PROGRAM test_unstruct_complete USE xios USE mod_wait IMPLICIT NONE INCLUDE "mpif.h" INTEGER :: mpi_rank INTEGER :: mpi_size INTEGER :: ierr CHARACTER(len=*),PARAMETER :: id="client" INTEGER :: comm TYPE(xios_duration) :: dtime TYPE(xios_context) :: ctx_hdl INTEGER, PARAMETER :: nlon=60 INTEGER, PARAMETER :: nlat=30 INTEGER,PARAMETER :: ni_glo=100 INTEGER,PARAMETER :: nj_glo=100 INTEGER,PARAMETER :: llm=5 DOUBLE PRECISION :: lval(llm)=1 TYPE(xios_field) :: field_hdl TYPE(xios_fieldgroup) :: fieldgroup_hdl TYPE(xios_file) :: file_hdl LOGICAL :: ok DOUBLE PRECISION,ALLOCATABLE :: lon_glo(:),lat_glo(:) DOUBLE PRECISION,ALLOCATABLE :: bounds_lon_glo(:,:),bounds_lat_glo(:,:) DOUBLE PRECISION,ALLOCATABLE :: field_A_glo(:,:) INTEGER,ALLOCATABLE :: i_index_glo(:) INTEGER,ALLOCATABLE :: i_index(:) LOGICAL,ALLOCATABLE :: mask_glo(:),mask(:) DOUBLE PRECISION,ALLOCATABLE :: lon(:),lat(:),field_A_srf(:,:), lonvalue(:) ; DOUBLE PRECISION,ALLOCATABLE :: bounds_lon(:,:),bounds_lat(:,:) ; INTEGER :: ni,ibegin,iend,nj,jbegin,jend INTEGER :: i,j,l,ts,n INTEGER :: ncell_glo,ncell,ind REAL :: ilon,ilat DOUBLE PRECISION, PARAMETER :: Pi=3.14159265359 INTEGER :: list_ind(nlon,nlat) INTEGER :: rank,j1,j2,np,ncell_x INTEGER :: data_n_index INTEGER,ALLOCATABLE :: data_i_index(:) DOUBLE PRECISION,ALLOCATABLE :: field_A_compressed(:,:) CALL xios_initialize(id,return_comm=comm) CALL MPI_COMM_RANK(comm,mpi_rank,ierr) CALL MPI_COMM_SIZE(comm,mpi_size,ierr) CALL init_wait ncell_glo=0 DO j=1,nlat n = NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) IF (n<8) n=8 ncell_glo=ncell_glo+n ENDDO ALLOCATE(lon_glo(ncell_glo)) ALLOCATE(lat_glo(ncell_glo)) ALLOCATE(bounds_lon_glo(4,ncell_glo)) ALLOCATE(bounds_lat_glo(4,ncell_glo)) ALLOCATE(i_index_glo(ncell_glo)) ALLOCATE(field_A_glo(ncell_glo,llm)) ALLOCATE(mask_glo(ncell_glo)) ind=0 DO j=1,nlat n = NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) if (j==1) PRINT*,"--- ",n if (j==nlat) PRINT*,"--- ",n IF (n<8) n=8 DO i=1,n ind=ind+1 list_ind(i,j)=ind ilon=i-0.5 ilat=j-0.5 lat_glo(ind)= 90-(ilat*180./nlat) lon_glo(ind)= (ilon*360./n) bounds_lat_glo(1,ind)= 90-((ilat-0.5)*180./nlat) bounds_lon_glo(1,ind)=((ilon-0.5)*360./n) bounds_lat_glo(2,ind)= 90-((ilat-0.5)*180./nlat) bounds_lon_glo(2,ind)=((ilon+0.5)*360./n) bounds_lat_glo(3,ind)= 90-((ilat+0.5)*180./nlat) bounds_lon_glo(3,ind)=((ilon+0.5)*360./n) bounds_lat_glo(4,ind)= 90-((ilat+0.5)*180./nlat) bounds_lon_glo(4,ind)=((ilon-0.5)*360./n) ENDDO ENDDO ! mpi_size=32 rank=(mpi_size-1)/2 ncell_x=sqrt(ncell_glo*1./mpi_size) j1=nlat/2 DO WHILE(rank>=0) j2=MAX(j1-ncell_x+1,1) j=(j1+j2)/2 n=NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) np = MIN(n/ncell_x,rank+1) ; if (j2==1) np=rank+1 PRINT *,"domain ",j2,j1,rank,np ; DO j=j2,j1 n=NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) IF (n<8) n=8 DO i=1,n ind=list_ind(i,j) IF ( (i-1) < MOD(n,np)*(n/np+1)) THEN i_index_glo(ind) = rank - (i-1)/(n/np+1) ELSE i_index_glo(ind) = rank-(MOD(n,np)+ (i-1-MOD(n,np)*(n/np+1))/(n/np)) ENDIF ENDDO ENDDO rank=rank-np j1=j2-1 ENDDO rank=(mpi_size-1)/2+1 ncell_x=sqrt(ncell_glo*1./mpi_size) j1=nlat/2+1 DO WHILE(rank<=mpi_size-1) j2=MIN(j1+ncell_x-1,nlat) j=(j1+j2)/2 n=NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) np = MIN(n/ncell_x,mpi_size-rank) ; if (j2==nlat) np=mpi_size-rank PRINT *,"domain ",j2,j1,rank,np ; DO j=j1,j2 n=NINT(COS(Pi/2-(j-0.5)*PI/nlat)*nlon) IF (n<8) n=8 DO i=1,n ind=list_ind(i,j) IF ( (i-1) < MOD(n,np)*(n/np+1)) THEN i_index_glo(ind) = rank + (i-1)/(n/np+1) ELSE i_index_glo(ind) = rank+(MOD(n,np)+ (i-1-MOD(n,np)*(n/np+1))/(n/np)) ENDIF ENDDO ENDDO rank=rank+np j1=j2+1 ENDDO ncell=0 DO ind=1,ncell_glo IF (i_index_glo(ind)==mpi_rank) ncell=ncell+1 ENDDO ALLOCATE(i_index(ncell)) ALLOCATE(lon(ncell)) ALLOCATE(lat(ncell)) ALLOCATE(bounds_lon(4,ncell)) ALLOCATE(bounds_lat(4,ncell)) ALLOCATE(field_A_srf(ncell,llm)) ALLOCATE(mask(ncell)) ncell=0 data_n_index=0 DO ind=1,ncell_glo IF (i_index_glo(ind)==mpi_rank) THEN ncell=ncell+1 i_index(ncell)=ind-1 lon(ncell)=lon_glo(ind) lat(ncell)=lat_glo(ind) bounds_lon(:,ncell)=bounds_lon_glo(:,ind) bounds_lat(:,ncell)=bounds_lat_glo(:,ind) field_A_srf(ncell,:)=i_index_glo(ind) IF (MOD(ind,8)>=0 .AND. MOD(ind,8)<2) THEN mask(ncell)=.FALSE. ELSE mask(ncell)=.TRUE. data_n_index=data_n_index+1 ENDIF ENDIF ENDDO ALLOCATE(field_A_compressed(data_n_index,llm)) ALLOCATE(data_i_index(data_n_index)) data_n_index=0 DO ind=1,ncell IF (mask(ind)) THEN data_n_index=data_n_index+1 data_i_index(data_n_index)=ind field_A_compressed(data_n_index,:)=field_A_srf(ind,:) ENDIF ENDDO CALL xios_context_initialize("surface",comm) CALL xios_get_handle("surface",ctx_hdl) CALL xios_set_current_context(ctx_hdl) CALL xios_define_calendar(type="Julian", & start_date=xios_date(2012, 03, 01, 15, 00, 00), & time_origin=xios_date(2012, 02, 29, 15, 00, 00)) CALL xios_set_axis_attr("axis_srf",size=llm ,value=lval) ; CALL xios_set_domain_attr("domain_srf",ni_glo=ncell_glo, ni=ncell, ibegin=1, i_index=RESHAPE(i_index,(/ncell,1/) )) CALL xios_set_domain_attr("domain_srf",data_dim=1, data_ni=data_n_index, data_n_index=data_n_index, data_i_index=data_i_index, type='unstructured') CALL xios_set_domain_attr("domain_srf",lonvalue=lon,latvalue=lat) CALL xios_set_domain_attr("domain_srf", nvertex=4, bounds_lon=bounds_lon, bounds_lat=bounds_lat ) dtime%second=3600 CALL xios_set_context_attr("surface", timestep=dtime) CALL xios_close_context_definition() DO ts=1,24*10 CALL xios_update_calendar(ts) CALL xios_send_field("field_A_srf",field_A_compressed) ENDDO CALL xios_context_finalize() CALL xios_finalize() END PROGRAM test_unstruct_complete