Python Mesh.edge_length Examples

Example #1

def nurbs_to_mesh(srf,trg_len,vis):
    
    crvs = rs.DuplicateEdgeCurves(srf) 
    
    if len(crvs)>1:
        joint = rs.JoinCurves(crvs,True)
        if joint:
            if len(joint) > 2:
                print "hole" 
    else:
        if rs.IsCurveClosed(crvs[0]):
            joint = [crvs[0]]
            print "closed"#e.g. if it is a disk
        else:
            print "Surface need to be split"#e.g. if it is a sphere
            return None
         

    
    #sort curves (this is cheating: the longer curve is not necessarily the outer boundary!) 
    #todo: an inside outside comparison in uv space
    crvs_len = [rs.CurveLength(crv) for crv in joint] 
    crvs  = [x for (_,x) in sorted(zip(crvs_len,joint))]
    
    outer_crv =  crvs[-1]
    inner_crvs = crvs[:-1]
    
    outer_bound_pts = get_boundary_points(outer_crv,trg_len)
    if inner_crvs: inner_bounds_pts = [get_boundary_points(crvs,trg_len) for crvs in inner_crvs]
    
    all_pts = copy.copy(outer_bound_pts)
    if inner_crvs: 
        for pts in inner_bounds_pts:
            all_pts += pts
    
    outbound_keys = get_boundary_indecies(outer_bound_pts,all_pts)

    inbounds_keys = []
    if inner_crvs:
        for inner_bound_pts in inner_bounds_pts:
            inbounds_keys.append(get_boundary_indecies(inner_bound_pts,all_pts))   
     

    rs.DeleteObjects(crvs)        

    all_pts_uv = convert_to_uv_space(srf,all_pts) 
    tris = delaunay(all_pts_uv,outbound_keys,inbounds_keys)
    
    mesh = Mesh()
    
    for i,pt in enumerate(all_pts):
        mesh.add_vertex(str(i),{'x' : pt[0], 'y' : pt[1], 'z' : pt[2]})
    for tri in tris:
        mesh.add_face(tri)  
    
    edge_lengths = []
    for u, v in mesh.edges():
        edge_lengths.append(mesh.edge_length(u, v))
    
    target_start = max(edge_lengths)/2

    rs.EnableRedraw(False)
    
    srf_id = rs.coerceguid(srf, True)
    brep = rs.coercebrep(srf_id, False)   
    tolerance = rs.UnitAbsoluteTolerance()
    
    fixed = outbound_keys+[item for sublist in inbounds_keys for item in sublist]
    user_func = wrapper(brep,tolerance,fixed,vis)
    

    remesh(mesh,trg_len,
       tol=0.1, divergence=0.01, kmax=300,
       target_start=target_start, kmax_approach=150,
       verbose=False, allow_boundary=False,
       ufunc=user_func)
 
    for k in xrange(10):
        mesh_smooth_centroid(mesh,fixed=fixed,kmax=1) 
        user_func(mesh,k)
    
    return draw_light(mesh,temp = False) 
    

    
    
    


    

Example #2

def nurbs_to_mesh_ani(srf,trg_len_min,trg_len_max,vis):
    trg_len = trg_len_max
    
    
    u_div = 30
    v_div = 30
    u_domain = rs.SurfaceDomain(srf, 0)
    v_domain = rs.SurfaceDomain(srf, 1)
    u = (u_domain[1] - u_domain[0]) / (u_div - 1)
    v = (v_domain[1] - v_domain[0]) / (v_div - 1)
    

    gauss = []
    for i in xrange(u_div):
        for j in xrange(v_div):
            data = rs.SurfaceCurvature (srf, (u_domain[0] + u * i, v_domain[0] + v * j))
            gauss.append(abs(data[7]))
            pt = rs.EvaluateSurface(srf,u_domain[0] + u * i, v_domain[0] + v * j)
            #rs.AddTextDot(round(abs(data[7]),3),pt)
    gauss_max = max(gauss)
    gauss_min = min(gauss)
    
    print gauss_max
    print gauss_min
    

            
    crvs = rs.DuplicateEdgeCurves(srf) 
    
    if len(crvs)>1:
        joint = rs.JoinCurves(crvs,True)
        if joint:
            if len(joint) > 2:
                print "hole" 
    else:
        if rs.IsCurveClosed(crvs[0]):
            joint = [crvs[0]]
            print "closed"#e.g. if it is a disk
        else:
            print "Surface need to be split"#e.g. if it is a sphere
            return None
         

    
    #sort curves (this is cheating: the longer curve is not necessarily the outer boundary!) 
    #todo: an inside outside comparison in uv space
    crvs_len = [rs.CurveLength(crv) for crv in joint] 
    crvs  = [x for (_,x) in sorted(zip(crvs_len,joint))]
    
    outer_crv =  crvs[-1]
    inner_crvs = crvs[:-1]
    
    outer_bound_pts = get_boundary_points(outer_crv,trg_len)
    if inner_crvs: inner_bounds_pts = [get_boundary_points(crvs,trg_len) for crvs in inner_crvs]
    
    all_pts = copy.copy(outer_bound_pts)
    if inner_crvs: 
        for pts in inner_bounds_pts:
            all_pts += pts
    
    outbound_keys = get_boundary_indecies(outer_bound_pts,all_pts)

    inbounds_keys = []
    if inner_crvs:
        for inner_bound_pts in inner_bounds_pts:
            inbounds_keys.append(get_boundary_indecies(inner_bound_pts,all_pts))   
     

    rs.DeleteObjects(crvs)        

    all_pts_uv = convert_to_uv_space(srf,all_pts) 
    tris = delaunay(all_pts_uv,outbound_keys,inbounds_keys)
    
    mesh = Mesh()
    
    for i,pt in enumerate(all_pts):
        mesh.add_vertex(str(i),{'x' : pt[0], 'y' : pt[1], 'z' : pt[2]})
    for tri in tris:
        mesh.add_face(tri)  
    
    edge_lengths = []
    for u, v in mesh.edges():
        edge_lengths.append(mesh.edge_length(u, v))
    
    target_start = max(edge_lengths)/22

    rs.EnableRedraw(False)
    
    srf_id = rs.coerceguid(srf, True)
    brep = rs.coercebrep(srf_id, False)   
    tolerance = rs.UnitAbsoluteTolerance()
    
    fixed = outbound_keys+[item for sublist in inbounds_keys for item in sublist]
    user_func = wrapper(brep,tolerance,fixed,vis)
    

    remesh_ani(srf,mesh,trg_len_min,trg_len_max,gauss_min,gauss_max,
       tol=0.1, divergence=0.008, kmax=400,
       target_start=target_start, kmax_approach=200,
       verbose=False, allow_boundary=False,
       ufunc=user_func)
 
    for k in xrange(1):
        mesh_smooth_on_local_plane(mesh,k=1,d=0.2,fixed=fixed)  
        user_func(mesh,k)
    
    return draw_light(mesh,temp = False)