Add edge removal method and tree repair, TODO: handle Eext
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stefiosif
@@ -17,26 +17,26 @@ public:
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Frigioni(Digraph<T> G) { this->G = G; }
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//
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// Initialize the decremental maintenance data structure for general graphs
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void init() override;
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//
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// Execute reachability query q(u, v) from vertex u to vertex v
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// in O(1) using the transitive closure matrix
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bool query(const T& u, const T& v) override;
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//
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// Delete edge e(u, v)
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void remove(const T& u, const T& v) override;
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// Delete set of edges and explicitely maintain the transitive closure
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void remove(const std::vector<std::pair<T, T>>& edges);
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private:
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// Transitive closure matrix, used to answer reachability queries in O(1)
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std::map<T, std::map<T, bool>> TC;
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// Connect each vertex with its representative SCC
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std::map<T, SCC<T>> C;
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// Each scc's representative vertex reachability tree
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// For each SCC, store a reachability tree created as a BFS tree
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std::map<T, BreadthFirstTree<T>> RT;
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// Incoming / Outgoing / Internal edges of each SCC
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// Maps each SCC representative with struct Edges
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// For each SCC, store collections of incoming, outgoing and internal edges
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struct Edges {
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std::set<std::pair<T, T>> in;
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std::set<std::pair<T, T>> inc;
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@@ -45,20 +45,19 @@ private:
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std::map<T, Edges> E;
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// Decremental maintenance of strongly connected components
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RodittyZwick<T> decremental;
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RodittyZwick<T> rodittyZwick;
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};
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template<typename T>
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void Frigioni<T>::init() {
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auto SCCs = Tarjan<T>(this->G.adjMatrix).execute();
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decremental = RodittyZwick<T>(this->G);
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decremental.init();
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rodittyZwick = RodittyZwick<T>(this->G);
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rodittyZwick.init();
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for (auto& scc : SCCs) {
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RT[scc.id] = BreadthFirstTree<T>(this->G, scc.id);
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for (const auto& u : this->G.vertices()) {
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for (const auto& v : this->G.adjMatrix[u]) {
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TC[u][v] = false;
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if (scc.member(u)) {
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if (scc.member(v))
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E[scc.id].in.insert(std::make_pair(u, v));
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@@ -67,19 +66,18 @@ void Frigioni<T>::init() {
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} else if (scc.member(v)) {
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E[scc.id].inc.insert(std::make_pair(u, v));
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}
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TC[u][v] = false;
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}
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}
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}
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for (auto& scc : SCCs) {
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for (const auto& u : this->G.vertices()) {
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if (scc.member(u)) {
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for (const auto& u : scc.vertices()) {
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for (const auto& v : RT[scc.id].vertices()) {
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TC[u][v] = true;
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}
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}
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}
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}
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}
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template<typename T>
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bool Frigioni<T>::query(const T& u, const T& v) {
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@@ -91,6 +89,84 @@ void Frigioni<T>::remove(const T& u, const T& v) {
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}
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template<typename T>
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void Frigioni<T>::remove(const std::vector<std::pair<T, T>>& edges) {
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std::vector<std::pair<T, T>> Eint;
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std::vector<std::pair<T, T>> Eext;
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// Put incoming edge removal requests in the corresponding collection
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for (const auto& [u, v] : edges) {
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if (rodittyZwick.query(u, v))
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Eint.push_back({ u, v });
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else
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Eext.push_back({ u, v });
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}
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std::map<T, std::stack<T>> H;
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// Handle SCC internal edge removals
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for (const auto& [u, v] : Eint) {
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this->G.remove(u, v);
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rodittyZwick.remove(u, v);
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if (!rodittyZwick.query(u, v)) {
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auto C = rodittyZwick.getSCCs();
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auto D = E[u]; // or E[v], the component that's been split
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E.erase(u);
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for (const auto& [w, z] : D.inc) {
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E[C[z].id].inc.insert({ w, z });
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// check if scc needs hook
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}
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for (const auto& [w, z] : D.out) {
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E[C[z].id].out.insert({ w, z });
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// check if scc needs hook
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}
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for (const auto& [w, z] : D.in) {
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if (C[w] == C[z])
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E[C[w].id].in.insert({ w, z });
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else {
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E[C[w].id].out.insert({ w, z });
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E[C[z].id].in.insert({ w, z });
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}
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}
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} else {
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E[u].in.erase({ u, v });
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}
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}
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// Handle SCC external edge removals
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for (const auto& [u, v] : Eext) {
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this->G.remove(u, v);
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// TODO
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}
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// Repair the trees
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for (const auto& id : std::views::keys(rodittyZwick.getSCCs())) {
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while (H[id].size() > 0) {
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const auto& h = H[id].top();
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bool found = false;
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for (const auto& [u, v] : E[h].inc) {
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if (RT[id].contains(id, u)) {
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RT[id].adjMatrix[u].insert(h);
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found = true;
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break;
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}
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}
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H[id].pop();
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if (!found) {
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TC[id][h] = false;
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for (const auto& [u, v] : E[h].out) {
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H[id].push(v);
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}
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}
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}
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}
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}
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} // namespace algo
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#endif
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