Merge pull request #3946 from rmlarsen/toposort

Speed up TopoSort by 2.7-3.3x.
2023-10-17 13:00:18 +01:00 · 2023-10-17 13:00:18 +01:00 · d21c464ae4
parent 5f78d1d03e bc0df04e06
commit d21c464ae4
5 changed files with 102 additions and 52 deletions
--- a/kernel/utils.h
+++ b/kernel/utils.h
@ -128,41 +128,103 @@ public:
 // A simple class for topological sorting
 // ------------------------------------------------

-template<typename T, typename C = std::less<T>>
-struct TopoSort
+template <typename T, typename C = std::less<T>, typename OPS = hash_ops<T>> class TopoSort
 {
-	bool analyze_loops, found_loops;
-	std::map<T, std::set<T, C>, C> database;
-	std::set<std::set<T, C>> loops;
-	std::vector<T> sorted;
+      public:
+	// We use this ordering of the edges in the adjacency matrix for
+	// exact compatibility with an older implementation.
+	struct IndirectCmp {
+                IndirectCmp(const std::vector<T> &nodes) : node_cmp_(), nodes_(nodes) {}
+		bool operator()(int a, int b) const
+		{
+                        log_assert(static_cast<size_t>(a) < nodes_.size());
+			log_assert(static_cast<size_t>(b) < nodes_.size());
+			return node_cmp_(nodes_[a], nodes_[b]);
+		}
+		const C node_cmp_;
+		const std::vector<T> &nodes_;
+	};

-	TopoSort()
+	bool analyze_loops;
+	std::map<T, int, C> node_to_index;
+	std::vector<std::set<int, IndirectCmp>> edges;
+	std::vector<T> sorted;
+	std::set<std::set<T, C>> loops;
+
+	TopoSort() : indirect_cmp(nodes)
 	{
 		analyze_loops = true;
 		found_loops = false;
 	}

-	void node(T n)
+	int node(T n)
 	{
-		if (database.count(n) == 0)
-			database[n] = std::set<T, C>();
+                auto rv = node_to_index.emplace(n, static_cast<int>(nodes.size()));
+                if (rv.second) {
+      	              nodes.push_back(n);
+		      edges.push_back(std::set<int, IndirectCmp>(indirect_cmp));
+		}
+		return rv.first->second;
 	}

-	void edge(T left, T right)
+	void edge(int l_index, int r_index) { edges[r_index].insert(l_index); }
+
+	void edge(T left, T right) { edge(node(left), node(right)); }
+
+	bool has_node(const T &node) { return node_to_index.find(node) != node_to_index.end(); }
+
+	bool sort()
 	{
-		node(left);
-		database[right].insert(left);
+		log_assert(GetSize(node_to_index) == GetSize(edges));
+		log_assert(GetSize(nodes) == GetSize(edges));
+
+		loops.clear();
+		sorted.clear();
+		found_loops = false;
+
+		std::vector<bool> marked_cells(edges.size(), false);
+		std::vector<bool> active_cells(edges.size(), false);
+		std::vector<int> active_stack;
+		sorted.reserve(edges.size());
+
+		for (const auto &it : node_to_index)
+			sort_worker(it.second, marked_cells, active_cells, active_stack);
+
+		log_assert(GetSize(sorted) == GetSize(nodes));
+
+		return !found_loops;
 	}

-	void sort_worker(const T &n, std::set<T, C> &marked_cells, std::set<T, C> &active_cells, std::vector<T> &active_stack)
+	// Build the more expensive representation of edges for
+	// a few passes that use it directly.
+	std::map<T, std::set<T, C>, C> get_database()
 	{
-		if (active_cells.count(n)) {
+		std::map<T, std::set<T, C>, C> database;
+		for (size_t i = 0; i < nodes.size(); ++i) {
+			std::set<T, C> converted_edge_set;
+			for (int other_node : edges[i]) {
+				converted_edge_set.insert(nodes[other_node]);
+			}
+			database.emplace(nodes[i], converted_edge_set);
+		}
+		return database;
+	}
+
+      private:
+	bool found_loops;
+	std::vector<T> nodes;
+	const IndirectCmp indirect_cmp;
+
+	void sort_worker(const int root_index, std::vector<bool> &marked_cells, std::vector<bool> &active_cells, std::vector<int> &active_stack)
+	{
+		if (active_cells[root_index]) {
 			found_loops = true;
 			if (analyze_loops) {
 				std::set<T, C> loop;
-				for (int i = GetSize(active_stack)-1; i >= 0; i--) {
-					loop.insert(active_stack[i]);
-					if (active_stack[i] == n)
+				for (int i = GetSize(active_stack) - 1; i >= 0; i--) {
+					const int index = active_stack[i];
+					loop.insert(nodes[index]);
+					if (index == root_index)
 						break;
 				}
 				loops.insert(loop);
@ -170,42 +232,24 @@ struct TopoSort
 			return;
 		}

-		if (marked_cells.count(n))
+		if (marked_cells[root_index])
 			return;

-		if (!database.at(n).empty())
-		{
+		if (!edges[root_index].empty()) {
 			if (analyze_loops)
-				active_stack.push_back(n);
-			active_cells.insert(n);
+				active_stack.push_back(root_index);
+			active_cells[root_index] = true;

-			for (auto &left_n : database.at(n))
+			for (int left_n : edges[root_index])
 				sort_worker(left_n, marked_cells, active_cells, active_stack);

 			if (analyze_loops)
 				active_stack.pop_back();
-			active_cells.erase(n);
+			active_cells[root_index] = false;
 		}

-		marked_cells.insert(n);
-		sorted.push_back(n);
-	}
-
-	bool sort()
-	{
-		loops.clear();
-		sorted.clear();
-		found_loops = false;
-
-		std::set<T, C> marked_cells;
-		std::set<T, C> active_cells;
-		std::vector<T> active_stack;
-
-		for (auto &it : database)
-			sort_worker(it.first, marked_cells, active_cells, active_stack);
-
-		log_assert(GetSize(sorted) == GetSize(database));
-		return !found_loops;
+		marked_cells[root_index] = true;
+		sorted.push_back(nodes[root_index]);
 	}
 };

--- a/passes/cmds/glift.cc
+++ b/passes/cmds/glift.cc
@ -582,7 +582,7 @@ struct GliftPass : public Pass {
 			for (auto cell : module->selected_cells()) {
 				RTLIL::Module *tpl = design->module(cell->type);
 				if (tpl != nullptr) {
-					if (topo_modules.database.count(tpl) == 0)
+					if (!topo_modules.has_node(tpl))
 						worklist.push_back(tpl);
 					topo_modules.edge(tpl, module);
 					non_top_modules.insert(cell->type);
--- a/passes/opt/opt_expr.cc
+++ b/passes/opt/opt_expr.cc
@ -424,13 +424,19 @@ void replace_const_cells(RTLIL::Design *design, RTLIL::Module *module, bool cons
 						for (auto &bit : sig)
 							outbit_to_cell[bit].insert(cell);
 				}
-			cells.node(cell);
+                        cells.node(cell);
 		}

-	for (auto &it_right : cell_to_inbit)
-	for (auto &it_sigbit : it_right.second)
-	for (auto &it_left : outbit_to_cell[it_sigbit])
-		cells.edge(it_left, it_right.first);
+        // Build the graph for the topological sort.
+	for (auto &it_right : cell_to_inbit) {
+          const int r_index = cells.node(it_right.first);
+          for (auto &it_sigbit : it_right.second) {
+            for (auto &it_left : outbit_to_cell[it_sigbit]) {
+              const int l_index = cells.node(it_left);
+              cells.edge(l_index, r_index);
+            }
+          }
+        }

 	cells.sort();

--- a/passes/opt/share.cc
+++ b/passes/opt/share.cc
@ -1032,7 +1032,7 @@ struct ShareWorker
 		}

 		bool found_scc = !toposort.sort();
-		topo_cell_drivers = std::move(toposort.database);
+		topo_cell_drivers = toposort.get_database();

 		if (found_scc && toposort.analyze_loops)
 			for (auto &loop : toposort.loops) {
--- a/passes/techmap/flatten.cc
+++ b/passes/techmap/flatten.cc
@ -312,7 +312,7 @@ struct FlattenPass : public Pass {
 			for (auto cell : module->selected_cells()) {
 				RTLIL::Module *tpl = design->module(cell->type);
 				if (tpl != nullptr) {
-					if (topo_modules.database.count(tpl) == 0)
+                                        if (!topo_modules.has_node(tpl))
 						worklist.insert(tpl);
 					topo_modules.edge(tpl, module);
 				}