3 5 GfsSimulation GfsBox GfsGEdge {} {
  Time { end = 1.58928694288774963184 }
  ApproxProjectionParams { tolerance = 1e-6 }
  ProjectionParams { tolerance = 1e-6 }
  Refine floor(LEVEL + 1 - (LEVEL - 2)*fabs(y)/1.5)
  VariableTracerVOFHeight T
  VariableFiltered T1 T 1
  VariableCurvature K T
  SourceTension T 1 K
  VariablePosition Y T y
  Global {
      #define VAR(T,min,max)   (min + CLAMP(T,0,1)*(max - min))
      #define RHO(T)            VAR(T, 1.2/1000., 1.)
      #define MU(T)             VAR(T, 1.8e-5/1.003e-3, 1.)
  }
  PhysicalParams { alpha = 1./RHO(T1) }
  SourceViscosity 0.0182571749236*MU(T1)
  InitFraction T (y - 0.01*cos (2.*M_PI*x))
  OutputScalarNorm { step = 0.00198785108553814829 } {
      awk '{printf ("%g %g\n", $3*15.7402, $9); fflush(stdout); }' > wave-LEVEL
  } { v = (T > 0. && T < 1. ? Y : 0.) }
}
GfsBox {}
GfsBox {}
GfsBox {}
1 1 right
2 2 right
3 3 right
1 2 top
1 3 bottom