! $Id$ ! ! Example/test code which shows User Component calls. !------------------------------------------------------------------------- !------------------------------------------------------------------------- !BOP ! ! !DESCRIPTION: ! User-supplied Coupler ! ! !\begin{verbatim} module user_coupler ! ESMF Framework module use ESMF implicit none public usercpl_register ! global data type(ESMF_RouteHandle), save :: routehandle contains !------------------------------------------------------------------------- ! ! The Register routine sets the subroutines to be called ! ! as the init, run, and finalize routines. Note that these are ! ! private to the module. subroutine usercpl_register(comp, rc) type(ESMF_CplComp) :: comp integer, intent(out) :: rc rc = ESMF_SUCCESS print *, "in user setservices routine" ! Register the callback routines. call ESMF_CplCompSetEntryPoint(comp, ESMF_METHOD_INITIALIZE, user_init, rc=rc) if(rc/=ESMF_SUCCESS) return call ESMF_CplCompSetEntryPoint(comp, ESMF_METHOD_RUN, user_run, rc=rc) if(rc/=ESMF_SUCCESS) return call ESMF_CplCompSetEntryPoint(comp, ESMF_METHOD_FINALIZE, user_final, rc=rc) if(rc/=ESMF_SUCCESS) return print *, "Registered Initialize, Run, and Finalize routines" end subroutine !------------------------------------------------------------------------- ! !User Comp Component created by higher level calls, here is the ! ! Initialization routine. subroutine user_init(comp, importState, exportState, clock, rc) type(ESMF_CplComp) :: comp type(ESMF_State) :: importState, exportState type(ESMF_Clock) :: clock integer, intent(out) :: rc ! Local variables integer :: itemcount type(ESMF_Field) :: humidity1, humidity2 type(ESMF_VM) :: vm integer(ESMF_KIND_I4), allocatable :: factorList(:) integer, allocatable :: factorIndexList(:,:) integer :: lpe rc = ESMF_SUCCESS print *, "User Coupler Init starting" call ESMF_CplCompGet(comp, vm=vm, rc=rc) call ESMF_VMGet(vm, localPET=lpe, rc=rc) ! uncomment the following when locstream supports reconcile ! Since the components we are coupling between are running concurrently, ! they have each separately created ESMF objects. We are planning to ! use a communications call (SMM) here, so first we must make a new ! call to reconcile the object lists in all the import and export states. call ESMF_StateReconcile(importState, vm=vm, rc=rc) if(rc/=ESMF_SUCCESS) return call ESMF_StateReconcile(exportState, vm=vm, rc=rc) if(rc/=ESMF_SUCCESS) return call ESMF_StateGet(importState, itemcount=itemcount, rc=rc) if(rc/=ESMF_SUCCESS) return print *, "Import State contains ", itemcount, " items." call ESMF_StateGet(exportState, itemcount=itemcount, rc=rc) if(rc/=ESMF_SUCCESS) return print *, "Export State contains ", itemcount, " items." ! Get input data call ESMF_StateGet(importState, "humidity", humidity1, rc=rc) if(rc/=ESMF_SUCCESS) return ! call ESMF_FieldPrint(humidity1, rc=rc) ! Get location of output data call ESMF_StateGet(exportState, "humidity", humidity2, rc=rc) if(rc/=ESMF_SUCCESS) return ! call ESMF_FieldPrint(humidity2, rc=rc) ! Get VM from coupler component to send down to SMM Store routine call ESMF_CplCompGet(comp, vm=vm, rc=rc) if(rc/=ESMF_SUCCESS) return ! These are fields on different Grids - call SMMStore to set ! up the SMM structure allocate(factorList(4)) allocate(factorIndexList(2,4)) factorList = (/2,2,2,2/) factorIndexList(1,:) = (/lpe*4+1,lpe*4+2,lpe*4+3,lpe*4+4/) factorIndexList(2,:) = (/lpe*4+1,lpe*4+2,lpe*4+3,lpe*4+4/) call ESMF_FieldSMMStore(humidity1, humidity2, routehandle, & factorList, factorIndexList, rc=rc) if(rc/=ESMF_SUCCESS) return print *, "User Coupler Init returning" end subroutine user_init !------------------------------------------------------------------------- ! ! The Run routine where data is coupled. ! ! subroutine user_run(comp, importState, exportState, clock, rc) type(ESMF_CplComp) :: comp type(ESMF_State) :: importState, exportState type(ESMF_Clock) :: clock integer, intent(out) :: rc ! Local variables type(ESMF_Field) :: humidity1, humidity2 rc = ESMF_SUCCESS print *, "User Coupler Run starting" ! Get input data call ESMF_StateGet(importState, "humidity", humidity1, rc=rc) if(rc/=ESMF_SUCCESS) return ! call ESMF_FieldPrint(humidity1, rc=rc) ! Get location of output data call ESMF_StateGet(exportState, "humidity", humidity2, rc=rc) if(rc/=ESMF_SUCCESS) return ! call ESMF_FieldPrint(humidity2, rc=rc) ! These are fields on different Grids - call SMM to rearrange ! the data. The communication pattern was computed at init, ! this simply has to execute the send and receive equivalents. call ESMF_FieldSMM(humidity1, humidity2, routehandle, rc=rc) if(rc/=ESMF_SUCCESS) return ! Data is moved directly to the field in the output state, so no ! "put" is needed here. print *, "User Coupler Run returning" end subroutine user_run !------------------------------------------------------------------------- ! ! The Finalization routine where things are deleted and cleaned up. ! ! subroutine user_final(comp, importState, exportState, clock, rc) type(ESMF_CplComp) :: comp type(ESMF_State) :: importState, exportState type(ESMF_Clock) :: clock integer, intent(out) :: rc ! Local variables rc = ESMF_SUCCESS print *, "User Coupler Final starting" ! Release resources stored for the SMM call ESMF_FieldSMMRelease(routehandle, rc=rc) if(rc/=ESMF_SUCCESS) return print *, "User Coupler Final returning" end subroutine user_final end module user_coupler !\end{verbatim}