Пример #1
0
        private static void RunStackTest()
        {
            Console.WriteLine("Start");
            Console.WriteLine("Push 1");
            var stack = new Stack(1);
            Console.WriteLine("Push 2");
            stack.Push(2);
            Console.WriteLine("Push 3");
            stack.Push(3);
            Console.WriteLine("Push 4");
            stack.Push(4);
            Console.WriteLine("Pop " + stack.Pop());
            Console.WriteLine("Pop " + stack.Pop());
            Console.WriteLine("Pop " + stack.Pop());
            Console.WriteLine("Pop " + stack.Pop());
            Console.WriteLine("Pop ??????? expected Exception");

            try
            {
                stack.Pop();
            }
            catch (Exception ex)
            {
                Console.WriteLine(ex.Message);
            }

            Console.WriteLine("Push 5 on Empty stack");
            stack.Push(5);

            Console.WriteLine("Pop " + stack.Pop());
        }
Пример #2
0
        //DFS
        public static bool ExistsPath(Graph<int> graph, int start, int destination)
        {
            var nodes = graph.Nodes;
               foreach (var node in nodes)
               {
               node.NodeState=State.Unvisted;
               }

               var discovered = new Stack<Node<int>>();
               var currentNode = graph.FindNode(start);

               currentNode.NodeState = State.Visited;
               discovered.Push(currentNode);

               while (discovered.Count>0)
               {
               currentNode = discovered.Pop();
               foreach (var node in currentNode.Neighbors)
               {
                   if (node.NodeState.Equals(State.Unvisted))
                   {
                       node.NodeState=State.Visited;
                       discovered.Push(node);
                   }
               }
               }
               return graph.FindNode(destination).NodeState.Equals(State.Visited);
        }
Пример #3
0
 public void Adding_Items_In_Descending_Order_Sets_Minimum_To_Last_Value()
 {
     DataStructures.Stack stack = new DataStructures.Stack();
     stack.Push(5);
     stack.Push(4);
     stack.Push(3);
     stack.Push(2);
     stack.Push(1);
     Assert.AreEqual(1, stack.GetMinimumItem());
 }
Пример #4
0
 public void Adding_Items_In_Descending_Order_Then_Popping_Sets_Minimum_To_Previous_Minimum_Value()
 {
     DataStructures.Stack stack = new DataStructures.Stack();
     stack.Push(5);
     stack.Push(4);
     stack.Push(3);
     stack.Push(2);
     stack.Push(1);
     stack.Pop();
     Assert.AreEqual(2, stack.GetMinimumItem());
 }
Пример #5
0
 public void MinStack_Count_Equals_Stack_Count_For_One_Million_Items()
 {
     DataStructures.Stack stack = new DataStructures.Stack();
     for (int i = 0; i < 1000000; i++)
     {
         stack.Push(i);
     }
     Assert.AreEqual(1000000, stack.GetMinStackCount());
 }
Пример #6
0
        //---------------------------------------------------------------------
        //-------------     D F S  +  I T E R A T I V E     -------------------
        //---------------------------------------------------------------------
        //DFS: 先序 Pre-order Traversal, Stack
        public List<int> PreOrderTraversal_Iterative1(TreeNode root)
        {
            List<int> result = new List<int>();
            Stack<TreeNode> stack = new Stack<TreeNode>();

            stack.Push(root);
            while (stack.Count != 0)
            {
                root = stack.Pop();
                if (root != null)
                {
                    result.Add(root.val);
                    //Prevent pushing null node to enhance performance.
                    if (root.right != null) stack.Push(root.right);
                    if (root.left != null) stack.Push(root.left);
                }
            }
            return result;
        }
Пример #7
0
        public void GetMinimum_Runs_In_Constant_Time_For_One_Million_Items()
        {
            System.Diagnostics.Stopwatch watch = new System.Diagnostics.Stopwatch();

            DataStructures.Stack stack = new DataStructures.Stack();
            for (int i = 0; i <= 1000000; i++)
            {
                stack.Push(i);
            }
            watch.Start();
            int result = stack.GetMinimumItem();

            watch.Stop();

            Assert.AreEqual(0, watch.ElapsedMilliseconds);
        }
Пример #8
0
        //DFS: 先序 Pre-order Traversal, Stack
        public List<int> PreOrderTraversal_Iterative2(TreeNode root)
        {
            List<int> result = new List<int>();
            Stack<TreeNode> stack = new Stack<TreeNode>();

            while (root != null || stack.Count != 0)
            {
                if (root != null)
                {
                    //Store root value first.
                    result.Add(root.val);
                    //Push right child into stack
                    stack.Push(root.right);
                    //Iterate left child first.
                    root = root.left;
                }
                else
                {
                    //if left child does not exist anymore, iterate the nearest right child.
                    root = stack.Pop();
                }

            }
            return result;
        }
Пример #9
0
        //DFS: 后序 Post-order Traversal, (Reversed Pre-order Traversal)
        public List<int> PostOrderTraversal_Iterative2(TreeNode root)
        {
            List<int> result = new List<int>();

            //Iterative: Reverse Pre-Order Traversal.
            Stack<TreeNode> stack = new Stack<TreeNode>();
            while (root != null || stack.Count != 0)
            {
                if (root != null)
                {
                    result.Add(root.val);
                    if (root.left != null) stack.Push(root.left);
                    root = root.right;
                }
                else
                {
                    root = stack.Pop();
                }
            }
            result.Reverse();
            return result;
        }
Пример #10
0
        //DFS: 后序 Post-order Traversal, Stack
        public List<int> PostOrderTraversal_Iterative1(TreeNode root)
        {
            //Postorder traversal is more complicated to implement comparing to Preorder and Inorder.
            //At what point shall we visit the root node:
            //Condition 1: The root node has no child at all.
            //Condition 2: The root's child has already been visited.
            List<int> result = new List<int>();
            Stack<TreeNode> stack = new Stack<TreeNode>();
            if (root != null)
                stack.Push(root);
            TreeNode prev = null;
            while (stack.Count != 0)
            {
                root = stack.Peek();

                bool noChild = (root.left == null && root.right == null);
                bool doneChild = false;

                if (prev != null && (prev == root.left || prev == root.right))
                    doneChild = true;

                //直到没有child了或者child已经访问完了才把栈顶元素出栈
                if (noChild || doneChild)
                {
                    root = stack.Pop();
                    result.Add(root.val);
                    prev = root;
                }
                else
                {
                    if (root.right != null)
                        stack.Push(root.right);
                    if (root.left != null)
                        stack.Push(root.left);
                }
            }

            return result;
        }
Пример #11
0
        //DFS: 中序 In-order Traversal, Stack
        public List<int> InOrderTraversal_Iterative1(TreeNode root)
        {
            //Step 1: Iterate left subtree, push left node into stack.
            //Step 2: Stop push until node is null (its parent has no left child).
            //Step 3: Pop current node, store the value.
            //Step 4: Switch to the right subtree and iterate right subtree,
            List<int> result = new List<int>();
            Stack<TreeNode> stack = new Stack<TreeNode>();

            //Stop loop when both root is null and stack is empty.
            while (root != null || stack.Count != 0)
            {
                if (root != null)
                {
                    //Store root for later use
                    stack.Push(root);
                    //Iterate left child first.
                    root = root.left;
                }

                else
                {
                    //If left child does not exist anymore, extract its parent
                    root = stack.Pop();
                    //And store parent value
                    result.Add(root.val);
                    //Then iterate its right child.
                    root = root.right;
                }
            }
            return result;
        }
Пример #12
0
 public void Adding_An_Item_To_Stack_Changes_Minimum_Count()
 {
     DataStructures.Stack stack = new DataStructures.Stack();
     stack.Push(2);
     Assert.AreEqual(2, stack.GetMinimumItem());
 }
Пример #13
0
        public int solution(string S)
        {
            int minInteger = 0;
            int maxInteger = (1 << 20) - 1;
              Stack<int> stack = new Stack<int>();
            foreach (string op in S.Split(' '))
            {
                if (op == "DUP")
                {
                    if (!stack.Any())
                    {
                        return -1;
                    }
                    stack.Push(stack.Peek());
                }
                else if (op == "POP")
                {
                    if (!stack.Any())
                    {
                        return -1;
                    }
                    stack.Pop();
                }
                else if (op == "+")
                {
                    if (stack.Count() < 2)
                    {
                        return -1;
                    }
                    var top = stack.Pop();
                    var nextTop = stack.Pop();
                    var sum = top + nextTop;
                    if (sum > maxInteger)
                    {
                        // Overflow
                        return -1;
                    }
                    stack.Push(sum);
                }
                else if (op == "-")
                {
                    if (stack.Count() < 2)
                    {
                        return -1;
                    }
                    var top = stack.Pop();
                    var nextTop = stack.Pop();
                    var diff = top - nextTop;
                    if (diff < minInteger)
                    {
                        // Overflow
                        return -1;
                    }
                    stack.Push(diff);
                }
                else
                {
                    int number;
                    if (!int.TryParse(op, out number))
                    {
                        return -1;
                    }
                    if (number < minInteger || number > maxInteger)
                    {
                        return -1;
                    }
                    stack.Push(number);
                }
            }

            if (!stack.Any())
            {
                return -1;
            }

            return stack.Pop();
        }