PROGRAM test_new_features USE xios USE mod_wait IMPLICIT NONE INCLUDE "mpif.h" INTEGER :: rank INTEGER :: size INTEGER :: ierr CHARACTER(len=*),PARAMETER :: id="client" INTEGER :: comm TYPE(xios_duration) :: dtime TYPE(xios_date) :: date CHARACTER(len=15) :: calendar_type TYPE(xios_context) :: ctx_hdl INTEGER,PARAMETER :: ni_glo=100 INTEGER,PARAMETER :: nj_glo=100 INTEGER,PARAMETER :: llm=5 INTEGER,PARAMETER :: llmInterPolated=4 DOUBLE PRECISION :: lval(llm)=1, tsTemp, lvalInterPolated(llmInterPolated)=1 TYPE(xios_field) :: field_hdl TYPE(xios_fieldgroup) :: fieldgroup_hdl TYPE(xios_file) :: file_hdl LOGICAL :: ok LOGICAL,ALLOCATABLE :: mask_glo(:),mask(:) DOUBLE PRECISION,DIMENSION(ni_glo,nj_glo) :: lon_glo,lat_glo DOUBLE PRECISION,DIMENSION(4,ni_glo,nj_glo) :: bnds_lon_glo, bnds_lat_glo DOUBLE PRECISION :: field_A_glo(ni_glo,nj_glo,llm), lval_ni_glo(ni_glo), lval_nj_glo(nj_glo) DOUBLE PRECISION,ALLOCATABLE :: lon(:,:),lat(:,:),field_A(:,:,:), field_All_Axis(:,:,:), lonvalue(:) , & field_Axis(:), lvaln(:), lval_ni(:), lval_nj(:), field_Two_Axis(:,:), lvalnInterp(:), & lontransformed(:,:), lattransformed(:,:), lon_glotransformed(:,:), lat_glotransformed(:,:), & bnds_lon(:,:,:), bnds_lat(:,:,:) INTEGER :: ni,ibegin,iend,nj,jbegin,jend, nAxis, axisBegin, axisEnd INTEGER :: axisterpBegin, nAxisinterp, axisinterpEnd INTEGER :: niDomInterp,ibeginDomInterp,iendDomInterp,njDomInterp,jbeginDomInterp,jendDomInterp, niDomGlo, njDomGlo INTEGER :: i,j,k,l,ts,n !!! MPI Initialization CALL MPI_INIT(ierr) CALL init_wait !!! XIOS Initialization (get the local communicator) CALL xios_initialize(id,return_comm=comm) CALL MPI_COMM_RANK(comm,rank,ierr) CALL MPI_COMM_SIZE(comm,size,ierr) DO j=1,nj_glo DO i=1,ni_glo lon_glo(i,j)=(i-1)+(j-1)*ni_glo lat_glo(i,j)=1000+(i-1)+(j-1)*ni_glo DO k = 1,4 bnds_lon_glo(1,i,j) = lon_glo(i,j) bnds_lon_glo(2,i,j) = lon_glo(i,j)-10 bnds_lon_glo(3,i,j) = lon_glo(i,j) bnds_lon_glo(4,i,j) = lon_glo(i,j)+10 bnds_lat_glo(1,i,j) = lat_glo(i,j) -10 bnds_lat_glo(2,i,j) = lat_glo(i,j) bnds_lat_glo(3,i,j) = lat_glo(i,j) -10 bnds_lat_glo(4,i,j) = lat_glo(i,j) ENDDO lval_ni_glo(i) = i-1 DO l=1,llm field_A_glo(i,j,l)=(i-1)+(j-1)*ni_glo+10000*l ENDDO ENDDO lval_nj_glo(j) = j-1 ENDDO ni = ni_glo ibegin = 0 iend = ibegin + ni - 1 jbegin=0 CALL Distribute_index(jbegin, jend, nj, nj_glo, rank, size) DO j=1,llm lval(j) = j *10 ENDDO axisBegin = 0 CALL Distribute_index(axisBegin, axisEnd, nAxis, llm, rank, size) DO j=1,llmInterPolated lvalInterPolated(j) = j * 12 ENDDO axisterpBegin = 0 CALL Distribute_index(axisterpBegin, axisinterpEnd, nAxisinterp, llmInterPolated, rank, size) niDomGlo = ni_glo - 4 njDomGlo = nj_glo - 4 ALLOCATE(lon_glotransformed(niDomGlo,njDomGlo), lat_glotransformed(niDomGlo,njDomGlo)) DO j=1,njDomGlo DO i=1,niDomGlo lon_glotransformed(i,j)=(i-1)+(j-1)*niDomGlo lat_glotransformed(i,j)=1000+(i-1)+(j-1)*niDomGlo ENDDO ENDDO niDomInterp = niDomGlo; ibeginDomInterp = 0 jbeginDomInterp = 0 CALL Distribute_index(jbeginDomInterp, jendDomInterp, njDomInterp, njDomGlo, rank, size) ALLOCATE(field_A(0:ni+1,-1:nj+2,llm), field_Two_Axis(ni_glo,1:nj), field_Axis(nAxis), field_All_Axis(1:ni,1:nj,llm), & lon(ni,nj),lat(ni,nj), lonvalue(ni*nj), & lvaln(nAxis), lval_ni(ni), lval_nj(nj), lvalnInterp(nAxisinterp), & lontransformed(niDomInterp, njDomInterp), lattransformed(niDomInterp, njDomInterp), & bnds_lon(4,ni,nj), bnds_lat(4,ni,nj)) ALLOCATE(mask(nj)) DO i = 1, nj ! IF (MOD(i,2)>=0) THEN ! mask(i)=.FALSE. ! ELSE mask(i)=.TRUE. ! ENDIF ENDDO lon(:,:)=lon_glo(ibegin+1:iend+1,jbegin+1:jend+1) lat(:,:)=lat_glo(ibegin+1:iend+1,jbegin+1:jend+1) bnds_lon(:,:,:) = bnds_lon_glo(:,ibegin+1:iend+1,jbegin+1:jend+1) bnds_lat(:,:,:) = bnds_lat_glo(:,ibegin+1:iend+1,jbegin+1:jend+1) lontransformed(:,:) = lon_glotransformed(ibeginDomInterp+1:iendDomInterp+1,jbeginDomInterp+1:jendDomInterp+1) lattransformed(:,:) = lat_glotransformed(ibeginDomInterp+1:iendDomInterp+1,jbeginDomInterp+1:jendDomInterp+1) field_A(1:ni,1:nj,:) = field_A_glo(ibegin+1:iend+1,jbegin+1:jend+1,:) field_Axis(1:nAxis) = field_A_glo(1,1,axisBegin+1:axisEnd+1) field_Two_Axis(:,1:nj) = field_A_glo(:,jbegin+1:jend+1,1) field_All_Axis(1:ni,1:nj,:) = field_A_glo(ibegin+1:iend+1,jbegin+1:jend+1,:) lvaln(1:nAxis) = lval(axisBegin+1:axisEnd+1) lval_nj(1:nj) = lval_nj_glo(jbegin+1:jend+1); lval_ni(1:ni) = lval_ni_glo(ibegin+1:iend+1); lvalnInterp(1:nAxisinterp) = lvalInterPolated(axisterpBegin+1:axisinterpEnd+1) CALL xios_context_initialize("test",comm) CALL xios_get_handle("test",ctx_hdl) CALL xios_set_current_context(ctx_hdl) CALL xios_get_calendar_type(calendar_type) PRINT *, "calendar_type = ", calendar_type CALL xios_set_axis_attr("axis_A", n_glo=ni_glo, begin=ibegin, n=ni, value=lval_ni) CALL xios_set_axis_attr("axis_B", n_glo=nj_glo, begin=jbegin, n=nj, value=lval_nj, mask=mask) CALL xios_set_axis_attr("axis_C", n_glo=llm, value=lval) CALL xios_set_axis_attr("axis_D", n_glo=llm, begin=axisBegin, n=nAxis, value=lvaln) CALL xios_set_axis_attr("axis_E", n_glo=llmInterPolated, value=lvalnInterp, begin=axisterpBegin, n=nAxisinterp) CALL xios_set_domain_attr("domain_A",ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, ni=ni,jbegin=jbegin,nj=nj) CALL xios_set_domain_attr("domain_A",data_dim=2, data_ibegin=-1, data_ni=ni+2, data_jbegin=-2, data_nj=nj+4) CALL xios_set_domain_attr("domain_A",lonvalue_2D=lon,latvalue_2D=lat, type='curvilinear') CALL xios_set_domain_attr("domain_A",bounds_lon_2d=bnds_lon,bounds_lat_2d=bnds_lat, nvertex=4, type='curvilinear') CALL xios_set_domain_attr("domain_A_transformed", ni_glo=niDomGlo, nj_glo=njDomGlo, & type='rectilinear') ! ibegin=ibeginDomInterp, ni=niDomInterp, jbegin=jbeginDomInterp, nj=njDomInterp) ! CALL xios_set_domain_attr("domain_A_transformed", lonvalue_2D=lontransformed, & ! latvalue_2D=lattransformed) CALL xios_set_fieldgroup_attr("field_definition",enabled=.TRUE.) ! CALL xios_get_handle("field_definition",fieldgroup_hdl) ! CALL xios_add_child(fieldgroup_hdl,field_hdl,"field_B") ! CALL xios_set_attr(field_hdl,field_ref="field_A",name="field_B") ! ! CALL xios_get_handle("output",file_hdl) ! CALL xios_add_child(file_hdl,field_hdl) ! CALL xios_set_attr(field_hdl,field_ref="field_A",name="field_C") dtime%second = 3600 CALL xios_set_timestep(dtime) ! The calendar is created as soon as the calendar type is defined. This way ! calendar operations can be used before the context definition is closed CALL xios_get_time_origin(date) PRINT *, "--> year length = ", xios_get_year_length_in_seconds(date%year) PRINT *, "--> day length = ", xios_get_day_length_in_seconds() PRINT *, "time_origin = ", date PRINT *, "xios_date_get_second_of_year(time_origin) = ", xios_date_get_second_of_year(date) PRINT *, "xios_date_get_day_of_year(time_origin) = ", xios_date_get_day_of_year(date) PRINT *, "xios_date_get_fraction_of_year(time_origin) = ", xios_date_get_fraction_of_year(date) PRINT *, "xios_date_get_second_of_day(time_origin) = ", xios_date_get_second_of_day(date) PRINT *, "xios_date_get_fraction_of_day(time_origin) = ", xios_date_get_fraction_of_day(date) dtime%timestep = 1 dtime = 0.5 * dtime PRINT *, "duration = ", dtime date = date + 3 * (dtime + dtime) PRINT *, "date = time_origin + 3 * (duration + duration) = ", date PRINT *, "xios_date_convert_to_seconds(date) = ", xios_date_convert_to_seconds(date) PRINT *, "xios_date_convert_to_seconds(date - 2.5h) = ", xios_date_convert_to_seconds(date - 2.5 * xios_hour) ni=0 ; lonvalue(:)=0 ! CALL xios_get_domain_attr("domain_A",ni=ni,lonvalue_1D=lonvalue) ! print *,"ni",ni ! print *,"lonvalue",lonvalue ; CALL xios_is_defined_field_attr("field_A",enabled=ok) PRINT *,"field_A : attribute enabled is defined ? ",ok CALL xios_close_context_definition() PRINT*,"field field_A is active ? ",xios_field_is_active("field_A") DO ts=1,24*10 CALL xios_update_calendar(ts) CALL xios_send_field("field_A",field_A) CALL xios_send_field("field_Axis",field_Axis) CALL xios_send_field("field_Two_Axis",field_Two_Axis) CALL xios_send_field("field_All_Axis",field_All_Axis) tsTemp = ts CALL xios_send_scalar("field_Scalar", tsTemp) CALL wait_us(5000) ; ENDDO CALL xios_context_finalize() DEALLOCATE(field_A, field_Two_Axis, field_Axis, field_All_Axis, & lon, lat, lonvalue, & lvaln, lval_ni, lval_nj, lvalnInterp, & bnds_lon, bnds_lat) DEALLOCATE(mask) CALL MPI_COMM_FREE(comm, ierr) CALL xios_finalize() CALL MPI_FINALIZE(ierr) CONTAINS SUBROUTINE Distribute_index(ibegin, iend, ni, nglob, rank, size) INTEGER, INTENT(INOUT) :: ibegin, iend, ni INTEGER, INTENT(IN) :: nglob, rank, size DO n=0,size-1 ni=nglob/size IF (n