def meshes_to_network(meshes):
network = Network()
network.update_default_node_attributes(mesh=None, vkey=None, fkey=None)
network.update_default_edge_attributes(mesh=None, fkey=None)
for i, mesh in enumerate(meshes):
for vkey in mesh.vertices():
x, y, z = mesh.vertex_coordinates(vkey)
network.add_node(x=x, y=y, z=z, mesh=i, vkey=vkey)
for u, v in mesh.edges():
u1 = next(network.nodes_where({"vkey": u, "mesh": i}))
v1 = next(network.nodes_where({"vkey": v, "mesh": i}))
network.add_edge(u1, v1, mesh=i)
return network
d = network.add_node(x=0, y=10, z=10, is_anchor=True)
e = network.add_node(x=5, y=5, z=0)
network.add_edge(a, e, q=random.randint(1, 10))
network.add_edge(b, e, q=random.randint(1, 10))
network.add_edge(c, e, q=random.randint(1, 10))
network.add_edge(d, e, q=random.randint(1, 10))
# numerical data
n = network.number_of_nodes()
node_index = {node: index for index, node in enumerate(network.nodes())}
fixed = list(network.nodes_where({'is_anchor': True}))
free = list(network.nodes_where({'is_anchor': False}))
fixed[:] = [node_index[node] for node in fixed]
free[:] = [node_index[node] for node in free]
edges = [(node_index[u], node_index[v]) for u, v in network.edges()]
X = network.nodes_attributes('xyz')
R = network.nodes_attributes(['rx', 'ry', 'rz'])
P = network.nodes_attributes(['px', 'py', 'pz'])
Q = network.edges_attribute('q')
# compute equilibrium
X, Q, F, L, R = dr(X, edges, fixed, P, Q)
# compute all residuals in the new geometry
for node in network.nodes():
r = compute_residual(network, node)
network.node_attributes(node, ['rx', 'ry', 'rz'], r)
# visualize the geometry
layer = "ITA20::L5::FormFinding"
artist = NetworkArtist(network, layer=layer)
artist.draw_nodes(color={
node: (255, 0, 0)
for node in network.nodes_where({'is_anchor': True})
})
artist.draw_edges()
# visualize the reaction forces
lines = []
for node in network.nodes_where({'is_anchor': True}):
start = network.node_attributes(node, 'xyz')
residual = network.node_attributes(node, ['rx', 'ry', 'rz'])
end = subtract_vectors(start, residual)
color = (0, 255, 0)
lines.append({'start': start, 'end': end, 'arrow': 'end', 'color': color})
compas_rhino.draw_lines(lines, layer=layer)
c = network.add_node(x=10, y=10, z=0, is_anchor=True)
d = network.add_node(x=0, y=10, z=10, is_anchor=True)
e = network.add_node(x=5, y=5, z=0)
network.add_edge(a, e)
network.add_edge(b, e)
network.add_edge(c, e)
network.add_edge(d, e)
# visualize the geometry
layer = "ITA20::L5::FormFinding"
artist = NetworkArtist(network, layer=layer)
node_color = {node: (255, 0, 0) for node in network.nodes_where({'is_anchor': True})}
artist.draw_nodes(color=node_color)
artist.draw_edges()
# visualize the forces
height = 1.0
world = Frame.worldXY()
circle = [[0, 0, 0.5 * 0.7 * height], [0, 0, 1]], 0.05
cylinder = Cylinder(circle, 0.7 * height)
circle = [[0, 0, 0.7 * height], [0, 0, 1]], 0.1
cone = Cone(circle, 0.3 * height)
