Refactor experiments
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@ -154,7 +154,7 @@ def degree_avg(edges, digits=2):
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return round(mean(degrees.values()), digits)
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def bus_network(n=30, infected_idx=0) -> tuple[Graph, float]:
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def bus_network(n=30, infected_idx=0) -> tuple[Graph, float, int]:
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network = Graph()
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nodes = [Node() for _ in range(n)]
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nodes[infected_idx].is_infected = True
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@ -181,7 +181,7 @@ def star_network(cluster_count=5, starsize=6) -> tuple[Graph, float, int]:
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return network, degree_avg(edges), node_count
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def ring_network(n=30) -> tuple[Graph, float]:
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def ring_network(n=30) -> tuple[Graph, float, int]:
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network = Graph()
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nodes = [Node() for _ in range(n)]
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nodes[0].is_infected = True
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@ -200,51 +200,37 @@ def summary(average_degrees: list[float], propagation_speeds: list[float]) -> No
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fig.savefig("summary.png")
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plt.show()
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def bus_experiment():
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def experiment(network, avg_degree, node_count):
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degrees = []
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speeds = []
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sizes = [0, 8, 15]
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for i in sizes:
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bus, bus_avg_degree, node_count = bus_network(20 + i)
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do_graph_animation(f'bus{i}.gif', bus, 90, nx.spiral_layout)
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speeds.append(bus.rounds_survived / node_count)
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degrees.append(bus_avg_degree)
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do_graph_animation(f'bus{i}.gif', network, 90, nx.spiral_layout)
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speeds.append(network.rounds_survived / node_count)
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degrees.append(avg_degree)
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print(f"\n{node_count} NODE BUS")
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print(f"average degree = {bus_avg_degree}")
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print(f"average degree = {avg_degree}")
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print(f"propagation speed = {round(speeds[-1], 2)}")
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print(f"bus_{i} rounds survived = {bus.rounds_survived + 1}")
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print(f"bus_{i} rounds survived = {network.rounds_survived + 1}")
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summary(degrees, speeds)
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def bus_experiment():
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bus, bus_avg_degree, node_count = bus_network(20 + i)
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experiment(bus, bus_avg_degree, node_count)
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def ring_experiment():
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degrees = []
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speeds = []
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sizes = [0, 8, 15]
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for i in sizes:
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ring, ring_avg_degree, node_count = ring_network(20 + i)
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do_graph_animation(f'ring{i}.gif', ring, 90, nx.spiral_layout)
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speeds.append(ring.rounds_survived / node_count)
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degrees.append(ring_avg_degree)
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print(f"\n{node_count} NODE RING")
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print(f"average degree = {ring_avg_degree}")
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print(f"propagation speed = {round(speeds[-1], 2)}")
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print(f"ring_{i} rounds survived = {ring.rounds_survived + 1}")
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experiment(ring, ring_avg_degree, node_count)
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def star_experiment():
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degrees = []
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speeds = []
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sizes = range(0, 8, 2)
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for i in sizes:
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star, star_avg_degree, node_count = star_network(cluster_count=3 + i, starsize=3 + i)
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do_graph_animation(f'star{i}.gif', star, 120, nx.kamada_kawai_layout)
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speeds.append(star.rounds_survived / node_count)
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degrees.append(star_avg_degree)
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print(f"\n{node_count} NODE STAR")
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print(f"average degree = {star_avg_degree}")
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print(f"propagation speed = {round(speeds[-1], 2)}")
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print(f"star_{i} rounds survived = {star.rounds_survived + 1}")
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experiment(star, star_avg_degree, node_count)
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summary(degrees, speeds)
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def main():
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bus_experiment()
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