pkg/diagnostics/diagnostics_out.F

C $Header: /u/gcmpack/MITgcm/pkg/diagnostics/diagnostics_out.F,v 1.36 2008/02/05 20:19:18 jmc Exp $
C $Name:  $

#include "DIAG_OPTIONS.h"

C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
CBOP 0
C     !ROUTINE: DIAGNOSTICS_OUT

C     !INTERFACE:
      SUBROUTINE  DIAGNOSTICS_OUT(
     I     listId,
     I     myIter,
     I     myTime,
     I     myThid )

C     !DESCRIPTION:
C     Write output for diagnostics fields.

C     !USES:
      IMPLICIT NONE
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "GRID.h"
#include "DIAGNOSTICS_SIZE.h"
#include "DIAGNOSTICS.h"

      INTEGER NrMax
      PARAMETER( NrMax = numLevels )

C     !INPUT PARAMETERS:
C     listId  :: Diagnostics list number being written
C     myIter  :: current iteration number
C     myTime  :: current time of simulation (s)
C     myThid  :: my Thread Id number
      _RL     myTime
      INTEGER listId, myIter, myThid
CEOP

C     !LOCAL VARIABLES:
C     i,j,k :: loop indices
C     lm    :: loop index (averageCycle)
C     md    :: field number in the list "listId".
C     ndId  :: diagnostics  Id number (in available diagnostics list)
C     mate  :: counter mate Id number (in available diagnostics list)
C     ip    :: diagnostics  pointer to storage array
C     im    :: counter-mate pointer to storage array
C
C--   COMMON /LOCAL_DIAGNOSTICS_OUT/ local common block (for multi-threaded)
C     qtmp1 :: thread-shared temporary array (needs to be in common block):
C              to write a diagnostic field to file, copy it first from (big)
C              diagnostic storage qdiag into it.
      COMMON /LOCAL_DIAGNOSTICS_OUT/ qtmp1
      _RL qtmp1(1-OLx:sNx+OLx,1-OLy:sNy+OLy,NrMax,nSx,nSy)

      INTEGER i, j, k, lm, klev
      INTEGER bi, bj
      INTEGER md, ndId, ip, im
      INTEGER mate, mVec
      CHARACTER*10 gcode
      _RL undef, getcon
      _RL tmpLev
      EXTERNAL getcon
      INTEGER ILNBLNK
      EXTERNAL ILNBLNK
      INTEGER ilen

      INTEGER ioUnit
      CHARACTER*(MAX_LEN_FNAM) fn
      CHARACTER*(MAX_LEN_MBUF) suff
      CHARACTER*(MAX_LEN_MBUF) msgBuf
      INTEGER prec, nRec
#ifdef ALLOW_MDSIO
      LOGICAL glf
#endif
#ifdef ALLOW_MNC
      INTEGER ii
      CHARACTER*(MAX_LEN_FNAM) diag_mnc_bn
      INTEGER CW_DIMS, NLEN
      PARAMETER ( CW_DIMS = 10 )
      PARAMETER ( NLEN    = 80 )
      INTEGER dim(CW_DIMS), ib(CW_DIMS), ie(CW_DIMS)
      CHARACTER*(NLEN) dn(CW_DIMS)
      CHARACTER*(NLEN) d_cw_name
      CHARACTER*(NLEN) dn_blnk
#ifdef DIAG_MNC_COORD_NEEDSWORK
      CHARACTER*(5) ctmp
      _RS ztmp(NrMax)
#endif
      REAL*8 misvalLoc
      REAL*8 misval_r8(2)
      REAL*4 misval_r4(2)
      INTEGER misvalIntLoc, misval_int(2)
#endif /*  ALLOW_MNC  */

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

      ioUnit= standardMessageUnit
      undef = getcon('UNDEF')
      WRITE(suff,'(I10.10)') myIter
      ilen = ILNBLNK(fnames(listId))
      WRITE( fn, '(A,A,A)' ) fnames(listId)(1:ilen),'.',suff(1:10)

#ifdef ALLOW_MNC
      IF (useMNC .AND. diag_mnc) THEN
        DO i = 1,MAX_LEN_FNAM
          diag_mnc_bn(i:i) = ' '
        ENDDO
        DO i = 1,NLEN
          dn_blnk(i:i) = ' '
        ENDDO
        WRITE( diag_mnc_bn, '(A)' ) fnames(listId)(1:ilen)

C       Update the record dimension by writing the iteration number
        CALL MNC_CW_SET_UDIM(diag_mnc_bn, -1, myThid)
        CALL MNC_CW_RL_W_S('D',diag_mnc_bn,0,0,'T',myTime,myThid)
        CALL MNC_CW_SET_UDIM(diag_mnc_bn, 0, myThid)
        CALL MNC_CW_I_W_S('I',diag_mnc_bn,0,0,'iter',myIter,myThid)

C       NOTE: at some point it would be a good idea to add a time_bounds
C       variable that has dimension (2,T) and clearly denotes the
C       beginning and ending times for each diagnostics period

        dn(1)(1:NLEN) = dn_blnk(1:NLEN)
        WRITE(dn(1),'(a,i6.6)') 'Zmd', nlevels(listId)
        dim(1) = nlevels(listId)
        ib(1)  = 1
        ie(1)  = nlevels(listId)

        CALL MNC_CW_ADD_GNAME('diag_levels', 1,
     &       dim, dn, ib, ie, myThid)
        CALL MNC_CW_ADD_VNAME('diag_levels', 'diag_levels',
     &       0,0, myThid)
        CALL MNC_CW_ADD_VATTR_TEXT('diag_levels','description',
     &       'Idicies of vertical levels within the source arrays',
     &       myThid)

        CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0,
     &       'diag_levels', levs(1,listId), myThid)

        CALL MNC_CW_DEL_VNAME('diag_levels', myThid)
        CALL MNC_CW_DEL_GNAME('diag_levels', myThid)

#ifdef DIAG_MNC_COORD_NEEDSWORK
C       This part has been placed in an #ifdef because, as its currently
C       written, it will only work with variables defined on a dynamics
C       grid.  As we start using diagnostics for physics grids, ice
C       levels, land levels, etc. the different vertical coordinate
C       dimensions will have to be taken into account.

C       20051021 JMC & EH3 : We need to extend this so that a few
C       variables each defined on different grids do not have the same
C       vertical dimension names so we should be using a pattern such
C       as: Z[uml]td000000 where the 't' is the type as specified by
C       gdiag(10)

C       Now define:  Zmdxxxxxx, Zudxxxxxx, Zldxxxxxx
        ctmp(1:5) = 'mul  '
        DO i = 1,3
          dn(1)(1:NLEN) = dn_blnk(1:NLEN)
          WRITE(dn(1),'(3a,i6.6)') 'Z',ctmp(i:i),'d',nlevels(listId)
          CALL MNC_CW_ADD_GNAME(dn(1), 1, dim, dn, ib, ie, myThid)
          CALL MNC_CW_ADD_VNAME(dn(1), dn(1), 0,0, myThid)

C         The following three ztmp() loops should eventually be modified
C         to reflect the fractional nature of levs(j,l) -- they should
C         do something like:
C            ztmp(j) = rC(INT(FLOOR(levs(j,l))))
C                      + ( rC(INT(FLOOR(levs(j,l))))
C                          + rC(INT(CEIL(levs(j,l)))) )
C                        / ( levs(j,l) - FLOOR(levs(j,l)) )
C         for averaged levels.
          IF (i .EQ. 1) THEN
            DO j = 1,nlevels(listId)
              ztmp(j) = rC(NINT(levs(j,listId)))
            ENDDO
            CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
     &           'Dimensional coordinate value at the mid point',
     &           myThid)
          ELSEIF (i .EQ. 2) THEN
            DO j = 1,nlevels(listId)
              ztmp(j) = rF(NINT(levs(j,listId)) + 1)
            ENDDO
            CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
     &           'Dimensional coordinate value at the upper point',
     &           myThid)
          ELSEIF (i .EQ. 3) THEN
            DO j = 1,nlevels(listId)
              ztmp(j) = rF(NINT(levs(j,listId)))
            ENDDO
            CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
     &           'Dimensional coordinate value at the lower point',
     &           myThid)
          ENDIF
          CALL MNC_CW_RS_W('D',diag_mnc_bn,0,0, dn(1), ztmp, myThid)
          CALL MNC_CW_DEL_VNAME(dn(1), myThid)
          CALL MNC_CW_DEL_GNAME(dn(1), myThid)
        ENDDO
#endif /*  DIAG_MNC_COORD_NEEDSWORK  */

      ENDIF
#endif /*  ALLOW_MNC  */

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

      DO md = 1,nfields(listId)
        ndId = jdiag(md,listId)
        gcode = gdiag(ndId)(1:10)
        mate = 0
        mVec = 0
        IF ( gcode(5:5).EQ.'C' ) THEN
C-      Check for Mate of a Counter Diagnostic
           mate = hdiag(ndId)
        ELSEIF ( gcode(1:1).EQ.'U' .OR. gcode(1:1).EQ.'V' ) THEN
C-      Check for Mate of a Vector Diagnostic
           mVec = hdiag(ndId)
        ENDIF
        IF ( idiag(md,listId).NE.0 .AND. gcode(5:5).NE.'D' ) THEN
C--     Start processing 1 Fld :
         DO lm=1,averageCycle(listId)

          ip = ABS(idiag(md,listId)) + kdiag(ndId)*(lm-1)
          im = mdiag(md,listId)
          IF (mate.GT.0) im = im + kdiag(mate)*(lm-1)
          IF (mVec.GT.0) im = im + kdiag(mVec)*(lm-1)

          IF ( ndiag(ip,1,1).EQ.0 ) THEN
C-        Empty diagnostics case :

            _BEGIN_MASTER( myThid )
            WRITE(msgBuf,'(A,I10)')
     &        '- WARNING - from DIAGNOSTICS_OUT at iter=', myIter
            CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
     &                          SQUEEZE_RIGHT, myThid)
            WRITE(msgBuf,'(A,I6,3A,I4,2A)')
     &       '- WARNING -   diag.#',ndId, ' : ',flds(md,listId),
     &       ' (#',md,' ) in outp.Stream: ',fnames(listId)
            CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
     &                          SQUEEZE_RIGHT, myThid)
            IF ( averageCycle(listId).GT.1 ) THEN
             WRITE(msgBuf,'(A,2(I3,A))')
     &        '- WARNING -   has not been filled (ndiag(lm=',lm,')=',
     &                                            ndiag(ip,1,1), ' )'
            ELSE
             WRITE(msgBuf,'(A,2(I3,A))')
     &        '- WARNING -   has not been filled (ndiag=',
     &                                            ndiag(ip,1,1), ' )'
            ENDIF
            CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
     &                          SQUEEZE_RIGHT, myThid)
            WRITE(msgBuf,'(A)')
     &       'WARNING DIAGNOSTICS_OUT  => write ZEROS instead'
            CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
     &                          SQUEEZE_RIGHT, myThid)
            _END_MASTER( myThid )
            DO bj = myByLo(myThid), myByHi(myThid)
              DO bi = myBxLo(myThid), myBxHi(myThid)
                DO k = 1,nlevels(listId)
                  DO j = 1-OLy,sNy+OLy
                    DO i = 1-OLx,sNx+OLx
                      qtmp1(i,j,k,bi,bj) = 0. _d 0
                    ENDDO
                  ENDDO
                ENDDO
              ENDDO
            ENDDO

          ELSE
C-        diagnostics is not empty :

            IF ( debugLevel.GE.debLevA .AND. myThid.EQ.1 ) THEN
              WRITE(ioUnit,'(A,I6,3A,I8,2A)')
     &         ' Computing Diagnostic # ', ndId, '  ', cdiag(ndId),
     &         '     Counter:',ndiag(ip,1,1),'   Parms: ',gdiag(ndId)
              IF ( mate.GT.0 ) THEN
               WRITE(ioUnit,'(3A,I6,2A)')
     &         '       use Counter Mate for  ', cdiag(ndId),
     &         '     Diagnostic # ',mate, '  ', cdiag(mate)
              ELSEIF ( mVec.GT.0 ) THEN
                IF ( im.GT.0 .AND. ndiag(MAX(1,im),1,1).GT.0 ) THEN
                 WRITE(ioUnit,'(3A,I6,3A)')
     &             '           Vector  Mate for  ', cdiag(ndId),
     &             '     Diagnostic # ',mVec, '  ', cdiag(mVec),
     &             ' exists '
                ELSE
                 WRITE(ioUnit,'(3A,I6,3A)')
     &             '           Vector  Mate for  ', cdiag(ndId),
     &             '     Diagnostic # ',mVec, '  ', cdiag(mVec),
     &             ' not enabled'
                ENDIF
              ENDIF
            ENDIF

            IF ( fflags(listId)(2:2).EQ.'P' ) THEN
C-       get all the levels (for vertical interpolation)
              DO bj = myByLo(myThid), myByHi(myThid)
               DO bi = myBxLo(myThid), myBxHi(myThid)
                DO k = 1,kdiag(ndId)
                  tmpLev = k
                  CALL GETDIAG(
     I                         tmpLev,undef,
     O                         qtmp1(1-OLx,1-OLy,k,bi,bj),
     I                         ndId,mate,ip,im,bi,bj,myThid)
                ENDDO
               ENDDO
              ENDDO
            ELSE
C-       get only selected levels:
              DO bj = myByLo(myThid), myByHi(myThid)
               DO bi = myBxLo(myThid), myBxHi(myThid)
                DO k = 1,nlevels(listId)
                  CALL GETDIAG(
     I                         levs(k,listId),undef,
     O                         qtmp1(1-OLx,1-OLy,k,bi,bj),
     I                         ndId,mate,ip,im,bi,bj,myThid)
                ENDDO
               ENDDO
              ENDDO
            ENDIF

C-        end of empty diag / not empty block
          ENDIF

C-----------------------------------------------------------------------
C         Check to see if we need to interpolate before output
C-----------------------------------------------------------------------
          IF ( fflags(listId)(2:2).EQ.'P' ) THEN
C-        Do vertical interpolation:
           IF ( fluidIsAir ) THEN
C jmc: for now, this can only work in an atmospheric set-up (fluidIsAir);
            CALL DIAGNOSTICS_INTERP_VERT(
     I                     listId, md, ndId, ip, im, lm,
     U                     qtmp1,
     I                     undef, myTime, myIter, myThid )
           ELSE
             WRITE(msgBuf,'(2A)') 'DIAGNOSTICS_OUT: ',
     &         'INTERP_VERT not allowed in this config'
             CALL PRINT_ERROR( msgBuf , myThid )
             STOP 'ABNORMAL END: S/R DIAGNOSTICS_OUT'
           ENDIF
          ENDIF

C--    Ready to write field "md", element "lm" in averageCycle(listId)

C-        write to binary file, using MDSIO pkg:
          IF ( diag_mdsio ) THEN
            nRec = lm + (md-1)*averageCycle(listId)
C           default precision for output files
            prec = writeBinaryPrec
C           fFlag(1)=R(or D): force it to be 32-bit(or 64) precision
            IF ( fflags(listId)(1:1).EQ.'R' ) prec = precFloat32
            IF ( fflags(listId)(1:1).EQ.'D' ) prec = precFloat64
C         a hack not to write meta files now: pass -nRec < 0 to MDS_WRITE S/R
            CALL WRITE_REC_LEV_RL(
     I                            fn, prec,
     I                            NrMax, 1, nlevels(listId),
     I                            qtmp1, -nRec, myIter, myThid )
          ENDIF

#ifdef ALLOW_MNC
          IF (useMNC .AND. diag_mnc) THEN

            _BEGIN_MASTER( myThid )

            DO ii = 1,CW_DIMS
              d_cw_name(1:NLEN) = dn_blnk(1:NLEN)
              dn(ii)(1:NLEN) = dn_blnk(1:NLEN)
            ENDDO

C           Note that the "d_cw_name" variable is a hack that hides a
C           subtlety within MNC.  Basically, each MNC-wrapped file is
C           caching its own concept of what each "grid name" (that is, a
C           dimension group name) means.  So one cannot re-use the same
C           "grid" name for different collections of dimensions within a
C           given file.  By appending the "ndId" values to each name, we
C           guarantee uniqueness within each MNC-produced file.
            WRITE(d_cw_name,'(a,i6.6)') 'd_cw_',ndId

C           XY dimensions
            dim(1)       = sNx + 2*OLx
            dim(2)       = sNy + 2*OLy
            ib(1)        = OLx + 1
            ib(2)        = OLy + 1
            IF (gdiag(ndId)(2:2) .EQ. 'M') THEN
              dn(1)(1:2) = 'X'
              ie(1)      = OLx + sNx
              dn(2)(1:2) = 'Y'
              ie(2)      = OLy + sNy
            ELSEIF (gdiag(ndId)(2:2) .EQ. 'U') THEN
              dn(1)(1:3) = 'Xp1'
              ie(1)      = OLx + sNx + 1
              dn(2)(1:2) = 'Y'
              ie(2)      = OLy + sNy
            ELSEIF (gdiag(ndId)(2:2) .EQ. 'V') THEN
              dn(1)(1:2) = 'X'
              ie(1)      = OLx + sNx
              dn(2)(1:3) = 'Yp1'
              ie(2)      = OLy + sNy + 1
            ELSEIF (gdiag(ndId)(2:2) .EQ. 'Z') THEN
              dn(1)(1:3) = 'Xp1'
              ie(1)      = OLx + sNx + 1
              dn(2)(1:3) = 'Yp1'
              ie(2)      = OLy + sNy + 1
            ENDIF

C           Z is special since it varies
            WRITE(dn(3),'(a,i6.6)') 'Zd', nlevels(listId)
            IF ( (gdiag(ndId)(10:10) .EQ. 'R')
     &           .AND. (gdiag(ndId)(9:9) .EQ. 'M') ) THEN
              WRITE(dn(3),'(a,i6.6)') 'Zmd', nlevels(listId)
            ENDIF
            IF ( (gdiag(ndId)(10:10) .EQ. 'R')
     &           .AND. (gdiag(ndId)(9:9) .EQ. 'L') ) THEN
              WRITE(dn(3),'(a,i6.6)') 'Zld', nlevels(listId)
            ENDIF
            IF ( (gdiag(ndId)(10:10) .EQ. 'R')
     &           .AND. (gdiag(ndId)(9:9) .EQ. 'U') ) THEN
              WRITE(dn(3),'(a,i6.6)') 'Zud', nlevels(listId)
            ENDIF
            dim(3) = NrMax
            ib(3)  = 1
            ie(3)  = nlevels(listId)

C           Time dimension
            dn(4)(1:1) = 'T'
            dim(4) = -1
            ib(4)  = 1
            ie(4)  = 1

            CALL MNC_CW_ADD_GNAME(d_cw_name, 4,
     &             dim, dn, ib, ie, myThid)
            CALL MNC_CW_ADD_VNAME(cdiag(ndId), d_cw_name,
     &             4,5, myThid)
            CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'description',
     &             tdiag(ndId),myThid)
            CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'units',
     &             udiag(ndId),myThid)

C     Handle missing value attribute (land points)
            IF ( misvalFlt(listId) .NE. UNSET_RL ) THEN
             misvalLoc = misvalFlt(listId)
            ELSE
             misvalLoc = undef
            ENDIF
C     Defaults to UNSET_I
            misvalIntLoc = misvalInt(listId)
            DO ii=1,2
C            misval_r4(ii)  = UNSET_FLOAT4
C            misval_r8(ii)  = UNSET_FLOAT8
             misval_r4(ii)  = misvalLoc
             misval_r8(ii)  = misvalLoc
             misval_int(ii) = UNSET_I
            ENDDO
C     Missing values only for scalar diagnostics at mass points (so far)
            IF ( gdiag(ndId)(1:2) .EQ. 'SM' ) THEN
C     assign missing values and set flag for adding the netCDF atttibute
             CALL MNC_CW_VATTR_MISSING(cdiag(ndId), 2,
     I            misval_r8, misval_r4, misval_int, 
     I            myThid )
C     and now use the missing values for masking out the land points
             DO bj = myByLo(myThid), myByHi(myThid)
              DO bi = myBxLo(myThid), myBxHi(myThid)
               DO k = 1,nlevels(listId)
                klev = NINT(levs(k,listId))
                DO j = 1-OLy,sNy+OLy
                 DO i = 1-OLx,sNx+OLx
                  IF ( _hFacC(I,J,klev,bi,bj) .EQ. 0. )
     &                 qtmp1(i,j,k,bi,bj) = misvalLoc
                 ENDDO
                ENDDO
               ENDDO
              ENDDO
             ENDDO
            ELSE
C     suppress the missing value attribute (iflag = 0)
C     Note: I have no idea, why we have to do this here, but if we do not
C     do it, variables get the missing_value attribute (the one of the 
C     previous varable) that are not supposed to get one. These is something
C     fishy with the flag array mnc_cw_vfmv.
             CALL MNC_CW_VATTR_MISSING(cdiag(ndId), 0,
     I            misval_r8, misval_r4, misval_int, 
     I            myThid )
            ENDIF

            IF ( ( (writeBinaryPrec .EQ. precFloat32)
     &           .AND. (fflags(listId)(1:1) .NE. 'D')
     &           .AND. (fflags(listId)(1:1) .NE. 'R') )
     &           .OR. (fflags(listId)(1:1) .EQ. 'R')) THEN
              CALL MNC_CW_RL_W('R',diag_mnc_bn,0,0,
     &             cdiag(ndId), qtmp1, myThid)
            ELSEIF ( (writeBinaryPrec .EQ. precFloat64)
     &             .OR. (fflags(listId)(1:1) .EQ. 'D') ) THEN
              CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0,
     &             cdiag(ndId), qtmp1, myThid)
            ENDIF

            CALL MNC_CW_DEL_VNAME(cdiag(ndId), myThid)
            CALL MNC_CW_DEL_GNAME(d_cw_name, myThid)

            _END_MASTER( myThid )

          ENDIF
#endif /*  ALLOW_MNC  */

         ENDDO
C--     end of Processing Fld # md
        ENDIF
      ENDDO

#ifdef ALLOW_MDSIO
      IF (diag_mdsio) THEN
C-    Note: temporary: since it's a pain to add more arguments to
C     all MDSIO S/R, uses instead this specific S/R to write only
C     meta files but with more informations in it.
            glf = globalFiles
            nRec = nfields(listId)*averageCycle(listId)
            CALL MDS_WR_METAFILES(fn, prec, glf, .FALSE.,
     &              0, 0, nlevels(listId), ' ',
     &              nfields(listId), flds(1,listId), 1, myTime,
     &              nRec, myIter, myThid)
      ENDIF
#endif /*  ALLOW_MDSIO  */

      RETURN
      END

C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
1	C $Header: /u/gcmpack/MITgcm/pkg/diagnostics/diagnostics_out.F,v 1.36 2008/02/05 20:19:18 jmc Exp $
2	C $Name: $
3
4	#include "DIAG_OPTIONS.h"
5
6	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
7	CBOP 0
8	C !ROUTINE: DIAGNOSTICS_OUT
9
10	C !INTERFACE:
11	SUBROUTINE DIAGNOSTICS_OUT(
12	I listId,
13	I myIter,
14	I myTime,
15	I myThid )
16
17	C !DESCRIPTION:
18	C Write output for diagnostics fields.
19
20	C !USES:
21	IMPLICIT NONE
22	#include "SIZE.h"
23	#include "EEPARAMS.h"
24	#include "PARAMS.h"
25	#include "GRID.h"
26	#include "DIAGNOSTICS_SIZE.h"
27	#include "DIAGNOSTICS.h"
28
29	INTEGER NrMax
30	PARAMETER( NrMax = numLevels )
31
32	C !INPUT PARAMETERS:
33	C listId :: Diagnostics list number being written
34	C myIter :: current iteration number
35	C myTime :: current time of simulation (s)
36	C myThid :: my Thread Id number
37	_RL myTime
38	INTEGER listId, myIter, myThid
39	CEOP
40
41	C !LOCAL VARIABLES:
42	C i,j,k :: loop indices
43	C lm :: loop index (averageCycle)
44	C md :: field number in the list "listId".
45	C ndId :: diagnostics Id number (in available diagnostics list)
46	C mate :: counter mate Id number (in available diagnostics list)
47	C ip :: diagnostics pointer to storage array
48	C im :: counter-mate pointer to storage array
49	C
50	C-- COMMON /LOCAL_DIAGNOSTICS_OUT/ local common block (for multi-threaded)
51	C qtmp1 :: thread-shared temporary array (needs to be in common block):
52	C to write a diagnostic field to file, copy it first from (big)
53	C diagnostic storage qdiag into it.
54	COMMON /LOCAL_DIAGNOSTICS_OUT/ qtmp1
55	_RL qtmp1(1-OLx:sNx+OLx,1-OLy:sNy+OLy,NrMax,nSx,nSy)
56
57	INTEGER i, j, k, lm, klev
58	INTEGER bi, bj
59	INTEGER md, ndId, ip, im
60	INTEGER mate, mVec
61	CHARACTER*10 gcode
62	_RL undef, getcon
63	_RL tmpLev
64	EXTERNAL getcon
65	INTEGER ILNBLNK
66	EXTERNAL ILNBLNK
67	INTEGER ilen
68
69	INTEGER ioUnit
70	CHARACTER*(MAX_LEN_FNAM) fn
71	CHARACTER*(MAX_LEN_MBUF) suff
72	CHARACTER*(MAX_LEN_MBUF) msgBuf
73	INTEGER prec, nRec
74	#ifdef ALLOW_MDSIO
75	LOGICAL glf
76	#endif
77	#ifdef ALLOW_MNC
78	INTEGER ii
79	CHARACTER*(MAX_LEN_FNAM) diag_mnc_bn
80	INTEGER CW_DIMS, NLEN
81	PARAMETER ( CW_DIMS = 10 )
82	PARAMETER ( NLEN = 80 )
83	INTEGER dim(CW_DIMS), ib(CW_DIMS), ie(CW_DIMS)
84	CHARACTER*(NLEN) dn(CW_DIMS)
85	CHARACTER*(NLEN) d_cw_name
86	CHARACTER*(NLEN) dn_blnk
87	#ifdef DIAG_MNC_COORD_NEEDSWORK
88	CHARACTER*(5) ctmp
89	_RS ztmp(NrMax)
90	#endif
91	REAL*8 misvalLoc
92	REAL*8 misval_r8(2)
93	REAL*4 misval_r4(2)
94	INTEGER misvalIntLoc, misval_int(2)
95	#endif /* ALLOW_MNC */
96
97	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
98
99	ioUnit= standardMessageUnit
100	undef = getcon('UNDEF')
101	WRITE(suff,'(I10.10)') myIter
102	ilen = ILNBLNK(fnames(listId))
103	WRITE( fn, '(A,A,A)' ) fnames(listId)(1:ilen),'.',suff(1:10)
104
105	#ifdef ALLOW_MNC
106	IF (useMNC .AND. diag_mnc) THEN
107	DO i = 1,MAX_LEN_FNAM
108	diag_mnc_bn(i:i) = ' '
109	ENDDO
110	DO i = 1,NLEN
111	dn_blnk(i:i) = ' '
112	ENDDO
113	WRITE( diag_mnc_bn, '(A)' ) fnames(listId)(1:ilen)
114
115	C Update the record dimension by writing the iteration number
116	CALL MNC_CW_SET_UDIM(diag_mnc_bn, -1, myThid)
117	CALL MNC_CW_RL_W_S('D',diag_mnc_bn,0,0,'T',myTime,myThid)
118	CALL MNC_CW_SET_UDIM(diag_mnc_bn, 0, myThid)
119	CALL MNC_CW_I_W_S('I',diag_mnc_bn,0,0,'iter',myIter,myThid)
120
121	C NOTE: at some point it would be a good idea to add a time_bounds
122	C variable that has dimension (2,T) and clearly denotes the
123	C beginning and ending times for each diagnostics period
124
125	dn(1)(1:NLEN) = dn_blnk(1:NLEN)
126	WRITE(dn(1),'(a,i6.6)') 'Zmd', nlevels(listId)
127	dim(1) = nlevels(listId)
128	ib(1) = 1
129	ie(1) = nlevels(listId)
130
131	CALL MNC_CW_ADD_GNAME('diag_levels', 1,
132	& dim, dn, ib, ie, myThid)
133	CALL MNC_CW_ADD_VNAME('diag_levels', 'diag_levels',
134	& 0,0, myThid)
135	CALL MNC_CW_ADD_VATTR_TEXT('diag_levels','description',
136	& 'Idicies of vertical levels within the source arrays',
137	& myThid)
138
139	CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0,
140	& 'diag_levels', levs(1,listId), myThid)
141
142	CALL MNC_CW_DEL_VNAME('diag_levels', myThid)
143	CALL MNC_CW_DEL_GNAME('diag_levels', myThid)
144
145	#ifdef DIAG_MNC_COORD_NEEDSWORK
146	C This part has been placed in an #ifdef because, as its currently
147	C written, it will only work with variables defined on a dynamics
148	C grid. As we start using diagnostics for physics grids, ice
149	C levels, land levels, etc. the different vertical coordinate
150	C dimensions will have to be taken into account.
151
152	C 20051021 JMC & EH3 : We need to extend this so that a few
153	C variables each defined on different grids do not have the same
154	C vertical dimension names so we should be using a pattern such
155	C as: Z[uml]td000000 where the 't' is the type as specified by
156	C gdiag(10)
157
158	C Now define: Zmdxxxxxx, Zudxxxxxx, Zldxxxxxx
159	ctmp(1:5) = 'mul '
160	DO i = 1,3
161	dn(1)(1:NLEN) = dn_blnk(1:NLEN)
162	WRITE(dn(1),'(3a,i6.6)') 'Z',ctmp(i:i),'d',nlevels(listId)
163	CALL MNC_CW_ADD_GNAME(dn(1), 1, dim, dn, ib, ie, myThid)
164	CALL MNC_CW_ADD_VNAME(dn(1), dn(1), 0,0, myThid)
165
166	C The following three ztmp() loops should eventually be modified
167	C to reflect the fractional nature of levs(j,l) -- they should
168	C do something like:
169	C ztmp(j) = rC(INT(FLOOR(levs(j,l))))
170	C + ( rC(INT(FLOOR(levs(j,l))))
171	C + rC(INT(CEIL(levs(j,l)))) )
172	C / ( levs(j,l) - FLOOR(levs(j,l)) )
173	C for averaged levels.
174	IF (i .EQ. 1) THEN
175	DO j = 1,nlevels(listId)
176	ztmp(j) = rC(NINT(levs(j,listId)))
177	ENDDO
178	CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
179	& 'Dimensional coordinate value at the mid point',
180	& myThid)
181	ELSEIF (i .EQ. 2) THEN
182	DO j = 1,nlevels(listId)
183	ztmp(j) = rF(NINT(levs(j,listId)) + 1)
184	ENDDO
185	CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
186	& 'Dimensional coordinate value at the upper point',
187	& myThid)
188	ELSEIF (i .EQ. 3) THEN
189	DO j = 1,nlevels(listId)
190	ztmp(j) = rF(NINT(levs(j,listId)))
191	ENDDO
192	CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description',
193	& 'Dimensional coordinate value at the lower point',
194	& myThid)
195	ENDIF
196	CALL MNC_CW_RS_W('D',diag_mnc_bn,0,0, dn(1), ztmp, myThid)
197	CALL MNC_CW_DEL_VNAME(dn(1), myThid)
198	CALL MNC_CW_DEL_GNAME(dn(1), myThid)
199	ENDDO
200	#endif /* DIAG_MNC_COORD_NEEDSWORK */
201
202	ENDIF
203	#endif /* ALLOW_MNC */
204
205	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
206
207	DO md = 1,nfields(listId)
208	ndId = jdiag(md,listId)
209	gcode = gdiag(ndId)(1:10)
210	mate = 0
211	mVec = 0
212	IF ( gcode(5:5).EQ.'C' ) THEN
213	C- Check for Mate of a Counter Diagnostic
214	mate = hdiag(ndId)
215	ELSEIF ( gcode(1:1).EQ.'U' .OR. gcode(1:1).EQ.'V' ) THEN
216	C- Check for Mate of a Vector Diagnostic
217	mVec = hdiag(ndId)
218	ENDIF
219	IF ( idiag(md,listId).NE.0 .AND. gcode(5:5).NE.'D' ) THEN
220	C-- Start processing 1 Fld :
221	DO lm=1,averageCycle(listId)
222
223	ip = ABS(idiag(md,listId)) + kdiag(ndId)*(lm-1)
224	im = mdiag(md,listId)
225	IF (mate.GT.0) im = im + kdiag(mate)*(lm-1)
226	IF (mVec.GT.0) im = im + kdiag(mVec)*(lm-1)
227
228	IF ( ndiag(ip,1,1).EQ.0 ) THEN
229	C- Empty diagnostics case :
230
231	_BEGIN_MASTER( myThid )
232	WRITE(msgBuf,'(A,I10)')
233	& '- WARNING - from DIAGNOSTICS_OUT at iter=', myIter
234	CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
235	& SQUEEZE_RIGHT, myThid)
236	WRITE(msgBuf,'(A,I6,3A,I4,2A)')
237	& '- WARNING - diag.#',ndId, ' : ',flds(md,listId),
238	& ' (#',md,' ) in outp.Stream: ',fnames(listId)
239	CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
240	& SQUEEZE_RIGHT, myThid)
241	IF ( averageCycle(listId).GT.1 ) THEN
242	WRITE(msgBuf,'(A,2(I3,A))')
243	& '- WARNING - has not been filled (ndiag(lm=',lm,')=',
244	& ndiag(ip,1,1), ' )'
245	ELSE
246	WRITE(msgBuf,'(A,2(I3,A))')
247	& '- WARNING - has not been filled (ndiag=',
248	& ndiag(ip,1,1), ' )'
249	ENDIF
250	CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
251	& SQUEEZE_RIGHT, myThid)
252	WRITE(msgBuf,'(A)')
253	& 'WARNING DIAGNOSTICS_OUT => write ZEROS instead'
254	CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
255	& SQUEEZE_RIGHT, myThid)
256	_END_MASTER( myThid )
257	DO bj = myByLo(myThid), myByHi(myThid)
258	DO bi = myBxLo(myThid), myBxHi(myThid)
259	DO k = 1,nlevels(listId)
260	DO j = 1-OLy,sNy+OLy
261	DO i = 1-OLx,sNx+OLx
262	qtmp1(i,j,k,bi,bj) = 0. _d 0
263	ENDDO
264	ENDDO
265	ENDDO
266	ENDDO
267	ENDDO
268
269	ELSE
270	C- diagnostics is not empty :
271
272	IF ( debugLevel.GE.debLevA .AND. myThid.EQ.1 ) THEN
273	WRITE(ioUnit,'(A,I6,3A,I8,2A)')
274	& ' Computing Diagnostic # ', ndId, ' ', cdiag(ndId),
275	& ' Counter:',ndiag(ip,1,1),' Parms: ',gdiag(ndId)
276	IF ( mate.GT.0 ) THEN
277	WRITE(ioUnit,'(3A,I6,2A)')
278	& ' use Counter Mate for ', cdiag(ndId),
279	& ' Diagnostic # ',mate, ' ', cdiag(mate)
280	ELSEIF ( mVec.GT.0 ) THEN
281	IF ( im.GT.0 .AND. ndiag(MAX(1,im),1,1).GT.0 ) THEN
282	WRITE(ioUnit,'(3A,I6,3A)')
283	& ' Vector Mate for ', cdiag(ndId),
284	& ' Diagnostic # ',mVec, ' ', cdiag(mVec),
285	& ' exists '
286	ELSE
287	WRITE(ioUnit,'(3A,I6,3A)')
288	& ' Vector Mate for ', cdiag(ndId),
289	& ' Diagnostic # ',mVec, ' ', cdiag(mVec),
290	& ' not enabled'
291	ENDIF
292	ENDIF
293	ENDIF
294
295	IF ( fflags(listId)(2:2).EQ.'P' ) THEN
296	C- get all the levels (for vertical interpolation)
297	DO bj = myByLo(myThid), myByHi(myThid)
298	DO bi = myBxLo(myThid), myBxHi(myThid)
299	DO k = 1,kdiag(ndId)
300	tmpLev = k
301	CALL GETDIAG(
302	I tmpLev,undef,
303	O qtmp1(1-OLx,1-OLy,k,bi,bj),
304	I ndId,mate,ip,im,bi,bj,myThid)
305	ENDDO
306	ENDDO
307	ENDDO
308	ELSE
309	C- get only selected levels:
310	DO bj = myByLo(myThid), myByHi(myThid)
311	DO bi = myBxLo(myThid), myBxHi(myThid)
312	DO k = 1,nlevels(listId)
313	CALL GETDIAG(
314	I levs(k,listId),undef,
315	O qtmp1(1-OLx,1-OLy,k,bi,bj),
316	I ndId,mate,ip,im,bi,bj,myThid)
317	ENDDO
318	ENDDO
319	ENDDO
320	ENDIF
321
322	C- end of empty diag / not empty block
323	ENDIF
324
325	C-----------------------------------------------------------------------
326	C Check to see if we need to interpolate before output
327	C-----------------------------------------------------------------------
328	IF ( fflags(listId)(2:2).EQ.'P' ) THEN
329	C- Do vertical interpolation:
330	IF ( fluidIsAir ) THEN
331	C jmc: for now, this can only work in an atmospheric set-up (fluidIsAir);
332	CALL DIAGNOSTICS_INTERP_VERT(
333	I listId, md, ndId, ip, im, lm,
334	U qtmp1,
335	I undef, myTime, myIter, myThid )
336	ELSE
337	WRITE(msgBuf,'(2A)') 'DIAGNOSTICS_OUT: ',
338	& 'INTERP_VERT not allowed in this config'
339	CALL PRINT_ERROR( msgBuf , myThid )
340	STOP 'ABNORMAL END: S/R DIAGNOSTICS_OUT'
341	ENDIF
342	ENDIF
343
344	C-- Ready to write field "md", element "lm" in averageCycle(listId)
345
346	C- write to binary file, using MDSIO pkg:
347	IF ( diag_mdsio ) THEN
348	nRec = lm + (md-1)*averageCycle(listId)
349	C default precision for output files
350	prec = writeBinaryPrec
351	C fFlag(1)=R(or D): force it to be 32-bit(or 64) precision
352	IF ( fflags(listId)(1:1).EQ.'R' ) prec = precFloat32
353	IF ( fflags(listId)(1:1).EQ.'D' ) prec = precFloat64
354	C a hack not to write meta files now: pass -nRec < 0 to MDS_WRITE S/R
355	CALL WRITE_REC_LEV_RL(
356	I fn, prec,
357	I NrMax, 1, nlevels(listId),
358	I qtmp1, -nRec, myIter, myThid )
359	ENDIF
360
361	#ifdef ALLOW_MNC
362	IF (useMNC .AND. diag_mnc) THEN
363
364	_BEGIN_MASTER( myThid )
365
366	DO ii = 1,CW_DIMS
367	d_cw_name(1:NLEN) = dn_blnk(1:NLEN)
368	dn(ii)(1:NLEN) = dn_blnk(1:NLEN)
369	ENDDO
370
371	C Note that the "d_cw_name" variable is a hack that hides a
372	C subtlety within MNC. Basically, each MNC-wrapped file is
373	C caching its own concept of what each "grid name" (that is, a
374	C dimension group name) means. So one cannot re-use the same
375	C "grid" name for different collections of dimensions within a
376	C given file. By appending the "ndId" values to each name, we
377	C guarantee uniqueness within each MNC-produced file.
378	WRITE(d_cw_name,'(a,i6.6)') 'd_cw_',ndId
379
380	C XY dimensions
381	dim(1) = sNx + 2*OLx
382	dim(2) = sNy + 2*OLy
383	ib(1) = OLx + 1
384	ib(2) = OLy + 1
385	IF (gdiag(ndId)(2:2) .EQ. 'M') THEN
386	dn(1)(1:2) = 'X'
387	ie(1) = OLx + sNx
388	dn(2)(1:2) = 'Y'
389	ie(2) = OLy + sNy
390	ELSEIF (gdiag(ndId)(2:2) .EQ. 'U') THEN
391	dn(1)(1:3) = 'Xp1'
392	ie(1) = OLx + sNx + 1
393	dn(2)(1:2) = 'Y'
394	ie(2) = OLy + sNy
395	ELSEIF (gdiag(ndId)(2:2) .EQ. 'V') THEN
396	dn(1)(1:2) = 'X'
397	ie(1) = OLx + sNx
398	dn(2)(1:3) = 'Yp1'
399	ie(2) = OLy + sNy + 1
400	ELSEIF (gdiag(ndId)(2:2) .EQ. 'Z') THEN
401	dn(1)(1:3) = 'Xp1'
402	ie(1) = OLx + sNx + 1
403	dn(2)(1:3) = 'Yp1'
404	ie(2) = OLy + sNy + 1
405	ENDIF
406
407	C Z is special since it varies
408	WRITE(dn(3),'(a,i6.6)') 'Zd', nlevels(listId)
409	IF ( (gdiag(ndId)(10:10) .EQ. 'R')
410	& .AND. (gdiag(ndId)(9:9) .EQ. 'M') ) THEN
411	WRITE(dn(3),'(a,i6.6)') 'Zmd', nlevels(listId)
412	ENDIF
413	IF ( (gdiag(ndId)(10:10) .EQ. 'R')
414	& .AND. (gdiag(ndId)(9:9) .EQ. 'L') ) THEN
415	WRITE(dn(3),'(a,i6.6)') 'Zld', nlevels(listId)
416	ENDIF
417	IF ( (gdiag(ndId)(10:10) .EQ. 'R')
418	& .AND. (gdiag(ndId)(9:9) .EQ. 'U') ) THEN
419	WRITE(dn(3),'(a,i6.6)') 'Zud', nlevels(listId)
420	ENDIF
421	dim(3) = NrMax
422	ib(3) = 1
423	ie(3) = nlevels(listId)
424
425	C Time dimension
426	dn(4)(1:1) = 'T'
427	dim(4) = -1
428	ib(4) = 1
429	ie(4) = 1
430
431	CALL MNC_CW_ADD_GNAME(d_cw_name, 4,
432	& dim, dn, ib, ie, myThid)
433	CALL MNC_CW_ADD_VNAME(cdiag(ndId), d_cw_name,
434	& 4,5, myThid)
435	CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'description',
436	& tdiag(ndId),myThid)
437	CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'units',
438	& udiag(ndId),myThid)
439
440	C Handle missing value attribute (land points)
441	IF ( misvalFlt(listId) .NE. UNSET_RL ) THEN
442	misvalLoc = misvalFlt(listId)
443	ELSE
444	misvalLoc = undef
445	ENDIF
446	C Defaults to UNSET_I
447	misvalIntLoc = misvalInt(listId)
448	DO ii=1,2
449	C misval_r4(ii) = UNSET_FLOAT4
450	C misval_r8(ii) = UNSET_FLOAT8
451	misval_r4(ii) = misvalLoc
452	misval_r8(ii) = misvalLoc
453	misval_int(ii) = UNSET_I
454	ENDDO
455	C Missing values only for scalar diagnostics at mass points (so far)
456	IF ( gdiag(ndId)(1:2) .EQ. 'SM' ) THEN
457	C assign missing values and set flag for adding the netCDF atttibute
458	CALL MNC_CW_VATTR_MISSING(cdiag(ndId), 2,
459	I misval_r8, misval_r4, misval_int,
460	I myThid )
461	C and now use the missing values for masking out the land points
462	DO bj = myByLo(myThid), myByHi(myThid)
463	DO bi = myBxLo(myThid), myBxHi(myThid)
464	DO k = 1,nlevels(listId)
465	klev = NINT(levs(k,listId))
466	DO j = 1-OLy,sNy+OLy
467	DO i = 1-OLx,sNx+OLx
468	IF ( _hFacC(I,J,klev,bi,bj) .EQ. 0. )
469	& qtmp1(i,j,k,bi,bj) = misvalLoc
470	ENDDO
471	ENDDO
472	ENDDO
473	ENDDO
474	ENDDO
475	ELSE
476	C suppress the missing value attribute (iflag = 0)
477	C Note: I have no idea, why we have to do this here, but if we do not
478	C do it, variables get the missing_value attribute (the one of the
479	C previous varable) that are not supposed to get one. These is something
480	C fishy with the flag array mnc_cw_vfmv.
481	CALL MNC_CW_VATTR_MISSING(cdiag(ndId), 0,
482	I misval_r8, misval_r4, misval_int,
483	I myThid )
484	ENDIF
485
486	IF ( ( (writeBinaryPrec .EQ. precFloat32)
487	& .AND. (fflags(listId)(1:1) .NE. 'D')
488	& .AND. (fflags(listId)(1:1) .NE. 'R') )
489	& .OR. (fflags(listId)(1:1) .EQ. 'R')) THEN
490	CALL MNC_CW_RL_W('R',diag_mnc_bn,0,0,
491	& cdiag(ndId), qtmp1, myThid)
492	ELSEIF ( (writeBinaryPrec .EQ. precFloat64)
493	& .OR. (fflags(listId)(1:1) .EQ. 'D') ) THEN
494	CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0,
495	& cdiag(ndId), qtmp1, myThid)
496	ENDIF
497
498	CALL MNC_CW_DEL_VNAME(cdiag(ndId), myThid)
499	CALL MNC_CW_DEL_GNAME(d_cw_name, myThid)
500
501	_END_MASTER( myThid )
502
503	ENDIF
504	#endif /* ALLOW_MNC */
505
506	ENDDO
507	C-- end of Processing Fld # md
508	ENDIF
509	ENDDO
510
511	#ifdef ALLOW_MDSIO
512	IF (diag_mdsio) THEN
513	C- Note: temporary: since it's a pain to add more arguments to
514	C all MDSIO S/R, uses instead this specific S/R to write only
515	C meta files but with more informations in it.
516	glf = globalFiles
517	nRec = nfields(listId)*averageCycle(listId)
518	CALL MDS_WR_METAFILES(fn, prec, glf, .FALSE.,
519	& 0, 0, nlevels(listId), ' ',
520	& nfields(listId), flds(1,listId), 1, myTime,
521	& nRec, myIter, myThid)
522	ENDIF
523	#endif /* ALLOW_MDSIO */
524
525	RETURN
526	END
527
528	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|