39. Combination Sum LeetCode Solution

In this guide we will provide 39. Combination Sum LeetCode Solution with best time and space complexity. The solution to Combination Sum problem is provided in various programming languages like C++, Java and python. This will be helpful for you if you are preparing for placements, hackathon, interviews or practice purposes. The solutions provided here are very easy to follow and with detailed explanations.

Table of Contents

• Problem Statement
• Complexity Analysis
• Combination Sum solution in C++
• Combination Sum soution in Java
• Combination Sum solution Python
• Additional Resources

Problem Statement of Combination Sum

Given an array of distinct integers candidates and a target integer target, return a list of all unique combinations of candidates where the chosen numbers sum to target. You may return the combinations in any order.
The same number may be chosen from candidates an unlimited number of times. Two combinations are unique if the frequency of at least one of the chosen numbers is different.
The test cases are generated such that the number of unique combinations that sum up to target is less than 150 combinations for the given input.

Example 1:

Input: candidates = [2,3,6,7], target = 7
Output: [[2,2,3],[7]]
Explanation:
2 and 3 are candidates, and 2 + 2 + 3 = 7. Note that 2 can be used multiple times.
7 is a candidate, and 7 = 7.
These are the only two combinations.

Example 2:

Input: candidates = [2,3,5], target = 8
Output: [[2,2,2,2],[2,3,3],[3,5]]

Example 3:

Input: candidates = [2], target = 1
Output: []

Constraints:

1 <= candidates.length <= 30
2 <= candidates[i] <= 40
All elements of candidates are distinct.
1 <= target <= 40

Complexity Analysis

• Time Complexity: O(|\texttt{candidates}|^{\texttt{target}})
• Space Complexity: O(\texttt{target})

39. Combination Sum LeetCode Solution in C++

class Solution {
 public:
  vector<vector<int>> combinationSum(vector<int>& candidates, int target) {
    vector<vector<int>> ans;
    ranges::sort(candidates);
    dfs(candidates, 0, target, {}, ans);
    return ans;
  }

 private:
  void dfs(const vector<int>& A, int s, int target, vector<int>&& path,
           vector<vector<int>>& ans) {
    if (target < 0)
      return;
    if (target == 0) {
      ans.push_back(path);
      return;
    }

    for (int i = s; i < A.size(); ++i) {
      path.push_back(A[i]);
      dfs(A, i, target - A[i], std::move(path), ans);
      path.pop_back();
    }
  }
};
/* code provided by PROGIEZ */

39. Combination Sum LeetCode Solution in Java

class Solution {
  public List<List<Integer>> combinationSum(int[] candidates, int target) {
    List<List<Integer>> ans = new ArrayList<>();
    Arrays.sort(candidates);
    dfs(0, candidates, target, new ArrayList<>(), ans);
    return ans;
  }

  private void dfs(int s, int[] candidates, int target, List<Integer> path,
                   List<List<Integer>> ans) {
    if (target < 0)
      return;
    if (target == 0) {
      ans.add(new ArrayList<>(path));
      return;
    }

    for (int i = s; i < candidates.length; ++i) {
      path.add(candidates[i]);
      dfs(i, candidates, target - candidates[i], path, ans);
      path.remove(path.size() - 1);
    }
  }
}
// code provided by PROGIEZ

39. Combination Sum LeetCode Solution in Python

class Solution:
  def combinationSum(self, candidates: list[int],
                     target: int) -> list[list[int]]:
    ans = []

    def dfs(s: int, target: int, path: list[int]) -> None:
      if target < 0:
        return
      if target == 0:
        ans.append(path.clone())
        return

      for i in range(s, len(candidates)):
        path.append(candidates[i])
        dfs(i, target - candidates[i], path)
        path.pop()

    candidates.sort()
    dfs(0, target, [])
    return ans
 #code by PROGIEZ

Additional Resources

• Explore all Leetcode problems solutions at Progiez here
• Explore all problems on Leetcode website here

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