You are given an integer finalSum. Split it into a sum of a maximum number of unique positive even integers.
- For example, given
finalSum = 12, the following splits are valid (unique positive even integers summing up tofinalSum):(12),(2 + 10),(2 + 4 + 6), and(4 + 8). Among them,(2 + 4 + 6)contains the maximum number of integers. Note thatfinalSumcannot be split into(2 + 2 + 4 + 4)as all the numbers should be unique.
Return a list of integers that represent a valid split containing a maximum number of integers. If no valid split exists for finalSum, return an empty list. You may return the integers in any order.
Example 1:
Input: finalSum = 12 Output: [2,4,6] Explanation: The following are valid splits:(12),(2 + 10),(2 + 4 + 6), and(4 + 8). (2 + 4 + 6) has the maximum number of integers, which is 3. Thus, we return [2,4,6]. Note that [2,6,4], [6,2,4], etc. are also accepted.
Example 2:
Input: finalSum = 7 Output: [] Explanation: There are no valid splits for the given finalSum. Thus, we return an empty array.
Example 3:
Input: finalSum = 28 Output: [6,8,2,12] Explanation: The following are valid splits:(2 + 26),(6 + 8 + 2 + 12), and(4 + 24).(6 + 8 + 2 + 12)has the maximum number of integers, which is 4. Thus, we return [6,8,2,12]. Note that [10,2,4,12], [6,2,4,16], etc. are also accepted.
Constraints:
1 <= finalSum <= 1010
class Solution:
def maximumEvenSplit(self, finalSum: int) -> List[int]:
if finalSum % 2:
return []
i = 2
ans = []
while i <= finalSum:
ans.append(i)
finalSum -= i
i += 2
ans[-1] += finalSum
return ansclass Solution {
public List<Long> maximumEvenSplit(long finalSum) {
List<Long> ans = new ArrayList<>();
if (finalSum % 2 == 1) {
return ans;
}
for (long i = 2; i <= finalSum; i += 2) {
ans.add(i);
finalSum -= i;
}
ans.add(ans.remove(ans.size() - 1) + finalSum);
return ans;
}
}class Solution {
public:
vector<long long> maximumEvenSplit(long long finalSum) {
vector<long long> ans;
if (finalSum % 2) return ans;
for (long long i = 2; i <= finalSum; i += 2) {
ans.push_back(i);
finalSum -= i;
}
ans.back() += finalSum;
return ans;
}
};func maximumEvenSplit(finalSum int64) (ans []int64) {
if finalSum%2 == 1 {
return
}
for i := int64(2); i <= finalSum; i += 2 {
ans = append(ans, i)
finalSum -= i
}
ans[len(ans)-1] += finalSum
return
}function maximumEvenSplit(finalSum: number): number[] {
const ans: number[] = [];
if (finalSum % 2 === 1) {
return ans;
}
for (let i = 2; i <= finalSum; i += 2) {
ans.push(i);
finalSum -= i;
}
ans[ans.length - 1] += finalSum;
return ans;
}public class Solution {
public IList<long> MaximumEvenSplit(long finalSum) {
IList<long> ans = new List<long>();
if (finalSum % 2 == 1) {
return ans;
}
for (long i = 2; i <= finalSum; i += 2) {
ans.Add(i);
finalSum -= i;
}
ans[ans.Count - 1] += finalSum;
return ans;
}
}