$ -------------------------------------------------------------------- $
$ WAVEWATCH III Grid preprocessor input file                           $
$ -------------------------------------------------------------------- $
$ Grid name (C*30, in quotes)
$
  '1-D parameterized mud test    '
$
$ Frequency increment factor and first frequency (Hz) ---------------- $
$ number of frequencies (wavenumbers) and directions, relative offset
$ of first direction in terms of the directional increment [-0.5,0.5].
$ In versions 1.18 and 2.22 of the model this value was by definiton 0,
$ it is added to mitigate the GSE for a first order scheme. Note that
$ this factor is IGNORED in the print plots in ww3_outp.
$
   1.25 0.08  3  24  0.
$
$ Set model flags ---------------------------------------------------- $
$  - FLDRY         Dry run (input/output only, no calculation).
$  - FLCX, FLCY    Activate X and Y component of propagation.
$  - FLCTH, FLCK   Activate direction and wavenumber shifts.
$  - FLSOU         Activate source terms.
$
   F T F F F T
$
$ Set time steps ----------------------------------------------------- $
$ - Time step information (this information is always read)
$     maximum global time step, maximum CFL time step for x-y and
$     k-theta, minimum source term time step (all in seconds).
$
  300. 300. 150. 300.
$
$ Start of namelist input section ------------------------------------ $
  &PRO1 CFLTM = 0.75 /
  &PRO2 CFLTM = 0.75 /
  &PRO3 CFLTM = 0.75, WDTHCG = 0., WDTHTH = 0. /
  &PRO4 CFLTM = 0.75, RNFAC = 0., RSFAC = 0. /
END OF NAMELISTS
$ 
$
$ Define grid -------------------------------------------------------- $
$
  'RECT' F 'NONE'
   120 3
    1.0E3   1.0E3  1.
   -1.0E3  -1.0E3  1.
$
$ dlim dmin file# scale layout# format# formatdescrip filetype# filenm
  -1. 1. 10  -12. 2 1 '(....)' 'UNIT' 'input'
$ -0.1 0.1 2345  -1.0e-2 1 1 '(....)'  'NAME' '../input/depth1d.wwgrd'
$
  360*1
$
$ First grid
$
$  50 50 50 45 40 35 30 25 20 15 10  5  0
$  50 50 50 45 40 35 30 25 20 15 10  5  0
$  50 50 50 45 40 35 30 25 20 15 10  5  0
$
$ Second grid
$
$  0  5 10 15 20 25 30 35 40 45 50 50 50
$  0  5 10 15 20 25 30 35 40 45 50 50 50
$  0  5 10 15 20 25 30 35 40 45 50 50 50
$
  10  1 1 '(....)' 'PART' 'input'
$
$ Input boundary points from segment data ( FROM = PART ) ------------ $
$
$ First grid
$
   2  2  F
$
$ Second grid
$
$ 12  2  F
   0  0  F
$
$  Close list by defining point (0,0) (mandatory)
   0  0  F
$   Second, define a point in a closed body of sea points to remove
$   the entire body of sea points. Also close by point (0,0)
   0  0
$
$ Output boundary points --------------------------------------------- $
$  Close list by defining line with 0 points (mandatory)
$
   0. 0. 0. 0.  0