# [895. Maximum Frequency Stack](https://leetcode.com/problems/maximum-frequency-stack/) ## 题目 Implement FreqStack, a class which simulates the operation of a stack-like data structure. FreqStack has two functions: push(int x), which pushes an integer x onto the stack. pop(), which removes and returns the most frequent element in the stack. If there is a tie for most frequent element, the element closest to the top of the stack is removed and returned. **Example 1**: ``` Input: ["FreqStack","push","push","push","push","push","push","pop","pop","pop","pop"], [[],[5],[7],[5],[7],[4],[5],[],[],[],[]] Output: [null,null,null,null,null,null,null,5,7,5,4] Explanation: After making six .push operations, the stack is [5,7,5,7,4,5] from bottom to top. Then: pop() -> returns 5, as 5 is the most frequent. The stack becomes [5,7,5,7,4]. pop() -> returns 7, as 5 and 7 is the most frequent, but 7 is closest to the top. The stack becomes [5,7,5,4]. pop() -> returns 5. The stack becomes [5,7,4]. pop() -> returns 4. The stack becomes [5,7]. ``` **Note**: - Calls to FreqStack.push(int x) will be such that 0 <= x <= 10^9. - It is guaranteed that FreqStack.pop() won't be called if the stack has zero elements. - The total number of FreqStack.push calls will not exceed 10000 in a single test case. - The total number of FreqStack.pop calls will not exceed 10000 in a single test case. - The total number of FreqStack.push and FreqStack.pop calls will not exceed 150000 across all test cases. ## 题目大意 实现 FreqStack,模拟类似栈的数据结构的操作的一个类。 FreqStack 有两个函数: - push(int x),将整数 x 推入栈中。 - pop(),它移除并返回栈中出现最频繁的元素。如果最频繁的元素不只一个,则移除并返回最接近栈顶的元素。 ## 解题思路 FreqStack 里面保存频次的 map 和相同频次 group 的 map。push 的时候动态的维护 x 的频次,并更新到对应频次的 group 中。pop 的时候对应减少频次字典里面的频次,并更新到对应频次的 group 中。 ## 代码 ```go package leetcode type FreqStack struct { freq map[int]int group map[int][]int maxfreq int } func Constructor895() FreqStack { hash := make(map[int]int) maxHash := make(map[int][]int) return FreqStack{freq: hash, group: maxHash} } func (this *FreqStack) Push(x int) { if _, ok := this.freq[x]; ok { this.freq[x]++ } else { this.freq[x] = 1 } f := this.freq[x] if f > this.maxfreq { this.maxfreq = f } this.group[f] = append(this.group[f], x) } func (this *FreqStack) Pop() int { tmp := this.group[this.maxfreq] x := tmp[len(tmp)-1] this.group[this.maxfreq] = this.group[this.maxfreq][:len(this.group[this.maxfreq])-1] this.freq[x]-- if len(this.group[this.maxfreq]) == 0 { this.maxfreq-- } return x } /** * Your FreqStack object will be instantiated and called as such: * obj := Constructor(); * obj.Push(x); * param_2 := obj.Pop(); */ ```