! -------------------------------------------------------------------- !
! Define the output types point parameters via OUTPUT_TYPE_NML namelist
!
! * the point file is a space separated values per line : lon lat 'name'
!
! * the full list of field names is :
!  All parameters listed below are available in output file of the types
!  ASCII and NetCDF. If selected output file types are grads or grib,
!  some parameters may not be available. The first two columns in the
!  table below identify such cases by flags, cols 1 (GRB) and 2 (GXO)
!  refer to grib (ww3_grib) and grads (gx_outf), respectively.
!
! Columns 3 and 4 provide group and parameter numbers per group.
! Columns 5, 6 and 7 provide:
!   5 - code name (internal)
!   6 - output tags (names used is ASCII file extensions, NetCDF
!       variable names and namelist-based selection
!   7 - Long parameter name/definition
!
!  G  G
!  R  X Grp  Param Code     Output  Parameter/Group
!  B  O Numb Numbr Name        Tag  Definition
!  --------------------------------------------------
!        1                          Forcing Fields
!   -------------------------------------------------
!  T  T  1     1   DW         DPT   Water depth.
!  T  T  1     2   C[X,Y]     CUR   Current velocity.
!  T  T  1     3   UA         WND   Wind speed.
!  T  T  1     4   AS         AST   Air-sea temperature difference.
!  T  T  1     5   WLV        WLV   Water levels.
!  T  T  1     6   ICE        ICE   Ice concentration.
!  T  T  1     7   IBG        IBG   Iceberg-induced damping.
!  T  T  1     8   D50        D50   Median sediment grain size.
!  T  T  1     9   IC1        IC1   Ice thickness.
!  T  T  1    10   IC5        IC5   Ice flow diameter.
!   -------------------------------------------------
!        2                          Standard mean wave Parameters
!   -------------------------------------------------
!  T  T  2     1   HS         HS    Wave height.
!  T  T  2     2   WLM        LM    Mean wave length.
!  T  T  2     3   T02        T02   Mean wave period (Tm0,2).
!  T  T  2     4   TM10       TM10  Mean wave period (Tm-1,0).
!  T  T  2     5   T01        T01   Mean wave period (Tm0,1).
!  T  T  2     6   FP0        FP    Peak frequency.
!  T  T  2     7   THM        DIR   Mean wave direction.
!  T  T  2     8   THS        SPR   Mean directional spread.
!  T  T  2     9   THP0       DP    Peak direction.
!  T  T  2    10   HIG        HIG   Infragravity height
!  T  T  2    11   STMAXE     MXE   Max surface elev (STE)
!  T  T  2    12   STMAXD     MXES  St Dev of max surface elev (STE)
!  T  T  2    13   HMAXE      MXH   Max wave height (STE)
!  T  T  2    14   HCMAXE     MXHC  Max wave height from crest (STE)
!  T  T  2    15   HMAXD      SDMH  St Dev of MXC (STE)
!  T  T  2    16   HCMAXD     SDMHC St Dev of MXHC (STE)
!  F  T  2    17   WBT        WBT   Domiant wave breaking probability bT
!   -------------------------------------------------
!        3                          Spectral Parameters (first 5)
!   -------------------------------------------------
!  F  F  3     1   EF         EF    Wave frequency spectrum
!  F  F  3     2   TH1M       TH1M  Mean wave direction from a1,b2
!  F  F  3     3   STH1M      STH1M Directional spreading from a1,b2
!  F  F  3     4   TH2M       TH2M  Mean wave direction from a2,b2
!  F  F  3     5   STH2M      STH2M Directional spreading from a2,b2
!  F  F  3     6   WN         WN    Wavenumber array
!   -------------------------------------------------
!        4                          Spectral Partition Parameters
!   -------------------------------------------------
!  T  T  4     1   PHS        PHS   Partitioned wave heights.
!  T  T  4     2   PTP        PTP   Partitioned peak period.
!  T  T  4     3   PLP        PLP   Partitioned peak wave length.
!  T  T  4     4   PDIR       PDIR  Partitioned mean direction.
!  T  T  4     5   PSI        PSPR  Partitioned mean directional spread.
!  T  T  4     6   PWS        PWS   Partitioned wind sea fraction.
!  T  T  4     7   PTHP0      PDP   Peak wave direction of partition.
!  T  T  4     8   PQP        PQP   Goda peakdedness parameter of partition.
!  T  T  4     9   PPE        PPE   JONSWAP peak enhancement factor of partition.
!  T  T  4    10   PGW        PGW   Gaussian frequency width of partition.
!  T  T  4    11   PSW        PSW   Spectral width of partition.
!  T  T  4    12   PTM1       PTM10 Mean wave period (Tm-1,0) of partition.
!  T  T  4    13   PT1        PT01  Mean wave period (Tm0,1) of partition.
!  T  T  4    14   PT2        PT02  Mean wave period (Tm0,2) of partition.
!  T  T  4    15   PEP        PEP   Peak spectral density of partition.
!  T  T  4    16   PWST       TWS   Total wind sea fraction.
!  T  T  4    17   PNR        PNR   Number of partitions.
!   -------------------------------------------------
!        5                          Atmosphere-waves layer
!   -------------------------------------------------
!  T  T  5     1   UST        UST   Friction velocity.
!  F  T  5     2   CHARN      CHA   Charnock parameter
!  F  T  5     3   CGE        CGE   Energy flux
!  F  T  5     4   PHIAW      FAW   Air-sea energy flux
!  F  T  5     5   TAUWI[X,Y] TAW   Net wave-supported stress
!  F  T  5     6   TAUWN[X,Y] TWA   Negative part of the wave-supported stress
!  F  F  5     7   WHITECAP   WCC   Whitecap coverage
!  F  F  5     8   WHITECAP   WCF   Whitecap thickness
!  F  F  5     9   WHITECAP   WCH   Mean breaking height
!  F  F  5    10   WHITECAP   WCM   Whitecap moment
!  F  F  5    11   FWS        FWS   Wind sea mean period
!   -------------------------------------------------
!        6                          Wave-ocean layer
!   -------------------------------------------------
!  F  F  6     1   S[XX,YY,XY] SXY  Radiation stresses.
!  F  F  6     2   TAUO[X,Y]  TWO   Wave to ocean momentum flux
!  F  F  6     3   BHD        BHD   Bernoulli head (J term)
!  F  F  6     4   PHIOC      FOC   Wave to ocean energy flux
!  F  F  6     5   TUS[X,Y]   TUS   Stokes transport
!  F  F  6     6   USS[X,Y]   USS   Surface Stokes drift
!  F  F  6     7   [PR,TP]MS  P2S   Second-order sum pressure
!  F  F  6     8   US3D       USF   Spectrum of surface Stokes drift
!  F  F  6     9   P2SMS      P2L   Micro seism  source term
!  F  F  6    10   TAUICE     TWI   Wave to sea ice stress
!  F  F  6    11   PHICE      FIC   Wave to sea ice energy flux
!   -------------------------------------------------
!        7                          Wave-bottom layer
!   -------------------------------------------------
!  F  F  7     1   ABA        ABR   Near bottom rms amplitides.
!  F  F  7     2   UBA        UBR   Near bottom rms velocities.
!  F  F  7     3   BEDFORMS   BED   Bedforms
!  F  F  7     4   PHIBBL     FBB   Energy flux due to bottom friction
!  F  F  7     5   TAUBBL     TBB   Momentum flux due to bottom friction
!   -------------------------------------------------
!        8                          Spectrum parameters
!   -------------------------------------------------
!  F  F  8     1   MSS[X,Y]   MSS   Mean square slopes
!  F  F  8     2   MSC[X,Y]   MSC   Spectral level at high frequency tail
!  F  F  8     3   WL02[X,Y]  WL02  East/X North/Y mean wavelength compon
!  F  F  8     4   ALPXT      AXT   Correl sea surface gradients (x,t)
!  F  F  8     5   ALPYT      AYT   Correl sea surface gradients (y,t)
!  F  F  8     6   ALPXY      AXY   Correl sea surface gradients (x,y)
!   -------------------------------------------------
!        9                          Numerical diagnostics
!   -------------------------------------------------
!  T  T  9     1   DTDYN      DTD   Average time step in integration.
!  T  T  9     2   FCUT       FC    Cut-off frequency.
!  T  T  9     3   CFLXYMAX   CFX   Max. CFL number for spatial advection.
!  T  T  9     4   CFLTHMAX   CFD   Max. CFL number for theta-advection.
!  F  F  9     5   CFLKMAX    CFK   Max. CFL number for k-advection.
!   -------------------------------------------------
!        10                         User defined
!   -------------------------------------------------
!  F  F  10    1              U1    User defined #1. (requires coding ...)
!  F  F  10    2              U2    User defined #1. (requires coding ...)
!   -------------------------------------------------
!
!     Section 4 consist of a set of fields, index 0 = wind sea, index
!     1:NOSWLL are first NOSWLL swell fields.
!
!
! * output track file formatted (T) or unformated (F)
!
! * coupling fields exchanged list is :
!   - Sent fields by ww3:
!       - Ocean model : T0M1 OCHA OHS DIR BHD TWO UBR FOC TAW TUS USS LM DRY
!       - Atmospheric model : ACHA AHS TP (or FP) FWS
!       - Ice model : IC5 TWI
!   - Received fields by ww3:
!       - Ocean model : SSH CUR
!       - Atmospheric model : WND
!       - Ice model : ICE IC1 IC5
!
! * namelist must be terminated with /
! * definitions & defaults:
!     TYPE%FIELD%LIST         =  'unset'
!     TYPE%POINT%FILE         =  'points.list'
!     TYPE%TRACK%FORMAT       =  T
!     TYPE%PARTITION%X0       =  0
!     TYPE%PARTITION%XN       =  0
!     TYPE%PARTITION%NX       =  0
!     TYPE%PARTITION%Y0       =  0
!     TYPE%PARTITION%YN       =  0
!     TYPE%PARTITION%NY       =  0
!     TYPE%PARTITION%FORMAT   =  T
!     TYPE%COUPLING%SENT      = 'unset'
!     TYPE%COUPLING%RECEIVED  = 'unset'
!
! -------------------------------------------------------------------- !
