!> @file
!> @brief Reading/writing of model definition file.
!>
!> @author H. L. Tolman
!> @author F. Ardhuin
!> @date 15-Apr-2020
!>
#include "w3macros.h"
!/ ------------------------------------------------------------------- /
!>
!> @brief Reading/writing of model definition file.
!>
!> @details Arrays allocated here on read or ing ww3_grid on write.
!>
!> @author H. L. Tolman
!> @author F. Ardhuin
!> @date 15-Apr-2020
!>
MODULE W3IOGRMD
!/
!/ +-----------------------------------+
!/ | WAVEWATCH III NOAA/NCEP |
!/ | H. L. Tolman |
!/ ! F. Ardhuin !
!/ | FORTRAN 90 |
!/ | Last update : 15-Apr-2020 |
!/ +-----------------------------------+
!/
!/ For updates see W3IOGR documentation.
!/
! 1. Purpose :
!
! Reading/writing of model definition file .
!
! 2. Variables and types :
!
! Name Type Scope Description
! ----------------------------------------------------------------
! VERGRD C*10 Private Model definition file version number.
! IDSTR C*35 Private Model definition file ID string.
! ----------------------------------------------------------------
!
! 3. Subroutines and functions :
!
! Name Type Scope Description
! ----------------------------------------------------------------
! W3IOGR Subr. Public Read/write model definition file.
! ----------------------------------------------------------------
!
! 4. Subroutines and functions used :
!
! Name Type Module Description
! ----------------------------------------------------------------
! W3SETG Subr. W3GDATMD Point to data structure for spatial gr.
! W3DIMX Subr. Id. Set up arrays for spatial grid.
! W3DIMS Subr. Id. Set array dimensions for a spec. grid.
! W3SETO Subr. W3ODATMD Point to data structure for spatial gr.
! W3DMO5 Subr. Id. Set array dimensions.
! INPTAB Subr. W3SRC2MD Fill interpolation tables for
! dispersion relation.
! DISTAB Subr. W3DISPMD Input coefficient lookup table.
! INSNL1 Subr. W3SNL1MD Initialization of the DIA.
! INSNL2 Subr. W3SNL2MD Initialization of WRT.
! INSNL3 Subr. W3SNL3MD Initialization of GMD.
! INSNL5 Subr. W3SNL5MD Initialization of GKE.
! INSNLS Subr. W3SNLSMD Initialization of nonlinear `smoother'.
! STRACE Subr. W3SERVMD Subroutine tracing.
! EXTCDE Subr. W3SERVMD Abort program with exit code.
! ----------------------------------------------------------------
!
! 5. Remarks :
!
! - Arrays allocated here on read or ing ww3_grid on write.
!
! 6. Switches :
!
! See subroutine.
!
! 7. Source code :
!
!/ ------------------------------------------------------------------- /
! module default
implicit none
PUBLIC
!/
!/ Private parameter statements (ID strings)
!/
CHARACTER(LEN=10), PARAMETER, PRIVATE :: VERGRD = '2021-08-06'
CHARACTER(LEN=35), PARAMETER, PRIVATE :: &
IDSTR = 'WAVEWATCH III MODEL DEFINITION FILE'
!/
!/ Public variables
!/
!/
CONTAINS
!/ ------------------------------------------------------------------- /
!>
!> @brief Reading and writing of the model definition file.
!>
!> @details The file is opened within the routine, the name is pre-defined
!> and the unit number is given in the parameter list. The model
!> definition file is written using UNFORMATTED write statements.
!>
!> @param[in] INXOUT Test string for read/write.
!> @param[in] NDSM File unit number.
!> @param[in] IMOD Model number for W3GDAT etc.
!> @param[in] FEXT File extension to be used.
!>
!> @author H. L. Tolman
!> @author F. Ardhuin
!> @date 19-Oct-2020
SUBROUTINE W3IOGR ( INXOUT, NDSM, IMOD, FEXT )
!/
!/ +-----------------------------------+
!/ | WAVEWATCH III NOAA/NCEP |
!/ | H. L. Tolman |
!/ ! F. Ardhuin !
!/ | FORTRAN 90 |
!/ | Last update : 19-Oct-2020 |
!/ +-----------------------------------+
!/
!/ 14-Jan-1999 : Distributed FORTRAN 77 version. ( version 1.18 )
!/ 04-Feb-2000 : Upgrade to FORTRAN 90 ( version 2.00 )
!/ Major changes to logistics.
!/ 14-Feb-2000 : Exact-NL added. ( version 2.01 )
!/ 09-Jan-2001 : Flat grid option. ( version 2.06 )
!/ 02-Feb-2001 : Exact-NL version 3.0 ( version 2.07 )
!/ 27-Feb-2001 : Third propagation scheme added. ( version 2.08 )
!/ 16-Mar-2001 : Fourth propagation scheme added. ( version 2.09 )
!/ 29-Mar-2001 : Sub-grid islands added. ( version 2.10 )
!/ 11-Jan-2002 : Sub-grid ice added. ( version 2.15 )
!/ 09-May-2002 : Switch clean up. ( version 2.21 )
!/ 27-Aug-2002 : Exact-NL version 4.0 ( version 2.22 )
!/ 26-Nov-2002 : Adding first VDIA and MDIA. ( version 3.01 )
!/ 01-Aug-2003 : Adding moving grid GSE correction. ( version 3.03 )
!/ 08-Mar-2004 : Multiple grid version. ( version 3.06 )
!/ 04-May-2005 : Change to MPI_COMM_WAVE. ( version 3.07 )
!/ 24-Jun-2005 : Add MAPST2 processing. ( version 3.07 )
!/ 09-Nov-2005 : Remove soft boundary options. ( version 3.08 )
!/ 23-Jun-2006 : Add W3SLN1 parameters. ( version 3.09 )
!/ 27-Jun-2006 : Adding file name preamble. ( version 3.09 )
!/ 25-Jul-2006 : Reorder for 'GRID' option to read ( version 3.10 )
!/ spectral data also.
!/ 28-Oct-2006 : Add partitioning pars. ( version 3.10 )
!/ 26-Mar-2007 : Add partitioning pars. ( version 3.11 )
!/ 16-Apr-2006 : Add Miche limiter pars. ( version 3.11 )
!/ 25-Apr-2007 : Adding Battjes-Janssen Sdb. ( version 3.11 )
!/ 09-Oct-2007 : Adding WAM cycle 4+ Sin and Sds. ( version 3.13 )
!/ 29-May-2009 : Preparing distribution version. ( version 3.14 )
!/ 30-Oct-2009 : Fix ndst arg in call to w3dmo5. ( version 3.14 )
!/ (T. J. Campbell, NRL)
!/ 30-Oct-2009 : Implement curvilinear grid type. ( version 3.14 )
!/ (W. E. Rogers & T. J. Campbell, NRL)
!/ 23-Dec-2009 : Addition of COU namelists ( version 3.14 )
!/ 31-Oct-2010 : Implement unstructured grids ( version 3.14 )
!/ (A. Roland and F. Ardhuin)
!/ 06-Dec-2010 : Change from GLOBAL (logical) to ICLOSE (integer) to
!/ specify index closure for a grid. ( version 3.14 )
!/ (T. J. Campbell, NRL)
!/ 12-Jun-2012 : Add /RTD option or rotated grid option.
!/ (Jian-Guo Li) ( version 4.06 )
!/ 13-Jul-2012 : Move GMD (SNL3) and nonlinear filter (SNLS)
!/ from 3.15 (HLT). ( version 4.08 )
!/ 12-Dec-2012 : Adding SMC grid. JG_Li ( version 4.08 )
!/ 19-Dec-2012 : Add NOSWLL to file. ( version 4.11 )
!/ 01-Jul-2013 : Document UQ / UNO switches in file ( version 4.12 )
!/ 10-Sep-2013 : Add IG1 parameters ( version 4.12 )
!/ 16-Sep-2013 : Add Arctic part in SMC grid. ( version 4.12 )
!/ 11-Nov-2013 : Make SMC and RTD grids compatible. ( version 4.13 )
!/ 06-Mar-2014 : Writes out a help message on error ( version 4.18 )
!/ 10-Mar-2014 : Add IC2 parameters ( version 5.01 )
!/ 29-May-2014 : Add IC3 parameters ( version 5.01 )
!/ 20-Aug-2016 : Add IOBPA ( version 5.12 )
!/ 08-Mar-2018 : Add FSWND for SMC grid. ( version 6.02 )
!/ 05-Jun-2018 : Add PDLIB/DEBUGINIT and implcit scheme parameters
!/ for unstructured grids ( version 6.04 )
!/ 27-Jul-2018 : Added PTMETH and PTFCUT parameters ( version 6.05 )
!/ (C. Bunney, UKMO)
!/ 18-Aug-2018 : S_{ice} IC5 (Q. Liu) ( version 6.06 )
!/ 26-Aug-2018 : UOST (Mentaschi et al. 2015, 2018) ( version 6.06 )
!/ 15-Apr-2020 : Adds optional opt-out for CFL on BC ( version 7.08 )
!/ 18-Jun-2020 : Adds 360-day calendar option ( version 7.08 )
!/ 19-Oct-2020 : Add AIRCMIN, AIRGB parameters ( version 7.08 )
!/ 07-07-2021 : S_{nl} GKE NL5 (Q. Liu) ( version 7.12 )
!/ 19-Jul-2021 : Momentum and air density support ( version 7.14 )
!/
!/ Copyright 2009-2013 National Weather Service (NWS),
!/ National Oceanic and Atmospheric Administration. All rights
!/ reserved. WAVEWATCH III is a trademark of the NWS.
!/ No unauthorized use without permission.
!/
! 1. Purpose :
!
! Reading and writing of the model definition file.
!
! 2. Method :
!
! The file is opened within the routine, the name is pre-defined
! and the unit number is given in the parameter list. The model
! definition file is written using UNFORMATTED write statements.
!
! 3. Parameters :
!
! Parameter list
! ----------------------------------------------------------------
! INXOUT C*(*) I Test string for read/write, valid are:
! 'READ', 'WRITE' and 'GRID'.
! NDSM Int. I File unit number.
! IMOD Int. I Model number for W3GDAT etc.
! FEXT C*(*) I File extension to be used.
! ----------------------------------------------------------------
!
! 4. Subroutines used :
!
! See above.
!
! 5. Called by :
!
! Name Type Module Description
! ----------------------------------------------------------------
! W3INIT Subr. W3INITMD Wave model initialization routine.
! ...... Prog. N/A All WAVEWATCH III aux programs and
! drivers.
! ----------------------------------------------------------------
!
! 6. Error messages :
!
! Tests on INXOUT, file status and on array dimensions.
!
! 7. Remarks :
!
! - The model definition file has the pre-defined name
! 'mod_def.FILEXT'.
!
! 8. Structure :
!
! See source code.
!
! 9. Switches :
!
! !/MPI MPI calls
!
! !/LNn Select source terms
! !/STn
! !/NLn
! !/BTn
! !/DBn
! !/TRn
! !/BSn
! !/XXn
!
! !/S Enable subroutine tracing.
! !/T Enable test output
!
! 10. Source code :
!
!/ ------------------------------------------------------------------- /
use w3servmd, only : print_memcheck
USE CONSTANTS
USE W3GDATMD
#ifdef W3_MPI
USE W3ADATMD, ONLY: MPI_COMM_WAVE
#endif
USE W3ODATMD
#ifdef W3_ST2
USE W3SRC2MD, ONLY: INPTAB
#endif
#ifdef W3_ST3
USE W3SRC3MD, ONLY: INSIN3
#endif
#ifdef W3_ST4
USE W3SRC4MD, ONLY: INSIN4, TAUT, TAUHFT, TAUHFT2, &
DELU, DELTAUW, DELUST, &
DELALP, DELTAIL, &
DIKCUMUL
#endif
#ifdef W3_NL1
USE W3SNL1MD, ONLY: INSNL1
#endif
#ifdef W3_NL2
USE W3SNL2MD, ONLY: INSNL2
#endif
#ifdef W3_NL3
USE W3SNL3MD, ONLY: INSNL3
#endif
#ifdef W3_NL5
USE W3SNL5MD, ONLY: INSNL5
#endif
#ifdef W3_NLS
USE W3SNLSMD, ONLY: INSNLS
#endif
#ifdef W3_IS2
USE W3SIS2MD, ONLY: INSIS2
#endif
USE W3TIMEMD, ONLY: CALTYPE
USE W3SERVMD, ONLY: EXTCDE
#ifdef W3_S
USE W3SERVMD, ONLY: STRACE
#endif
USE W3DISPMD
#ifdef W3_UOST
USE W3UOSTMD, ONLY: UOST_INITGRID
#endif
!
#ifdef W3_MPI
INCLUDE "mpif.h"
#endif
!/
!/ ------------------------------------------------------------------- /
!/ Parameter list
!/
INTEGER, INTENT(IN) :: NDSM
INTEGER, INTENT(IN), OPTIONAL :: IMOD
CHARACTER, INTENT(IN) :: INXOUT*(*)
CHARACTER, INTENT(IN), OPTIONAL :: FEXT*(*)
!/
!/ ------------------------------------------------------------------- /
!/ Local parameters
!/
INTEGER :: IGRD, IERR, I, J, MTH, MK, ISEA, IX, IY
INTEGER :: IEXT, IPRE
#ifdef W3_ST4
INTEGER :: IK, ITH, IK2, ITH2
#endif
INTEGER, ALLOCATABLE :: MAPTMP(:,:)
#ifdef W3_MPI
INTEGER :: IERR_MPI, IP
#endif
#ifdef W3_S
INTEGER, SAVE :: IENT = 0
#endif
#ifdef W3_T
INTEGER :: K
#endif
LOGICAL :: WRITE, FLTEST = .FALSE., TESTLL, &
FLSNL2 = .FALSE.
LOGICAL, SAVE :: FLINP = .FALSE. , FLDISP = .FALSE., &
FLIS = .FALSE.
CHARACTER(LEN=10) :: VERTST
CHARACTER(LEN=13) :: TEMPXT
CHARACTER(LEN=30) :: TNAME0, TNAME1, TNAME2, TNAME3, &
TNAME4, TNAME5, TNAME6, &
TNAMEP, TNAMEG, TNAMEF, TNAMEI
CHARACTER(LEN=30) :: FNAME0, FNAME1, FNAME2, FNAME3, &
FNAME4, FNAME5, FNAME6, &
FNAMEP, FNAMEG, FNAMEF, FNAMEI
CHARACTER(LEN=35) :: IDTST
CHARACTER(LEN=60) :: MESSAGE(5)
LOGICAL :: GLOBAL
REAL, ALLOCATABLE :: XGRD4(:,:), YGRD4(:,:)
integer :: memunit
!/
!/ ------------------------------------------------------------------- /
!/
memunit = 740+IAPROC
#ifdef W3_S
CALL STRACE (IENT, 'W3IOGR')
#endif
!
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 1')
MESSAGE =(/ ' MOD DEF FILE WAS GENERATED WITH A DIFFERENT ', &
' WW3 VERSION OR USING A DIFFERENT SWITCH FILE. ', &
' MAKE SURE WW3_GRID IS COMPILED WITH SAME SWITCH', &
' AS WW3_SHEL OR WW3_MULTI, RUN WW3_GRID AGAIN ', &
' AND THEN TRY AGAIN THE PROGRAM YOU JUST USED. '/)
!
TNAMEF = '------------------------------'
TNAME0 = '------------------------------'
TNAME1 = '------------------------------'
TNAME2 = '------------------------------'
TNAME3 = '------------------------------'
TNAME4 = '------------------------------'
TNAME5 = '------------------------------'
TNAME6 = '------------------------------'
TNAMEP = '------------------------------'
TNAMEG = '------------------------------'
TNAMEI = '------------------------------'
!
#ifdef W3_FLX1
TNAMEF = 'Wu (1980) '
#endif
#ifdef W3_FLX2
TNAMEF = 'Tolman and Chalikov (1996) '
#endif
#ifdef W3_FLX3
TNAMEF = 'T and C(1996) with cap on Cd '
#endif
#ifdef W3_FLX4
TNAMEF = 'Hwang (2011) with cap on Cd '
#endif
#ifdef W3_FLX5
TNAMEF = 'Direct use of stress '
#endif
#ifdef W3_LN0
TNAME0 = 'Not defined '
#endif
#ifdef W3_LN1
TNAME0 = 'Cavaleri and M.-R. (1982) '
#endif
#ifdef W3_ST0
TNAME1 = 'Not defined '
#endif
#ifdef W3_ST1
TNAME1 = 'WAM cycles 1 through 3 '
#endif
#ifdef W3_ST2
TNAME1 = 'Tolman and Chalikov (1996) '
#endif
#ifdef W3_ST3
TNAME1 = 'WAM cycle 4+ '
#endif
#ifdef W3_ST4
TNAME1 = 'Ardhuin et al. (2009+) '
#endif
#ifdef W3_ST6
TNAME1 = 'BYDB input and dissipation '
#endif
#ifdef W3_NL0
TNAME2 = 'Not defined '
#endif
#ifdef W3_NL1
TNAME2 = 'Discrete Interaction Approx. '
#endif
#ifdef W3_NL2
TNAME2 = 'Exact nonlinear interactions '
#endif
#ifdef W3_NL3
TNAME2 = 'Generalized Multiple DIA '
#endif
#ifdef W3_NL4
TNAME2 = 'Two Scaled Approximation '
#endif
#ifdef W3_NL5
TNAME2 = 'Generalized Kinetic Equation '
#endif
#ifdef W3_BT0
TNAME3 = 'Not defined '
#endif
#ifdef W3_BT1
TNAME3 = 'JONSWAP '
#endif
#ifdef W3_BT4
TNAME3 = 'SHOWEX '
#endif
#ifdef W3_BT8
TNAME3 = 'Muddy Bed (D & L) '
#endif
#ifdef W3_IC1
TNAMEI = 'Ice sink term (uniform k_i) '
#endif
#ifdef W3_IC2
TNAMEI = 'Ice sink term (Lui et al) '
#endif
#ifdef W3_IC3
TNAMEI = 'Ice sink term (Wang and Shen) '
#endif
#ifdef W3_IC4
TNAMEI = 'Ice sink term (empirical) '
#endif
#ifdef W3_IC5
TNAMEI = 'Ice sink term (eff. medium) '
#endif
#ifdef W3_DB0
TNAME4 = 'Not defined '
#endif
#ifdef W3_DB1
TNAME4 = 'Battjes and Janssen (1978) '
#endif
#ifdef W3_TR0
TNAME5 = 'Not defined '
#endif
#ifdef W3_BS0
TNAME6 = 'Not defined '
#endif
#ifdef W3_PR0
TNAMEP = 'No propagation '
#endif
#ifdef W3_PR1
TNAMEP = 'First order upstream '
#endif
#ifdef W3_UQ
TNAMEP = '3rd order UQ scheme '
#endif
#ifdef W3_UNO
TNAMEP = '2nd order UNO scheme '
#endif
#ifdef W3_PR0
TNAMEG = 'No GSE aleviation '
#endif
#ifdef W3_PR1
TNAMEG = 'No GSE aleviation (1up prop) '
#endif
#ifdef W3_PR2
TNAMEG = 'Diffusion operator '
#endif
#ifdef W3_PR3
TNAMEG = 'Averaging operator '
#endif
!
FNAMEF = TNAMEF
FNAME0 = TNAME0
FNAME1 = TNAME1
FNAME2 = TNAME2
FNAME3 = TNAME3
FNAME4 = TNAME4
FNAME5 = TNAME5
FNAME6 = TNAME6
FNAMEP = TNAMEP
FNAMEG = TNAMEG
FNAMEI = TNAMEI
!
#ifdef W3_T
FLTEST = .TRUE.
#endif
#ifdef W3_NL2
FLSNL2 = .TRUE.
#endif
!
! test input parameters ---------------------------------------------- *
!
IF ( PRESENT(IMOD) ) THEN
IGRD = IMOD
ELSE
IGRD = 1
END IF
!
IF ( PRESENT(FEXT) ) THEN
TEMPXT = FEXT
ELSE
TEMPXT = 'ww3'
END IF
!
IF (INXOUT.NE.'READ' .AND. INXOUT.NE.'WRITE' &
.AND. INXOUT.NE.'GRID') THEN
IF ( IAPROC .EQ. NAPERR ) WRITE (NDSE,900) INXOUT
CALL EXTCDE ( 1 )
END IF
!
WRITE = INXOUT .EQ. 'WRITE'
!
#ifdef W3_T
WRITE (NDST,9000) INXOUT, WRITE, NDSM, IGRD, TEMPXT
#endif
!
CALL W3SETO ( IGRD, NDSE, NDST )
CALL W3SETG ( IGRD, NDSE, NDST )
FILEXT = TEMPXT
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 2')
!
! open file ---------------------------------------------------------- *
!
IEXT = LEN_TRIM(FILEXT)
IPRE = LEN_TRIM(FNMPRE)
!
!AR: ADD DEBUGFLAG WRITE(*,*) 'FILE=', FNMPRE(:IPRE)//'mod_def.'//FILEXT(:IEXT)
IF ( WRITE ) THEN
OPEN (NDSM,FILE=FNMPRE(:IPRE)//'mod_def.'//FILEXT(:IEXT), &
form='UNFORMATTED', convert=file_endian,ERR=800,IOSTAT=IERR)
ELSE
OPEN (NDSM,FILE=FNMPRE(:IPRE)//'mod_def.'//FILEXT(:IEXT), &
form='UNFORMATTED', convert=file_endian,STATUS='OLD',ERR=800,IOSTAT=IERR)
ENDIF
!
REWIND ( NDSM )
!
! Dimensions and test information --------------------------------------
!
IF ( WRITE ) THEN
WRITE (NDSM) &
IDSTR, VERGRD, NX, NY, NSEA, NTH, NK, &
NBI, NFBPO, GNAME, FNAME0, FNAME1, FNAME2, FNAME3, &
FNAME4, FNAME5, FNAME6, FNAMEP, FNAMEG, &
FNAMEF, FNAMEI
!
#ifdef W3_SMC
WRITE (NDSM) NCel, NUFc, NVFc, NRLv, MRFct
WRITE (NDSM) NGLO, NARC, NBGL, NBAC, NBSMC
#endif
!
WRITE (NDSM) &
(NBO(I),I=0,NFBPO), (NBO2(I),I=0,NFBPO)
#ifdef W3_T
WRITE (NDST,9001) IDSTR, VERGRD, NX, NY, NSEA, NTH, NK, &
NBI, NFBPO, 9, GNAME, FNAME0, FNAME1, FNAME2, FNAME3, &
FNAME4, FNAME5, FNAME6, FNAMEP, FNAMEG, &
FNAMEF, FNAMEI
WRITE (NDST,9002) (NBO(I),I=0,NFBPO)
WRITE (NDST,9003) (NBO2(I),I=0,NFBPO)
#endif
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
IDTST, VERTST, NX, NY, NSEA, MTH, MK, &
NBI, NFBPO, GNAME, FNAME0, FNAME1, FNAME2, FNAME3, &
FNAME4, FNAME5, FNAME6, FNAMEP, FNAMEG, &
FNAMEF, FNAMEI
!
#ifdef W3_SMC
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
NCel, NUFc, NVFc, NRLv, MRFct
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
NGLO, NARC, NBGL, NBAC, NBSMC
#endif
!
NK = MK
NTH = MTH
NK2 = NK + 2
NSPEC = NK * NTH
#ifdef W3_T
WRITE (NDST,9001) IDSTR, VERGRD, NX, NY, NSEA, NTH, NK, &
NBI, NFBPO, 9, GNAME, FNAME0, FNAME1, FNAME2, FNAME3, &
FNAME4, FNAME5, FNAME6, FNAMEP, FNAMEG, &
FNAMEF, FNAMEI
#endif
!
IF ( IDTST .NE. IDSTR ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,901) IDTST, IDSTR
CALL EXTCDE ( 10 )
END IF
IF ( VERTST .NE. VERGRD ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,902) VERTST, VERGRD
CALL EXTCDE ( 11 )
END IF
IF ( NFBPO .GT. 9 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,904) NFBPO, 9
CALL EXTCDE ( 13 )
END IF
IF ( FNAME0 .NE. TNAME0 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 0, FILEXT(:IEXT), FNAME0, TNAME0, &
MESSAGE
CALL EXTCDE ( 14 )
END IF
IF ( FNAME1 .NE. TNAME1 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 1, FILEXT(:IEXT), FNAME1, TNAME1, &
MESSAGE
CALL EXTCDE ( 15 )
END IF
IF ( FNAME2 .NE. TNAME2 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 2, FILEXT(:IEXT), FNAME2, TNAME2, &
MESSAGE
CALL EXTCDE ( 16 )
END IF
IF ( FNAME3 .NE. TNAME3 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 3, FILEXT(:IEXT), FNAME3, TNAME3, &
MESSAGE
CALL EXTCDE ( 17 )
END IF
IF ( FNAMEI .NE. TNAMEI ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 3, FILEXT(:IEXT), FNAMEI, TNAMEI, &
MESSAGE
CALL EXTCDE ( 17 )
END IF
IF ( FNAME4 .NE. TNAME4 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 4, FILEXT(:IEXT), FNAME4, TNAME4, &
MESSAGE
CALL EXTCDE ( 18 )
END IF
IF ( FNAME5 .NE. TNAME5 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 5, FILEXT(:IEXT), FNAME5, TNAME5, &
MESSAGE
CALL EXTCDE ( 19 )
END IF
IF ( FNAME6 .NE. TNAME6 ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,905) 6, FILEXT(:IEXT), FNAME6, TNAME6, &
MESSAGE
CALL EXTCDE ( 20 )
END IF
IF ( FNAMEP .NE. TNAMEP ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,906) FNAMEP, TNAMEP
CALL EXTCDE ( 22 )
END IF
IF ( FNAMEG .NE. TNAMEG ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,907) FNAMEG, TNAMEG, MESSAGE
CALL EXTCDE ( 22 )
END IF
IF ( FNAMEF .NE. TNAMEF ) THEN
IF ( IAPROC .EQ. NAPERR ) &
WRITE (NDSE,908) FILEXT(:IEXT), FNAMEF, TNAMEF, MESSAGE
CALL EXTCDE ( 24 )
END IF
!
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
(NBO(I),I=0,NFBPO), (NBO2(I),I=0,NFBPO)
#ifdef W3_T
WRITE (NDST,9002) (NBO(I),I=0,NFBPO)
WRITE (NDST,9003) (NBO2(I),I=0,NFBPO)
#endif
!
ENDIF
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 3')
!
! Parameters in modules --------------------------------------------- *
! Module W3GDAT GRID
!
ALLOCATE ( MAPTMP(NY,NX) )
!
IF ( WRITE ) THEN
MAPTMP = MAPSTA + 8*MAPST2
WRITE (NDSM) &
GTYPE, FLAGLL, ICLOSE
!
! Writes different kind of information depending on grid type
!
SELECT CASE ( GTYPE )
!!Li SMCTYPE shares info with RLGTYPE. JGLi12Oct2020
CASE ( RLGTYPE, SMCTYPE )
WRITE (NDSM) &
SX, SY, X0, Y0
CASE ( CLGTYPE )
WRITE (NDSM) &
REAL(XGRD), REAL(YGRD)
CASE (UNGTYPE)
WRITE (NDSM) &
FSN, FSPSI,FSFCT,FSNIMP,FSTOTALIMP,FSTOTALEXP, &
FSBCCFL, FSREFRACTION, FSFREQSHIFT, FSSOURCE, &
DO_CHANGE_WLV, SOLVERTHR_STP, CRIT_DEP_STP, &
NTRI,COUNTOT, COUNTRI, NNZ, &
B_JGS_TERMINATE_MAXITER, &
B_JGS_TERMINATE_DIFFERENCE, &
B_JGS_TERMINATE_NORM, &
B_JGS_LIMITER, &
B_JGS_BLOCK_GAUSS_SEIDEL, &
B_JGS_USE_JACOBI, &
B_JGS_MAXITER, &
B_JGS_PMIN, &
B_JGS_DIFF_THR, &
B_JGS_NORM_THR, &
B_JGS_NLEVEL, &
B_JGS_SOURCE_NONLINEAR
!Init COUNTCON and IOBDP to zero, it needs to be set somewhere or
!removed
COUNTCON=0
IOBDP=0
WRITE (NDSM) &
X0, Y0, SX, SY, DXYMAX, XGRD, YGRD, TRIGP, TRIA, &
LEN, IEN, ANGLE0, ANGLE, SI, MAXX, MAXY, &
DXYMAX, INDEX_CELL, CCON, COUNTCON, IE_CELL, &
POS_CELL, IOBP, IOBPA, IOBDP, IOBPD, IAA, JAA, POSI
END SELECT !GTYPE
!
WRITE (NDSM) &
ZB, MAPTMP, MAPFS, MAPSF, TRFLAG
!
#ifdef W3_SMC
IF( GTYPE .EQ. SMCTYPE ) THEN
WRITE (NDSM) NLvCel, NLvUFc, NLvVFc
WRITE (NDSM) IJKCel, IJKUFc, IJKVFc, ISMCBP
WRITE (NDSM) ICLBAC
WRITE (NDSM) ANGARC
WRITE (NDSM) CTRNX, CTRNY, CLATF
IF ( FLTEST ) THEN
WRITE (NDSE,"(' NRLv, MRFct and NBSMC values are',3I9)") NRLv, MRFct, NBSMC
WRITE (NDSE,"(' IJKCel, IJKUFc, IJKVFc Write for',3I9)") NCel, NUFc, NVFc
WRITE (NDSE,"(' CTRNXY transparency write for 2x', I9)") NCel
ENDIF
ENDIF
#endif
!
IF ( TRFLAG .NE. 0 ) WRITE (NDSM) TRNX, TRNY
WRITE (NDSM) &
DTCFL, DTCFLI, DTMAX, DTMIN, DMIN, CTMAX, &
FICE0, FICEN, FICEL, PFMOVE, FLDRY, FLCX, FLCY, FLCTH, &
FLCK, FLSOU, FLBPI, FLBPO, CLATS, CLATIS, CTHG0S, &
STEXU, STEYU, STEDU, IICEHMIN, IICEHINIT, IICEDISP, &
ICESCALES(1:4), CALTYPE, CMPRTRCK, IICEHFAC, IICEHDISP,&
IICEDDISP, IICEFDISP, BTBETA, &
AAIRCMIN, AAIRGB
WRITE(NDSM)GRIDSHIFT
#ifdef W3_SEC1
WRITE (NDSM) NITERSEC1
#endif
#ifdef W3_RTD
!! Add rotated Polat/lon and AnglD to mod_def JGLi12Jun2012
WRITE (NDSM) PoLat, PoLon, AnglD, FLAGUNR
#endif
!! WRITE(NDSM) &
!! COUG_2D, COUG_RAD3D, COUG_US3D
ELSE
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 4')
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
GTYPE, FLAGLL, ICLOSE
!!Li IF (.NOT.GINIT) CALL W3DIMX ( IGRD, NX, NY, NSEA, NDSE, NDST )
IF (.NOT.GINIT) CALL W3DIMX ( IGRD, NX, NY, NSEA, NDSE, NDST &
#ifdef W3_SMC
, NCel, NUFc, NVFc, NRLv, NBSMC &
, NARC, NBAC, NSPEC &
#endif
)
!
! Reads different kind of information depending on grid type
!
SELECT CASE ( GTYPE )
!!Li SMCTYPE shares info with RLGTYPE. JGLi12Oct2020
CASE ( RLGTYPE, SMCTYPE )
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SX, SY, X0, Y0
DO IX=1,NX
XGRD(:,IX) = REAL(X0 + REAL(IX-1)*SX)
END DO
DO IY=1,NY
YGRD(IY,:) = REAL(Y0 + REAL(IY-1)*SY)
END DO
CASE ( CLGTYPE )
ALLOCATE(XGRD4(NY,NX),YGRD4(NY,NX)); XGRD4 = 0.; YGRD4 = 0.
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
XGRD4, YGRD4
XGRD = XGRD4
YGRD = YGRD4
DEALLOCATE(XGRD4, YGRD4)
!Set SX, SY, X0, Y0 to large values if curvilinear grid
X0 = HUGE(X0); Y0 = HUGE(Y0)
SX = HUGE(SX); SY = HUGE(SY)
CASE (UNGTYPE)
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
FSN, FSPSI,FSFCT,FSNIMP,FSTOTALIMP,FSTOTALEXP, &
FSBCCFL, FSREFRACTION, FSFREQSHIFT, FSSOURCE, &
DO_CHANGE_WLV, SOLVERTHR_STP, CRIT_DEP_STP, &
NTRI,COUNTOT, COUNTRI, NNZ, &
B_JGS_TERMINATE_MAXITER, &
B_JGS_TERMINATE_DIFFERENCE, &
B_JGS_TERMINATE_NORM, &
B_JGS_LIMITER, &
B_JGS_BLOCK_GAUSS_SEIDEL, &
B_JGS_USE_JACOBI, &
B_JGS_MAXITER, &
B_JGS_PMIN, &
B_JGS_DIFF_THR, &
B_JGS_NORM_THR, &
B_JGS_NLEVEL, &
B_JGS_SOURCE_NONLINEAR
IF (.NOT. GUGINIT) THEN
CALL W3DIMUG ( IGRD, NTRI, NX, COUNTOT, NNZ, NDSE, NDST )
END IF
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 5')
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
X0, Y0, SX, SY, DXYMAX, XGRD, YGRD, TRIGP, TRIA, &
LEN, IEN, ANGLE0, ANGLE, SI, MAXX, MAXY, &
DXYMAX, INDEX_CELL, CCON, COUNTCON, IE_CELL, &
POS_CELL, IOBP, IOBPA, IOBDP, IOBPD, IAA, JAA, POSI
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 6')
END SELECT !GTYPE
!
IF (GTYPE.NE.UNGTYPE) CALL W3GNTX ( IGRD, NDSE, NDST )
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ZB, MAPTMP, MAPFS, MAPSF, TRFLAG
!
#ifdef W3_SMC
IF( GTYPE .EQ. SMCTYPE ) THEN
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
NLvCel, NLvUFc, NLvVFc
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
IJKCel, IJKUFc, IJKVFc, ISMCBP
DO J=lbound(IJKCel,2), ubound(IJKCel,2)
IJKCel3(J) = IJKCel(3,J)
IJKCel4(J) = IJKCel(4,J)
END DO
DO J=lbound(IJKVFc,2), ubound(IJKVFc,2)
IJKVFc5(J) = IJKVFc(5,J)
IJKVFc6(J) = IJKVFc(6,J)
END DO
DO J=lbound(IJKUFc,2), ubound(IJKUFc,2)
IJKUFc5(J) = IJKUFc(5,J)
IJKUFc6(J) = IJKUFc(6,J)
END DO
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ICLBAC
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ANGARC
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
CTRNX, CTRNY, CLATF
ENDIF
#endif
!
MAPSTA = MOD(MAPTMP+2,8) - 2
MAPST2 = (MAPTMP-MAPSTA) / 8
MAPSF(:,3) = MAPSF(:,2) + (MAPSF(:,1)-1)*NY
IF ( TRFLAG .NE. 0 ) THEN
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) TRNX, TRNY
END IF
#ifdef W3_UOST
! UOST (Unresolved Obstacles Source Term) is enabled.
! setting TRNX, TRNY to null values
TRNX = 1
TRNY = 1
#endif
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
DTCFL, DTCFLI, DTMAX, DTMIN, DMIN, CTMAX, &
FICE0, FICEN, FICEL, PFMOVE, FLDRY, FLCX, FLCY, &
FLCTH, FLCK, FLSOU, FLBPI, FLBPO, CLATS, CLATIS, &
CTHG0S, STEXU, STEYU, STEDU, IICEHMIN, IICEHINIT, &
IICEDISP, ICESCALES(1:4), CALTYPE, CMPRTRCK, IICEHFAC, &
IICEDDISP, IICEHDISP, IICEFDISP, BTBETA, &
AAIRCMIN, AAIRGB
READ(NDSM,END=801,ERR=802,IOSTAT=IERR)GRIDSHIFT
#ifdef W3_SEC1
READ (NDSM) NITERSEC1
#endif
!
#ifdef W3_RTD
!! Read rotated Polat/lon and AnglD from mod_def JGLi12Jun2012
READ (NDSM) PoLat, PoLon, AnglD, FLAGUNR
#endif
!
END IF
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 7')
!
#ifdef W3_T
WRITE (NDST,9010) GTYPE, FLAGLL, ICLOSE, SX, SY, X0, Y0, TRFLAG
WRITE (NDST,9011) 'MAPSTA'
DO IY=MIN(NY,20), 1, -1
WRITE (NDST,9012) (MAPSTA(IY,IX),IX=1,MIN(NX,30))
END DO
WRITE (NDST,9011) 'MAPST2'
DO IY=MIN(NY,20), 1, -1
WRITE (NDST,9012) (MAPST2(IY,IX),IX=1,MIN(NX,30))
END DO
WRITE (NDST,9011) 'MAPFS'
DO IY=MIN(NY,20), 1, -1
WRITE (NDST,9013) (MAPFS(IY,IX),IX=1,MIN(NX,12))
END DO
IF ( TRFLAG .NE. 0 ) THEN
WRITE (NDST,9011) 'TRNX'
DO IY=MIN(NY,20), 1, -1
WRITE (NDST,9014) (TRNX(IY,IX),IX=1,MIN(NX,12))
END DO
WRITE (NDST,9011) 'TRNY'
DO IY=MIN(NY,20), 1, -1
WRITE (NDST,9014) (TRNY(IY,IX),IX=1,MIN(NX,12))
END DO
END IF
#endif
!
DEALLOCATE ( MAPTMP )
!
#ifdef W3_T
WRITE (NDST,9015) DTCFL, DTCFLI, DTMAX, DTMIN, &
DMIN, CTMAX, FICE0, FICEN, FICEL, PFMOVE, &
STEXU, STEYU, STEDU
WRITE (NDST,9016) FLDRY, FLCX, FLCY, FLCTH, FLCK, &
FLSOU, FLBPI, FLBPO
WRITE (NDST,9017) (CLATS(ISEA),ISEA=1,1), &
(CLATIS(ISEA),ISEA=1,1), (CTHG0S(IY),ISEA=1,1)
#endif
!
! Spectral parameters ------------------------------------------------ *
! Module W3GDATMD SGRD
!
IF ( WRITE ) THEN
WRITE (NDSM) &
MAPWN, MAPTH, DTH, TH, ESIN, ECOS, ES2, ESC, EC2, &
XFR, FR1, SIG, SIG2, DSIP, DSII, DDEN, DDEN2, FTE, &
FTF, FTWN, FTTR, FTWL, FACTI1, FACTI2, FACHFA, FACHFE
ELSE
IF (.NOT.SINIT) CALL W3DIMS ( IGRD, NK, NTH, NDSE, NDST )
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
MAPWN, MAPTH, DTH, TH, ESIN, ECOS, ES2, ESC, EC2, &
XFR, FR1, SIG, SIG2, DSIP, DSII, DDEN, DDEN2, FTE, &
FTF, FTWN, FTTR, FTWL, FACTI1, FACTI2, FACHFA, FACHFE
END IF
!
#ifdef W3_T
WRITE (NDST,9030) (MAPWN(I),I=1,8), (MAPTH(I),I=1,8), DTH*RADE, &
(TH(I)*RADE,I=1,4), (ESIN(I),I=1,4), (ECOS(I),I=1,4), &
XFR, SIG(1)*TPIINV, SIG(NK)*TPIINV, FTE, FTF, FTWN, FTTR, &
FTWL, FACTI1, FACTI2, FACHFA, FACHFE
#endif
!
!
! Output flags for 3D parameters ------------------------------------- *
! Module W3GDATMD
IF ( WRITE ) THEN
WRITE (NDSM) &
E3DF, P2MSF, US3DF,USSPF, USSP_WN
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
E3DF, P2MSF, US3DF,USSPF, USSP_WN
END IF
IF ( INXOUT .EQ. 'GRID' ) THEN
CLOSE (NDSM)
RETURN
END IF
!
! Parameters for output boundary points ------------------------------ *
! Module W3ODATMD OUT5
!
IF ( WRITE ) THEN
WRITE (NDSM) &
XBPO, YBPO, RDBPO, IPBPO, ISBPO
ELSE
CALL W3DMO5 ( IGRD, NDSE, NDST, 2 )
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
XBPO, YBPO, RDBPO, IPBPO, ISBPO
END IF
!
#ifdef W3_T
WRITE (NDST,9020)
DO I=1, NFBPO
WRITE (NDST,9021) I
DO J=NBO(I-1)+1,NBO(I)
WRITE (NDST,9022) J-NBO(I-1), (IPBPO(J,K),K=1,4), &
(RDBPO(J,K),K=1,4)
END DO
WRITE (NDST,9023) (ISBPO(J),J=NBO2(I-1)+1,NBO2(I))
END DO
#endif
!
! Parameters for spectral partitioning ------------------------------ *
! Module W3ODATMD OUT6
!
IF ( WRITE ) THEN
WRITE (NDSM) &
IHMAX, HSPMIN, WSMULT, WSCUT, FLCOMB, NOSWLL, &
PTMETH, PTFCUT
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
IHMAX, HSPMIN, WSMULT, WSCUT, FLCOMB, NOSWLL, &
PTMETH, PTFCUT
END IF
!
#ifdef W3_T
WRITE (NDST,9025) IHMAX, HSPMIN, WSMULT, WSCUT, FLCOMB, NOSWLL
#endif
!
! Numerical parameters ----------------------------------------------- *
! Module W3GDATMD NPAR
!
IF ( WRITE ) THEN
WRITE (NDSM) &
FACP, XREL, XFLT, FXFM, FXPM, XFT, XFC, FACSD, FHMAX, &
FFACBERG, DELAB, FWTABLE
#ifdef W3_RWND
WRITE (NDSM) &
RWINDC
#endif
#ifdef W3_WCOR
WRITE (NDSM) &
WWCOR
#endif
#ifdef W3_REF1
WRITE (NDSM) &
RREF, REFPARS, REFLC, REFLD
#endif
#ifdef W3_IG1
WRITE (NDSM) &
IGPARS(1:12)
#endif
#ifdef W3_IC2
WRITE (NDSM) &
IC2PARS(1:8)
#endif
#ifdef W3_IC3
WRITE (NDSM) &
IC3PARS
#endif
#ifdef W3_IC4
WRITE (NDSM) &
IC4PARS,IC4_KI,IC4_FC
#endif
#ifdef W3_IC5
WRITE (NDSM) &
IC5PARS
#endif
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
FACP, XREL, XFLT, FXFM, FXPM, XFT, XFC, FACSD, FHMAX, &
FFACBERG, DELAB, FWTABLE
#ifdef W3_RWND
READ (NDSM) &
RWINDC
#endif
#ifdef W3_WCOR
READ (NDSM) &
WWCOR
#endif
#ifdef W3_REF1
READ (NDSM) &
RREF, REFPARS, REFLC, REFLD
#endif
#ifdef W3_IG1
READ (NDSM) &
IGPARS(1:12)
#endif
#ifdef W3_IC2
READ (NDSM) &
IC2PARS(1:8)
#endif
#ifdef W3_IC3
READ (NDSM) &
IC3PARS
#endif
#ifdef W3_IC4
READ (NDSM) &
IC4PARS,IC4_KI,IC4_FC
#endif
#ifdef W3_IC5
READ (NDSM) &
IC5PARS
#endif
END IF
!
#ifdef W3_T
WRITE (NDST,9040) FACP, XREL, XFLT, FXFM, FXPM, XFT, XFC, &
FACSD, FHMAX
#endif
!
! Source term parameters --------------------------------------------- *
! Module W3GDATMD SFLP
! Module W3GDATMD SLNP
! Module W3GDATMD SRCP
! Module W3GDATMD SNLP
! Module W3GDATMD SBTP
!
#ifdef W3_FLX2
IF ( WRITE ) THEN
WRITE (NDSM) NITTIN, CINXSI
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) NITTIN, CINXSI
END IF
IF ( FLTEST ) WRITE (NDST,9048) NITTIN, CINXSI
#endif
!
#ifdef W3_FLX3
IF ( WRITE ) THEN
WRITE (NDSM) &
NITTIN, CINXSI, CD_MAX, CAP_ID
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
NITTIN, CINXSI, CD_MAX, CAP_ID
END IF
IF ( FLTEST ) WRITE (NDST,9048) NITTIN, CAP_ID, CINXSI, CD_MAX
#endif
!
#ifdef W3_FLX4
IF ( WRITE ) THEN
WRITE (NDSM) FLX4A0
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) FLX4A0
END IF
#endif
!
!
#ifdef W3_LN1
IF ( WRITE ) THEN
WRITE (NDSM) SLNC1, FSPM, FSHF
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) SLNC1, FSPM, FSHF
END IF
IF ( FLTEST ) WRITE (NDST,9049) SLNC1, FSPM, FSHF
#endif
!
#ifdef W3_ST1
IF ( WRITE ) THEN
WRITE (NDSM) SINC1, SDSC1
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) SINC1, SDSC1
END IF
IF ( FLTEST ) WRITE (NDST,9050) SINC1, SDSC1
#endif
!
#ifdef W3_ST2
IF ( WRITE ) THEN
WRITE (NDSM) &
ZWIND, FSWELL, &
SHSTAB, OFSTAB, CCNG, CCPS, FFNG, FFPS, &
CDSA0, CDSA1, CDSA2, SDSALN, &
CDSB0, CDSB1, CDSB2, CDSB3, FPIMIN, XFH, XF1, XF2
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ZWIND, FSWELL, &
SHSTAB, OFSTAB, CCNG, CCPS, FFNG, FFPS, &
CDSA0, CDSA1, CDSA2, SDSALN, &
CDSB0, CDSB1, CDSB2, CDSB3, FPIMIN, XFH, XF1, XF2
IF ( .NOT. FLINP ) CALL INPTAB
FLINP = .TRUE.
END IF
IF ( FLTEST ) WRITE (NDST,9050) &
ZWIND, FSWELL, CDSA0, CDSA1, CDSA2, &
SDSALN, CDSB0, CDSB1, CDSB2, CDSB3, FPIMIN, XFH, XF1, &
XF2, SHSTAB, OFSTAB, CCNG, CCPS, FFNG, FFPS
#endif
!
#ifdef W3_ST3
IF ( WRITE ) THEN
WRITE (NDSM) &
ZZWND, AALPHA, ZZ0MAX, BBETA, SSINTHP, ZZALP, &
SSWELLF, SSDSC1, WWNMEANP, WWNMEANPTAIL, SSTXFTF, &
SSTXFTFTAIL, SSTXFTWN, &
DDELTA1, DDELTA2, SSTXFTF, SSTXFTWN, &
FFXPM, FFXFM
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ZZWND, AALPHA, ZZ0MAX, BBETA, SSINTHP, ZZALP, &
SSWELLF, SSDSC1, WWNMEANP, WWNMEANPTAIL, SSTXFTF, &
SSTXFTFTAIL, SSTXFTWN, &
DDELTA1, DDELTA2, SSTXFTF, SSTXFTWN, &
FFXPM, FFXFM
IF ( .NOT. FLINP ) THEN
CALL INSIN3
FLINP = .TRUE.
END IF
END IF
#endif
!
#ifdef W3_ST4
IF ( WRITE ) THEN
CALL INSIN4(.TRUE.)
WRITE (NDSM) &
ZZWND, AALPHA, ZZ0MAX, BBETA, SSINTHP, ZZALP, &
TTAUWSHELTER, SSWELLFPAR, SSWELLF, SSINBR, &
ZZ0RAT, SSDSC, &
SSDSISO, SSDSBR, SSDSBT, SSDSBM, SSDSP, &
SSDSCOS, SSDSDTH, WWNMEANP, WWNMEANPTAIL,SSTXFTF, &
SSTXFTFTAIL, SSTXFTWN, SSTXFTF, SSTXFTWN, &
SSDSBRF1, SSDSBRF2, SSDSBRFDF,SSDSBCK, SSDSABK, &
SSDSPBK, SSDSBINT, FFXPM, FFXFM, FFXFA, &
SSDSHCK, DELUST, DELTAIL, DELTAUW, &
DELU, DELALP, TAUT, TAUHFT, TAUHFT2, &
IKTAB, DCKI, QBI, SATINDICES, SATWEIGHTS, &
DIKCUMUL, CUMULW
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ZZWND, AALPHA, ZZ0MAX, BBETA, SSINTHP, ZZALP, &
TTAUWSHELTER, SSWELLFPAR, SSWELLF, SSINBR, &
ZZ0RAT, SSDSC, &
SSDSISO, SSDSBR, SSDSBT, SSDSBM, SSDSP, &
SSDSCOS, SSDSDTH, WWNMEANP, WWNMEANPTAIL,SSTXFTF, &
SSTXFTFTAIL, SSTXFTWN, SSTXFTF, SSTXFTWN, &
SSDSBRF1, SSDSBRF2, SSDSBRFDF,SSDSBCK, SSDSABK, &
SSDSPBK, SSDSBINT, FFXPM, FFXFM, FFXFA, &
SSDSHCK, DELUST, DELTAIL, DELTAUW, &
DELU, DELALP, TAUT, TAUHFT, TAUHFT2, &
IKTAB, DCKI, QBI, SATINDICES, SATWEIGHTS, &
DIKCUMUL, CUMULW
END IF
#endif
!
#ifdef W3_ST6
IF ( WRITE ) THEN
WRITE (NDSM) SIN6A0, SDS6ET, SDS6A1, SDS6A2, &
SDS6P1, SDS6P2, SWL6S6, SWL6B1, SWL6CSTB1, &
SIN6WS, SIN6FC
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SIN6A0, SDS6ET, SDS6A1, SDS6A2, &
SDS6P1, SDS6P2, SWL6S6, SWL6B1, SWL6CSTB1, &
SIN6WS, SIN6FC
END IF
#endif
!
! ... Nonlinear interactions
!
#ifdef W3_NL1
IF ( WRITE ) THEN
WRITE (NDSM) &
SNLC1, LAM, KDCON, KDMN, SNLS1, SNLS2, SNLS3
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SNLC1, LAM, KDCON, KDMN, SNLS1, SNLS2, SNLS3
END IF
IF ( FLTEST ) WRITE (NDST,9051) SNLC1, LAM, &
KDCON, KDMN, SNLS1, SNLS2, SNLS3
#endif
!
#ifdef W3_NL2
IF ( WRITE ) THEN
WRITE (NDSM) IQTPE, NLTAIL, NDPTHS
WRITE (NDSM) DPTHNL
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
IQTPE, NLTAIL, NDPTHS
ALLOCATE ( MPARS(IGRD)%SNLPS%DPTHNL(NDPTHS) )
DPTHNL => MPARS(IGRD)%SNLPS%DPTHNL
PINIT = .TRUE.
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) DPTHNL
END IF
IF ( FLTEST ) WRITE (NDST,9051) IQTPE, NLTAIL, NDPTHS
IF ( FLTEST ) WRITE (NDST,9151) DPTHNL
#endif
!
#ifdef W3_NL3
IF ( WRITE ) THEN
WRITE (NDSM) SNLNQ, SNLMSC, SNLNSC, SNLSFD, SNLSFS
WRITE (NDSM) SNLL(1:SNLNQ), SNLM(1:SNLNQ), &
SNLT(1:SNLNQ), SNLCD(1:SNLNQ), &
SNLCS(1:SNLNQ)
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SNLNQ, SNLMSC, SNLNSC, SNLSFD, SNLSFS
ALLOCATE ( MPARS(IGRD)%SNLPS%SNLL(SNLNQ), &
MPARS(IGRD)%SNLPS%SNLM(SNLNQ), &
MPARS(IGRD)%SNLPS%SNLT(SNLNQ), &
MPARS(IGRD)%SNLPS%SNLCD(SNLNQ), &
MPARS(IGRD)%SNLPS%SNLCS(SNLNQ) )
SNLL => MPARS(IGRD)%SNLPS%SNLL
SNLM => MPARS(IGRD)%SNLPS%SNLM
SNLT => MPARS(IGRD)%SNLPS%SNLT
SNLCD => MPARS(IGRD)%SNLPS%SNLCD
SNLCS => MPARS(IGRD)%SNLPS%SNLCS
PINIT = .TRUE.
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SNLL, SNLM, SNLT, SNLCD, SNLCS
END IF
IF ( FLTEST ) WRITE (NDST,9051) SNLNQ, SNLMSC, SNLNSC, &
SNLSFD, SNLSFS
IF ( FLTEST ) THEN
DO I=1, SNLNQ
WRITE (NDST,9151) SNLL(I), SNLM(I), SNLT(I), &
SNLCD(I), SNLCS(I)
END DO
END IF
#endif
!
#ifdef W3_NL4
IF ( WRITE ) THEN
WRITE (NDSM) ITSA, IALT
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
ITSA, IALT
END IF
IF ( FLTEST ) WRITE (NDST,9051) ITSA, IALT
#endif
!
! (QL: INXOUT = Grid option ?)
#ifdef W3_NL5
IF (WRITE) THEN
CALL INSNL5
WRITE (NDSM) QR5DPT, QR5OML, QI5DIS, QI5KEV, &
QI5NNZ, QI5IPL, QI5PMX
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
QR5DPT, QR5OML, QI5DIS, QI5KEV, &
QI5NNZ, QI5IPL, QI5PMX
END IF
IF ( FLTEST ) WRITE (NDST,9051) QR5DPT, QR5OML, QI5DIS, &
QI5KEV, QI5NNZ, QI5IPL, &
QI5PMX
#endif
!
#ifdef W3_NLS
IF ( WRITE ) THEN
WRITE (NDSM) &
CNLSA, CNLSC, CNLSFM, CNLSC1, CNLSC2, CNLSC3
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
CNLSA, CNLSC, CNLSFM, CNLSC1, CNLSC2, CNLSC3
END IF
IF ( FLTEST ) WRITE (NDST,9251) &
CNLSA, CNLSC, CNLSFM, CNLSC1, CNLSC2, CNLSC3
#endif
!
#ifdef W3_NL1
IF ( .NOT. WRITE ) CALL INSNL1 ( IGRD )
#endif
#ifdef W3_NL3
IF ( .NOT. WRITE ) CALL INSNL3
#endif
#ifdef W3_NLS
IF ( .NOT. WRITE ) CALL INSNLS
#endif
!
! Layered barriers needed for file management in xnl_init
!
#ifdef W3_MPI
IF ( FLSNL2 .AND. .NOT.WRITE ) THEN
DO IP=1, IAPROC-1
CALL MPI_BARRIER ( MPI_COMM_WAVE, IERR_MPI )
END DO
END IF
#endif
#ifdef W3_NL2
IF ( .NOT. WRITE ) CALL INSNL2
#endif
#ifdef W3_MPI
IF ( FLSNL2 .AND. .NOT.WRITE ) THEN
DO IP=IAPROC, NAPROC-1
CALL MPI_BARRIER ( MPI_COMM_WAVE, IERR_MPI )
END DO
END IF
#endif
!
! ... Bottom friction ...
!
#ifdef W3_BT1
IF ( WRITE ) THEN
WRITE (NDSM) SBTC1
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) SBTC1
END IF
IF ( FLTEST ) WRITE (NDST,9052) SBTC1
#endif
!
!
#ifdef W3_BT4
IF ( WRITE ) THEN
WRITE (NDSM) &
SBTCX, SED_D50, SED_PSIC
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SBTCX, SED_D50, SED_PSIC
END IF
#endif
!
! ... Depth induced breaking ...
!
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 8')
#ifdef W3_DB1
IF ( WRITE ) THEN
WRITE (NDSM) &
SDBC1, SDBC2, FDONLY
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
SDBC1, SDBC2, FDONLY
END IF
!
IF ( FLTEST ) WRITE (NDST,9053) SDBC1, SDBC2, FDONLY
#endif
#ifdef W3_UOST
IF ( WRITE ) THEN
WRITE (NDSM) UOSTFILELOCAL, UOSTFILESHADOW, &
UOSTFACTORLOCAL, UOSTFACTORSHADOW
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
UOSTFILELOCAL, UOSTFILESHADOW, &
UOSTFACTORLOCAL, UOSTFACTORSHADOW
CALL UOST_INITGRID(IGRD, UOSTFILELOCAL, UOSTFILESHADOW, &
UOSTFACTORLOCAL, UOSTFACTORSHADOW)
#endif
#ifdef W3_UOST
END IF
#endif
!
#ifdef W3_IS1
IF ( WRITE ) THEN
WRITE (NDSM) IS1C1, IS1C2
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) IS1C1, IS1C2
END IF
#endif
!
#ifdef W3_IS2
IF ( WRITE ) THEN
WRITE (NDSM) IS2PARS
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) IS2PARS
IF ( .NOT. FLIS ) THEN
CALL INSIS2
FLIS = .TRUE.
END IF
END IF
#endif
!
! Propagation scheme ------------------------------------------------- *
! Module W3GDATMD PROP
!
#ifdef W3_PR2
IF ( WRITE ) THEN
WRITE (NDSM) DTME, CLATMN
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
DTME, CLATMN
END IF
!
IF ( FLTEST ) WRITE (NDST,9060) DTME, CLATMN
#endif
!
#ifdef W3_PR3
IF ( WRITE ) THEN
WRITE (NDSM) WDCG, WDTH
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
WDCG, WDTH
END IF
!
IF ( FLTEST ) WRITE (NDST,9060) WDCG, WDTH
#endif
!
#ifdef W3_SMC
IF ( WRITE ) THEN
WRITE(NDSM) DTMS, Refran, FUNO3, FVERG, FSWND, ARCTC
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
DTMS, Refran, FUNO3, FVERG, FSWND, ARCTC
END IF
!
IF ( FLTEST ) WRITE (NDST,9260) DTMS, Refran
#endif
!
#ifdef W3_FLD1
IF ( WRITE ) THEN
WRITE (NDSM) TAIL_ID, TAIL_LEV, TAIL_TRAN1, TAIL_TRAN2
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
TAIL_ID, TAIL_LEV, TAIL_TRAN1, TAIL_TRAN2
END IF
#endif
#ifdef W3_FLD2
IF ( WRITE ) THEN
WRITE (NDSM) TAIL_ID, TAIL_LEV, TAIL_TRAN1, TAIL_TRAN2
ELSE
READ (NDSM,END=801,ERR=802,IOSTAT=IERR) &
TAIL_ID, TAIL_LEV, TAIL_TRAN1, TAIL_TRAN2
END IF
#endif
!
! Interpolation tables ( fill locally ) ----------------------------- *
! Module W3DISPMD
!
IF ( .NOT.WRITE .AND. .NOT.FLDISP ) THEN
#ifdef W3_T
WRITE (NDST,9070)
#endif
CALL DISTAB
FLDISP = .TRUE.
END IF
!
CLOSE ( NDSM )
call print_memcheck(memunit, 'memcheck_____:'//' WIOGR SECTION 9')
!
RETURN
!
! Escape locations read errors --------------------------------------- *
!
800 CONTINUE
IF ( IAPROC .EQ. NAPERR ) WRITE (NDSE,1000) FILEXT(:IEXT), IERR
CALL EXTCDE ( 50 )
!
801 CONTINUE
IF ( IAPROC .EQ. NAPERR ) WRITE (NDSE,1001) FILEXT(:IEXT)
CALL EXTCDE ( 51 )
!
802 CONTINUE
IF ( IAPROC .EQ. NAPERR ) WRITE (NDSE,1002) FILEXT(:IEXT), IERR, &
MESSAGE
CALL EXTCDE ( 52 )
!
! Formats
!
900 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' ILEGAL INXOUT VALUE: ',A/)
901 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' ILEGAL IDSTR, READ : ',A/ &
' CHECK : ',A/)
902 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' ILEGAL VERGRD, READ : ',A/ &
' CHECK : ',A/)
904 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' ILEGAL NFBPO READ : ',I8/ &
' CHECK : ',I8/)
905 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' UNEXPECTED SOURCE TERM IDENTIFIER',I2/ &
' IN mod_def.',A,' FILE : ',A/ &
' EXPECTED FROM switch FILE : ',A,/ &
5(A,/) /)
! ' CHECK CONSISTENCY OF SWITCHES IN PROGRAMS'/)
906 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' UNEXPECTED PROPAGATION SCHEME IDENTIFIER'/ &
' IN FILE :',A/ &
' EXPECTED :',A/ &
' CHECK CONSISTENCY OF SWITCHES IN PROGRAMS'/)
907 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' UNEXPECTED GSE ALEVIATION IDENTIFIER'/ &
' IN FILE :',A/ &
' EXPECTED :',A/ &
, 5(A,/) /)
! ' CHECK CONSISTENCY OF SWITCHES IN PROGRAMS'/)
908 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR :'/ &
' UNEXPECTED FLUX PARAMETERIZATION IDENTIFIER'/ &
' IN mod_def.',A,' :',A/ &
' EXPECTED :',A/ &
, 5(A,/) /)
! ' CHECK CONSISTENCY OF SWITCHES IN PROGRAMS'/)
!
1000 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR : '/ &
' ERROR IN OPENING mod_def.',A,' FILE'/ &
' IOSTAT =',I5/)
1001 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR : '/ &
' PREMATURE END OF mod_def.',A,' FILE'/)
1002 FORMAT (/' *** WAVEWATCH III ERROR IN W3IOGR : '/, &
' ERROR IN READING FROM mod_def.',A,' FILE'/ &
' IOSTAT =',I5, &
5(A,/) /)
!
#ifdef W3_T
9000 FORMAT (' TEST W3IOGR : INXOUT = ',A,', WRITE = ',L1, &
', UNIT =',I3,', IGRD =',I3,', FEXT = ',A)
9001 FORMAT (' TEST W3IOGR : TEST PARAMETERS :'/ &
' IDSTR : ',A/ &
' VERGRD : ',A/ &
' NX/Y/SEA : ',3I10/ &
' NTH,NK : ',2I10/ &
' NBI : ',I10/ &
' NFBPO : ',2I10/ &
' GNAME : ',A/ &
' FNAME0 : ',A/ &
' FNAME1 : ',A/ &
' FNAME2 : ',A/ &
' FNAME3 : ',A/ &
' FNAME4 : ',A/ &
' FNAME5 : ',A/ &
' FNAME6 : ',A/ &
' FNAMEP : ',A/ &
' FNAMEG : ',A/ &
' FNAMEF : ',A/ &
' FNAMEI : ',A)
9002 FORMAT (' NBO : ',10I5)
9003 FORMAT (' NBO2 : ',10I5)
!
9010 FORMAT (' TEST W3IOGR : MODULE W3GDATMD GRID'/ &
' GTYPE : ',I9/ &
' FLAGLL : ',L9/ &
' ICLOSE : ',I9/ &
' SX, SY : ',2E10.3/ &
' X0, Y0 : ',2E10.3/ &
' TRFLAG : ',I9)
9011 FORMAT (' LOWER LEFT PART OF ',A)
9012 FORMAT (' ',4X,30I2)
9013 FORMAT (' ',12I6)
9014 FORMAT (' ',12F6.2)
9015 FORMAT (' STEPS : ',4F8.1/ &
' DEPTH : ',F8.1,F10.3/ &
' FICE0/N: ',F9.2,F8.2/ &
' FICEL : ',F9.1 / &
' PFMOVE : ',F9.2 / &
' STEXU : ',F9.2 / &
' STEYU : ',F9.2 / &
' STEDU : ',F9.2)
!
9016 FORMAT (' FLAGS : ',8L2)
9017 FORMAT (' CLATS : ',3F8.3,' ...'/ &
' CLATIS : ',3F8.3,' ...'/ &
' CTHG0S : ',3E11.3,' ...')
!
9020 FORMAT (' TEST W3IOGR : MODULE W3ODATMD OUT5')
9021 FORMAT (' INTERPOLATION DATA : FILE ',I1)
9022 FORMAT (' ',I5,2X,4I4,2X,4F5.2)
9023 FORMAT (' ',10I7)
9025 FORMAT (' TEST W3IOGR : MODULE W3ODATMD OUT6'/ &
' PARTITIONING DATA :',I5,3E10.3,L4,2X,I4)
!
9030 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SGRD'/ &
' MAPWN : ',8I4,' ...'/ &
' MAPTH : ',8I4,' ...'/ &
' DTH : ',F6.1/ &
' TH : ',4F6.1,' ...'/ &
' ESIN : ',4F6.3,' ...'/ &
' ECOS : ',4F6.3,' ...'/ &
' XFR : ',F6.3/ &
' FR : ',F6.3,' ...',F6.3/ &
' FACs : ',6E10.3/ &
' ',3E10.3)
!
9040 FORMAT (' TEST W3IOGR : MODULE W3GDATMD NPAR'/ &
' FACs : ',5E10.3/ &
' ',4E10.3)
#endif
!
#ifdef W3_FLX2
9048 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SFLP'/ &
' FLUXES : ',I5,3X,E10.3)
#endif
#ifdef W3_FLX3
9048 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SFLP'/ &
' FLUXES : ',2I5,3X,2E10.3)
#endif
!
#ifdef W3_LN1
9049 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SLNP'/ &
' INPUT : ',3E10.3)
#endif
!
#ifdef W3_ST1
9050 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SRCP'/ &
' INPUT : ',E10.3/ &
' DISSIP : ',E10.3)
#endif
#ifdef W3_ST2
9050 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SRCP'/ &
' INPUT : ',2E10.3/ &
' DISSIP : ',4E10.3/ &
' ',5E10.3/ &
' ',3E10.3/ &
' STAB2 : ',6E10.3)
#endif
!
#ifdef W3_NL1
9051 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP'/ &
' DATA : ',2E10.3/ &
' ',5E10.3)
#endif
!
#ifdef W3_NL2
9051 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP'/ &
' DATA : ',I4,F5.1,I4)
9151 FORMAT (' ',5F7.1)
#endif
!
#ifdef W3_NL3
9051 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP'/ &
' DATA : ',I4,4F8.3)
9151 FORMAT (' ',2F8.3,F6.1,2E12.4)
#endif
!
#ifdef W3_NL4
9051 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP'/ &
' DATA : ',I4,I4)
#endif
!
#ifdef W3_NL5
9051 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP'/ &
' DATA : ', F7.1, F8.2, 2I2.1, I12, 2I2.1)
#endif
!
#ifdef W3_NLS
9251 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SNLP (NLS)'/ &
' DATA : ',F8.3,E12.4,4F8.3)
#endif
!
#ifdef W3_BT1
9052 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SBTP'/ &
' DATA : ',E10.3)
#endif
!
#ifdef W3_DB1
9053 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SDBP'/ &
' DATA : ',2E10.3,L4)
#endif
!
#ifdef W3_PR2
9060 FORMAT (' TEST W3IOGR : MODULE W3GDATMD PROP'/ &
' DATA : ',2E10.3)
#endif
!
#ifdef W3_PR3
9060 FORMAT (' TEST W3IOGR : MODULE W3GDATMD PROP'/ &
' DATA : ',2F6.2)
#endif
!
#ifdef W3_SMC
9260 FORMAT (' TEST W3IOGR : MODULE W3GDATMD SMCG'/ &
' DATA : ',3E10.3)
#endif
!
#ifdef W3_T
9070 FORMAT (' TEST W3IOGR : DISPERSION INTEPOLATION TABLES')
#endif
!/
!/ End of W3IOGR ----------------------------------------------------- /
!/
END SUBROUTINE W3IOGR
!/
!/ End of module W3IOGRMD -------------------------------------------- /
!/
END MODULE W3IOGRMD