pkg/mnc/mnc_cw_readwrite.template

C $Header: /u/u3/gcmpack/MITgcm/pkg/mnc/mnc_cw_readwrite.template,v 1.8 2004/03/10 05:50:16 edhill Exp $
C $Name:  $
      
#include "MNC_OPTIONS.h"
      
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|

      SUBROUTINE MNC_CW_RX_W_YY( 
     I     fbname, bi,bj, 
     I     vtype, 
     I     indu, 
     I     var, 
     I     myThid )

      implicit none

#include "netcdf.inc"
#include "mnc_common.h"
#include "EEPARAMS.h"
#include "SIZE.h"

#define mnc_rtype_YY

C     Arguments
      integer myThid, bi,bj, indu
      character*(*) fbname, vtype
      __V var(*)

C     Functions
      integer IFNBLNK, ILNBLNK

C     Local Variables
      integer i,j,k, indv,nvf,nvl, n1,n2, igrid, ntot
      integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv, indvids
      integer ndim, indf, err, lbi,lbj, bidim,bjdim, unlim_sz, kr
      integer p(9),s(9),e(9), dimnc(9), vstart(9),vcount(9), udo(9)
      integer j1,j2,j3,j4,j5,j6,j7, k1,k2,k3,k4,k5,k6,k7
      character*(MAX_LEN_MBUF) msgbuf
      character*(MNC_MAX_CHAR) fname

C     Temporary storage for the simultaneous type conversion and
C     re-shaping before passing to NetCDF
#ifdef  mnc_rtype_D
      REAL*8  resh( sNx + 2*OLx + sNy + 2*OLy )
#endif
#ifdef  mnc_rtype_R
      REAL*4  resh( sNx + 2*OLx + sNy + 2*OLy )
#endif
#ifdef  mnc_rtype_I
      INTEGER resh( sNx + 2*OLx + sNy + 2*OLy )
#endif

C     Only do I/O if I am the master thread
      _BEGIN_MASTER( myThid )

C     Check that the Variable Type exists
      nvf = IFNBLNK(vtype)
      nvl = ILNBLNK(vtype)
      CALL MNC_GET_IND(MNC_MAX_ID, vtype, mnc_cw_vname, indv, myThid)
      IF (indv .LT. 1) THEN
        write(msgbuf,'(3a)') 'MNC_CW_RX_W_YY ERROR: vtype ''', 
     &       vtype(nvf:nvl), ''' is not defined'
        CALL print_error(msgbuf, mythid)
        STOP 'ABNORMAL END: S/R MNC_CW_RX_W_YY'
      ENDIF
      igrid = mnc_cw_vgind(indv)

C     Set the bi,bj indicies 
      bis = bi
      bie = bi
      IF (bi .LT. 1) THEN
        bis = 1
        bie = nSx
      ENDIF
      bjs = bj
      bje = bj
      IF (bj .LT. 1) THEN
        bjs = 1
        bje = nSy
      ENDIF

      DO lbj = bjs,bje
        DO lbi = bis,bie

C         Create the file name
          CALL MNC_CW_GET_TILE_NUM(lbi,lbj, uniq_tnum, myThid)
          fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR)
          n1 = IFNBLNK(fbname)
          n2 = ILNBLNK(fbname)
          ntot = n2 - n1 + 1
          fname(1:ntot) = fbname(n1:n2)
          ntot = ntot + 1
          fname(ntot:ntot) = '.'
          write(fname((ntot+1):(ntot+9)),'(i6.6,a3)') uniq_tnum, '.nc'
          nfname = ntot+9

C         Append to an existing or create a new file
          CALL MNC_CW_FILE_AORC(fname, indf, myThid)
          fid = mnc_f_info(indf,2)

C         Ensure that all the NetCDF dimensions are defined and create a
C         local copy of them
          DO i = 1,9
            dimnc(i) = 1
          ENDDO
          DO i = 1,mnc_cw_ndim(igrid)
            IF (mnc_cw_dims(i,igrid) .EQ. -1) THEN
              dimnc(i) = -1
            ELSE
              dimnc(i) = mnc_cw_ie(i,igrid) - mnc_cw_is(i,igrid) + 1
            ENDIF
            CALL MNC_DIM_INIT(fname, 
     &           mnc_cw_dn(i,igrid), dimnc(i), myThid)
          ENDDO

C         Ensure that the "grid" is defined
          CALL MNC_GRID_INIT(fname, mnc_cw_gname(igrid), 
     &        mnc_cw_ndim(igrid), mnc_cw_dn(1,igrid), myThid)

C         Ensure that the variable is defined
#ifdef  mnc_rtype_D
      CALL MNC_VAR_INIT_DBL(fname,mnc_cw_gname(igrid),vtype, myThid)
#endif
#ifdef  mnc_rtype_R
      CALL MNC_VAR_INIT_REAL(fname,mnc_cw_gname(igrid),vtype, myThid)
#endif
#ifdef  mnc_rtype_I
      CALL MNC_VAR_INIT_INT(fname,mnc_cw_gname(igrid),vtype, myThid)
#endif
          DO i = 1,mnc_fv_ids(indf,1)
            j = 2 + 3*(i - 1)
            IF (mnc_v_names(mnc_fv_ids(indf,j)) .EQ. vtype) THEN
              idv = mnc_fv_ids(indf,j+1)
              indvids = mnc_fd_ind(indf, mnc_f_info(indf, 
     &             (mnc_fv_ids(indf,j+2) + 1)) )
              GOTO 10
            ENDIF
          ENDDO
          write(msgbuf,'(4a)') 'MNC_MNC_CW_RX_W_YY ERROR: ', 
     &         'cannot reference variable ''', vtype, ''''
          CALL print_error(msgbuf, mythid)
          STOP 'ABNORMAL END: package MNC'
 10       CONTINUE

C         Check for bi,bj indicies
          bidim = mnc_cw_vbij(1,indv)
          bjdim = mnc_cw_vbij(2,indv)
CEH3      write(*,*) 'bidim,bjdim = ', bidim,bjdim

C         Set the dimensions for the in-memory array
          ndim = mnc_cw_ndim(igrid)
          k = mnc_cw_dims(1,igrid)
          IF (k .GT. 0) THEN
            p(1) = k
          ELSE
            p(1) = 1
          ENDIF
          DO i = 2,9
            k = mnc_cw_dims(i,igrid)
            IF (k .LT. 1) THEN
              k = 1
            ENDIF
            IF ((bidim .GT. 0) .AND. (i .EQ. bidim)) THEN
              p(i) = nSx * p(i-1)
            ELSEIF ((bjdim .GT. 0) .AND. (i .EQ. bjdim)) THEN
              p(i) = nSy * p(i-1)
            ELSE
              p(i) = k * p(i-1)
            ENDIF
          ENDDO

C         Set starting and ending indicies for the in-memory array and
C         the unlimited dimension offset for the NetCDF array
          DO i = 1,9
            udo(i) = 0
            s(i) = 1
            e(i) = 1
            IF (i .LE. ndim) THEN
              s(i) = mnc_cw_is(i,igrid)
              e(i) = mnc_cw_ie(i,igrid)
            ENDIF
C           Check for the unlimited dimension
            IF ((i .EQ. ndim) 
     &           .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN
              IF (indu .GT. 0) THEN
C               Use the indu value
                udo(i) = indu - 1
              ELSEIF (indu .EQ. -1) THEN
C               Append one to the current unlimited dim size
                CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
                udo(i) = unlim_sz
              ELSE
C               Use the current unlimited dim size
                CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
                udo(i) = unlim_sz - 1
              ENDIF
            ENDIF
          ENDDO
          IF (bidim .GT. 0) THEN
            s(bidim) = lbi
            e(bidim) = lbi
          ENDIF
          IF (bjdim .GT. 0) THEN
            s(bjdim) = lbj
            e(bjdim) = lbj
          ENDIF
CEH3      DO i = 1,9
CEH3        write(*,*) 'i,p(i),s(i),e(i) = ', i,p(i),s(i),e(i)
CEH3      ENDDO

C         Add the global attributes
          CALL MNC_CW_SET_GATTR( fname, lbi,lbj, uniq_tnum, myThid)

C         Add the per-variable attributes
          DO i = 1,mnc_cw_vnat(1,indv)
            CALL MNC_VAR_ADD_ATTR_STR( fname, vtype, 
     &           mnc_cw_vtnm(i,indv), mnc_cw_vtat(i,indv), myThid)
          ENDDO
          DO i = 1,mnc_cw_vnat(2,indv)
            CALL MNC_VAR_ADD_ATTR_INT( fname, vtype, 
     &           mnc_cw_vinm(i,indv), 1, mnc_cw_viat(i,indv), myThid)
          ENDDO
          DO i = 1,mnc_cw_vnat(3,indv)
            CALL MNC_VAR_ADD_ATTR_DBL( fname, vtype, 
     &           mnc_cw_vdnm(i,indv), 1, mnc_cw_vdat(i,indv), myThid)
          ENDDO

          CALL MNC_FILE_ENDDEF(fname, myThid)

          write(msgbuf,'(5a)') 'writing variable type ''', 
     &         vtype(nvf:nvl), ''' within file ''', 
     &         fname(1:nfname), ''''

C         Write the variable one vector at a time
          DO j7 = s(7),e(7)
            k7 = (j7 - 1)*p(6)
            vstart(7) = udo(7) + j7 - s(7) + 1
            vcount(7) = 1
            DO j6 = s(6),e(6)
              k6 = (j6 - 1)*p(5) + k7
              vstart(6) = udo(6) + j6 - s(6) + 1
              vcount(6) = 1
              DO j5 = s(5),e(5)
                k5 = (j5 - 1)*p(4) + k6
                vstart(5) = udo(5) + j5 - s(5) + 1
                vcount(5) = 1
                DO j4 = s(4),e(4)
                  k4 = (j4 - 1)*p(3) + k5
                  vstart(4) = udo(4) + j4 - s(4) + 1
                  vcount(4) = 1
                  DO j3 = s(3),e(3)
                    k3 = (j3 - 1)*p(2) + k4
                    vstart(3) = udo(3) + j3 - s(3) + 1
                    vcount(3) = 1
                    DO j2 = s(2),e(2)
                      k2 = (j2 - 1)*p(1) + k3
                      vstart(2) = udo(2) + j2 - s(2) + 1
                      vcount(2) = 1

      kr = 0
      DO j1 = s(1),e(1)
        k1 = k2 + j1
        kr = kr + 1
        resh(kr) = var(k1)
      ENDDO
      
      vstart(1) = udo(1) + 1
      vcount(1) = e(1) - s(1) + 1

#ifdef  mnc_rtype_D
      err = NF_PUT_VARA_DOUBLE(fid, idv, vstart, vcount, resh)
#endif
#ifdef  mnc_rtype_R
      err = NF_PUT_VARA_REAL(fid, idv, vstart, vcount, resh)
#endif
#ifdef  mnc_rtype_I
      err = NF_PUT_VARA_INT(fid, idv, vstart, vcount, resh)
#endif

      CALL MNC_HANDLE_ERR(err, msgbuf, myThid)

                    ENDDO
                  ENDDO
                ENDDO
              ENDDO
            ENDDO
          ENDDO

C         Sync the file
          err = NF_SYNC(fid)
          write(msgbuf,'(3a)') 'sync for file ''', fname, 
     &         ''' in S/R MNC_CW_RX_W_YY'
          CALL MNC_HANDLE_ERR(err, msgbuf, myThid)

        ENDDO
      ENDDO

      _END_MASTER( myThid )

      RETURN
      END
      

C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|


      SUBROUTINE MNC_CW_RX_R_YY( 
     I     fbname, bi,bj, 
     I     vtype, 
     I     indu, 
     I     var, 
     I     myThid )

      implicit none

#include "netcdf.inc"
#include "mnc_common.h"
#include "EEPARAMS.h"
#include "SIZE.h"

#define mnc_rtype_YY

C     Arguments
      integer myThid, bi,bj, indu
      character*(*) fbname, vtype
      __V var(*)

C     Functions
      integer IFNBLNK, ILNBLNK

C     Local Variables
      integer i,k, nvf,nvl, n1,n2, igrid, ntot
      integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv
      integer ndim, indf, err, lbi,lbj, bidim,bjdim, unlim_sz, kr
      integer ind_fv_ids, ind_vt, ierr, atype, alen
      integer f_sNx,f_sNy, ires
      integer p(9),s(9),e(9), vstart(9),vcount(9), udo(9)
      integer j1,j2,j3,j4,j5,j6,j7, k1,k2,k3,k4,k5,k6,k7
      character*(MAX_LEN_MBUF) msgbuf
      character*(MNC_MAX_CHAR) fname

C     Temporary storage for the simultaneous type conversion and
C     re-shaping before passing to NetCDF
#ifdef  mnc_rtype_D
      REAL*8  resh( sNx + 2*OLx + sNy + 2*OLy )
#endif
#ifdef  mnc_rtype_R
      REAL*4  resh( sNx + 2*OLx + sNy + 2*OLy )
#endif
#ifdef  mnc_rtype_I
      INTEGER resh( sNx + 2*OLx + sNy + 2*OLy )
#endif

C     Only do I/O if I am the master thread
      _BEGIN_MASTER( myThid )

C     Check that the Variable Type exists
      nvf = IFNBLNK(vtype)
      nvl = ILNBLNK(vtype)
      CALL MNC_GET_IND( MNC_MAX_ID, vtype, mnc_cw_vname, ind_vt, myThid)
      IF (ind_vt .LT. 1) THEN
        write(msgbuf,'(3a)') 'MNC_CW_RX_R_YY ERROR: vtype ''', 
     &       vtype(nvf:nvl), ''' is not defined'
        CALL print_error(msgbuf, mythid)
        STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
      ENDIF
      igrid = mnc_cw_vgind(ind_vt)

C     Check for bi,bj indicies
      bidim = mnc_cw_vbij(1,ind_vt)
      bjdim = mnc_cw_vbij(2,ind_vt)

C     Set the bi,bj indicies
      bis = bi
      bie = bi
      IF (bi .LT. 1) THEN
        bis = 1
        bie = nSx
      ENDIF
      bjs = bj
      bje = bj
      IF (bj .LT. 1) THEN
        bjs = 1
        bje = nSy
      ENDIF

      DO lbj = bjs,bje
        DO lbi = bis,bie

C         Create the file name
          CALL MNC_CW_GET_TILE_NUM( lbi,lbj, uniq_tnum, myThid)
          fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR)
          n1 = IFNBLNK(fbname)
          n2 = ILNBLNK(fbname)
          ntot = n2 - n1 + 1
          fname(1:ntot) = fbname(n1:n2)
          ntot = ntot + 1
          fname(ntot:ntot) = '.'
          write(fname((ntot+1):(ntot+9)),'(i6.6,a3)') uniq_tnum, '.nc'
          nfname = ntot+9

C         Open the existing file 
          CALL MNC_FILE_TRY_READ( fname, ierr, indf, myThid)

C         Check that the variable (VType) is defined within the file
          CALL MNC_GET_FVINDS( fname, vtype, indf, ind_fv_ids, myThid)
          IF ((indf .LT. 1) .OR. (ind_fv_ids .LT. 1)) THEN
            write(msgbuf,'(4a)') 'MNC_CW_RX_R_YY ERROR: vtype ''', 
     &           vtype(nvf:nvl), ''' is not defined within file ''', 
     &           fname(1:nfname)
            CALL print_error(msgbuf, mythid)
            STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
          ENDIF
          fid = mnc_f_info(indf,2)
          idv = mnc_fv_ids(indf,ind_fv_ids+1)

C         Check that the current sNy,sNy values and the in-file values
C         are compatible and WARN (only warn) if not
          f_sNx = -1
          f_sNy = -1
          err = NF_INQ_ATT(fid,NF_GLOBAL, 'sNx',atype,alen)
          IF ((err .EQ. NF_NOERR) .AND. (alen .EQ. 1)) THEN
            err = NF_GET_ATT_INT(fid, NF_GLOBAL, 'sNx', f_sNx)
            CALL MNC_HANDLE_ERR(err, 
     &           'reading attribute ''sNx'' in S/R MNC_CW_RX_R_YY', 
     &           myThid)
          ENDIF
          err = NF_INQ_ATT(fid,NF_GLOBAL, 'sNy',atype,alen)
          IF ((err .EQ. NF_NOERR) .AND. (alen .EQ. 1)) THEN
            err = NF_GET_ATT_INT(fid, NF_GLOBAL, 'sNy', f_sNy)
            CALL MNC_HANDLE_ERR(err, 
     &           'reading attribute ''sNy'' in S/R MNC_CW_RX_R_YY',
     &           myThid)
          ENDIF
          IF ((f_sNx .NE. sNx) .OR. (f_sNy .NE. sNy)) THEN
            write(msgbuf,'(5a)') 'MNC_CW_RX_R_YY WARNING: the ',
     &           'attributes ''sNx'' and ''sNy'' within the file ''', 
     &           fname(1:nfname), ''' do not exist or do not match ',
     &           'the current sizes within the model'
            CALL print_error(msgbuf, mythid)
          ENDIF

C         Check that the in-memory variable and the in-file variables
C         are of compatible sizes
C           ires = 1
C           CALL MNC_CHK_VTYP_R_NCVAR( ind_vt, 
C      &         indf, ind_fv_ids, indu, ires)
C           IF (ires .LT. 0) THEN
C             write(msgbuf,'(7a)') 'MNC_CW_RX_R_YY WARNING: the sizes ',
C      &           'of the in-program variable ''', vtype(nvf:nvl), 
C      &           ''' and the corresponding variable within file ''',
C      &           fname(1:nfname), ''' are not compatible -- please ',
C      &           'check the sizes'
C             CALL print_error(msgbuf, mythid)
C             STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
C           ENDIF

C         Check for bi,bj indicies
          bidim = mnc_cw_vbij(1,ind_vt)
          bjdim = mnc_cw_vbij(2,ind_vt)

C         Set the dimensions for the in-memory array
          ndim = mnc_cw_ndim(igrid)
          k = mnc_cw_dims(1,igrid)
          IF (k .GT. 0) THEN
            p(1) = k
          ELSE
            p(1) = 1
          ENDIF
          DO i = 2,9
            k = mnc_cw_dims(i,igrid)
            IF (k .LT. 1) THEN
              k = 1
            ENDIF
            IF ((bidim .GT. 0) .AND. (i .EQ. bidim)) THEN
              p(i) = nSx * p(i-1)
            ELSEIF ((bjdim .GT. 0) .AND. (i .EQ. bjdim)) THEN
              p(i) = nSy * p(i-1)
            ELSE
              p(i) = k * p(i-1)
            ENDIF
          ENDDO

C         Set starting and ending indicies for the in-memory array and
C         the unlimited dimension offset for the NetCDF array
          DO i = 1,9
            udo(i) = 0
            s(i) = 1
            e(i) = 1
            IF (i .LE. ndim) THEN
              s(i) = mnc_cw_is(i,igrid)
              e(i) = mnc_cw_ie(i,igrid)
            ENDIF
C           Check for the unlimited dimension
            IF ((i .EQ. ndim) 
     &           .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN
              IF (indu .GT. 0) THEN
C               Use the indu value
                udo(i) = indu - 1
              ELSEIF (indu .EQ. -1) THEN
C               Append one to the current unlimited dim size
                CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
                udo(i) = unlim_sz
              ELSE
C               Use the current unlimited dim size
                CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
                udo(i) = unlim_sz - 1
              ENDIF
            ENDIF
          ENDDO
          IF (bidim .GT. 0) THEN
            s(bidim) = lbi
            e(bidim) = lbi
          ENDIF
          IF (bjdim .GT. 0) THEN
            s(bjdim) = lbj
            e(bjdim) = lbj
          ENDIF

C     DO i = 9,1,-1
C     write(*,*) 'i,p(i),s(i),e(i) = ', i,': ',p(i),s(i),e(i)
C     ENDDO
          
          CALL MNC_FILE_ENDDEF(fname, myThid)

          write(msgbuf,'(5a)') 'reading variable type ''', 
     &         vtype(nvf:nvl), ''' within file ''', 
     &         fname(1:nfname), ''''

C         Read the variable one vector at a time
          DO j7 = s(7),e(7)
            k7 = (j7 - 1)*p(6)
            vstart(7) = udo(7) + j7 - s(7) + 1
            vcount(7) = 1
            DO j6 = s(6),e(6)
              k6 = (j6 - 1)*p(5) + k7
              vstart(6) = udo(6) + j6 - s(6) + 1
              vcount(6) = 1
              DO j5 = s(5),e(5)
                k5 = (j5 - 1)*p(4) + k6
                vstart(5) = udo(5) + j5 - s(5) + 1
                vcount(5) = 1
                DO j4 = s(4),e(4)
                  k4 = (j4 - 1)*p(3) + k5
                  vstart(4) = udo(4) + j4 - s(4) + 1
                  vcount(4) = 1
                  DO j3 = s(3),e(3)
                    k3 = (j3 - 1)*p(2) + k4
                    vstart(3) = udo(3) + j3 - s(3) + 1
                    vcount(3) = 1
                    DO j2 = s(2),e(2)
                      k2 = (j2 - 1)*p(1) + k3
                      vstart(2) = udo(2) + j2 - s(2) + 1
                      vcount(2) = 1

      vstart(1) = udo(1) + 1
      vcount(1) = e(1) - s(1) + 1
      
#ifdef  mnc_rtype_D
      err = NF_GET_VARA_DOUBLE(fid, idv, vstart, vcount, resh)
#endif
#ifdef  mnc_rtype_R
      err = NF_GET_VARA_REAL(fid, idv, vstart, vcount, resh)
#endif
#ifdef  mnc_rtype_I
      err = NF_GET_VARA_INT(fid, idv, vstart, vcount, resh)
#endif

      CALL MNC_HANDLE_ERR(err, msgbuf, myThid)

      kr = 0
      DO j1 = s(1),e(1)
        k1 = k2 + j1
        kr = kr + 1
        var(k1) = resh(kr)
      ENDDO
      
 
                    ENDDO
                  ENDDO
                ENDDO
              ENDDO
            ENDDO
          ENDDO

C         Close the file
          CALL MNC_FILE_CLOSE(fname, myThid)

C         End the lbj,lbi loops
        ENDDO
      ENDDO

      _END_MASTER( myThid )

      RETURN
      END

C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|

CEH3 ;;; Local Variables: ***
CEH3 ;;; mode:fortran ***
CEH3 ;;; End: ***
1	C $Header: /u/u3/gcmpack/MITgcm/pkg/mnc/mnc_cw_readwrite.template,v 1.8 2004/03/10 05:50:16 edhill Exp $
2	C $Name: $
3
4	#include "MNC_OPTIONS.h"
5
6	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
7
8	SUBROUTINE MNC_CW_RX_W_YY(
9	I fbname, bi,bj,
10	I vtype,
11	I indu,
12	I var,
13	I myThid )
14
15	implicit none
16
17	#include "netcdf.inc"
18	#include "mnc_common.h"
19	#include "EEPARAMS.h"
20	#include "SIZE.h"
21
22	#define mnc_rtype_YY
23
24	C Arguments
25	integer myThid, bi,bj, indu
26	character() fbname, vtype
27	__V var(*)
28
29	C Functions
30	integer IFNBLNK, ILNBLNK
31
32	C Local Variables
33	integer i,j,k, indv,nvf,nvl, n1,n2, igrid, ntot
34	integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv, indvids
35	integer ndim, indf, err, lbi,lbj, bidim,bjdim, unlim_sz, kr
36	integer p(9),s(9),e(9), dimnc(9), vstart(9),vcount(9), udo(9)
37	integer j1,j2,j3,j4,j5,j6,j7, k1,k2,k3,k4,k5,k6,k7
38	character*(MAX_LEN_MBUF) msgbuf
39	character*(MNC_MAX_CHAR) fname
40
41	C Temporary storage for the simultaneous type conversion and
42	C re-shaping before passing to NetCDF
43	#ifdef mnc_rtype_D
44	REAL8 resh( sNx + 2OLx + sNy + 2*OLy )
45	#endif
46	#ifdef mnc_rtype_R
47	REAL4 resh( sNx + 2OLx + sNy + 2*OLy )
48	#endif
49	#ifdef mnc_rtype_I
50	INTEGER resh( sNx + 2OLx + sNy + 2OLy )
51	#endif
52
53	C Only do I/O if I am the master thread
54	_BEGIN_MASTER( myThid )
55
56	C Check that the Variable Type exists
57	nvf = IFNBLNK(vtype)
58	nvl = ILNBLNK(vtype)
59	CALL MNC_GET_IND(MNC_MAX_ID, vtype, mnc_cw_vname, indv, myThid)
60	IF (indv .LT. 1) THEN
61	write(msgbuf,'(3a)') 'MNC_CW_RX_W_YY ERROR: vtype ''',
62	& vtype(nvf:nvl), ''' is not defined'
63	CALL print_error(msgbuf, mythid)
64	STOP 'ABNORMAL END: S/R MNC_CW_RX_W_YY'
65	ENDIF
66	igrid = mnc_cw_vgind(indv)
67
68	C Set the bi,bj indicies
69	bis = bi
70	bie = bi
71	IF (bi .LT. 1) THEN
72	bis = 1
73	bie = nSx
74	ENDIF
75	bjs = bj
76	bje = bj
77	IF (bj .LT. 1) THEN
78	bjs = 1
79	bje = nSy
80	ENDIF
81
82	DO lbj = bjs,bje
83	DO lbi = bis,bie
84
85	C Create the file name
86	CALL MNC_CW_GET_TILE_NUM(lbi,lbj, uniq_tnum, myThid)
87	fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR)
88	n1 = IFNBLNK(fbname)
89	n2 = ILNBLNK(fbname)
90	ntot = n2 - n1 + 1
91	fname(1:ntot) = fbname(n1:n2)
92	ntot = ntot + 1
93	fname(ntot:ntot) = '.'
94	write(fname((ntot+1):(ntot+9)),'(i6.6,a3)') uniq_tnum, '.nc'
95	nfname = ntot+9
96
97	C Append to an existing or create a new file
98	CALL MNC_CW_FILE_AORC(fname, indf, myThid)
99	fid = mnc_f_info(indf,2)
100
101	C Ensure that all the NetCDF dimensions are defined and create a
102	C local copy of them
103	DO i = 1,9
104	dimnc(i) = 1
105	ENDDO
106	DO i = 1,mnc_cw_ndim(igrid)
107	IF (mnc_cw_dims(i,igrid) .EQ. -1) THEN
108	dimnc(i) = -1
109	ELSE
110	dimnc(i) = mnc_cw_ie(i,igrid) - mnc_cw_is(i,igrid) + 1
111	ENDIF
112	CALL MNC_DIM_INIT(fname,
113	& mnc_cw_dn(i,igrid), dimnc(i), myThid)
114	ENDDO
115
116	C Ensure that the "grid" is defined
117	CALL MNC_GRID_INIT(fname, mnc_cw_gname(igrid),
118	& mnc_cw_ndim(igrid), mnc_cw_dn(1,igrid), myThid)
119
120	C Ensure that the variable is defined
121	#ifdef mnc_rtype_D
122	CALL MNC_VAR_INIT_DBL(fname,mnc_cw_gname(igrid),vtype, myThid)
123	#endif
124	#ifdef mnc_rtype_R
125	CALL MNC_VAR_INIT_REAL(fname,mnc_cw_gname(igrid),vtype, myThid)
126	#endif
127	#ifdef mnc_rtype_I
128	CALL MNC_VAR_INIT_INT(fname,mnc_cw_gname(igrid),vtype, myThid)
129	#endif
130	DO i = 1,mnc_fv_ids(indf,1)
131	j = 2 + 3*(i - 1)
132	IF (mnc_v_names(mnc_fv_ids(indf,j)) .EQ. vtype) THEN
133	idv = mnc_fv_ids(indf,j+1)
134	indvids = mnc_fd_ind(indf, mnc_f_info(indf,
135	& (mnc_fv_ids(indf,j+2) + 1)) )
136	GOTO 10
137	ENDIF
138	ENDDO
139	write(msgbuf,'(4a)') 'MNC_MNC_CW_RX_W_YY ERROR: ',
140	& 'cannot reference variable ''', vtype, ''''
141	CALL print_error(msgbuf, mythid)
142	STOP 'ABNORMAL END: package MNC'
143	10 CONTINUE
144
145	C Check for bi,bj indicies
146	bidim = mnc_cw_vbij(1,indv)
147	bjdim = mnc_cw_vbij(2,indv)
148	CEH3 write(,) 'bidim,bjdim = ', bidim,bjdim
149
150	C Set the dimensions for the in-memory array
151	ndim = mnc_cw_ndim(igrid)
152	k = mnc_cw_dims(1,igrid)
153	IF (k .GT. 0) THEN
154	p(1) = k
155	ELSE
156	p(1) = 1
157	ENDIF
158	DO i = 2,9
159	k = mnc_cw_dims(i,igrid)
160	IF (k .LT. 1) THEN
161	k = 1
162	ENDIF
163	IF ((bidim .GT. 0) .AND. (i .EQ. bidim)) THEN
164	p(i) = nSx * p(i-1)
165	ELSEIF ((bjdim .GT. 0) .AND. (i .EQ. bjdim)) THEN
166	p(i) = nSy * p(i-1)
167	ELSE
168	p(i) = k * p(i-1)
169	ENDIF
170	ENDDO
171
172	C Set starting and ending indicies for the in-memory array and
173	C the unlimited dimension offset for the NetCDF array
174	DO i = 1,9
175	udo(i) = 0
176	s(i) = 1
177	e(i) = 1
178	IF (i .LE. ndim) THEN
179	s(i) = mnc_cw_is(i,igrid)
180	e(i) = mnc_cw_ie(i,igrid)
181	ENDIF
182	C Check for the unlimited dimension
183	IF ((i .EQ. ndim)
184	& .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN
185	IF (indu .GT. 0) THEN
186	C Use the indu value
187	udo(i) = indu - 1
188	ELSEIF (indu .EQ. -1) THEN
189	C Append one to the current unlimited dim size
190	CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
191	udo(i) = unlim_sz
192	ELSE
193	C Use the current unlimited dim size
194	CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
195	udo(i) = unlim_sz - 1
196	ENDIF
197	ENDIF
198	ENDDO
199	IF (bidim .GT. 0) THEN
200	s(bidim) = lbi
201	e(bidim) = lbi
202	ENDIF
203	IF (bjdim .GT. 0) THEN
204	s(bjdim) = lbj
205	e(bjdim) = lbj
206	ENDIF
207	CEH3 DO i = 1,9
208	CEH3 write(,) 'i,p(i),s(i),e(i) = ', i,p(i),s(i),e(i)
209	CEH3 ENDDO
210
211	C Add the global attributes
212	CALL MNC_CW_SET_GATTR( fname, lbi,lbj, uniq_tnum, myThid)
213
214	C Add the per-variable attributes
215	DO i = 1,mnc_cw_vnat(1,indv)
216	CALL MNC_VAR_ADD_ATTR_STR( fname, vtype,
217	& mnc_cw_vtnm(i,indv), mnc_cw_vtat(i,indv), myThid)
218	ENDDO
219	DO i = 1,mnc_cw_vnat(2,indv)
220	CALL MNC_VAR_ADD_ATTR_INT( fname, vtype,
221	& mnc_cw_vinm(i,indv), 1, mnc_cw_viat(i,indv), myThid)
222	ENDDO
223	DO i = 1,mnc_cw_vnat(3,indv)
224	CALL MNC_VAR_ADD_ATTR_DBL( fname, vtype,
225	& mnc_cw_vdnm(i,indv), 1, mnc_cw_vdat(i,indv), myThid)
226	ENDDO
227
228	CALL MNC_FILE_ENDDEF(fname, myThid)
229
230	write(msgbuf,'(5a)') 'writing variable type ''',
231	& vtype(nvf:nvl), ''' within file ''',
232	& fname(1:nfname), ''''
233
234	C Write the variable one vector at a time
235	DO j7 = s(7),e(7)
236	k7 = (j7 - 1)*p(6)
237	vstart(7) = udo(7) + j7 - s(7) + 1
238	vcount(7) = 1
239	DO j6 = s(6),e(6)
240	k6 = (j6 - 1)*p(5) + k7
241	vstart(6) = udo(6) + j6 - s(6) + 1
242	vcount(6) = 1
243	DO j5 = s(5),e(5)
244	k5 = (j5 - 1)*p(4) + k6
245	vstart(5) = udo(5) + j5 - s(5) + 1
246	vcount(5) = 1
247	DO j4 = s(4),e(4)
248	k4 = (j4 - 1)*p(3) + k5
249	vstart(4) = udo(4) + j4 - s(4) + 1
250	vcount(4) = 1
251	DO j3 = s(3),e(3)
252	k3 = (j3 - 1)*p(2) + k4
253	vstart(3) = udo(3) + j3 - s(3) + 1
254	vcount(3) = 1
255	DO j2 = s(2),e(2)
256	k2 = (j2 - 1)*p(1) + k3
257	vstart(2) = udo(2) + j2 - s(2) + 1
258	vcount(2) = 1
259
260	kr = 0
261	DO j1 = s(1),e(1)
262	k1 = k2 + j1
263	kr = kr + 1
264	resh(kr) = var(k1)
265	ENDDO
266
267	vstart(1) = udo(1) + 1
268	vcount(1) = e(1) - s(1) + 1
269
270	#ifdef mnc_rtype_D
271	err = NF_PUT_VARA_DOUBLE(fid, idv, vstart, vcount, resh)
272	#endif
273	#ifdef mnc_rtype_R
274	err = NF_PUT_VARA_REAL(fid, idv, vstart, vcount, resh)
275	#endif
276	#ifdef mnc_rtype_I
277	err = NF_PUT_VARA_INT(fid, idv, vstart, vcount, resh)
278	#endif
279
280	CALL MNC_HANDLE_ERR(err, msgbuf, myThid)
281
282	ENDDO
283	ENDDO
284	ENDDO
285	ENDDO
286	ENDDO
287	ENDDO
288
289	C Sync the file
290	err = NF_SYNC(fid)
291	write(msgbuf,'(3a)') 'sync for file ''', fname,
292	& ''' in S/R MNC_CW_RX_W_YY'
293	CALL MNC_HANDLE_ERR(err, msgbuf, myThid)
294
295	ENDDO
296	ENDDO
297
298	_END_MASTER( myThid )
299
300	RETURN
301	END
302
303
304	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
305
306
307	SUBROUTINE MNC_CW_RX_R_YY(
308	I fbname, bi,bj,
309	I vtype,
310	I indu,
311	I var,
312	I myThid )
313
314	implicit none
315
316	#include "netcdf.inc"
317	#include "mnc_common.h"
318	#include "EEPARAMS.h"
319	#include "SIZE.h"
320
321	#define mnc_rtype_YY
322
323	C Arguments
324	integer myThid, bi,bj, indu
325	character() fbname, vtype
326	__V var(*)
327
328	C Functions
329	integer IFNBLNK, ILNBLNK
330
331	C Local Variables
332	integer i,k, nvf,nvl, n1,n2, igrid, ntot
333	integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv
334	integer ndim, indf, err, lbi,lbj, bidim,bjdim, unlim_sz, kr
335	integer ind_fv_ids, ind_vt, ierr, atype, alen
336	integer f_sNx,f_sNy, ires
337	integer p(9),s(9),e(9), vstart(9),vcount(9), udo(9)
338	integer j1,j2,j3,j4,j5,j6,j7, k1,k2,k3,k4,k5,k6,k7
339	character*(MAX_LEN_MBUF) msgbuf
340	character*(MNC_MAX_CHAR) fname
341
342	C Temporary storage for the simultaneous type conversion and
343	C re-shaping before passing to NetCDF
344	#ifdef mnc_rtype_D
345	REAL8 resh( sNx + 2OLx + sNy + 2*OLy )
346	#endif
347	#ifdef mnc_rtype_R
348	REAL4 resh( sNx + 2OLx + sNy + 2*OLy )
349	#endif
350	#ifdef mnc_rtype_I
351	INTEGER resh( sNx + 2OLx + sNy + 2OLy )
352	#endif
353
354	C Only do I/O if I am the master thread
355	_BEGIN_MASTER( myThid )
356
357	C Check that the Variable Type exists
358	nvf = IFNBLNK(vtype)
359	nvl = ILNBLNK(vtype)
360	CALL MNC_GET_IND( MNC_MAX_ID, vtype, mnc_cw_vname, ind_vt, myThid)
361	IF (ind_vt .LT. 1) THEN
362	write(msgbuf,'(3a)') 'MNC_CW_RX_R_YY ERROR: vtype ''',
363	& vtype(nvf:nvl), ''' is not defined'
364	CALL print_error(msgbuf, mythid)
365	STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
366	ENDIF
367	igrid = mnc_cw_vgind(ind_vt)
368
369	C Check for bi,bj indicies
370	bidim = mnc_cw_vbij(1,ind_vt)
371	bjdim = mnc_cw_vbij(2,ind_vt)
372
373	C Set the bi,bj indicies
374	bis = bi
375	bie = bi
376	IF (bi .LT. 1) THEN
377	bis = 1
378	bie = nSx
379	ENDIF
380	bjs = bj
381	bje = bj
382	IF (bj .LT. 1) THEN
383	bjs = 1
384	bje = nSy
385	ENDIF
386
387	DO lbj = bjs,bje
388	DO lbi = bis,bie
389
390	C Create the file name
391	CALL MNC_CW_GET_TILE_NUM( lbi,lbj, uniq_tnum, myThid)
392	fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR)
393	n1 = IFNBLNK(fbname)
394	n2 = ILNBLNK(fbname)
395	ntot = n2 - n1 + 1
396	fname(1:ntot) = fbname(n1:n2)
397	ntot = ntot + 1
398	fname(ntot:ntot) = '.'
399	write(fname((ntot+1):(ntot+9)),'(i6.6,a3)') uniq_tnum, '.nc'
400	nfname = ntot+9
401
402	C Open the existing file
403	CALL MNC_FILE_TRY_READ( fname, ierr, indf, myThid)
404
405	C Check that the variable (VType) is defined within the file
406	CALL MNC_GET_FVINDS( fname, vtype, indf, ind_fv_ids, myThid)
407	IF ((indf .LT. 1) .OR. (ind_fv_ids .LT. 1)) THEN
408	write(msgbuf,'(4a)') 'MNC_CW_RX_R_YY ERROR: vtype ''',
409	& vtype(nvf:nvl), ''' is not defined within file ''',
410	& fname(1:nfname)
411	CALL print_error(msgbuf, mythid)
412	STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
413	ENDIF
414	fid = mnc_f_info(indf,2)
415	idv = mnc_fv_ids(indf,ind_fv_ids+1)
416
417	C Check that the current sNy,sNy values and the in-file values
418	C are compatible and WARN (only warn) if not
419	f_sNx = -1
420	f_sNy = -1
421	err = NF_INQ_ATT(fid,NF_GLOBAL, 'sNx',atype,alen)
422	IF ((err .EQ. NF_NOERR) .AND. (alen .EQ. 1)) THEN
423	err = NF_GET_ATT_INT(fid, NF_GLOBAL, 'sNx', f_sNx)
424	CALL MNC_HANDLE_ERR(err,
425	& 'reading attribute ''sNx'' in S/R MNC_CW_RX_R_YY',
426	& myThid)
427	ENDIF
428	err = NF_INQ_ATT(fid,NF_GLOBAL, 'sNy',atype,alen)
429	IF ((err .EQ. NF_NOERR) .AND. (alen .EQ. 1)) THEN
430	err = NF_GET_ATT_INT(fid, NF_GLOBAL, 'sNy', f_sNy)
431	CALL MNC_HANDLE_ERR(err,
432	& 'reading attribute ''sNy'' in S/R MNC_CW_RX_R_YY',
433	& myThid)
434	ENDIF
435	IF ((f_sNx .NE. sNx) .OR. (f_sNy .NE. sNy)) THEN
436	write(msgbuf,'(5a)') 'MNC_CW_RX_R_YY WARNING: the ',
437	& 'attributes ''sNx'' and ''sNy'' within the file ''',
438	& fname(1:nfname), ''' do not exist or do not match ',
439	& 'the current sizes within the model'
440	CALL print_error(msgbuf, mythid)
441	ENDIF
442
443	C Check that the in-memory variable and the in-file variables
444	C are of compatible sizes
445	C ires = 1
446	C CALL MNC_CHK_VTYP_R_NCVAR( ind_vt,
447	C & indf, ind_fv_ids, indu, ires)
448	C IF (ires .LT. 0) THEN
449	C write(msgbuf,'(7a)') 'MNC_CW_RX_R_YY WARNING: the sizes ',
450	C & 'of the in-program variable ''', vtype(nvf:nvl),
451	C & ''' and the corresponding variable within file ''',
452	C & fname(1:nfname), ''' are not compatible -- please ',
453	C & 'check the sizes'
454	C CALL print_error(msgbuf, mythid)
455	C STOP 'ABNORMAL END: S/R MNC_CW_RX_R_YY'
456	C ENDIF
457
458	C Check for bi,bj indicies
459	bidim = mnc_cw_vbij(1,ind_vt)
460	bjdim = mnc_cw_vbij(2,ind_vt)
461
462	C Set the dimensions for the in-memory array
463	ndim = mnc_cw_ndim(igrid)
464	k = mnc_cw_dims(1,igrid)
465	IF (k .GT. 0) THEN
466	p(1) = k
467	ELSE
468	p(1) = 1
469	ENDIF
470	DO i = 2,9
471	k = mnc_cw_dims(i,igrid)
472	IF (k .LT. 1) THEN
473	k = 1
474	ENDIF
475	IF ((bidim .GT. 0) .AND. (i .EQ. bidim)) THEN
476	p(i) = nSx * p(i-1)
477	ELSEIF ((bjdim .GT. 0) .AND. (i .EQ. bjdim)) THEN
478	p(i) = nSy * p(i-1)
479	ELSE
480	p(i) = k * p(i-1)
481	ENDIF
482	ENDDO
483
484	C Set starting and ending indicies for the in-memory array and
485	C the unlimited dimension offset for the NetCDF array
486	DO i = 1,9
487	udo(i) = 0
488	s(i) = 1
489	e(i) = 1
490	IF (i .LE. ndim) THEN
491	s(i) = mnc_cw_is(i,igrid)
492	e(i) = mnc_cw_ie(i,igrid)
493	ENDIF
494	C Check for the unlimited dimension
495	IF ((i .EQ. ndim)
496	& .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN
497	IF (indu .GT. 0) THEN
498	C Use the indu value
499	udo(i) = indu - 1
500	ELSEIF (indu .EQ. -1) THEN
501	C Append one to the current unlimited dim size
502	CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
503	udo(i) = unlim_sz
504	ELSE
505	C Use the current unlimited dim size
506	CALL MNC_DIM_UNLIM_SIZE( fname, unlim_sz, myThid)
507	udo(i) = unlim_sz - 1
508	ENDIF
509	ENDIF
510	ENDDO
511	IF (bidim .GT. 0) THEN
512	s(bidim) = lbi
513	e(bidim) = lbi
514	ENDIF
515	IF (bjdim .GT. 0) THEN
516	s(bjdim) = lbj
517	e(bjdim) = lbj
518	ENDIF
519
520	C DO i = 9,1,-1
521	C write(,) 'i,p(i),s(i),e(i) = ', i,': ',p(i),s(i),e(i)
522	C ENDDO
523
524	CALL MNC_FILE_ENDDEF(fname, myThid)
525
526	write(msgbuf,'(5a)') 'reading variable type ''',
527	& vtype(nvf:nvl), ''' within file ''',
528	& fname(1:nfname), ''''
529
530	C Read the variable one vector at a time
531	DO j7 = s(7),e(7)
532	k7 = (j7 - 1)*p(6)
533	vstart(7) = udo(7) + j7 - s(7) + 1
534	vcount(7) = 1
535	DO j6 = s(6),e(6)
536	k6 = (j6 - 1)*p(5) + k7
537	vstart(6) = udo(6) + j6 - s(6) + 1
538	vcount(6) = 1
539	DO j5 = s(5),e(5)
540	k5 = (j5 - 1)*p(4) + k6
541	vstart(5) = udo(5) + j5 - s(5) + 1
542	vcount(5) = 1
543	DO j4 = s(4),e(4)
544	k4 = (j4 - 1)*p(3) + k5
545	vstart(4) = udo(4) + j4 - s(4) + 1
546	vcount(4) = 1
547	DO j3 = s(3),e(3)
548	k3 = (j3 - 1)*p(2) + k4
549	vstart(3) = udo(3) + j3 - s(3) + 1
550	vcount(3) = 1
551	DO j2 = s(2),e(2)
552	k2 = (j2 - 1)*p(1) + k3
553	vstart(2) = udo(2) + j2 - s(2) + 1
554	vcount(2) = 1
555
556	vstart(1) = udo(1) + 1
557	vcount(1) = e(1) - s(1) + 1
558
559	#ifdef mnc_rtype_D
560	err = NF_GET_VARA_DOUBLE(fid, idv, vstart, vcount, resh)
561	#endif
562	#ifdef mnc_rtype_R
563	err = NF_GET_VARA_REAL(fid, idv, vstart, vcount, resh)
564	#endif
565	#ifdef mnc_rtype_I
566	err = NF_GET_VARA_INT(fid, idv, vstart, vcount, resh)
567	#endif
568
569	CALL MNC_HANDLE_ERR(err, msgbuf, myThid)
570
571	kr = 0
572	DO j1 = s(1),e(1)
573	k1 = k2 + j1
574	kr = kr + 1
575	var(k1) = resh(kr)
576	ENDDO
577
578
579	ENDDO
580	ENDDO
581	ENDDO
582	ENDDO
583	ENDDO
584	ENDDO
585
586	C Close the file
587	CALL MNC_FILE_CLOSE(fname, myThid)
588
589	C End the lbj,lbi loops
590	ENDDO
591	ENDDO
592
593	_END_MASTER( myThid )
594
595	RETURN
596	END
597
598	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
599
600	CEH3 ;;; Local Variables: ***
601	CEH3 ;;; mode:fortran ***
602	CEH3 ;;; End: ***