SUBROUTINE Setup_Timekeeping ( grid ) USE module_domain USE module_configure USE module_utility IMPLICIT NONE TYPE(domain), POINTER :: grid ! Local TYPE(WRFU_TimeInterval) :: begin_time, end_time, zero_time, one_minute, one_hour, padding_interval TYPE(WRFU_TimeInterval) :: interval, run_length, dfl_length TYPE(WRFU_Time) :: startTime, stopTime, initialTime TYPE(WRFU_TimeInterval) :: stepTime TYPE(WRFU_TimeInterval) :: tmp_step INTEGER :: start_year,start_month,start_day,start_hour,start_minute,start_second INTEGER :: end_year,end_month,end_day,end_hour,end_minute,end_second INTEGER :: vortex_interval #if (EM_CORE == 1) INTEGER :: dfi_fwdstop_year,dfi_fwdstop_month,dfi_fwdstop_day,dfi_fwdstop_hour,dfi_fwdstop_minute,dfi_fwdstop_second INTEGER :: dfi_bckstop_year,dfi_bckstop_month,dfi_bckstop_day,dfi_bckstop_hour,dfi_bckstop_minute,dfi_bckstop_second #endif INTEGER :: history_interval , restart_interval , & history_interval_mo, restart_interval_mo, & history_interval_d, restart_interval_d, & history_interval_h, restart_interval_h, & history_interval_m, restart_interval_m, & history_interval_s, restart_interval_s INTEGER :: auxhist1_interval , auxhist2_interval , auxhist3_interval , & auxhist1_interval_mo, auxhist2_interval_mo, auxhist3_interval_mo, & auxhist1_interval_d, auxhist2_interval_d, auxhist3_interval_d, & auxhist1_interval_h, auxhist2_interval_h, auxhist3_interval_h, & auxhist1_interval_m, auxhist2_interval_m, auxhist3_interval_m, & auxhist1_interval_s, auxhist2_interval_s, auxhist3_interval_s INTEGER :: auxhist4_interval , auxhist5_interval, & auxhist4_interval_mo, auxhist5_interval_mo, & auxhist4_interval_d, auxhist5_interval_d, & auxhist4_interval_h, auxhist5_interval_h, & auxhist4_interval_m, auxhist5_interval_m, & auxhist4_interval_s, auxhist5_interval_s INTEGER :: auxhist6_interval , auxhist7_interval , auxhist8_interval , & auxhist6_interval_mo, auxhist7_interval_mo, auxhist8_interval_mo, & auxhist6_interval_d, auxhist7_interval_d, auxhist8_interval_d, & auxhist6_interval_h, auxhist7_interval_h, auxhist8_interval_h, & auxhist6_interval_m, auxhist7_interval_m, auxhist8_interval_m, & auxhist6_interval_s, auxhist7_interval_s, auxhist8_interval_s INTEGER :: auxhist9_interval , auxhist10_interval , auxhist11_interval , & auxhist9_interval_mo, auxhist10_interval_mo, auxhist11_interval_mo, & auxhist9_interval_d, auxhist10_interval_d, auxhist11_interval_d, & auxhist9_interval_h, auxhist10_interval_h, auxhist11_interval_h, & auxhist9_interval_m, auxhist10_interval_m, auxhist11_interval_m, & auxhist9_interval_s, auxhist10_interval_s, auxhist11_interval_s INTEGER :: auxinput1_interval , auxinput2_interval , auxinput3_interval , & auxinput1_interval_mo, auxinput2_interval_mo, auxinput3_interval_mo, & auxinput1_interval_d, auxinput2_interval_d, auxinput3_interval_d, & auxinput1_interval_h, auxinput2_interval_h, auxinput3_interval_h, & auxinput1_interval_m, auxinput2_interval_m, auxinput3_interval_m, & auxinput1_interval_s, auxinput2_interval_s, auxinput3_interval_s INTEGER :: auxinput4_interval , auxinput5_interval , & auxinput4_interval_mo, auxinput5_interval_mo, & auxinput4_interval_d, auxinput5_interval_d, & auxinput4_interval_h, auxinput5_interval_h, & auxinput4_interval_m, auxinput5_interval_m, & auxinput4_interval_s, auxinput5_interval_s INTEGER :: auxinput6_interval , auxinput7_interval , auxinput8_interval , & auxinput6_interval_mo, auxinput7_interval_mo, auxinput8_interval_mo, & auxinput6_interval_d, auxinput7_interval_d, auxinput8_interval_d, & auxinput6_interval_h, auxinput7_interval_h, auxinput8_interval_h, & auxinput6_interval_m, auxinput7_interval_m, auxinput8_interval_m, & auxinput6_interval_s, auxinput7_interval_s, auxinput8_interval_s INTEGER :: auxinput9_interval , gfdda_interval , auxinput11_interval , & auxinput9_interval_mo, gfdda_interval_mo, auxinput11_interval_mo, & auxinput9_interval_d, gfdda_interval_d, auxinput11_interval_d, & auxinput9_interval_h, gfdda_interval_h, auxinput11_interval_h, & auxinput9_interval_m, gfdda_interval_m, auxinput11_interval_m, & auxinput9_interval_s, gfdda_interval_s, auxinput11_interval_s INTEGER :: history_begin , restart_begin , & history_begin_y, restart_begin_y, & history_begin_mo, restart_begin_mo, & history_begin_d, restart_begin_d, & history_begin_h, restart_begin_h, & history_begin_m, restart_begin_m, & history_begin_s, restart_begin_s INTEGER :: auxhist1_begin , auxhist2_begin , auxhist3_begin , & auxhist1_begin_y, auxhist2_begin_y, auxhist3_begin_y, & auxhist1_begin_mo, auxhist2_begin_mo, auxhist3_begin_mo, & auxhist1_begin_d, auxhist2_begin_d, auxhist3_begin_d, & auxhist1_begin_h, auxhist2_begin_h, auxhist3_begin_h, & auxhist1_begin_m, auxhist2_begin_m, auxhist3_begin_m, & auxhist1_begin_s, auxhist2_begin_s, auxhist3_begin_s INTEGER :: auxhist4_begin , auxhist5_begin, & auxhist4_begin_y, auxhist5_begin_y, & auxhist4_begin_mo, auxhist5_begin_mo, & auxhist4_begin_d, auxhist5_begin_d, & auxhist4_begin_h, auxhist5_begin_h, & auxhist4_begin_m, auxhist5_begin_m, & auxhist4_begin_s, auxhist5_begin_s INTEGER :: auxhist6_begin , auxhist7_begin , auxhist8_begin , & auxhist6_begin_y, auxhist7_begin_y, auxhist8_begin_y, & auxhist6_begin_mo, auxhist7_begin_mo, auxhist8_begin_mo, & auxhist6_begin_d, auxhist7_begin_d, auxhist8_begin_d, & auxhist6_begin_h, auxhist7_begin_h, auxhist8_begin_h, & auxhist6_begin_m, auxhist7_begin_m, auxhist8_begin_m, & auxhist6_begin_s, auxhist7_begin_s, auxhist8_begin_s INTEGER :: auxhist9_begin , auxhist10_begin , auxhist11_begin , & auxhist9_begin_y, auxhist10_begin_y, auxhist11_begin_y, & auxhist9_begin_mo, auxhist10_begin_mo, auxhist11_begin_mo, & auxhist9_begin_d, auxhist10_begin_d, auxhist11_begin_d, & auxhist9_begin_h, auxhist10_begin_h, auxhist11_begin_h, & auxhist9_begin_m, auxhist10_begin_m, auxhist11_begin_m, & auxhist9_begin_s, auxhist10_begin_s, auxhist11_begin_s INTEGER :: inputout_begin , inputout_end, inputout_interval , & inputout_begin_y, inputout_end_y, inputout_interval_y , & inputout_begin_mo, inputout_end_mo, inputout_interval_mo , & inputout_begin_d, inputout_end_d, inputout_interval_d , & inputout_begin_h, inputout_end_h, inputout_interval_h , & inputout_begin_m, inputout_end_m, inputout_interval_m , & inputout_begin_s, inputout_end_s, inputout_interval_s INTEGER :: auxinput1_begin , auxinput2_begin , auxinput3_begin , & auxinput1_begin_y, auxinput2_begin_y, auxinput3_begin_y, & auxinput1_begin_mo, auxinput2_begin_mo, auxinput3_begin_mo, & auxinput1_begin_d, auxinput2_begin_d, auxinput3_begin_d, & auxinput1_begin_h, auxinput2_begin_h, auxinput3_begin_h, & auxinput1_begin_m, auxinput2_begin_m, auxinput3_begin_m, & auxinput1_begin_s, auxinput2_begin_s, auxinput3_begin_s INTEGER :: auxinput4_begin , auxinput5_begin , & auxinput4_begin_y, auxinput5_begin_y, & auxinput4_begin_mo, auxinput5_begin_mo, & auxinput4_begin_d, auxinput5_begin_d, & auxinput4_begin_h, auxinput5_begin_h, & auxinput4_begin_m, auxinput5_begin_m, & auxinput4_begin_s, auxinput5_begin_s INTEGER :: auxinput6_begin , auxinput7_begin , auxinput8_begin , & auxinput6_begin_y, auxinput7_begin_y, auxinput8_begin_y, & auxinput6_begin_mo, auxinput7_begin_mo, auxinput8_begin_mo, & auxinput6_begin_d, auxinput7_begin_d, auxinput8_begin_d, & auxinput6_begin_h, auxinput7_begin_h, auxinput8_begin_h, & auxinput6_begin_m, auxinput7_begin_m, auxinput8_begin_m, & auxinput6_begin_s, auxinput7_begin_s, auxinput8_begin_s INTEGER :: auxinput9_begin , gfdda_begin , auxinput11_begin , & auxinput9_begin_y, gfdda_begin_y, auxinput11_begin_y, & auxinput9_begin_mo, gfdda_begin_mo, auxinput11_begin_mo, & auxinput9_begin_d, gfdda_begin_d, auxinput11_begin_d, & auxinput9_begin_h, gfdda_begin_h, auxinput11_begin_h, & auxinput9_begin_m, gfdda_begin_m, auxinput11_begin_m, & auxinput9_begin_s, gfdda_begin_s, auxinput11_begin_s INTEGER :: history_end , restart_end , & history_end_y, restart_end_y, & history_end_mo, restart_end_mo, & history_end_d, restart_end_d, & history_end_h, restart_end_h, & history_end_m, restart_end_m, & history_end_s, restart_end_s INTEGER :: auxhist1_end , auxhist2_end , auxhist3_end , & auxhist1_end_y, auxhist2_end_y, auxhist3_end_y, & auxhist1_end_mo, auxhist2_end_mo, auxhist3_end_mo, & auxhist1_end_d, auxhist2_end_d, auxhist3_end_d, & auxhist1_end_h, auxhist2_end_h, auxhist3_end_h, & auxhist1_end_m, auxhist2_end_m, auxhist3_end_m, & auxhist1_end_s, auxhist2_end_s, auxhist3_end_s INTEGER :: auxhist4_end , auxhist5_end, & auxhist4_end_y, auxhist5_end_y, & auxhist4_end_mo, auxhist5_end_mo, & auxhist4_end_d, auxhist5_end_d, & auxhist4_end_h, auxhist5_end_h, & auxhist4_end_m, auxhist5_end_m, & auxhist4_end_s, auxhist5_end_s INTEGER :: auxhist6_end , auxhist7_end , auxhist8_end , & auxhist6_end_y, auxhist7_end_y, auxhist8_end_y, & auxhist6_end_mo, auxhist7_end_mo, auxhist8_end_mo, & auxhist6_end_d, auxhist7_end_d, auxhist8_end_d, & auxhist6_end_h, auxhist7_end_h, auxhist8_end_h, & auxhist6_end_m, auxhist7_end_m, auxhist8_end_m, & auxhist6_end_s, auxhist7_end_s, auxhist8_end_s INTEGER :: auxhist9_end , auxhist10_end , auxhist11_end , & auxhist9_end_y, auxhist10_end_y, auxhist11_end_y, & auxhist9_end_mo, auxhist10_end_mo, auxhist11_end_mo, & auxhist9_end_d, auxhist10_end_d, auxhist11_end_d, & auxhist9_end_h, auxhist10_end_h, auxhist11_end_h, & auxhist9_end_m, auxhist10_end_m, auxhist11_end_m, & auxhist9_end_s, auxhist10_end_s, auxhist11_end_s INTEGER :: auxinput1_end , auxinput2_end , auxinput3_end , & auxinput1_end_y, auxinput2_end_y, auxinput3_end_y, & auxinput1_end_mo, auxinput2_end_mo, auxinput3_end_mo, & auxinput1_end_d, auxinput2_end_d, auxinput3_end_d, & auxinput1_end_h, auxinput2_end_h, auxinput3_end_h, & auxinput1_end_m, auxinput2_end_m, auxinput3_end_m, & auxinput1_end_s, auxinput2_end_s, auxinput3_end_s INTEGER :: auxinput4_end , auxinput5_end , & auxinput4_end_y, auxinput5_end_y, & auxinput4_end_mo, auxinput5_end_mo, & auxinput4_end_d, auxinput5_end_d, & auxinput4_end_h, auxinput5_end_h, & auxinput4_end_m, auxinput5_end_m, & auxinput4_end_s, auxinput5_end_s INTEGER :: auxinput6_end , auxinput7_end , auxinput8_end , & auxinput6_end_y, auxinput7_end_y, auxinput8_end_y, & auxinput6_end_mo, auxinput7_end_mo, auxinput8_end_mo, & auxinput6_end_d, auxinput7_end_d, auxinput8_end_d, & auxinput6_end_h, auxinput7_end_h, auxinput8_end_h, & auxinput6_end_m, auxinput7_end_m, auxinput8_end_m, & auxinput6_end_s, auxinput7_end_s, auxinput8_end_s INTEGER :: auxinput9_end , gfdda_end , auxinput11_end , & auxinput9_end_y, gfdda_end_y, auxinput11_end_y, & auxinput9_end_mo, gfdda_end_mo, auxinput11_end_mo, & auxinput9_end_d, gfdda_end_d, auxinput11_end_d, & auxinput9_end_h, gfdda_end_h, auxinput11_end_h, & auxinput9_end_m, gfdda_end_m, auxinput11_end_m, & auxinput9_end_s, gfdda_end_s, auxinput11_end_s INTEGER :: grid_fdda INTEGER :: run_days, run_hours, run_minutes, run_seconds INTEGER :: time_step, time_step_fract_num, time_step_fract_den INTEGER :: rc REAL :: dt CALL WRFU_TimeIntervalSet ( zero_time, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(zero_time) FAILED', & __FILE__ , & __LINE__ ) CALL WRFU_TimeIntervalSet ( one_minute, M=1, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(one_minute) FAILED', & __FILE__ , & __LINE__ ) CALL WRFU_TimeIntervalSet ( one_hour, H=1, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(one_hour) FAILED', & __FILE__ , & __LINE__ ) #if (EM_CORE == 1) IF ( (grid%dfi_opt .EQ. DFI_NODFI) .OR. (grid%dfi_stage .EQ. DFI_SETUP) ) THEN #endif CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) CALL WRFU_TimeSet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeSet(startTime) FAILED', & __FILE__ , & __LINE__ ) #if (EM_CORE == 1) ELSE IF ( grid%dfi_opt .EQ. DFI_DFL ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) ELSE IF ( grid%dfi_stage .EQ. DFI_FST ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) run_length = grid%stop_subtime - grid%start_subtime CALL WRFU_TimeIntervalGet( run_length, S=run_seconds, rc=rc ) ! What about fractional seconds? run_seconds = run_seconds / 2 CALL WRFU_TimeIntervalSet ( run_length, S=run_seconds, rc=rc ) CALL WRFU_TimeSet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) startTime = startTime + run_length CALL WRFU_TimeGet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) END IF ELSE IF ( grid%dfi_opt .EQ. DFI_DDFI ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_dfi_bckstop_year(grid%id,start_year) CALL nl_get_dfi_bckstop_month(grid%id,start_month) CALL nl_get_dfi_bckstop_day(grid%id,start_day) CALL nl_get_dfi_bckstop_hour(grid%id,start_hour) CALL nl_get_dfi_bckstop_minute(grid%id,start_minute) CALL nl_get_dfi_bckstop_second(grid%id,start_second) ELSE IF ( grid%dfi_stage .EQ. DFI_BCK ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) ELSE IF ( grid%dfi_stage .EQ. DFI_FST ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) END IF ELSE IF ( grid%dfi_opt .EQ. DFI_TDFI ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_dfi_bckstop_year(grid%id,start_year) CALL nl_get_dfi_bckstop_month(grid%id,start_month) CALL nl_get_dfi_bckstop_day(grid%id,start_day) CALL nl_get_dfi_bckstop_hour(grid%id,start_hour) CALL nl_get_dfi_bckstop_minute(grid%id,start_minute) CALL nl_get_dfi_bckstop_second(grid%id,start_second) run_length = grid%start_subtime - grid%stop_subtime CALL WRFU_TimeIntervalGet( run_length, S=run_seconds, rc=rc ) ! What about fractional seconds? run_seconds = run_seconds / 2 CALL WRFU_TimeIntervalSet ( run_length, S=run_seconds, rc=rc ) CALL WRFU_TimeSet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) startTime = startTime + run_length CALL WRFU_TimeGet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) ELSE IF ( grid%dfi_stage .EQ. DFI_BCK ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) ELSE IF ( grid%dfi_stage .EQ. DFI_FST ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) END IF END IF CALL WRFU_TimeSet(startTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeSet(startTime) FAILED', & __FILE__ , & __LINE__ ) END IF #endif CALL nl_get_run_days(1,run_days) CALL nl_get_run_hours(1,run_hours) CALL nl_get_run_minutes(1,run_minutes) CALL nl_get_run_seconds(1,run_seconds) #if (EM_CORE == 1) IF ( (grid%dfi_opt .EQ. DFI_NODFI) .OR. (grid%dfi_stage .EQ. DFI_SETUP) .OR. (grid%dfi_stage .EQ. DFI_FST)) THEN #endif IF ( grid%id .EQ. head_grid%id .AND. & ( run_days .gt. 0 .or. run_hours .gt. 0 .or. run_minutes .gt. 0 .or. run_seconds .gt. 0 )) THEN CALL WRFU_TimeIntervalSet ( run_length , D=run_days, H=run_hours, M=run_minutes, S=run_seconds, rc=rc ) #if (EM_CORE == 1) IF ( grid%dfi_stage .EQ. DFI_FST .AND. grid%dfi_opt .EQ. DFI_DFL ) THEN CALL nl_get_start_year(grid%id,start_year) CALL nl_get_start_month(grid%id,start_month) CALL nl_get_start_day(grid%id,start_day) CALL nl_get_start_hour(grid%id,start_hour) CALL nl_get_start_minute(grid%id,start_minute) CALL nl_get_start_second(grid%id,start_second) CALL WRFU_TimeSet(initialTime, YY=start_year, MM=start_month, DD=start_day, & H=start_hour, M=start_minute, S=start_second,& rc=rc) dfl_length = startTime - initialTime run_length = run_length - dfl_length END IF #endif CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(run_length) FAILED', & __FILE__ , & __LINE__ ) stopTime = startTime + run_length ELSE CALL nl_get_end_year(grid%id,end_year) CALL nl_get_end_month(grid%id,end_month) CALL nl_get_end_day(grid%id,end_day) CALL nl_get_end_hour(grid%id,end_hour) CALL nl_get_end_minute(grid%id,end_minute) CALL nl_get_end_second(grid%id,end_second) CALL WRFU_TimeSet(stopTime, YY=end_year, MM=end_month, DD=end_day, & H=end_hour, M=end_minute, S=end_second,& rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeSet(stopTime) FAILED', & __FILE__ , & __LINE__ ) run_length = stopTime - startTime ENDIF #if (EM_CORE == 1) ELSE IF ( grid%dfi_opt .EQ. DFI_DFL ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_dfi_fwdstop_year(grid%id,end_year) CALL nl_get_dfi_fwdstop_month(grid%id,end_month) CALL nl_get_dfi_fwdstop_day(grid%id,end_day) CALL nl_get_dfi_fwdstop_hour(grid%id,end_hour) CALL nl_get_dfi_fwdstop_minute(grid%id,end_minute) CALL nl_get_dfi_fwdstop_second(grid%id,end_second) END IF ELSE IF ( grid%dfi_opt .EQ. DFI_DDFI ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_dfi_fwdstop_year(grid%id,end_year) CALL nl_get_dfi_fwdstop_month(grid%id,end_month) CALL nl_get_dfi_fwdstop_day(grid%id,end_day) CALL nl_get_dfi_fwdstop_hour(grid%id,end_hour) CALL nl_get_dfi_fwdstop_minute(grid%id,end_minute) CALL nl_get_dfi_fwdstop_second(grid%id,end_second) ELSE IF ( grid%dfi_stage .EQ. DFI_BCK ) THEN CALL nl_get_dfi_bckstop_year(grid%id,end_year) CALL nl_get_dfi_bckstop_month(grid%id,end_month) CALL nl_get_dfi_bckstop_day(grid%id,end_day) CALL nl_get_dfi_bckstop_hour(grid%id,end_hour) CALL nl_get_dfi_bckstop_minute(grid%id,end_minute) CALL nl_get_dfi_bckstop_second(grid%id,end_second) END IF ELSE IF ( grid%dfi_opt .EQ. DFI_TDFI ) THEN IF ( grid%dfi_stage .EQ. DFI_FWD ) THEN CALL nl_get_dfi_fwdstop_year(grid%id,end_year) CALL nl_get_dfi_fwdstop_month(grid%id,end_month) CALL nl_get_dfi_fwdstop_day(grid%id,end_day) CALL nl_get_dfi_fwdstop_hour(grid%id,end_hour) CALL nl_get_dfi_fwdstop_minute(grid%id,end_minute) CALL nl_get_dfi_fwdstop_second(grid%id,end_second) ELSE IF ( grid%dfi_stage .EQ. DFI_BCK ) THEN CALL nl_get_dfi_bckstop_year(grid%id,end_year) CALL nl_get_dfi_bckstop_month(grid%id,end_month) CALL nl_get_dfi_bckstop_day(grid%id,end_day) CALL nl_get_dfi_bckstop_hour(grid%id,end_hour) CALL nl_get_dfi_bckstop_minute(grid%id,end_minute) CALL nl_get_dfi_bckstop_second(grid%id,end_second) END IF END IF CALL WRFU_TimeSet(stopTime, YY=end_year, MM=end_month, DD=end_day, & H=end_hour, M=end_minute, S=end_second,& rc=rc) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeSet(dfistopfwdTime) FAILED', & __FILE__ , & __LINE__ ) run_length = stopTime - startTime END IF #endif IF ( run_length .GT. zero_time ) THEN padding_interval = one_hour ELSE padding_interval = zero_time - one_hour ENDIF IF ( grid%id .EQ. head_grid%id ) THEN CALL nl_get_time_step ( 1, time_step ) CALL nl_get_time_step_fract_num( 1, time_step_fract_num ) CALL nl_get_time_step_fract_den( 1, time_step_fract_den ) dt = real(time_step) + real(time_step_fract_num) / real(time_step_fract_den) #ifdef PLANET ! 2004-12-08 ADT notes: ! We have gotten the timestep from integers in the namelist, and they have just ! been converted to the timestep, "dt", used by the physics code just above. ! After this point, the integers are only used to update the clock used for, ! and we want to leave that on a "24-hour" type schedule, so we don't need to ! modify those integers. Theoretically they refer to a portion of the planet's ! solar day. The only thing we have to do is convert the *real* timestep, dt, ! to useful SI units. This is easily accomplished by multiplying it by the ! variable P2SI, which was designed for just this purpose. After multiplication, ! make sure every subsequent part of the model knows what the value is. dt = dt * P2SI #endif CALL nl_set_dt( grid%id, dt ) grid%dt = dt CALL WRFU_TimeIntervalSet(stepTime, S=time_step, Sn=time_step_fract_num, Sd=time_step_fract_den, rc=rc) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(stepTime) FAILED', & __FILE__ , & __LINE__ ) ELSE tmp_step = domain_get_time_step( grid%parents(1)%ptr ) stepTime = domain_get_time_step( grid%parents(1)%ptr ) / & grid%parent_time_step_ratio grid%dt = grid%parents(1)%ptr%dt / grid%parent_time_step_ratio CALL nl_set_dt( grid%id, grid%dt ) ENDIF ! create grid%domain_clock and associated state CALL domain_clock_create( grid, TimeStep= stepTime, & StartTime=startTime, & StopTime= stopTime ) CALL domain_clockprint ( 150, grid, & 'DEBUG setup_timekeeping(): clock after creation,' ) ! Set default value for SIMULATION_START_DATE. ! This is overwritten later in input_wrf(), if needed. IF ( grid%id .EQ. head_grid%id ) THEN CALL nl_set_simulation_start_year ( 1 , start_year ) CALL nl_set_simulation_start_month ( 1 , start_month ) CALL nl_set_simulation_start_day ( 1 , start_day ) CALL nl_set_simulation_start_hour ( 1 , start_hour ) CALL nl_set_simulation_start_minute ( 1 , start_minute ) CALL nl_set_simulation_start_second ( 1 , start_second ) ENDIF ! HISTORY INTERVAL ! history_interval is left there (and means minutes) for consistency, but ! history_interval_m will take precedence if specified CALL nl_get_history_interval( grid%id, history_interval ) ! same as minutes CALL nl_get_history_interval_mo( grid%id, history_interval_mo ) CALL nl_get_history_interval_d( grid%id, history_interval_d ) CALL nl_get_history_interval_h( grid%id, history_interval_h ) CALL nl_get_history_interval_m( grid%id, history_interval_m ) CALL nl_get_history_interval_s( grid%id, history_interval_s ) IF ( history_interval_m .EQ. 0 ) history_interval_m = history_interval IF ( MAX( history_interval_mo, history_interval_d, & history_interval_h, history_interval_m , history_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=history_interval_mo, D=history_interval_d, & H=history_interval_h, M=history_interval_m, S=history_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(history_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_history_begin_y( grid%id, history_begin_y ) CALL nl_get_history_begin_mo( grid%id, history_begin_mo ) CALL nl_get_history_begin_d( grid%id, history_begin_d ) CALL nl_get_history_begin_h( grid%id, history_begin_h ) CALL nl_get_history_begin_m( grid%id, history_begin_m ) CALL nl_get_history_begin_s( grid%id, history_begin_s ) IF ( MAX( history_begin_y, history_begin_mo, history_begin_d, & history_begin_h, history_begin_m , history_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=history_begin_mo, D=history_begin_d, & H=history_begin_h, M=history_begin_m, S=history_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(history_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_history_end_y( grid%id, history_end_y ) CALL nl_get_history_end_mo( grid%id, history_end_mo ) CALL nl_get_history_end_d( grid%id, history_end_d ) CALL nl_get_history_end_h( grid%id, history_end_h ) CALL nl_get_history_end_m( grid%id, history_end_m ) CALL nl_get_history_end_s( grid%id, history_end_s ) IF ( MAX( history_end_y, history_end_mo, history_end_d, & history_end_h, history_end_m , history_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=history_end_mo, D=history_end_d, & H=history_end_h, M=history_end_m, S=history_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(history_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, HISTORY_ALARM, interval, begin_time, end_time ) IF ( begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( HISTORY_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(HISTORY_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! RESTART INTERVAL ! restart_interval is left there (and means minutes) for consistency, but ! restart_interval_m will take precedence if specified CALL nl_get_restart_interval( 1, restart_interval ) ! same as minutes CALL nl_get_restart_interval_mo( 1, restart_interval_mo ) CALL nl_get_restart_interval_d( 1, restart_interval_d ) CALL nl_get_restart_interval_h( 1, restart_interval_h ) CALL nl_get_restart_interval_m( 1, restart_interval_m ) CALL nl_get_restart_interval_s( 1, restart_interval_s ) IF ( restart_interval_m .EQ. 0 ) restart_interval_m = restart_interval IF ( MAX( restart_interval_mo, restart_interval_d, & restart_interval_h, restart_interval_m , restart_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=restart_interval_mo, D=restart_interval_d, & H=restart_interval_h, M=restart_interval_m, S=restart_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(restart_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, RESTART_ALARM, interval ) ! INPUTOUT INTERVAL CALL nl_get_inputout_interval( grid%id, inputout_interval ) ! same as minutes CALL nl_get_inputout_interval_mo( grid%id, inputout_interval_mo ) CALL nl_get_inputout_interval_d( grid%id, inputout_interval_d ) CALL nl_get_inputout_interval_h( grid%id, inputout_interval_h ) CALL nl_get_inputout_interval_m( grid%id, inputout_interval_m ) CALL nl_get_inputout_interval_s( grid%id, inputout_interval_s ) IF ( inputout_interval_m .EQ. 0 ) inputout_interval_m = inputout_interval IF ( MAX( inputout_interval_mo, inputout_interval_d, & inputout_interval_h, inputout_interval_m , inputout_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=inputout_interval_mo, D=inputout_interval_d, & H=inputout_interval_h, M=inputout_interval_m, S=inputout_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(inputout_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_inputout_begin_y( grid%id, inputout_begin_y ) CALL nl_get_inputout_begin_mo( grid%id, inputout_begin_mo ) CALL nl_get_inputout_begin_d( grid%id, inputout_begin_d ) CALL nl_get_inputout_begin_h( grid%id, inputout_begin_h ) CALL nl_get_inputout_begin_m( grid%id, inputout_begin_m ) CALL nl_get_inputout_begin_s( grid%id, inputout_begin_s ) IF ( MAX( inputout_begin_y, inputout_begin_mo, inputout_begin_d, & inputout_begin_h, inputout_begin_m , inputout_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=inputout_begin_mo, D=inputout_begin_d, & H=inputout_begin_h, M=inputout_begin_m, S=inputout_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(inputout_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_inputout_end_y( grid%id, inputout_end_y ) CALL nl_get_inputout_end_mo( grid%id, inputout_end_mo ) CALL nl_get_inputout_end_d( grid%id, inputout_end_d ) CALL nl_get_inputout_end_h( grid%id, inputout_end_h ) CALL nl_get_inputout_end_m( grid%id, inputout_end_m ) CALL nl_get_inputout_end_s( grid%id, inputout_end_s ) IF ( MAX( inputout_end_y, inputout_end_mo, inputout_end_d, & inputout_end_h, inputout_end_m , inputout_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=inputout_end_mo, D=inputout_end_d, & H=inputout_end_h, M=inputout_end_m, S=inputout_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(inputout_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, INPUTOUT_ALARM, interval, begin_time, end_time ) ! AUXHIST1 INTERVAL ! auxhist1_interval is left there (and means minutes) for consistency, but ! auxhist1_interval_m will take precedence if specified CALL nl_get_auxhist1_interval( grid%id, auxhist1_interval ) ! same as minutes CALL nl_get_auxhist1_interval_mo( grid%id, auxhist1_interval_mo ) CALL nl_get_auxhist1_interval_d( grid%id, auxhist1_interval_d ) CALL nl_get_auxhist1_interval_h( grid%id, auxhist1_interval_h ) CALL nl_get_auxhist1_interval_m( grid%id, auxhist1_interval_m ) CALL nl_get_auxhist1_interval_s( grid%id, auxhist1_interval_s ) IF ( auxhist1_interval_m .EQ. 0 ) auxhist1_interval_m = auxhist1_interval IF ( MAX( auxhist1_interval_mo, auxhist1_interval_d, & auxhist1_interval_h, auxhist1_interval_m , auxhist1_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist1_interval_mo, D=auxhist1_interval_d, & H=auxhist1_interval_h, M=auxhist1_interval_m, S=auxhist1_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist1_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist1_begin_y( grid%id, auxhist1_begin_y ) CALL nl_get_auxhist1_begin_mo( grid%id, auxhist1_begin_mo ) CALL nl_get_auxhist1_begin_d( grid%id, auxhist1_begin_d ) CALL nl_get_auxhist1_begin_h( grid%id, auxhist1_begin_h ) CALL nl_get_auxhist1_begin_m( grid%id, auxhist1_begin_m ) CALL nl_get_auxhist1_begin_s( grid%id, auxhist1_begin_s ) IF ( MAX( auxhist1_begin_y, auxhist1_begin_mo, auxhist1_begin_d, & auxhist1_begin_h, auxhist1_begin_m , auxhist1_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist1_begin_mo, D=auxhist1_begin_d, & H=auxhist1_begin_h, M=auxhist1_begin_m, S=auxhist1_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist1_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist1_end_y( grid%id, auxhist1_end_y ) CALL nl_get_auxhist1_end_mo( grid%id, auxhist1_end_mo ) CALL nl_get_auxhist1_end_d( grid%id, auxhist1_end_d ) CALL nl_get_auxhist1_end_h( grid%id, auxhist1_end_h ) CALL nl_get_auxhist1_end_m( grid%id, auxhist1_end_m ) CALL nl_get_auxhist1_end_s( grid%id, auxhist1_end_s ) IF ( MAX( auxhist1_end_y, auxhist1_end_mo, auxhist1_end_d, & auxhist1_end_h, auxhist1_end_m , auxhist1_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist1_end_mo, D=auxhist1_end_d, & H=auxhist1_end_h, M=auxhist1_end_m, S=auxhist1_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist1_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST1_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST1_ALARM ), rc=rc ) ENDIF ! AUXHIST2_ INTERVAL ! auxhist2_interval is left there (and means minutes) for consistency, but ! auxhist2_interval_m will take precedence if specified CALL nl_get_auxhist2_interval( grid%id, auxhist2_interval ) ! same as minutes CALL nl_get_auxhist2_interval_mo( grid%id, auxhist2_interval_mo ) CALL nl_get_auxhist2_interval_d( grid%id, auxhist2_interval_d ) CALL nl_get_auxhist2_interval_h( grid%id, auxhist2_interval_h ) CALL nl_get_auxhist2_interval_m( grid%id, auxhist2_interval_m ) CALL nl_get_auxhist2_interval_s( grid%id, auxhist2_interval_s ) IF ( auxhist2_interval_m .EQ. 0) auxhist2_interval_m = auxhist2_interval IF ( MAX( auxhist2_interval_mo, auxhist2_interval_d, & auxhist2_interval_h, auxhist2_interval_m , auxhist2_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist2_interval_mo, D=auxhist2_interval_d, & H=auxhist2_interval_h, M=auxhist2_interval_m, S=auxhist2_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist2_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist2_begin_y( grid%id, auxhist2_begin_y ) CALL nl_get_auxhist2_begin_mo( grid%id, auxhist2_begin_mo ) CALL nl_get_auxhist2_begin_d( grid%id, auxhist2_begin_d ) CALL nl_get_auxhist2_begin_h( grid%id, auxhist2_begin_h ) CALL nl_get_auxhist2_begin_m( grid%id, auxhist2_begin_m ) CALL nl_get_auxhist2_begin_s( grid%id, auxhist2_begin_s ) IF ( MAX( auxhist2_begin_y, auxhist2_begin_mo, auxhist2_begin_d, & auxhist2_begin_h, auxhist2_begin_m , auxhist2_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist2_begin_mo, D=auxhist2_begin_d, & H=auxhist2_begin_h, M=auxhist2_begin_m, S=auxhist2_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist2_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist2_end_y( grid%id, auxhist2_end_y ) CALL nl_get_auxhist2_end_mo( grid%id, auxhist2_end_mo ) CALL nl_get_auxhist2_end_d( grid%id, auxhist2_end_d ) CALL nl_get_auxhist2_end_h( grid%id, auxhist2_end_h ) CALL nl_get_auxhist2_end_m( grid%id, auxhist2_end_m ) CALL nl_get_auxhist2_end_s( grid%id, auxhist2_end_s ) IF ( MAX( auxhist2_end_y, auxhist2_end_mo, auxhist2_end_d, & auxhist2_end_h, auxhist2_end_m , auxhist2_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist2_end_mo, D=auxhist2_end_d, & H=auxhist2_end_h, M=auxhist2_end_m, S=auxhist2_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist2_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST2_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST2_ALARM ), rc=rc ) ENDIF ! AUXHIST3_ INTERVAL ! auxhist3_interval is left there (and means minutes) for consistency, but ! auxhist3_interval_m will take precedence if specified CALL nl_get_auxhist3_interval( grid%id, auxhist3_interval ) ! same as minutes CALL nl_get_auxhist3_interval_mo( grid%id, auxhist3_interval_mo ) CALL nl_get_auxhist3_interval_d( grid%id, auxhist3_interval_d ) CALL nl_get_auxhist3_interval_h( grid%id, auxhist3_interval_h ) CALL nl_get_auxhist3_interval_m( grid%id, auxhist3_interval_m ) CALL nl_get_auxhist3_interval_s( grid%id, auxhist3_interval_s ) IF ( auxhist3_interval_m .EQ. 0 ) auxhist3_interval_m = auxhist3_interval IF ( MAX( auxhist3_interval_mo, auxhist3_interval_d, & auxhist3_interval_h, auxhist3_interval_m , auxhist3_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist3_interval_mo, D=auxhist3_interval_d, & H=auxhist3_interval_h, M=auxhist3_interval_m, S=auxhist3_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist3_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist3_begin_y( grid%id, auxhist3_begin_y ) CALL nl_get_auxhist3_begin_mo( grid%id, auxhist3_begin_mo ) CALL nl_get_auxhist3_begin_d( grid%id, auxhist3_begin_d ) CALL nl_get_auxhist3_begin_h( grid%id, auxhist3_begin_h ) CALL nl_get_auxhist3_begin_m( grid%id, auxhist3_begin_m ) CALL nl_get_auxhist3_begin_s( grid%id, auxhist3_begin_s ) IF ( MAX( auxhist3_begin_y, auxhist3_begin_mo, auxhist3_begin_d, & auxhist3_begin_h, auxhist3_begin_m , auxhist3_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist3_begin_mo, D=auxhist3_begin_d, & H=auxhist3_begin_h, M=auxhist3_begin_m, S=auxhist3_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist3_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist3_end_y( grid%id, auxhist3_end_y ) CALL nl_get_auxhist3_end_mo( grid%id, auxhist3_end_mo ) CALL nl_get_auxhist3_end_d( grid%id, auxhist3_end_d ) CALL nl_get_auxhist3_end_h( grid%id, auxhist3_end_h ) CALL nl_get_auxhist3_end_m( grid%id, auxhist3_end_m ) CALL nl_get_auxhist3_end_s( grid%id, auxhist3_end_s ) IF ( MAX( auxhist3_end_y, auxhist3_end_mo, auxhist3_end_d, & auxhist3_end_h, auxhist3_end_m , auxhist3_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist3_end_mo, D=auxhist3_end_d, & H=auxhist3_end_h, M=auxhist3_end_m, S=auxhist3_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist3_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST3_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST3_ALARM ), rc=rc ) ENDIF ! AUXHIST4_ INTERVAL ! auxhist4_interval is left there (and means minutes) for consistency, but ! auxhist4_interval_m will take precedence if specified CALL nl_get_auxhist4_interval( grid%id, auxhist4_interval ) ! same as minutes CALL nl_get_auxhist4_interval_mo( grid%id, auxhist4_interval_mo ) CALL nl_get_auxhist4_interval_d( grid%id, auxhist4_interval_d ) CALL nl_get_auxhist4_interval_h( grid%id, auxhist4_interval_h ) CALL nl_get_auxhist4_interval_m( grid%id, auxhist4_interval_m ) CALL nl_get_auxhist4_interval_s( grid%id, auxhist4_interval_s ) IF ( auxhist4_interval_m .EQ. 0 ) auxhist4_interval_m = auxhist4_interval IF ( MAX( auxhist4_interval_mo, auxhist4_interval_d, & auxhist4_interval_h, auxhist4_interval_m , auxhist4_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist4_interval_mo, D=auxhist4_interval_d, & H=auxhist4_interval_h, M=auxhist4_interval_m, S=auxhist4_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist4_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist4_begin_y( grid%id, auxhist4_begin_y ) CALL nl_get_auxhist4_begin_mo( grid%id, auxhist4_begin_mo ) CALL nl_get_auxhist4_begin_d( grid%id, auxhist4_begin_d ) CALL nl_get_auxhist4_begin_h( grid%id, auxhist4_begin_h ) CALL nl_get_auxhist4_begin_m( grid%id, auxhist4_begin_m ) CALL nl_get_auxhist4_begin_s( grid%id, auxhist4_begin_s ) IF ( MAX( auxhist4_begin_y, auxhist4_begin_mo, auxhist4_begin_d, & auxhist4_begin_h, auxhist4_begin_m , auxhist4_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist4_begin_mo, D=auxhist4_begin_d, & H=auxhist4_begin_h, M=auxhist4_begin_m, S=auxhist4_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist4_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist4_end_y( grid%id, auxhist4_end_y ) CALL nl_get_auxhist4_end_mo( grid%id, auxhist4_end_mo ) CALL nl_get_auxhist4_end_d( grid%id, auxhist4_end_d ) CALL nl_get_auxhist4_end_h( grid%id, auxhist4_end_h ) CALL nl_get_auxhist4_end_m( grid%id, auxhist4_end_m ) CALL nl_get_auxhist4_end_s( grid%id, auxhist4_end_s ) IF ( MAX( auxhist4_end_y, auxhist4_end_mo, auxhist4_end_d, & auxhist4_end_h, auxhist4_end_m , auxhist4_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist4_end_mo, D=auxhist4_end_d, & H=auxhist4_end_h, M=auxhist4_end_m, S=auxhist4_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist4_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST4_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST4_ALARM ), rc=rc ) ENDIF ! AUXHIST5_ INTERVAL ! auxhist5_interval is left there (and means minutes) for consistency, but ! auxhist5_interval_m will take precedence if specified CALL nl_get_auxhist5_interval( grid%id, auxhist5_interval ) ! same as minutes CALL nl_get_auxhist5_interval_mo( grid%id, auxhist5_interval_mo ) CALL nl_get_auxhist5_interval_d( grid%id, auxhist5_interval_d ) CALL nl_get_auxhist5_interval_h( grid%id, auxhist5_interval_h ) CALL nl_get_auxhist5_interval_m( grid%id, auxhist5_interval_m ) CALL nl_get_auxhist5_interval_s( grid%id, auxhist5_interval_s ) IF ( auxhist5_interval_m .EQ. 0 ) auxhist5_interval_m = auxhist5_interval IF ( MAX( auxhist5_interval_mo, auxhist5_interval_d, & auxhist5_interval_h, auxhist5_interval_m , auxhist5_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist5_interval_mo, D=auxhist5_interval_d, & H=auxhist5_interval_h, M=auxhist5_interval_m, S=auxhist5_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist5_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist5_begin_y( grid%id, auxhist5_begin_y ) CALL nl_get_auxhist5_begin_mo( grid%id, auxhist5_begin_mo ) CALL nl_get_auxhist5_begin_d( grid%id, auxhist5_begin_d ) CALL nl_get_auxhist5_begin_h( grid%id, auxhist5_begin_h ) CALL nl_get_auxhist5_begin_m( grid%id, auxhist5_begin_m ) CALL nl_get_auxhist5_begin_s( grid%id, auxhist5_begin_s ) IF ( MAX( auxhist5_begin_y, auxhist5_begin_mo, auxhist5_begin_d, & auxhist5_begin_h, auxhist5_begin_m , auxhist5_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist5_begin_mo, D=auxhist5_begin_d, & H=auxhist5_begin_h, M=auxhist5_begin_m, S=auxhist5_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist5_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist5_end_y( grid%id, auxhist5_end_y ) CALL nl_get_auxhist5_end_mo( grid%id, auxhist5_end_mo ) CALL nl_get_auxhist5_end_d( grid%id, auxhist5_end_d ) CALL nl_get_auxhist5_end_h( grid%id, auxhist5_end_h ) CALL nl_get_auxhist5_end_m( grid%id, auxhist5_end_m ) CALL nl_get_auxhist5_end_s( grid%id, auxhist5_end_s ) IF ( MAX( auxhist5_end_y, auxhist5_end_mo, auxhist5_end_d, & auxhist5_end_h, auxhist5_end_m , auxhist5_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist5_end_mo, D=auxhist5_end_d, & H=auxhist5_end_h, M=auxhist5_end_m, S=auxhist5_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist5_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST5_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST5_ALARM ), rc=rc ) ENDIF ! AUXHIST6_ INTERVAL ! auxhist6_interval is left there (and means minutes) for consistency, but ! auxhist6_interval_m will take precedence if specified CALL nl_get_auxhist6_interval( grid%id, auxhist6_interval ) ! same as minutes CALL nl_get_auxhist6_interval_mo( grid%id, auxhist6_interval_mo ) CALL nl_get_auxhist6_interval_d( grid%id, auxhist6_interval_d ) CALL nl_get_auxhist6_interval_h( grid%id, auxhist6_interval_h ) CALL nl_get_auxhist6_interval_m( grid%id, auxhist6_interval_m ) CALL nl_get_auxhist6_interval_s( grid%id, auxhist6_interval_s ) IF ( auxhist6_interval_m .EQ. 0 ) auxhist6_interval_m = auxhist6_interval IF ( MAX( auxhist6_interval_mo, auxhist6_interval_d, & auxhist6_interval_h, auxhist6_interval_m , auxhist6_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist6_interval_mo, D=auxhist6_interval_d, & H=auxhist6_interval_h, M=auxhist6_interval_m, S=auxhist6_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist6_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist6_begin_y( grid%id, auxhist6_begin_y ) CALL nl_get_auxhist6_begin_mo( grid%id, auxhist6_begin_mo ) CALL nl_get_auxhist6_begin_d( grid%id, auxhist6_begin_d ) CALL nl_get_auxhist6_begin_h( grid%id, auxhist6_begin_h ) CALL nl_get_auxhist6_begin_m( grid%id, auxhist6_begin_m ) CALL nl_get_auxhist6_begin_s( grid%id, auxhist6_begin_s ) IF ( MAX( auxhist6_begin_y, auxhist6_begin_mo, auxhist6_begin_d, & auxhist6_begin_h, auxhist6_begin_m , auxhist6_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist6_begin_mo, D=auxhist6_begin_d, & H=auxhist6_begin_h, M=auxhist6_begin_m, S=auxhist6_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist6_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist6_end_y( grid%id, auxhist6_end_y ) CALL nl_get_auxhist6_end_mo( grid%id, auxhist6_end_mo ) CALL nl_get_auxhist6_end_d( grid%id, auxhist6_end_d ) CALL nl_get_auxhist6_end_h( grid%id, auxhist6_end_h ) CALL nl_get_auxhist6_end_m( grid%id, auxhist6_end_m ) CALL nl_get_auxhist6_end_s( grid%id, auxhist6_end_s ) IF ( MAX( auxhist6_end_y, auxhist6_end_mo, auxhist6_end_d, & auxhist6_end_h, auxhist6_end_m , auxhist6_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist6_end_mo, D=auxhist6_end_d, & H=auxhist6_end_h, M=auxhist6_end_m, S=auxhist6_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist6_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST6_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST6_ALARM ), rc=rc ) ENDIF ! AUXHIST7_ INTERVAL ! auxhist7_interval is left there (and means minutes) for consistency, but ! auxhist7_interval_m will take precedence if specified CALL nl_get_auxhist7_interval( grid%id, auxhist7_interval ) ! same as minutes CALL nl_get_auxhist7_interval_mo( grid%id, auxhist7_interval_mo ) CALL nl_get_auxhist7_interval_d( grid%id, auxhist7_interval_d ) CALL nl_get_auxhist7_interval_h( grid%id, auxhist7_interval_h ) CALL nl_get_auxhist7_interval_m( grid%id, auxhist7_interval_m ) CALL nl_get_auxhist7_interval_s( grid%id, auxhist7_interval_s ) IF ( auxhist7_interval_m .EQ. 0 ) auxhist7_interval_m = auxhist7_interval IF ( MAX( auxhist7_interval_mo, auxhist7_interval_d, & auxhist7_interval_h, auxhist7_interval_m , auxhist7_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist7_interval_mo, D=auxhist7_interval_d, & H=auxhist7_interval_h, M=auxhist7_interval_m, S=auxhist7_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist7_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist7_begin_y( grid%id, auxhist7_begin_y ) CALL nl_get_auxhist7_begin_mo( grid%id, auxhist7_begin_mo ) CALL nl_get_auxhist7_begin_d( grid%id, auxhist7_begin_d ) CALL nl_get_auxhist7_begin_h( grid%id, auxhist7_begin_h ) CALL nl_get_auxhist7_begin_m( grid%id, auxhist7_begin_m ) CALL nl_get_auxhist7_begin_s( grid%id, auxhist7_begin_s ) IF ( MAX( auxhist7_begin_y, auxhist7_begin_mo, auxhist7_begin_d, & auxhist7_begin_h, auxhist7_begin_m , auxhist7_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist7_begin_mo, D=auxhist7_begin_d, & H=auxhist7_begin_h, M=auxhist7_begin_m, S=auxhist7_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist7_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist7_end_y( grid%id, auxhist7_end_y ) CALL nl_get_auxhist7_end_mo( grid%id, auxhist7_end_mo ) CALL nl_get_auxhist7_end_d( grid%id, auxhist7_end_d ) CALL nl_get_auxhist7_end_h( grid%id, auxhist7_end_h ) CALL nl_get_auxhist7_end_m( grid%id, auxhist7_end_m ) CALL nl_get_auxhist7_end_s( grid%id, auxhist7_end_s ) IF ( MAX( auxhist7_end_y, auxhist7_end_mo, auxhist7_end_d, & auxhist7_end_h, auxhist7_end_m , auxhist7_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist7_end_mo, D=auxhist7_end_d, & H=auxhist7_end_h, M=auxhist7_end_m, S=auxhist7_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist7_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST7_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST7_ALARM ), rc=rc ) ENDIF ! AUXHIST8_ INTERVAL ! auxhist8_interval is left there (and means minutes) for consistency, but ! auxhist8_interval_m will take precedence if specified CALL nl_get_auxhist8_interval( grid%id, auxhist8_interval ) ! same as minutes CALL nl_get_auxhist8_interval_mo( grid%id, auxhist8_interval_mo ) CALL nl_get_auxhist8_interval_d( grid%id, auxhist8_interval_d ) CALL nl_get_auxhist8_interval_h( grid%id, auxhist8_interval_h ) CALL nl_get_auxhist8_interval_m( grid%id, auxhist8_interval_m ) CALL nl_get_auxhist8_interval_s( grid%id, auxhist8_interval_s ) IF ( auxhist8_interval_m .EQ. 0 ) auxhist8_interval_m = auxhist8_interval IF ( MAX( auxhist8_interval_mo, auxhist8_interval_d, & auxhist8_interval_h, auxhist8_interval_m , auxhist8_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist8_interval_mo, D=auxhist8_interval_d, & H=auxhist8_interval_h, M=auxhist8_interval_m, S=auxhist8_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist8_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist8_begin_y( grid%id, auxhist8_begin_y ) CALL nl_get_auxhist8_begin_mo( grid%id, auxhist8_begin_mo ) CALL nl_get_auxhist8_begin_d( grid%id, auxhist8_begin_d ) CALL nl_get_auxhist8_begin_h( grid%id, auxhist8_begin_h ) CALL nl_get_auxhist8_begin_m( grid%id, auxhist8_begin_m ) CALL nl_get_auxhist8_begin_s( grid%id, auxhist8_begin_s ) IF ( MAX( auxhist8_begin_y, auxhist8_begin_mo, auxhist8_begin_d, & auxhist8_begin_h, auxhist8_begin_m , auxhist8_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist8_begin_mo, D=auxhist8_begin_d, & H=auxhist8_begin_h, M=auxhist8_begin_m, S=auxhist8_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist8_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist8_end_y( grid%id, auxhist8_end_y ) CALL nl_get_auxhist8_end_mo( grid%id, auxhist8_end_mo ) CALL nl_get_auxhist8_end_d( grid%id, auxhist8_end_d ) CALL nl_get_auxhist8_end_h( grid%id, auxhist8_end_h ) CALL nl_get_auxhist8_end_m( grid%id, auxhist8_end_m ) CALL nl_get_auxhist8_end_s( grid%id, auxhist8_end_s ) IF ( MAX( auxhist8_end_y, auxhist8_end_mo, auxhist8_end_d, & auxhist8_end_h, auxhist8_end_m , auxhist8_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist8_end_mo, D=auxhist8_end_d, & H=auxhist8_end_h, M=auxhist8_end_m, S=auxhist8_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist8_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST8_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST8_ALARM ), rc=rc ) ENDIF ! AUXHIST9_ INTERVAL ! auxhist9_interval is left there (and means minutes) for consistency, but ! auxhist9_interval_m will take precedence if specified CALL nl_get_auxhist9_interval( grid%id, auxhist9_interval ) ! same as minutes CALL nl_get_auxhist9_interval_mo( grid%id, auxhist9_interval_mo ) CALL nl_get_auxhist9_interval_d( grid%id, auxhist9_interval_d ) CALL nl_get_auxhist9_interval_h( grid%id, auxhist9_interval_h ) CALL nl_get_auxhist9_interval_m( grid%id, auxhist9_interval_m ) CALL nl_get_auxhist9_interval_s( grid%id, auxhist9_interval_s ) IF ( auxhist9_interval_m .EQ. 0 ) auxhist9_interval_m = auxhist9_interval IF ( MAX( auxhist9_interval_mo, auxhist9_interval_d, & auxhist9_interval_h, auxhist9_interval_m , auxhist9_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist9_interval_mo, D=auxhist9_interval_d, & H=auxhist9_interval_h, M=auxhist9_interval_m, S=auxhist9_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist9_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist9_begin_y( grid%id, auxhist9_begin_y ) CALL nl_get_auxhist9_begin_mo( grid%id, auxhist9_begin_mo ) CALL nl_get_auxhist9_begin_d( grid%id, auxhist9_begin_d ) CALL nl_get_auxhist9_begin_h( grid%id, auxhist9_begin_h ) CALL nl_get_auxhist9_begin_m( grid%id, auxhist9_begin_m ) CALL nl_get_auxhist9_begin_s( grid%id, auxhist9_begin_s ) IF ( MAX( auxhist9_begin_y, auxhist9_begin_mo, auxhist9_begin_d, & auxhist9_begin_h, auxhist9_begin_m , auxhist9_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist9_begin_mo, D=auxhist9_begin_d, & H=auxhist9_begin_h, M=auxhist9_begin_m, S=auxhist9_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist9_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist9_end_y( grid%id, auxhist9_end_y ) CALL nl_get_auxhist9_end_mo( grid%id, auxhist9_end_mo ) CALL nl_get_auxhist9_end_d( grid%id, auxhist9_end_d ) CALL nl_get_auxhist9_end_h( grid%id, auxhist9_end_h ) CALL nl_get_auxhist9_end_m( grid%id, auxhist9_end_m ) CALL nl_get_auxhist9_end_s( grid%id, auxhist9_end_s ) IF ( MAX( auxhist9_end_y, auxhist9_end_mo, auxhist9_end_d, & auxhist9_end_h, auxhist9_end_m , auxhist9_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist9_end_mo, D=auxhist9_end_d, & H=auxhist9_end_h, M=auxhist9_end_m, S=auxhist9_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist9_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST9_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST9_ALARM ), rc=rc ) ENDIF ! AUXHIST10_ INTERVAL ! auxhist10_interval is left there (and means minutes) for consistency, but ! auxhist10_interval_m will take precedence if specified CALL nl_get_auxhist10_interval( grid%id, auxhist10_interval ) ! same as minutes CALL nl_get_auxhist10_interval_mo( grid%id, auxhist10_interval_mo ) CALL nl_get_auxhist10_interval_d( grid%id, auxhist10_interval_d ) CALL nl_get_auxhist10_interval_h( grid%id, auxhist10_interval_h ) CALL nl_get_auxhist10_interval_m( grid%id, auxhist10_interval_m ) CALL nl_get_auxhist10_interval_s( grid%id, auxhist10_interval_s ) IF ( auxhist10_interval_m .EQ. 0 ) auxhist10_interval_m = auxhist10_interval IF ( MAX( auxhist10_interval_mo, auxhist10_interval_d, & auxhist10_interval_h, auxhist10_interval_m , auxhist10_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist10_interval_mo, D=auxhist10_interval_d, & H=auxhist10_interval_h, M=auxhist10_interval_m, S=auxhist10_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist10_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist10_begin_y( grid%id, auxhist10_begin_y ) CALL nl_get_auxhist10_begin_mo( grid%id, auxhist10_begin_mo ) CALL nl_get_auxhist10_begin_d( grid%id, auxhist10_begin_d ) CALL nl_get_auxhist10_begin_h( grid%id, auxhist10_begin_h ) CALL nl_get_auxhist10_begin_m( grid%id, auxhist10_begin_m ) CALL nl_get_auxhist10_begin_s( grid%id, auxhist10_begin_s ) IF ( MAX( auxhist10_begin_y, auxhist10_begin_mo, auxhist10_begin_d, & auxhist10_begin_h, auxhist10_begin_m , auxhist10_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist10_begin_mo, D=auxhist10_begin_d, & H=auxhist10_begin_h, M=auxhist10_begin_m, S=auxhist10_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist10_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist10_end_y( grid%id, auxhist10_end_y ) CALL nl_get_auxhist10_end_mo( grid%id, auxhist10_end_mo ) CALL nl_get_auxhist10_end_d( grid%id, auxhist10_end_d ) CALL nl_get_auxhist10_end_h( grid%id, auxhist10_end_h ) CALL nl_get_auxhist10_end_m( grid%id, auxhist10_end_m ) CALL nl_get_auxhist10_end_s( grid%id, auxhist10_end_s ) IF ( MAX( auxhist10_end_y, auxhist10_end_mo, auxhist10_end_d, & auxhist10_end_h, auxhist10_end_m , auxhist10_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist10_end_mo, D=auxhist10_end_d, & H=auxhist10_end_h, M=auxhist10_end_m, S=auxhist10_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist10_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST10_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST10_ALARM ), rc=rc ) ENDIF ! AUXHIST11_ INTERVAL ! auxhist11_interval is left there (and means minutes) for consistency, but ! auxhist11_interval_m will take precedence if specified CALL nl_get_auxhist11_interval( grid%id, auxhist11_interval ) ! same as minutes CALL nl_get_auxhist11_interval_mo( grid%id, auxhist11_interval_mo ) CALL nl_get_auxhist11_interval_d( grid%id, auxhist11_interval_d ) CALL nl_get_auxhist11_interval_h( grid%id, auxhist11_interval_h ) CALL nl_get_auxhist11_interval_m( grid%id, auxhist11_interval_m ) CALL nl_get_auxhist11_interval_s( grid%id, auxhist11_interval_s ) IF ( auxhist11_interval_m .EQ. 0 ) auxhist11_interval_m = auxhist11_interval IF ( MAX( auxhist11_interval_mo, auxhist11_interval_d, & auxhist11_interval_h, auxhist11_interval_m , auxhist11_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxhist11_interval_mo, D=auxhist11_interval_d, & H=auxhist11_interval_h, M=auxhist11_interval_m, S=auxhist11_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist11_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxhist11_begin_y( grid%id, auxhist11_begin_y ) CALL nl_get_auxhist11_begin_mo( grid%id, auxhist11_begin_mo ) CALL nl_get_auxhist11_begin_d( grid%id, auxhist11_begin_d ) CALL nl_get_auxhist11_begin_h( grid%id, auxhist11_begin_h ) CALL nl_get_auxhist11_begin_m( grid%id, auxhist11_begin_m ) CALL nl_get_auxhist11_begin_s( grid%id, auxhist11_begin_s ) IF ( MAX( auxhist11_begin_y, auxhist11_begin_mo, auxhist11_begin_d, & auxhist11_begin_h, auxhist11_begin_m , auxhist11_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxhist11_begin_mo, D=auxhist11_begin_d, & H=auxhist11_begin_h, M=auxhist11_begin_m, S=auxhist11_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist11_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxhist11_end_y( grid%id, auxhist11_end_y ) CALL nl_get_auxhist11_end_mo( grid%id, auxhist11_end_mo ) CALL nl_get_auxhist11_end_d( grid%id, auxhist11_end_d ) CALL nl_get_auxhist11_end_h( grid%id, auxhist11_end_h ) CALL nl_get_auxhist11_end_m( grid%id, auxhist11_end_m ) CALL nl_get_auxhist11_end_s( grid%id, auxhist11_end_s ) IF ( MAX( auxhist11_end_y, auxhist11_end_mo, auxhist11_end_d, & auxhist11_end_h, auxhist11_end_m , auxhist11_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxhist11_end_mo, D=auxhist11_end_d, & H=auxhist11_end_h, M=auxhist11_end_m, S=auxhist11_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxhist11_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXHIST11_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXHIST11_ALARM ), rc=rc ) ENDIF ! AUXINPUT1_ INTERVAL ! auxinput1_interval is left there (and means minutes) for consistency, but ! auxinput1_interval_m will take precedence if specified CALL nl_get_auxinput1_interval( grid%id, auxinput1_interval ) ! same as minutes CALL nl_get_auxinput1_interval_mo( grid%id, auxinput1_interval_mo ) CALL nl_get_auxinput1_interval_d( grid%id, auxinput1_interval_d ) CALL nl_get_auxinput1_interval_h( grid%id, auxinput1_interval_h ) CALL nl_get_auxinput1_interval_m( grid%id, auxinput1_interval_m ) CALL nl_get_auxinput1_interval_s( grid%id, auxinput1_interval_s ) IF ( auxinput1_interval_m .EQ. 0 ) auxinput1_interval_m = auxinput1_interval IF ( MAX( auxinput1_interval_mo, auxinput1_interval_d, & auxinput1_interval_h, auxinput1_interval_m , auxinput1_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput1_interval_mo, D=auxinput1_interval_d, & H=auxinput1_interval_h, M=auxinput1_interval_m, S=auxinput1_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput1_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput1_begin_y( grid%id, auxinput1_begin_y ) CALL nl_get_auxinput1_begin_mo( grid%id, auxinput1_begin_mo ) CALL nl_get_auxinput1_begin_d( grid%id, auxinput1_begin_d ) CALL nl_get_auxinput1_begin_h( grid%id, auxinput1_begin_h ) CALL nl_get_auxinput1_begin_m( grid%id, auxinput1_begin_m ) CALL nl_get_auxinput1_begin_s( grid%id, auxinput1_begin_s ) IF ( MAX( auxinput1_begin_y, auxinput1_begin_mo, auxinput1_begin_d, & auxinput1_begin_h, auxinput1_begin_m , auxinput1_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput1_begin_mo, D=auxinput1_begin_d, & H=auxinput1_begin_h, M=auxinput1_begin_m, S=auxinput1_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput1_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput1_end_y( grid%id, auxinput1_end_y ) CALL nl_get_auxinput1_end_mo( grid%id, auxinput1_end_mo ) CALL nl_get_auxinput1_end_d( grid%id, auxinput1_end_d ) CALL nl_get_auxinput1_end_h( grid%id, auxinput1_end_h ) CALL nl_get_auxinput1_end_m( grid%id, auxinput1_end_m ) CALL nl_get_auxinput1_end_s( grid%id, auxinput1_end_s ) IF ( MAX( auxinput1_end_y, auxinput1_end_mo, auxinput1_end_d, & auxinput1_end_h, auxinput1_end_m , auxinput1_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput1_end_mo, D=auxinput1_end_d, & H=auxinput1_end_h, M=auxinput1_end_m, S=auxinput1_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput1_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT1_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT1_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT1_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT2_ INTERVAL ! auxinput2_interval is left there (and means minutes) for consistency, but ! auxinput2_interval_m will take precedence if specified CALL nl_get_auxinput2_interval( grid%id, auxinput2_interval ) ! same as minutes CALL nl_get_auxinput2_interval_mo( grid%id, auxinput2_interval_mo ) CALL nl_get_auxinput2_interval_d( grid%id, auxinput2_interval_d ) CALL nl_get_auxinput2_interval_h( grid%id, auxinput2_interval_h ) CALL nl_get_auxinput2_interval_m( grid%id, auxinput2_interval_m ) CALL nl_get_auxinput2_interval_s( grid%id, auxinput2_interval_s ) IF ( auxinput2_interval_m .EQ. 0 ) auxinput2_interval_m = auxinput2_interval IF ( MAX( auxinput2_interval_mo, auxinput2_interval_d, & auxinput2_interval_h, auxinput2_interval_m , auxinput2_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput2_interval_mo, D=auxinput2_interval_d, & H=auxinput2_interval_h, M=auxinput2_interval_m, S=auxinput2_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput2_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput2_begin_y( grid%id, auxinput2_begin_y ) CALL nl_get_auxinput2_begin_mo( grid%id, auxinput2_begin_mo ) CALL nl_get_auxinput2_begin_d( grid%id, auxinput2_begin_d ) CALL nl_get_auxinput2_begin_h( grid%id, auxinput2_begin_h ) CALL nl_get_auxinput2_begin_m( grid%id, auxinput2_begin_m ) CALL nl_get_auxinput2_begin_s( grid%id, auxinput2_begin_s ) IF ( MAX( auxinput2_begin_y, auxinput2_begin_mo, auxinput2_begin_d, & auxinput2_begin_h, auxinput2_begin_m , auxinput2_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput2_begin_mo, D=auxinput2_begin_d, & H=auxinput2_begin_h, M=auxinput2_begin_m, S=auxinput2_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput2_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput2_end_y( grid%id, auxinput2_end_y ) CALL nl_get_auxinput2_end_mo( grid%id, auxinput2_end_mo ) CALL nl_get_auxinput2_end_d( grid%id, auxinput2_end_d ) CALL nl_get_auxinput2_end_h( grid%id, auxinput2_end_h ) CALL nl_get_auxinput2_end_m( grid%id, auxinput2_end_m ) CALL nl_get_auxinput2_end_s( grid%id, auxinput2_end_s ) IF ( MAX( auxinput2_end_y, auxinput2_end_mo, auxinput2_end_d, & auxinput2_end_h, auxinput2_end_m , auxinput2_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput2_end_mo, D=auxinput2_end_d, & H=auxinput2_end_h, M=auxinput2_end_m, S=auxinput2_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput2_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT2_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT2_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT2_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT3_ INTERVAL ! auxinput3_interval is left there (and means minutes) for consistency, but ! auxinput3_interval_m will take precedence if specified CALL nl_get_auxinput3_interval( grid%id, auxinput3_interval ) ! same as minutes CALL nl_get_auxinput3_interval_mo( grid%id, auxinput3_interval_mo ) CALL nl_get_auxinput3_interval_d( grid%id, auxinput3_interval_d ) CALL nl_get_auxinput3_interval_h( grid%id, auxinput3_interval_h ) CALL nl_get_auxinput3_interval_m( grid%id, auxinput3_interval_m ) CALL nl_get_auxinput3_interval_s( grid%id, auxinput3_interval_s ) IF ( auxinput3_interval_m .EQ. 0 ) auxinput3_interval_m = auxinput3_interval IF ( MAX( auxinput3_interval_mo, auxinput3_interval_d, & auxinput3_interval_h, auxinput3_interval_m , auxinput3_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput3_interval_mo, D=auxinput3_interval_d, & H=auxinput3_interval_h, M=auxinput3_interval_m, S=auxinput3_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput3_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput3_begin_y( grid%id, auxinput3_begin_y ) CALL nl_get_auxinput3_begin_mo( grid%id, auxinput3_begin_mo ) CALL nl_get_auxinput3_begin_d( grid%id, auxinput3_begin_d ) CALL nl_get_auxinput3_begin_h( grid%id, auxinput3_begin_h ) CALL nl_get_auxinput3_begin_m( grid%id, auxinput3_begin_m ) CALL nl_get_auxinput3_begin_s( grid%id, auxinput3_begin_s ) IF ( MAX( auxinput3_begin_y, auxinput3_begin_mo, auxinput3_begin_d, & auxinput3_begin_h, auxinput3_begin_m , auxinput3_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput3_begin_mo, D=auxinput3_begin_d, & H=auxinput3_begin_h, M=auxinput3_begin_m, S=auxinput3_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput3_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput3_end_y( grid%id, auxinput3_end_y ) CALL nl_get_auxinput3_end_mo( grid%id, auxinput3_end_mo ) CALL nl_get_auxinput3_end_d( grid%id, auxinput3_end_d ) CALL nl_get_auxinput3_end_h( grid%id, auxinput3_end_h ) CALL nl_get_auxinput3_end_m( grid%id, auxinput3_end_m ) CALL nl_get_auxinput3_end_s( grid%id, auxinput3_end_s ) IF ( MAX( auxinput3_end_y, auxinput3_end_mo, auxinput3_end_d, & auxinput3_end_h, auxinput3_end_m , auxinput3_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput3_end_mo, D=auxinput3_end_d, & H=auxinput3_end_h, M=auxinput3_end_m, S=auxinput3_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput3_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT3_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT3_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT3_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT4_ INTERVAL ! auxinput4_interval is left there (and means minutes) for consistency, but ! auxinput4_interval_m will take precedence if specified CALL nl_get_auxinput4_interval( grid%id, auxinput4_interval ) ! same as minutes CALL nl_get_auxinput4_interval_mo( grid%id, auxinput4_interval_mo ) CALL nl_get_auxinput4_interval_d( grid%id, auxinput4_interval_d ) CALL nl_get_auxinput4_interval_h( grid%id, auxinput4_interval_h ) CALL nl_get_auxinput4_interval_m( grid%id, auxinput4_interval_m ) CALL nl_get_auxinput4_interval_s( grid%id, auxinput4_interval_s ) IF ( auxinput4_interval_m .EQ. 0 ) auxinput4_interval_m = auxinput4_interval IF ( MAX( auxinput4_interval_mo, auxinput4_interval_d, & auxinput4_interval_h, auxinput4_interval_m , auxinput4_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput4_interval_mo, D=auxinput4_interval_d, & H=auxinput4_interval_h, M=auxinput4_interval_m, S=auxinput4_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput4_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput4_begin_y( grid%id, auxinput4_begin_y ) CALL nl_get_auxinput4_begin_mo( grid%id, auxinput4_begin_mo ) CALL nl_get_auxinput4_begin_d( grid%id, auxinput4_begin_d ) CALL nl_get_auxinput4_begin_h( grid%id, auxinput4_begin_h ) CALL nl_get_auxinput4_begin_m( grid%id, auxinput4_begin_m ) CALL nl_get_auxinput4_begin_s( grid%id, auxinput4_begin_s ) IF ( MAX( auxinput4_begin_y, auxinput4_begin_mo, auxinput4_begin_d, & auxinput4_begin_h, auxinput4_begin_m , auxinput4_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput4_begin_mo, D=auxinput4_begin_d, & H=auxinput4_begin_h, M=auxinput4_begin_m, S=auxinput4_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput4_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput4_end_y( grid%id, auxinput4_end_y ) CALL nl_get_auxinput4_end_mo( grid%id, auxinput4_end_mo ) CALL nl_get_auxinput4_end_d( grid%id, auxinput4_end_d ) CALL nl_get_auxinput4_end_h( grid%id, auxinput4_end_h ) CALL nl_get_auxinput4_end_m( grid%id, auxinput4_end_m ) CALL nl_get_auxinput4_end_s( grid%id, auxinput4_end_s ) IF ( MAX( auxinput4_end_y, auxinput4_end_mo, auxinput4_end_d, & auxinput4_end_h, auxinput4_end_m , auxinput4_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput4_end_mo, D=auxinput4_end_d, & H=auxinput4_end_h, M=auxinput4_end_m, S=auxinput4_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput4_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT4_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT4_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT4_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT5_ INTERVAL ! auxinput5_interval is left there (and means minutes) for consistency, but ! auxinput5_interval_m will take precedence if specified CALL nl_get_auxinput5_interval( grid%id, auxinput5_interval ) ! same as minutes CALL nl_get_auxinput5_interval_mo( grid%id, auxinput5_interval_mo ) CALL nl_get_auxinput5_interval_d( grid%id, auxinput5_interval_d ) CALL nl_get_auxinput5_interval_h( grid%id, auxinput5_interval_h ) CALL nl_get_auxinput5_interval_m( grid%id, auxinput5_interval_m ) CALL nl_get_auxinput5_interval_s( grid%id, auxinput5_interval_s ) IF ( auxinput5_interval_m .EQ. 0 ) auxinput5_interval_m = auxinput5_interval IF ( MAX( auxinput5_interval_mo, auxinput5_interval_d, & auxinput5_interval_h, auxinput5_interval_m , auxinput5_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput5_interval_mo, D=auxinput5_interval_d, & H=auxinput5_interval_h, M=auxinput5_interval_m, S=auxinput5_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput5_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput5_begin_y( grid%id, auxinput5_begin_y ) CALL nl_get_auxinput5_begin_mo( grid%id, auxinput5_begin_mo ) CALL nl_get_auxinput5_begin_d( grid%id, auxinput5_begin_d ) CALL nl_get_auxinput5_begin_h( grid%id, auxinput5_begin_h ) CALL nl_get_auxinput5_begin_m( grid%id, auxinput5_begin_m ) CALL nl_get_auxinput5_begin_s( grid%id, auxinput5_begin_s ) IF ( MAX( auxinput5_begin_y, auxinput5_begin_mo, auxinput5_begin_d, & auxinput5_begin_h, auxinput5_begin_m , auxinput5_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput5_begin_mo, D=auxinput5_begin_d, & H=auxinput5_begin_h, M=auxinput5_begin_m, S=auxinput5_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput5_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput5_end_y( grid%id, auxinput5_end_y ) CALL nl_get_auxinput5_end_mo( grid%id, auxinput5_end_mo ) CALL nl_get_auxinput5_end_d( grid%id, auxinput5_end_d ) CALL nl_get_auxinput5_end_h( grid%id, auxinput5_end_h ) CALL nl_get_auxinput5_end_m( grid%id, auxinput5_end_m ) CALL nl_get_auxinput5_end_s( grid%id, auxinput5_end_s ) IF ( MAX( auxinput5_end_y, auxinput5_end_mo, auxinput5_end_d, & auxinput5_end_h, auxinput5_end_m , auxinput5_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput5_end_mo, D=auxinput5_end_d, & H=auxinput5_end_h, M=auxinput5_end_m, S=auxinput5_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput5_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT5_ALARM, interval, begin_time, end_time ) !TBH: Should be OK to remove the "#else" section and the code it contains !TBH: because later code overwrites grid%alarms( AUXINPUT5_ALARM )... !TBH: In fact, by setting namelist values for auxinput5 correctly, it ought !TBH: to be possible to get rid of all "#ifdef WRF_CHEM" bits in this file... #ifndef WRF_CHEM IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT5_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT5_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF #else CALL WRFU_AlarmEnable( grid%alarms( AUXINPUT5_ALARM ), rc=rc ) CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT5_ALARM ), rc=rc ) #endif CALL domain_alarm_create( grid, BOUNDARY_ALARM ) CALL WRFU_AlarmEnable( grid%alarms( BOUNDARY_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmEnable(BOUNDARY_ALARM) FAILED', & __FILE__ , & __LINE__ ) CALL WRFU_AlarmRingerOn( grid%alarms( BOUNDARY_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(BOUNDARY_ALARM) FAILED', & __FILE__ , & __LINE__ ) #ifdef WRF_CHEM ! TBH: NOTE: Proper setting of namelist variables for auxinput5 ought to ! TBH: make this hard-coded bit unnecessary. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! add for wrf_chem emiss input CALL WRFU_AlarmEnable( grid%alarms( AUXINPUT5_ALARM ), rc=rc ) CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT5_ALARM ), rc=rc ) ! end for wrf chem emiss input !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! #endif ! AUXINPUT6_ INTERVAL ! auxinput6_interval is left there (and means minutes) for consistency, but ! auxinput6_interval_m will take precedence if specified CALL nl_get_auxinput6_interval( grid%id, auxinput6_interval ) ! same as minutes CALL nl_get_auxinput6_interval_mo( grid%id, auxinput6_interval_mo ) CALL nl_get_auxinput6_interval_d( grid%id, auxinput6_interval_d ) CALL nl_get_auxinput6_interval_h( grid%id, auxinput6_interval_h ) CALL nl_get_auxinput6_interval_m( grid%id, auxinput6_interval_m ) CALL nl_get_auxinput6_interval_s( grid%id, auxinput6_interval_s ) IF ( auxinput6_interval_m .EQ. 0 ) auxinput6_interval_m = auxinput6_interval IF ( MAX( auxinput6_interval_mo, auxinput6_interval_d, & auxinput6_interval_h, auxinput6_interval_m , auxinput6_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput6_interval_mo, D=auxinput6_interval_d, & H=auxinput6_interval_h, M=auxinput6_interval_m, S=auxinput6_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput6_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput6_begin_y( grid%id, auxinput6_begin_y ) CALL nl_get_auxinput6_begin_mo( grid%id, auxinput6_begin_mo ) CALL nl_get_auxinput6_begin_d( grid%id, auxinput6_begin_d ) CALL nl_get_auxinput6_begin_h( grid%id, auxinput6_begin_h ) CALL nl_get_auxinput6_begin_m( grid%id, auxinput6_begin_m ) CALL nl_get_auxinput6_begin_s( grid%id, auxinput6_begin_s ) IF ( MAX( auxinput6_begin_y, auxinput6_begin_mo, auxinput6_begin_d, & auxinput6_begin_h, auxinput6_begin_m , auxinput6_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput6_begin_mo, D=auxinput6_begin_d, & H=auxinput6_begin_h, M=auxinput6_begin_m, S=auxinput6_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput6_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput6_end_y( grid%id, auxinput6_end_y ) CALL nl_get_auxinput6_end_mo( grid%id, auxinput6_end_mo ) CALL nl_get_auxinput6_end_d( grid%id, auxinput6_end_d ) CALL nl_get_auxinput6_end_h( grid%id, auxinput6_end_h ) CALL nl_get_auxinput6_end_m( grid%id, auxinput6_end_m ) CALL nl_get_auxinput6_end_s( grid%id, auxinput6_end_s ) IF ( MAX( auxinput6_end_y, auxinput6_end_mo, auxinput6_end_d, & auxinput6_end_h, auxinput6_end_m , auxinput6_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput6_end_mo, D=auxinput6_end_d, & H=auxinput6_end_h, M=auxinput6_end_m, S=auxinput6_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput6_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT6_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT6_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT6_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT7_ INTERVAL ! auxinput7_interval is left there (and means minutes) for consistency, but ! auxinput7_interval_m will take precedence if specified CALL nl_get_auxinput7_interval( grid%id, auxinput7_interval ) ! same as minutes CALL nl_get_auxinput7_interval_mo( grid%id, auxinput7_interval_mo ) CALL nl_get_auxinput7_interval_d( grid%id, auxinput7_interval_d ) CALL nl_get_auxinput7_interval_h( grid%id, auxinput7_interval_h ) CALL nl_get_auxinput7_interval_m( grid%id, auxinput7_interval_m ) CALL nl_get_auxinput7_interval_s( grid%id, auxinput7_interval_s ) IF ( auxinput7_interval_m .EQ. 0 ) auxinput7_interval_m = auxinput7_interval IF ( MAX( auxinput7_interval_mo, auxinput7_interval_d, & auxinput7_interval_h, auxinput7_interval_m , auxinput7_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput7_interval_mo, D=auxinput7_interval_d, & H=auxinput7_interval_h, M=auxinput7_interval_m, S=auxinput7_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput7_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput7_begin_y( grid%id, auxinput7_begin_y ) CALL nl_get_auxinput7_begin_mo( grid%id, auxinput7_begin_mo ) CALL nl_get_auxinput7_begin_d( grid%id, auxinput7_begin_d ) CALL nl_get_auxinput7_begin_h( grid%id, auxinput7_begin_h ) CALL nl_get_auxinput7_begin_m( grid%id, auxinput7_begin_m ) CALL nl_get_auxinput7_begin_s( grid%id, auxinput7_begin_s ) IF ( MAX( auxinput7_begin_y, auxinput7_begin_mo, auxinput7_begin_d, & auxinput7_begin_h, auxinput7_begin_m , auxinput7_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput7_begin_mo, D=auxinput7_begin_d, & H=auxinput7_begin_h, M=auxinput7_begin_m, S=auxinput7_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput7_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput7_end_y( grid%id, auxinput7_end_y ) CALL nl_get_auxinput7_end_mo( grid%id, auxinput7_end_mo ) CALL nl_get_auxinput7_end_d( grid%id, auxinput7_end_d ) CALL nl_get_auxinput7_end_h( grid%id, auxinput7_end_h ) CALL nl_get_auxinput7_end_m( grid%id, auxinput7_end_m ) CALL nl_get_auxinput7_end_s( grid%id, auxinput7_end_s ) IF ( MAX( auxinput7_end_y, auxinput7_end_mo, auxinput7_end_d, & auxinput7_end_h, auxinput7_end_m , auxinput7_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput7_end_mo, D=auxinput7_end_d, & H=auxinput7_end_h, M=auxinput7_end_m, S=auxinput7_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput7_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT7_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT7_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT7_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT8_ INTERVAL ! auxinput8_interval is left there (and means minutes) for consistency, but ! auxinput8_interval_m will take precedence if specified CALL nl_get_auxinput8_interval( grid%id, auxinput8_interval ) ! same as minutes CALL nl_get_auxinput8_interval_mo( grid%id, auxinput8_interval_mo ) CALL nl_get_auxinput8_interval_d( grid%id, auxinput8_interval_d ) CALL nl_get_auxinput8_interval_h( grid%id, auxinput8_interval_h ) CALL nl_get_auxinput8_interval_m( grid%id, auxinput8_interval_m ) CALL nl_get_auxinput8_interval_s( grid%id, auxinput8_interval_s ) IF ( auxinput8_interval_m .EQ. 0 ) auxinput8_interval_m = auxinput8_interval IF ( MAX( auxinput8_interval_mo, auxinput8_interval_d, & auxinput8_interval_h, auxinput8_interval_m , auxinput8_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput8_interval_mo, D=auxinput8_interval_d, & H=auxinput8_interval_h, M=auxinput8_interval_m, S=auxinput8_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput8_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput8_begin_y( grid%id, auxinput8_begin_y ) CALL nl_get_auxinput8_begin_mo( grid%id, auxinput8_begin_mo ) CALL nl_get_auxinput8_begin_d( grid%id, auxinput8_begin_d ) CALL nl_get_auxinput8_begin_h( grid%id, auxinput8_begin_h ) CALL nl_get_auxinput8_begin_m( grid%id, auxinput8_begin_m ) CALL nl_get_auxinput8_begin_s( grid%id, auxinput8_begin_s ) IF ( MAX( auxinput8_begin_y, auxinput8_begin_mo, auxinput8_begin_d, & auxinput8_begin_h, auxinput8_begin_m , auxinput8_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput8_begin_mo, D=auxinput8_begin_d, & H=auxinput8_begin_h, M=auxinput8_begin_m, S=auxinput8_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput8_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput8_end_y( grid%id, auxinput8_end_y ) CALL nl_get_auxinput8_end_mo( grid%id, auxinput8_end_mo ) CALL nl_get_auxinput8_end_d( grid%id, auxinput8_end_d ) CALL nl_get_auxinput8_end_h( grid%id, auxinput8_end_h ) CALL nl_get_auxinput8_end_m( grid%id, auxinput8_end_m ) CALL nl_get_auxinput8_end_s( grid%id, auxinput8_end_s ) IF ( MAX( auxinput8_end_y, auxinput8_end_mo, auxinput8_end_d, & auxinput8_end_h, auxinput8_end_m , auxinput8_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput8_end_mo, D=auxinput8_end_d, & H=auxinput8_end_h, M=auxinput8_end_m, S=auxinput8_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput8_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT8_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT8_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT8_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT9_ INTERVAL ! auxinput9_interval is left there (and means minutes) for consistency, but ! auxinput9_interval_m will take precedence if specified CALL nl_get_auxinput9_interval( grid%id, auxinput9_interval ) ! same as minutes CALL nl_get_auxinput9_interval_mo( grid%id, auxinput9_interval_mo ) CALL nl_get_auxinput9_interval_d( grid%id, auxinput9_interval_d ) CALL nl_get_auxinput9_interval_h( grid%id, auxinput9_interval_h ) CALL nl_get_auxinput9_interval_m( grid%id, auxinput9_interval_m ) CALL nl_get_auxinput9_interval_s( grid%id, auxinput9_interval_s ) IF ( auxinput9_interval_m .EQ. 0 ) auxinput9_interval_m = auxinput9_interval IF ( MAX( auxinput9_interval_mo, auxinput9_interval_d, & auxinput9_interval_h, auxinput9_interval_m , auxinput9_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput9_interval_mo, D=auxinput9_interval_d, & H=auxinput9_interval_h, M=auxinput9_interval_m, S=auxinput9_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput9_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput9_begin_y( grid%id, auxinput9_begin_y ) CALL nl_get_auxinput9_begin_mo( grid%id, auxinput9_begin_mo ) CALL nl_get_auxinput9_begin_d( grid%id, auxinput9_begin_d ) CALL nl_get_auxinput9_begin_h( grid%id, auxinput9_begin_h ) CALL nl_get_auxinput9_begin_m( grid%id, auxinput9_begin_m ) CALL nl_get_auxinput9_begin_s( grid%id, auxinput9_begin_s ) IF ( MAX( auxinput9_begin_y, auxinput9_begin_mo, auxinput9_begin_d, & auxinput9_begin_h, auxinput9_begin_m , auxinput9_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput9_begin_mo, D=auxinput9_begin_d, & H=auxinput9_begin_h, M=auxinput9_begin_m, S=auxinput9_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput9_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput9_end_y( grid%id, auxinput9_end_y ) CALL nl_get_auxinput9_end_mo( grid%id, auxinput9_end_mo ) CALL nl_get_auxinput9_end_d( grid%id, auxinput9_end_d ) CALL nl_get_auxinput9_end_h( grid%id, auxinput9_end_h ) CALL nl_get_auxinput9_end_m( grid%id, auxinput9_end_m ) CALL nl_get_auxinput9_end_s( grid%id, auxinput9_end_s ) IF ( MAX( auxinput9_end_y, auxinput9_end_mo, auxinput9_end_d, & auxinput9_end_h, auxinput9_end_m , auxinput9_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput9_end_mo, D=auxinput9_end_d, & H=auxinput9_end_h, M=auxinput9_end_m, S=auxinput9_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput9_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT9_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT9_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT9_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF #if (EM_CORE == 1) CALL nl_get_grid_fdda( grid%id, grid_fdda ) #endif ! AUXINPUT10_ INTERVAL (GFDDA) ! gfdda_interval is left there (and means minutes) for consistency, but ! gfdda_interval_m will take precedence if specified CALL nl_get_gfdda_interval( grid%id, gfdda_interval ) ! same as minutes CALL nl_get_gfdda_interval_mo( grid%id, gfdda_interval_mo ) CALL nl_get_gfdda_interval_d( grid%id, gfdda_interval_d ) CALL nl_get_gfdda_interval_h( grid%id, gfdda_interval_h ) CALL nl_get_gfdda_interval_m( grid%id, gfdda_interval_m ) CALL nl_get_gfdda_interval_s( grid%id, gfdda_interval_s ) IF ( gfdda_interval_m .EQ. 0 ) gfdda_interval_m = gfdda_interval IF ( MAX( gfdda_interval_mo, gfdda_interval_d, & gfdda_interval_h, gfdda_interval_m , gfdda_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=gfdda_interval_mo, D=gfdda_interval_d, & H=gfdda_interval_h, M=gfdda_interval_m, S=gfdda_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(gfdda_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF #if (EM_CORE == 1) IF( grid_fdda == 0 ) interval = run_length + padding_interval #endif CALL nl_get_gfdda_begin_y( grid%id, gfdda_begin_y ) CALL nl_get_gfdda_begin_mo( grid%id, gfdda_begin_mo ) CALL nl_get_gfdda_begin_d( grid%id, gfdda_begin_d ) CALL nl_get_gfdda_begin_h( grid%id, gfdda_begin_h ) CALL nl_get_gfdda_begin_m( grid%id, gfdda_begin_m ) CALL nl_get_gfdda_begin_s( grid%id, gfdda_begin_s ) IF ( MAX( gfdda_begin_y, gfdda_begin_mo, gfdda_begin_d, & gfdda_begin_h, gfdda_begin_m , gfdda_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=gfdda_begin_mo, D=gfdda_begin_d, & H=gfdda_begin_h, M=gfdda_begin_m, S=gfdda_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(gfdda_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_gfdda_end_y( grid%id, gfdda_end_y ) CALL nl_get_gfdda_end_mo( grid%id, gfdda_end_mo ) CALL nl_get_gfdda_end_d( grid%id, gfdda_end_d ) CALL nl_get_gfdda_end_h( grid%id, gfdda_end_h ) #if (EM_CORE == 1) IF( grid_fdda == 1 ) gfdda_end_h = gfdda_end_h - NINT( gfdda_interval_m/60.0 ) #endif CALL nl_get_gfdda_end_m( grid%id, gfdda_end_m ) CALL nl_get_gfdda_end_s( grid%id, gfdda_end_s ) IF ( MAX( gfdda_end_y, gfdda_end_mo, gfdda_end_d, & gfdda_end_h, gfdda_end_m , gfdda_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=gfdda_end_mo, D=gfdda_end_d, & H=gfdda_end_h, M=gfdda_end_m, S=gfdda_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(gfdda_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF #if (EM_CORE == 1) IF( grid_fdda == 0 ) end_time = run_length + padding_interval #endif CALL domain_alarm_create( grid, AUXINPUT10_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT10_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT10_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! AUXINPUT11_ INTERVAL ! auxinput11_interval is left there (and means minutes) for consistency, but ! auxinput11_interval_m will take precedence if specified CALL nl_get_auxinput11_interval( grid%id, auxinput11_interval ) ! same as minutes CALL nl_get_auxinput11_interval_mo( grid%id, auxinput11_interval_mo ) CALL nl_get_auxinput11_interval_d( grid%id, auxinput11_interval_d ) CALL nl_get_auxinput11_interval_h( grid%id, auxinput11_interval_h ) CALL nl_get_auxinput11_interval_m( grid%id, auxinput11_interval_m ) CALL nl_get_auxinput11_interval_s( grid%id, auxinput11_interval_s ) IF ( auxinput11_interval_m .EQ. 0 ) auxinput11_interval_m = auxinput11_interval IF ( MAX( auxinput11_interval_mo, auxinput11_interval_d, & auxinput11_interval_h, auxinput11_interval_m , auxinput11_interval_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( interval, MM=auxinput11_interval_mo, D=auxinput11_interval_d, & H=auxinput11_interval_h, M=auxinput11_interval_m, S=auxinput11_interval_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput11_interval) FAILED', & __FILE__ , & __LINE__ ) ELSE interval = run_length + padding_interval ENDIF CALL nl_get_auxinput11_begin_y( grid%id, auxinput11_begin_y ) CALL nl_get_auxinput11_begin_mo( grid%id, auxinput11_begin_mo ) CALL nl_get_auxinput11_begin_d( grid%id, auxinput11_begin_d ) CALL nl_get_auxinput11_begin_h( grid%id, auxinput11_begin_h ) CALL nl_get_auxinput11_begin_m( grid%id, auxinput11_begin_m ) CALL nl_get_auxinput11_begin_s( grid%id, auxinput11_begin_s ) IF ( MAX( auxinput11_begin_y, auxinput11_begin_mo, auxinput11_begin_d, & auxinput11_begin_h, auxinput11_begin_m , auxinput11_begin_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( begin_time , MM=auxinput11_begin_mo, D=auxinput11_begin_d, & H=auxinput11_begin_h, M=auxinput11_begin_m, S=auxinput11_begin_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput11_begin) FAILED', & __FILE__ , & __LINE__ ) ELSE begin_time = zero_time ENDIF CALL nl_get_auxinput11_end_y( grid%id, auxinput11_end_y ) CALL nl_get_auxinput11_end_mo( grid%id, auxinput11_end_mo ) CALL nl_get_auxinput11_end_d( grid%id, auxinput11_end_d ) CALL nl_get_auxinput11_end_h( grid%id, auxinput11_end_h ) CALL nl_get_auxinput11_end_m( grid%id, auxinput11_end_m ) CALL nl_get_auxinput11_end_s( grid%id, auxinput11_end_s ) IF ( MAX( auxinput11_end_y, auxinput11_end_mo, auxinput11_end_d, & auxinput11_end_h, auxinput11_end_m , auxinput11_end_s ) .GT. 0 ) THEN CALL WRFU_TimeIntervalSet( end_time , MM=auxinput11_end_mo, D=auxinput11_end_d, & H=auxinput11_end_h, M=auxinput11_end_m, S=auxinput11_end_s, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(auxinput11_end) FAILED', & __FILE__ , & __LINE__ ) ELSE end_time = run_length + padding_interval ENDIF CALL domain_alarm_create( grid, AUXINPUT11_ALARM, interval, begin_time, end_time ) IF ( interval .NE. run_length + padding_interval .AND. begin_time .EQ. zero_time ) THEN CALL WRFU_AlarmRingerOn( grid%alarms( AUXINPUT11_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(AUXINPUT11_ALARM) FAILED', & __FILE__ , & __LINE__ ) ENDIF ! This is the interval at which the code in time_for_move in share/mediation_integrate.F ! will recompute the center of the Vortex. Other times, it will use the last position. ! vortex_interval = 0 #ifdef MOVE_NESTS CALL nl_get_vortex_interval ( grid%id , vortex_interval ) #endif CALL WRFU_TimeIntervalSet( interval, M=vortex_interval, rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_TimeIntervalSet(interval) for computing vortex center FAILED', & __FILE__ , & __LINE__ ) CALL domain_alarm_create( grid, COMPUTE_VORTEX_CENTER_ALARM, interval ) #ifdef MOVE_NESTS CALL WRFU_AlarmEnable( grid%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmEnable(COMPUTE_VORTEX_CENTER_ALARM) FAILED', & __FILE__ , & __LINE__ ) CALL WRFU_AlarmRingerOn( grid%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmRingerOn(COMPUTE_VORTEX_CENTER_ALARM) FAILED', & __FILE__ , & __LINE__ ) #else ! Go ahead and let the alarm be defined, but disable it, since we are not using moving nests here. CALL WRFU_AlarmDisable( grid%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) CALL wrf_check_error( WRFU_SUCCESS, rc, & 'WRFU_AlarmDisable(COMPUTE_VORTEX_CENTER_ALARM) FAILED', & __FILE__ , & __LINE__ ) #endif grid%time_set = .TRUE. ! Initialize derived time quantities in grid state. ! These are updated in domain_clockadvance(). CALL domain_clock_get( grid, minutesSinceSimulationStart=grid%xtime ) CALL domain_clock_get( grid, currentDayOfYearReal=grid%julian ) WRITE(wrf_err_message,*) 'setup_timekeeping: set xtime to ',grid%xtime CALL wrf_debug ( 100, TRIM(wrf_err_message) ) WRITE(wrf_err_message,*) 'setup_timekeeping: set julian to ',grid%julian CALL wrf_debug ( 100, TRIM(wrf_err_message) ) CALL wrf_debug ( 100 , 'setup_timekeeping: returning...' ) END SUBROUTINE Setup_Timekeeping