Exemplo n.º 1
0
        public void SingleNode()
        {
            var graph     = TestGraphs.CreateSingularGraph();
            var startNode = graph.GetNodeById(1);

            // Record a depth first traversal.
            var traversal = new DepthFirstTraversal();
            var recorder  = new TraversalOrderRecorder(traversal);

            traversal.Run(startNode);

            Assert.Single(recorder.GetTraversal());
            Assert.Equal(0, recorder.GetIndex(startNode));
        }
Exemplo n.º 2
0
        public void PathReversed()
        {
            // Artificially construct a path of four nodes in sequential order.
            var graph = TestGraphs.CreatePath();

            // Record a depth first traversal.
            var traversal = new DepthFirstTraversal(true);
            var recorder  = new TraversalOrderRecorder(traversal);

            traversal.Run(graph.GetNodeById(4));

            // Traversal should exactly be the path.
            Assert.Equal(new INode[]
            {
                graph.GetNodeById(4),
                graph.GetNodeById(3),
                graph.GetNodeById(2),
                graph.GetNodeById(1),
            }, recorder.GetTraversal());
        }
Exemplo n.º 3
0
        /// <summary>
        /// Computes the dominator tree of a control flow graph, defined by its entrypoint.
        /// </summary>
        /// <param name="entrypoint">The entrypoint of the control flow graph.</param>
        /// <returns>A dictionary mapping all the nodes to their immediate dominator.</returns>
        /// <remarks>
        /// The algorithm used is based on the one engineered by Lengauer and Tarjan.
        /// https://www.cs.princeton.edu/courses/archive/fall03/cs528/handouts/a%20fast%20algorithm%20for%20finding.pdf
        /// https://www.cl.cam.ac.uk/~mr10/lengtarj.pdf
        /// </remarks>
        private static IDictionary <IIdentifiedNode, IIdentifiedNode> GetImmediateDominators(IIdentifiedNode entrypoint)
        {
            var idom     = new Dictionary <IIdentifiedNode, IIdentifiedNode>();
            var semi     = new Dictionary <IIdentifiedNode, IIdentifiedNode>();
            var ancestor = new Dictionary <IIdentifiedNode, IIdentifiedNode>();
            var bucket   = new Dictionary <IIdentifiedNode, ISet <IIdentifiedNode> >();

            var traversal = new DepthFirstTraversal();
            var order     = new TraversalOrderRecorder(traversal);
            var parents   = new ParentRecorder(traversal);

            traversal.Run(entrypoint);

            var orderedNodes = order.GetTraversal();

            foreach (var node in orderedNodes.Cast <IIdentifiedNode>())
            {
                idom[node]     = null;
                semi[node]     = node;
                ancestor[node] = null;
                bucket[node]   = new HashSet <IIdentifiedNode>();
            }

            for (int i = orderedNodes.Count - 1; i >= 1; i--)
            {
                var current = (IIdentifiedNode)orderedNodes[i];
                var parent  = (IIdentifiedNode)parents.GetParent(current);

                // step 2
                foreach (var predecessor in current.GetPredecessors().Cast <IIdentifiedNode>())
                {
                    var u = Eval(predecessor, ancestor, semi, order);
                    if (order.GetIndex(semi[current]) > order.GetIndex(semi[u]))
                    {
                        semi[current] = semi[u];
                    }
                }

                bucket[semi[current]].Add(current);
                Link(parent, current, ancestor);

                // step 3
                foreach (var bucketNode in bucket[parent])
                {
                    var u = Eval(bucketNode, ancestor, semi, order);
                    if (order.GetIndex(semi[u]) < order.GetIndex(semi[bucketNode]))
                    {
                        idom[bucketNode] = u;
                    }
                    else
                    {
                        idom[bucketNode] = parent;
                    }
                }

                bucket[parent].Clear();
            }

            // step 4
            for (int i = 1; i < orderedNodes.Count; i++)
            {
                var w = (IIdentifiedNode)orderedNodes[i];
                if (idom[w] != semi[w])
                {
                    idom[w] = idom[idom[w]];
                }
            }

            idom[entrypoint] = entrypoint;
            return(idom);
        }