! $Id: ESMF_LocStreamUTest.F90,v 1.23 2011/07/04 05:11:19 oehmke Exp $ ! ! Earth System Modeling Framework ! Copyright 2002-2011, University Corporation for Atmospheric Research, ! Massachusetts Institute of Technology, Geophysical Fluid Dynamics ! Laboratory, University of Michigan, National Centers for Environmental ! Prediction, Los Alamos National Laboratory, Argonne National Laboratory, ! NASA Goddard Space Flight Center. ! Licensed under the University of Illinois-NCSA License. ! !============================================================================== ! program ESMF_LocStreamCreateUTest !------------------------------------------------------------------------------ #include "ESMF_Macros.inc" !============================================================================== !BOP ! !PROGRAM: ESMF_LocStreamCreateTest - Check LocStream Create Routines ! ! !DESCRIPTION: ! ! The code in this file drives F90 LocStream Create unit tests. ! !----------------------------------------------------------------------------- ! !USES: use ESMF_TestMod ! test methods use ESMF implicit none !------------------------------------------------------------------------------ ! The following line turns the CVS identifier string into a printable variable. character(*), parameter :: version = & '$Id: ESMF_LocStreamUTest.F90,v 1.23 2011/07/04 05:11:19 oehmke Exp $' !------------------------------------------------------------------------------ ! cumulative result: count failures; no failures equals "all pass" integer :: result = 0 ! individual test result code integer :: localrc, rc, petCount, localPet logical :: correct ! individual test failure message character(ESMF_MAXSTR) :: failMsg character(ESMF_MAXSTR) :: name, locstream_name character(ESMF_MAXSTR) :: keyNames(3) character(ESMF_MAXSTR) :: keyUnits,keyLongName type(ESMF_VM) :: vm type(ESMF_DistGrid) :: distgrid, distgridOut type(ESMF_DELayout) :: delayout type(ESMF_Index_Flag) :: indexflag type(ESMF_LocStream) :: locstream, locstream2, newlocstream, locstreamAlias integer :: ec,el,eu,cc,cl,cu,tc,tl,tu integer :: keyCount, localDECount, localDECountOut, i real(ESMF_KIND_R8), pointer :: keyDataR8(:),tmpR8(:) real(ESMF_KIND_R4), pointer :: keyDataR4(:),tmpR4(:) integer (ESMF_KIND_I4), pointer :: keyDataI4(:),tmpI4(:) integer :: bufCount, offset character, pointer :: buf(:) integer :: pntCount type(ESMF_Mesh) :: mesh real(ESMF_KIND_R8), pointer :: X(:),Y(:) real(ESMF_KIND_R8), pointer :: tstX(:),tstY(:) integer, pointer :: nodeIds(:),nodeOwners(:) real(ESMF_KIND_R8), pointer :: nodeCoords(:) integer :: numNodes, numElems integer, pointer :: elemIds(:),elemTypes(:),elemConn(:) logical:: locstreamBool !----------------------------------------------------------------------------- call ESMF_TestStart(ESMF_SRCLINE, rc=rc) !----------------------------------------------------------------------------- ! get global VM call ESMF_VMGetGlobal(vm, rc=rc) if (rc /= ESMF_SUCCESS) call ESMF_Finalize(endflag=ESMF_END_ABORT) call ESMF_VMGet(vm, localPet=localPet, petCount=petCount, rc=rc) if (rc /= ESMF_SUCCESS) call ESMF_Finalize(endflag=ESMF_END_ABORT) ! prepare DistGrid distgrid=ESMF_DistGridCreate(minIndex=(/1/),maxIndex=(/10/), rc=rc) if (rc /= ESMF_SUCCESS) call ESMF_Finalize(endflag=ESMF_END_ABORT) !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Testing LocStream Validate" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! First make sure validate fails for an uncreated Grid call ESMF_LocStreamValidate(locstream,rc=localrc) if (localrc .eq. ESMF_SUCCESS) correct=.false. ! Now make sure that a created grid validates successfully !! Create Grid locstream=ESMF_LocStreamCreate(name="ted",distgrid=distgrid, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE !! Check that validate returns true call ESMF_LocStreamValidate(locstream, rc=localrc) if (localrc .ne. ESMF_SUCCESS) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE !! Check that validate returns false call ESMF_LocStreamValidate(locstream, rc=localrc) if (localrc .eq. ESMF_SUCCESS) correct=.false. call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamCreate from Regular distribution" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(minIndex=2, maxIndex=20, regDecomp=4, indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE if (petCount .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=1, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=2, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "2", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=3, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. !write(*,*) "3", correct, el, eu, ec else if (petCount .eq. 4) then if (localPet .eq. 0) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 2) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 3) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. endif endif call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !------------------------------------------------------------------------ !NEX_UTest write(name, *) "LocStream equality before assignment Test" write(failMsg, *) "Did not return ESMF_SUCCESS" locstreamBool = (locstreamAlias.eq.locstream) call ESMF_Test(.not.locstreamBool, name, failMsg, result, ESMF_SRCLINE) !------------------------------------------------------------------------ !NEX_UTest ! Testing ESMF_LocStreamAssignment(=)() write(name, *) "LocStream assignment and equality Test" write(failMsg, *) "Did not return ESMF_SUCCESS" locstreamAlias = locstream locstreamBool = (locstreamAlias.eq.locstream) call ESMF_Test(locstreamBool, name, failMsg, result, ESMF_SRCLINE) !------------------------------------------------------------------------ !NEX_UTest write(name, *) "LocStreamDestroy Test" write(failMsg, *) "Did not return ESMF_SUCCESS" call ESMF_LocStreamDestroy(locstream, rc=rc) call ESMF_Test((rc.eq.ESMF_SUCCESS), name, failMsg, result, ESMF_SRCLINE) !------------------------------------------------------------------------ !NEX_UTest ! Testing ESMF_LocStreamOperator(==)() write(name, *) "LocStream equality after destroy Test" write(failMsg, *) "Did not return ESMF_SUCCESS" locstreamBool = (locstreamAlias==locstream) call ESMF_Test(.not.locstreamBool, name, failMsg, result, ESMF_SRCLINE) !------------------------------------------------------------------------ !NEX_UTest ! Testing ESMF_LocStreamOperator(/=)() write(name, *) "LocStream non-equality after destroy Test" write(failMsg, *) "Did not return ESMF_SUCCESS" locstreamBool = (locstreamAlias/=locstream) call ESMF_Test(locstreamBool, name, failMsg, result, ESMF_SRCLINE) !------------------------------------------------------------------------ !NEX_UTest write(name, *) "Double LocStreamDestroy through alias Test" write(failMsg, *) "Did not return ESMF_SUCCESS" call ESMF_LocStreamDestroy(locstreamAlias, rc=rc) call ESMF_Test((rc.eq.ESMF_SUCCESS), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamCreate from Irregular distribution" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(minIndex=2, countsPerDE=(/5,5,5,4/), indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE if (petCount .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "0", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=1, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "1", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=2, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "2", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=3, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. !write(*,*) "3", correct, el, eu, ec else if (petCount .eq. 4) then if (localPet .eq. 0) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 2) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 3) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. endif endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Testing LocStream Create from localCount and indexflag=ESMF_INDEX_DELOCAL" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Now make sure that a created grid validates successfully !! Create Grid locstream=ESMF_LocStreamCreate(localCount=10, indexflag=ESMF_INDEX_DELOCAL, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get Bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveCount=ec, exclusiveLBound=el, exclusiveUBound=eu, & computationalCount=cc, computationalLBound=cl, computationalUBound=cu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Check Bounds if (ec .ne. 10) correct=.false. if (el .ne. 1) correct=.false. if (eu .ne. 10) correct=.false. if (cc .ne. 10) correct=.false. if (cl .ne. 1) correct=.false. if (cu .ne. 10) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Testing LocStream Create from localCount and indexflag=ESMF_INDEX_GLOBAL" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Now make sure that a created grid validates successfully !! Create Grid locstream=ESMF_LocStreamCreate(localCount=10, indexflag=ESMF_INDEX_GLOBAL, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get Bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveCount=ec, exclusiveLBound=el, exclusiveUBound=eu, & computationalCount=cc, computationalLBound=cl, computationalUBound=cu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Check Bounds if (ec .ne. 10) correct=.false. if (el .ne. (localPet*10)+1) correct=.false. if (eu .ne. (localPet+1)*10) correct=.false. if (cc .ne. 10) correct=.false. if (cl .ne. (localPet*10)+1) correct=.false. if (cu .ne. (localPet+1)*10) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Testing LocStream Create defaults and LocStream Get" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(name="LOCSTREAMXYZ", maxIndex=20, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get Info about LocStream call ESMF_LocStreamGet(locstream, distgrid=distgridOut, & keyCount=keyCount, localDECount=localDECount, indexflag=indexflag, name=locstream_name, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info !! Make sure we start with keyCount = 0 if (keyCount .ne. 0) correct=.false. !! make sure localDECount matches call ESMF_DistGridGet(distgridOut,delayout=delayout, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_DELayoutGet(delayout,localDECount=localDECountOut, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE if (localDECount .ne. localDECountOut) correct=.false. !! Check indexflag if (.not. (indexflag .eq. ESMF_INDEX_DELOCAL)) correct=.false. !! Check name if (trim(locstream_name) .ne. "LOCSTREAMXYZ") correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test keyCount and keyNames response to ESMF_LocStreamAddKey" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(maxIndex=20, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get keyCount call ESMF_LocStreamGet(locstream, keyCount=keyCount, keyNames=keyNames, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info !! Make sure we start with keyCount = 0 if (keyCount .ne. 0) correct=.false. ! Add key call ESMF_LocStreamAddKey(locstream, keyName="A1", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get keyCount call ESMF_LocStreamGet(locstream, keyCount=keyCount, keyNames=keyNames, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (keyCount .ne. 1) correct=.false. if (trim(keyNames(1)) .ne. "A1") correct=.false. ! Add key call ESMF_LocStreamAddKey(locstream, keyName="A2", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get keyCount call ESMF_LocStreamGet(locstream, keyCount=keyCount, keyNames=keyNames, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (keyCount .ne. 2) correct=.false. if (trim(keyNames(1)) .ne. "A1") correct=.false. if (trim(keyNames(2)) .ne. "A2") correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamGetKey getting an I4 pointer and bounds" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(localCount=10, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! allocate array allocate(keyDataI4(10)) ! Add key call ESMF_LocStreamAddKey(locstream, keyName="A1", farray=keyDataI4, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Fill key do i=1,10 keyDataI4(i)=REAL(i,ESMF_KIND_I4) enddo ! Get key and bounds call ESMF_LocStreamGetKey(locstream, localDE=0, keyName="A1", & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & totalLBound=tl, totalUBound=tu, totalCount=tc, & farray=tmpI4, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info !! data pointer do i=1,10 if (tmpI4(i) .ne. REAL(i,ESMF_KIND_I4)) correct=.false. enddo !! Bounds if (el .ne. 1) correct=.false. if (eu .ne. 10) correct=.false. if (ec .ne. 10) correct=.false. if (cl .ne. 1) correct=.false. if (cu .ne. 10) correct=.false. if (cc .ne. 10) correct=.false. if (tl .ne. 1) correct=.false. if (tu .ne. 10) correct=.false. if (tc .ne. 10) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(keyDataI4) call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamGetKey getting an R4 pointer and bounds" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(localCount=10, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! allocate array allocate(keyDataR4(10)) ! Add key call ESMF_LocStreamAddKey(locstream, keyName="A1", farray=keyDataR4, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Fill key do i=1,10 keyDataR4(i)=REAL(i,ESMF_KIND_R4) enddo ! Get key and bounds call ESMF_LocStreamGetKey(locstream, localDE=0, keyName="A1", & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & totalLBound=tl, totalUBound=tu, totalCount=tc, & farray=tmpR4, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info !! data pointer do i=1,10 if (tmpR4(i) .ne. REAL(i,ESMF_KIND_R4)) correct=.false. enddo !! Bounds if (el .ne. 1) correct=.false. if (eu .ne. 10) correct=.false. if (ec .ne. 10) correct=.false. if (cl .ne. 1) correct=.false. if (cu .ne. 10) correct=.false. if (cc .ne. 10) correct=.false. if (tl .ne. 1) correct=.false. if (tu .ne. 10) correct=.false. if (tc .ne. 10) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(keyDataR4) call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamGetKey getting an R8 pointer and bounds" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(localCount=10, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! allocate array allocate(keyDataR8(10)) ! Add key call ESMF_LocStreamAddKey(locstream, keyName="A1", farray=keyDataR8, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Fill key do i=1,10 keyDataR8(i)=REAL(i,ESMF_KIND_R8) enddo ! Get key and bounds call ESMF_LocStreamGetKey(locstream, localDE=0, keyName="A1", & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & totalLBound=tl, totalUBound=tu, totalCount=tc, & farray=tmpR8, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info !! data pointer do i=1,10 if (tmpR8(i) .ne. REAL(i,ESMF_KIND_R8)) correct=.false. enddo !! Bounds if (el .ne. 1) correct=.false. if (eu .ne. 10) correct=.false. if (ec .ne. 10) correct=.false. if (cl .ne. 1) correct=.false. if (cu .ne. 10) correct=.false. if (cc .ne. 10) correct=.false. if (tl .ne. 1) correct=.false. if (tu .ne. 10) correct=.false. if (tc .ne. 10) correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(keyDataR8) call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test getting keyUnits and keyLongName" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(maxIndex=20, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A1 call ESMF_LocStreamAddKey(locstream, keyName="A1", keyUnits="U1", keyLongName="LN1", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A2 call ESMF_LocStreamAddKey(locstream, keyName="A2", keyUnits="U2", keyLongName="LN2", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get info for A1 call ESMF_LocStreamGetKey(locstream, keyName="A1", keyUnits=keyUnits, keyLongName=keyLongName, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (trim(keyUnits) .ne. "U1") correct=.false. if (trim(keyLongName) .ne. "LN1") correct=.false. ! Get info for A2 call ESMF_LocStreamGetKey(locstream, keyName="A2", keyUnits=keyUnits, keyLongName=keyLongName, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (trim(keyUnits) .ne. "U2") correct=.false. if (trim(keyLongName) .ne. "LN2") correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- ! NOTE THAT SERIALIZE/DESERIALIZE IS AN INTERNAL INTERFACE AND NOT INTENDED FOR PUBLIC USE !NEX_UTest write(name, *) "Test LocStream Serialize/Deserialize" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(maxIndex=20, indexflag=ESMF_INDEX_GLOBAL, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A1 call ESMF_LocStreamAddKey(locstream, keyName="A1", keyUnits="U1", keyLongName="LN1", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A2 call ESMF_LocStreamAddKey(locstream, keyName="A2", keyUnits="U2", keyLongName="LN2", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Create a buffer to put the locstream in offset=0 bufCount = 1 allocate (buf(bufCount)) call ESMF_LocStreamSerialize(locstream, buf, bufCount, offset, & inquireflag=ESMF_INQUIREONLY, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE deallocate (buf) bufCount=offset print *, 'ESMF_LocStreamUTest: serialization buffer size =', bufCount allocate(buf(bufCount)) ! Serialize offset=0 call ESMF_LocStreamSerialize(locstream, buf, bufCount, offset, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Deserialize offset=0 locstream2=ESMF_LocStreamDeserialize(buf, offset, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Check loc stream info call ESMF_LocStreamGet(locstream2, keyCount=keyCount, indexflag=indexflag, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (keyCount .ne. 2) correct=.false. if (.not. (indexflag .eq. ESMF_INDEX_GLOBAL)) correct=.false. ! Get info for A1 call ESMF_LocStreamGetKey(locstream2, keyName="A1", keyUnits=keyUnits, keyLongName=keyLongName, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (trim(keyUnits) .ne. "U1") correct=.false. if (trim(keyLongName) .ne. "LN1") correct=.false. ! Get info for A2 call ESMF_LocStreamGetKey(locstream2, keyName="A2", keyUnits=keyUnits, keyLongName=keyLongName, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! check info if (trim(keyUnits) .ne. "U2") correct=.false. if (trim(keyLongName) .ne. "LN2") correct=.false. call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamDestroy(locstream2,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Get rid of buffer deallocate(buf) call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test Print" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(maxIndex=20, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A1 call ESMF_LocStreamAddKey(locstream, keyName="A1", keyUnits="U1", keyLongName="LN1", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key A2 call ESMF_LocStreamAddKey(locstream, keyName="A2", keyUnits="U2", keyLongName="LN2", rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Test Print call ESMF_LocStreamPrint(locstream, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamCreate from Regular distribution" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(minIndex=2, maxIndex=20, regDecomp=4, indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE if (petCount .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "0", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=1, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "1", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=2, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "2", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=3, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. !write(*,*) "3", correct, el, eu, ec else if (petCount .eq. 4) then if (localPet .eq. 0) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 2) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 3) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. endif endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStreamCreate from Irregular distribution" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS ! Create Grid locstream=ESMF_LocStreamCreate(minIndex=2, countsPerDE=(/5,5,5,4/), indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE if (petCount .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "0", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=1, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "1", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=2, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. !write(*,*) "2", correct, el, eu, ec ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=3, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. !write(*,*) "3", correct, el, eu, ec else if (petCount .eq. 4) then if (localPet .eq. 0) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 2) correct=.false. if (eu .ne. 6) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 2) correct=.false. if (cu .ne. 6) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 1) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 7) correct=.false. if (eu .ne. 11) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 7) correct=.false. if (cu .ne. 11) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 2) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 12) correct=.false. if (eu .ne. 16) correct=.false. if (ec .ne. 5) correct=.false. if (cl .ne. 12) correct=.false. if (cu .ne. 16) correct=.false. if (cc .ne. 5) correct=.false. else if (localPet .eq. 3) then ! Check non-key bounds call ESMF_LocStreamGet(locstream, localDE=0, & exclusiveLBound=el, exclusiveUBound=eu, exclusiveCount=ec, & computationalLBound=cl, computationalUBound=cu, computationalCount=cc, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Bounds if (el .ne. 17) correct=.false. if (eu .ne. 20) correct=.false. if (ec .ne. 4) correct=.false. if (cl .ne. 17) correct=.false. if (cu .ne. 20) correct=.false. if (cc .ne. 4) correct=.false. endif endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !----------------------------------------------------------------------------- !NEX_UTest write(name, *) "Test ESMF_LocStream Create From Background Mesh" write(failMsg, *) "Did not return ESMF_SUCCESS" ! initialize check variables correct=.true. rc=ESMF_SUCCESS !!!!!!!! Create Mesh !!!!!!!!!!! ! Create Mesh ! Only do this if we have 4 PETs if (petCount .eq. 4) then ! Setup mesh data depending on PET if (localPet .eq. 0) then ! Fill in node data numNodes=4 !! node ids allocate(nodeIds(numNodes)) nodeIds=(/1,2,4,5/) !! node Coords allocate(nodeCoords(numNodes*2)) nodeCoords=(/0.0,0.0, & 1.0,0.0, & 0.0,1.0, & 1.0,1.0/) !! node owners allocate(nodeOwners(numNodes)) nodeOwners=(/0,0,0,0/) ! everything on proc 0 ! Fill in elem data numElems=1 !! elem ids allocate(elemIds(numElems)) elemIds=(/1/) !! elem type allocate(elemTypes(numElems)) elemTypes=ESMF_MESHELEMTYPE_QUAD !! elem conn allocate(elemConn(numElems*4)) elemConn=(/1,2,4,3/) else if (localPet .eq. 1) then ! Fill in node data numNodes=4 !! node ids allocate(nodeIds(numNodes)) nodeIds=(/2,3,5,6/) !! node Coords allocate(nodeCoords(numNodes*2)) nodeCoords=(/1.0,0.0, & 2.0,0.0, & 1.0,1.0, & 2.0,1.0/) !! node owners allocate(nodeOwners(numNodes)) nodeOwners=(/0,1,0,1/) ! Fill in elem data numElems=1 !! elem ids allocate(elemIds(numElems)) elemIds=(/2/) !! elem type allocate(elemTypes(numElems)) elemTypes=ESMF_MESHELEMTYPE_QUAD !! elem conn allocate(elemConn(numElems*4)) elemConn=(/1,2,4,3/) else if (localPet .eq. 2) then ! Fill in node data numNodes=4 !! node ids allocate(nodeIds(numNodes)) nodeIds=(/4,5,7,8/) !! node Coords allocate(nodeCoords(numNodes*2)) nodeCoords=(/0.0,1.0, & 1.0,1.0, & 0.0,2.0, & 1.0,2.0/) !! node owners allocate(nodeOwners(numNodes)) nodeOwners=(/0,0,2,2/) ! Fill in elem data numElems=1 !! elem ids allocate(elemIds(numElems)) elemIds=(/3/) !! elem type allocate(elemTypes(numElems)) elemTypes=ESMF_MESHELEMTYPE_QUAD !! elem conn allocate(elemConn(numElems*4)) elemConn=(/1,2,4,3/) else ! Fill in node data numNodes=4 !! node ids allocate(nodeIds(numNodes)) nodeIds=(/5,6,8,9/) !! node Coords allocate(nodeCoords(numNodes*2)) nodeCoords=(/1.0,1.0, & 2.0,1.0, & 1.0,2.0, & 2.0,2.0/) !! node owners allocate(nodeOwners(numNodes)) nodeOwners=(/0,1,2,3/) ! Fill in elem data numElems=1 !! elem ids allocate(elemIds(numElems)) elemIds=(/4/) !! elem type allocate(elemTypes(numElems)) elemTypes=ESMF_MESHELEMTYPE_QUAD !! elem conn allocate(elemConn(numElems*4)) elemConn=(/1,2,4,3/) endif ! Create Mesh structure in 1 step mesh=ESMF_MeshCreate(parametricDim=2,spatialDim=2, & nodeIds=nodeIds, nodeCoords=nodeCoords, & nodeOwners=nodeOwners, elementIds=elemIds,& elementTypes=elemTypes, elementConn=elemConn, & rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate node data deallocate(nodeIds) deallocate(nodeCoords) deallocate(nodeOwners) ! deallocate elem data deallocate(elemIds) deallocate(elemTypes) deallocate(elemConn) !!!!!!!! Create LocStream !!!!!!!!!!! ! Set number of points if (localPet .eq. 0) then pntCount=2 else if (localPet .eq. 1) then pntCount=3 else if (localPet .eq. 2) then pntCount=1 else if (localPet .eq. 3) then pntCount=1 endif ! Create LocStream locstream=ESMF_LocStreamCreate(localCount=pntCount, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Allocate X array allocate(X(pntCount)) ! allocate Y array allocate(Y(pntCount)) ! Fill in points if (localPet .eq. 0) then X(1)=1.0 Y(1)=1.0 X(2)=0.5 Y(2)=1.5 else if (localPet .eq. 1) then X(1)=1.5 Y(1)=0.5 X(2)=1.5 Y(2)=1.5 X(3)=1.9 Y(3)=1.75 else if (localPet .eq. 2) then X(1)=0.5 Y(1)=0.5 else if (localPet .eq. 3) then X(1)=1.9 Y(1)=0.1 endif ! Add key X call ESMF_LocStreamAddKey(locstream, keyName="X", farray=X, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key Y call ESMF_LocStreamAddKey(locstream, keyName="Y", farray=Y, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Do locStream create from background mesh newLocstream=ESMF_LocStreamCreate(locstream, coordKeyNames="X:Y", & background=mesh, rc=localrc) if (localrc .ne. ESMF_SUCCESS) then rc=ESMF_FAILURE go to 100 endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(X) deallocate(Y) ! Get rid of Mesh call ESMF_MeshDestroy(mesh, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE !!!!!!!!! Check results !!!!!!!!!!!!!!!!! call ESMF_LocStreamGetKey(newLocStream,localDE=0,keyName="X", & farray=tstX, & exclusiveLBound=el, exclusiveUBound=eu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamGetKey(newLocStream,localDE=0,keyName="Y", & farray=tstY, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Test points if (localPet .eq. 0) then do i=el,eu if ((tstX(i) < 0.0) .or. tstX(i) > 1.0) correct=.false. if ((tstY(i) < 0.0) .or. tstY(i) > 1.0) correct=.false. enddo else if (localPet .eq. 1) then do i=el,eu if ((tstX(i) <= 1.0) .or. tstX(i) > 2.0) correct=.false. if ((tstY(i) < 0.0) .or. tstY(i) > 1.0) correct=.false. enddo else if (localPet .eq. 2) then do i=el,eu if ((tstX(i) < 0.0) .or. tstX(i) > 1.0) correct=.false. if ((tstY(i) <= 1.0) .or. tstY(i) > 2.0) correct=.false. enddo else if (localPet .eq. 3) then do i=el,eu if ((tstX(i) <= 1.0) .or. tstX(i) > 2.0) correct=.false. if ((tstY(i) <= 1.0) .or. tstY(i) > 2.0) correct=.false. enddo endif call ESMF_LocStreamDestroy(newLocstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! endif for skip for ==4 proc endif 100 continue call ESMF_Test(((rc .eq. ESMF_SUCCESS) .and. correct), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !------------------------------------------------------------------------ !NEX_UTest write(name, *) "Test ESMF_LocStream Create From Background Grid" write(failMsg, *) "Test unsuccessful" ! initialize rc=ESMF_SUCCESS ! do test call test_locstreambkg(rc) ! return result call ESMF_Test((rc.eq.ESMF_SUCCESS), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !------------------------------------------------------------------------ !NEX_UTest write(name, *) "Test ESMF_LocStream Create From Background Grid non-default Align" write(failMsg, *) "Test unsuccessful" ! initialize rc=ESMF_SUCCESS ! do test call test_locstreambkgnda(rc) ! return result call ESMF_Test((rc.eq.ESMF_SUCCESS), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- !------------------------------------------------------------------------ !NEX_UTest write(name, *) "Test ESMF_LocStream Create From Background Grid on Sphere" write(failMsg, *) "Test unsuccessful" ! initialize rc=ESMF_SUCCESS ! do test call test_locstreambkgSph(rc) ! return result call ESMF_Test((rc.eq.ESMF_SUCCESS), name, failMsg, result, ESMF_SRCLINE) !----------------------------------------------------------------------------- ! Destroy distgrid call ESMF_DistGridDestroy(distgrid, rc=rc) if (rc /= ESMF_SUCCESS) call ESMF_Finalize(endflag=ESMF_END_ABORT) !----------------------------------------------------------------------------- call ESMF_TestEnd(result, ESMF_SRCLINE) !----------------------------------------------------------------------------- contains subroutine test_locstreambkg(rc) integer, intent(out) :: rc logical :: correct integer :: localrc type(ESMF_Grid) :: gridA type(ESMF_VM) :: vm real(ESMF_KIND_R8), pointer :: farrayPtrXC(:,:) real(ESMF_KIND_R8), pointer :: farrayPtrYC(:,:) integer :: clbnd(2),cubnd(2) integer :: i1,i2,i3, index(2) real(ESMF_KIND_R8) :: coord(2) integer A_nx, A_ny real(ESMF_KIND_R8) :: A_minx,A_miny real(ESMF_KIND_R8) :: A_maxx,A_maxy integer :: localPet, petCount real(ESMF_KIND_R8) :: de_minx, de_maxx real(ESMF_KIND_R8) :: de_miny, de_maxy integer :: pntCount real(ESMF_KIND_R8), pointer :: X(:),Y(:) real(ESMF_KIND_R8), pointer :: tstX(:),tstY(:) type(ESMF_LocStream) :: locstream, newlocstream real(ESMF_KIND_R8) :: tmpXC, tmpYC ! result code integer :: finalrc ! init success flag correct=.true. rc=ESMF_SUCCESS ! get pet info call ESMF_VMGetGlobal(vm, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_VMGet(vm, petCount=petCount, localPet=localpet, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Establish the resolution of the grids A_nx = 16 A_ny = 16 ! Establish the coordinates of the grids A_minx = 0.0 A_miny = 0.0 A_maxx = 2.0 A_maxy = 2.0 ! setup source grid gridA=ESMF_GridCreateNoPeriDim(minIndex=(/1,1/),maxIndex=(/A_nx,A_ny/),regDecomp=(/petCount,1/), & coordSys=ESMF_COORDSYS_CART, & indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Allocate coordinates call ESMF_GridAddCoord(gridA, staggerloc=ESMF_STAGGERLOC_CORNER, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Construct Grid A ! (Get memory and set coords for src) !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrXC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrYC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates farrayPtrXC(i1,i2) = ((A_maxx-A_minx)*REAL(i1-1)/REAL(A_nx-1))+A_minx farrayPtrYC(i1,i2) = ((A_maxy-A_miny)*REAL(i2-1)/REAL(A_ny-1))+A_miny enddo enddo !!!!!!!! Create LocStream !!!!!!!!!!! ! Set number of points if (localPet .eq. 0) then pntCount=2 else if (localPet .eq. 1) then pntCount=3 else if (localPet .eq. 2) then pntCount=1 else if (localPet .eq. 3) then pntCount=1 endif ! Create LocStream locstream=ESMF_LocStreamCreate(localCount=pntCount, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Allocate X array allocate(X(pntCount)) ! allocate Y array allocate(Y(pntCount)) ! Fill in points if (localPet .eq. 0) then X(1)=1.0 Y(1)=1.0 X(2)=0.5 Y(2)=1.5 else if (localPet .eq. 1) then X(1)=1.5 Y(1)=0.5 X(2)=1.5 Y(2)=1.5 X(3)=1.9 Y(3)=1.75 else if (localPet .eq. 2) then X(1)=0.5 Y(1)=0.5 else if (localPet .eq. 3) then X(1)=1.9 Y(1)=0.1 endif ! Add key X call ESMF_LocStreamAddKey(locstream, keyName="X", farray=X, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key Y call ESMF_LocStreamAddKey(locstream, keyName="Y", farray=Y, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Do locStream create from background mesh newLocstream=ESMF_LocStreamCreate(locstream, coordKeyNames="X:Y", & background=gridA, rc=localrc) if (localrc .ne. ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(X) deallocate(Y) ! Test Newly Created LocStream ! Since the grid is setup to be rectilinear checking the min/max should be fine !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & farrayPtr=farrayPtrXC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrYC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif !! Init min/max of DE de_minx=A_maxx de_miny=A_maxy de_maxx=A_minx de_maxy=A_miny !! Adjust loop to cover min-max of cells not just nodes !! i.e. if not the last proc extend by 1 to cover other point of cell if (localPet .lt. petCount-1) cubnd(1) =cubnd(1)+1 !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates tmpXC = ((A_maxx-A_minx)*REAL(i1-1)/REAL(A_nx-1))+A_minx tmpYC = ((A_maxy-A_miny)*REAL(i2-1)/REAL(A_ny-1))+A_miny ! Min/max off coordinates if (tmpXC < de_minx) de_minx=tmpXC if (tmpXC > de_maxx) de_maxx=tmpXC if (tmpYC < de_miny) de_miny=tmpYC if (tmpYC > de_maxy) de_maxy=tmpYC enddo enddo !!!!!!!!! Check locstream points vs Grid min max !!!!!!!!!!!!!!!!! call ESMF_LocStreamGetKey(newlocStream,localDE=0,keyName="X", & farray=tstX, & exclusiveLBound=el, exclusiveUBound=eu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamGetKey(newLocStream,localDE=0,keyName="Y", & farray=tstY, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Test points do i=el,eu if ((tstX(i) < de_minx) .or. (tstX(i) > de_maxx)) then write(*,*) tstX(i),"not in [",de_minx,de_maxx,"]" correct=.false. endif if ((tstY(i) < de_miny) .or. (tstY(i) > de_maxy)) then write(*,*) tstY(i),"not in [",de_miny,de_maxy,"]" correct=.false. endif enddo ! Get rid of the new locstream call ESMF_LocStreamDestroy(newLocstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Free the grids call ESMF_GridDestroy(gridA, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! return answer based on correct flag if (correct) then rc=ESMF_SUCCESS else rc=ESMF_FAILURE endif end subroutine test_locstreambkg subroutine test_locstreambkgnda(rc) integer, intent(out) :: rc logical :: correct integer :: localrc type(ESMF_Grid) :: gridA type(ESMF_VM) :: vm real(ESMF_KIND_R8), pointer :: farrayPtrXC(:,:) real(ESMF_KIND_R8), pointer :: farrayPtrYC(:,:) integer :: clbnd(2),cubnd(2) integer :: i1,i2,i3, index(2) real(ESMF_KIND_R8) :: coord(2) integer A_nx, A_ny real(ESMF_KIND_R8) :: A_minx,A_miny real(ESMF_KIND_R8) :: A_maxx,A_maxy integer :: localPet, petCount real(ESMF_KIND_R8) :: de_minx, de_maxx real(ESMF_KIND_R8) :: de_miny, de_maxy integer :: pntCount real(ESMF_KIND_R8), pointer :: X(:),Y(:) real(ESMF_KIND_R8), pointer :: tstX(:),tstY(:) type(ESMF_LocStream) :: locstream, newlocstream real(ESMF_KIND_R8) :: tmpXC, tmpYC ! result code integer :: finalrc ! init success flag correct=.true. rc=ESMF_SUCCESS ! get pet info call ESMF_VMGetGlobal(vm, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_VMGet(vm, petCount=petCount, localPet=localpet, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Establish the resolution of the grids A_nx = 16 A_ny = 16 ! Establish the coordinates of the grids A_minx = 0.0 A_miny = 0.0 A_maxx = 2.0 A_maxy = 2.0 ! setup source grid gridA=ESMF_GridCreateNoPeriDim(minIndex=(/1,1/),maxIndex=(/A_nx,A_ny/),regDecomp=(/petCount,1/), & coordSys=ESMF_COORDSYS_CART, & gridAlign=(/1,1/),indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Allocate coordinates call ESMF_GridAddCoord(gridA, staggerloc=ESMF_STAGGERLOC_CORNER, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Construct Grid A ! (Get memory and set coords for src) !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrXC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrYC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates farrayPtrXC(i1,i2) = ((A_maxx-A_minx)*REAL(i1-1)/REAL(A_nx-1))+A_minx farrayPtrYC(i1,i2) = ((A_maxy-A_miny)*REAL(i2-1)/REAL(A_ny-1))+A_miny enddo enddo !!!!!!!! Create LocStream !!!!!!!!!!! ! Set number of points if (localPet .eq. 0) then pntCount=2 else if (localPet .eq. 1) then pntCount=3 else if (localPet .eq. 2) then pntCount=1 else if (localPet .eq. 3) then pntCount=1 endif ! Create LocStream locstream=ESMF_LocStreamCreate(localCount=pntCount, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Allocate X array allocate(X(pntCount)) ! allocate Y array allocate(Y(pntCount)) ! Fill in points if (localPet .eq. 0) then X(1)=1.0 Y(1)=1.0 X(2)=0.5 Y(2)=1.5 else if (localPet .eq. 1) then X(1)=1.5 Y(1)=0.5 X(2)=1.5 Y(2)=1.5 X(3)=1.9 Y(3)=1.75 else if (localPet .eq. 2) then X(1)=0.5 Y(1)=0.5 else if (localPet .eq. 3) then X(1)=1.9 Y(1)=0.1 endif ! Add key X call ESMF_LocStreamAddKey(locstream, keyName="X", farray=X, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key Y call ESMF_LocStreamAddKey(locstream, keyName="Y", farray=Y, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Do locStream create from background mesh newLocstream=ESMF_LocStreamCreate(locstream, coordKeyNames="X:Y", & background=gridA, rc=localrc) if (localrc .ne. ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(X) deallocate(Y) ! Test Newly Created LocStream ! Since the grid is setup to be rectilinear checking the min/max should be fine !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & farrayPtr=farrayPtrXC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrYC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif !! Init min/max of DE de_minx=A_maxx de_miny=A_maxy de_maxx=A_minx de_maxy=A_miny !! Adjust loop to cover min-max of cells not just nodes !! i.e. if not the first proc extend by 1 downward to cover other point of cell !! Note that this is the other direction than the other test because of !! the difference in GridAlign if (localPet .gt. 0) clbnd(1) =clbnd(1)-1 !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates tmpXC = ((A_maxx-A_minx)*REAL(i1-1)/REAL(A_nx-1))+A_minx tmpYC = ((A_maxy-A_miny)*REAL(i2-1)/REAL(A_ny-1))+A_miny ! Min/max off coordinates if (tmpXC < de_minx) de_minx=tmpXC if (tmpXC > de_maxx) de_maxx=tmpXC if (tmpYC < de_miny) de_miny=tmpYC if (tmpYC > de_maxy) de_maxy=tmpYC enddo enddo !!!!!!!!! Check locstream points vs Grid min max !!!!!!!!!!!!!!!!! call ESMF_LocStreamGetKey(newlocStream,localDE=0,keyName="X", & farray=tstX, & exclusiveLBound=el, exclusiveUBound=eu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamGetKey(newLocStream,localDE=0,keyName="Y", & farray=tstY, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Test points do i=el,eu if ((tstX(i) < de_minx) .or. (tstX(i) > de_maxx)) then write(*,*) tstX(i),"not in [",de_minx,de_maxx,"]" correct=.false. endif if ((tstY(i) < de_miny) .or. (tstY(i) > de_maxy)) then write(*,*) tstY(i),"not in [",de_miny,de_maxy,"]" correct=.false. endif enddo ! Get rid of the new locstream call ESMF_LocStreamDestroy(newLocstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Free the grids call ESMF_GridDestroy(gridA, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! return answer based on correct flag if (correct) then rc=ESMF_SUCCESS else rc=ESMF_FAILURE endif end subroutine test_locstreambkgnda subroutine test_locstreambkgsph(rc) integer, intent(out) :: rc logical :: correct integer :: localrc type(ESMF_Grid) :: gridA type(ESMF_VM) :: vm real(ESMF_KIND_R8), pointer :: farrayPtrLonC(:,:) real(ESMF_KIND_R8), pointer :: farrayPtrLatC(:,:) integer :: clbnd(2),cubnd(2) integer :: i1,i2,i3, index(2) real(ESMF_KIND_R8) :: coord(2) integer A_nlon, A_nlat integer :: localPet, petCount real(ESMF_KIND_R8) :: de_minlon, de_maxlon real(ESMF_KIND_R8) :: de_minlat, de_maxlat integer :: pntCount real(ESMF_KIND_R8), pointer :: Lon(:),Lat(:) real(ESMF_KIND_R8), pointer :: tstLon(:),tstLat(:) type(ESMF_LocStream) :: locstream, newlocstream real(ESMF_KIND_R8) :: tmpLonC, tmpLatC real(ESMF_KIND_R8) :: A_dlon, A_dlat ! result code integer :: finalrc ! init success flag correct=.true. rc=ESMF_SUCCESS ! get pet info call ESMF_VMGetGlobal(vm, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_VMGet(vm, petCount=petCount, localPet=localpet, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Establish the resolution of the grids A_nlon = 16 A_nlat = 16 ! setup source grid gridA=ESMF_GridCreateNoPeriDim(minIndex=(/1,1/),maxIndex=(/A_nlon,A_nlat/),regDecomp=(/petCount,1/), & coordSys=ESMF_COORDSYS_CART, & indexflag=ESMF_INDEX_GLOBAL, & rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Allocate coordinates call ESMF_GridAddCoord(gridA, staggerloc=ESMF_STAGGERLOC_CORNER, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! Construct Grid A ! (Get memory and set coords for src) !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrLonC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrLatC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif A_dlon=360.0/A_nlon A_dlat=180.0/A_nlat !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates as 0 to 360 farrayPtrLonC(i1,i2) = REAL(i1-1)*A_dlon ! Set source coordinates as -90 to 90 farrayPtrLatC(i1,i2) = -90. + (REAL(i2-1)*A_dlat + 0.5*A_dlat) enddo enddo !!!!!!!! Create LocStream !!!!!!!!!!! ! Set number of points if (localPet .eq. 0) then pntCount=2 else if (localPet .eq. 1) then pntCount=3 else if (localPet .eq. 2) then pntCount=1 else if (localPet .eq. 3) then pntCount=1 endif ! Create LocStream locstream=ESMF_LocStreamCreate(localCount=pntCount, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Allocate Lon array allocate(Lon(pntCount)) ! allocate Lat array allocate(Lat(pntCount)) ! Fill in points if (localPet .eq. 0) then Lon(1)=190.0 Lat(1)=10.0 Lon(2)=280.0 Lat(2)=-15.0 else if (localPet .eq. 1) then Lon(1)=10.0 Lat(1)=50.0 Lon(2)=20.0 Lat(2)=40.0 Lon(3)=100.0 Lat(3)=0.0 else if (localPet .eq. 2) then Lon(1)=355.0 Lat(1)=-60.0 else if (localPet .eq. 3) then Lon(1)=170.0 Lat(1)=-80.0 endif ! Add key Lon call ESMF_LocStreamAddKey(locstream, keyName="Lon", farray=Lon, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Add key Lat call ESMF_LocStreamAddKey(locstream, keyName="Lat", farray=Lat, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Do locStream create from background mesh newLocstream=ESMF_LocStreamCreate(locstream, coordKeyNames="Lon:Lat", & background=gridA, rc=localrc) if (localrc .ne. ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_LocStreamDestroy(locstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! deallocate array deallocate(Lon) deallocate(Lat) ! Test Newly Created LocStream ! Since the grid is setup to be rectilinear checking the min/max should be fine !! get coord 1 call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=1, & farrayPtr=farrayPtrLonC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif call ESMF_GridGetCoord(gridA, localDE=0, staggerLoc=ESMF_STAGGERLOC_CORNER, coordDim=2, & computationalLBound=clbnd, computationalUBound=cubnd, farrayPtr=farrayPtrLatC, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif !! Init min/max of DE de_minlon=360.0 de_minlat=90.0 de_maxlon=0.0 de_maxlat=-90.0 !! Adjust loop to cover min-max of cells not just nodes !! i.e. extend by 1 to cover other point of cell. if (localPet .lt. PetCount-1) cubnd(1) =cubnd(1)+1 !! set coords, interpolated function do i1=clbnd(1),cubnd(1) do i2=clbnd(2),cubnd(2) ! Set source coordinates ! Set source coordinates as 0 to 360 tmpLonC = REAL(i1-1)*A_dlon ! Set source coordinates as -90 to 90 tmpLatC = -90. + (REAL(i2-1)*A_dlat + 0.5*A_dlat) ! Min/max off coordinates if (tmpLonC < de_minlon) de_minlon=tmpLonC if (tmpLonC > de_maxlon) de_maxlon=tmpLonC if (tmpLatC < de_minlat) de_minlat=tmpLatC if (tmpLatC > de_maxlat) de_maxlat=tmpLatC enddo enddo ! write(*,*) localPet," [",de_minlon,de_maxlon,"]" !!!!!!!!! Check locstream points vs Grid min max !!!!!!!!!!!!!!!!! call ESMF_LocStreamGetKey(newlocStream,localDE=0,keyName="Lon", & farray=tstLon, & exclusiveLBound=el, exclusiveUBound=eu, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE call ESMF_LocStreamGetKey(newLocStream,localDE=0,keyName="Lat", & farray=tstLat, rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Test points do i=el,eu if ((tstLon(i) < de_minlon) .or. (tstLon(i) > de_maxlon)) then write(*,*) tstLon(i),"not in [",de_minlon,de_maxlon,"]" correct=.false. endif if ((tstLat(i) < de_minlat) .or. (tstLat(i) > de_maxlat)) then write(*,*) tstLat(i),"not in [",de_minlat,de_maxlat,"]" correct=.false. endif enddo ! Get rid of the new locstream call ESMF_LocStreamDestroy(newLocstream,rc=localrc) if (localrc .ne. ESMF_SUCCESS) rc=ESMF_FAILURE ! Free the grids call ESMF_GridDestroy(gridA, rc=localrc) if (localrc /=ESMF_SUCCESS) then rc=ESMF_FAILURE return endif ! return answer based on correct flag if (correct) then rc=ESMF_SUCCESS else rc=ESMF_FAILURE endif end subroutine test_locstreambkgsph end program ESMF_LocStreamCreateUTest