H-Index II (LeetCode)
Problem Description​
Given an array of integers citations where citations[i] is the number of citations a researcher received for their ith paper and citations is sorted in ascending order, return the researcher's h-index. According to the definition of h-index on Wikipedia: The h-index is defined as the maximum value of h such that the given researcher has published at least h papers that have each been cited at least h times.
You must write an algorithm that runs in logarithmic time.
Example 1​
Input: citations = [0,1,3,5,6]
Output: 3
Explanation: [0,1,3,5,6] means the researcher has 5 papers in total and each of them had received 0, 1, 3, 5, 6 citations respectively.
Since the researcher has 3 papers with at least 3 citations each and the remaining two with no more than 3 citations each, their h-index is 3.
Example 2​
Input: citations = [1,2,100]
Output: 2
Constraints​
n == citations.length
1 <= n <= 10^5
0 <= citations[i] <= 1000
Approach​
Just binary search, each time check citations[mid]
citations[mid] == len-mid
, then it means there are citations[mid] papers that have at least citations[mid] citations.citations[mid] > len-mid
, then it means there arecitations[mid]
papers that have moret than citations[mid] citations, so we should continue searching in the left halfcitations[mid] < len-mid
, we should continue searching in the right side After iteration, it is guaranteed that right+1 is the one we need to find(i.e. len-(right+1) papars have at least len-(righ+1) citations)
Solution Code​
C++​
class Solution {
public:
int hIndex(vector<int>& citations) {
int left=0, len = citations.size(), right= len-1, mid;
while(left<=right)
{
mid=left+ (right-left)/2;
if(citations[mid] >= (len-mid)) right = mid - 1;
else left = mid + 1;
}
return len - left;
}
};
Java​
public int hIndex(int[] citations) {
int len = citations.length;
int lo = 0, hi = len - 1;
while (lo <= hi) {
int med = (hi + lo) / 2;
if (citations[med] == len - med) {
return len - med;
} else if (citations[med] < len - med) {
lo = med + 1;
} else {
//(citations[med] > len-med), med qualified as a hIndex,
// but we have to continue to search for a higher one.
hi = med - 1;
}
}
return len - lo;
}
Python​
class Solution:
def hIndex(self, citations):
if not citations: return 0
n = len(citations)
beg, end = 0, n - 1
while beg <= end:
mid = (beg + end)//2
if mid + citations[mid] >= n:
end = mid - 1
else:
beg = mid + 1
return n - beg
Conclusion​
-
Time Complexity
- The total time complexity as .
-
Space Complexity
- The only memory we allocate is the integer h, so the space complexity is O(1).