Problem Statement
You are given an integer array score
of size n
, where score[i]
is the score of the ith
athlete in a competition. All the scores are guaranteed to be unique.
The athletes are placed based on their scores, where the 1st
place athlete has the highest score, the 2nd
place athlete has the 2nd
highest score, and so on. The placement of each athlete determines their rank:
The
1st
place athlete's rank is"Gold Medal"
.The
2nd
place athlete's rank is"Silver Medal"
.The
3rd
place athlete's rank is"Bronze Medal"
.For the
4th
place to thenth
place athlete, their rank is their placement number (i.e., thexth
place athlete's rank is"x"
).
Return an array answer
of size n
where answer[i]
is the rank of the ith
athlete.
Examples
Example 1:
Input: score = [5,4,3,2,1]
Output: ["Gold Medal","Silver Medal","Bronze Medal","4","5"]
Explanation: The placements are [1st, 2nd, 3rd, 4th, 5th].
Example 2:
Input: score = [10,3,8,9,4]
Output: ["Gold Medal","5","Bronze Medal","Silver Medal","4"]
Explanation: The placements are [1st, 5th, 3rd, 2nd, 4th].
Constraints
n == score.length
1 <= n <= 10<sup>4</sup>
0 <= score[i] <= 10<sup>6</sup>
All the values in
score
are unique.
Intuition
In this problem we need to return an array of string with rank of athletes in their original position as in score
array. This is a classic problem in which the explanation of problem seems scary but the solution is very easy.
We need to tackle the following:
Keep the array in order to easily match ranks with positions: To achieve this, we can sort the array in descending order. Remember not to sort the original array but create a copy by using
sorted()
instead of List.sort().Connect ranks and positions together: Once we sort the array, we can link the scores to ranks. For instance, if the array is:
scores: [3,5,6,2,9]
After sorting in descending order:
scores_reversed: [9,6,5,3,2]
We can create a mapping like:
{9:"Gold Medal",6:"Silver Medal",5:"Bronze Medal","4"}
Provide a new array with ranks in the original order of
score
array: Since we used the score as the key in the mapping, we can generate another array by looping throughscores
(the original array) and placing the value at that index.
Code Solution
Python Code:
# TC: O(n logn)
# SC: O(n)
class Solution:
def findRelativeRanks(self, scores: List[int]) -> List[str]:
# sort the score list in descending order
# not sorting in place
sorted_scores=sorted(scores,reverse=True)
# kind of a map for Medals
medals=["Gold Medal","Silver Medal","Bronze Medal"]
# map score to the Medal or position
score_map={score:medals[index] if index<3 else str(index+1) for index,score in enumerate(sorted_scores)}
# form a rank list according to original scores list and return it
return [score_map[score] for score in scores]
Time and Space Complexity
Time Complexity:
$$O(n\ logn)$$
This is because we're sorting the array.
Space Complexity:
$$O(n)$$
As we're allocating extra space for the sorted_scores
array.
Conclusion
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Happy Coding!๐