"""Simple water flow example using ANUGA Water driven up a linear slope and time varying boundary, similar to a beach environment """ #------------------------------------------------------------------------------ # Import necessary modules #------------------------------------------------------------------------------ import sys from anuga.abstract_2d_finite_volumes.mesh_factory import rectangular_cross from anuga.shallow_water import Domain from anuga.shallow_water import Reflective_boundary from anuga.shallow_water import Dirichlet_boundary from anuga.shallow_water import Time_boundary from anuga.shallow_water import Transmissive_boundary from anuga.shallow_water import Transmissive_Momentum_Set_Stage_boundary #from anuga.geospatial_data.geospatial_data import * from math import cos from Numeric import zeros, Float #------------------------------------------------------------------------------ # Setup computational domain #------------------------------------------------------------------------------ dx = 200. dy = dx L = 100000. W = dx # structured mesh points, vertices, boundary = rectangular_cross(int(L/dx), int(W/dy), L, W, (0.0, -W/2)) domain = Domain(points, vertices, boundary) domain.set_timestepping_method('rk2') domain.set_default_order(2) domain.set_name('myexample9') domain.set_datadir('.') # Use current directory for output domain.set_all_limiters(0.9) print domain.beta_w domain.use_old_limiter = False domain.CFL = 1.0 #------------------------------------------------------------------------------ # Setup initial conditions #------------------------------------------------------------------------------ #domain.set_quantity('elevation', topography) # Use function for elevation domain.set_quantity('elevation',0.0) domain.set_quantity('friction', 0.00) h0 = 10.0 h1 = 1.0 def height(x,y): z = zeros(len(x),Float) for i in range(len(x)): if x[i]<=50000.0: z[i] = h0 else: z[i] = h1 return z domain.set_quantity('stage', height) #domain.set_quantity('stage', 0.0) #----------------------------------------------------------------------------- # Setup boundary conditions #------------------------------------------------------------------------------ from math import sin, pi, exp Br = Reflective_boundary(domain) # Solid reflective wall Bt = Transmissive_boundary(domain) # Continue all values on boundary Bd = Dirichlet_boundary([1,0.,0.]) # Constant boundary values amplitude = 1 #Bw = Transmissive_Momentum_Set_Stage_boundary(domain=domain, Bw = Time_boundary(domain=domain, # Time dependent boundary ## Sine wave # f=lambda t: [(-amplitude*sin((1./300.)*t*2*pi)), 0.0, 0.0]) ## Single wave f=lambda t: [h0, 0.0, 0.0]) ## Sawtooth? # f=lambda t: [(-8.0*(sin((1./180.)*t*2*pi))+(1./2.)*sin((2./180.)*t*2*pi)+(1./3.)*sin((3./180.)*t*2*pi)), 0.0, 0.0]) ## Sharp rise, linear fall # f=lambda t: [(5.0*(-((t-0.)/300.)*(t<300.)-cos((t-300.)*2.*pi*(1./240.))*(t>=300. and t<420.)+(1.-(t-420.)/300.)*(t>=420. and t <720.))), 0.0, 0.0]) # f=lambda t: [amplitude*(1.-2.*(pi*(1./720.)*(t-720.))**2)/exp((pi*(1./720.)*(t-720.))**2) , 0.0, 0.0]) # f=lambda t: [(-8.0*sin((1./720.)*t*2*pi))*((t<720.)-0.5*(t<360.)), 0.0, 0.0]) # Associate boundary tags with boundary objects domain.set_boundary({'left': Bw, 'right': Bt, 'top': Br, 'bottom': Br}) #=============================================================================== from anuga.visualiser import RealtimeVisualiser vis = RealtimeVisualiser(domain) #vis.render_quantity_height("elevation", zScale=1, offset = 5.0, dynamic=False) vis.render_quantity_height("stage", zScale =10000, dynamic=True) #vis.colour_height_quantity('stage', (lambda q:q['stage'], -1.0, 1.0)) vis.colour_height_quantity('stage', (1.0, 0.5, 0.5)) vis.start() #=============================================================================== #------------------------------------------------------------------------------ # Evolve system through time #------------------------------------------------------------------------------ for t in domain.evolve(yieldstep = 50.0, finaltime = 10*40*60.): domain.write_time() vis.update() vis.evolveFinished()