C $Header: /u/gcmpack/MITgcm/pkg/gmredi/gmredi_diagnostics_init.F,v 1.1 2005/01/04 00:19:38 jmc Exp $
C $Name: $
#include "GMREDI_OPTIONS.h"
CBOP
C !ROUTINE: GMREDI_DIAGNOSTICS_INIT
C !INTERFACE:
SUBROUTINE GMREDI_DIAGNOSTICS_INIT( myThid )
C !DESCRIPTION: \bv
C *==========================================================*
C | SUBROUTINE GMREDI_DIAGNOSTICS_INIT
C | o Routine to initialize list of all available diagnostics
C | for GM/Redi package
C *==========================================================*
C \ev
C !USES:
IMPLICIT NONE
C === Global variables ===
#include "EEPARAMS.h"
c #include "SIZE.h"
c #include "PARAMS.h"
c #include "GMREDI.h"
C !INPUT/OUTPUT PARAMETERS:
C === Routine arguments ===
C myThid :: my Thread Id number
INTEGER myThid
CEOP
#ifdef ALLOW_DIAGNOSTICS
C !LOCAL VARIABLES:
C === Local variables ===
C diagNum :: diagnostics number in the (long) list of available diag.
C diagName :: local short name (8c) of a diagnostics
C diagCode :: local parser field with characteristics of the diagnostics
C cf head of S/R DIAGNOSTICS_INIT_EARLY or DIAGNOSTICS_MAIN_INIT
C diagUnits :: local string (16c): physical units of a diagnostic field
C diagTitle :: local string (80c): description of field in diagnostic
INTEGER diagNum
CHARACTER*8 diagName
CHARACTER*16 diagCode
CHARACTER*16 diagUnits
CHARACTER*(80) diagTitle
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
c IF ( useDiagnotics ) THEN
diagName = 'GM_VisbK'
diagTitle =
& 'Mixing coefficient from Visbeck etal parameterization'
diagUnits = 'm^2/s '
diagCode = 'SM P M1 '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kux '
diagTitle = 'K_11 element (U.point, X.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'UU P ',diagNum+2,'MR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kvy '
diagTitle = 'K_22 element (V.point, Y.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'VV P ', diagNum ,'MR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kuz '
diagTitle = 'K_13 element (U.point, Z.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'UU ',diagNum+2,'MR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kvz '
diagTitle = 'K_23 element (V.point, Z.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'VV ', diagNum ,'MR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kwx '
diagTitle = 'K_31 element (W.point, X.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'UM ',diagNum+2,'LR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kwy '
diagTitle = 'K_32 element (W.point, Y.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'VM ', diagNum ,'LR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_Kwz '
diagTitle = 'K_33 element (W.point, Z.dir) of GM-Redi tensor'
diagUnits = 'm^2/s '
diagCode = 'WM P LR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_PsiX '
diagTitle = 'GM Bolus transport stream-function : X component'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'UU ',diagNum+2,'LR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
diagName = 'GM_PsiY '
diagTitle = 'GM Bolus transport stream-function : Y component'
diagUnits = 'm^2/s '
WRITE(diagCode,'(A,I3.3,A)') 'VV ', diagNum ,'LR '
CALL DIAGNOSTICS_ADD2LIST( diagNum,
I diagName, diagCode, diagUnits, diagTitle, myThid )
c ENDIF
#endif /* ALLOW_DIAGNOSTICS */
RETURN
END