def create_scheme(self): h0 = None hdx = None wcsph = WCSPHScheme( ['fluid'], [], dim=2, rho0=rho0, c0=c0, h0=h0, hdx=hdx, nu=None, gamma=7.0, alpha=0.0, beta=0.0 ) tvf = TVFScheme( ['fluid'], [], dim=2, rho0=rho0, c0=c0, nu=None, p0=p0, pb=None, h0=h0 ) edac = EDACScheme( ['fluid'], [], dim=2, rho0=rho0, c0=c0, nu=None, pb=p0, h=h0 ) iisph = IISPHScheme( fluids=['fluid'], solids=[], dim=2, nu=None, rho0=rho0, has_ghosts=True ) crksph = CRKSPHScheme( fluids=['fluid'], dim=2, nu=None, rho0=rho0, h0=h0, c0=c0, p0=0.0 ) gtvf = GTVFScheme( fluids=['fluid'], dim=2, rho0=rho0, c0=c0, nu=None, h0=None, p0=p0, pref=None ) pcisph = PCISPHScheme( fluids=['fluid'], dim=2, rho0=rho0, nu=None ) s = SchemeChooser( default='tvf', wcsph=wcsph, tvf=tvf, edac=edac, iisph=iisph, crksph=crksph, gtvf=gtvf, pcisph=pcisph ) return s
def create_scheme(self): aha = AdamiHuAdamsScheme(['fluid'], ['dam'], dim=2, rho0=ro, c0=co, alpha=alp, gy=-9.81, nu=0.0, h0=0.03, gamma=1.0) wcsph = WCSPHScheme(['fluid'], ['dam'], dim=2, rho0=ro, c0=co, h0=0.03, hdx=1.3, hg_correction=True, gy=-9.81, alpha=alp, gamma=gamma, update_h=True) edac = EDACScheme(['fluid'], ['dam'], dim=2, rho0=ro, c0=co, gy=-9.81, alpha=0.0, nu=0.0, h=0.03, clamp_p=True) return SchemeChooser(default='wcsph', wcsph=wcsph, aha=aha, edac=edac)
def create_scheme(self): wcsph = WCSPHScheme( ['fluid'], ['boundary'], dim=2, rho0=ro, c0=co, h0=h, hdx=1.3, gy=-9.81, alpha=alpha, beta=beta, gamma=gamma, hg_correction=True, update_h=True ) aha = AdamiHuAdamsScheme( fluids=['fluid'], solids=['boundary'], dim=2, c0=co, nu=nu, rho0=ro, h0=h, p0=0.0, gy=-g, gamma=1.0, tdamp=0.0, alpha=alpha ) edac = EDACScheme( fluids=['fluid'], solids=['boundary'], dim=2, c0=co, nu=nu, rho0=ro, h=h, pb=0.0, gy=-g, eps=0.0, clamp_p=True ) iisph = IISPHScheme( fluids=['fluid'], solids=['boundary'], dim=2, nu=nu, rho0=ro, gy=-g ) gtvf = GTVFScheme( fluids=['fluid'], solids=['boundary'], dim=2, nu=nu, rho0=ro, gy=-g, h0=None, c0=co, pref=None ) sisph = SISPHScheme( fluids=['fluid'], solids=['boundary'], dim=2, nu=nu, c0=co, rho0=ro, alpha=0.05, gy=-g, pref=ro*co**2, internal_flow=False, hg_correction=True, gtvf=True, symmetric=True ) s = SchemeChooser(default='wcsph', wcsph=wcsph, aha=aha, edac=edac, iisph=iisph, gtvf=gtvf, sisph=sisph) return s
def create_scheme(self): wcsph = WCSPHScheme(['fluid'], ['wall', 'paddle', 'obstacle'], dim=2, rho0=ro, c0=co, h0=0.01, hdx=1.3, gy=-9.81, hg_correction=True, alpha=alp, gamma=gamma, update_h=True) edac = EDACScheme(['fluid'], ['wall', 'paddle', 'obstacle'], dim=2, rho0=ro, c0=co, gy=-9.81, alpha=alp, nu=0.0, h=0.01, clamp_p=True) aha = AdamiHuAdamsScheme(['fluid'], ['wall', 'paddle', 'obstacle'], dim=2, rho0=ro, h0=0.01, gamma=1.0, alpha=alp, gy=-9.81, nu=0.0, c0=co) return SchemeChooser(default='wcsph', aha=aha, wcsph=wcsph, edac=edac)
def create_scheme(self): h0 = None hdx = None wcsph = WCSPHScheme(['fluid'], [], dim=2, rho0=rho0, c0=c0, h0=h0, hdx=hdx, nu=None, gamma=7.0, alpha=0.0, beta=0.0) tvf = TVFScheme(['fluid'], [], dim=2, rho0=rho0, c0=c0, nu=None, p0=p0, pb=None, h0=h0) edac = EDACScheme(['fluid'], [], dim=2, rho0=rho0, c0=c0, nu=None, pb=p0, h=h0) s = SchemeChooser(default='tvf', wcsph=wcsph, tvf=tvf, edac=edac) return s
def create_scheme(self): wcsph = WCSPHScheme(['fluid'], ['wall', 'cube'], dim=2, rho0=ro, h0=0.03, hdx=1.3, hg_correction=True, c0=co, gy=-9.81, alpha=alp, gamma=gamma, update_h=True) edac = EDACScheme(['fluid'], ['wall', 'cube'], dim=2, rho0=ro, c0=co, alpha=alp, nu=0.0, h=0.03, gy=-9.81, clamp_p=True) return SchemeChooser(default='wcsph', wcsph=wcsph, edac=edac)
def create_scheme(self): s = EDACScheme(['fluid'], ['solid'], dim=2, rho0=rho, c0=c0, gy=-9.81, alpha=0.0, nu=0.0, h=h0, clamp_p=True) return s
def create_scheme(self): h = nu = None s = EDACScheme(['fluid'], ['solid'], dim=2, rho0=rho, c0=c0, h=h, pb=p0, nu=nu, inlet_outlet_manager=None, inviscid_solids=['wall']) return s
def create_scheme(self): wcsph = WCSPHScheme(['fluid'], ['boundary'], dim=2, rho0=ro, c0=co, h0=h, hdx=1.3, gy=-9.81, alpha=alpha, beta=beta, gamma=gamma, hg_correction=True, update_h=True) aha = AdamiHuAdamsScheme(fluids=['fluid'], solids=['boundary'], dim=2, c0=co, nu=nu, rho0=ro, h0=h, p0=0.0, gy=-g, gamma=1.0, tdamp=0.0, alpha=alpha) edac = EDACScheme(fluids=['fluid'], solids=['boundary'], dim=2, c0=co, nu=nu, rho0=ro, h=h, pb=0.0, gy=-g, eps=0.0, clamp_p=True) iisph = IISPHScheme(fluids=['fluid'], solids=['boundary'], dim=2, nu=nu, rho0=ro, gy=-g) s = SchemeChooser(default='wcsph', wcsph=wcsph, aha=aha, edac=edac, iisph=iisph) return s
def create_scheme(self): '''Other scheme can be added here''' h0 = nu = None self.iom = self._create_inlet_outlet_manager() edac = EDACScheme(['fluid'], ['solid'], dim=2, rho0=rho, c0=c0, h=h0, pb=None, nu=nu, alpha=0.2, inlet_outlet_manager=self.iom, inviscid_solids=['wall']) s = SchemeChooser(default='edac', edac=edac) return s
def test_scheme_chooser_does_not_clobber_default(): # When wcsph = WCSPHScheme( ['f'], ['b'], dim=2, rho0=1.0, c0=10.0, h0=0.1, hdx=1.3, alpha=0.2, beta=0.1, ) edac = EDACScheme(fluids=['f'], solids=['b'], dim=2, c0=10.0, nu=0.001, rho0=1.0, h=0.1, alpha=0.0, pb=0.0) s = SchemeChooser(default='wcsph', wcsph=wcsph, edac=edac) p = ArgumentParser(conflict_handler="resolve") s.add_user_options(p) opts = p.parse_args([]) # When s.consume_user_options(opts) # Then assert s.scheme.alpha == 0.2 assert s.scheme.beta == 0.1 # When opts = p.parse_args(['--alpha', '0.3', '--beta', '0.4']) s.consume_user_options(opts) # Then assert s.scheme.alpha == 0.3 assert s.scheme.beta == 0.4
def create_scheme(self): tvf = TVFScheme(['fluid'], ['solid'], dim=2, rho0=rho0, c0=c0, nu=None, p0=p0, pb=p0, h0=hdx) edac = EDACScheme( fluids=['fluid'], solids=['solid'], dim=2, c0=c0, rho0=rho0, nu=0.0, pb=p0, eps=0.0, h=0.0, ) s = SchemeChooser(default='tvf', tvf=tvf, edac=edac) return s