代码随想录-栈
232、用栈实现队列
没有算法逻辑,就是考察对栈这个数据结构的操作,需要多加练习
class MyQueue { Stack<Integer> stackIn; Stack<Integer> stackOut; public MyQueue() { stackIn = new Stack<>(); stackOut = new Stack<>(); } public void push(int x) { stackIn.push(x); } public int pop() { dumpstackIn(); return stackOut.pop(); } public int peek() { dumpstackIn(); int result = stackOut.pop(); stackOut.push(result); return result; } public boolean empty() { if (stackIn.isEmpty() && stackOut.isEmpty()) { return true; }else { return false; } } private void dumpstackIn() { if (!stackOut.isEmpty()) return; while (!stackIn.isEmpty()) { stackOut.push(stackIn.pop()); } } } /** * Your MyQueue object will be instantiated and called as such: * MyQueue obj = new MyQueue(); * obj.push(x); * int param_2 = obj.pop(); * int param_3 = obj.peek(); * boolean param_4 = obj.empty(); */225、用队列实现栈
这道题也是在考察对栈和队列的掌握情况,要注意队列的操作,不要与栈搞混了,需要多加练习。
class MyStack { Queue<Integer> queue; public MyStack() { queue = new LinkedList<>(); } public void push(int x) { queue.add(x); } public int pop() { revse(); return queue.poll(); } public int top() { revse(); int result = queue.poll(); queue.offer(result); return result; } public boolean empty() { return queue.isEmpty(); } private void revse() { int size = queue.size(); size--; while (size-- > 0) { queue.add(queue.poll()); } } } /** * Your MyStack object will be instantiated and called as such: * MyStack obj = new MyStack(); * obj.push(x); * int param_2 = obj.pop(); * int param_3 = obj.top(); * boolean param_4 = obj.empty(); */20、有效的括号
这道题主要考察栈的数据结构特性,适用于解决有秩序要求、严格对称的一类匹配问题,重点要考虑清楚所有的不匹配场景,然后去有针对性的写处理代码,这样就很清晰,不容易乱。
class Solution { public boolean isValid(String s) { Stack<Character> st = new Stack<>(); for (char c : s.toCharArray()) { if (c == ')' && !st.isEmpty() && st.peek() == '(') { st.pop(); } else if (c == '}' && !st.isEmpty() && st.peek() == '{') { st.pop(); } else if (c == ']' && !st.isEmpty() && st.peek() == '[') { st.pop(); } else { st.push(c); } } return st.isEmpty(); } }1047、删除字符串种的所有相邻重复项
这道题留着明天练习下
