设计一个支持 push ,pop ,top 操作,并能在常数时间内检索到最小元素的栈。
实现 MinStack 类:
MinStack()初始化堆栈对象。void push(int val)将元素val推入堆栈。void pop()删除堆栈顶部的元素。int top()获取堆栈顶部的元素。int getMin()获取堆栈中的最小元素。
示例 1:
输入:
["MinStack","push","push","push","getMin","pop","top","getMin"]
[[],[-2],[0],[-3],[],[],[],[]]
输出:
[null,null,null,null,-3,null,0,-2]
解释:
MinStack minStack = new MinStack();
minStack.push(-2);
minStack.push(0);
minStack.push(-3);
minStack.getMin(); --> 返回 -3.
minStack.pop();
minStack.top(); --> 返回 0.
minStack.getMin(); --> 返回 -2.
提示:
-231 <= val <= 231 - 1pop、top和getMin操作总是在 非空栈 上调用push,pop,top, andgetMin最多被调用3 * 104次
题解
思路:定义两个栈,一个正常记录,一个只记录较小元素
时间复杂度:O(1) 空间复杂度:O(n)
class MinStack {
private Deque<Integer> minStack;
private Deque<Integer> elementStack;
public MinStack() {
minStack = new LinkedList<>();
elementStack = new LinkedList<>();
}
public void push(int val) {
elementStack.offer(val);
if(minStack.isEmpty() || minStack.peekLast() >= val){
minStack.offer(val);
}
}
public void pop() {
if(elementStack.peekLast().equals(minStack.peekLast())){
minStack.pollLast();
}
elementStack.pollLast();
}
public int top() {
return elementStack.peekLast();
}
public int getMin() {
return minStack.peekLast();
}
}
/**
* Your MinStack object will be instantiated and called as such:
* MinStack obj = new MinStack();
* obj.push(val);
* obj.pop();
* int param_3 = obj.top();
* int param_4 = obj.getMin();
*/
