Description#
You are given a sorted integer array arr containing 1 and prime numbers, where all the integers of arr are unique. You are also given an integer k.
For every i and j where 0 <= i < j < arr.length, we consider the fraction arr[i] / arr[j].
Return the kth smallest fraction considered. Return your answer as an array of integers of size 2, where answer[0] == arr[i] and answer[1] == arr[j].
Example 1:
Input: arr = [1,2,3,5], k = 3
Output: [2,5]
Explanation: The fractions to be considered in sorted order are:
1/5, 1/3, 2/5, 1/2, 3/5, and 2/3.
The third fraction is 2/5.
Example 2:
Input: arr = [1,7], k = 1
Output: [1,7]
Constraints:
2 <= arr.length <= 10001 <= arr[i] <= 3 * 104arr[0] == 1arr[i] is a prime number for i > 0.- All the numbers of
arr are unique and sorted in strictly increasing order. 1 <= k <= arr.length * (arr.length - 1) / 2
Follow up: Can you solve the problem with better than
O(n2) complexity?
Solutions#
Solution 1#
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| class Solution:
def kthSmallestPrimeFraction(self, arr: List[int], k: int) -> List[int]:
h = [(1 / y, 0, j + 1) for j, y in enumerate(arr[1:])]
heapify(h)
for _ in range(k - 1):
_, i, j = heappop(h)
if i + 1 < j:
heappush(h, (arr[i + 1] / arr[j], i + 1, j))
return [arr[h[0][1]], arr[h[0][2]]]
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| class Solution {
public int[] kthSmallestPrimeFraction(int[] arr, int k) {
int n = arr.length;
Queue<Frac> pq = new PriorityQueue<>();
for (int i = 1; i < n; i++) {
pq.offer(new Frac(1, arr[i], 0, i));
}
for (int i = 1; i < k; i++) {
Frac f = pq.poll();
if (f.i + 1 < f.j) {
pq.offer(new Frac(arr[f.i + 1], arr[f.j], f.i + 1, f.j));
}
}
Frac f = pq.peek();
return new int[] {f.x, f.y};
}
static class Frac implements Comparable {
int x, y, i, j;
public Frac(int x, int y, int i, int j) {
this.x = x;
this.y = y;
this.i = i;
this.j = j;
}
@Override
public int compareTo(Object o) {
return x * ((Frac) o).y - ((Frac) o).x * y;
}
}
}
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| class Solution {
public:
vector<int> kthSmallestPrimeFraction(vector<int>& arr, int k) {
using pii = pair<int, int>;
int n = arr.size();
auto cmp = [&](const pii& a, const pii& b) {
return arr[a.first] * arr[b.second] > arr[b.first] * arr[a.second];
};
priority_queue<pii, vector<pii>, decltype(cmp)> pq(cmp);
for (int i = 1; i < n; ++i) {
pq.push({0, i});
}
for (int i = 1; i < k; ++i) {
pii f = pq.top();
pq.pop();
if (f.first + 1 < f.second) {
pq.push({f.first + 1, f.second});
}
}
return {arr[pq.top().first], arr[pq.top().second]};
}
};
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| type frac struct{ x, y, i, j int }
type hp []frac
func (a hp) Len() int { return len(a) }
func (a hp) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a hp) Less(i, j int) bool { return a[i].x*a[j].y < a[j].x*a[i].y }
func (a *hp) Push(x any) { *a = append(*a, x.(frac)) }
func (a *hp) Pop() any { l := len(*a); tmp := (*a)[l-1]; *a = (*a)[:l-1]; return tmp }
func kthSmallestPrimeFraction(arr []int, k int) []int {
n := len(arr)
h := make(hp, 0, n-1)
for i := 1; i < n; i++ {
h = append(h, frac{1, arr[i], 0, i})
}
heap.Init(&h)
for i := 1; i < k; i++ {
f := heap.Pop(&h).(frac)
if f.i+1 < f.j {
heap.Push(&h, frac{arr[f.i+1], arr[f.j], f.i + 1, f.j})
}
}
return []int{h[0].x, h[0].y}
}
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