示例#1
0
        public List <Node> Solve(Maze maze)
        {
            Node        start = maze.GetStart();
            Node        end   = maze.GetEnd();
            int         width = maze.width;
            List <Node> stack = new List <Node>();

            stack.Add(start);
            Node[] prev    = new Node[maze.height * maze.width];
            bool[] visited = new bool[maze.height * maze.width];
            for (int i = 0; i < visited.Length; i++)
            {
                visited[i] = false;
            }

            completed = false;
            Node current;

            while (stack.Count > 0)
            {
                current = stack[stack.Count - 1];
                stack.RemoveAt(stack.Count - 1);

                if (current == end)
                {
                    completed = true;
                    break;
                }

                visited[current.Position().Y *width + current.Position().X] = true;

                foreach (var n in current.neighbours)
                {
                    if (n != null)
                    {
                        int npos = n.Position().Y *width + n.Position().X;
                        if (visited[npos] == false)
                        {
                            stack.Add(n);
                            prev[npos] = current;
                        }
                    }
                }
            }

            List <Node> path = new List <Node>();

            path.Add(end);
            current = end;
            while (current != null)
            {
                path    = DirectionFactory.AppendLeft(path, current);
                current = prev[current.Position().Y *width + current.Position().X];
            }

            return(path);
        }
示例#2
0
        public List <Node> Solve(Maze maze)
        {
            int width = maze.width;
            int total = maze.width * maze.height;

            var start    = maze.GetStart();
            var startPos = start.Position();
            var end      = maze.GetEnd();
            var endPos   = end.Position();

            bool[] visited = new bool[total];
            Node[] prev    = new Node[total];

            var infinity = float.PositiveInfinity;

            float[] distances = new float[total];

            var unvisited = new FibPQ();

            FibNode[] nodeIndex = new FibNode[total];

            for (var i = 0; i < total; i++)
            {
                visited[i]   = false;
                distances[i] = infinity;
            }

            distances[start.Position().Y *width + start.Position().X] = 0;
            var startNode = new FibNode(0, start);

            nodeIndex[start.Position().Y *width + start.Position().X] = startNode;
            unvisited.insert(startNode);

            completed = false;

            while (unvisited.len() > 0)
            {
                var n         = unvisited.RemoveMinimum();
                var u         = n.value;
                var uPos      = u.Position();
                var uPosIndex = uPos.Y * width + uPos.X;

                if (distances[uPosIndex] == infinity)
                {
                    break;
                }

                if (uPos == endPos)
                {
                    completed = true;
                    break;
                }

                foreach (var v in u.neighbours)
                {
                    if (v != null)
                    {
                        var vPos      = v.Position();
                        var vPosIndex = vPos.Y * width + vPos.X;

                        if (visited[vPosIndex] == false)
                        {
                            var d = (vPos.Y - uPos.Y) + (vPos.X - uPos.X);

                            var newDistance = distances[uPosIndex] + d;

                            var remaining = (vPos.Y - endPos.Y) + (vPos.X - endPos.X);

                            if (newDistance < distances[vPosIndex])
                            {
                                var vNode = nodeIndex[vPosIndex];

                                if (vNode == null)
                                {
                                    vNode = new FibNode((int)newDistance + remaining, v);
                                    unvisited.insert(vNode);
                                    nodeIndex[vPosIndex] = vNode;

                                    distances[vPosIndex] = newDistance;
                                    prev[vPosIndex]      = u;
                                }
                                else
                                {
                                    unvisited.decreaseKey(vNode, (int)newDistance + remaining);
                                    distances[vPosIndex] = newDistance;
                                    prev[vPosIndex]      = u;
                                }
                            }
                        }
                    }
                }

                visited[uPosIndex] = true;
            }

            List <Node> path = new List <Node>();

            Node current = end;

            path.Add(current);
            while (current != null)
            {
                path    = DirectionFactory.AppendLeft(path, current);
                current = prev[current.Position().Y *width + current.Position().X];
            }

            return(path);
        }
示例#3
0
        public List <Node> Solve()
        {
            var width = maze.width;

            var total = maze.width * maze.height;

            var start  = maze.GetStart();
            var end    = maze.GetEnd();
            var endPos = end.Position();

            bool[] visited = new bool[total];

            Node[] prev = new Node[total];

            var infinity = float.PositiveInfinity;

            float[] distances = new float[total];

            FibNode[] nodeIndex = new FibNode[total];

            for (var i = 0; i < total; i++)
            {
                visited[i]   = false;
                distances[i] = infinity;
            }

            var unvisited = new FibPQ();

            distances[start.Position().Y *width + start.Position().X] = 0;
            FibNode startNode = new FibNode(0, start);

            nodeIndex[start.Position().Y *width + start.Position().X] = startNode;
            unvisited.insert(startNode);

            int count = 0;

            completed = false;

            while (unvisited.len() > 0)
            {
                count += 1;

                FibNode n = unvisited.RemoveMinimum();

                //
                Node  u         = n.value;
                Point uPos      = u.Position();
                int   uPosIndex = uPos.Y * width + uPos.X;

                if (distances[uPosIndex] == infinity)
                {
                    break;
                }

                if (uPos == endPos)
                {
                    completed = true;
                    break;
                }

                foreach (var v in u.neighbours)
                {
                    if (v != null)
                    {
                        Point vPos      = v.Position();
                        int   vPosIndex = vPos.Y * width + vPos.X;

                        if (visited[vPosIndex] == false)
                        {
                            int d = (vPos.Y - uPos.Y) + (vPos.X - uPos.X);

                            int newDistance = (int)distances[uPosIndex] + d;

                            if (newDistance < distances[vPosIndex])
                            {
                                var vNode = nodeIndex[vPosIndex];

                                //v isn't alread in the queue - add it
                                if (vNode == null)
                                {
                                    vNode = new FibNode(newDistance, v);
                                    unvisited.insert(vNode);
                                    nodeIndex[vPosIndex] = vNode;
                                    distances[vPosIndex] = newDistance;
                                    prev[vPosIndex]      = u;
                                }
                                //v is already in the queue - decrease it's key
                                else
                                {
                                    unvisited.decreaseKey(vNode, newDistance);
                                    distances[vPosIndex] = newDistance;
                                    prev[vPosIndex]      = u;
                                }
                            }
                        }
                    }
                }

                visited[uPosIndex] = true;
            }

            //Recontruct the path.
            List <Node> path    = new List <Node>();
            Node        current = end;

            path.Add(current);
            while (current != null)
            {
                path    = DirectionFactory.AppendLeft(path, current);
                current = prev[current.Position().Y *width + current.Position().X];
            }

            return(path);
        }