Beispiel #1
0
        public void Solve(IMazeGrid maze, Action <IEnumerable <IMazeCell> > solvedResultCallback)
        {
            Graph <IMazeCell> graph = maze.GenerateGraph();

            // stack of graph nodes
            Stack <GraphNode <IMazeCell> > stack = new Stack <GraphNode <IMazeCell> >();

            // Routes Collection
            LinkedList <GraphNode <IMazeCell> > visited = new LinkedList <GraphNode <IMazeCell> >();

            GraphNode <IMazeCell> startNode = (GraphNode <IMazeCell>)graph.Nodes.FindByValue(maze.Start);

            stack.Push(startNode);

            GraphNode <IMazeCell> currentNode = null;

            while (stack.Count > 0)
            {
                currentNode = stack.Pop();

                _logger.LogTrace($"Poped Node: {currentNode.Value.ToString()}");

                if (visited.Contains(currentNode))
                {
                    continue;
                }

                visited.AddFirst(currentNode);

                if (maze.Finish.Equals(currentNode.Value))
                {
                    _logger.LogTrace($"Found Finish Node: {currentNode.Value.ToString()}");

                    solvedResultCallback(TraceSolvedPath(visited));
                }

                // Examine neighbor nodes
                foreach (GraphNode <IMazeCell> neighbor in currentNode.Neighbors)
                {
                    if (!visited.Contains(neighbor))
                    {
                        stack.Push(neighbor);

                        _logger.LogTrace($"Push Node: {neighbor.Value.ToString()}");
                    }
                    else
                    {
                        _logger.LogTrace($"Node: {neighbor.Value.ToString()} is visited");
                    }
                }
            }
        }
Beispiel #2
0
        public void Solve(IMazeGrid maze, Action <IEnumerable <IMazeCell> > solvedResultCallback)
        {
            Graph <IMazeCell> graph = maze.GenerateGraph();

            // stack of graph nodes
            LinkedList <GraphNode <IMazeCell> > visited = new LinkedList <GraphNode <IMazeCell> >();  //collecting all routes

            GraphNode <IMazeCell> startNode = (GraphNode <IMazeCell>)graph.Nodes.FindByValue(maze.Start);
            GraphNode <IMazeCell> endNode   = (GraphNode <IMazeCell>)graph.Nodes.FindByValue(maze.Finish);

            visited.AddFirst(startNode);

            // make the first call
            BreadthFirst(startNode, endNode, visited, solvedResultCallback);
        }
Beispiel #3
0
        public void Solve(IMazeGrid maze, Action <IEnumerable <IMazeCell> > solvedResultCallback)
        {
            // the maze graph
            Graph <IMazeCell> graph = maze.GenerateGraph();


            // List of Accepted solutions used to reset the visited nodes
            List <List <GraphNode <IMazeCell> > > solutions = new List <List <GraphNode <IMazeCell> > >();

            // Que of graph nodes
            Queue <GraphNode <IMazeCell> > queue = new Queue <GraphNode <IMazeCell> >();

            // Directory of Predecessor
            Dictionary <GraphNode <IMazeCell>, GraphNode <IMazeCell> > predecessors = new Dictionary <GraphNode <IMazeCell>, GraphNode <IMazeCell> >();

            // List visited nodes
            List <GraphNode <IMazeCell> > visited = new List <GraphNode <IMazeCell> >();

            GraphNode <IMazeCell> currentNode = null;

            GraphNode <IMazeCell> startNode = (GraphNode <IMazeCell>)graph.Nodes.FindByValue(maze.Start);

            queue.Enqueue(startNode);



            while (queue.Count > 0)
            {
                currentNode = queue.Dequeue();

                _logger.LogTrace($"Dequeue Node({currentNode.Value.ToString()})");

                if (visited.Contains(currentNode))
                {
                    continue;
                }

                visited.Add(currentNode);

                if (maze.Finish.Equals(currentNode.Value))
                {
                    _logger.LogTrace($"Finish Node({currentNode.Value.ToString()})");

                    IEnumerable <GraphNode <IMazeCell> > solvedPath = TraceSolvedPath(currentNode, predecessors);

                    // callback Action and returns path.
                    List <IMazeCell> cbPath = new List <IMazeCell>();

                    foreach (var node in solvedPath)
                    {
                        cbPath.Add(node.Value);
                    }

                    solvedResultCallback(cbPath);

                    break;
                }

                foreach (GraphNode <IMazeCell> neighbor in currentNode.Neighbors)
                {
                    if (!visited.Contains(neighbor) && !queue.Contains(neighbor))
                    {
                        // enquew
                        queue.Enqueue(neighbor);

                        // keep track of Predecessor
                        predecessors[neighbor] = currentNode;

                        _logger.LogTrace($"Enqueue Node: {neighbor.Value.ToString()} Predecessor: {currentNode.Value.ToString()}");
                    }
                    else
                    {
                        _logger.LogTrace($"Node({neighbor.Value.ToString()}) is visited");
                    }
                }
            }
        }
Beispiel #4
0
        public void Solve(IMazeGrid maze, Action <IEnumerable <IMazeCell> > solvedResultCallback)
        {
            Graph <IMazeCell> graph = maze.GenerateGraph();

            GraphNode <IMazeCell> startNode = (GraphNode <IMazeCell>)graph.Nodes.FindByValue(maze.Start);


            Dictionary <GraphNode <IMazeCell>, GraphNode <IMazeCell> > predecessors = new Dictionary <GraphNode <IMazeCell>, GraphNode <IMazeCell> >();
            List <GraphNode <IMazeCell> >           nodes     = new List <GraphNode <IMazeCell> >();
            Dictionary <GraphNode <IMazeCell>, int> distances = new Dictionary <GraphNode <IMazeCell>, int>();

            GraphNode <IMazeCell> currentNode = null;

            // read all nodes and init distances
            foreach (GraphNode <IMazeCell> vertex in graph.Nodes)
            {
                // start node has 0 distance, all over nodes are unknown and set to Max
                if (vertex.Value.Equals(maze.Start))
                {
                    distances[vertex] = 0;
                }
                else
                {
                    distances[vertex] = int.MaxValue;
                }

                nodes.Add(vertex);
            }

            while (nodes.Count != 0)
            {
                // Find current shortest path point to explore
                nodes.Sort((x, y) => distances[x] - distances[y]);

                currentNode = nodes[0];

                nodes.Remove(currentNode);

                if (currentNode.Value.Equals(maze.Finish))
                {
                    IEnumerable <IMazeCell> solvedPath = TraceSolvedPath(currentNode, predecessors).Reverse();

                    solvedResultCallback(solvedPath); // Calls the callback Action and returns the path.

                    break;
                }

                if (distances[currentNode] == int.MaxValue)
                {
                    break;
                }


                foreach (GraphNode <IMazeCell> neighbor in currentNode.Neighbors)
                {
                    var indx = currentNode.Neighbors.IndexOf(neighbor);

                    // distance of current node + Neighbors Cost ( Cost = paths between nodes )
                    int newDistance = distances[currentNode] + currentNode.Costs[indx];

                    if (newDistance < distances[neighbor])
                    {
                        distances[neighbor]    = newDistance;
                        predecessors[neighbor] = currentNode;
                    }
                }
            }
        }