ide_compare , 1 , icnt , ierr3 ) ierr = max( ierr, ierr3 ) CALL wrf_get_dom_ti_integer ( fid , 'SOUTH-NORTH_GRID_DIMENSION' , jde_compare , 1 , icnt , ierr3 ) ierr = max( ierr, ierr3 ) CALL wrf_get_dom_ti_integer ( fid , 'BOTTOM-TOP_GRID_DIMENSION' , kde_compare , 1 , icnt , ierr3 ) ierr = max( ierr, ierr3 ) ! IF ( ierr3 .NE. 0 ) CALL wrf_error_fatal( 'wrf_get_dom_ti_integer getting dimension information from dataset' ) IF ( ierr3 .NE. 0 ) CALL wrf_debug( 'wrf_get_dom_ti_integer getting dimension information from dataset' ) #if (EM_CORE == 1) ! Test to make sure that the grid distances are the right size. CALL wrf_get_dom_ti_real ( fid , 'DX' , dx_compare , 1 , icnt , ierr ) CALL wrf_get_dom_ti_real ( fid , 'DY' , dy_compare , 1 , icnt , ierr ) IF ( ( ABS ( dx_compare - config_flags%dx ) .GT. 1.E-5 * dx_compare ) .OR. & ( ABS ( dy_compare - config_flags%dy ) .GT. 1.E-5 * dy_compare ) ) THEN IF ( ( config_flags%polar ) .AND. ( config_flags%grid_id .EQ. 1 ) ) THEN WRITE(wrf_err_message,*)'input_wrf: DX and DY from input file expected to be wrong' CALL wrf_debug ( 1 , wrf_err_message ) ELSE print *,'dx_compare,dy_compare = ',dx_compare,dy_compare CALL wrf_error_fatal( 'DX and DY do not match from the namelist and the input file' ) END IF END IF #endif END IF ! do the check later (see check_if_dryrun below) ! We do not want the CEN_LAT LON values from the boundary file. For 1-way nests ! with ndown, this ends up being the data from the previous coarse domain. IF ( switch .NE. boundary_only ) THEN CALL wrf_get_dom_ti_real ( fid , 'CEN_LAT' , config_flags%cen_lat , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LAT returns ',config_flags%cen_lat CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_cen_lat ( grid%id , config_flags%cen_lat ) CALL wrf_get_dom_ti_real ( fid , 'CEN_LON' , config_flags%cen_lon , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LON returns ',config_flags%cen_lon CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_cen_lon ( grid%id , config_flags%cen_lon ) ELSE CALL wrf_get_dom_ti_real ( fid , 'CEN_LAT' , dum , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LAT returns ',dum CALL wrf_debug ( 300 , wrf_err_message ) CALL wrf_get_dom_ti_real ( fid , 'CEN_LON' , dum , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for CEN_LON returns ',dum CALL wrf_debug ( 300 , wrf_err_message ) END IF CALL wrf_get_dom_ti_real ( fid , 'TRUELAT1' , config_flags%truelat1 , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for TRUELAT1 returns ',config_flags%truelat1 CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_truelat1 ( grid%id , config_flags%truelat1 ) CALL wrf_get_dom_ti_real ( fid , 'TRUELAT2' , config_flags%truelat2 , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for TRUELAT2 returns ',config_flags%truelat2 CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_truelat2 ( grid%id , config_flags%truelat2 ) CALL wrf_get_dom_ti_real ( fid , 'MOAD_CEN_LAT' , config_flags%moad_cen_lat , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for MOAD_CEN_LAT returns ',config_flags%moad_cen_lat CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_moad_cen_lat ( grid%id , config_flags%moad_cen_lat ) CALL wrf_get_dom_ti_real ( fid , 'STAND_LON' , config_flags%stand_lon , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for STAND_LON returns ',config_flags%stand_lon CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_stand_lon ( grid%id , config_flags%stand_lon ) #if ( NMM_CORE != 1 ) ! program_name is defined in module_domain and set in the main program for whatever application ! is using subroutine input_wrf (that is, the subroutine you are looking at here). Data files ! written by SI have P_TOP as a metadata item; the real program and wrf model have it as a ! state variable. This test is to supress non-fatal but confusing messages from the model complaining ! that P_TOP cannot be read from the metadata for this dataset. JM 20040905 ! ! Note, P_TOP is not defined in the NMM core. IF ( program_name(1:7) .EQ. "REAL_EM" ) THEN CALL wrf_get_dom_ti_real ( fid , 'P_TOP' , grid%p_top , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for P_TOP returns ',grid%p_top CALL wrf_debug ( 300 , wrf_err_message ) ENDIF #endif IF ( switch .NE. boundary_only ) THEN CALL wrf_get_dom_ti_real ( fid , 'GMT' , config_flags%gmt , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_real for GMT returns ',config_flags%gmt CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_gmt ( grid%id , config_flags%gmt ) CALL wrf_get_dom_ti_integer ( fid , 'JULYR' , config_flags%julyr , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for JULYR returns ',config_flags%julyr CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_julyr ( grid%id , config_flags%julyr ) CALL wrf_get_dom_ti_integer ( fid , 'JULDAY' , config_flags%julday , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for JULDAY returns ',config_flags%julday CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_julday ( grid%id , config_flags%julday ) ENDIF CALL wrf_get_dom_ti_integer ( fid , 'MAP_PROJ' , config_flags%map_proj , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for MAP_PROJ returns ',config_flags%map_proj CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_map_proj ( grid%id , config_flags%map_proj ) CALL wrf_get_dom_ti_char ( fid , 'MMINLU', mminlu , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_char for MMINLU returns ',mminlu(1:4) CALL wrf_debug ( 300 , wrf_err_message ) CALL nl_set_mminlu ( 1, mminlu(1:4) ) CALL wrf_get_dom_ti_integer ( fid , 'ISWATER' , config_flags%iswater , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISWATER returns ',config_flags%iswater CALL wrf_debug ( 300 , wrf_err_message ) IF ( ierr .NE. 0 ) THEN IF (mminlu == 'UMD') THEN config_flags%iswater = 14 ELSE config_flags%iswater = 16 ENDIF ENDIF CALL nl_set_iswater ( grid%id , config_flags%iswater ) CALL wrf_get_dom_ti_integer ( fid , 'ISICE' , config_flags%isice , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISICE returns ',config_flags%isice CALL wrf_debug ( 300 , wrf_err_message ) IF ( ierr .NE. 0 ) THEN IF (mminlu == 'UMD') THEN config_flags%isice = 14 ELSE config_flags%isice = 24 ENDIF ENDIF CALL nl_set_isice ( grid%id , config_flags%isice ) CALL wrf_get_dom_ti_integer ( fid , 'ISURBAN' , config_flags%isurban , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISURBAN returns ',config_flags%isurban CALL wrf_debug ( 300 , wrf_err_message ) IF ( ierr .NE. 0 ) THEN IF (mminlu == 'UMD') THEN config_flags%isurban = 13 ELSE config_flags%isurban = 1 ENDIF ENDIF CALL nl_set_isurban ( grid%id , config_flags%isurban ) CALL wrf_get_dom_ti_integer ( fid , 'ISOILWATER' , config_flags%isoilwater , 1 , icnt , ierr ) WRITE(wrf_err_message,*)'input_wrf: wrf_get_dom_ti_integer for ISOILWATER returns ',config_flags%isoilwater CALL wrf_debug ( 300 , wrf_err_message ) IF ( ierr .NE. 0 ) THEN config_flags%isoilwater = 14 ENDIF CALL nl_set_isoilwater ( grid%id , config_flags%isoilwater ) #ifdef MOVE_NESTS ! Added these fields for restarting of moving nests, JM ! DANGER and TODO ! It is very important that these be set correctly if they are set at all in here. ! Garbage values will produce unpredictable results, possibly segfaults, in the nesting ! code. Need some integrity checking here or elsewhere in the code to at least check to ! make sure that the istart and jstart values make sense with respect to the nest dimensions ! and the position in the parent domain. CALL wrf_get_dom_ti_integer ( fid , 'I_PARENT_START' , itmp , 1 , icnt, ierr ) IF ( ierr .EQ. 0 .AND. switch .EQ. restart_only ) THEN config_flags%i_parent_start = itmp CALL nl_set_i_parent_start ( grid%id , config_flags%i_parent_start ) ENDIF CALL wrf_get_dom_ti_integer ( fid , 'J_PARENT_START' , itmp , 1 , icnt, ierr ) IF ( ierr .EQ. 0 .AND. switch .EQ. restart_only ) THEN config_flags%j_parent_start = itmp CALL nl_set_j_parent_start ( grid%id , config_flags%j_parent_start ) ENDIF #endif ! If this was not a training read (dry run) check for erroneous values. CALL wrf_inquire_filename ( fid , fname , filestate , ierr ) IF ( ierr /= 0 ) THEN WRITE(wrf_err_message,*)'module_io_wrf: input_wrf: wrf_inquire_filename Status = ',ierr CALL wrf_error_fatal( wrf_err_message ) ENDIF WRITE(wrf_err_message,*)'input_wrf: fid,filestate = ',fid,filestate CALL wrf_debug( 300 , wrf_err_message ) dryrun = ( filestate .EQ. WRF_FILE_OPENED_NOT_COMMITTED ) WRITE(wrf_err_message,*)'input_wrf: dryrun = ',dryrun CALL wrf_debug( 300 , wrf_err_message ) check_if_dryrun : IF ( .NOT. dryrun ) THEN #if (EM_CORE == 1) !KLUDGE - is there a more elegant way to determine "old si" input IF ( ( switch .EQ. model_input_only ) .OR. & ( ( switch .EQ. aux_model_input1_only ) .AND. & ( config_flags%auxinput1_inname(1:8) .EQ. 'wrf_real' ) ) ) THEN ! Test to make sure that the input data is the right size. IF ( ( ide .NE. ide_compare ) .OR. & ( kde .NE. kde_compare ) .OR. & ( jde .NE. jde_compare ) ) THEN WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH: namelist ide,jde,kde=',ide,jde,kde,& '; input data ide,jde,kde=',ide_compare , jde_compare , kde_compare CALL wrf_error_fatal( wrf_err_message ) ENDIF ELSE IF ( switch .EQ. aux_model_input1_only ) THEN ! Test to make sure that the input data is the right size. IF ( ( ide .NE. ide_compare ) .OR. & ( config_flags%num_metgrid_levels .NE. kde_compare ) .OR. & ( jde .NE. jde_compare ) ) THEN WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH: ',& 'namelist ide,jde,num_metgrid_levels=',ide,jde,config_flags%num_metgrid_levels,& '; input data ide,jde,num_metgrid_levels=',ide_compare , jde_compare , kde_compare CALL wrf_error_fatal( wrf_err_message ) ENDIF ENDIF #endif #if (NMM_CORE == 1) IF ( ( switch .EQ. aux_model_input1_only ) .AND. & ( config_flags%auxinput1_inname(1:8) .EQ. 'wrf_real' ) ) THEN CALL wrf_get_dom_ti_integer ( fid , 'BOTTOM-TOP_GRID_DIMSNSION' , kde_compare , 1 , icnt , ierr3 ) ! Test to make sure that the input data is the right size. IF ( ( ide-1 .NE. ide_compare ) .OR. & ( kde .NE. kde_compare ) .OR. & ( jde-1 .NE. jde_compare ) .AND. ierr3 .EQ. 0 ) THEN WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH: namelist ide-1,jde-1,kde=',ide-1,jde-1,kde,& '; input data ide,jde,kde=',ide_compare , jde_compare , kde_compare CALL wrf_debug( 100, wrf_err_message ) ENDIF ELSEIF ( switch .EQ. aux_model_input1_only ) THEN ! assume just WPS in this branch IF ( ( ide-1 .NE. ide_compare ) .OR. & ( config_flags%num_metgrid_levels .NE. kde_compare ) .OR. & ( jde-1 .NE. jde_compare ) .AND. ierr3 .EQ. 0 ) THEN WRITE(wrf_err_message,*)'input_wrf.F: SIZE MISMATCH: ',& 'namelist ide-1,jde-1,num_metgrid_levels=',ide-1,jde-1,config_flags%num_metgrid_levels,& '; input data ide,jde,num_metgrid_levels=',ide_compare , jde_compare , kde_compare IF (ide-1 .eq. ide_compare .AND. jde-1 .EQ. jde_compare) THEN CALL wrf_message(wrf_err_message) CALL wrf_error_fatal( "appears that the vertical dimension is wrong - quitting" ) ELSE CALL wrf_message(wrf_err_message) CALL wrf_error_fatal( "appears that I or J dimensions are wrong - quitting" ) ENDIF ENDIF ENDIF #endif ENDIF check_if_dryrun ! ! This call to wrf_get_next_time will position the dataset over the next time-frame ! in the file and return the current_date, which is used as an argument to the ! read_field routines in the blocks of code included below. Note that we read the ! next time *after* all the meta data has been read. This is only important for the ! WRF internal I/O format because it is order-dependent. Other formats shouldn't care ! about this. ! 3003 continue CALL wrf_get_next_time(fid, current_date , ierr) WRITE(wrf_err_message,*)fid,' input_wrf: wrf_get_next_time current_date: ',current_date(1:19),' Status = ',ierr CALL wrf_debug ( 300 , TRIM(wrf_err_message ) ) IF ( ierr .NE. 0 .AND. ierr .NE. WRF_WARN_NOTSUPPORTED .AND. ierr .NE. WRF_WARN_DRYRUN_READ ) THEN CALL wrf_message ( TRIM(wrf_err_message ) ) IF ( switch .EQ. boundary_only ) THEN WRITE(wrf_err_message,*) ' ... May have run out of valid boundary conditions in file ',TRIM(fname) CALL wrf_error_fatal( TRIM(wrf_err_message) ) ELSE #if ( NMM_CORE != 1 ) WRITE(wrf_err_message,*) '... Could not find matching time in input file ',TRIM(fname) CALL wrf_error_fatal( TRIM(wrf_err_message) ) #endif ENDIF ELSE IF ( ierr .NE. WRF_WARN_NOTSUPPORTED .AND. ierr .NE. WRF_WARN_DRYRUN_READ) THEN ! ! check input time against domain time (which will be start time at beginning, see share/set_timekeeping.F) ! JM 20040511 ! SELECT CASE ( switch ) CASE ( model_input_only, aux_model_input1_only, aux_model_input2_only, & aux_model_input3_only, aux_model_input4_only, aux_model_input5_only, aux_model_input10_only ) #ifdef WRF_CHEM IF( (config_flags%io_style_emissions .eq. 1) .and. & ((switch.eq.aux_model_input4_only) .or. (switch.eq.aux_model_input5_only)) )then CALL wrf_message( "**WARNING** Time in input file not being checked **WARNING**" ) ELSE #endif CALL wrf_atotime( current_date(1:19), time ) CALL domain_clock_get( grid, current_time=currtime, & current_timestr=currtimestr ) #if (DA_CORE != 1) ! Don't perform the check for WRFVAR, as we're not passing the right dates ! around CALL domain_clockprint(150, grid, & 'DEBUG input_wrf(): get CurrTime from clock,') IF ( time .NE. currtime ) THEN WRITE( wrf_err_message , * )'Time in file: ',trim( current_date(1:19) ) CALL wrf_message ( trim(wrf_err_message) ) WRITE( wrf_err_message , * )'Time on domain: ',trim( currtimestr ) CALL wrf_message ( trim(wrf_err_message) ) CALL wrf_message( "**WARNING** Time in input file not equal to time on domain **WARNING**" ) WRITE(wrf_err_message,*) "**WARNING** Trying next time in file ",TRIM(fname)," ..." CALL wrf_message( TRIM(wrf_err_message) ) GOTO 3003 ENDIF #endif #ifdef WRF_CHEM ENDIF #endif CASE DEFAULT END SELECT ENDIF ! set the lbc time interval fields in the domain data structure ! these time values are checked as stopping condition for the while loop in ! latbound_in() defined in share/medation_integrate.F, which is used to ! iterate forward to the correct interval in the input LBC file ! IF ( switch .EQ. boundary_only ) THEN CALL wrf_get_dom_td_char ( fid , 'THISBDYTIME' , current_date(1:19), this_datestr , ierr ) CALL wrf_atotime( this_datestr(1:19), grid%this_bdy_time ) CALL wrf_get_dom_td_char ( fid , 'NEXTBDYTIME' , current_date(1:19), next_datestr , ierr ) CALL wrf_atotime( next_datestr(1:19), grid%next_bdy_time ) ENDIF #if 1 IF ( switch .EQ. model_input_only ) THEN CALL wrf_inputin( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. history_only ) THEN CALL wrf_histin( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input1_only ) THEN CALL wrf_auxinput1in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input2_only ) THEN CALL wrf_auxinput2in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input3_only ) THEN CALL wrf_auxinput3in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input4_only ) THEN CALL wrf_auxinput4in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input5_only ) THEN CALL wrf_auxinput5in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input6_only ) THEN CALL wrf_auxinput6in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input7_only ) THEN CALL wrf_auxinput7in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input8_only ) THEN CALL wrf_auxinput8in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input9_only ) THEN CALL wrf_auxinput9in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input10_only ) THEN CALL wrf_auxinput10in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_model_input11_only ) THEN CALL wrf_auxinput11in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist1_only ) THEN CALL wrf_auxhist1in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist2_only ) THEN CALL wrf_auxhist2in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist3_only ) THEN CALL wrf_auxhist3in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist4_only ) THEN CALL wrf_auxhist4in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist5_only ) THEN CALL wrf_auxhist5in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist6_only ) THEN CALL wrf_auxhist6in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist7_only ) THEN CALL wrf_auxhist7in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist8_only ) THEN CALL wrf_auxhist8in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist9_only ) THEN CALL wrf_auxhist9in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist10_only ) THEN CALL wrf_auxhist10in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. aux_hist11_only ) THEN CALL wrf_auxhist11in( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. restart_only ) THEN CALL wrf_restartin( fid , grid , config_flags , switch , ierr ) ELSE IF ( switch .EQ. boundary_only ) THEN CALL wrf_bdyin( fid , grid , config_flags , switch , ierr ) ENDIF CALL wrf_tsin( grid , ierr ) #else CALL wrf_message ( "ALL I/O DISABLED IN share/module_io_wrf.F") #endif WRITE(wrf_err_message,*)'input_wrf: end, fid = ',fid CALL wrf_debug( 300 , wrf_err_message ) RETURN END SUBROUTINE input_wrf