#include "weighted_graph.h" #include #include Node::Node(std::list> neighbours_) : neighbours(std::move(neighbours_)) { } void Node::add_edge(int node_id, double weight) { neighbours.push_back(std::make_pair(node_id,weight)); } int Node::deg() const { return neighbours.size(); } WeightedGraph::WeightedGraph(size_t num_nodes) : nodes(num_nodes) { } void WeightedGraph::add_edge(int from, int to, double weight) { nodes[from].add_edge(to, weight); nodes[to].add_edge(from, weight); } std::list> WeightedGraph::adjList(int node_id) const { return (nodes[node_id]).neighbours; } int WeightedGraph::deg(int node_id) const { return nodes[node_id].deg(); } size_t WeightedGraph::num_nodes() const { return nodes.size(); } std::pair WeightedGraph::min_neighbour(int node_id) const { if (adjList(node_id).empty()) { return std::make_pair(0,0); } int result = (adjList(node_id).front()).first; int current_min = (adjList(node_id).front()).second; for (const auto& i : adjList(node_id)) { if (current_min > i.second) { current_min = i.second; result = i.first; } } return std::make_pair(result,current_min); } // removes duplicate edges, leaving only the lightest edge (guarantees m = O(n^2)) WeightedGraph WeightedGraph::remove_parallel() const { WeightedGraph G(num_nodes()); for (int i = 0; i < num_nodes(); i++) { std::unordered_map lightestEdges; for (const auto& j: adjList(i)) { int to = j.first; double weight = j.second; if (lightestEdges.find(to) == lightestEdges.end() || weight < lightestEdges[to]) { lightestEdges[to] = weight; } } for (const auto& [to, weight] : lightestEdges) { G.nodes[i].add_edge(to, weight); } } return G; }