Off-by-one on range boundaries
Wrong move: Loop endpoints miss first/last candidate.
Usually fails on: Fails on minimal arrays and exact-boundary answers.
Fix: Re-derive loops from inclusive/exclusive ranges before coding.
Build confidence with an intuition-first walkthrough focused on array fundamentals.
Given an integer array nums and an integer k, return true if there are two distinct indices i and j in the array such that nums[i] == nums[j] and abs(i - j) <= k.
Example 1:
Input: nums = [1,2,3,1], k = 3 Output: true
Example 2:
Input: nums = [1,0,1,1], k = 1 Output: true
Example 3:
Input: nums = [1,2,3,1,2,3], k = 2 Output: false
Constraints:
1 <= nums.length <= 105-109 <= nums[i] <= 1090 <= k <= 105Problem summary: Given an integer array nums and an integer k, return true if there are two distinct indices i and j in the array such that nums[i] == nums[j] and abs(i - j) <= k.
Start with the most direct exhaustive search. That gives a correctness anchor before optimizing.
Pattern signal: Array · Hash Map · Sliding Window
[1,2,3,1] 3
[1,0,1,1] 1
[1,2,3,1,2,3] 2
contains-duplicate)contains-duplicate-iii)Source-backed implementations are provided below for direct study and interview prep.
// Accepted solution for LeetCode #219: Contains Duplicate II
class Solution {
public boolean containsNearbyDuplicate(int[] nums, int k) {
Map<Integer, Integer> d = new HashMap<>();
for (int i = 0; i < nums.length; ++i) {
if (i - d.getOrDefault(nums[i], -1000000) <= k) {
return true;
}
d.put(nums[i], i);
}
return false;
}
}
// Accepted solution for LeetCode #219: Contains Duplicate II
func containsNearbyDuplicate(nums []int, k int) bool {
d := map[int]int{}
for i, x := range nums {
if j, ok := d[x]; ok && i-j <= k {
return true
}
d[x] = i
}
return false
}
# Accepted solution for LeetCode #219: Contains Duplicate II
class Solution:
def containsNearbyDuplicate(self, nums: List[int], k: int) -> bool:
d = {}
for i, x in enumerate(nums):
if x in d and i - d[x] <= k:
return True
d[x] = i
return False
// Accepted solution for LeetCode #219: Contains Duplicate II
use std::collections::HashSet;
impl Solution {
fn contains_nearby_duplicate(nums: Vec<i32>, k: i32) -> bool {
let mut window = HashSet::new();
let mut l = 0;
for (r, &num) in nums.iter().enumerate() {
if r as i32 - l as i32 > k {
window.remove(&nums[l]);
l += 1;
}
if window.contains(&num) {
return true;
}
window.insert(num);
}
false
}
}
// Accepted solution for LeetCode #219: Contains Duplicate II
function containsNearbyDuplicate(nums: number[], k: number): boolean {
const d: Map<number, number> = new Map();
for (let i = 0; i < nums.length; ++i) {
if (d.has(nums[i]) && i - d.get(nums[i])! <= k) {
return true;
}
d.set(nums[i], i);
}
return false;
}
Use this to step through a reusable interview workflow for this problem.
For each starting index, scan the next k elements to compute the window aggregate. There are n−k+1 starting positions, each requiring O(k) work, giving O(n × k) total. No extra space since we recompute from scratch each time.
The window expands and contracts as we scan left to right. Each element enters the window at most once and leaves at most once, giving 2n total operations = O(n). Space depends on what we track inside the window (a hash map of at most k distinct elements, or O(1) for a fixed-size window).
Review these before coding to avoid predictable interview regressions.
Wrong move: Loop endpoints miss first/last candidate.
Usually fails on: Fails on minimal arrays and exact-boundary answers.
Fix: Re-derive loops from inclusive/exclusive ranges before coding.
Wrong move: Zero-count keys stay in map and break distinct/count constraints.
Usually fails on: Window/map size checks are consistently off by one.
Fix: Delete keys when count reaches zero.
Wrong move: Using `if` instead of `while` leaves the window invalid for multiple iterations.
Usually fails on: Over-limit windows stay invalid and produce wrong lengths/counts.
Fix: Shrink in a `while` loop until the invariant is valid again.