I am solving a question on LeetCode.com:

Given an array of integers A, find the sum of min(B), where B ranges over every (contiguous) subarray of A. Since the answer may be large, return the answer modulo 10^9 + 7.

Input: [3,1,2,4]
Output: 17
Explanation: Subarrays are [3], [1], [2], [4], [3,1], [1,2], [2,4], [3,1,2], [1,2,4], [3,1,2,4]. Minimums are 3, 1, 2, 4, 1, 1, 2, 1, 1, 1. Sum is 17.

A highly upvoted solution is as below:

class Solution {
  int sumSubarrayMins(vector<int>& A) {
    stack<pair<int, int>> in_stk_p, in_stk_n;
    // left is for the distance to previous less element
    // right is for the distance to next less element
    vector<int> left(A.size()), right(A.size());

    for(int i = 0; i < A.size(); i++) left[i] =  i + 1;
    for(int i = 0; i < A.size(); i++) right[i] = A.size() - i;

    for(int i = 0; i < A.size(); i++){
      // for previous less
      while(!in_stk_p.empty() && in_stk_p.top().first > A[i]) in_stk_p.pop();
      left[i] = in_stk_p.empty()? i + 1: i - in_stk_p.top().second;

      // for next less
      while(!in_stk_n.empty() && in_stk_n.top().first > A[i]){
        auto x = in_stk_n.top();in_stk_n.pop();
        right[x.second] = i - x.second;
      in_stk_n.push({A[i], i});

    int ans = 0, mod = 1e9 +7;
    for(int i = 0; i < A.size(); i++){
      ans = (ans + A[i]*left[i]*right[i])%mod;
    return ans;

My question is: what is the intuition behind using a monotonically increasing stack for this? How does it help calculate the minimums in the various subarrays?

  • The stacks aren't monotone increasing, I can see two pops in the code, one for each.
    – maraca
    Apr 21, 2019 at 8:07
  • A 'monotone' stack, by which I presume you can only mean 'monotonically increasing', is a contradiction in terms. The moment you pop from it, it decreases. Unclear what you're asking.
    – user207421
    Apr 21, 2019 at 9:49
  • 5
    @user207421, I think my main question is not whether we should call it monotone stack or monotonically increasing stack - it is more about why a stack is being used in the first place. How does it help us achieve what we are seeking.
    – J. Doe
    Apr 21, 2019 at 14:31

1 Answer 1


Visualize the array as a line graph, with (local) minima as valleys. Each value is relevant for a range that extends from just after the previous smaller value (if any) to just before the next smaller value (if any). (Even a value larger than its neighbors matters when considering the singleton subarray that contains it.) The variables left and right track that range.

Recognizing that a value shadows every value larger than it in each direction separately, the stack maintains a list of previous, unshadowed minima for two purposes: identifying how far back a new small number’s range extends and (at the same time) how far forward the invalidated minima’s ranges extend. The code uses a separate stack for each purpose, but there’s no need: each has the same contents after every iteration of the (outer) loop.

  • Okay, it makes more sense to me now. Also, what is the formula ans + A[i]*left[i]*right[i]? Could you please elaborate on that please?
    – J. Doe
    Apr 21, 2019 at 14:52
  • 1
    @J.Doe: That’s how many subarrays include that element (as a minimum): the number of places to start it times the number to end it. Apr 21, 2019 at 14:58
  • for formula ans + A[i]*left[i]*right[i] check the explanation here
    – mlbishnoi
    Oct 18, 2019 at 12:45

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