Ejemplo n.º 1
0
// 测试堆
void TestHeap()
{
	Heap<int, greater<int>> heap;
	heap.Push(3);
	heap.Push(5);
	heap.Push(1);
	heap.Push(4);
	heap.Push(5);
	heap.Push(1);
	heap.Push(8);

	while (!heap.Empty())
	{
		cout<<heap.Top()<<" ";
		heap.Pop();
	}
	cout<<endl;

	//int array[10] = {9,1,3,5,6,7,8,0,2,4};
	int array[10] = {10,16,18,12,11,13,15,17,14,19};
	Heap<int> heap1(array, 10);

	while (!heap1.Empty())
	{
		cout<<heap1.Top()<<" ";
		heap1.Pop();
	}
	cout<<endl;
}
Ejemplo n.º 2
0
void Dijkstra::Solve_distance()
{
    weighted_vertex wt = {0,0,0};
    heap.Push(wt);
    s1 = "0" + s1;
    s2 = "0" + s2;
    while (!heap.Empty())
    {
        weighted_vertex top = heap.top();
        vertex now_top = top.v;
 
        if (now_top.y + 1 < s2.length() && s1[now_top.x] != s2[now_top.y + 1])
        {
            vertex temp = now_top;
            temp.y++;
            weighted_vertex wt;
            wt.w = Add_potential(now_top, temp, top.w + 1);
            wt.v = temp;
            heap.Push(wt);
        }
       
        if (now_top.x + 1 < s1.length() && s1[now_top.x + 1] != s2[now_top.y])
        {
            vertex temp = now_top;
            temp.x++;
            weighted_vertex wt;
            wt.w = Add_potential(now_top, temp, top.w + 1);
            wt.v = temp;
            heap.Push(wt);
        }
       
        if (now_top.x + 1 < s1.length() && now_top.y + 1 < s2.length())
        {
            int weight = 0;
            if (s1[now_top.x + 1] != s2[now_top.y + 1]) weight = 1;
            vertex temp = now_top;
            temp.x++;
            temp.y++;
            weighted_vertex wt;
            wt.w = Add_potential(now_top, temp, top.w + 1);
            wt.v = temp;
            heap.Push(wt);
        }
   
        if (now_top.x == (int)s1.length() - 1 && now_top.y == (int)s2.length() - 1)
        {
            vertex t = {0,0};
            answer = Delete_potentials(t, now_top, top.w);
            break;
        }
    }
}
Ejemplo n.º 3
0
	void CreateHuffmanTree(const T* array, size_t size, const T& invalid)
	{	
		struct Compare 
		{
			bool operator()(HuffmanNode_P<T>*& lhs, HuffmanNode_P<T>*& rhs)
			{
				return lhs->_weight < rhs->_weight;
			}
		};

		// 1.将所有值构建为节点放入到一个最小堆中,Compare仿函数做比较器
		Heap<HuffmanNode_P<T>*, Compare> minHeap;
		for (int i = 0; i < size; ++i)
		{
			if (array[i] != invalid)
			{
				HuffmanNode_P<T>* node = new HuffmanNode_P<T>(array[i]);
				minHeap.Insert(node);
			}
		}

		if (minHeap.Empty())
			return;

		// 2.获取出最小和次小的节点做孩子节点,并构建这两个孩子节点的父节点进行链接。
		HuffmanNode_P<T>* parent = minHeap.GetHeapTop();
		while (minHeap.Size() > 1)
		{
			HuffmanNode_P<T>* first = minHeap.GetHeapTop();
			minHeap.Remove();
			HuffmanNode_P<T>* second = minHeap.GetHeapTop();
			minHeap.Remove();

			parent = new HuffmanNode_P<T>(first->_weight + second->_weight);
			parent->_left = first;
			parent->_right = second;
			first->_parent = parent;
			second->_parent = parent;

			minHeap.Insert(parent);
		}

		_root = parent;
	}
Ejemplo n.º 4
0
    int minRefuelStops(int target, int startFuel, vector<vector<int>>& stations) {
        if (startFuel >= target) return 0;

        Heap bfs_q;
        bfs_q.Insert(Stop{-1, startFuel});

        auto n = 0;
        Heap q;
        unordered_map<int, bool> is_added;
        while (!bfs_q.Empty()) {
            auto s = bfs_q.Pop();

            for(auto i = s.index+1; i < stations.size(); ++i) {
                if (s.fuel >= stations[i][0]) {
                    if (is_added.find(i) != is_added.end()) {
                        //continue
                        break;
                    }

                    is_added[i] = true;
                    auto p = Stop{i, stations[i][1] + s.fuel};
                    if (p.fuel >= target) return n+1;
                    q.Insert(p);

                } else {
                    break;
                }
            }

            if (bfs_q.Empty() && !q.Empty()) {
                bfs_q = q;
                n++;
                q.Clear();
                is_added.clear();
            }
        }

        return -1;
    }