def mean_wave_period(self, U): U = np.array(U).reshape(-1) return Adios2.mean_wave_period(U, self.water.get('wave_height'), self.water.get('fetch'))
def dissipative_wave_energy(self, H): return Adios2.dissipative_wave_energy(self.water.density, H)
def compute_H(self, U): U = np.array(U).reshape(-1) return Adios2.wave_height(U, self.water.get('fetch'))
def pseudo_wind(self, H): H = np.array(H).reshape(-1) return Adios2.wind_speed_from_height(H)
def pseudo_wind(self, H): return Adios2.wind_speed_from_height(H)
def mean_wave_period(self, U): return Adios2.mean_wave_period(U, self.water.wave_height, self.water.fetch)
def compute_H(self, U): return Adios2.wave_height(U, self.water.fetch)
def mean_wave_period(self, U): U = np.array(U).reshape(-1) return Adios2.mean_wave_period(U, self.water.wave_height, self.water.fetch)