Brainstorming
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tests/pubsub/test_random_topology.py
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tests/pubsub/test_random_topology.py
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import asyncio
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import multiaddr
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import pytest
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import random
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from tests.utils import cleanup
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from libp2p import new_node
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from libp2p.peer.peerinfo import info_from_p2p_addr
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from libp2p.pubsub.pb import rpc_pb2
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from libp2p.pubsub.pubsub import Pubsub
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from libp2p.pubsub.floodsub import FloodSub
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from utils import generate_message_id, generate_RPC_packet
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# pylint: disable=too-many-locals
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async def connect(node1, node2):
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"""
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Connect node1 to node2
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"""
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addr = node2.get_addrs()[0]
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info = info_from_p2p_addr(addr)
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await node1.connect(info)
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async def perform_test_from_obj(obj):
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"""
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Perform a floodsub test from a test obj.
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test obj are composed as follows:
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{
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"supported_protocols": ["supported/protocol/1.0.0",...],
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"adj_list": {
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"node1": ["neighbor1_of_node1", "neighbor2_of_node1", ...],
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"node2": ["neighbor1_of_node2", "neighbor2_of_node2", ...],
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...
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},
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"topic_map": {
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"topic1": ["node1_subscribed_to_topic1", "node2_subscribed_to_topic1", ...]
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},
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"messages": [
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{
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"topics": ["topic1_for_message", "topic2_for_message", ...],
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"data": "some contents of the message (newlines are not supported)",
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"node_id": "message sender node id"
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},
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...
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]
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}
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NOTE: In adj_list, for any neighbors A and B, only list B as a neighbor of A
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or B as a neighbor of A once. Do NOT list both A: ["B"] and B:["A"] as the behavior
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is undefined (even if it may work)
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"""
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# Step 1) Create graph
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adj_list = obj["adj_list"]
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node_map = {}
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floodsub_map = {}
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pubsub_map = {}
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supported_protocols = obj["supported_protocols"]
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tasks_connect = []
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for start_node_id in adj_list:
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# Create node if node does not yet exist
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if start_node_id not in node_map:
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node = await new_node(transport_opt=["/ip4/127.0.0.1/tcp/0"])
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await node.get_network().listen(multiaddr.Multiaddr("/ip4/127.0.0.1/tcp/0"))
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node_map[start_node_id] = node
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floodsub = FloodSub(supported_protocols)
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floodsub_map[start_node_id] = floodsub
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pubsub = Pubsub(node, floodsub, start_node_id)
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pubsub_map[start_node_id] = pubsub
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# For each neighbor of start_node, create if does not yet exist,
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# then connect start_node to neighbor
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for neighbor_id in adj_list[start_node_id]:
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# Create neighbor if neighbor does not yet exist
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if neighbor_id not in node_map:
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neighbor_node = await new_node(transport_opt=["/ip4/127.0.0.1/tcp/0"])
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await neighbor_node.get_network().listen(multiaddr.Multiaddr("/ip4/127.0.0.1/tcp/0"))
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node_map[neighbor_id] = neighbor_node
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floodsub = FloodSub(supported_protocols)
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floodsub_map[neighbor_id] = floodsub
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pubsub = Pubsub(neighbor_node, floodsub, neighbor_id)
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pubsub_map[neighbor_id] = pubsub
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# Connect node and neighbor
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# await connect(node_map[start_node_id], node_map[neighbor_id])
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tasks_connect.append(asyncio.ensure_future(connect(node_map[start_node_id], node_map[neighbor_id])))
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tasks_connect.append(asyncio.sleep(2))
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await asyncio.gather(*tasks_connect)
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# Allow time for graph creation before continuing
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# await asyncio.sleep(0.25)
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# Step 2) Subscribe to topics
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queues_map = {}
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topic_map = obj["topic_map"]
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tasks_topic = []
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tasks_topic_data = []
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for topic in topic_map:
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for node_id in topic_map[topic]:
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"""
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# Subscribe node to topic
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q = await pubsub_map[node_id].subscribe(topic)
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# Create topic-queue map for node_id if one does not yet exist
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if node_id not in queues_map:
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queues_map[node_id] = {}
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# Store queue in topic-queue map for node
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queues_map[node_id][topic] = q
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"""
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tasks_topic.append(asyncio.ensure_future(pubsub_map[node_id].subscribe(topic)))
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tasks_topic_data.append((node_id, topic))
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tasks_topic.append(asyncio.sleep(2))
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# Gather is like Promise.all
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responses = await asyncio.gather(*tasks_topic, return_exceptions=True)
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for i in range(len(responses) - 1):
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q = responses[i]
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node_id, topic = tasks_topic_data[i]
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if node_id not in queues_map:
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queues_map[node_id] = {}
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# Store queue in topic-queue map for node
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queues_map[node_id][topic] = q
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# Allow time for subscribing before continuing
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# await asyncio.sleep(0.01)
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# Step 3) Publish messages
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topics_in_msgs_ordered = []
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messages = obj["messages"]
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tasks_publish = []
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for msg in messages:
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topics = msg["topics"]
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data = msg["data"]
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node_id = msg["node_id"]
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# Get actual id for sender node (not the id from the test obj)
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actual_node_id = str(node_map[node_id].get_id())
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# Create correctly formatted message
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msg_talk = generate_RPC_packet(actual_node_id, topics, data, generate_message_id())
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# Publish message
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# await floodsub_map[node_id].publish(actual_node_id, msg_talk.to_str())
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tasks_publish.append(asyncio.ensure_future(floodsub_map[node_id].publish(\
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actual_node_id, msg_talk.SerializeToString())))
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# For each topic in topics, add topic, msg_talk tuple to ordered test list
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# TODO: Update message sender to be correct message sender before
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# adding msg_talk to this list
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for topic in topics:
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topics_in_msgs_ordered.append((topic, msg_talk))
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# Allow time for publishing before continuing
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# await asyncio.sleep(0.4)
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tasks_publish.append(asyncio.sleep(2))
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await asyncio.gather(*tasks_publish)
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# Step 4) Check that all messages were received correctly.
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# TODO: Check message sender too
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for i in range(len(topics_in_msgs_ordered)):
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topic, actual_msg = topics_in_msgs_ordered[i]
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for node_id in topic_map[topic]:
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# Get message from subscription queue
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msg_on_node_str = await queues_map[node_id][topic].get()
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assert actual_msg.publish[0].SerializeToString() == msg_on_node_str.SerializeToString()
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# Success, terminate pending tasks.
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await cleanup()
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# @pytest.mark.asyncio
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# async def test_simple_two_nodes_test_obj():
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# test_obj = {
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# "supported_protocols": ["/floodsub/1.0.0"],
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# "adj_list": {
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# "A": ["B"],
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# "B": ["A"]
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# },
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# "topic_map": {
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# "topic1": ["B"]
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# },
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# "messages": [
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# {
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# "topics": ["topic1"],
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# "data": "foo",
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# "node_id": "A"
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# }
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# ]
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# }
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# await perform_test_from_obj(test_obj)
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def generate_random_topology(num_nodes, topic_density, num_topics, max_nodes_per_topic, max_msgs_per_topic):
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nodes = range(num_nodes)
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# Create a separate graph for each topic
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topic_graphs = {}
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for topic in range(num_topics):
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# TODO: Pick random num of nodes to be in topic (at least 1)
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num_nodes_in_topic = max_nodes_per_topic
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nodes_in_topic = random.sample(nodes, num_nodes_in_topic)
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print("***Nodes in topic***")
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print(num_nodes_in_topic)
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print(nodes_in_topic)
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# Create initial graph by connecting each node to its previous node
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# This ensures the graph is connected
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graph = {}
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graph[nodes_in_topic[0]] = []
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max_num_edges = num_nodes_in_topic * (num_nodes_in_topic - 1) / 2
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num_edges = 1
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for i in range(1, len(nodes_in_topic)):
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prev = nodes_in_topic[i - 1]
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curr = nodes_in_topic[i]
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graph[curr] = [prev]
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graph[prev].append(curr)
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num_edges += 1
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# Add random edges until topic density is hit
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while num_edges / max_num_edges < topic_density:
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selected_nodes = random.sample(nodes_in_topic, 2)
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# Only add the nodes as neighbors if they are not already neighbors
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if selected_nodes[0] not in graph[selected_nodes[1]]:
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graph[selected_nodes[0]].append(selected_nodes[1])
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graph[selected_nodes[1]].append(selected_nodes[0])
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num_edges += 1
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topic_graphs[topic] = graph
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print(graph)
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# Generate network graph from union of topic graphs
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network_graph = {}
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for topic in topic_graphs:
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graph = topic_graphs[topic]
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for node in graph:
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# Add node if not in network graph
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if node not in network_graph:
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network_graph[node] = []
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for neighbor in graph[node]:
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# Add neighbor if not in network graph
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if neighbor not in network_graph:
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network_graph[neighbor] = []
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# Add edge if not in network graph
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if neighbor not in network_graph[node]:
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network_graph[node].append(neighbor)
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network_graph[neighbor].append(node)
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def test_simple_random():
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num_nodes = 4
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topic_density = 0.5
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num_topics = 2
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max_nodes_per_topic = 4
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max_msgs_per_topic = 1
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topology = generate_random_topology(num_nodes, topic_density, num_topics,\
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max_nodes_per_topic, max_msgs_per_topic)
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print("TOPOLOGY")
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print(topology)
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