! !WRF:MEDIATION_LAYER:IO ! #if (DA_CORE != 1) SUBROUTINE med_calc_model_time ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain, domain_clock_get USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_date_time IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data REAL :: time ! this is now handled by with calls to time manager ! time = head_grid%dt * head_grid%total_time_steps ! CALL calc_current_date (grid%id, time) END SUBROUTINE med_calc_model_time SUBROUTINE med_before_solve_io ( grid , config_flags ) ! Driver layer USE module_state_description USE module_domain , ONLY : domain, domain_clock_get USE module_configure , ONLY : grid_config_rec_type USE module_streams ! Model layer USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local INTEGER :: ialarm INTEGER :: rc TYPE(WRFU_Time) :: currTime, startTime #ifdef HWRF !zhang's doing ! TYPE(WRFU_Time) :: CurrTime !zhang new INTEGER :: hr, min, sec, ms,julyr,julday REAL :: GMT !end of zhang's doing #endif CHARACTER*256 :: message ! #if (EM_CORE == 1) CALL WRFU_ClockGet( grid%domain_clock, CurrTime=currTime, StartTime=startTime ) IF( WRFU_AlarmIsRinging( grid%alarms( HISTORY_ALARM ), rc=rc ) .AND. & (grid%dfi_write_dfi_history .OR. grid%dfi_stage == DFI_FST .OR. grid%dfi_opt == DFI_NODFI) ) THEN ! #else ! IF( WRFU_AlarmIsRinging( grid%alarms( HISTORY_ALARM ), rc=rc )) THEN ! #endif IF ( (config_flags%restart) .AND. ( currTime .EQ. startTime ) ) THEN ! output history at beginning of restart if alarm is ringing CALL med_hist_out ( grid , HISTORY_ALARM, config_flags ) ELSE CALL med_hist_out ( grid , HISTORY_ALARM, config_flags ) END IF CALL WRFU_AlarmRingerOff( grid%alarms( HISTORY_ALARM ), rc=rc ) #if (EM_CORE == 1) ELSE IF ( (config_flags%restart) .AND. ( currTime .EQ. startTime ) .AND. & ( config_flags%write_hist_at_0h_rst ) ) THEN ! output history at beginning of restart even if alarm is not ringing CALL med_hist_out ( grid , HISTORY_ALARM, config_flags ) CALL WRFU_AlarmRingerOff( grid%alarms( HISTORY_ALARM ), rc=rc ) #endif ENDIF IF( WRFU_AlarmIsRinging( grid%alarms( INPUTOUT_ALARM ), rc=rc ) ) THEN CALL med_filter_out ( grid , config_flags ) CALL WRFU_AlarmRingerOff( grid%alarms( INPUTOUT_ALARM ), rc=rc ) ENDIF DO ialarm = first_auxhist, last_auxhist IF ( .FALSE.) THEN rc = 1 ! dummy statement ELSE IF( WRFU_AlarmIsRinging( grid%alarms( ialarm ), rc=rc ) ) THEN CALL med_hist_out ( grid , ialarm, config_flags ) CALL WRFU_AlarmRingerOff( grid%alarms( ialarm ), rc=rc ) ENDIF ENDDO DO ialarm = first_auxinput, last_auxinput IF ( .FALSE.) THEN rc = 1 ! dummy statement #ifdef WRF_CHEM ! - Get chemistry data ELSE IF( ialarm .EQ. AUXINPUT5_ALARM .AND. config_flags%chem_opt > 0 ) THEN IF( config_flags%emiss_inpt_opt /= 0 ) THEN IF( WRFU_AlarmIsRinging( grid%alarms( ialarm ), rc=rc ) ) THEN call wrf_debug(15,' CALL med_read_wrf_chem_emiss ') CALL med_read_wrf_chem_emiss ( grid , config_flags ) CALL WRFU_AlarmRingerOff( grid%alarms( ialarm ), rc=rc ) call wrf_debug(15,' Back from CALL med_read_wrf_chem_emiss ') ENDIF ELSE IF( WRFU_AlarmIsRinging( grid%alarms( ialarm ), rc=rc ) ) THEN CALL med_auxinput_in ( grid, ialarm, config_flags ) CALL WRFU_AlarmRingerOff( grid%alarms( ialarm ), rc=rc ) ENDIF ENDIF #endif #if ( EM_CORE == 1 ) ELSE IF( ialarm .EQ. AUXINPUT11_ALARM ) THEN IF( config_flags%obs_nudge_opt .EQ. 1) THEN CALL med_fddaobs_in ( grid , config_flags ) ENDIF #endif ELSE IF( WRFU_AlarmIsRinging( grid%alarms( ialarm ), rc=rc ) ) THEN CALL med_auxinput_in ( grid, ialarm, config_flags ) WRITE ( message , FMT='(A,i3,A,i3)' ) 'Input data processed for aux input ' , & ialarm - first_auxinput + 1, ' for domain ',grid%id CALL wrf_debug ( 0 , message ) CALL WRFU_AlarmRingerOff( grid%alarms( ialarm ), rc=rc ) ENDIF ENDDO ! - RESTART OUTPUT CALL WRFU_ClockGet( grid%domain_clock, CurrTime=currTime, StartTime=startTime ) IF ( ( WRFU_AlarmIsRinging( grid%alarms( RESTART_ALARM ), rc=rc ) ) .AND. & ( currTime .NE. startTime ) ) THEN #ifdef HWRF !zhang's doing CALL domain_clock_get( grid, current_time=CurrTime ) CALL WRFU_TimeGet( CurrTime, YY=julyr, dayOfYear=julday, H=hr, M=min, S=sec, MS=ms, rc=rc) gmt=hr+real(min)/60.+real(sec)/3600.+real(ms)/(1000*3600) if (grid%id .eq. 2) call med_namelist_out ( grid , config_flags ) !end of zhang's doing #endif IF ( grid%id .EQ. 1 ) THEN ! Only the parent initiates the restart writing. Otherwise, different ! domains may be written out at different times and with different ! time stamps in the file names. CALL med_restart_out ( grid , config_flags ) ENDIF CALL WRFU_AlarmRingerOff( grid%alarms( RESTART_ALARM ), rc=rc ) ELSE CALL WRFU_AlarmRingerOff( grid%alarms( RESTART_ALARM ), rc=rc ) ENDIF ! - Look for boundary data after writing out history and restart files CALL med_latbound_in ( grid , config_flags ) RETURN END SUBROUTINE med_before_solve_io SUBROUTINE med_after_solve_io ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Compute time series variables CALL calc_ts(grid) #if WRFMEAS ! L. Fita, LMD. May 2014 CALL calc_lidar(grid) #endif RETURN END SUBROUTINE med_after_solve_io SUBROUTINE med_pre_nest_initial ( parent , newid , config_flags ) ! Driver layer #ifdef MOVE_NESTS USE module_domain , ONLY : domain, domain_clock_get #else USE module_domain , ONLY : domain #endif USE module_utility , ONLY : WRFU_Time, WRFU_TimeEQ USE module_timing USE module_io_domain USE module_configure , ONLY : grid_config_rec_type ! Model layer IMPLICIT NONE ! Arguments TYPE(domain) , POINTER :: parent INTEGER, INTENT(IN) :: newid TYPE (grid_config_rec_type) , INTENT(INOUT) :: config_flags TYPE (grid_config_rec_type) :: nest_config_flags ! Local INTEGER :: itmp, fid, ierr, icnt CHARACTER*256 :: rstname, message, timestr TYPE(WRFU_Time) :: strt_time, cur_time #ifdef MOVE_NESTS CALL domain_clock_get( parent, current_timestr=timestr, start_time=strt_time, current_time=cur_time ) CALL construct_filename2a ( rstname , config_flags%rst_inname , newid , 2 , timestr ) IF ( config_flags%restart .AND. WRFU_TimeEQ(cur_time,strt_time) ) THEN WRITE(message,*)'RESTART: nest, opening ',TRIM(rstname),' for reading header information only' CALL wrf_message ( message ) ! note that the parent pointer is not strictly correct, but nest is not allocated yet and ! only the i/o communicator fields are used from "parent" (and those are dummies in current ! implementation. CALL open_r_dataset ( fid , TRIM(rstname) , parent , config_flags , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , '("program wrf: error opening ",A32," for reading")') TRIM(rstname) CALL WRF_ERROR_FATAL ( message ) ENDIF ! update the values of parent_start that were read in from the namelist (nest may have moved) CALL wrf_get_dom_ti_integer ( fid , 'I_PARENT_START' , itmp , 1 , icnt, ierr ) IF ( ierr .EQ. 0 ) THEN config_flags%i_parent_start = itmp CALL nl_set_i_parent_start ( newid , config_flags%i_parent_start ) ENDIF CALL wrf_get_dom_ti_integer ( fid , 'J_PARENT_START' , itmp , 1 , icnt, ierr ) IF ( ierr .EQ. 0 ) THEN config_flags%j_parent_start = itmp CALL nl_set_j_parent_start ( newid , config_flags%j_parent_start ) ENDIF CALL close_dataset ( fid , config_flags , "DATASET=RESTART" ) ENDIF #endif END SUBROUTINE med_pre_nest_initial SUBROUTINE med_nest_initial ( parent , nest , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get , get_ijk_from_grid USE module_timing USE module_io_domain USE module_configure , ONLY : grid_config_rec_type USE module_utility ! Model layer IMPLICIT NONE ! Arguments TYPE(domain) , POINTER :: parent, nest TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags TYPE (grid_config_rec_type) :: nest_config_flags ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor TYPE(WRFU_Time) :: strt_time, cur_time CHARACTER * 80 :: rstname , timestr CHARACTER * 256 :: message INTEGER :: fid INTEGER :: ierr INTEGER :: i , j, rc INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe #if (EM_CORE == 1) #ifdef MOVE_NESTS TYPE (WRFU_TimeInterval) :: interval, TimeSinceStart INTEGER :: vortex_interval , n #endif INTEGER :: save_itimestep ! This is a kludge, correct fix will ! involve integrating the time-step ! counting into the time manager. ! JM 20040604 REAL, ALLOCATABLE, DIMENSION(:,:) :: save_acsnow & ,save_acsnom & ,save_cuppt & ,save_rainc & ,save_rainnc & ,save_sfcevp & ,save_sfcrunoff & ,save_udrunoff INTERFACE SUBROUTINE med_interp_domain ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_interp_domain SUBROUTINE med_initialdata_input_ptr( nest , config_flags ) USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type TYPE (grid_config_rec_type), INTENT(IN) :: config_flags TYPE(domain) , POINTER :: nest END SUBROUTINE med_initialdata_input_ptr SUBROUTINE med_nest_feedback ( parent , nest , config_flags ) USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type TYPE (domain), POINTER :: nest , parent TYPE (grid_config_rec_type), INTENT(IN) :: config_flags END SUBROUTINE med_nest_feedback SUBROUTINE start_domain ( grid , allowed_to_move ) USE module_domain , ONLY : domain TYPE(domain) :: grid LOGICAL, INTENT(IN) :: allowed_to_move END SUBROUTINE start_domain SUBROUTINE blend_terrain ( ter_interpolated , ter_input , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe REAL , DIMENSION(ims:ime,jms:jme) :: ter_interpolated REAL , DIMENSION(ims:ime,jms:jme) :: ter_input END SUBROUTINE blend_terrain SUBROUTINE copy_3d_field ( ter_interpolated , ter_input , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe REAL , DIMENSION(ims:ime,jms:jme) :: ter_interpolated REAL , DIMENSION(ims:ime,jms:jme) :: ter_input END SUBROUTINE copy_3d_field SUBROUTINE input_terrain_rsmas ( grid , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) USE module_domain , ONLY : domain TYPE ( domain ) :: grid INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe END SUBROUTINE input_terrain_rsmas SUBROUTINE wrf_tsin ( grid , ierr ) USE module_domain TYPE ( domain ), INTENT(INOUT) :: grid INTEGER, INTENT(INOUT) :: ierr END SUBROUTINE wrf_tsin #if WRFMEAS ! L. Fita, LMD. May 2014 SUBROUTINE wrf_lidarin ( grid , ierr ) USE module_domain TYPE ( domain ), INTENT(INOUT) :: grid INTEGER, INTENT(INOUT) :: ierr END SUBROUTINE wrf_lidarin #endif END INTERFACE CALL domain_clock_get( parent, start_time=strt_time, current_time=cur_time ) IF ( .not. ( config_flags%restart .AND. strt_time .EQ. cur_time ) ) THEN nest%first_force = .true. ! initialize nest with interpolated data from the parent nest%imask_nostag = 1 nest%imask_xstag = 1 nest%imask_ystag = 1 nest%imask_xystag = 1 #ifdef MOVE_NESTS parent%nest_pos = parent%ht where ( parent%nest_pos .gt. 0. ) parent%nest_pos = parent%nest_pos + 500. ! make a cliff #endif ! initialize some other constants (and 1d arrays in z) CALL init_domain_constants ( parent, nest ) ! fill in entire fine grid domain with interpolated coarse grid data CALL med_interp_domain( parent, nest ) ! De-reference dimension information stored in the grid data structure. CALL get_ijk_from_grid ( nest , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe ) ! get the nest config flags CALL model_to_grid_config_rec ( nest%id , model_config_rec , nest_config_flags ) IF ( nest_config_flags%input_from_file .OR. nest_config_flags%input_from_hires ) THEN WRITE(message,FMT='(A,I2,A)') '*** Initializing nest domain #',nest%id,& ' from an input file. ***' CALL wrf_debug ( 0 , message ) ! Store horizontally interpolated terrain-based fields in temp location if the input ! data is from a pristine, un-cycled model input file. For the original topo from ! the real program, we will need to adjust the terrain (and a couple of other base- ! state fields) so reflect the smoothing and matching between the parent and child ! domains. CALL copy_3d_field ( nest%ht_int , nest%ht , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) CALL copy_3d_field ( nest%mub_fine , nest%mub , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) CALL copy_3d_field ( nest%phb_fine , nest%phb , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) IF ( nest_config_flags%input_from_file ) THEN ! read input from dataset CALL med_initialdata_input_ptr( nest , nest_config_flags ) ELSE IF ( nest_config_flags%input_from_hires ) THEN ! read in high res topography CALL input_terrain_rsmas ( nest, & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) ENDIF ! save elevation and mub for temp and qv adjustment CALL copy_3d_field ( nest%ht_fine , nest%ht , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) CALL copy_3d_field ( nest%mub_save , nest%mub , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) ! blend parent and nest fields: terrain, mub, and phb. The ht, mub and phb are used in start_domain. IF ( nest%save_topo_from_real == 1 ) THEN CALL blend_terrain ( nest%ht_int , nest%ht , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) CALL blend_terrain ( nest%mub_fine , nest%mub , & ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 ) CALL blend_terrain ( nest%phb_fine , nest%phb , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) ENDIF ! adjust temp and qv CALL adjust_tempqv ( nest%mub , nest%mub_save , & nest%znw , nest%p_top , & nest%t_2 , nest%p , nest%moist(ims,kms,jms,P_QV) , & ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe ) ELSE WRITE(message,FMT='(A,I2,A,I2,A)') '*** Initializing nest domain #',nest%id,& ' by horizontally interpolating parent domain #' ,parent%id, & '. ***' CALL wrf_debug ( 0 , message ) #if (DA_CORE != 1) ! For nests without an input file, we still need to read time series locations ! from the tslist file CALL wrf_tsin( nest , ierr ) #if WRFMEAS ! L. Fita, LMD. May 2014 CALL wrf_lidarin( nest , ierr ) #endif #endif END IF ! feedback, mostly for this new terrain, but it is the safe thing to do parent%ht_coarse = parent%ht CALL med_nest_feedback ( parent , nest , config_flags ) ! set some other initial fields, fill out halos, base fields; re-do parent due ! to new terrain elevation from feedback nest%imask_nostag = 1 nest%imask_xstag = 1 nest%imask_ystag = 1 nest%imask_xystag = 1 nest%press_adj = .TRUE. CALL start_domain ( nest , .TRUE. ) ! kludge: 20040604 CALL get_ijk_from_grid ( parent , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe ) ALLOCATE( save_acsnow(ims:ime,jms:jme) ) ALLOCATE( save_acsnom(ims:ime,jms:jme) ) ALLOCATE( save_cuppt(ims:ime,jms:jme) ) ALLOCATE( save_rainc(ims:ime,jms:jme) ) ALLOCATE( save_rainnc(ims:ime,jms:jme) ) ALLOCATE( save_sfcevp(ims:ime,jms:jme) ) ALLOCATE( save_sfcrunoff(ims:ime,jms:jme) ) ALLOCATE( save_udrunoff(ims:ime,jms:jme) ) save_acsnow = parent%acsnow save_acsnom = parent%acsnom save_cuppt = parent%cuppt save_rainc = parent%rainc save_rainnc = parent%rainnc save_sfcevp = parent%sfcevp save_sfcrunoff = parent%sfcrunoff save_udrunoff = parent%udrunoff save_itimestep = parent%itimestep parent%imask_nostag = 1 parent%imask_xstag = 1 parent%imask_ystag = 1 parent%imask_xystag = 1 parent%press_adj = .FALSE. CALL start_domain ( parent , .TRUE. ) parent%acsnow = save_acsnow parent%acsnom = save_acsnom parent%cuppt = save_cuppt parent%rainc = save_rainc parent%rainnc = save_rainnc parent%sfcevp = save_sfcevp parent%sfcrunoff = save_sfcrunoff parent%udrunoff = save_udrunoff parent%itimestep = save_itimestep DEALLOCATE( save_acsnow ) DEALLOCATE( save_acsnom ) DEALLOCATE( save_cuppt ) DEALLOCATE( save_rainc ) DEALLOCATE( save_rainnc ) DEALLOCATE( save_sfcevp ) DEALLOCATE( save_sfcrunoff ) DEALLOCATE( save_udrunoff ) ! end of kludge: 20040604 ELSE ! restart IF ( wrf_dm_on_monitor() ) CALL start_timing CALL domain_clock_get( nest, current_timestr=timestr ) CALL construct_filename2a ( rstname , config_flags%rst_inname , nest%id , 2 , timestr ) WRITE(message,*)'RESTART: nest, opening ',TRIM(rstname),' for reading' CALL wrf_message ( message ) CALL model_to_grid_config_rec ( nest%id , model_config_rec , nest_config_flags ) CALL open_r_dataset ( fid , TRIM(rstname) , nest , nest_config_flags , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , '("program wrf: error opening ",A32," for reading")') TRIM(rstname) CALL WRF_ERROR_FATAL ( message ) ENDIF CALL input_restart ( fid, nest , nest_config_flags , ierr ) CALL close_dataset ( fid , nest_config_flags , "DATASET=RESTART" ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("processing restart file for domain ",I8)' ) nest%id CALL end_timing ( TRIM(message) ) ENDIF nest%imask_nostag = 1 nest%imask_xstag = 1 nest%imask_ystag = 1 nest%imask_xystag = 1 nest%press_adj = .FALSE. CALL start_domain ( nest , .TRUE. ) #ifndef MOVE_NESTS ! this doesn't need to be done for moving nests, since ht_coarse is part of the restart parent%ht_coarse = parent%ht #else # if 1 ! In case of a restart, assume that the movement has already occurred in the previous ! run and turn off the alarm for the starting time. We must impose a requirement that the ! run be restarted on-interval. Test for that and print a warning if it isn't. ! Note, simulation_start, etc. should be available as metadata in the restart file, and ! these will have gotten, set, and retrievable as rconfig data been set in share/input_wrf.F ! using the nl_get routines below. JM 20060314 CALL nl_get_vortex_interval ( nest%id , vortex_interval ) CALL WRFU_TimeIntervalSet( interval, M=vortex_interval, rc=rc ) CALL domain_clock_get( nest, timeSinceSimulationStart=TimeSinceStart ) n = WRFU_TimeIntervalDIVQuot( TimeSinceStart , interval ) IF ( ( interval * n ) .NE. TimeSinceStart ) THEN CALL wrf_message('WARNING: Restart is not on a vortex_interval time boundary.') CALL wrf_message('The code will work but results will not agree exactly with a ') CALL wrf_message('a run that was done straight-through, without a restart.') ENDIF !! In case of a restart, assume that the movement has already occurred in the previous !! run and turn off the alarm for the starting time. We must impose a requirement that the !! run be restarted on-interval. Test for that and print a warning if it isn't. !! Note, simulation_start, etc. should be available as metadata in the restart file, and !! these will have gotten, set, and retrievable as rconfig data been set in share/input_wrf.F !! using the nl_get routines below. JM 20060314 ! CALL WRFU_AlarmRingerOff( nest%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) # else ! this code, currently commented out, is an attempt to have the ! vortex centering interval be set according to simulation start ! time (rather than run start time) in case of a restart. But ! there are other problems (the WRF clock is currently using ! run-start as it's start time) so the alarm still would not fire ! right if the model were started off-interval. Leave it here and ! enable when the clock is changed to use sim-start for start time. ! JM 20060314 CALL nl_get_vortex_interval ( nest%id , vortex_interval ) CALL WRFU_TimeIntervalSet( interval, M=vortex_interval, rc=rc ) CALL domain_clock_get( nest, timeSinceSimulationStart=TimeSinceStart ) CALL domain_alarm_create( nest, COMPUTE_VORTEX_CENTER_ALARM, interval ) CALL WRFU_AlarmEnable( nest%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) n = WRFU_TimeIntervalDIVQuot( TimeSinceStart , interval ) IF ( ( interval * n ) .EQ. TimeSinceStart ) THEN CALL WRFU_AlarmRingerOn( nest%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) ELSE CALL WRFU_AlarmRingerOff( nest%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) ENDIF # endif #endif ENDIF #endif #if (NMM_CORE == 1 && NMM_NEST == 1) !=================================================================================== ! Added for the NMM core. This is gopal's doing. !=================================================================================== INTERFACE SUBROUTINE med_nest_egrid_configure ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_nest_egrid_configure SUBROUTINE med_construct_egrid_weights ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_construct_egrid_weights SUBROUTINE BASE_STATE_PARENT ( Z3d,Q3d,T3d,PSTD, & PINT,T,Q,CWM, & FIS,QSH,PD,PDTOP,PTOP, & ETA1,ETA2, & DETA1,DETA2, & IDS,IDE,JDS,JDE,KDS,KDE, & IMS,IME,JMS,JME,KMS,KME, & IPS,IPE,JPS,JPE,KPS,KPE ) ! USE MODULE_MODEL_CONSTANTS IMPLICIT NONE INTEGER, INTENT(IN ) :: IDS,IDE,JDS,JDE,KDS,KDE INTEGER, INTENT(IN ) :: IMS,IME,JMS,JME,KMS,KME INTEGER, INTENT(IN ) :: IPS,IPE,JPS,JPE,KPS,KPE REAL, INTENT(IN ) :: PDTOP,PTOP REAL, DIMENSION(KMS:KME), INTENT(IN) :: ETA1,ETA2,DETA1,DETA2 REAL, DIMENSION(IMS:IME,JMS:JME), INTENT(IN) :: FIS,PD,QSH REAL, DIMENSION(IMS:IME,JMS:JME,KMS:KME), INTENT(IN) :: PINT,T,Q,CWM REAL, DIMENSION(KMS:KME) , INTENT(OUT):: PSTD REAL, DIMENSION(IMS:IME,JMS:JME,KMS:KME), INTENT(OUT):: Z3d,Q3d,T3d END SUBROUTINE BASE_STATE_PARENT SUBROUTINE NEST_TERRAIN ( nest, config_flags ) USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type TYPE(domain) , POINTER :: nest TYPE(grid_config_rec_type) , INTENT(IN) :: config_flags END SUBROUTINE NEST_TERRAIN SUBROUTINE med_interp_domain ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_interp_domain SUBROUTINE med_init_domain_constants_nmm ( parent, nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_init_domain_constants_nmm SUBROUTINE start_domain ( grid , allowed_to_move ) USE module_domain , ONLY : domain TYPE(domain) :: grid LOGICAL, INTENT(IN) :: allowed_to_move END SUBROUTINE start_domain END INTERFACE #ifdef HWRF !zhang's doing test if (config_flags%restart .or. nest%analysis) then nest%first_force = .true. else nest%first_force = .false. endif !end of zhang's doing !zhang's doing for analysis option IF(.not. nest%analysis .and. .not. config_flags%restart)THEN ! initialize for cold-start #endif !---------------------------------------------------------------------------- ! initialize nested domain configurations including setting up wbd,sbd, etc !---------------------------------------------------------------------------- CALL med_nest_egrid_configure ( parent , nest ) !------------------------------------------------------------------------- ! initialize lat-lons and determine weights !------------------------------------------------------------------------- CALL med_construct_egrid_weights ( parent, nest ) ! ! ! De-reference dimension information stored in the grid data structure. ! ! From the hybrid, construct the GPMs on isobaric surfaces and then interpolate those ! values on to the nested domain. 23 standard prssure levels are assumed here. For ! levels below ground, lapse rate atmosphere is assumed before the use of vertical ! spline interpolation ! IDS = parent%sd31 IDE = parent%ed31 JDS = parent%sd32 JDE = parent%ed32 KDS = parent%sd33 KDE = parent%ed33 IMS = parent%sm31 IME = parent%em31 JMS = parent%sm32 JME = parent%em32 KMS = parent%sm33 KME = parent%em33 IPS = parent%sp31 IPE = parent%ep31 JPS = parent%sp32 JPE = parent%ep32 KPS = parent%sp33 KPE = parent%ep33 CALL BASE_STATE_PARENT ( parent%Z3d,parent%Q3d,parent%T3d,parent%PSTD, & parent%PINT,parent%T,parent%Q,parent%CWM, & parent%FIS,parent%QSH,parent%PD,parent%pdtop,parent%pt, & parent%ETA1,parent%ETA2, & parent%DETA1,parent%DETA2, & IDS,IDE,JDS,JDE,KDS,KDE, & IMS,IME,JMS,JME,KMS,KME, & IPS,IPE,JPS,JPE,KPS,KPE ) ! ! Set new terrain. Since some terrain adjustment is done within the interpolation calls ! at the next step, the new terrain over the nested domain has to be called here. ! IDS = nest%sd31 IDE = nest%ed31 JDS = nest%sd32 JDE = nest%ed32 KDS = nest%sd33 KDE = nest%ed33 IMS = nest%sm31 IME = nest%em31 JMS = nest%sm32 JME = nest%em32 KMS = nest%sm33 KME = nest%em33 IPS = nest%sp31 IPE = nest%ep31 JPS = nest%sp32 JPE = nest%ep32 KPS = nest%sp33 KPE = nest%ep33 CALL NEST_TERRAIN ( nest, config_flags ) ! Initialize some more constants required especially for terrain adjustment processes nest%PSTD=parent%PSTD nest%KZMAX=KME parent%KZMAX=KME ! just for safety DO J = JPS, MIN(JPE,JDE-1) DO I = IPS, MIN(IPE,IDE-1) nest%fis(I,J)=nest%hres_fis(I,J) ENDDO ENDDO !-------------------------------------------------------------------------- ! interpolation call !-------------------------------------------------------------------------- ! initialize nest with interpolated data from the parent nest%imask_nostag = 0 nest%imask_xstag = 0 nest%imask_ystag = 0 nest%imask_xystag = 0 #ifdef HWRF CALL med_interp_domain( parent, nest ) #else CALL domain_clock_get( parent, start_time=strt_time, current_time=cur_time ) IF ( .not. ( config_flags%restart .AND. strt_time .EQ. cur_time ) ) THEN CALL med_interp_domain( parent, nest ) ELSE CALL domain_clock_get( nest, current_timestr=timestr ) CALL construct_filename2a ( rstname , config_flags%rst_inname , nest%id , 2 , timestr ) WRITE(message,*)'RESTART: nest, opening ',TRIM(rstname),' for reading' CALL wrf_message ( message ) CALL model_to_grid_config_rec ( nest%id , model_config_rec , nest_config_flags ) CALL open_r_dataset ( fid , TRIM(rstname) , nest , nest_config_flags , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , '("program wrf: error opening ",A32," for reading")') TRIM(rstname) CALL WRF_ERROR_FATAL ( message ) ENDIF CALL input_restart ( fid, nest , nest_config_flags , ierr ) CALL close_dataset ( fid , nest_config_flags , "DATASET=RESTART" ) END IF #endif !------------------------------------------------------------------------------ ! set up constants (module_initialize_real.F for nested nmm domain) !----------------------------------------------------------------------------- CALL med_init_domain_constants_nmm ( parent, nest ) !-------------------------------------------------------------------------------------- ! set some other initial fields, fill out halos, etc. !-------------------------------------------------------------------------------------- CALL start_domain ( nest, .TRUE.) #ifdef HWRF !zhang's doing: else for analysis or restart option !zhang test CALL nl_set_isice ( nest%id , config_flags%isice ) CALL nl_set_isoilwater ( nest%id , config_flags%isoilwater ) CALL nl_set_isurban ( nest%id , config_flags%isurban ) CALL nl_set_gmt ( nest%id , config_flags%gmt ) CALL nl_set_julyr (nest%id, config_flags%julyr) CALL nl_set_julday ( nest%id , config_flags%julday ) !zhang test ends CALL med_analysis_out ( nest, config_flags ) ELSE !------------------------------------------------------------------------------------ ! read in analysis (equivalent of restart for the nested domains) !------------------------------------------------------------------------------------ !zhang's doing IF( nest%analysis .and. .not. config_flags%restart)THEN CALL med_analysis_in ( nest, config_flags ) ELSE IF (config_flags%restart)THEN CALL med_restart_in ( nest, config_flags ) ENDIF !end of zhang's doing !---------------------------------------------------------------------------- ! initialize nested domain configurations including setting up wbd,sbd, etc !---------------------------------------------------------------------------- CALL med_nest_egrid_configure ( parent , nest ) !------------------------------------------------------------------------- ! initialize lat-lons and determine weights (overwrite for safety) !------------------------------------------------------------------------- CALL med_construct_egrid_weights ( parent, nest ) nest%imask_nostag = 0 nest%imask_xstag = 0 nest%imask_ystag = 0 nest%imask_xystag = 0 !------------------------------------------------------------------------------ ! set up constants (module_initialize_real.F for nested nmm domain) !----------------------------------------------------------------------------- CALL med_init_domain_constants_nmm ( parent, nest ) !-------------------------------------------------------------------------------------- ! set some other initial fields, fill out halos, etc. (again, safety sake only) ! Also, in order to accomodate some physics initialization after nest move, set ! analysis back to false for future use !-------------------------------------------------------------------------------------- CALL start_domain ( nest, .TRUE.) nest%analysis=.FALSE. CALL nl_set_analysis( nest%id, nest%analysis) ENDIF #endif !=================================================================================== ! Added for the NMM core. End of gopal's doing. !=================================================================================== #endif RETURN END SUBROUTINE med_nest_initial SUBROUTINE init_domain_constants ( parent , nest ) USE module_domain , ONLY : domain IMPLICIT NONE TYPE(domain) :: parent , nest #if (EM_CORE == 1) CALL init_domain_constants_em ( parent, nest ) #endif END SUBROUTINE init_domain_constants SUBROUTINE med_nest_force ( parent , nest ) ! Driver layer USE module_domain , ONLY : domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer ! External USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) , POINTER :: parent, nest ! Local INTEGER :: idum1 , idum2 , fid, rc #if (NMM_CORE == 1 && NMM_NEST == 1) INTEGER :: IDS,IDE,JDS,JDE,KDS,KDE ! gopal INTEGER :: IMS,IME,JMS,JME,KMS,KME INTEGER :: ITS,ITE,JTS,JTE,KTS,KTE #endif INTERFACE SUBROUTINE med_force_domain ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_force_domain SUBROUTINE med_interp_domain ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_interp_domain #if (NMM_CORE == 1 && NMM_NEST == 1) !=================================================================================== ! Added for the NMM core. This is gopal's doing. !=================================================================================== SUBROUTINE BASE_STATE_PARENT ( Z3d,Q3d,T3d,PSTD, & PINT,T,Q,CWM, & FIS,QSH,PD,PDTOP,PTOP, & ETA1,ETA2, & DETA1,DETA2, & IDS,IDE,JDS,JDE,KDS,KDE, & IMS,IME,JMS,JME,KMS,KME, & ITS,ITE,JTS,JTE,KTS,KTE ) ! USE MODULE_MODEL_CONSTANTS IMPLICIT NONE INTEGER, INTENT(IN ) :: IDS,IDE,JDS,JDE,KDS,KDE INTEGER, INTENT(IN ) :: IMS,IME,JMS,JME,KMS,KME INTEGER, INTENT(IN ) :: ITS,ITE,JTS,JTE,KTS,KTE REAL, INTENT(IN ) :: PDTOP,PTOP REAL, DIMENSION(KMS:KME), INTENT(IN) :: ETA1,ETA2,DETA1,DETA2 REAL, DIMENSION(IMS:IME,JMS:JME), INTENT(IN) :: FIS,PD,QSH REAL, DIMENSION(IMS:IME,JMS:JME,KMS:KME), INTENT(IN) :: PINT,T,Q,CWM REAL, DIMENSION(KMS:KME) , INTENT(OUT):: PSTD REAL, DIMENSION(IMS:IME,JMS:JME,KMS:KME), INTENT(OUT):: Z3d,Q3d,T3d END SUBROUTINE BASE_STATE_PARENT #endif END INTERFACE #if (NMM_CORE == 1 && NMM_NEST == 1) ! De-reference dimension information stored in the grid data structure. IDS = parent%sd31 IDE = parent%ed31 JDS = parent%sd32 JDE = parent%ed32 KDS = parent%sd33 KDE = parent%ed33 IMS = parent%sm31 IME = parent%em31 JMS = parent%sm32 JME = parent%em32 KMS = parent%sm33 KME = parent%em33 ITS = parent%sp31 ITE = parent%ep31 JTS = parent%sp32 JTE = parent%ep32 KTS = parent%sp33 KTE = parent%ep33 CALL BASE_STATE_PARENT ( parent%Z3d,parent%Q3d,parent%T3d,parent%PSTD, & parent%PINT,parent%T,parent%Q,parent%CWM, & parent%FIS,parent%QSH,parent%PD,parent%pdtop,parent%pt, & parent%ETA1,parent%ETA2, & parent%DETA1,parent%DETA2, & IDS,IDE,JDS,JDE,KDS,KDE, & IMS,IME,JMS,JME,KMS,KME, & ITS,ITE,JTS,JTE,KTS,KTE ) #endif IF ( .NOT. WRFU_ClockIsStopTime(nest%domain_clock ,rc=rc) ) THEN ! initialize nest with interpolated data from the parent nest%imask_nostag = 1 nest%imask_xstag = 1 nest%imask_ystag = 1 nest%imask_xystag = 1 CALL med_force_domain( parent, nest ) ENDIF ! might also have calls here to do input from a file into the nest RETURN END SUBROUTINE med_nest_force SUBROUTINE med_nest_feedback ( parent , nest , config_flags ) ! Driver layer USE module_domain , ONLY : domain , get_ijk_from_grid USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer ! External USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) , POINTER :: parent, nest TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local INTEGER :: idum1 , idum2 , fid, rc INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe INTEGER i,j INTERFACE SUBROUTINE med_feedback_domain ( parent , nest ) USE module_domain , ONLY : domain TYPE(domain) , POINTER :: parent , nest END SUBROUTINE med_feedback_domain END INTERFACE ! feedback nest to the parent IF ( .NOT. WRFU_ClockIsStopTime(nest%domain_clock ,rc=rc) .AND. & config_flags%feedback .NE. 0 ) THEN CALL med_feedback_domain( parent, nest ) #ifdef MOVE_NESTS CALL get_ijk_from_grid ( parent , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe ) ! gopal's change- added ifdef #if ( EM_CORE == 1 ) DO j = jps, MIN(jpe,jde-1) DO i = ips, MIN(ipe,ide-1) IF ( parent%nest_pos(i,j) .EQ. 9021000. ) THEN parent%nest_pos(i,j) = parent%ht(i,j)*1.5 + 1000. ELSE IF ( parent%ht(i,j) .NE. 0. ) THEN parent%nest_pos(i,j) = parent%ht(i,j) + 500. ELSE parent%nest_pos(i,j) = 0. ENDIF ENDDO ENDDO #endif #endif END IF RETURN END SUBROUTINE med_nest_feedback SUBROUTINE med_last_solve_io ( grid , config_flags ) ! Driver layer USE module_state_description USE module_domain , ONLY : domain, domain_clock_get USE module_configure , ONLY : grid_config_rec_type USE module_utility USE module_streams ! Model layer IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local INTEGER :: rc #ifdef HWRF !zhang's doing TYPE(WRFU_Time) :: CurrTime !zhang new INTEGER :: hr, min, sec, ms,julyr,julday REAL :: GMT !end of zhang's doing #endif ! #if (EM_CORE == 1) IF( WRFU_AlarmIsRinging( grid%alarms( HISTORY_ALARM ), rc=rc ) .AND. & (grid%dfi_write_dfi_history .OR. grid%dfi_stage == DFI_FST .OR. grid%dfi_opt == DFI_NODFI) ) THEN ! #else ! IF( WRFU_AlarmIsRinging( grid%alarms( HISTORY_ALARM ), rc=rc )) THEN ! #endif CALL med_hist_out ( grid , HISTORY_ALARM , config_flags ) ENDIF IF( WRFU_AlarmIsRinging( grid%alarms( INPUTOUT_ALARM ), rc=rc ) ) THEN CALL med_filter_out ( grid , config_flags ) ENDIF ! registry-generated file of the following ! IF( WRFU_AlarmIsRinging( grid%alarms( AUXHIST1_ALARM ), rc=rc ) ) THEN ! CALL med_hist_out ( grid , AUXHIST1_ALARM , config_flags ) ! ENDIF #include "med_last_solve_io.inc" ! - RESTART OUTPUT IF( WRFU_AlarmIsRinging( grid%alarms( RESTART_ALARM ), rc=rc ) ) THEN #ifdef HWRF !zhang's doing !zhang new CALL ESMF_TimeGet( grid%current_time, YY=julyr, dayOfYear=julday, H=hr, M=min, S=sec, MS=ms, rc=rc) CALL domain_clock_get( grid, current_time=CurrTime ) CALL WRFU_TimeGet( CurrTime, YY=julyr, dayOfYear=julday, H=hr, M=min, S=sec, MS=ms, rc=rc) gmt=hr+real(min)/60.+real(sec)/3600.+real(ms)/(1000*3600) if (grid%id .eq. 2) call med_namelist_out ( grid , config_flags ) !end of zhang's doing #endif IF ( grid%id .EQ. 1 ) THEN CALL med_restart_out ( grid , config_flags ) ENDIF ENDIF ! Write out time series CALL write_ts( grid ) #if WRFMEAS ! L. Fita, LMD. May 2014 CALL write_lidar( grid ) #endif RETURN END SUBROUTINE med_last_solve_io #endif !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #ifdef HWRF !================================================================================== ! Added for the NMM 3d var. This is simply an extension of med_restart_out. ! The file is simply called wrfanal***. This is gopal's doing !=================================================================================== ! SUBROUTINE med_analysis_in ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain, domain_clock_get USE module_io_domain USE module_timing ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities !zhang USE WRF_ESMF_MOD IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: rstname , outname INTEGER :: fid , rid CHARACTER (LEN=256) :: message INTEGER :: ierr INTEGER :: myproc !zhang old TYPE(ESMF_Time) :: CurrTime TYPE(WRFU_Time) :: CurrTime CHARACTER*80 :: timestr IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF rid=grid%id !zhang's doing CALL ESMF_ClockGet( grid%domain_clock, CurrTime=CurrTime, rc=ierr ) !zhang's doing CALL wrf_timetoa ( CurrTime, timestr ) CALL domain_clock_get( grid, current_timestr=timestr ) CALL construct_filename2a ( rstname ,config_flags%anl_outname, grid%id , 2 , timestr ) WRITE( message , '("med_analysis_in: opening ",A," for reading")' ) TRIM ( rstname ) CALL wrf_debug( 1 , message ) CALL open_r_dataset ( rid, TRIM(rstname), grid , & config_flags , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN ! CALL WRF_message( message ) CALL WRF_ERROR_FATAL('NESTED DOMAIN ERROR: FOR ANALYSIS SET TO TRUE, YOU NEED wrfanal FILE') ENDIF CALL input_restart ( rid, grid , config_flags , ierr ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Reading restart for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) END IF CALL close_dataset ( rid , config_flags , "DATASET=RESTART" ) RETURN END SUBROUTINE med_analysis_in !========================================================================================================= !========================================================================================================= SUBROUTINE med_analysis_out ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain, domain_clock_get USE module_io_domain USE module_timing ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities !zhang USE WRF_ESMF_MOD IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: rstname , outname INTEGER :: fid , rid CHARACTER (LEN=256) :: message INTEGER :: ierr INTEGER :: myproc !zhang TYPE(ESMF_Time) :: CurrTime TYPE(WRFU_Time) :: CurrTime CHARACTER*80 :: timestr IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF rid=grid%id !zhang's doing CALL ESMF_ClockGet( grid%domain_clock, CurrTime=CurrTime, rc=ierr ) !zhang's doing CALL wrf_timetoa ( CurrTime, timestr ) CALL domain_clock_get( grid, current_timestr=timestr ) CALL construct_filename2a ( rstname ,config_flags%anl_outname, grid%id , 2 , timestr ) WRITE( message , '("med_analysis_out: opening ",A," for writing")' ) TRIM ( rstname ) CALL wrf_debug( 1 , message ) CALL open_w_dataset ( rid, TRIM(rstname), grid , & config_flags , output_restart , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN CALL WRF_message( message ) ENDIF CALL output_restart ( rid, grid , config_flags , ierr ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Writing restart for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) END IF CALL close_dataset ( rid , config_flags , "DATASET=RESTART" ) RETURN END SUBROUTINE med_analysis_out #endif RECURSIVE SUBROUTINE med_restart_out ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: rstname , outname INTEGER :: fid , rid, kid CHARACTER (LEN=256) :: message INTEGER :: ierr INTEGER :: myproc CHARACTER*80 :: timestr TYPE (grid_config_rec_type) :: kid_config_flags IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF ! take this out - no effect - LPC ! rid=grid%id !zhang's doing ! write out this domains restart file first CALL domain_clock_get( grid, current_timestr=timestr ) CALL construct_filename2a ( rstname , config_flags%rst_outname , grid%id , 2 , timestr ) WRITE( message , '("med_restart_out: opening ",A," for writing")' ) TRIM ( rstname ) CALL wrf_debug( 1 , message ) CALL open_w_dataset ( rid, TRIM(rstname), grid , & config_flags , output_restart , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN CALL WRF_message( message ) ENDIF CALL output_restart ( rid, grid , config_flags , ierr ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Writing restart for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) END IF CALL close_dataset ( rid , config_flags , "DATASET=RESTART" ) ! call recursively for children, (if any) DO kid = 1, max_nests IF ( ASSOCIATED( grid%nests(kid)%ptr ) ) THEN CALL model_to_grid_config_rec ( grid%nests(kid)%ptr%id , model_config_rec , kid_config_flags ) CALL med_restart_out ( grid%nests(kid)%ptr , kid_config_flags ) ENDIF ENDDO RETURN END SUBROUTINE med_restart_out !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #ifdef HWRF !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !zhang's doing SUBROUTINE med_restart_in ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain, domain_clock_get USE module_io_domain USE module_timing ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: rstname , outname INTEGER :: fid , rid CHARACTER (LEN=256) :: message INTEGER :: ierr INTEGER :: myproc !zhang old TYPE(ESMF_Time) :: CurrTime TYPE(WRFU_Time) :: CurrTime CHARACTER*80 :: timestr IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF rid=grid%id !zhang's doing CALL ESMF_ClockGet( grid%domain_clock, CurrTime=CurrTime, rc=ierr ) !zhang's doing CALL wrf_timetoa ( CurrTime, timestr ) CALL domain_clock_get( grid, current_timestr=timestr ) CALL construct_filename2a ( rstname ,config_flags%rst_outname, grid%id , 2 , timestr ) WRITE( message , '("med_restart_in: opening ",A," for reading")' ) TRIM ( rstname ) CALL wrf_debug( 1 , message ) CALL open_r_dataset ( rid, TRIM(rstname), grid , & config_flags , "DATASET=RESTART", ierr ) IF ( ierr .NE. 0 ) THEN ! CALL WRF_message( message ) CALL WRF_ERROR_FATAL('NESTED DOMAIN ERROR: FOR ANALYSIS SET TO TRUE, YOU NEED wrfanal FILE') ENDIF CALL input_restart ( rid, grid , config_flags , ierr ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Reading restart for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) END IF CALL close_dataset ( rid , config_flags , "DATASET=RESTART" ) RETURN END SUBROUTINE med_restart_in !end of zhang's doing #endif SUBROUTINE med_hist_out ( grid , stream, config_flags ) ! Driver layer USE module_domain , ONLY : domain USE module_timing USE module_io_domain USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags INTEGER , INTENT(IN) :: stream ! Local LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: fname, n2 CHARACTER (LEN=256) :: message INTEGER :: ierr IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF IF ( stream .LT. first_history .OR. stream .GT. last_auxhist ) THEN WRITE(message,*)'med_hist_out: invalid history stream ',stream CALL wrf_error_fatal( message ) ENDIF SELECT CASE( stream ) CASE ( HISTORY_ALARM ) CALL open_hist_w( grid, config_flags, stream, HISTORY_ALARM, & config_flags%history_outname, grid%oid, & output_history, fname, n2, ierr ) CALL output_history ( grid%oid, grid , config_flags , ierr ) ! registry-generated selections and calls top open_hist_w for aux streams #include "med_hist_out_opens.inc" END SELECT WRITE(message,*)'med_hist_out: opened ',TRIM(fname),' as ',TRIM(n2) CALL wrf_debug( 1, message ) grid%nframes(stream) = grid%nframes(stream) + 1 SELECT CASE( stream ) CASE ( HISTORY_ALARM ) IF ( grid%nframes(stream) >= config_flags%frames_per_outfile ) THEN CALL close_dataset ( grid%oid , config_flags , n2 ) grid%oid = 0 grid%nframes(stream) = 0 ENDIF ! registry-generated selections and calls top close_dataset for aux streams #include "med_hist_out_closes.inc" END SELECT IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Writing ",A30," for domain ",I8)' )TRIM(fname),grid%id CALL end_timing ( TRIM(message) ) END IF RETURN END SUBROUTINE med_hist_out #if (DA_CORE != 1) SUBROUTINE med_fddaobs_in ( grid , config_flags ) USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type IMPLICIT NONE TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags CALL wrf_fddaobs_in( grid, config_flags ) RETURN END SUBROUTINE med_fddaobs_in #endif SUBROUTINE med_auxinput_in ( grid , stream, config_flags ) ! Driver layer USE module_domain , ONLY : domain USE module_io_domain ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags INTEGER , INTENT(IN) :: stream ! Local CHARACTER (LEN=256) :: message INTEGER :: ierr IF ( stream .LT. first_auxinput .OR. stream .GT. last_auxinput ) THEN WRITE(message,*)'med_auxinput_in: invalid input stream ',stream CALL wrf_error_fatal( message ) ENDIF grid%nframes(stream) = grid%nframes(stream) + 1 SELECT CASE( stream ) ! registry-generated file of calls to open filename ! CASE ( AUXINPUT1_ALARM ) ! CALL open_aux_u( grid, config_flags, stream, AUXINPUT1_ALARM, & ! config_flags%auxinput1_inname, grid%auxinput1_oid, & ! input_auxinput1, ierr ) ! CALL input_auxinput1 ( grid%auxinput1_oid, grid , config_flags , ierr ) #include "med_auxinput_in.inc" END SELECT SELECT CASE( stream ) ! registry-generated selections and calls top close_dataset for aux streams #include "med_auxinput_in_closes.inc" END SELECT RETURN END SUBROUTINE med_auxinput_in SUBROUTINE med_filter_out ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags LOGICAL, EXTERNAL :: wrf_dm_on_monitor CHARACTER*80 :: rstname , outname INTEGER :: fid , rid CHARACTER (LEN=256) :: message INTEGER :: ierr INTEGER :: myproc CHARACTER*80 :: timestr IF ( config_flags%write_input ) THEN IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF CALL domain_clock_get( grid, current_timestr=timestr ) CALL construct_filename2a ( outname , config_flags%input_outname , grid%id , 2 , timestr ) WRITE ( message , '("med_filter_out 1: opening ",A," for writing. ")') TRIM ( outname ) CALL wrf_debug( 1, message ) CALL open_w_dataset ( fid, TRIM(outname), grid , & config_flags , output_input , "DATASET=INPUT", ierr ) IF ( ierr .NE. 0 ) THEN CALL wrf_error_fatal( message ) ENDIF IF ( ierr .NE. 0 ) THEN CALL wrf_error_fatal( message ) ENDIF CALL output_input ( fid, grid , config_flags , ierr ) CALL close_dataset ( fid , config_flags , "DATASET=INPUT" ) IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("Writing filter output for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) END IF ENDIF RETURN END SUBROUTINE med_filter_out SUBROUTINE med_latbound_in ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get, head_grid USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities USE module_utility IMPLICIT NONE #include ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor LOGICAL :: lbc_opened INTEGER :: idum1 , idum2 , ierr , open_status , fid, rc REAL :: bfrq CHARACTER (LEN=256) :: message CHARACTER (LEN=80) :: bdyname Type (WRFU_Time ) :: startTime, stopTime, currentTime Type (WRFU_TimeInterval ) :: stepTime integer myproc,i,j,k #include CALL wrf_debug ( 200 , 'in med_latbound_in' ) ! #if (EM_CORE == 1) ! Avoid trying to re-read the boundary conditions if we are doing DFI integration ! and do not expect to find boundary conditions for the current time IF ( (grid%dfi_opt .EQ. DFI_DDFI .OR. grid%dfi_opt .EQ. DFI_TDFI) .AND. grid%dfi_stage .EQ. DFI_FWD ) RETURN ! #endif IF ( grid%id .EQ. 1 .AND. config_flags%specified .AND. config_flags%io_form_boundary .GT. 0 ) THEN CALL domain_clock_get( grid, current_time=currentTime, & start_time=startTime, & stop_time=stopTime, & time_step=stepTime ) IF ( ( lbc_read_time( currentTime ) ) .AND. & ( currentTime + stepTime .GE. stopTime ) .AND. & ( currentTime .NE. startTime ) ) THEN CALL wrf_debug( 100 , 'med_latbound_in: Skipping attempt to read lateral boundary file during last time step ' ) ELSE IF ( WRFU_AlarmIsRinging( grid%alarms( BOUNDARY_ALARM ), rc=rc ) ) THEN CALL wrf_debug ( 100 , 'in med_latbound_in preparing to read' ) CALL WRFU_AlarmRingerOff( grid%alarms( BOUNDARY_ALARM ), rc=rc ) IF ( wrf_dm_on_monitor() ) CALL start_timing ! typically a wouldn't be part of the bdy_inname, so just pass a dummy CALL construct_filename2a ( bdyname , config_flags%bdy_inname , grid%id , 2 , 'dummydate' ) CALL wrf_inquire_opened(grid%lbc_fid , TRIM(bdyname) , open_status , ierr ) IF ( open_status .EQ. WRF_FILE_OPENED_FOR_READ ) THEN lbc_opened = .TRUE. ELSE lbc_opened = .FALSE. ENDIF CALL wrf_dm_bcast_bytes ( lbc_opened , LWORDSIZE ) IF ( .NOT. lbc_opened ) THEN CALL construct_filename1 ( bdyname , 'wrfbdy' , grid%id , 2 ) WRITE(message,*)'Opening: ',TRIM(bdyname) CALL wrf_debug(100,TRIM(message)) CALL open_r_dataset ( grid%lbc_fid, TRIM(bdyname) , grid , config_flags , "DATASET=BOUNDARY", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message, * ) 'med_latbound_in: error opening ',TRIM(bdyname), ' for reading. IERR = ',ierr CALL WRF_ERROR_FATAL( message ) ENDIF ELSE CALL wrf_debug( 100 , bdyname // 'already opened' ) ENDIF CALL wrf_debug( 100 , 'med_latbound_in: calling input_boundary ' ) CALL input_boundary ( grid%lbc_fid, grid , config_flags , ierr ) ! #if (EM_CORE == 1) IF ( (config_flags%dfi_opt .NE. DFI_NODFI) .AND. (head_grid%dfi_stage .NE. DFI_FST) ) THEN CALL wrf_debug( 100 , 'med_latbound_in: closing boundary file ' ) CALL close_dataset ( grid%lbc_fid , config_flags , "DATASET=BOUNDARY" ) END IF ! #endif CALL domain_clock_get( grid, current_time=currentTime ) DO WHILE (currentTime .GE. grid%next_bdy_time ) ! next_bdy_time is set by input_boundary from bdy file CALL wrf_debug( 100 , 'med_latbound_in: calling input_boundary ' ) CALL input_boundary ( grid%lbc_fid, grid , config_flags , ierr ) ENDDO CALL WRFU_AlarmSet( grid%alarms( BOUNDARY_ALARM ), RingTime=grid%next_bdy_time, rc=rc ) IF ( ierr .NE. 0 .and. ierr .NE. WRF_WARN_NETCDF ) THEN WRITE( message, * ) 'med_latbound_in: error reading ',TRIM(bdyname), ' IERR = ',ierr CALL WRF_ERROR_FATAL( message ) ENDIF IF ( currentTime .EQ. grid%this_bdy_time ) grid%dtbc = 0. IF ( wrf_dm_on_monitor() ) THEN WRITE ( message , FMT = '("processing lateral boundary for domain ",I8)' ) grid%id CALL end_timing ( TRIM(message) ) ENDIF ENDIF ENDIF RETURN END SUBROUTINE med_latbound_in SUBROUTINE med_setup_step ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type ! Model layer IMPLICIT NONE ! ! !The driver layer routine integrate() calls this mediation layer routine !prior to initiating a time step on the domain specified by the argument !grid. This provides the model-layer contributor an opportunity to make !any pre-time-step initializations that pertain to a particular model !domain. In WRF, this routine is used to call !set_scalar_indices_from_config for the specified domain. ! ! ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local INTEGER :: idum1 , idum2 CALL set_scalar_indices_from_config ( grid%id , idum1 , idum2 ) RETURN END SUBROUTINE med_setup_step SUBROUTINE med_endup_step ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain USE module_configure , ONLY : grid_config_rec_type, model_config_rec ! Model layer IMPLICIT NONE ! ! !The driver layer routine integrate() calls this mediation layer routine !prior to initiating a time step on the domain specified by the argument !grid. This provides the model-layer contributor an opportunity to make !any pre-time-step initializations that pertain to a particular model !domain. In WRF, this routine is used to call !set_scalar_indices_from_config for the specified domain. ! ! ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(OUT) :: config_flags ! Local INTEGER :: idum1 , idum2 IF ( grid%id .EQ. 1 ) THEN ! turn off the restart flag after the first mother-domain step is finished model_config_rec%restart = .FALSE. config_flags%restart = .FALSE. CALL nl_set_restart(1, .FALSE.) ENDIF RETURN END SUBROUTINE med_endup_step SUBROUTINE open_aux_u ( grid , config_flags, stream, alarm_id, & auxinput_inname, oid, insub, ierr ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags INTEGER , INTENT(IN) :: stream INTEGER , INTENT(IN) :: alarm_id CHARACTER*(*) , INTENT(IN) :: auxinput_inname INTEGER , INTENT(INOUT) :: oid EXTERNAL insub INTEGER , INTENT(OUT) :: ierr ! Local CHARACTER*80 :: fname, n2 CHARACTER (LEN=256) :: message CHARACTER*80 :: timestr TYPE(WRFU_Time) :: ST,CT LOGICAL :: adjust IF ( stream .LT. first_stream .OR. stream .GT. last_stream ) THEN WRITE(message,*)'open_aux_u: invalid input stream ',stream CALL wrf_error_fatal( message ) ENDIF ierr = 0 IF ( oid .eq. 0 ) THEN CALL domain_clock_get( grid, current_time=CT, start_time=ST, & current_timestr=timestr ) CALL nl_get_adjust_input_times( grid%id, adjust ) IF ( adjust ) THEN CALL adjust_io_timestr( grid%io_intervals( alarm_id ), CT, ST, timestr ) ENDIF CALL construct_filename2a ( fname , auxinput_inname, & grid%id , 2 , timestr ) IF ( stream .EQ. 10 ) THEN WRITE(n2,'("DATASET=AUXINPUT10")') ELSE IF ( stream .EQ. 11 ) THEN WRITE(n2,'("DATASET=AUXINPUT11")') ELSE IF ( stream .GE. 10 ) THEN WRITE(n2,'("DATASET=AUXINPUT",I2)')stream-first_input ELSE WRITE(n2,'("DATASET=AUXINPUT",I1)')stream-first_input ENDIF WRITE ( message , '("open_aux_u : opening ",A," for reading. ")') TRIM ( fname ) CALL wrf_debug( 1, message ) ! ! !Open_u_dataset is called rather than open_r_dataset to allow interfaces !that can do blending or masking to update an existing field. (MCEL IO does this). !No effect for other interfaces; open_u_dataset is equivalent to open_r_dataset !in those cases. ! ! CALL open_u_dataset ( oid, TRIM(fname), grid , & config_flags , insub , n2, ierr ) ENDIF IF ( ierr .NE. 0 ) THEN WRITE ( message , '("open_aux_u : error opening ",A," for reading. ",I3)') & TRIM ( fname ), ierr CALL wrf_message( message ) ENDIF RETURN END SUBROUTINE open_aux_u SUBROUTINE open_hist_w ( grid , config_flags, stream, alarm_id, & hist_outname, oid, outsub, fname, n2, ierr ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags INTEGER , INTENT(IN) :: stream INTEGER , INTENT(IN) :: alarm_id CHARACTER*(*) , INTENT(IN) :: hist_outname INTEGER , INTENT(INOUT) :: oid EXTERNAL outsub CHARACTER*(*) , INTENT(OUT) :: fname, n2 INTEGER , INTENT(OUT) :: ierr ! Local INTEGER :: len_n2 CHARACTER (LEN=256) :: message CHARACTER*80 :: timestr TYPE(WRFU_Time) :: ST,CT LOGICAL :: adjust IF ( stream .LT. first_history .OR. stream .GT. last_history ) THEN WRITE(message,*)'open_hist_w: invalid history stream ',stream CALL wrf_error_fatal( message ) ENDIF ierr = 0 ! Note that computation of fname and n2 are outside of the oid IF statement ! since they are OUT args and may be used by callers even if oid/=0. CALL domain_clock_get( grid, current_time=CT, start_time=ST, & current_timestr=timestr ) CALL nl_get_adjust_output_times( grid%id, adjust ) IF ( adjust ) THEN CALL adjust_io_timestr( grid%io_intervals( alarm_id ), CT, ST, timestr ) ENDIF CALL construct_filename2a ( fname , hist_outname, & grid%id , 2 , timestr ) IF ( stream .EQ. history_only ) THEN WRITE(n2,'("DATASET=HISTORY")') ELSE IF ( stream .GE. 10 ) THEN WRITE(n2,'("DATASET=AUXHIST",I2)')stream-first_history ELSE WRITE(n2,'("DATASET=AUXHIST",I1)')stream-first_history ENDIF #if (DA_CORE == 1) len_n2 = LEN_TRIM(n2) WRITE(n2(len_n2+1:len_n2+19),'(",REAL_OUTPUT_SIZE=4")') #endif IF ( oid .eq. 0 ) THEN WRITE ( message , '("open_hist_w : opening ",A," for writing. ")') TRIM ( fname ) CALL wrf_debug( 1, message ) ! ! !Open_u_dataset is called rather than open_r_dataset to allow interfaces !that can do blending or masking to update an existing field. (MCEL IO does this). !No effect for other interfaces; open_u_dataset is equivalent to open_r_dataset !in those cases. ! ! CALL open_w_dataset ( oid, TRIM(fname), grid , & config_flags , outsub , n2, ierr ) ENDIF IF ( ierr .NE. 0 ) THEN WRITE ( message , '("open_hist_w : error opening ",A," for writing. ",I3)') & TRIM ( fname ), ierr CALL wrf_message( message ) ENDIF RETURN END SUBROUTINE open_hist_w !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #ifdef WRF_CHEM SUBROUTINE med_read_wrf_chem_input ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , config_flags%auxinput12_inname , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_input: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput12_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput12_oid , config_flags , "DATASET=AUXINPUT12" ) endif CALL open_r_dataset ( grid%auxinput12_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT12", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_input error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_input: Read chemistry from wrfout at time ',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput12' ) CALL input_auxinput12 ( grid%auxinput12_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput12_oid , config_flags , "DATASET=AUXINPUT12" ) ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_input: exit' ) END SUBROUTINE med_read_wrf_chem_input !------------------------------------------------------------------------ ! Chemistry emissions input control. Three options are available and are ! set via the namelist variable io_style_emissions: ! ! 0 = Emissions are not read in from a file. They will contain their ! default values, which can be set in the Registry. ! (Intended for debugging of chem code) ! ! 1 = Emissions are read in from two 12 hour files that are cycled. ! With this choice, auxinput5_inname should be set to ! the value "wrfchemi_hhZ_d". ! ! 2 = Emissions are read in from files identified by date and that have ! a length defined by frames_per_auxinput5. Both ! auxinput5_inname should be set to ! "wrfchemi_d_". !------------------------------------------------------------------------ SUBROUTINE med_read_wrf_chem_emiss ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid ! TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags TYPE (grid_config_rec_type) :: config_flags Type (WRFU_Time ) :: stopTime, currentTime Type (WRFU_TimeInterval ) :: stepTime ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid INTEGER :: ihr, ihrdiff, i REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include CALL model_to_grid_config_rec ( grid%id , model_config_rec , config_flags ) ! This "if" should be commented out when using emission files for nested ! domains. Also comment out the "ENDIF" line noted below. ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_time=currentTime, & current_timestr=current_date_char, & stop_time=stopTime, & time_step=stepTime ) time = float(grid%itimestep) * grid%dt !--- ! io_style_emissions option 0: no emissions read in... !--- if( config_flags%io_style_emissions == 0 ) then ! Do nothing. !--- ! io_style_emissions option 1: cycle through two 12 hour input files... !--- else if( config_flags%io_style_emissions == 1 ) then tupdate = mod( time, (12. * 3600.) ) read(current_date_char(12:13),'(I2)') ihr ihr = MOD(ihr,24) ihrdiff = 0 IF( tupdate .LT. grid%dt ) THEN tupdate = 0. ENDIF IF( ihr .EQ. 00 .OR. ihr .EQ. 12 ) THEN tupdate = 0. ENDIF IF( currentTime + stepTime .GE. stopTime .AND. & grid%auxinput5_oid .NE. 0 ) THEN CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) tupdate = 1. ENDIF ! write(message,FMT='(A,F10.1,A)') ' EMISSIONS UPDATE TIME ',time,TRIM(current_date_char(12:13)) ! CALL wrf_message( TRIM(message) ) IF ( tupdate .EQ. 0. .AND. ihr .LT. 12 ) THEN ihrdiff = ihr CALL construct_filename1 ( inpname , 'wrfchemi_00z' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput5_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) endif CALL open_r_dataset ( grid%auxinput5_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT5", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_emissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF ELSE IF ( tupdate .EQ. 0. .AND. ihr .GE. 12 ) THEN ihrdiff = ihr - 12 CALL construct_filename1 ( inpname , 'wrfchemi_12z' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput5_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) endif CALL open_r_dataset ( grid%auxinput5_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT5", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_emissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF ENDIF WRITE( message, '(A,2F10.1)' ) ' HOURLY EMISSIONS UPDATE TIME ',time,mod(time,3600.) CALL wrf_message( TRIM(message) ) ! ! hourly updates to emissions IF ( ( mod( time, 3600. ) .LT. grid%dt ) .AND. & ( currentTime + stepTime .LT. stopTime ) ) THEN ! IF ( wrf_dm_on_monitor() ) CALL start_timing WRITE(message,'(A,A)')'mediation_integrate: med_read_wrf_chem_emissions: Read emissions for time ',TRIM(current_date_char) CALL wrf_message( TRIM(message) ) IF ( tupdate .EQ. 0. .AND. ihrdiff .GT. 0) THEN IF( ihrdiff .GT. 12) THEN WRITE(message,'(A)')'mediation_integrate: med_read_wrf_chem_emissions: Error in emissions time, skipping all times in file ' CALL wrf_message( TRIM(message) ) ENDIF DO i=1,ihrdiff WRITE(message,'(A,I4)')'mediation_integrate: med_read_wrf_chem_emissions: Skip emissions ',i CALL wrf_message( TRIM(message) ) CALL input_auxinput5 ( grid%auxinput5_oid, grid , config_flags , ierr ) ENDDO ENDIF CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput5' ) CALL input_auxinput5 ( grid%auxinput5_oid, grid , config_flags , ierr ) ELSE CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_emissions: Do not read emissions' ) ENDIF !--- ! io_style_emissions option 2: use dated emission files whose length is ! set via frames_per_auxinput5... !--- else if( config_flags%io_style_emissions == 2 ) then WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Read emissions for time ',TRIM(current_date_char) CALL wrf_message( TRIM(message) ) ! ! Code to read hourly emission files... ! if( grid%auxinput5_oid == 0 ) then CALL construct_filename2a(inpname , grid%emi_inname, grid%id , 2, current_date_char) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) CALL open_r_dataset ( grid%auxinput5_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT5", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_emissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF end if ! ! Read the emissions data. ! CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput5' ) CALL input_auxinput5 ( grid%auxinput5_oid, grid , config_flags , ierr ) ! ! If reached the indicated number of frames in the emissions file, close it. ! grid%emissframes = grid%emissframes + 1 IF ( grid%emissframes >= config_flags%frames_per_auxinput5 ) THEN CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) grid%emissframes = 0 grid%auxinput5_oid = 0 ENDIF !--- ! unknown io_style_emissions option... !--- else call wrf_error_fatal("Unknown emission style selected via io_style_emissions.") end if ! The following line should be commented out when using emission files ! for nested domains. Also comment out the "if" noted above. ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_emissions: exit' ) END SUBROUTINE med_read_wrf_chem_emiss !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE med_read_wrf_chem_bioemiss ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , 'wrfbiochemi' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_bioemissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput6_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput6_oid , config_flags , "DATASET=AUXINPUT6" ) endif CALL open_r_dataset ( grid%auxinput6_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT6", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_bioemissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_bioemissions: Read biogenic emissions at time ',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput6' ) CALL input_auxinput6 ( grid%auxinput6_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput6_oid , config_flags , "DATASET=AUXINPUT6" ) ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_bioemissions: exit' ) END SUBROUTINE med_read_wrf_chem_bioemiss !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE med_read_wrf_chem_emissopt4 ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , 'wrfchemi' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput5_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) endif CALL open_r_dataset ( grid%auxinput5_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT5", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_emissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_emissions: Read biogenic emissions at time ',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput5' ) CALL input_auxinput5 ( grid%auxinput5_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput5_oid , config_flags , "DATASET=AUXINPUT5" ) ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_emissions: exit' ) END SUBROUTINE med_read_wrf_chem_emissopt4 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE med_read_wrf_chem_dms_emiss ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , 'wrfchemi_dms' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_dms_emiss: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput7_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput7_oid , config_flags , "DATASET=AUXINPUT7" ) endif CALL open_r_dataset ( grid%auxinput7_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT7", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_dms_emiss: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_dms_emiss: Read dms reference fields',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput7' ) CALL input_auxinput7 ( grid%auxinput7_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput7_oid , config_flags , "DATASET=AUXINPUT7" ) ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_dms_emiss: exit' ) END SUBROUTINE med_read_wrf_chem_dms_emiss !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE med_read_wrf_chem_gocart_bg ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , 'wrfchemi_gocart_bg' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_gocart_bg: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput8_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput8_oid , config_flags , "DATASET=AUXINPUT8" ) endif CALL open_r_dataset ( grid%auxinput8_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT8", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_gocart_bg: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_gocart_bg: Read gocart_bg at time ',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (100 , 'mediation_integrate: calling input_auxinput8' ) CALL input_auxinput8 ( grid%auxinput8_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput8_oid , config_flags , "DATASET=AUXINPUT8" ) ! ! CALL wrf_global_to_patch_real ( backg_no3_io , grid%backg_no3 , grid%domdesc, ' ' , 'xyz' , & ! ids, ide-1 , jds , jde-1 , kds , kde-1, & ! ims, ime , jms , jme , kms , kme , & ! ips, ipe , jps , jpe , kps , kpe ) ! ! ENDIF CALL wrf_debug (100 , 'mediation_integrate: med_read_wrf_chem_gocart_bg: exit' ) END SUBROUTINE med_read_wrf_chem_gocart_bg SUBROUTINE med_read_wrf_chem_emissopt3 ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain , domain_clock_get USE module_io_domain USE module_timing USE module_configure , ONLY : grid_config_rec_type ! Model layer USE module_bc_time_utilities #ifdef DM_PARALLEL USE module_dm #endif USE module_date_time USE module_utility IMPLICIT NONE ! Arguments TYPE(domain) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data LOGICAL, EXTERNAL :: wrf_dm_on_monitor INTEGER :: ierr, efid REAL :: time, tupdate real, allocatable :: dumc0(:,:,:) CHARACTER (LEN=256) :: message, current_date_char, date_string CHARACTER (LEN=80) :: inpname #include ! IF ( grid%id .EQ. 1 ) THEN CALL domain_clock_get( grid, current_timestr=current_date_char ) CALL construct_filename1 ( inpname , 'wrffirechemi' , grid%id , 2 ) WRITE(message,*)'mediation_integrate: med_read_wrf_chem_fireemissions: Open file ',TRIM(inpname) CALL wrf_message( TRIM(message) ) if( grid%auxinput7_oid .NE. 0 ) then CALL close_dataset ( grid%auxinput7_oid , config_flags , "DATASET=AUXINPUT7" ) endif CALL open_r_dataset ( grid%auxinput7_oid, TRIM(inpname) , grid , config_flags, & "DATASET=AUXINPUT7", ierr ) IF ( ierr .NE. 0 ) THEN WRITE( message , * ) 'med_read_wrf_chem_fireemissions: error opening ', TRIM( inpname ) CALL wrf_error_fatal( TRIM( message ) ) ENDIF WRITE(message,*)'mediation_integrate: med_read_wrf_chem_fireemissions: Read fire emissions at time ',& TRIM(current_date_char) CALL wrf_message( TRIM(message) ) CALL wrf_debug (00 , 'mediation_integrate: calling input_auxinput7' ) CALL input_auxinput7 ( grid%auxinput7_oid, grid , config_flags , ierr ) CALL close_dataset ( grid%auxinput7_oid , config_flags , "DATASET=AUXINPUT7" ) ! ENDIF CALL wrf_debug (00 , 'mediation_integrate: med_read_wrf_chem_fireemissions: exit' ) END SUBROUTINE med_read_wrf_chem_emissopt3 #endif !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #ifdef HWRF !zhang's doing for outputing restart namelist parameters RECURSIVE SUBROUTINE med_namelist_out ( grid , config_flags ) ! Driver layer USE module_domain , ONLY : domain, domain_clock_get USE module_io_domain USE module_timing ! Model layer USE module_configure , ONLY : grid_config_rec_type USE module_bc_time_utilities !zhang new USE WRF_ESMF_MOD USE module_utility !zhang new ends IMPLICIT NONE ! Arguments TYPE(domain), INTENT(IN) :: grid TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local !zhang new TYPE(ESMF_Time) :: CurrTime TYPE(WRFU_Time) :: CurrTime INTEGER :: nout,rc,kid INTEGER :: hr, min, sec, ms,julyr,julday REAL :: GMT CHARACTER*80 :: prefix, outname CHARACTER*80 :: timestr LOGICAL :: exist LOGICAL,EXTERNAL :: wrf_dm_on_monitor TYPE (grid_config_rec_type) :: kid_config_flags !zhang new IF ( wrf_dm_on_monitor() ) THEN CALL start_timing END IF prefix = "wrfnamelist_d_" nout = 99 !zhang new CALL ESMF_ClockGet( grid%domain_clock, CurrTime=CurrTime, rc=rc ) !zhang new CALL wrf_timetoa ( CurrTime, timestr ) CALL domain_clock_get( grid, current_timestr=timestr ) !zhang new ends CALL construct_filename2a ( outname , prefix, grid%id , 2 , timestr ) IF ( wrf_dm_on_monitor() ) THEN CLOSE (NOUT) OPEN ( FILE = trim(outname) , UNIT = nout, STATUS = 'UNKNOWN', FORM = 'FORMATTED') !zhang new CALL ESMF_TimeGet( grid%current_time, YY=julyr, dayOfYear=julday, H=hr, M=min, S=sec, MS=ms, rc=rc) CALL domain_clock_get( grid, current_time=CurrTime ) CALL WRFU_TimeGet( CurrTime, YY=julyr, dayOfYear=julday, H=hr, M=min, S=sec, MS=ms, rc=rc) !zhang new ends gmt=hr+real(min)/60.+real(sec)/3600.+real(ms)/(1000*3600) WRITE(NOUT,*) grid%i_parent_start WRITE(NOUT,*) grid%j_parent_start WRITE(NOUT,*) julyr WRITE(NOUT,*) julday WRITE(NOUT,*) gmt CLOSE (NOUT) ENDIF ! call recursively for children, (if any) DO kid = 1, max_nests IF ( ASSOCIATED( grid%nests(kid)%ptr ) ) THEN CALL model_to_grid_config_rec ( grid%nests(kid)%ptr%id , model_config_rec , kid_config_flags ) CALL med_namelist_out ( grid%nests(kid)%ptr , kid_config_flags ) ENDIF ENDDO RETURN END SUBROUTINE med_namelist_out !end of zhang's doing #endif