# Ensure that the domain definitions make sense domain.check_integrity() # Set the inititial conditions domain.set_quantity('stage', Set_Stage(0.2, 0.4, 1.0)) # Let processor 0 output some timing information visualise = False if visualise: from anuga.visualiser import RealtimeVisualiser vis = RealtimeVisualiser(domain) vis.render_quantity_height("stage", zScale=5.0, dynamic=True) vis.colour_height_quantity('stage', (0.2, 0.2, 0.8)) vis.start() import time time.sleep(2.0) if myid == 0: import time t0 = time.time() for t in domain.evolve(yieldstep=5.0, finaltime=30.0): if myid == 0: domain.write_time() if visualise: vis.update()
Br = anuga.Reflective_boundary(domain) # Solid reflective wall Bt = anuga.Transmissive_boundary(domain) # Continue all values on boundary Bd = anuga.Dirichlet_boundary([1,0.,0.]) # Constant boundary values # Associate boundary tags with boundary objects domain.set_boundary({'left': Bt, 'right': Bt, 'top': Br, 'bottom': Br}) #=============================================================================== vtk_visualiser = True if vtk_visualiser: from anuga.visualiser import RealtimeVisualiser vis = RealtimeVisualiser(domain) vis.render_quantity_height("height",dynamic=True) #vis.render_quantity_height("stage", zScale =1.0, dynamic=True) vis.colour_height_quantity('stage', (0.0, 0.0, 1.0)) vis.start() #=============================================================================== #------------------------------------------------------------------------------ # Evolve system through time #------------------------------------------------------------------------------ i = 0 for t in domain.evolve(yieldstep = 0.01, finaltime = 0.25): #print domain.timestepping_statistics(track_speeds=True) print domain.timestepping_statistics() if vtk_visualiser: vis.update() fileName = 'stage_%03d' % i + '.vtk' i = i+1
# Ensure that the domain definitions make sense domain.check_integrity() # Set the inititial conditions domain.set_quantity('stage', Set_Stage(0.2,0.4,1.0)) # Let processor 0 output some timing information visualise = False if visualise: from anuga.visualiser import RealtimeVisualiser vis = RealtimeVisualiser(domain) vis.render_quantity_height("stage", zScale = 5.0, dynamic=True) vis.colour_height_quantity('stage', (0.2, 0.2, 0.8)) vis.start() import time time.sleep(2.0) if myid == 0: import time t0 = time.time() for t in domain.evolve(yieldstep = 5.0, finaltime = 30.0): if myid == 0: domain.write_time() if visualise: