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3538. Merge Operations for Minimum Travel Time
Description
You are given a straight road of length l km, an integer n, an integer k, and two integer arrays, position and time, each of length n.
The array position lists the positions (in km) of signs in strictly increasing order (with position[0] = 0 and position[n - 1] = l).
Each time[i] represents the time (in minutes) required to travel 1 km between position[i] and position[i + 1].
You must perform exactly k merge operations. In one merge, you can choose any two adjacent signs at indices i and i + 1 (with i > 0 and i + 1 < n) and:
- Update the sign at index
i + 1so that its time becomestime[i] + time[i + 1]. - Remove the sign at index
i.
Return the minimum total travel time (in minutes) to travel from 0 to l after exactly k merges.
Example 1:
Input: l = 10, n = 4, k = 1, position = [0,3,8,10], time = [5,8,3,6]
Output: 62
Explanation:
-
Merge the signs at indices 1 and 2. Remove the sign at index 1, and change the time at index 2 to
8 + 3 = 11. - After the merge:
positionarray:[0, 8, 10]timearray:[5, 11, 6]
-
Segment Distance (km) Time per km (min) Segment Travel Time (min) 0 → 8 8 5 8 × 5 = 40 8 → 10 2 11 2 × 11 = 22 - Total Travel Time:
40 + 22 = 62, which is the minimum possible time after exactly 1 merge.
Example 2:
Input: l = 5, n = 5, k = 1, position = [0,1,2,3,5], time = [8,3,9,3,3]
Output: 34
Explanation:
- Merge the signs at indices 1 and 2. Remove the sign at index 1, and change the time at index 2 to
3 + 9 = 12. - After the merge:
positionarray:[0, 2, 3, 5]timearray:[8, 12, 3, 3]
-
Segment Distance (km) Time per km (min) Segment Travel Time (min) 0 → 2 2 8 2 × 8 = 16 2 → 3 1 12 1 × 12 = 12 3 → 5 2 3 2 × 3 = 6 - Total Travel Time:
16 + 12 + 6 = 34, which is the minimum possible time after exactly 1 merge.
Constraints:
1 <= l <= 1052 <= n <= min(l + 1, 50)0 <= k <= min(n - 2, 10)position.length == nposition[0] = 0andposition[n - 1] = lpositionis sorted in strictly increasing order.time.length == n1 <= time[i] <= 1001 <= sum(time) <= 100