STL
栈:std::stack<int> S;
S.top() S.empty() S.push(x) S.pop() S.size()
队列:std:queue<int> Q;
Q.empty()、Q.front()、Q.back()、Q.pop()、Q.push()、Q.size()
题225 用队列实现栈
用时:0ms 100% 内存 7MB 100%
class MyStack {
public:
/** Initialize your data structure here. */
MyStack() {
}
/** Push element x onto stack. */
void push(int x) {
std::queue<int> temp_queue;
temp_queue.push(x);
while(!data_queue.empty()){
int a = _data.front();
temp_queue.push(a);
_data.pop();
}
while(!temp_queue.empty()){
data_queue.push(temp_queue.front());
temp_queue.pop();
}
}
/** Removes the element on top of the stack and returns that element. */
int pop() {
int x = data_queue.front();
data_queue.pop();
return x;
}
/** Get the top element. */
int top() {
return data_queue.front();
}
/** Returns whether the stack is empty. */
bool empty() {
return data_queue.empty();
}
private:
std::queue<int> data_queue;
};
/**
* 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();
* bool param_4 = obj->empty();
*/
题232 用栈实现队列
用时:0ms 100% 内存 7.2MB 100%
class MyQueue {
public:
/** Initialize your data structure here. */
MyQueue() {
}
/** Push element x to the back of queue. */
void push(int x) {
std::stack<int> temp_stack;
while(!data_stack.empty()){
temp_stack.push(data_stack.top());
data_stack.pop();
}
temp_stack.push(x);
while(!temp_stack.empty()){
data_stack.push(temp_stack.top());
temp_stack.pop();
}
}
/** Removes the element from in front of queue and returns that element. */
int pop() {
int x = data_stack.top();
data_stack.pop();
return x;
}
/** Get the front element. */
int peek() {
return data_stack.top();
}
/** Returns whether the queue is empty. */
bool empty() {
return data_stack.empty();
}
private:
std::stack<int> data_stack;
};
/**
* 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();
* bool param_4 = obj->empty();
*/
题155 最小栈
用时:40ms 43.19% 内存:15.2MB 100%
class MinStack {
public:
/** initialize your data structure here. */
std::stack<int> data;
std::stack<int> min_data;
MinStack() {
}
void push(int x) {
data.push(x);
if(min_data.empty()){
min_data.push(x);
}else{
if(x < min_data.top()){
min_data.push(x);
}else{
min_data.push(min_data.top());
}
}
}
void pop() {
data.pop();
min_data.pop();
//最小值栈中最小值的位置和原来栈中位置是一致的
//所以可以同时弹出
}
int top() {
return data.top();
}
int getMin() {
return min_data.top();
}
};
/**
* Your MinStack object will be instantiated and called as such:
* MinStack* obj = new MinStack();
* obj->push(x);
* obj->pop();
* int param_3 = obj->top();
* int param_4 = obj->getMin();
*/
题946 验证栈序列
给定 pushed 和 popped 两个序列,每个序列中的 值都不重复,只有当它们可能是在最初空栈上进行的推入 push 和弹出 pop 操作序列的结果时,返回 true;否则,返回 false 。
示例 1:
输入:pushed = [1,2,3,4,5], popped = [4,5,3,2,1]
输出:true
解释:我们可以按以下顺序执行:
push(1), push(2), push(3), push(4), pop() -> 4,
push(5), pop() -> 5, pop() -> 3, pop() -> 2, pop() -> 1
示例 2:
输入:pushed = [1,2,3,4,5], popped = [4,3,5,1,2]
输出:false
解释:1 不能在 2 之前弹出。
提示:
0 <= pushed.length == popped.length <= 1000
0 <= pushed[i], popped[i] < 1000
pushed 是 popped 的排列。
用 j j j 指针指向数组 p o p p e d popped popped 可以模拟队列,数 组 p u s h e d pushed pushed 存在栈中。如果栈顶元素和队列元素,则同时弹出。如果栈空,则合法。否则,不合法。
class Solution {
public:
bool validateStackSequences(vector<int>& pushed, vector<int>& popped) {
std::stack<int> s;
int n = pushed.size();
int j = 0;//poped索引
//将pushed压栈
for(int i = 0; i < n; i++){
s.push(pushed[i]);
while(!s.empty()&&s.top()==popped[j]){
s.pop();
j++;
}
}
return s.empty();
}
};