C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/longstep/longstep_diagnostics_init.F,v 1.2 2010/01/12 21:34:09 jmc Exp $ C $Name: $ #include "LONGSTEP_OPTIONS.h" CBOP C !ROUTINE: LONGSTEP_DIAGNOSTICS_INIT C !INTERFACE: SUBROUTINE LONGSTEP_DIAGNOSTICS_INIT( myThid ) C !DESCRIPTION: C Routine to initialize longstep diagnostics C !USES: IMPLICIT NONE C === Global variables === #include "SIZE.h" #include "EEPARAMS.h" #include "PARAMS.h" #include "LONGSTEP_PARAMS.h" C !INPUT/OUTPUT PARAMETERS: C === Routine arguments === C myThid - Number of this instance of LONGSTEP_DIAGNOSTICS_INIT INTEGER myThid CEOP #ifdef ALLOW_DIAGNOSTICS C !LOCAL VARIABLES: C === Local variables === C msgBuf - Informational/error message buffer c CHARACTER*(MAX_LEN_MBUF) msgBuf INTEGER diagNum INTEGER diagMate CHARACTER*8 diagName CHARACTER*16 diagCode CHARACTER*16 diagUnits CHARACTER*(80) diagTitle C-- Add diagnostics to the (long) list diagName = 'LSwVel ' diagTitle = 'Vertical Component of Velocity (m/s)' diagUnits = 'm/s ' diagCode = 'WM LR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) diagName = 'LSuVel ' diagTitle = 'Zonal Component of Velocity (m/s)' diagUnits = 'm/s ' diagCode = 'UUR MR ' diagMate = diagNum + 2 CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, diagMate, myThid ) diagName = 'LSvVel ' diagTitle = 'Meridional Component of Velocity (m/s)' diagUnits = 'm/s ' diagCode = 'VVR MR ' diagMate = diagNum CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, diagMate, myThid ) diagName = 'LStheta ' diagTitle = 'Potential Temperature' diagUnits = 'degC ' diagCode = 'SMR MR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) diagName = 'LSsalt ' diagTitle = 'Salinity' diagUnits = 'psu ' diagCode = 'SMR MR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) IF ( ivdc_kappa .NE. 0. _d 0 ) THEN diagName = 'LScnvAdj' diagTitle = 'Convective Adjustment Index [0-1] ' diagUnits = 'fraction ' diagCode = 'SM LR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) ENDIF #ifdef SHORTWAVE_HEATING diagName = 'LSqsw ' diagTitle = 'net Short-Wave radiation (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM U1 ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) #endif #ifdef ALLOW_GMREDI IF ( useGMRedi ) THEN diagName = 'LSkwx ' diagTitle = 'K_31 element (W.point, X.dir) of GM-Redi tensor' diagUnits = 'm^2/s ' diagCode = 'UM LR ' diagMate = diagNum + 2 CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, diagMate, myThid ) diagName = 'LSkwy ' diagTitle = 'K_32 element (W.point, Y.dir) of GM-Redi tensor' diagUnits = 'm^2/s ' diagCode = 'VM LR ' diagMate = diagNum CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, diagMate, myThid ) diagName = 'LSkwz ' diagTitle = 'K_33 element (W.point, Z.dir) of GM-Redi tensor' diagUnits = 'm^2/s ' diagCode = 'WM P LR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) ENDIF #endif #ifdef ALLOW_KPP IF ( useKPP ) THEN diagName = 'LSKPPdfS' diagTitle = 'Vertical diffusion coefficient for salt & tracers' diagUnits = 'm^2/s ' diagCode = 'SM P LR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) diagName = 'LSKPPght' diagTitle = 'Nonlocal transport coefficient' diagUnits = 's/m^2 ' diagCode = 'SM P LR ' CALL DIAGNOSTICS_ADDTOLIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, 0, myThid ) ENDIF #endif /* ALLOW_KPP */ #endif /* ALLOW_DIAGNOSTICS */ RETURN END