/[MITgcm]/MITgcm/pkg/mom_vecinv/mom_vecinv.F

Diff of /MITgcm/pkg/mom_vecinv/mom_vecinv.F

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-revision 1.9 by heimbach,
Sun Oct 26 01:01:23 2003 UTC
+revision 1.34 by baylor,
Thu Mar 10 02:39:56 2005 UTC
 Line 1
  C $Header$
  C $Name$
- #include "CPP_OPTIONS.h"
+ #include "MOM_VECINV_OPTIONS.h"
        SUBROUTINE MOM_VECINV(
       I        bi,bj,iMin,iMax,jMin,jMax,k,kUp,kDown,
       I        dPhiHydX,dPhiHydY,KappaRU,KappaRV,
       U        fVerU, fVerV,
-      I        myCurrentTime, myIter, myThid)
+      O        guDiss, gvDiss,
+      I        myTime, myIter, myThid)
  C     /==========================================================\
  C     | S/R MOM_VECINV                                           |
  C     | o Form the right hand-side of the momentum equation.     |
-Line 30 
 C     == Global variables ==
+Line 31 
 C     == Global variables ==
  #include "DYNVARS.h"
  #include "EEPARAMS.h"
  #include "PARAMS.h"
+ #ifdef ALLOW_MNC
+ #include "MNC_PARAMS.h"
+ #endif
  #include "GRID.h"
  #ifdef ALLOW_TIMEAVE
  #include "TIMEAVE_STATV.h"
  #endif
  C     == Routine arguments ==
- C     fVerU   - Flux of momentum in the vertical
+ C     fVerU  :: Flux of momentum in the vertical direction, out of the upper
- C     fVerV     direction out of the upper face of a cell K
+ C     fVerV  :: face of a cell K ( flux into the cell above ).
- C               ( flux into the cell above ).
  C     dPhiHydX,Y :: Gradient (X & Y dir.) of Hydrostatic Potential
+ C     guDiss :: dissipation tendency (all explicit terms), u component
+ C     gvDiss :: dissipation tendency (all explicit terms), v component
  C     bi, bj, iMin, iMax, jMin, jMax - Range of points for which calculation
  C                                      results will be set.
  C     kUp, kDown                     - Index for upper and lower layers.
-Line 50 
 C     myThid - Instance number for this
+Line 55 
 C     myThid - Instance number for this
        _RL KappaRV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
        _RL fVerU(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
        _RL fVerV(1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
+       _RL guDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL gvDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        INTEGER kUp,kDown
-       _RL     myCurrentTime
+       _RL     myTime
        INTEGER myIter
        INTEGER myThid
        INTEGER bi,bj,iMin,iMax,jMin,jMax
- #ifndef DISABLE_MOM_VECINV
+ #ifdef ALLOW_MOM_VECINV
  C     == Functions ==
        LOGICAL  DIFFERENT_MULTIPLE
        EXTERNAL DIFFERENT_MULTIPLE
  C     == Local variables ==
-       _RL      aF (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL      vF (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL      vrF (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL      uCf (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL      vCf (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL      mT (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+ c     _RL      mT (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL      pF (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL del2u(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL del2v(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL tension(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL strain(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RS hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RS r_hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RS xA(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RS yA(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL uFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL vFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL dStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL zStar(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL uDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL vDiss(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
  C     I,J,K - Loop counters
        INTEGER i,j,k
- C     rVelMaskOverride - Factor for imposing special surface boundary conditions
- C                        ( set according to free-surface condition ).
- C     hFacROpen        - Lopped cell factos used tohold fraction of open
- C     hFacRClosed        and closed cell wall.
-       _RL  rVelMaskOverride
  C     xxxFac - On-off tracer parameters used for switching terms off.
-       _RL  uDudxFac
-       _RL  AhDudxFac
-       _RL  A4DuxxdxFac
-       _RL  vDudyFac
-       _RL  AhDudyFac
-       _RL  A4DuyydyFac
-       _RL  rVelDudrFac
        _RL  ArDudrFac
-       _RL  fuFac
        _RL  phxFac
-       _RL  mtFacU
+ c     _RL  mtFacU
-       _RL  uDvdxFac
-       _RL  AhDvdxFac
-       _RL  A4DvxxdxFac
-       _RL  vDvdyFac
-       _RL  AhDvdyFac
-       _RL  A4DvyydyFac
-       _RL  rVelDvdrFac
        _RL  ArDvdrFac
-       _RL  fvFac
        _RL  phyFac
-       _RL  vForcFac
+ c     _RL  mtFacV
-       _RL  mtFacV
-       _RL wVelBottomOverride
        LOGICAL bottomDragTerms
+       LOGICAL writeDiag
        _RL KE(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL omega3(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL vort3(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL hDiv(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+ #ifdef ALLOW_MNC
+       INTEGER offsets(9)
+ #endif
  #ifdef ALLOW_AUTODIFF_TAMC
  C--   only the kDown part of fverU/V is set in this subroutine
  C--   the kUp is still required
-Line 131 
 C--   (at least in part)
+Line 114 
 C--   (at least in part)
        fVerV(1,1,kUp) = fVerV(1,1,kUp)
  #endif
-       rVelMaskOverride=1.
+       writeDiag = DIFFERENT_MULTIPLE(diagFreq, myTime,
-       IF ( k .EQ. 1 ) rVelMaskOverride=freeSurfFac
+      &                                         myTime-deltaTClock)
-       wVelBottomOverride=1.
-       IF (k.EQ.Nr) wVelBottomOverride=0.
+ #ifdef ALLOW_MNC
+       IF (useMNC .AND. snapshot_mnc .AND. writeDiag) THEN
+         IF ((bi .EQ. 1).AND.(bj .EQ. 1).AND.(k .EQ. 1)) THEN
+           CALL MNC_CW_SET_UDIM('mom_vi', -1, myThid)
+           CALL MNC_CW_I_W_S('I','mom_vi',0,0,'T',myIter,myThid)
+           CALL MNC_CW_SET_UDIM('mom_vi', 0, myThid)
+         ENDIF
+         DO i = 1,9
+           offsets(i) = 0
+         ENDDO
+         offsets(3) = k
+ C       write(*,*) 'offsets = ',(offsets(i),i=1,9)
+       ENDIF
+ #endif /*  ALLOW_MNC  */
  C     Initialise intermediate terms
        DO J=1-OLy,sNy+OLy
         DO I=1-OLx,sNx+OLx
-         aF(i,j)   = 0.
+         vF(i,j)    = 0.
-         vF(i,j)   = 0.
+         vrF(i,j)   = 0.
-         vrF(i,j)  = 0.
          uCf(i,j)   = 0.
          vCf(i,j)   = 0.
-         mT(i,j)   = 0.
+ c       mT(i,j)    = 0.
-         pF(i,j)   = 0.
          del2u(i,j) = 0.
          del2v(i,j) = 0.
          dStar(i,j) = 0.
          zStar(i,j) = 0.
-         uDiss(i,j) = 0.
+         guDiss(i,j)= 0.
-         vDiss(i,j) = 0.
+         gvDiss(i,j)= 0.
          vort3(i,j) = 0.
-         omega3(i,j) = 0.
+         omega3(i,j)= 0.
-         ke(i,j) = 0.
+         ke(i,j)    = 0.
  #ifdef ALLOW_AUTODIFF_TAMC
          strain(i,j)  = 0. _d 0
          tension(i,j) = 0. _d 0
-Line 164 
 C     Initialise intermediate terms
+Line 158 
 C     Initialise intermediate terms
  C--   Term by term tracer parmeters
  C     o U momentum equation
-       uDudxFac     = afFacMom*1.
-       AhDudxFac    = vfFacMom*1.
-       A4DuxxdxFac  = vfFacMom*1.
-       vDudyFac     = afFacMom*1.
-       AhDudyFac    = vfFacMom*1.
-       A4DuyydyFac  = vfFacMom*1.
-       rVelDudrFac  = afFacMom*1.
        ArDudrFac    = vfFacMom*1.
-       mTFacU       = mtFacMom*1.
+ c     mTFacU       = mtFacMom*1.
-       fuFac        = cfFacMom*1.
        phxFac       = pfFacMom*1.
  C     o V momentum equation
-       uDvdxFac     = afFacMom*1.
-       AhDvdxFac    = vfFacMom*1.
-       A4DvxxdxFac  = vfFacMom*1.
-       vDvdyFac     = afFacMom*1.
-       AhDvdyFac    = vfFacMom*1.
-       A4DvyydyFac  = vfFacMom*1.
-       rVelDvdrFac  = afFacMom*1.
        ArDvdrFac    = vfFacMom*1.
-       mTFacV       = mtFacMom*1.
+ c     mTFacV       = mtFacMom*1.
-       fvFac        = cfFacMom*1.
        phyFac       = pfFacMom*1.
-       vForcFac     = foFacMom*1.
        IF (     no_slip_bottom
       &    .OR. bottomDragQuadratic.NE.0.
-Line 206 
 C-- with stagger time stepping, grad Phi
+Line 183 
 C-- with stagger time stepping, grad Phi
  C--   Calculate open water fraction at vorticity points
        CALL MOM_CALC_HFACZ(bi,bj,k,hFacZ,r_hFacZ,myThid)
- C---- Calculate common quantities used in both U and V equations
- C     Calculate tracer cell face open areas
-       DO j=1-OLy,sNy+OLy
-        DO i=1-OLx,sNx+OLx
-         xA(i,j) = _dyG(i,j,bi,bj)
-      &   *drF(k)*_hFacW(i,j,k,bi,bj)
-         yA(i,j) = _dxG(i,j,bi,bj)
-      &   *drF(k)*_hFacS(i,j,k,bi,bj)
-        ENDDO
-       ENDDO
  C     Make local copies of horizontal flow field
        DO j=1-OLy,sNy+OLy
         DO i=1-OLx,sNx+OLx
-Line 229 
 C note (jmc) : Dissipation and Vort3 adv
+Line 195 
 C note (jmc) : Dissipation and Vort3 adv
  C              use the same maskZ (and hFacZ)  => needs 2 call(s)
  c     CALL MOM_VI_HFACZ_DISS(bi,bj,k,hFacZ,r_hFacZ,myThid)
-       CALL MOM_VI_CALC_KE(bi,bj,k,uFld,vFld,KE,myThid)
+       CALL MOM_CALC_KE(bi,bj,k,2,uFld,vFld,KE,myThid)
-       CALL MOM_VI_CALC_HDIV(bi,bj,k,uFld,vFld,hDiv,myThid)
+       CALL MOM_CALC_HDIV(bi,bj,k,2,uFld,vFld,hDiv,myThid)
-       CALL MOM_VI_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid)
+       CALL MOM_CALC_RELVORT3(bi,bj,k,uFld,vFld,hFacZ,vort3,myThid)
- c     CALL MOM_VI_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid)
+       IF (useAbsVorticity)
+      & CALL MOM_CALC_ABSVORT3(bi,bj,k,vort3,omega3,myThid)
        IF (momViscosity) THEN
  C      Calculate del^2 u and del^2 v for bi-harmonic term
-        IF (viscA4.NE.0.) THEN
+        IF ( (viscA4.NE.0. .AND. no_slip_sides)
+      &     .OR. viscA4D.NE.0. .OR. viscA4Z.NE.0.
+      &     .OR. viscA4Grid.NE.0.
+      &     .OR. viscC4leith.NE.0.
+      &     .OR. viscC4leithD.NE.0.
+      &    ) THEN
           CALL MOM_VI_DEL2UV(bi,bj,k,hDiv,vort3,hFacZ,
       O                      del2u,del2v,
       &                      myThid)
-          CALL MOM_VI_CALC_HDIV(bi,bj,k,del2u,del2v,dStar,myThid)
+          CALL MOM_CALC_HDIV(bi,bj,k,2,del2u,del2v,dStar,myThid)
-          CALL MOM_VI_CALC_RELVORT3(
+          CALL MOM_CALC_RELVORT3(
       &                         bi,bj,k,del2u,del2v,hFacZ,zStar,myThid)
         ENDIF
  C      Calculate dissipation terms for U and V equations
  C      in terms of vorticity and divergence
-        IF (viscAh.NE.0. .OR. viscA4.NE.0.) THEN
+        IF (    viscAhD.NE.0. .OR. viscAhZ.NE.0.
+      &    .OR. viscA4D.NE.0. .OR. viscA4Z.NE.0.
+      &    .OR. viscAhGrid.NE.0. .OR. viscA4Grid.NE.0.
+      &    .OR. viscC2leith.NE.0. .OR. viscC4leith.NE.0.
+      &    .OR. viscC2leithD.NE.0. .OR. viscC4leithD.NE.0.
+      &    ) THEN
           CALL MOM_VI_HDISSIP(bi,bj,k,hDiv,vort3,hFacZ,dStar,zStar,
-      O                       uDiss,vDiss,
+      O                       guDiss,gvDiss,
       &                       myThid)
         ENDIF
  C      or in terms of tension and strain
-Line 264 
 C      or in terms of tension and strain
+Line 241 
 C      or in terms of tension and strain
       I                        myThid)
           CALL MOM_HDISSIP(bi,bj,k,
       I                    tension,strain,hFacZ,viscAtension,viscAstrain,
-      O                    uDiss,vDiss,
+      O                    guDiss,gvDiss,
       I                    myThid)
         ENDIF
        ENDIF
-Line 277 
 C---- Zonal momentum equation starts her
+Line 254 
 C---- Zonal momentum equation starts her
  C--   Vertical flux (fVer is at upper face of "u" cell)
  C     Eddy component of vertical flux (interior component only) -> vrF
-       IF (momViscosity.AND..NOT.implicitViscosity)
+       IF (momViscosity.AND..NOT.implicitViscosity) THEN
-      & CALL MOM_U_RVISCFLUX(bi,bj,k,uVel,KappaRU,vrF,myThid)
+        CALL MOM_U_RVISCFLUX(bi,bj,k,uVel,KappaRU,vrF,myThid)
  C     Combine fluxes
-       DO j=jMin,jMax
+        DO j=jMin,jMax
-        DO i=iMin,iMax
+         DO i=iMin,iMax
-         fVerU(i,j,kDown) = ArDudrFac*vrF(i,j)
+          fVerU(i,j,kDown) = ArDudrFac*vrF(i,j)
+         ENDDO
         ENDDO
-       ENDDO
- C--   Tendency is minus divergence of the fluxes + coriolis + pressure term
+ C--   Tendency is minus divergence of the fluxes
-       DO j=2-Oly,sNy+Oly-1
+        DO j=2-Oly,sNy+Oly-1
-        DO i=2-Olx,sNx+Olx-1
+         DO i=2-Olx,sNx+Olx-1
-         gU(i,j,k,bi,bj) = uDiss(i,j)
+          guDiss(i,j) = guDiss(i,j)
       &   -_recip_hFacW(i,j,k,bi,bj)*recip_drF(k)
       &   *recip_rAw(i,j,bi,bj)
       &  *(
       &   +fVerU(i,j,kUp)*rkFac - fVerU(i,j,kDown)*rkFac
       &   )
-      &  - phxFac*dPhiHydX(i,j)
+         ENDDO
         ENDDO
-       ENDDO
+       ENDIF
  C-- No-slip and drag BCs appear as body forces in cell abutting topography
        IF (momViscosity.AND.no_slip_sides) THEN
-Line 306 
 C-     No-slip BCs impose a drag at wall
+Line 283 
 C-     No-slip BCs impose a drag at wall
         CALL MOM_U_SIDEDRAG(bi,bj,k,uFld,del2u,hFacZ,vF,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-          gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+vF(i,j)
+          guDiss(i,j) = guDiss(i,j)+vF(i,j)
          ENDDO
         ENDDO
        ENDIF
-Line 316 
 C-    No-slip BCs impose a drag at botto
+Line 293 
 C-    No-slip BCs impose a drag at botto
         CALL MOM_U_BOTTOMDRAG(bi,bj,k,uFld,KE,KappaRU,vF,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-          gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+vF(i,j)
+          guDiss(i,j) = guDiss(i,j)+vF(i,j)
          ENDDO
         ENDDO
        ENDIF
-Line 337 
 C---- Meridional momentum equation start
+Line 314 
 C---- Meridional momentum equation start
  C--   Vertical flux (fVer is at upper face of "v" cell)
  C     Eddy component of vertical flux (interior component only) -> vrF
-       IF (momViscosity.AND..NOT.implicitViscosity)
+       IF (momViscosity.AND..NOT.implicitViscosity) THEN
-      & CALL MOM_V_RVISCFLUX(bi,bj,k,vVel,KappaRV,vrf,myThid)
+        CALL MOM_V_RVISCFLUX(bi,bj,k,vVel,KappaRV,vrf,myThid)
  C     Combine fluxes -> fVerV
-       DO j=jMin,jMax
+        DO j=jMin,jMax
-        DO i=iMin,iMax
+         DO i=iMin,iMax
-         fVerV(i,j,kDown) = ArDvdrFac*vrF(i,j)
+          fVerV(i,j,kDown) = ArDvdrFac*vrF(i,j)
+         ENDDO
         ENDDO
-       ENDDO
- C--   Tendency is minus divergence of the fluxes + coriolis + pressure term
+ C--   Tendency is minus divergence of the fluxes
-       DO j=jMin,jMax
+        DO j=jMin,jMax
-        DO i=iMin,iMax
+         DO i=iMin,iMax
-         gV(i,j,k,bi,bj) = vDiss(i,j)
+          gvDiss(i,j) = gvDiss(i,j)
       &   -_recip_hFacS(i,j,k,bi,bj)*recip_drF(k)
       &    *recip_rAs(i,j,bi,bj)
       &  *(
       &   +fVerV(i,j,kUp)*rkFac - fVerV(i,j,kDown)*rkFac
       &   )
-      &  - phyFac*dPhiHydY(i,j)
+         ENDDO
         ENDDO
-       ENDDO
+       ENDIF
  C-- No-slip and drag BCs appear as body forces in cell abutting topography
        IF (momViscosity.AND.no_slip_sides) THEN
-Line 366 
 C-     No-slip BCs impose a drag at wall
+Line 343 
 C-     No-slip BCs impose a drag at wall
         CALL MOM_V_SIDEDRAG(bi,bj,k,vFld,del2v,hFacZ,vF,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-          gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vF(i,j)
+          gvDiss(i,j) = gvDiss(i,j)+vF(i,j)
          ENDDO
         ENDDO
        ENDIF
-Line 375 
 C-    No-slip BCs impose a drag at botto
+Line 352 
 C-    No-slip BCs impose a drag at botto
         CALL MOM_V_BOTTOMDRAG(bi,bj,k,vFld,KE,KappaRV,vF,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-          gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vF(i,j)
+          gvDiss(i,j) = gvDiss(i,j)+vF(i,j)
          ENDDO
         ENDDO
        ENDIF
-Line 392 
 c      ENDDO
+Line 369 
 c      ENDDO
  c     ENDIF
  C--   Horizontal Coriolis terms
-       IF (useCoriolis .AND. .NOT.useCDscheme) THEN
+       IF (useCoriolis .AND. .NOT.useCDscheme
-        CALL MOM_VI_CORIOLIS(bi,bj,k,uFld,vFld,omega3,hFacZ,r_hFacZ,
+      &    .AND. .NOT. useAbsVorticity) THEN
+        CALL MOM_VI_CORIOLIS(bi,bj,k,uFld,vFld,hFacZ,r_hFacZ,
       &                      uCf,vCf,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-          gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j)
+          gU(i,j,k,bi,bj) = uCf(i,j) - phxFac*dPhiHydX(i,j)
-          gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j)
+          gV(i,j,k,bi,bj) = vCf(i,j) - phyFac*dPhiHydY(i,j)
+         ENDDO
+        ENDDO
+        IF ( writeDiag ) THEN
+          IF (snapshot_mdsio) THEN
+            CALL WRITE_LOCAL_RL('fV','I10',1,uCf,bi,bj,k,myIter,myThid)
+            CALL WRITE_LOCAL_RL('fU','I10',1,vCf,bi,bj,k,myIter,myThid)
+          ENDIF
+ #ifdef ALLOW_MNC
+          IF (useMNC .AND. snapshot_mnc) THEN
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fV', uCf,
+      &          offsets, myThid)
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'fU', vCf,
+      &          offsets, myThid)
+          ENDIF
+ #endif /*  ALLOW_MNC  */
+        ENDIF
+       ELSE
+        DO j=jMin,jMax
+         DO i=iMin,iMax
+          gU(i,j,k,bi,bj) = -phxFac*dPhiHydX(i,j)
+          gV(i,j,k,bi,bj) = -phyFac*dPhiHydY(i,j)
          ENDDO
         ENDDO
        ENDIF
        IF (momAdvection) THEN
  C--   Horizontal advection of relative vorticity
- c      CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,r_hFacZ,uCf,myThid)
+        IF (useAbsVorticity) THEN
-        CALL MOM_VI_U_CORIOLIS(bi,bj,k,vFld,vort3,hFacZ,r_hFacZ,
+         CALL MOM_VI_U_CORIOLIS(bi,bj,K,vFld,omega3,hFacZ,r_hFacZ,
-      &                        uCf,myThid)
+      &                         uCf,myThid)
+        ELSE
+         CALL MOM_VI_U_CORIOLIS(bi,bj,k,vFld,vort3,hFacZ,r_hFacZ,
+      &                         uCf,myThid)
+        ENDIF
  c      CALL MOM_VI_U_CORIOLIS_C4(bi,bj,K,vFld,vort3,r_hFacZ,uCf,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
           gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j)
          ENDDO
         ENDDO
- c      CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,r_hFacZ,vCf,myThid)
+        IF (useAbsVorticity) THEN
-        CALL MOM_VI_V_CORIOLIS(bi,bj,k,uFld,vort3,hFacZ,r_hFacZ,
+         CALL MOM_VI_V_CORIOLIS(bi,bj,K,uFld,omega3,hFacZ,r_hFacZ,
-      &                        vCf,myThid)
+      &                         vCf,myThid)
+        ELSE
+         CALL MOM_VI_V_CORIOLIS(bi,bj,k,uFld,vort3,hFacZ,r_hFacZ,
+      &                         vCf,myThid)
+        ENDIF
  c      CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K,uFld,vort3,r_hFacZ,vCf,myThid)
         DO j=jMin,jMax
          DO i=iMin,iMax
-Line 424 
 c      CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K
+Line 431 
 c      CALL MOM_VI_V_CORIOLIS_C4(bi,bj,K
          ENDDO
         ENDDO
+        IF ( writeDiag ) THEN
+          IF (snapshot_mdsio) THEN
+            CALL WRITE_LOCAL_RL('zV','I10',1,uCf,bi,bj,k,myIter,myThid)
+            CALL WRITE_LOCAL_RL('zU','I10',1,vCf,bi,bj,k,myIter,myThid)
+          ENDIF
+ #ifdef ALLOW_MNC
+          IF (useMNC .AND. snapshot_mnc) THEN
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zV', uCf,
+      &          offsets, myThid)
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'zU', vCf,
+      &          offsets, myThid)
+          ENDIF
+ #endif /*  ALLOW_MNC  */
+        ENDIF
  #ifdef ALLOW_TIMEAVE
+ #ifndef MINIMAL_TAVE_OUTPUT
         IF (taveFreq.GT.0.) THEN
           CALL TIMEAVE_CUMUL_1K1T(uZetatave,vCf,deltaTClock,
       &                           Nr, k, bi, bj, myThid)
           CALL TIMEAVE_CUMUL_1K1T(vZetatave,uCf,deltaTClock,
       &                           Nr, k, bi, bj, myThid)
         ENDIF
- #endif
+ #endif /* ndef MINIMAL_TAVE_OUTPUT */
+ #endif /* ALLOW_TIMEAVE */
  C--   Vertical shear terms (-w*du/dr & -w*dv/dr)
-        CALL MOM_VI_U_VERTSHEAR(bi,bj,K,uVel,wVel,uCf,myThid)
+        IF ( .NOT. momImplVertAdv ) THEN
-        DO j=jMin,jMax
+         CALL MOM_VI_U_VERTSHEAR(bi,bj,K,uVel,wVel,uCf,myThid)
-         DO i=iMin,iMax
+         DO j=jMin,jMax
-          gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j)
+          DO i=iMin,iMax
+           gU(i,j,k,bi,bj) = gU(i,j,k,bi,bj)+uCf(i,j)
+          ENDDO
+         ENDDO
+         CALL MOM_VI_V_VERTSHEAR(bi,bj,K,vVel,wVel,vCf,myThid)
+         DO j=jMin,jMax
+          DO i=iMin,iMax
+           gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j)
+          ENDDO
          ENDDO
-        ENDDO
+        ENDIF
-        CALL MOM_VI_V_VERTSHEAR(bi,bj,K,vVel,wVel,vCf,myThid)
-        DO j=jMin,jMax
-         DO i=iMin,iMax
-          gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j)
-         ENDDO
-        ENDDO
  C--   Bernoulli term
         CALL MOM_VI_U_GRAD_KE(bi,bj,K,KE,uCf,myThid)
-Line 460 
 C--   Bernoulli term
+Line 486 
 C--   Bernoulli term
           gV(i,j,k,bi,bj) = gV(i,j,k,bi,bj)+vCf(i,j)
          ENDDO
         ENDDO
+        IF ( writeDiag ) THEN
+          IF (snapshot_mdsio) THEN
+            CALL WRITE_LOCAL_RL('KEx','I10',1,uCf,bi,bj,k,myIter,myThid)
+            CALL WRITE_LOCAL_RL('KEy','I10',1,vCf,bi,bj,k,myIter,myThid)
+          ENDIF
+ #ifdef ALLOW_MNC
+          IF (useMNC .AND. snapshot_mnc) THEN
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEx', uCf,
+      &          offsets, myThid)
+            CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj, 'KEy', vCf,
+      &          offsets, myThid)
+         ENDIF
+ #endif /*  ALLOW_MNC  */
+        ENDIF
  C--   end if momAdvection
        ENDIF
-Line 471 
 C--   Set du/dt & dv/dt on boundaries to
+Line 512 
 C--   Set du/dt & dv/dt on boundaries to
         ENDDO
        ENDDO
+ #ifdef ALLOW_DEBUG
-       IF (
+       IF ( debugLevel .GE. debLevB
-      &  DIFFERENT_MULTIPLE(diagFreq,myCurrentTime,
+      &   .AND. k.EQ.4 .AND. myIter.EQ.nIter0
-      &                     myCurrentTime-deltaTClock)
+      &   .AND. nPx.EQ.1 .AND. nPy.EQ.1
-      & ) THEN
+      &   .AND. useCubedSphereExchange ) THEN
-        CALL WRITE_LOCAL_RL('Ds','I10',1,strain,bi,bj,k,myIter,myThid)
+         CALL DEBUG_CS_CORNER_UV( ' uDiss,vDiss from MOM_VECINV',
-        CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter,myThid)
+      &             guDiss,gvDiss, k, standardMessageUnit,bi,bj,myThid )
-        CALL WRITE_LOCAL_RL('fV','I10',1,uCf,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('fU','I10',1,vCf,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('Du','I10',1,uDiss,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('Dv','I10',1,vDiss,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('Z3','I10',1,vort3,bi,bj,k,myIter,myThid)
- c      CALL WRITE_LOCAL_RL('W3','I10',1,omega3,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('KE','I10',1,KE,bi,bj,k,myIter,myThid)
-        CALL WRITE_LOCAL_RL('D','I10',1,hdiv,bi,bj,k,myIter,myThid)
        ENDIF
+ #endif /* ALLOW_DEBUG */
- #endif /* DISABLE_MOM_VECINV */
+       IF ( writeDiag ) THEN
+         IF (snapshot_mdsio) THEN
+           CALL WRITE_LOCAL_RL('Ds','I10',1,strain,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('Dt','I10',1,tension,bi,bj,k,myIter,
+      &         myThid)
+           CALL WRITE_LOCAL_RL('Du','I10',1,guDiss,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('Dv','I10',1,gvDiss,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('Z3','I10',1,vort3,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('W3','I10',1,omega3,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('KE','I10',1,KE,bi,bj,k,myIter,myThid)
+           CALL WRITE_LOCAL_RL('D','I10',1,hdiv,bi,bj,k,myIter,myThid)
+         ENDIF
+ #ifdef ALLOW_MNC
+         IF (useMNC .AND. snapshot_mnc) THEN
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Ds',strain,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dt',tension,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Du',guDiss,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Dv',gvDiss,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'Z3',vort3,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'W3',omega3,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'KE',KE,
+      &          offsets, myThid)
+           CALL MNC_CW_RL_W_OFFSET('D','mom_vi',bi,bj,'D', hdiv,
+      &          offsets, myThid)
+         ENDIF
+ #endif /*  ALLOW_MNC  */
+       ENDIF
+ #endif /* ALLOW_MOM_VECINV */
        RETURN
        END

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