Design a stack that supports push, pop, top, and retrieving the minimum element in constant time.
- push(x) -- Push element x onto stack.
- pop() -- Removes the element on top of the stack.
- top() -- Get the top element.
- getMin() -- Retrieve the minimum element in the stack.
题目大意
设计一个栈,支持push, pop, top,和在常量时间内返回最小元素。
难度系数:容易
分析
这题写出实现并不难,反而是让LeetCode能运行你的代码,比起解这题还费劲。比如,一开始,我使用了vector,结果出现运行时错误。 后来一查,是LeetCode的问题。就那我现在的实现代码来说,把_capacity的初始值改成10,程序运行正常,把它改成100,程序运行出错。 做完后,发现自己的实现和leetcode给出的思路是一致的,也让我颇感欣慰,尽管花了点时间。
实现
template <class T>
class Vector {
public:
Vector():_capacity(10),_size(0),_pt(NULL) {
_pt = (T*)malloc(_capacity*sizeof(T));
}
~Vector(){
free(_pt);
}
void push_back(T t) {
if (_size >= _capacity) {
_capacity = _capacity * 5;
T* ptmp = (T*)realloc(_pt, _capacity*sizeof(T));
if (ptmp) {
_pt = ptmp;
}
}
_pt[_size] = t;
_size++;
}
void pop_back() {
if (_size > 0) {
--_size;
}
}
T& operator[](size_t pos) {
return _pt[pos];
}
const T& operator[](size_t p) const {
return _pt[p];
}
int erase(int i) {
for (int k = i; k < _size-1; ++k) {
_pt[k] = _pt[k+1];
}
_size = _size - 1;
return i;
}
void insert(int pos, T t) {
if (_size >= _capacity) {
_capacity = _capacity * 5;
T* ptmp = (T*)realloc(_pt, _capacity*sizeof(T));
if (ptmp) {
_pt = ptmp;
}
}
for (int i = _size; i > pos; --i) {
_pt[i] = _pt[i-1];
}
_pt[pos] = t;
_size += 1;
}
int size() const {
return _size;
}
T back() const{
return _pt[_size-1];
}
T front() const {
return _pt[0];
}
private:
T* _pt;
int _size;
int _capacity;
};
class MinStack {
public:
void push(int x) {
v.push_back(x);
if (ov.size() == 0) {
ov.push_back(x);
}
else if (x <= ov.back())
ov.push_back(x);
}
void pop() {
if (v.size() <= 0)
return;
int val = v.back();
v.pop_back();
if (val == ov.back()) {
ov.pop_back();
}
}
int top() {
return v.back();
}
int getMin() {
return ov.back();
}
const Vector<int>& getV() const {
return v;
}
private:
Vector<int> v;
Vector<int> ov;
};