2024-06-13 Daily Challenge
Today I have done leetcode's June LeetCoding Challenge with cpp
.
June LeetCoding Challenge 13
Description
Minimum Number of Moves to Seat Everyone
There are n
seats and n
students in a room. You are given an array seats
of length n
, where seats[i]
is the position of the ith
seat. You are also given the array students
of length n
, where students[j]
is the position of the jth
student.
You may perform the following move any number of times:
- Increase or decrease the position of the
ith
student by1
(i.e., moving theith
student from positionx
tox + 1
orx - 1
)
Return the minimum number of moves required to move each student to a seat such that no two students are in the same seat.
Note that there may be multiple seats or students in the same position at the beginning.
Example 1:
Input: seats = [3,1,5], students = [2,7,4] Output: 4 Explanation: The students are moved as follows: - The first student is moved from from position 2 to position 1 using 1 move. - The second student is moved from from position 7 to position 5 using 2 moves. - The third student is moved from from position 4 to position 3 using 1 move. In total, 1 + 2 + 1 = 4 moves were used.
Example 2:
Input: seats = [4,1,5,9], students = [1,3,2,6] Output: 7 Explanation: The students are moved as follows: - The first student is not moved. - The second student is moved from from position 3 to position 4 using 1 move. - The third student is moved from from position 2 to position 5 using 3 moves. - The fourth student is moved from from position 6 to position 9 using 3 moves. In total, 0 + 1 + 3 + 3 = 7 moves were used.
Example 3:
Input: seats = [2,2,6,6], students = [1,3,2,6] Output: 4 Explanation: Note that there are two seats at position 2 and two seats at position 6. The students are moved as follows: - The first student is moved from from position 1 to position 2 using 1 move. - The second student is moved from from position 3 to position 6 using 3 moves. - The third student is not moved. - The fourth student is not moved. In total, 1 + 3 + 0 + 0 = 4 moves were used.
Constraints:
n == seats.length == students.length
1 <= n <= 100
1 <= seats[i], students[j] <= 100
Solution
class Solution {
public:
int minMovesToSeat(vector<int>& seats, vector<int>& students) {
sort(seats.begin(), seats.end());
sort(students.begin(), students.end());
int answer = 0;
for(int i = 0; i < seats.size(); ++i) {
answer += abs(seats[i] - students[i]);
}
return answer;
}
};