155. Min Stack

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. Example: MinStack minStack = new MinStack(); minStack.push(-2); minStack.push(0); minStack.push(-3); minStack.getMin(); –> Returns -3. minStack.pop(); minStack.top(); –> Returns 0. minStack.getMin(); –> Returns -2.

public class MinStack { Stack<Integer> stack = new Stack<Integer>(); int min = Integer.MAX_VALUE; public MinStack(){ } public void push(int x){ if(x <= min) { stack.push(min); min = x; } stack.push(x); } public void pop(){ if(min == stack.pop()) min = stack.pop(); } public int top(){ return stack.peek(); } public int getMin(){ return min; } } /** * 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(); */ public class MinStack { Stack<Integer> stack = new Stack<Integer>(); Stack<Integer> minstack = new Stack<Integer>(); public MinStack(){ } public void push(int x){ stack.push(x); if(minstack.isEmpty()) minstack.push(x); else { if(x > minstack.peek()){ minstack.push(minstack.peek()); } else { minstack.push(x); } } } public void pop(){ stack.pop(); minstack.pop(); } public int top(){ return stack.peek(); } public int getMin(){ return minstack.peek(); } } /** * 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(); */