题目

class MyQueue {

    private Stack<Integer> in = new Stack<>();

    private Stack<Integer> out = new Stack<>();

    public void push(int x) {

        in.push(x);

    }

    public int pop() {

        in2out();

        return out.pop();

    }

    public int peek() {

        in2out();

        return out.peek();

    }

    private void in2out() {

        if (out.isEmpty()) {

            while (!in.isEmpty()) {

                out.push(in.pop());

            }

        }

    }

    public boolean empty() {

        return in.isEmpty() && out.isEmpty();

    }

}

class MyStack {

    private Queue<Integer> queue;

    public MyStack() {

        queue = new LinkedList<>();

    }

    public void push(int x) {

        queue.add(x);

        int cnt = queue.size();

        while (cnt-- > 1) {

            queue.add(queue.poll());

        }

    }

    public int pop() {

        return queue.remove();

    }

    public int top() {

        return queue.peek();

    }

    public boolean empty() {

        return queue.isEmpty();

    }

}

class MinStack {

    private Stack<Integer> dataStack;

    private Stack<Integer> minStack;

    private int min;

    public MinStack() {

        dataStack = new Stack<>();

        minStack = new Stack<>();

        min = Integer.MAX_VALUE;

    }

    public void push(int x) {

        dataStack.add(x);

        min = Math.min(min, x);

        minStack.add(min);

    }

    public void pop() {

        dataStack.pop();

        minStack.pop();

        min = minStack.isEmpty() ? Integer.MAX_VALUE : minStack.peek();

    }

    public int top() {

        return dataStack.peek();

    }

    public int getMin() {

        return minStack.peek();

    }

}

class Solution {

    public boolean isValid(String s) {

    Stack<Character> stack = new Stack<>();

    for (char c : s.toCharArray()) {

        if (c == '(' || c == '{' || c == '[') {

            stack.push(c);

        } else {

            if (stack.isEmpty()) {

                return false;

            }

            char cStack = stack.pop();

            boolean b1 = c == ')' && cStack != '(';

            boolean b2 = c == ']' && cStack != '[';

            boolean b3 = c == '}' && cStack != '{';

            if (b1 || b2 || b3) {

                return false;

            }

        }

    }

    return stack.isEmpty();

    }

}

class Solution {

    public int[] dailyTemperatures(int[] temperatures) {

    int n = temperatures.length;

    int[] dist = new int[n];

    Stack<Integer> indexs = new Stack<>();

    for (int curIndex = 0; curIndex < n; curIndex++) {

        while (!indexs.isEmpty() && temperatures[curIndex] > temperatures[indexs.peek()]) {

            int preIndex = indexs.pop();

            dist[preIndex] = curIndex - preIndex;

        }

        indexs.add(curIndex);

    }

    return dist;

    }

}

class Solution {

   public int[] nextGreaterElements(int[] nums) {

    int n = nums.length;

    int[] next = new int[n];

    Arrays.fill(next, -1);

    Stack<Integer> pre = new Stack<>();

    for (int i = 0; i < n * 2; i++) {

        int num = nums[i % n];

        while (!pre.isEmpty() && nums[pre.peek()] < num) {

            next[pre.pop()] = num;

        }

        if (i < n){

            pre.push(i);

        }

    }

    return next;

    }

}