Exemplo n.º 1
0
    //使用开始的实际距离来优先排列
    //public void Dijkstra(Grid start, Grid goal)
    //{
    //    came_from = new Dictionary<Grid, Grid>();
    //    cost_so_far = new Dictionary<Grid, double>();
    //    frontier = new PriorityQueue<Grid, double>();
    //    frontier.Push(start, 0);
    //    came_from[start] = start;
    //    cost_so_far[start] = 0;
    //    while (frontier.Count > 0)
    //    {
    //        Grid current = frontier.Pop();
    //        if (current == goal)
    //            break;
    //        Grid[] neighbors = graph.Neighbors(current);
    //        for (int i = 0; i < neighbors.Length; i++)
    //        {
    //            Grid next = neighbors[i];
    //            double new_cost = cost_so_far[current] + graph.Cost(next);
    //            if (came_from.ContainsKey(next) || new_cost < cost_so_far[next])
    //            {
    //                cost_so_far[next] = new_cost;
    //                double priority = new_cost;
    //                frontier.Push(next, priority);
    //                came_from[next] = current;
    //            }
    //        }
    //    }
    //}
    //以离终点的距离作为优先级来排列
    //public void GreedyBestFirstSearch(Grid start, Grid goal)
    //{
    //    came_from = new Dictionary<Grid, Grid>();
    //    cost_so_far = new Dictionary<Grid, double>();
    //    frontier = new PriorityQueue<Grid, double>();
    //    frontier.Push(start, 0);
    //    came_from[start] = start;
    //    while (frontier.Count > 0)
    //    {
    //        Grid current = frontier.Pop();
    //        if (current == goal)
    //            break;
    //        Grid[] neighbors = graph.Neighbors(current);
    //        for (int i = 0; i < neighbors.Length; i++)
    //        {
    //            Grid next = neighbors[i];
    //            if (came_from.ContainsKey(next))
    //            {
    //                int priority = Heuristic(goal,next);
    //                frontier.Push(next, priority);
    //                came_from[next] = current;
    //            }
    //        }
    //    }
    //}
    public void AstarSearch(Grid start, Grid goal)
    {
        came_from   = new Dictionary <Grid, Grid>();
        cost_so_far = new Dictionary <Grid, double>();
        frontier    = new PriorityQueue <Grid, double>();
        //if (start != null)
        //{
        //    Debug.Log("start " + start.name);
        //    Debug.Log("end " + goal.name);
        //}
        frontier.Push(start, 0);
        came_from.Add(start, start);
        //came_from[start] = start;
        cost_so_far.Add(start, 0);
        //cost_so_far[start] = 0;
        while (frontier.Count > 0)
        {
            Grid current = frontier.Pop();
            if (current == goal)
            {
                break;
            }
            Grid[] neighbors = graph.Neighbors(current);
            for (int i = 0; i < neighbors.Length; i++)
            {
                Grid   next     = neighbors[i];
                double new_cost = cost_so_far[current] + graph.Cost(next);
                if (!cost_so_far.ContainsKey(next) || new_cost < cost_so_far[next])
                {
                    if (cost_so_far.ContainsKey(next))
                    {
                        cost_so_far[next] = new_cost;
                    }
                    else
                    {
                        cost_so_far.Add(next, new_cost);
                    }

                    double priority = new_cost + Heuristic(goal, next);
                    frontier.Push(next, priority);
                    if (came_from.ContainsKey(next))
                    {
                        came_from[next] = current;
                    }
                    else
                    {
                        came_from.Add(next, current);
                    }
                }
            }
        }
    }
Exemplo n.º 2
0
    public AStarSearch3(SquareGrid graph, Location start, Location goal, Dictionary <Location, int> costObject)
    {
        this.start = start;
        this.goal  = goal;
        var frontier = new PriorityQueue <Location>();

        frontier.Enqueue(start, 0f);

        cameFrom.Add(start, start);
        costSoFar.Add(start, 0f);

        while (frontier.Count > 0f)
        {
            Location current = frontier.Dequeue();
            if (current.Equals(goal))
            {
                break;
            }
            foreach (var neighbor in graph.Neighbors(current))
            {
                float newCost = costSoFar[current] + graph.Cost(current, neighbor);

                if (!costSoFar.ContainsKey(neighbor) || newCost < costSoFar[neighbor])
                {
                    // If we're replacing the previous cost, remove it
                    if (costSoFar.ContainsKey(neighbor))
                    {
                        costSoFar.Remove(neighbor);
                        cameFrom.Remove(neighbor);
                    }

                    costSoFar.Add(neighbor, newCost);
                    cameFrom.Add(neighbor, current);
                    float priority;
                    int   N = (int)Heuristic(start, goal);
                    if (d <= N)
                    {
                        priority = newCost + 1.0f * (1 + 1.01f * (1 - 1.0f * d / N)) * Heuristic(neighbor, goal);
                    }
                    else
                    {
                        priority = newCost + Heuristic(neighbor, goal);
                    }
                    frontier.Enqueue(neighbor, priority);
                    dem++;
                }
            }
            d++;
        }
    }
Exemplo n.º 3
0
    public List <Vector2> Path = new List <Vector2>();//寻路结果


    public AStarSearch(SquareGrid map, Location start, Location goal)
    {
        var frontier = new PriorityQueue <Location>();//open列表

        //init
        frontier.Enqueue(start, 0);
        From[start]      = start;
        costSoFar[start] = 0;

        while (frontier.Count > 0)
        {
            var currentLocation = frontier.Dequeue();

            if (currentLocation == goal)
            {
                break;
            }

            foreach (var neighbor in map.Neighbors(currentLocation))//遍历邻近点,选择最佳位置
            {
                //计算移动成本g = 走出当前点的成本 + 走出邻近点的成本
                float newCost = costSoFar[currentLocation] + map.Cost(neighbor);//g

                if (!costSoFar.ContainsKey(neighbor) || //排除已走过的位置点,类似于close列表
                    newCost < costSoFar[neighbor])
                {
                    costSoFar[neighbor] = newCost;
                    float priority = newCost = Heuristic(neighbor, goal);//f=g+h
                    frontier.Enqueue(neighbor, priority);
                    From[neighbor] = currentLocation;
                }
            } //end search Neighbor
        }     //end Dequeue

        //将寻路路径按正常顺序提取
        Location current = goal;

        Path.Add(new Vector2(current.x, current.y));
        while (current != start)
        {
            current = From[current];
            Path.Add(new Vector2(current.x, current.y));
        }
        Path.Reverse();//From<下一结点,当前结点>
    }//end Search def
    public AStarSearch2(SquareGrid graph, Location start, Location goal, Dictionary <Location, int> costObject)
    {
        this.start = start;
        this.goal  = goal;
        var frontier = new PriorityQueue <Location>();

        frontier.Enqueue(start, 0f);

        cameFrom.Add(start, start);
        costSoFar.Add(start, 0f);

        while (frontier.Count > 0f)
        {
            Location current = frontier.Dequeue();
            Location parent  = cameFrom[current];
            if (current.Equals(goal))
            {
                break;
            }
            foreach (var neighbor in graph.Neighbors(current))
            {
                float newCost = costSoFar[current] + graph.Cost(current, neighbor);
                if (!costSoFar.ContainsKey(neighbor) || newCost < costSoFar[neighbor])
                {
                    if (costSoFar.ContainsKey(neighbor))
                    {
                        costSoFar.Remove(neighbor);
                        cameFrom.Remove(neighbor);
                    }

                    costSoFar.Add(neighbor, newCost);
                    cameFrom.Add(neighbor, current);
                    float priority = newCost + Heuristic(neighbor, goal);
                    frontier.Enqueue(neighbor, priority);
                    dem++;
                }
            }
        }
    }
Exemplo n.º 5
0
 public IEnumerable <Vector3Int> GetNeighbors(Vector3Int coords)
 {
     return(grid.Neighbors(coords));
 }