/[MITgcm]/MITgcm/pkg/diagnostics/diagnostics_utils.F

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-revision 1.2 by molod,
Thu Feb 26 02:21:18 2004 UTC
+revision 1.25 by jmc,
Tue Feb  5 15:31:19 2008 UTC
 Line 1
-       subroutine getdiag (lev,ipoint,bi,bj,undef,qtmp)
+ C $Header$
- C***********************************************************************
+ C $Name$
- C  PURPOSE
- C     Retrieve averaged model diagnostic
- C  INPUT:
- C     lev ..... Diagnostic LEVEL
- C  ipoint ..... DIAGNOSTIC NUMBER FROM MENU
- C   undef ..... UNDEFINED VALUE
- C      bi ..... X-direction process(or) number
- C      bj ..... Y-direction process(or) number
- C
- C  OUTPUT:
- C    qtmp ..... AVERAGED DIAGNOSTIC QUANTITY
- C
- C***********************************************************************
-       implicit none
- #include "CPP_OPTIONS.h"
+ #include "DIAG_OPTIONS.h"
- #include "SIZE.h"
- #include "fizhi_SIZE.h"
- #include "diagnostics_SIZE.h"
- #include "diagnostics.h"
-       integer bi,bj
-       integer lev,ipoint
-       integer i,j,ipnt,klev
-       _RL undef, factor
-       _RL qtmp(1-OLx:sNx+Olx,1-Oly:sNy+Oly,Nsx,Nsy)
-       do j = 1,sNy
-       do i = 1,sNx
-        qtmp(i,j,bi,bj) = undef
-       enddo
-       enddo
-       IF (IPOINT.LT.1) GO TO 999
-       KLEV = KDIAG(IPOINT)
-       IF(KLEV.GE.LEV) THEN
-       IPNT = IDIAG(IPOINT) + LEV - 1
-                                 FACTOR = 1.0
-       IF( NDIAG(IPOINT).NE.0 )  FACTOR = 1.0   / NDIAG(IPOINT)
-       do j = 1,sNy
-       do i = 1,sNx
-       if( qdiag(i,j,ipnt,bi,bj).ne.undef )
-      .     qtmp(i,j,bi,bj) = qdiag(i,j,ipnt,bi,bj)*factor
-       enddo
-       enddo
-       ENDIF
- RETURN
+ C--   File diagnostics_utils.F: General purpose support routines
-       END
+ C--    Contents:
+ C--    o GETDIAG
+ C--    o DIAGNOSTICS_COUNT
+ C--    o DIAGS_MK_UNITS (Function)
+ C--    o DIAGS_MK_TITLE (Function)
+ C--    o DIAGNOSTICS_GET_POINTERS
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+ CBOP 0
+ C     !ROUTINE: GETDIAG
+ C     !INTERFACE:
+       SUBROUTINE GETDIAG(
+      I                    levreal, undef,
+      O                    qtmp,
+      I                    ndId, mate, ip, im, bi, bj, myThid )
-       subroutine getdiag2 (lev,ipoint,bi,bj,undef,qtmp)
+ C     !DESCRIPTION:
- C***********************************************************************
+ C     Retrieve averaged model diagnostic
- C
- C  PURPOSE
- C     Retrieve model diagnostic (No Averaging)
- C  INPUT:
- C     lev ..... Model LEVEL
- C  ipoint ..... DIAGNOSTIC NUMBER FROM MENU
- C   undef ..... UNDEFINED VALUE
- C      im ..... X-DIMENSION
- C      jm ..... Y-DIMENSION
- C      nd ..... Number of 2-D Diagnostics
- C
- C  OUTPUT:
- C    qtmp ..... DIAGNOSTIC QUANTITY
- C
- C***********************************************************************
-       implicit none
- #include "CPP_OPTIONS.h"
+ C     !USES:
+       IMPLICIT NONE
+ #include "EEPARAMS.h"
  #include "SIZE.h"
- #include "fizhi_SIZE.h"
+ #include "DIAGNOSTICS_SIZE.h"
- #include "diagnostics_SIZE.h"
+ #include "DIAGNOSTICS.h"
- #include "diagnostics.h"
-       integer bi,bj
+ C     !INPUT PARAMETERS:
+ C     levreal :: Diagnostic LEVEL
-       integer lev,ipoint
+ C     undef   :: UNDEFINED VALUE
-       integer i,j,ipnt,klev
+ C     ndId    :: DIAGNOSTIC NUMBER FROM MENU
+ C     mate    :: counter DIAGNOSTIC NUMBER if any ; 0 otherwise
+ C     ip      :: pointer to storage array location for diag.
+ C     im      :: pointer to storage array location for mate
+ C     bi      :: X-direction tile number
+ C     bj      :: Y-direction tile number
+ C     myThid  :: my thread Id number
+       _RL levreal
        _RL undef
-       _RL qtmp(1-OLx:sNx+Olx,1-Oly:sNy+Oly,Nsx,Nsy)
+       INTEGER ndId, mate, ip, im
+       INTEGER bi,bj, myThid
+ C     !OUTPUT PARAMETERS:
+ C     qtmp    ..... AVERAGED DIAGNOSTIC QUANTITY
+       _RL qtmp(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+ CEOP
+ C     !LOCAL VARIABLES:
+       _RL factor
+       INTEGER i, j, ipnt,ipCt
+       INTEGER lev, levCt, klev
+       IF (ndId.GE.1) THEN
+        lev = NINT(levreal)
+        klev = kdiag(ndId)
+        IF (lev.LE.klev) THEN
+         IF ( mate.EQ.0 ) THEN
+ C-      No counter diagnostics => average = Sum / ndiag :
+           ipnt = ip + lev - 1
+           factor = FLOAT(ndiag(ip,bi,bj))
+           IF (ndiag(ip,bi,bj).NE.0) factor = 1. _d 0 / factor
+           DO j = 1,sNy+1
+             DO i = 1,sNx+1
+               IF ( qdiag(i,j,ipnt,bi,bj) .LE. undef ) THEN
+                 qtmp(i,j) = qdiag(i,j,ipnt,bi,bj)*factor
+               ELSE
+                 qtmp(i,j) = undef
+               ENDIF
+             ENDDO
+           ENDDO
+         ELSE
+ C-      With counter diagnostics => average = Sum / counter:
+           ipnt = ip + lev - 1
+           levCt= MIN(lev,kdiag(mate))
+           ipCt = im + levCt - 1
+           DO j = 1,sNy+1
+             DO i = 1,sNx+1
+               IF ( qdiag(i,j,ipCt,bi,bj) .NE. 0. ) THEN
+                 qtmp(i,j) = qdiag(i,j,ipnt,bi,bj)
+      &                    / qdiag(i,j,ipCt,bi,bj)
+               ELSE
+                 qtmp(i,j) = undef
+               ENDIF
+             ENDDO
+           ENDDO
-       do j = 1,sNy
+         ENDIF
-       do i = 1,sNx
+        ENDIF
-        qtmp(i,j,bi,bj) = undef
-       enddo
-       enddo
-       IF (IPOINT.LT.1) GO TO 999
-       KLEV = KDIAG(IPOINT)
-       IF(KLEV.GE.LEV) THEN
-       IPNT = IDIAG(IPOINT) + LEV - 1
-       do j = 1,sNy
-       do i = 1,sNx
-        qtmp(i,j,bi,bj) = qdiag(i,j,ipnt,bi,bj)
-       enddo
-       enddo
        ENDIF
- RETURN
+       RETURN
        END
-       subroutine clrindx (myThid,listnum)
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+ CBOP 0
+ C     !ROUTINE: DIAGNOSTICS_COUNT
+ C     !INTERFACE:
+       SUBROUTINE DIAGNOSTICS_COUNT (chardiag,
+      I                              biArg, bjArg, myThid)
+ C     !DESCRIPTION:
  C***********************************************************************
- C
+ C   routine to increment the diagnostic counter only
- C  PURPOSE
- C     DRIVER TO CLEAR DIAGNOSTICS SPECIFIED IN DIAGNOSTIC INDEX LIST
- C
- C  ARGUMENT DESCRIPTION
- C     listnum ....  diagnostics list number
- C
  C***********************************************************************
+ C     !USES:
+       IMPLICIT NONE
-       implicit none
+ C     == Global variables ===
  #include "EEPARAMS.h"
- #include "CPP_OPTIONS.h"
  #include "SIZE.h"
- #include "fizhi_SIZE.h"
+ #include "DIAGNOSTICS_SIZE.h"
- #include "diagnostics_SIZE.h"
+ #include "DIAGNOSTICS.h"
- #include "diagnostics.h"
+ C     !INPUT PARAMETERS:
-       integer myThid, listnum
+ C***********************************************************************
+ C  Arguments Description
-       integer m, n
+ C  ----------------------
-       character*8 parms1
+ C     chardiag :: Character expression for diag to increment the counter
-       character*1 parse1(8)
+ C     biArg    :: X-direction tile number, or 0 if called outside bi,bj loops
-       character*3 mate_index
+ C     bjArg    :: Y-direction tile number, or 0 if called outside bi,bj loops
-       integer mate
+ C     myThid   :: my thread Id number
+ C***********************************************************************
-       equivalence (     parms1 , parse1(1) )
+       CHARACTER*8 chardiag
-       equivalence ( mate_index , parse1(6) )
+       INTEGER biArg, bjArg
+       INTEGER myThid
-       do n=1,nfields(listnum)
+ CEOP
-        do m=1,ndiagt
-         if( flds(n,listnum).eq.cdiag(m) .and. idiag(m).ne.0 ) then
+ C     !LOCAL VARIABLES:
-          call clrdiag (myThid,m)
+ C ===============
+       INTEGER m, n
- c Check for Counter Diagnostic
+       INTEGER bi, bj
- c ----------------------------
+       INTEGER ipt
-          parms1 =  gdiag(m)
+ c     CHARACTER*(MAX_LEN_MBUF) msgBuf
-          if( parse1(5).eq.'C' ) then
-           read (mate_index,100) mate
+ C--   Run through list of active diagnostics to find which counter
-           call clrdiag (myThid,mate)
+ C     to increment (needs to be a valid & active diagnostic-counter)
-          endif
+       DO n=1,nlists
-         endif
+        DO m=1,nActive(n)
-        enddo
+         IF ( chardiag.EQ.flds(m,n) .AND. idiag(m,n).GT.0 ) THEN
-       enddo
+          ipt = idiag(m,n)
+          IF (ndiag(ipt,1,1).GE.0) THEN
-format(i3)
+ C-    Increment the counter for the diagnostic
-       RETURN
+           IF ( biArg.EQ.0 .AND. bjArg.EQ.0 ) THEN
-       END
+            DO bj=myByLo(myThid), myByHi(myThid)
+             DO bi=myBxLo(myThid), myBxHi(myThid)
+              ndiag(ipt,bi,bj) = ndiag(ipt,bi,bj) + 1
-       subroutine clrdiag (myThid,index)
+             ENDDO
- C***********************************************************************
+            ENDDO
- C  PURPOSE
+           ELSE
- C     ZERO OUT MODEL DIAGNOSTIC ARRAY ELEMENTS
+              bi = MIN(biArg,nSx)
- C***********************************************************************
+              bj = MIN(bjArg,nSy)
+              ndiag(ipt,bi,bj) = ndiag(ipt,bi,bj) + 1
-       implicit none
+           ENDIF
+ C-    Increment is done
+          ENDIF
+         ENDIF
+        ENDDO
+       ENDDO
+       RETURN
+       END
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+ CBOP 0
+ C     !ROUTINE: DIAGS_MK_UNITS
+ C     !INTERFACE:
+       CHARACTER*16 FUNCTION DIAGS_MK_UNITS(
+      I                            diagUnitsInPieces, myThid )
+ C     !DESCRIPTION:
+ C     *==========================================================*
+ C     | FUNCTION DIAGS_MK_UNITS
+ C     | o Return the diagnostic units string (16c) removing
+ C     |   blanks from the input string
+ C     *==========================================================*
+ C     !USES:
+       IMPLICIT NONE
  #include "EEPARAMS.h"
- #include "CPP_OPTIONS.h"
- #include "SIZE.h"
- #include "fizhi_SIZE.h"
- #include "diagnostics_SIZE.h"
- #include "diagnostics.h"
-       integer myThid, index
-       integer bi,bj
-       integer i,j,k
- C **********************************************************************
- C ****              SET DIAGNOSTIC AND COUNTER TO ZERO              ****
- C **********************************************************************
-       do bj=myByLo(myThid), myByHi(myThid)
-       do bi=myBxLo(myThid), myBxHi(myThid)
-        do k = 1,kdiag(index)
-         do j = 1,sNy
-         do i = 1,sNx
-          qdiag(i,j,idiag(index)+k-1,bi,bj) = 0.0
-         enddo
-         enddo
-        enddo
-       enddo
-       enddo
-       ndiag(index) = 0
+ C     !INPUT PARAMETERS:
+ C     diagUnitsInPieces :: string for diagnostic units: in several
+ C                          pieces, with blanks in between
+ C     myThid            ::  my thread Id number
+       CHARACTER*(*) diagUnitsInPieces
+       INTEGER      myThid
+ CEOP
+ C     !LOCAL VARIABLES:
+       CHARACTER*(MAX_LEN_MBUF) msgBuf
+       INTEGER i,j,n
+       DIAGS_MK_UNITS = '          '
+       n = LEN(diagUnitsInPieces)
+       j = 0
+       DO i=1,n
+        IF (diagUnitsInPieces(i:i) .NE. ' ' ) THEN
+          j = j+1
+          IF ( j.LE.16 ) DIAGS_MK_UNITS(j:j) = diagUnitsInPieces(i:i)
+        ENDIF
+       ENDDO
+       IF ( j.GT.16 ) THEN
+          WRITE(msgBuf,'(2A,I4,A)') '**WARNING** ',
+      &   'DIAGS_MK_UNITS: too long (',j,' >16) input string'
+         CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
+      &       SQUEEZE_RIGHT , myThid)
+          WRITE(msgBuf,'(3A)') '**WARNING** ',
+      &   'DIAGS_MK_UNITS: input=', diagUnitsInPieces
+         CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
+      &       SQUEEZE_RIGHT , myThid)
+       ENDIF
-       return
+       RETURN
-       end
+       END
-       subroutine setdiag (myThid,num,ndiagmx)
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
- C***********************************************************************
- C
- C  PURPOSE
- C     SET POINTER LOCATIONS, NAMES, LEVELS and TITLES FOR DIAGNOSTIC NUM
- C
- C***********************************************************************
-       implicit none
+ CBOP 0
- #include "CPP_OPTIONS.h"
+ C     !ROUTINE: DIAGS_MK_TITLE
- #include "SIZE.h"
- #include "fizhi_SIZE.h"
+ C     !INTERFACE:
- #include "diagnostics_SIZE.h"
+       CHARACTER*80 FUNCTION DIAGS_MK_TITLE(
- #include "diagnostics.h"
+      I                            diagTitleInPieces, myThid )
-       integer num,myThid,ndiagmx
+ C     !DESCRIPTION:
-       integer ipointer
+ C     *==========================================================*
+ C     | FUNCTION DIAGS_MK_TITLE
-       DATA IPOINTER / 1 /
+ C     | o Return the diagnostic title string (80c) removing
+ C     |   consecutive blanks from the input string
-       character*8 parms1
+ C     *==========================================================*
-       character*1 parse1(8)
-       character*3 mate_index
+ C     !USES:
-       integer     mate
+       IMPLICIT NONE
+ #include "EEPARAMS.h"
-       equivalence (     parms1 , parse1(1) )
-       equivalence ( mate_index , parse1(6) )
+ C     !INPUT PARAMETERS:
+ C     diagTitleInPieces :: string for diagnostic units: in several
- C **********************************************************************
+ C                          pieces, with blanks in between
- C ****                SET POINTERS FOR DIAGNOSTIC NUM               ****
+ C     myThid            ::  my Thread Id number
- C **********************************************************************
+       CHARACTER*(*) diagTitleInPieces
+       INTEGER      myThid
-       parms1 = gdiag(num)
+ CEOP
-       IF( IDIAG(NUM).EQ.0 ) THEN
+ C     !LOCAL VARIABLES:
-         if(ndiagmx+kdiag(num).gt.numdiags) then
+       CHARACTER*(MAX_LEN_MBUF) msgBuf
-           write(6,4000)num,cdiag(num)
+       LOGICAL flag
-         else
+       INTEGER i,j,n
-           IDIAG(NUM) = IPOINTER
-           IPOINTER   = IPOINTER + KDIAG(NUM)
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
-           ndiagmx    = ndiagmx  + KDIAG(NUM)
-           if(myThid.eq.0) WRITE(6,2000)KDIAG(NUM),NUM,CDIAG(NUM),ndiagmx
+       DIAGS_MK_TITLE = '                                        '
-         endif
+      &               //'                                        '
-       ELSE
+       n = LEN(diagTitleInPieces)
-           if(myThid.eq.0) WRITE(6,3000) NUM, CDIAG(NUM)
+       j = 0
+       flag = .FALSE.
+       DO i=1,n
+        IF (diagTitleInPieces(i:i) .NE. ' ' ) THEN
+          IF ( flag ) THEN
+            j = j+1
+            IF (j.LE.80) DIAGS_MK_TITLE(j:j) = ' '
+          ENDIF
+          j = j+1
+          IF ( j.LE.80 ) DIAGS_MK_TITLE(j:j) = diagTitleInPieces(i:i)
+          flag = .FALSE.
+        ELSE
+          flag = j.GE.1
+        ENDIF
+       ENDDO
+       IF ( j.GT.80 ) THEN
+          WRITE(msgBuf,'(2A,I4,A)') '**WARNING** ',
+      &   'DIAGS_MK_TITLE: too long (',j,' >80) input string'
+         CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
+      &       SQUEEZE_RIGHT , myThid)
+          WRITE(msgBuf,'(3A)') '**WARNING** ',
+      &   'DIAGS_MK_TITLE: input=', diagTitleInPieces
+         CALL PRINT_MESSAGE( msgBuf, errorMessageUnit,
+      &       SQUEEZE_RIGHT , myThid)
        ENDIF
- c Check for Counter Diagnostic
+       RETURN
- c ----------------------------
+       END
-       if( parse1(5).eq.'C') then
-       read (mate_index,100) mate
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
-       IF( IDIAG(mate).EQ.0 ) THEN
+ CBOP 0
-        if(ndiagmx+kdiag(num).gt.numdiags) then
+ C     !ROUTINE: DIAGNOSTICS_GET_POINTERS
-         write(6,5000)num,cdiag(num)
+ C     !INTERFACE:
-        else
+       SUBROUTINE DIAGNOSTICS_GET_POINTERS(
-         IDIAG(mate) = IPOINTER
+      I                       diagName, listId,
-         IPOINTER    = IPOINTER + KDIAG(mate)
+      O                       ndId, ip,
-         ndiagmx     = ndiagmx  + KDIAG(mate)
+      I                       myThid )
-         if(myThid.eq.0)WRITE(6,2000)KDIAG(mate),mate,CDIAG(mate),ndiagmx
-        endif
+ C     !DESCRIPTION:
+ C     *================================================================*
+ C     | o Returns the diagnostic Id number and diagnostic
+ C     |   pointer to storage array for a specified diagnostic.
+ C     *================================================================*
+ C     | Note: A diagnostics field can be stored multiple times
+ C     |       (for different output frequency,phase, ...).
+ C     | operates in 2 ways:
+ C     | o listId =0 => find 1 diagnostics Id & pointer which name matches.
+ C     | o listId >0 => find the unique diagnostic Id & pointer with
+ C     |      the right name and same output time as "listId" output-list
+ C     | o return ip=0 if did not find the right diagnostic;
+ C     |   (ndId <>0 if diagnostic exist but output time does not match)
+ C     *================================================================*
+ C     !USES:
+       IMPLICIT NONE
+ #include "EEPARAMS.h"
+ #include "SIZE.h"
+ #include "DIAGNOSTICS_SIZE.h"
+ #include "DIAGNOSTICS.h"
+ C     !INPUT PARAMETERS:
+ C     diagName :: diagnostic identificator name (8 characters long)
+ C     listId   :: list number that specify the output frequency
+ C     myThid   :: my Thread Id number
+ C     !OUTPUT PARAMETERS:
+ C     ndId     :: diagnostics  Id number (in available diagnostics list)
+ C     ip       :: diagnostics  pointer to storage array
+       CHARACTER*8 diagName
+       INTEGER listId
+       INTEGER ndId, ip
+       INTEGER myThid
+ CEOP
+ C     !LOCAL VARIABLES:
+       INTEGER n,m
+       ip   = 0
+       ndId = 0
+       IF ( listId.LE.0 ) THEN
+ C--   select the 1rst one which name matches:
+ C-    search for this diag. in the active 2D/3D diagnostics list
+         DO n=1,nlists
+          DO m=1,nActive(n)
+            IF ( ip.EQ.0 .AND. diagName.EQ.flds(m,n)
+      &                  .AND. idiag(m,n).NE.0 ) THEN
+             ip   = ABS(idiag(m,n))
+             ndId = jdiag(m,n)
+            ENDIF
+          ENDDO
+         ENDDO
+       ELSEIF ( listId.LE.nlists ) THEN
+ C--   select the unique diagnostic with output-time identical to listId
+ C-    search for this diag. in the active 2D/3D diagnostics list
+         DO n=1,nlists
+          IF ( ip.EQ.0
+      &        .AND. freq(n) .EQ. freq(listId)
+      &        .AND. phase(n).EQ.phase(listId)
+      &        .AND. averageFreq(n) .EQ.averageFreq(listId)
+      &        .AND. averagePhase(n).EQ.averagePhase(listId)
+      &        .AND. averageCycle(n).EQ.averageCycle(listId)
+      &      ) THEN
+           DO m=1,nActive(n)
+            IF ( ip.EQ.0 .AND. diagName.EQ.flds(m,n)
+      &                  .AND. idiag(m,n).NE.0 ) THEN
+             ip   = ABS(idiag(m,n))
+             ndId = jdiag(m,n)
+            ENDIF
+           ENDDO
+          ELSEIF ( ip.EQ.0 ) THEN
+           DO m=1,nActive(n)
+            IF ( ip.EQ.0 .AND. diagName.EQ.flds(m,n)
+      &                  .AND. idiag(m,n).NE.0 ) THEN
+             ndId = jdiag(m,n)
+            ENDIF
+           ENDDO
+          ENDIF
+         ENDDO
        ELSE
-           if(myThid.eq.0) WRITE(6,3000) mate, CDIAG(mate)
+         STOP 'DIAGNOSTICS_GET_POINTERS: invalid listId number'
        ENDIF
-       endif
        RETURN
-format(i3)
-FORMAT(1X,'Allocating ',I2,' Level(s) for Diagnostic # ',I3,
-      .          ' (',A8,'),  Total Number of Diagnostics: ',I5)
-FORMAT(1X,'Diagnostic # ',I3,' (',A8,') has already been set')
-FORMAT(1X,'Unable to allocate space for Diagnostic # ',I3,
-      .                      ' (',A8,')')
-FORMAT(1X,'Unable to allocate space for Counter Diagnostic # ',
-      .    I3,' (',A8,')',' WARNING - Diag will not accumulate properly')
        END

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Added in v.1.25
 Legend:



Removed from v.1.2
 


changed lines


 
Added in v.1.25
-Removed from v.1.2
+Added in v.1.25

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