!WRF:DRIVER_LAYER:MAIN ! ! ! ESMF Application Wrapper for coupling WRF with a "dummy" component ! that simply reads SSTs from a file, sends to WRF, receives SST from ! WRF (two-way coupling). and checks that the SSTs match. ! ! This file contains the main program and associated modules for the ! SST "dummy" component and a simple coupler. It creates ESMF Gridded ! and Coupler Components. ! ! This source file is only built when ESMF coupling is used. ! ! ! ! Modules module_sst_component_top and module_sst_setservices define the ! "SST" dummy component. ! MODULE module_sst_component_top ! ! This module defines sst_component_init1(), sst_component_init2(), ! sst_component_run1(), sst_component_run2(), and sst_component_finalize() ! routines that are called when SST is run as an ESMF component. ! USE ESMF_Mod USE module_esmf_extensions USE module_metadatautils, ONLY: AttachTimesToState IMPLICIT NONE ! everything is private by default PRIVATE ! Public entry points PUBLIC sst_component_init1 PUBLIC sst_component_init2 PUBLIC sst_component_run1 PUBLIC sst_component_run2 PUBLIC sst_component_finalize ! private stuff TYPE(ESMF_Grid), SAVE :: esmfgrid ! grid used in fields CHARACTER (4096) :: str INTEGER, SAVE :: fid ! file handle ! decomposition information INTEGER, SAVE :: ids, ide, jds, jde, kds, kde INTEGER, SAVE :: ims, ime, jms, jme, kms, kme INTEGER, SAVE :: ips, ipe, jps, jpe, kps, kpe REAL(ESMF_KIND_R4), POINTER, SAVE :: tmp_data_out_sst(:,:) REAL(ESMF_KIND_R4), POINTER, SAVE :: tmp_data_out_landmask(:,:) REAL(ESMF_KIND_R4), POINTER, SAVE :: tmp_data_in_sst(:,:) REAL(ESMF_KIND_R4), POINTER, SAVE :: tmp_data_in_landmask(:,:) INTEGER, SAVE :: domdesc LOGICAL, SAVE :: bdy_mask(4) ! MPI communicator, if needed INTEGER, SAVE :: mpicom ! field data REAL, POINTER, SAVE :: file_landmask_data(:,:), file_sst_data(:,:) ! input data file name CHARACTER ( ESMF_MAXSTR ), SAVE :: sstinfilename ! field names INTEGER, PARAMETER :: datacount = 2 INTEGER, PARAMETER :: SST_INDX = 1 INTEGER, PARAMETER :: LANDMASK_INDX = 2 CHARACTER(LEN=ESMF_MAXSTR), SAVE :: datanames(datacount) TYPE real2d REAL, POINTER :: r2d(:,:) END TYPE real2d TYPE(real2d) :: this_data(datacount) CONTAINS ! First-phase "init" reads "SST" data file and returns "time" metadata in ! exportState. SUBROUTINE sst_component_init1( gcomp, importState, exportState, clock, rc ) USE module_io TYPE(ESMF_GridComp), TARGET, INTENT(INOUT) :: gcomp TYPE(ESMF_State), TARGET, INTENT(INOUT) :: importState TYPE(ESMF_State), TARGET, INTENT(INOUT) :: exportState TYPE(ESMF_Clock), TARGET, INTENT(INOUT) :: clock INTEGER, INTENT( OUT) :: rc ! ! SST component init routine, phase 1. ! ! The arguments are: ! gcomp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! #ifdef DM_PARALLEL INCLUDE 'mpif.h' #endif ! Local variables CHARACTER (LEN=19) :: date_string #ifdef DM_PARALLEL TYPE(ESMF_VM) :: vm INTEGER :: mpicomtmp #endif TYPE(ESMF_Time) :: startTime, stopTime, currentTime, dataTime TYPE(ESMF_TimeInterval) :: timeStep INTEGER :: ierr, num_steps, time_loop_max INTEGER :: status_next_var !TODO: For now, sstinfilename is hard-coded !TODO: Upgrade to use a variant of construct_filename() via startTime !TODO: extracted from clock. sstinfilename = 'sstin_d01_000000' ! get MPI communicator out of current VM and duplicate (if needed) #ifdef DM_PARALLEL CALL ESMF_VMGetCurrent(vm, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'sst_component_init1: ESMF_VMGetCurrent failed' ) ENDIF CALL ESMF_VMGet(vm, mpiCommunicator=mpicomtmp, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'sst_component_init1: ESMF_VMGet failed' ) ENDIF CALL MPI_Comm_dup( mpicomtmp, mpicom, ierr ) #else mpicom = 0 #endif ! Open the "SST" input data file for reading. write(str,'(A,A)') 'Subroutine sst_component_init1: Opening data file ', & TRIM(sstinfilename) CALL wrf_message ( TRIM(str) ) CALL wrf_open_for_read ( TRIM(sstinfilename) , & mpicom , & mpicom , & "DATASET=INPUT" , & fid , & ierr ) IF ( ierr .NE. 0 ) THEN WRITE( str , FMT='(A,A,A,I8)' ) & 'subroutine sst_component_init1: error opening ', & TRIM(sstinfilename),' for reading ierr=',ierr CALL wrf_error_fatal ( TRIM(str) ) ENDIF WRITE( str , FMT='(A,A,A,I8)' ) & 'subroutine sst_component_init1: opened file ', & TRIM(sstinfilename),' for reading fid=',fid CALL wrf_debug ( 100, TRIM(str) ) ! How many data time levels are in the SST input file? num_steps = -1 time_loop_max = 0 CALL wrf_debug ( 100, 'subroutine sst_component_init1: find time_loop_max' ) ! compute SST start time, time step, and end time here get_the_right_time : DO CALL wrf_get_next_time ( fid, date_string, status_next_var ) write(str,'(A,A)') 'Subroutine sst_component_init1: SST data startTime: ', & date_string CALL wrf_debug ( 100 , TRIM(str) ) IF ( status_next_var == 0 ) THEN IF ( time_loop_max == 0 ) THEN CALL wrf_atotime( date_string, startTime ) ELSEIF ( time_loop_max == 1 ) THEN ! assumes fixed time step! CALL wrf_atotime( date_string, dataTime ) timeStep = dataTime - startTime ENDIF time_loop_max = time_loop_max + 1 CALL wrf_atotime( date_string, stopTime ) ELSE EXIT get_the_right_time ENDIF END DO get_the_right_time CALL wrf_timetoa ( stopTime, date_string ) write(str,'(A,A)') 'Subroutine sst_component_init1: SST data stopTime: ', & date_string CALL wrf_debug ( 100 , TRIM(str) ) ! attach times to exportState for use by driver CALL AttachTimesToState( exportState, startTime, stopTime, timeStep ) ! There should be a more elegant way to get to the beginning of the ! file, but this will do. CALL wrf_ioclose( fid , ierr ) IF ( ierr .NE. 0 ) THEN CALL wrf_error_fatal ( 'sst_component_init1: wrf_ioclose failed' ) ENDIF WRITE( str , FMT='(A,I8)' ) & 'subroutine sst_component_init1: closed file fid=',fid CALL wrf_debug ( 100, TRIM(str) ) ! set up field names !TODO: use CF conventions for "standard_name" once WRF Registry supports them !TODO: datanames(SST_INDX) = "sea_surface_temperature" !TODO: datanames(LANDMASK_INDX) = "land_binary_mask" datanames(SST_INDX) = "SST" datanames(LANDMASK_INDX) = "LANDMASK" rc = ESMF_SUCCESS END SUBROUTINE sst_component_init1 SUBROUTINE read_data( exportState, clock ) USE module_io TYPE(ESMF_State), INTENT(INOUT) :: exportState TYPE(ESMF_Clock), INTENT(IN ) :: clock ! ! Reads data from file and stores. Then ! stuffs the file data into the SST exportState. ! #include #include ! Local variables CHARACTER (LEN=19) :: date_string TYPE(ESMF_Time) :: currentTime, dataTime REAL(ESMF_KIND_R4), POINTER :: out_sst_ptr(:,:), out_landmask_ptr(:,:) TYPE(ESMF_Field) :: out_sst_field, out_landmask_field TYPE(ESMF_Field) :: in_sst_field, in_landmask_field INTEGER :: i, j CHARACTER(LEN=ESMF_MAXSTR) :: fieldname, debugmsg, errormsg, timestr INTEGER :: ierr INTEGER :: rc ! This call to wrf_get_next_time will position the dataset over the next ! time-frame in the file and return the date_string, which is used as an ! argument to the read_field routines in the blocks of code included ! below. CALL wrf_get_next_time( fid, date_string , ierr ) WRITE(str,'(A,A)') 'Subroutine read_data: SST data time: ', & date_string CALL wrf_debug ( 100 , TRIM(str) ) IF ( ierr .NE. 0 .AND. ierr .NE. WRF_WARN_NOTSUPPORTED .AND. & ierr .NE. WRF_WARN_DRYRUN_READ ) THEN CALL wrf_error_fatal ( "... May have run out of valid SST data ..." ) ELSE IF ( ierr .NE. WRF_WARN_NOTSUPPORTED .AND. & ierr .NE. WRF_WARN_DRYRUN_READ) THEN ! check input time against current time (which will be start time at ! beginning) CALL wrf_atotime( date_string, dataTime ) CALL ESMF_ClockGet( clock, CurrTime=currentTime, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( 'read_data: ESMF_ClockGet() failed' ) ENDIF CALL wrf_clockprint(150, clock, & 'DEBUG read_data(): get currentTime from clock,') IF ( dataTime .NE. currentTime ) THEN CALL wrf_timetoa ( dataTime, timestr ) WRITE( errormsg , * )'Time in file: ',trim( timestr ) CALL wrf_message ( trim(errormsg) ) CALL wrf_timetoa ( currentTime, timestr ) WRITE( errormsg , * )'Time on domain: ',trim( timestr ) CALL wrf_message ( trim(errormsg) ) CALL wrf_error_fatal( & "**ERROR** Time in input file not equal to time on domain **ERROR**" ) ENDIF ENDIF ! doing this in a loop only works if staggering is the same for all fields this_data(SST_INDX)%r2d => file_sst_data this_data(LANDMASK_INDX)%r2d => file_landmask_data DO i=1, datacount fieldname = TRIM(datanames(i)) debugmsg = 'ext_read_field '//TRIM(fieldname)//' memorder XY' errormsg = 'could not read '//TRIM(fieldname)//' data from file' CALL wrf_ext_read_field ( & fid , & ! DataHandle date_string , & ! DateStr TRIM(fieldname) , & ! Data Name this_data(i)%r2d , & ! Field WRF_REAL , & ! FieldType mpicom , & ! Comm mpicom , & ! I/O Comm domdesc , & ! Domain descriptor bdy_mask , & ! bdy_mask 'XY' , & ! MemoryOrder '' , & ! Stagger TRIM(debugmsg) , & ! Debug message ! ids , (ide-1) , jds , (jde-1) , 1 , 1 , & ! ims , ime , jms , jme , 1 , 1 , & ! ips , MIN( (ide-1), ipe ) , jps , MIN( (jde-1), jpe ) , 1 , 1 , & !jm the dimensions have already been reduced to the non-staggered WRF grid when ! they were stored in this module.. Just use as is. ids , ide , jds , jde , 1 , 1 , & ims , ime , jms , jme , 1 , 1 , & ips , ipe , jps , jpe , 1 , 1 , & ierr ) IF (ierr /= 0) THEN CALL wrf_error_fatal ( TRIM(errormsg) ) ENDIF ENDDO ! stuff fields into exportState !TODO: change this to Bundles, eventually CALL ESMF_StateGet( exportState, TRIM(datanames(SST_INDX)), & out_sst_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not find sea_surface_temperature field in exportState' ) ENDIF CALL ESMF_StateGet( exportState, TRIM(datanames(LANDMASK_INDX)), & out_landmask_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not find land_binary_mask field in exportState' ) ENDIF ! CALL ESMF_FieldGetDataPointer( out_sst_field, out_sst_ptr, rc=rc ) CALL ESMF_FieldGet( out_sst_field, 0, out_sst_ptr, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not find sea_surface_temperature data in sea_surface_temperature field' ) ENDIF ! CALL ESMF_FieldGetDataPointer( out_landmask_field, out_landmask_ptr, rc=rc ) CALL ESMF_FieldGet( out_landmask_field, 0, out_landmask_ptr, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not find land_binary_mask data in land_binary_mask field' ) ENDIF ! staggered starts/ends DO j= jps , jpe DO i= ips , ipe out_sst_ptr(i,j) = file_sst_data(i,j) out_landmask_ptr(i,j) = file_landmask_data(i,j) ENDDO ENDDO END SUBROUTINE read_data SUBROUTINE compare_data( importState, clock ) TYPE(ESMF_State), INTENT(INOUT) :: importState !TODO: remove clock after debugging is finished TYPE(ESMF_Clock), INTENT(INOUT) :: clock ! ! Gets data from coupler via importState ! and compares with data read from file and ! error-exits if they differ. ! ! The arguments are: ! importState Importstate ! ! Local variables TYPE(ESMF_Field) :: in_sst_field, in_landmask_field REAL(ESMF_KIND_R4), POINTER :: in_sst_ptr(:,:), in_landmask_ptr(:,:) REAL, POINTER :: in_sst_ptr_real(:,:), in_landmask_ptr_real(:,:) INTEGER :: i, j INTEGER :: rc LOGICAL :: landmask_ok, sst_ok ! use these for debug prints TYPE(ESMF_Time) :: currentTime INTEGER, SAVE :: numtimes=0 ! track number of calls CHARACTER(LEN=256) :: timestamp ! count calls for debug prints... CALL ESMF_ClockGet( clock, CurrTime=currentTime, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( 'compare_data: ESMF_ClockGet() failed' ) ENDIF CALL wrf_timetoa ( currentTime, timestamp ) numtimes = numtimes + 1 WRITE(str,*) 'SST compare_data: begin, numtimes = ',numtimes,' time = ',TRIM(timestamp) CALL wrf_debug ( 100 , TRIM(str) ) ! extract data from the importState and compare with data from file !TODO: change this to Bundles, eventually CALL ESMF_StateGet( importState, TRIM(datanames(SST_INDX)), & in_sst_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not extract sea_surface_temperature field from importState' ) ENDIF CALL ESMF_StateGet( importState, TRIM(datanames(LANDMASK_INDX)), & in_landmask_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not extract land_binary_mask field from importState' ) ENDIF ! CALL ESMF_FieldGetDataPointer( in_sst_field, in_sst_ptr, rc=rc ) CALL ESMF_FieldGet( in_sst_field, 0, in_sst_ptr, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not extract sea_surface_temperature data from sea_surface_temperature field' ) ENDIF ALLOCATE( in_sst_ptr_real(ims:ime,jms:jme) ) WRITE( str,* ) 'compare_data, ips:ipe,jps:jpe = ', & ips,':',ipe,',',jps,':',jpe, & ', in_sst_ptr(BOUNDS) = ', & LBOUND(in_sst_ptr,1),':',UBOUND(in_sst_ptr,1),',', & LBOUND(in_sst_ptr,2),':',UBOUND(in_sst_ptr,2) CALL wrf_debug ( 100 , TRIM(str) ) DO j= jms, jme DO i= ims, ime in_sst_ptr_real(i,j) = -(i*1000.0 + j)/100000.0 ! obvious bad value for debugging ENDDO ENDDO in_sst_ptr_real(ips:MIN((ide-1),ipe),jps:MIN((jde-1),jpe)) = & in_sst_ptr(ips:MIN((ide-1),ipe),jps:MIN((jde-1),jpe)) ! CALL ESMF_FieldGetDataPointer( in_landmask_field, in_landmask_ptr, rc=rc ) CALL ESMF_FieldGet( in_landmask_field, 0, in_landmask_ptr, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN CALL wrf_error_fatal ( & 'could not extract land_binary_mask data from land_binary_mask field' ) ENDIF ALLOCATE( in_landmask_ptr_real(ims:ime,jms:jme) ) WRITE( str,* ) 'compare_data, ips:ipe,jps:jpe = ', & ips,':',ipe,',',jps,':',jpe, & ', in_landmask_ptr(BOUNDS) = ', & LBOUND(in_landmask_ptr,1),':',UBOUND(in_landmask_ptr,1),',', & LBOUND(in_landmask_ptr,2),':',UBOUND(in_landmask_ptr,2) CALL wrf_debug ( 100 , TRIM(str) ) DO j= jms, jme DO i= ims, ime in_landmask_ptr_real(i,j) = -(i*1000.0 + j)/100000.0 ! obvious bad value for debugging ENDDO ENDDO in_landmask_ptr_real(ips:MIN((ide-1),ipe),jps:MIN((jde-1),jpe)) = & in_landmask_ptr(ips:MIN((ide-1),ipe),jps:MIN((jde-1),jpe)) ! compare LANDMASK... landmask_ok = .TRUE. ! staggered starts/ends LANDMASK_COMPARE : DO j= jps , MIN( (jde-1), jpe ) DO i= ips , MIN( (ide-1), ipe ) IF ( file_landmask_data(i,j) /= in_landmask_ptr_real(i,j) ) THEN landmask_ok = .FALSE. WRITE( str , * ) 'error landmask mismatch at (i,j) = (',i,',',j, & '), values are',file_landmask_data(i,j),' and ', & in_landmask_ptr_real(i,j) EXIT LANDMASK_COMPARE ENDIF ENDDO ENDDO LANDMASK_COMPARE IF ( landmask_ok ) THEN WRITE(str,*) 'compare_data: LANDMASK compares OK' CALL wrf_debug ( 100 , TRIM(str) ) ELSE CALL wrf_error_fatal ( TRIM(str) ) ENDIF ! compare SST... sst_ok = .TRUE. ! staggered starts/ends SST_COMPARE : DO j= jps , MIN( (jde-1), jpe ) DO i= ips , MIN( (ide-1), ipe ) IF ( file_sst_data(i,j) /= in_sst_ptr_real(i,j) ) THEN sst_ok = .FALSE. WRITE( str , * ) 'error sst mismatch at (i,j) = (',i,',',j, & '), values are',file_sst_data(i,j),' and ', & in_sst_ptr_real(i,j) EXIT SST_COMPARE ENDIF ENDDO ENDDO SST_COMPARE IF ( sst_ok ) THEN WRITE(str,*) 'compare_data: SST compares OK' CALL wrf_debug ( 100 , TRIM(str) ) ELSE CALL wrf_error_fatal ( TRIM(str) ) ENDIF DEALLOCATE( in_sst_ptr_real, in_landmask_ptr_real ) WRITE(str,*) 'compare_data: end, numtimes = ',numtimes CALL wrf_debug ( 100 , TRIM(str) ) END SUBROUTINE compare_data ! Second-phase "init" gets decomposition information from ! importState. SUBROUTINE sst_component_init2( gcomp, importState, exportState, clock, rc ) USE module_metadatautils, ONLY: GetDecompFromState USE module_io TYPE(ESMF_GridComp), TARGET, INTENT(INOUT) :: gcomp TYPE(ESMF_State), TARGET, INTENT(INOUT) :: importState TYPE(ESMF_State), TARGET, INTENT(INOUT) :: exportState TYPE(ESMF_Clock), TARGET, INTENT(INOUT) :: clock INTEGER, INTENT( OUT) :: rc ! ! SST component init routine, phase 2. ! ! The arguments are: ! gcomp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! ! Local variables TYPE(ESMF_Field) :: out_sst_field, out_landmask_field TYPE(ESMF_Field) :: in_sst_field, in_landmask_field INTEGER, PARAMETER :: NUMDIMS=2 INTEGER :: DomainStart(NUMDIMS) INTEGER :: DomainEnd(NUMDIMS) INTEGER :: MemoryStart(NUMDIMS) INTEGER :: MemoryEnd(NUMDIMS) INTEGER :: PatchStart(NUMDIMS) INTEGER :: PatchEnd(NUMDIMS) INTEGER :: rc, i, j INTEGER :: ierr ! Get decomposition information from importState. Note that index ! values are for staggered dimensions, following the WRF convention. !TODO: Note that this will only work for SPMD serial operation. For !TODO: concurrent operation (SPMD or MPMD), we will need to create a new !TODO: "domdesc" suitable for the task layout of the SST component. For !TODO: MPMD serial operation, we will need to extract serialized domdesc !TODO: from export state metadata and de-serialize it. Similar arguments !TODO: apply to [ij][mp][se] and bdy_mask. write(0,*)__FILE__,__LINE__,'entered sst_component_init2 ' write(str,*) 'sst_component_init2: calling GetDecompFromState' CALL wrf_debug ( 100 , TRIM(str) ) CALL GetDecompFromState( importState, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & domdesc, bdy_mask ) write(str,*) 'sst_component_init2: back from GetDecompFromState' CALL wrf_debug ( 100 , TRIM(str) ) write(str,*) 'sst_component_init2: ids, ide, jds, jde, kds, kde = ', ids, ide, jds, jde, kds, kde CALL wrf_debug ( 100 , TRIM(str) ) write(str,*) 'sst_component_init2: ims, ime, jms, jme, kms, kme = ', ims, ime, jms, jme, kms, kme CALL wrf_debug ( 100 , TRIM(str) ) write(str,*) 'sst_component_init2: ips, ipe, jps, jpe, kps, kpe = ', ips, ipe, jps, jpe, kps, kpe CALL wrf_debug ( 100 , TRIM(str) ) ! allocate space for data read from disk ALLOCATE( file_sst_data (ims:ime,jms:jme) ) DO j= jms, jme DO i= ims, ime file_sst_data(i,j) = -(i*1000.0 + j)/100000.0 ! obvious bad value for debugging ENDDO ENDDO !TODO: Hmmm... really need to load these pointers here? Check... this_data(SST_INDX)%r2d => file_sst_data ALLOCATE( file_landmask_data(ims:ime,jms:jme) ) DO j= jms, jme DO i= ims, ime file_landmask_data(i,j) = -(i*1000.0 + j)/100000.0 ! obvious bad value for debugging ENDDO ENDDO this_data(LANDMASK_INDX)%r2d => file_landmask_data ! Create ESMF_Fields in importState and exportState ! Create ESMF_Grid. Use exactly the same method as WRF so WRFIO will ! work. DomainStart(1) = ids; DomainEnd(1) = ide; DomainStart(2) = jds; DomainEnd(2) = jde; MemoryStart(1) = ims; MemoryEnd(1) = ime; MemoryStart(2) = jms; MemoryEnd(2) = jme; PatchStart(1) = ips; PatchEnd(1) = ipe; PatchStart(2) = jps; PatchEnd(2) = jpe write(0,*)__FILE__,__LINE__,'DomainStart ',DomainStart(1:2) write(0,*)__FILE__,__LINE__,'DomainEnd ',DomainEnd(1:2) write(0,*)__FILE__,__LINE__,'MemoryStart ',MemoryStart(1:2) write(0,*)__FILE__,__LINE__,'MemoryEnd ',MemoryEnd(1:2) write(0,*)__FILE__,__LINE__,'PatchStart ',PatchStart(1:2) write(0,*)__FILE__,__LINE__,'PatchEnd ',PatchEnd(1:2) CALL wrf_debug ( 5 , 'DEBUG sst_component_init2: Calling ioesmf_create_grid_int()' ) CALL ioesmf_create_grid_int( esmfgrid, NUMDIMS, & DomainStart, DomainEnd, & MemoryStart, MemoryEnd, & PatchStart, PatchEnd ) write(0,*)__FILE__,__LINE__ CALL wrf_debug ( 5 , 'DEBUG sst_component_init2: back from ioesmf_create_grid_int()' ) ! create ESMF_Fields ! Note use of patch dimension for POINTERs allocated by ESMF. CALL wrf_debug ( 5 , 'DEBUG sst_component_init2: Calling ESMF_GridValidate(esmfgrid)' ) CALL ESMF_GridValidate( esmfgrid, rc=rc ) write(0,*)__FILE__,__LINE__ IF ( rc /= ESMF_SUCCESS ) THEN WRITE( str,* ) 'Error in ESMF_GridValidate ', & __FILE__ , & ', line ', & __LINE__ , & ', error code = ',rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF CALL wrf_debug ( 5 , 'DEBUG sst_component_init2: back OK from ESMF_GridValidate(esmfgrid)' ) !TODO: Once new ESMF 3.0 interfaces have settled down, eliminate "tmp_data_" !TODO: arrays and let ESMF allocate/deallocate them. Assuming of course that !TODO: we can convince ESMF to deallocate safely... write(0,*)__FILE__,__LINE__ ALLOCATE( tmp_data_out_sst(ips:ipe,jps:jpe) ) write(0,*)__FILE__,__LINE__ write(str,*) 'sst_component_init2: tmp_data_out_sst(', & LBOUND(tmp_data_out_sst,1),':',UBOUND(tmp_data_out_sst,1),',',LBOUND(tmp_data_out_sst,2),':',UBOUND(tmp_data_out_sst,2),')' CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_debug ( 100, 'sst_component_init2: calling ESMF_FieldCreate(out_sst_field)' ) write(0,*)__FILE__,__LINE__,trim(datanames(sst_indx)) write(0,*)__FILE__,__LINE__,ips,jps,ipe,jpe out_sst_field = ESMF_FieldCreate( & esmfgrid, tmp_data_out_sst, & copyflag=ESMF_DATA_REF, & staggerloc=ESMF_STAGGERLOC_CENTER, & name=TRIM(datanames(SST_INDX)), & rc=rc ) write(0,*)__FILE__,__LINE__,'Creating out_sst_field for exportState of SST component name ',TRIM(datanames(SST_INDX)) IF ( rc /= ESMF_SUCCESS ) THEN WRITE( str,* ) 'ESMF_FieldCreate(out_sst_field) failed ', & __FILE__ , & ', line ', & __LINE__ , & ', error code = ',rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF CALL wrf_debug ( 100, 'sst_component_init2: back from ESMF_FieldCreate(out_sst_field)' ) write(str,*) 'sst_component_init2: ips:ipe,jps:jpe = ', & ips,':',ipe,',',jps,':',jpe CALL wrf_debug ( 100 , TRIM(str) ) !TODO: This bit will be useful once ESMF handles allocation/deallocation. ! validate ESMF allocation IF ( ( ips /= LBOUND(tmp_data_out_sst,1) ) .OR. ( ipe /= UBOUND(tmp_data_out_sst,1) ) .OR. & ( jps /= LBOUND(tmp_data_out_sst,2) ) .OR. ( jpe /= UBOUND(tmp_data_out_sst,2) ) ) THEN WRITE( str,* ) 'ESMF_FieldCreate(out_sst_field) allocation failed ', & __FILE__ , & ', line ', & __LINE__ , & ', ips:ipe,jps:jpe = ',ips,':',ipe,',',jps,':',jpe, & ', tmp_data_out_sst(BOUNDS) = ',LBOUND(tmp_data_out_sst,1),':',UBOUND(tmp_data_out_sst,1),',', & LBOUND(tmp_data_out_sst,2),':',UBOUND(tmp_data_out_sst,2) CALL wrf_error_fatal ( TRIM(str) ) ENDIF ALLOCATE( tmp_data_out_landmask(ips:ipe,jps:jpe) ) write(str,*) 'sst_component_init2: tmp_data_out_landmask(', & LBOUND(tmp_data_out_landmask,1),':',UBOUND(tmp_data_out_landmask,1),',',LBOUND(tmp_data_out_landmask,2),':',UBOUND(tmp_data_out_landmask,2),')' CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_debug ( 100, 'sst_component_init2: calling ESMF_FieldCreate(out_landmask_field)' ) out_landmask_field = ESMF_FieldCreate( & esmfgrid, tmp_data_out_landmask, & copyflag=ESMF_DATA_REF, & staggerloc=ESMF_STAGGERLOC_CENTER, & name=TRIM(datanames(LANDMASK_INDX)), & ! lbounds=(/ips,jps/), & ! ubounds=(/ipe,jpe/), & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_FieldCreate(out_landmask_field) failed' ) ENDIF CALL wrf_debug ( 100, 'sst_component_init2: back from ESMF_FieldCreate(out_landmask_field)' ) !TODO: This bit will be useful once ESMF handles allocation/deallocation. ! validate ESMF allocation IF ( ( ips /= LBOUND(tmp_data_out_landmask,1) ) .OR. ( ipe /= UBOUND(tmp_data_out_landmask,1) ) .OR. & ( jps /= LBOUND(tmp_data_out_landmask,2) ) .OR. ( jpe /= UBOUND(tmp_data_out_landmask,2) ) ) THEN WRITE( str,* ) 'ESMF_FieldCreate(out_landmask_field) allocation failed ', & __FILE__ , & ', line ', & __LINE__ , & ', ips:ipe,jps:jpe = ',ips,':',ipe,',',jps,':',jpe, & ', tmp_data_out_landmask(BOUNDS) = ',LBOUND(tmp_data_out_landmask,1),':',UBOUND(tmp_data_out_landmask,1),',', & LBOUND(tmp_data_out_landmask,2),':',UBOUND(tmp_data_out_landmask,2) CALL wrf_error_fatal ( TRIM(str) ) ENDIF ALLOCATE( tmp_data_in_sst(ips:ipe,jps:jpe) ) write(str,*) 'sst_component_init2: tmp_data_in_sst(', & LBOUND(tmp_data_in_sst,1),':',UBOUND(tmp_data_in_sst,1),',',LBOUND(tmp_data_in_sst,2),':',UBOUND(tmp_data_in_sst,2),')' CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_debug ( 100, 'sst_component_init2: calling ESMF_FieldCreate(in_sst_field)' ) in_sst_field = ESMF_FieldCreate( & esmfgrid, tmp_data_in_sst, & copyflag=ESMF_DATA_REF, & staggerloc=ESMF_STAGGERLOC_CENTER, & name=TRIM(datanames(SST_INDX)), & ! lbounds=(/ips,jps/), & ! ubounds=(/ipe,jpe/), & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_FieldCreate(in_sst_field) failed' ) ENDIF CALL wrf_debug ( 100, 'sst_component_init2: back from ESMF_FieldCreate(in_sst_field)' ) !TODO: This bit will be useful once ESMF handles allocation/deallocation. ! validate ESMF allocation IF ( ( ips /= LBOUND(tmp_data_in_sst,1) ) .OR. ( ipe /= UBOUND(tmp_data_in_sst,1) ) .OR. & ( jps /= LBOUND(tmp_data_in_sst,2) ) .OR. ( jpe /= UBOUND(tmp_data_in_sst,2) ) ) THEN WRITE( str,* ) 'ESMF_FieldCreate(in_sst_field) allocation failed ', & __FILE__ , & ', line ', & __LINE__ , & ', ips:ipe,jps:jpe = ',ips,':',ipe,',',jps,':',jpe, & ', tmp_data_in_sst(BOUNDS) = ',LBOUND(tmp_data_in_sst,1),':',UBOUND(tmp_data_in_sst,1),',', & LBOUND(tmp_data_in_sst,2),':',UBOUND(tmp_data_in_sst,2) CALL wrf_error_fatal ( TRIM(str) ) ENDIF ALLOCATE( tmp_data_in_landmask(ips:ipe,jps:jpe) ) write(str,*) 'sst_component_init2: tmp_data_in_landmask(', & LBOUND(tmp_data_in_landmask,1),':',UBOUND(tmp_data_in_landmask,1),',',LBOUND(tmp_data_in_landmask,2),':',UBOUND(tmp_data_in_landmask,2),')' CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_debug ( 100, 'sst_component_init2: calling ESMF_FieldCreate(in_landmask_field)' ) in_landmask_field = ESMF_FieldCreate( & esmfgrid, tmp_data_in_landmask, & copyflag=ESMF_DATA_REF, & staggerloc=ESMF_STAGGERLOC_CENTER, & name=TRIM(datanames(LANDMASK_INDX)), & ! lbounds=(/ips,jps/), & ! ubounds=(/ipe,jpe/), & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_FieldCreate(in_landmask_field) failed' ) ENDIF CALL wrf_debug ( 100, 'sst_component_init2: back from ESMF_FieldCreate(in_landmask_field)' ) !TODO: This bit will be useful once ESMF handles allocation/deallocation. ! validate ESMF allocation IF ( ( ips /= LBOUND(tmp_data_in_landmask,1) ) .OR. ( ipe /= UBOUND(tmp_data_in_landmask,1) ) .OR. & ( jps /= LBOUND(tmp_data_in_landmask,2) ) .OR. ( jpe /= UBOUND(tmp_data_in_landmask,2) ) ) THEN WRITE( str,* ) 'ESMF_FieldCreate(in_landmask_field) allocation failed ', & __FILE__ , & ', line ', & __LINE__ , & ', ips:ipe,jps:jpe = ',ips,':',ipe,',',jps,':',jpe, & ', tmp_data_in_landmask(BOUNDS) = ',LBOUND(tmp_data_in_landmask,1),':',UBOUND(tmp_data_in_landmask,1),',', & LBOUND(tmp_data_in_landmask,2),':',UBOUND(tmp_data_in_landmask,2) CALL wrf_error_fatal ( TRIM(str) ) ENDIF ! attach ESMF_Field to importState CALL ESMF_StateAdd( importState, in_sst_field, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_StateAdd(in_sst_field) failed' ) ENDIF CALL ESMF_StateAdd( importState, in_landmask_field, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_StateAdd(in_landmask_field) failed' ) ENDIF ! attach ESMF_Field to exportState CALL ESMF_StateAdd( exportState, out_sst_field, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_StateAdd(out_sst_field) failed' ) ENDIF CALL ESMF_StateAdd( exportState, out_landmask_field, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_StateAdd(out_landmask_field) failed' ) ENDIF ! Open the "SST" input data file for reading. write(str,'(A,A)') 'sst_component_init2: Opening data file ', & TRIM(sstinfilename) CALL wrf_message ( TRIM(str) ) CALL wrf_open_for_read ( TRIM(sstinfilename) , & mpicom , & mpicom , & "DATASET=INPUT" , & fid , & ierr ) IF ( ierr .NE. 0 ) THEN WRITE( str , FMT='(A,A,A,I8)' ) & 'sst_component_init2: error opening ', & TRIM(sstinfilename),' for reading ierr=',ierr CALL wrf_error_fatal ( TRIM(str) ) ENDIF WRITE( str , FMT='(A,A,A,I8)' ) & 'subroutine sst_component_init2: opened file ', & TRIM(sstinfilename),' for reading fid=',fid CALL wrf_debug ( 100, TRIM(str) ) write(str,'(A)') 'sst_component_init2: returning rc=ESMF_SUCCESS' CALL wrf_debug ( 100 , TRIM(str) ) rc = ESMF_SUCCESS END SUBROUTINE sst_component_init2 SUBROUTINE sst_component_run1( gcomp, importState, exportState, clock, rc ) TYPE(ESMF_GridComp), TARGET, INTENT(INOUT) :: gcomp TYPE(ESMF_State), TARGET, INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), TARGET, INTENT(INOUT) :: clock INTEGER, INTENT( OUT) :: rc ! ! SST component run routine, phase 1. ! Read "SST" data from file and stuff into exportState. ! ! The arguments are: ! gcomp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! rc = ESMF_SUCCESS ! Get "SST" data from file and stuff it into exportState. CALL read_data( exportState, clock ) END SUBROUTINE sst_component_run1 SUBROUTINE sst_component_run2( gcomp, importState, exportState, clock, rc ) TYPE(ESMF_GridComp), TARGET, INTENT(INOUT) :: gcomp TYPE(ESMF_State), TARGET, INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), TARGET, INTENT(INOUT) :: clock INTEGER, INTENT( OUT) :: rc ! ! SST component run routine, phase 2. ! Get from importState, compare with file data, and error-exit ! if they differ... If they are the same, then ! stuff the file data into the exportState. ! ! The arguments are: ! gcomp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! rc = ESMF_SUCCESS ! Get from importState, compare with file data, and error_exit ! if they differ... !TODO: change this once WRF can load exportState after integrating ! This works because WRF loads its exportState BEFORE integrating. CALL wrf_clockprint ( 50, clock, 'sst_component_run2: clock before call to compare_data()' ) CALL compare_data( importState, clock ) CALL wrf_clockprint ( 50, clock, 'sst_component_run2: clock after call to compare_data()' ) END SUBROUTINE sst_component_run2 SUBROUTINE sst_component_finalize( gcomp, importState, exportState, clock, rc ) USE module_io TYPE(ESMF_GridComp), TARGET, INTENT(INOUT) :: gcomp TYPE(ESMF_State), TARGET, INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), TARGET, INTENT(INOUT) :: clock INTEGER, INTENT( OUT) :: rc ! ! SST component finalize routine. ! ! The arguments are: ! gcomp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! ! Local variables TYPE(ESMF_Field) :: tmp_field INTEGER :: i, ierr rc = ESMF_SUCCESS ! destroy ESMF_Fields and other "deep" objects created by this component ! note that this component relied on ESMF to allocate data pointers during ! calls to ESMF_FieldCreate() so it also expects ESMF to free these pointers DO i=1, datacount ! destroy field in importState CALL ESMF_StateGet( importState, TRIM(datanames(i)), tmp_field, & rc=rc ) IF (rc /= ESMF_SUCCESS) THEN WRITE( str , * ) & 'sst_component_finalize: ESMF_StateGet( importState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( TRIM(str) ) ENDIF CALL ESMF_FieldDestroy( tmp_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN WRITE( str , * ) & 'sst_component_finalize: ESMF_FieldDestroy( importState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( TRIM(str) ) ENDIF ! destroy field in exportState CALL ESMF_StateGet( exportState, TRIM(datanames(i)), tmp_field, & rc=rc ) IF (rc /= ESMF_SUCCESS) THEN WRITE( str , * ) & 'sst_component_finalize: ESMF_StateGet( exportState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( TRIM(str) ) ENDIF CALL ESMF_FieldDestroy( tmp_field, rc=rc ) IF (rc /= ESMF_SUCCESS) THEN WRITE( str , * ) & 'sst_component_finalize: ESMF_FieldDestroy( exportState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( TRIM(str) ) ENDIF ENDDO ! deallocate space for data read from disk DEALLOCATE( file_sst_data, file_landmask_data ) ! close SST data file WRITE( str , FMT='(A,I8)' ) & 'subroutine sst_component_finalize: closing file fid=',fid CALL wrf_debug ( 100, TRIM(str) ) CALL wrf_ioclose( fid , ierr ) IF ( ierr .NE. 0 ) THEN CALL wrf_error_fatal ( 'sst_component_finalize: wrf_ioclose failed' ) ENDIF END SUBROUTINE sst_component_finalize END MODULE module_sst_component_top MODULE module_sst_setservices ! ! This module defines SST "Set Services" method sst_register() ! used for ESMF coupling. ! USE module_sst_component_top, ONLY: sst_component_init1, & sst_component_init2, & sst_component_run1, & sst_component_run2, & sst_component_finalize USE ESMF_Mod IMPLICIT NONE ! everything is private by default PRIVATE ! Public entry point for ESMF_GridCompSetServices() PUBLIC SST_register ! private stuff CHARACTER (ESMF_MAXSTR) :: str CONTAINS SUBROUTINE sst_register(gcomp, rc) TYPE(ESMF_GridComp), INTENT(INOUT) :: gcomp INTEGER, INTENT(OUT) :: rc INTEGER :: finalrc ! ! ! SST_register - Externally visible registration routine ! ! User-supplied SetServices routine. ! The Register routine sets the subroutines to be called ! as the init, run, and finalize routines. Note that these are ! private to the module. ! ! The arguments are: ! gcomp Component ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! finalrc = ESMF_SUCCESS ! Register the callback routines. call ESMF_GridCompSetEntryPoint(gcomp, ESMF_SETINIT, & sst_component_init1, 1, rc) IF ( rc /= ESMF_SUCCESS) THEN WRITE(str,*) 'ESMF_GridCompSetEntryPoint(sst_component_init1) failed with rc = ', rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF call ESMF_GridCompSetEntryPoint(gcomp, ESMF_SETINIT, & sst_component_init2, 2, rc) IF ( rc /= ESMF_SUCCESS) THEN WRITE(str,*) 'ESMF_GridCompSetEntryPoint(sst_component_init2) failed with rc = ', rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF call ESMF_GridCompSetEntryPoint(gcomp, ESMF_SETRUN, & sst_component_run1, 1, rc) IF ( rc /= ESMF_SUCCESS) THEN WRITE(str,*) 'ESMF_GridCompSetEntryPoint(sst_component_run1) failed with rc = ', rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF call ESMF_GridCompSetEntryPoint(gcomp, ESMF_SETRUN, & sst_component_run2, 2, rc) IF ( rc /= ESMF_SUCCESS) THEN WRITE(str,*) 'ESMF_GridCompSetEntryPoint(sst_component_run2) failed with rc = ', rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF call ESMF_GridCompSetEntryPoint(gcomp, ESMF_SETFINAL, & sst_component_finalize, ESMF_SINGLEPHASE, rc) IF ( rc /= ESMF_SUCCESS) THEN WRITE(str,*) 'ESMF_GridCompSetEntryPoint(sst_component_finalize) failed with rc = ', rc CALL wrf_error_fatal ( TRIM(str) ) ENDIF PRINT *,'SST: Registered Initialize, Run, and Finalize routines' rc = finalrc END SUBROUTINE sst_register END MODULE module_sst_setservices ! ! Module module_wrfsst_coupler defines the ! "WRF-SST" coupler component. It provides two-way coupling between ! the "SST" and "WRF" components. ! In its run routine it transfers data directly from the ! SST Component's export state to the WRF Component's import state. ! It also transfers data directly from the ! WRF Component's export state to the SST Component's import state. ! ! This is derived from src/demo/coupled_flow/src/CouplerMod.F90 ! created by Nancy Collins and others on the ESMF Core Team. ! ! MODULE module_wrfsst_coupler USE ESMF_Mod IMPLICIT NONE ! everything is private by default PRIVATE ! Public entry point PUBLIC WRFSSTCpl_register ! private data members ! route handles and flags TYPE(ESMF_RouteHandle), SAVE :: fromWRF_rh, fromSST_rh LOGICAL, SAVE :: fromWRF_rh_ready = .FALSE. LOGICAL, SAVE :: fromSST_rh_ready = .FALSE. ! field names INTEGER, PARAMETER :: datacount = 2 INTEGER, PARAMETER :: SST_INDX = 1 INTEGER, PARAMETER :: LANDMASK_INDX = 2 CHARACTER(LEN=ESMF_MAXSTR), SAVE :: datanames(datacount) CHARACTER(LEN=ESMF_MAXSTR) :: str CONTAINS SUBROUTINE WRFSSTCpl_register(comp, rc) TYPE(ESMF_CplComp), INTENT(INOUT) :: comp INTEGER, INTENT(OUT) :: rc ! ! ! WRFSSTCpl_register - Externally visible registration routine ! ! User-supplied SetServices routine. ! The Register routine sets the subroutines to be called ! as the init, run, and finalize routines. Note that these are ! private to the module. ! ! The arguments are: ! comp Component ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! ! guilty until proven innocent rc = ESMF_FAILURE ! Register the callback routines. call ESMF_CplCompSetEntryPoint(comp, ESMF_SETINIT, WRFSSTCpl_init, & ESMF_SINGLEPHASE, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_CplCompSetEntryPoint(WRFSSTCpl_init) failed' ) ENDIF call ESMF_CplCompSetEntryPoint(comp, ESMF_SETRUN, WRFSSTCpl_run, & ESMF_SINGLEPHASE, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_CplCompSetEntryPoint(WRFSSTCpl_run) failed' ) ENDIF call ESMF_CplCompSetEntryPoint(comp, ESMF_SETFINAL, WRFSSTCpl_final, & ESMF_SINGLEPHASE, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'ESMF_CplCompSetEntryPoint(WRFSSTCpl_final) failed' ) ENDIF print *, "module_wrfsst_coupler: Registered Initialize, Run, and Finalize routines" END SUBROUTINE WRFSSTCpl_register SUBROUTINE WRFSSTCpl_init(comp, importState, exportState, clock, rc) USE module_metadatautils, ONLY: AttachDecompToState, GetDecompFromState TYPE(ESMF_CplComp), INTENT(INOUT) :: comp TYPE(ESMF_State), INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), INTENT(INOUT) :: clock INTEGER, INTENT(OUT) :: rc ! ! WRF-SST coupler component init routine. This simply passes needed ! metadata from WRF to SST. Initialization of ESMF_RouteHandle objects ! is handled later via lazy evaluation. ! ! The arguments are: ! comp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! ! Local variables CHARACTER(ESMF_MAXSTR) :: importstatename ! decomposition information INTEGER :: ids, ide, jds, jde, kds, kde INTEGER :: ims, ime, jms, jme, kms, kme INTEGER :: ips, ipe, jps, jpe, kps, kpe INTEGER :: domdesc LOGICAL :: bdy_mask(4) PRINT *, "DEBUG: Coupler Init starting" ! guilty until proven innocent rc = ESMF_FAILURE CALL ESMF_StateGet(importState, name=importstatename, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_init: ESMF_StateGet failed' ) ENDIF IF ( TRIM(importstatename) .EQ. "WRF Export State" ) THEN ! get metadata from WRF export state CALL GetDecompFromState( importState, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & domdesc, bdy_mask ) ! put metadata from in SST import state CALL AttachDecompToState( exportState, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & domdesc, bdy_mask ) ELSE CALL wrf_error_fatal ( 'WRFSSTCpl_init: invalid importState name' ) ENDIF ! set up field names !TODO: use CF conventions for "standard_name" once WRF Registry supports them !TODO: datanames(SST_INDX) = "sea_surface_temperature" !TODO: datanames(LANDMASK_INDX) = "land_binary_mask" datanames(SST_INDX) = "SST" datanames(LANDMASK_INDX) = "LANDMASK" PRINT *, "DEBUG: Coupler Init returning" END SUBROUTINE WRFSSTCpl_init SUBROUTINE WRFSSTCpl_run(comp, importState, exportState, clock, rc) TYPE(ESMF_CplComp), INTENT(INOUT) :: comp TYPE(ESMF_State), INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), INTENT(INOUT) :: clock INTEGER, INTENT(OUT) :: rc ! ! WRF-SST coupler component run routine. ! ! The arguments are: ! comp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! ! Note that comments in this code are preserved from the sample coupler ! provided by the ESMF core team. ! Local variables character*256 :: mename character*256 :: melist(100) integer :: mecount TYPE(ESMF_StateItemType) :: metypelist(100) TYPE(ESMF_Field) :: src_field, dst_field TYPE(ESMF_Array) :: src_array, dst_array TYPE(ESMF_RouteHandle) :: routehandle TYPE(ESMF_VM) :: vm LOGICAL :: build_fromWRF_rh, build_fromSST_rh, fromWRF CHARACTER(LEN=ESMF_MAXSTR) :: importStatename CHARACTER(LEN=ESMF_MAXSTR) :: SST_exportStatename, WRF_exportStatename INTEGER :: i CHARACTER(LEN=256) :: directionString WRITE(str,*) 'WRFSSTCpl_run: begin' CALL wrf_debug ( 100 , TRIM(str) ) ! guilty until proven innocent rc = ESMF_FAILURE ! Which way is this coupling going? WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_StateGet(importState,name,...)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateGet( importState, name=importStatename, rc=rc ) write(0,*)__FILE__,__LINE__, 'importStatename ', trim(importStatename), 'rc = ', rc IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_StateGet(importState,name,...) failed' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: back from ESMF_StateGet, importStatename = <',TRIM(importStatename),'>' CALL wrf_debug ( 100 , TRIM(str) ) ! first time through in each direction: create route handle and ! associated objects WRF_exportStatename = "WRF Export State" SST_exportStatename = "SST Export State" IF ( TRIM(importStatename) .EQ. TRIM(WRF_exportStatename) ) THEN fromWRF = .TRUE. directionString = 'WRFtoSST' ELSE IF ( TRIM(importStatename) .EQ. TRIM(SST_exportStatename) ) THEN fromWRF = .FALSE. directionString = 'SSTtoWRF' ELSE CALL wrf_error_fatal ( 'WRFSSTCpl_run: invalid importState name' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: fromWRF = ',fromWRF CALL wrf_debug ( 100 , TRIM(str) ) build_fromWRF_rh = fromWRF .AND. ( .NOT. fromWRF_rh_ready ) build_fromSST_rh = ( .NOT. fromWRF ) .AND. ( .NOT. fromSST_rh_ready ) WRITE(str,*) 'WRFSSTCpl_run: build_fromWRF_rh = ',build_fromWRF_rh CALL wrf_debug ( 100 , TRIM(str) ) WRITE(str,*) 'WRFSSTCpl_run: build_fromSST_rh = ',build_fromSST_rh CALL wrf_debug ( 100 , TRIM(str) ) IF ( build_fromWRF_rh .OR. build_fromSST_rh ) THEN CALL ESMF_CplCompGet( comp, vm=vm, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_CplCompGet failed' ) ENDIF ! The use of literal index "1" here indicates that we don't care which ! ESMF_Field we get so we might as well get the first one. WRITE(str,*) 'WRFSSTCpl_run: grabbing first field <',TRIM(datanames(1)), & '> from import state' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateGet( importState, name=mename, itemCount=mecount, itemNameList=melist, stateitemtypelist=metypelist, rc=rc ) write(0,*)'importState mename ',trim(mename) write(0,*)'importState mecount ',mecount do i = 1,mecount write(0,*)i,trim(melist(i)) enddo do i = 1,mecount write(0,*)i,metypelist(i) enddo CALL ESMF_StateGet( importState, TRIM(datanames(1)), src_field, & rc=rc ) write(0,*)__FILE__,__LINE__, 'from importState: datanames(1) ', TRIM(datanames(1)), ' rc = ', rc IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_StateGet(importState) failed' ) ENDIF CALL ESMF_FieldGet( src_field, array=src_array, rc=rc ) write(0,*)__FILE__,__LINE__, 'from fieldget: rc = ', rc IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_FieldGet src_array failed' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: grabbing first field <',TRIM(datanames(1)), & '> from export state' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateGet( exportState, name=mename, itemCount=mecount, itemNameList=melist, stateitemtypelist=metypelist, rc=rc ) write(0,*)'Exportstate mename ',trim(mename) write(0,*)'Exportstate mecount ',mecount do i = 1,mecount write(0,*)i,trim(melist(i)) enddo do i = 1,mecount write(0,*)i,metypelist(i) enddo CALL ESMF_StateGet( exportState, TRIM(datanames(1)), dst_field, & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_StateGet(exportState) failed' ) ENDIF CALL ESMF_FieldGet( dst_field, array=dst_array, & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_FieldGet dst_array failed' ) ENDIF IF ( build_fromWRF_rh ) THEN WRITE(str,*) 'WRFSSTCpl_run: creating fromWRF_rh' CALL wrf_debug ( 100 , TRIM(str) ) fromWRF_rh = ESMF_RouteHandleCreate( rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_RouteHandleCreate(fromWRF_rh) failed' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_FieldRedistStore(fromWRF_rh)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_ArrayRedistStore( src_array, dst_array, & routehandle=fromWRF_rh, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_FieldRedistStore(fromWRF_rh) failed' ) ENDIF fromWRF_rh_ready = .TRUE. ENDIF IF ( build_fromSST_rh ) THEN WRITE(str,*) 'WRFSSTCpl_run: creating fromSST_rh' CALL wrf_debug ( 100 , TRIM(str) ) fromSST_rh = ESMF_RouteHandleCreate( rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_RouteHandleCreate(fromSST_rh) failed' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_FieldRedistStore(fromSST_rh)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_ArrayRedistStore( src_array, dst_array, & routehandle=fromSST_rh, rc=rc ) write(0,*)__FILE__,__LINE__,'rc = ',rc IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_FieldRedistStore(fromSST_rh) failed' ) ENDIF fromSST_rh_ready = .TRUE. ENDIF DO i=1, datacount WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_StateSetNeeded(importState, ',TRIM(datanames(i)),')' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateSetNeeded( importState, TRIM(datanames(i)), & ESMF_NEEDED, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_StateSetNeeded(',TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( str ) ENDIF ENDDO ENDIF ! In this case, the coupling is symmetric - you call redist going ! both ways - so we only care about the coupling direction in order ! to get the right routehandle selected. IF ( fromWRF ) THEN WRITE(str,*) 'WRFSSTCpl_run: routehandle = fromWRF_rh' CALL wrf_debug ( 100 , TRIM(str) ) routehandle = fromWRF_rh ELSE WRITE(str,*) 'WRFSSTCpl_run: routehandle = fromSST_rh' CALL wrf_debug ( 100 , TRIM(str) ) routehandle = fromSST_rh ENDIF DO i=1, datacount WRITE(str,*) 'WRFSSTCpl_run: grabbing field <',TRIM(datanames(i)),'>' CALL wrf_debug ( 100 , TRIM(str) ) ! check isneeded flag here IF ( .NOT. ESMF_StateIsNeeded( importState, TRIM(datanames(i)), rc=rc ) ) THEN IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_StateIsNeeded(',TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( str ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: skipping field <',TRIM(datanames(i)),'>' CALL wrf_debug ( 100 , TRIM(str) ) CYCLE ENDIF WRITE(str,*) 'WRFSSTCpl_run: processing field <',TRIM(datanames(i)),'>' CALL wrf_debug ( 100 , TRIM(str) ) ! The following piece of code provides an example of calling the data ! redistribution routine between two Fields in the Coupler Component. ! Unlike regrid, which translates between ! different Grids, redist translates between different DELayouts on ! the same Grid. The first two lines get the Fields from the ! States, each corresponding to a different subcomponent. One is ! an Export State and the other is an Import State. ! WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_StateGet(importState,', & TRIM(datanames(i)),')...' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateGet( importState, TRIM(datanames(i)), src_field, & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_StateGet(importState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( str ) ENDIF CALL ESMF_FieldGet( src_field, array=src_array, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_FieldGet(src_field,src_array,rc) failed' CALL wrf_error_fatal ( str ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_StateGet(exportState,', & TRIM(datanames(i)),')...' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_StateGet( exportState, TRIM(datanames(i)), dst_field, & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_StateGet(exportState,', & TRIM(datanames(i)),') failed' CALL wrf_error_fatal ( str ) ENDIF CALL ESMF_FieldGet( dst_field, array=dst_array, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN WRITE(str,*) 'WRFSSTCpl_run: ESMF_FieldGet(dst_field,dst_array,rc) failed' CALL wrf_error_fatal ( str ) ENDIF ! The redist routine uses information contained in the Fields and the ! Coupler VM object to call the communication routines to move the data. ! Because many Fields may share the same Grid association, the same ! routing information may be needed repeatedly. Route information is ! saved so the precomputed information can be retained. The following ! is an example of a Field redist call: WRITE(str,*) 'WRFSSTCpl_run: calling ESMF_FieldRedist for <', & TRIM(datanames(i)),'>...' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_ArrayRedist( src_array, dst_array, routehandle, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_run: ESMF_FieldRedist failed' ) ENDIF WRITE(str,*) 'WRFSSTCpl_run: back from ESMF_FieldRedist for <', & TRIM(datanames(i)),'>...' CALL wrf_debug ( 100 , TRIM(str) ) ENDDO WRITE(str,*) 'WRFSSTCpl_run: end' CALL wrf_debug ( 100 , TRIM(str) ) END SUBROUTINE WRFSSTCpl_run SUBROUTINE WRFSSTCpl_final(comp, importState, exportState, clock, rc) TYPE(ESMF_CplComp) :: comp TYPE(ESMF_State), INTENT(INOUT) :: importState, exportState TYPE(ESMF_Clock), INTENT(INOUT) :: clock INTEGER, INTENT(OUT) :: rc ! ! WRF-SST coupler component finalize routine. ! ! The arguments are: ! comp Component ! importState Importstate ! exportState Exportstate ! clock External clock ! rc Return code; equals ESMF_SUCCESS if there are no errors, ! otherwise ESMF_FAILURE. ! PRINT *, "DEBUG: Coupler Final starting" ! guilty until proven innocent rc = ESMF_FAILURE ! Only thing to do here is release redist and route handles IF ( fromWRF_rh_ready ) THEN CALL ESMF_RouteHandleDestroy(fromWRF_rh, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_final: ESMF_RouteHandleDestroy(fromWRF_rh) failed' ) ENDIF ENDIF IF ( fromSST_rh_ready ) THEN CALL ESMF_RouteHandleDestroy(fromSST_rh, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'WRFSSTCpl_final: ESMF_RouteHandleDestroy(fromSST_rh) failed' ) ENDIF ENDIF PRINT *, "DEBUG: Coupler Final returning" END SUBROUTINE WRFSSTCpl_final END MODULE module_wrfsst_coupler PROGRAM wrf_SST_ESMF ! ! ESMF Application Wrapper for coupling WRF with a "dummy" component ! that simply reads SSTs from a file and sends them to WRF (one-way ! coupling). Fields are returned from WRF to SST via the coupler for ! self-test only. ! ! Note that, like other WRF coupling methods (MCEL, MCT), ESMF coupling is ! supported only via auxiliary input and history streams. ! ! This is the main program that creates the ESMF Gridded and Coupler ! Component. ! ! "init" looks like this: ! 1. Init phase 1 for WRF, sets WRF exportState metadata for "time" ! and "domain" information needed by WRF IOAPI (which is called from ! the SST component). It also sets up all WRF and WSF modules. Note ! that this must be called before SST phase-1 init because SST uses ! WRF IOAPI. ! 2. Init phase 1 for SST, sets "time" metadata in SST exportState. ! 3. Initialize coupler, passing decomposition metadata from WRF exportState ! to SST importState. ! 4. Resolve any "time" metadata inconsistencies and create top-level clock. ! 5. Init phase 2 for SST, gets "domain" information from importState, ! creates an ESMF_Grid based on "domain" information using the exact same ! method as WRF (so WRF IOAPI calls will work), and sets up SST ! importState and exportState. ! 6. Init phase 2 for WRF, runs up to the end of the head_grid I/O "training" ! phase (done in med_before_solve_io()). This initializes WRF ! importState and exportState prior to the first coupling step during the ! "run" loop. Note that this only works for head_grid at present because ! recursion in WRF traversal of subdomains is not dealt with yet and ! because the code that populates the WRF importState and exportState is ! not yet sophisticated enough to handle creating and destroying nested ! domains at any time during the model run. !TODO: ESMF auxio must begin at the start of the run. Remove this !TODO: restriction later, if needed. ! !TODO: Note that coupling is currently limited to one auxin plus one auxout !TODO: streams. Extension to multiple pairs of auxio streams requires !TODO: nested states (one for each auxio stream pair). !TODO: For now, only support one input and/or one output stream via !TODO: io_esmf. This condition is asserted in !TODO: ext_esmf_open_for_read_begin() and !TODO: ext_esmf_open_for_write_begin(). ! ! "run" loop looks like this: ! 1. Run SST phase 1, reads SST from file and writes it to SST exportState ! for coupling to WRF. ! 2. Couple SST exportState -> WRF importState. First iteration: set up ! SST->WRF routeHandle via lazy evaluation. ! 3. Run WRF. First iteration: head_grid resumes after I/O "training" ! phase. Other iterations and domains: run normally. ! Read WRF importState and write WRF exportState (via med_before_solve_io()). ! Note that WRF assigns sst -> tsk for sea points in ! share/module_soil_pre.F. ! 4. Couple WRF exportState -> SST importState. First iteration: set up ! WRF->SST routeHandle via lazy evaluation. ! 5. Run SST phase 2, compare SST from file with SST from WRF (via ! SST importState) and error-exit if they differ. ! 6. Advance clock and goto step 1 ! ! "finalize" is trivial, except for destruction of ESMF objects which is ! quite non-trivial at the moment. ! ! ! WRF registration routine USE module_wrf_setservices, ONLY: WRF_register ! SST registration routine USE module_sst_setservices, ONLY: SST_register ! WRF-SST coupler registration routine USE module_wrfsst_coupler, ONLY: WRFSSTCpl_register ! ESMF module, defines all ESMF data types and procedures USE ESMF_Mod ! Not-yet-implemented ESMF features USE module_esmf_extensions ! Component-independent utilities USE module_metadatautils, ONLY: GetTimesFromStates IMPLICIT NONE ! Local variables ! Components TYPE(ESMF_GridComp) :: compGriddedWRF ! WRF TYPE(ESMF_GridComp) :: compGriddedSST ! SST reader TYPE(ESMF_CplComp) :: compCplWRFSST ! WRF-SST coupler ! State, Virtual Machine, and DELayout TYPE(ESMF_VM) :: vm TYPE(ESMF_State) :: importStateWRF, exportStateWRF TYPE(ESMF_State) :: importStateSST, exportStateSST ! A clock, some times, and a time step TYPE(ESMF_Clock) :: driverClock TYPE(ESMF_Time) :: startTime TYPE(ESMF_Time) :: stopTime TYPE(ESMF_TimeInterval) :: couplingInterval ! other misc stuff TYPE(ESMF_State) :: tmpState INTEGER :: timestepdebug ! Return codes for error checks INTEGER :: rc CHARACTER (ESMF_MAXSTR) :: str ! debugging CHARACTER(LEN=256) :: couplingIntervalString integer(ESMF_KIND_I4) :: timevals(6) ! Warn users that this is not yet ready for general use. PRINT *, ' W A R N I N G ' PRINT *, ' ESMF COUPLING CAPABILITY IS EXPERIMENTAL AND UNSUPPORTED ' PRINT *, ' IN THIS VERSION OF WRF-CPL-SST ' PRINT *, ' U S E A T Y O U R O W N R I S K ' ! Initialize ESMF, get the default Global VM, and set ! the default calendar to be Gregorian. CALL ESMF_Initialize( vm=vm, defaultCalendar=ESMF_CAL_GREGORIAN, defaultlogtype=ESMF_LOG_MULTI,rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_Initialize failed' ENDIF ! Note: wrf_debug and wrf_error_fatal are not initialized yet PRINT *, 'DEBUG wrf_SST_ESMF: returned from ESMF_Initialize' CALL ESMF_SetInitialized() ! eliminate this once ESMF does it internally ! Create the WRF Gridded Component, passing in the default VM. compGriddedWRF = ESMF_GridCompCreate(parentVm=vm, name="WRF Model", rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_GridCompCreate(WRF Model) failed' ENDIF ! Create the SST Gridded Component, passing in the default VM. compGriddedSST = ESMF_GridCompCreate(parentVm=vm, name="SST Dummy Model", rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_GridCompCreate(WRF Dummy Model) failed' ENDIF ! Create the WRF-SST Coupler Component, passing in the default VM. compCplWRFSST = ESMF_CplCompCreate(parentVm=vm, name="WRF-SST Coupler", rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_CplCompCreate failed' ENDIF ! Create empty import and export states for WRF importStateWRF = ESMF_StateCreate(stateName="WRF Import State", statetype=ESMF_STATE_IMPORT, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_StateCreate(WRF Import State) failed' ENDIF exportStateWRF = ESMF_StateCreate(stateName="WRF Export State", statetype=ESMF_STATE_EXPORT, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_StateCreate(WRF Export State) failed' ENDIF ! Create empty import and export states for SST importStateSST = ESMF_StateCreate(stateName="SST Import State", statetype=ESMF_STATE_IMPORT, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_StateCreate(SST Import State) failed' ENDIF exportStateSST = ESMF_StateCreate(stateName="SST Export State", statetype=ESMF_STATE_EXPORT, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_StateCreate(SST Export State) failed' ENDIF ! Register the WRF Gridded Component CALL ESMF_GridCompSetServices(compGriddedWRF, WRF_register, rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_GridCompSetServices(compGriddedWRF) failed' ENDIF ! Register the SST Gridded Component CALL ESMF_GridCompSetServices(compGriddedSST, SST_register, rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_GridCompSetServices(compGriddedSST) failed' ENDIF ! Register the WRF-SST Coupler Component CALL ESMF_CplCompSetServices(compCplWRFSST, WRFSSTCpl_register, rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_CplCompSetServices failed' ENDIF ! Create top-level clock. There is no way to create an "empty" clock, so ! stuff in bogus values for start time, stop time, and time step and fix ! them after gridded component "init" phases return. CALL ESMF_TimeSet(startTime, yy=2000, mm=1, dd=1, & h=0, m=0, s=0, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_TimeSet(startTime) failed' ENDIF CALL ESMF_TimeSet(stopTime, yy=2000, mm=1, dd=1, & h=12, m=0, s=0, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_TimeSet(stopTime) failed' ENDIF CALL ESMF_TimeIntervalSet(couplingInterval, s=2, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_TimeIntervalSet failed' ENDIF driverClock = ESMF_ClockCreate(timeStep=couplingInterval, & startTime=startTime, & stopTime=stopTime, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN PRINT *, 'wrf_SST_ESMF: ESMF_ClockCreate failed' ENDIF ! Init, Run, and Finalize section ! Init... ! initialize WRF, phase 1 ! Phase 1 init returns WRF time and decomposition information as ! exportState metadata. PRINT *, 'DEBUG wrf_SST_ESMF: calling phase-1 WRF init (wrf_component_init1)' CALL ESMF_GridCompInitialize(compGriddedWRF, importStateWRF, & exportStateWRF, driverClock, phase=1, rc=rc) call esmf_attributeget(exportstatewrf,'ComponentCouplingInterval',size(timevals),timevals,rc=rc) write(0,*) 'exportStateWRF year ',timevals(1),__LINE__ write(0,*) 'exportStateWRF month ',timevals(2),__LINE__ write(0,*) 'exportStateWRF day ',timevals(3),__LINE__ write(0,*) 'exportStateWRF hour ',timevals(4),__LINE__ write(0,*) 'exportStateWRF minute ',timevals(5),__LINE__ write(0,*) 'exportStateWRF second ',timevals(6),__LINE__ ! Note: wrf_debug and wrf_error_fatal are now initialized IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompInitialize(WRF phase 1) failed' ) ENDIF ! initialize SST, phase 1 ! Phase 1 init returns SST time information as ! exportState metadata. PRINT *, 'DEBUG wrf_SST_ESMF: calling phase-1 SST init (sst_component_init1)' CALL ESMF_GridCompInitialize(compGriddedSST, importStateSST, & exportStateSST, driverClock, phase=1, rc=rc) call esmf_attributeget(exportstatesst,'ComponentCouplingInterval',size(timevals),timevals,rc=rc) write(0,*) 'exportStateSST year ',timevals(1),__LINE__ write(0,*) 'exportStateSST month ',timevals(2),__LINE__ write(0,*) 'exportStateSST day ',timevals(3),__LINE__ write(0,*) 'exportStateSST hour ',timevals(4),__LINE__ write(0,*) 'exportStateSST minute ',timevals(5),__LINE__ write(0,*) 'exportStateSST second ',timevals(6),__LINE__ IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompInitialize(SST phase 1) failed' ) ENDIF ! Reconcile clock settings from WRF and SST components to set up ! top-level clock. These are passed back from each "init" as attributes ! on exportState*. ! Stuff both States into a single State to pass into GetTimesFromStates() ! which is smart enough to deal with a Composite. PRINT *, 'DEBUG wrf_SST_ESMF: reconciling clock from WRF and SST components' tmpState = ESMF_StateCreate( rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateCreate(tmpState) failed' ) ENDIF CALL ESMF_StateAdd( tmpState, exportStateWRF, rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateAdd(exportStateWRF) failed' ) ENDIF CALL ESMF_StateAdd( tmpState, exportStateSST, rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateAdd(exportStateSST) failed' ) ENDIF CALL GetTimesFromStates( tmpState, startTime, stopTime, couplingInterval ) CALL ESMF_TimeIntervalGet( couplingInterval, TimeString=couplingIntervalString, & rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_TimeIntervalGet failed' ) ENDIF CALL wrf_debug( 100, 'wrf_SST_ESMF: couplingInterval = '//TRIM(couplingIntervalString) ) CALL ESMF_StateDestroy( tmpState, rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateDestroy(tmpState) failed' ) ENDIF ! update driver clock CALL ESMF_ClockDestroy(driverClock, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_ClockDestroy failed' ) ENDIF driverClock = ESMF_ClockCreate(timeStep=couplingInterval, & startTime=startTime, & stopTime=stopTime, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_ClockCreate(driverClock) failed' ) ENDIF PRINT *, 'DEBUG wrf_SST_ESMF: done reconciling clock from WRF and SST components' CALL wrf_clockprint(50, driverClock, & 'DEBUG wrf_SST_ESMF: driverClock after creation,') ! initialize WRF-SST Coupler PRINT *, 'DEBUG wrf_SST_ESMF: calling phase-1 CPL init (WRFSSTCpl_init)' CALL ESMF_CplCompInitialize(compCplWRFSST, exportStateWRF, & importStateSST, driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_CplCompInitialize(WRF -> SST) failed' ) ENDIF ! TBH: this bit is not needed, but would be in general ! CALL ESMF_CplCompInitialize(compCplWRFSST, exportStateSST, & ! importStateWRF, driverClock, rc=rc) ! IF ( rc /= ESMF_SUCCESS ) THEN ! CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_CplCompInitialize(SST -> WRF) failed' ) ! ENDIF ! initialize SST, phase 2 WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling phase-2 init for SST (sst_component_init2)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_GridCompInitialize(compGriddedSST, importStateSST, & exportStateSST, driverClock, phase=2, rc=rc) WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from phase-2 init for SST' CALL wrf_debug ( 100 , TRIM(str) ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompInitialize(SST phase 2) failed' ) ENDIF ! initialize WRF, phase 2 ! Phase 2 init sets up WRF importState and exportState. WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling phase-2 init for WRF (wrf_component_init2)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_GridCompInitialize(compGriddedWRF, importStateWRF, & exportStateWRF, driverClock, phase=2, rc=rc) WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from phase-2 init for WRF' CALL wrf_debug ( 100 , TRIM(str) ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompInitialize(WRF phase 2) failed' ) ENDIF CALL wrf_clockprint(50, driverClock, & 'DEBUG wrf_SST_ESMF: driverClock before main time-stepping loop,') ! Run... ! main time-stepping loop timestepdebug = 0 DO WHILE ( .NOT. ESMF_ClockIsStopTime(driverClock, rc) ) timestepdebug = timestepdebug + 1 WRITE(str,'(A,I8)') 'PROGRAM wrf_SST_ESMF: Top of time-stepping loop, timestepdebug = ',timestepdebug CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_clockprint(50, driverClock, & 'DEBUG wrf_SST_ESMF: driverClock at top of time-stepping loop,') ! Run SST phase 1 WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling phase-1 run for SST (sst_component_run1)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_GridCompRun(compGriddedSST, importStateSST, exportStateSST, & driverClock, phase=1, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompRun(SST phase 1) failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from phase-1 run for SST (sst_component_run1)' CALL wrf_debug ( 100 , TRIM(str) ) ! couple SST export -> WRF import WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling run for CPL SST->WRF (WRFSSTCpl_run)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_CplCompRun(compCplWRFSST, exportStateSST, & importStateWRF, driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_CplCompRun(SST -> WRF) failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from run for CPL SST->WRF (WRFSSTCpl_run)' CALL wrf_debug ( 100 , TRIM(str) ) ! Run WRF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling run for WRF (wrf_component_run)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_GridCompRun(compGriddedWRF, importStateWRF, exportStateWRF, & driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompRun(WRF) failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from run for WRF (wrf_component_run)' CALL wrf_debug ( 100 , TRIM(str) ) ! couple WRF export -> SST import WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling run for CPL WRF->SST (WRFSSTCpl_run)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_CplCompRun(compCplWRFSST, exportStateWRF, & importStateSST, driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_CplCompRun(WRF -> SST) failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from run for CPL WRF->SST (WRFSSTCpl_run)' CALL wrf_debug ( 100 , TRIM(str) ) ! Run SST phase 2 WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: Calling phase-2 run for SST (sst_component_run2)' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_GridCompRun(compGriddedSST, importStateSST, exportStateSST, & driverClock, phase=2, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompRun(SST phase 2) failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: back from phase-2 run for SST (sst_component_run2)' CALL wrf_debug ( 100 , TRIM(str) ) ! advance clock to next coupling time step WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: advancing clock' CALL wrf_debug ( 100 , TRIM(str) ) CALL ESMF_ClockAdvance( driverClock, rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_ClockAdvance failed' ) ENDIF WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: done advancing clock' CALL wrf_debug ( 100 , TRIM(str) ) CALL wrf_clockprint(50, driverClock, & 'DEBUG wrf_SST_ESMF: driverClock at end of time-stepping loop,') ENDDO WRITE(str,'(A)') 'PROGRAM wrf_SST_ESMF: done with time-stepping loop' CALL wrf_debug ( 100 , TRIM(str) ) ! clean up SST CALL ESMF_GridCompFinalize(compGriddedSST, importStateSST, exportStateSST, & driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompFinalize(compGriddedSST) failed' ) ENDIF ! clean up compCplWRFSST CALL ESMF_CplCompFinalize( compCplWRFSST, exportStateWRF, importStateSST, & driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_CplCompFinalize(compCplWRFSST) failed' ) ENDIF ! clean up WRF ! must do this AFTER clean up of SST since SST uses WRF IOAPI CALL ESMF_GridCompFinalize(compGriddedWRF, importStateWRF, exportStateWRF, & driverClock, rc=rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompFinalize(compGriddedWRF) failed' ) ENDIF ! Clean up CALL ESMF_GridCompDestroy(compGriddedWRF, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_GridCompDestroy(compGriddedWRF) failed' ) ENDIF CALL ESMF_StateDestroy(importStateWRF, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateDestroy(importStateWRF) failed' ) ENDIF CALL ESMF_StateDestroy(exportStateWRF, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateDestroy(exportStateWRF) failed' ) ENDIF CALL ESMF_StateDestroy(importStateSST, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateDestroy(importStateSST) failed' ) ENDIF CALL ESMF_StateDestroy(exportStateSST, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_StateDestroy(exportStateSST) failed' ) ENDIF CALL ESMF_ClockDestroy(driverClock, rc) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_ClockDestroy(driverClock) failed' ) ENDIF CALL ESMF_Finalize( rc=rc ) IF ( rc /= ESMF_SUCCESS ) THEN CALL wrf_error_fatal ( 'wrf_SST_ESMF: ESMF_Finalize failed' ) ENDIF END PROGRAM wrf_SST_ESMF