You have the task of delivering some boxes from storage to their ports using only one ship. However, this ship has a limit on the number of boxes and the total weight that it can carry.
You are given an array boxes
, where boxes[i] =
[portsi, weighti]
, and three integers portsCount
,
maxBoxes
, and maxWeight
.
portsi
is the port where you need to deliver the
ith
box and weightsi
is the
weight of the ith
box.
portsCount
is the number of ports.maxBoxes
and maxWeight
are the respective box and
weight limits of the ship.
The boxes need to be delivered in the order they are given. The ship will follow these steps:
boxes
queue, not
violating the maxBoxes
and maxWeight
constraints.
The ship must end at storage after all the boxes have been delivered.
Return the minimum number of trips the ship needs to make to deliver all boxes to their respective ports.
Example 1:
Input: boxes = [[1,1],[2,1],[1,1]], portsCount = 2, maxBoxes = 3, maxWeight = 3 Output: 4 Explanation: The optimal strategy is as follows: - The ship takes all the boxes in the queue, goes to port 1, then port 2, then port 1 again, then returns to storage. 4 trips. So the total number of trips is 4. Note that the first and third boxes cannot be delivered together because the boxes need to be delivered in order (i.e. the second box needs to be delivered at port 2 before the third box).
Example 2:
Input: boxes = [[1,2],[3,3],[3,1],[3,1],[2,4]], portsCount = 3, maxBoxes = 3, maxWeight = 6 Output: 6 Explanation: The optimal strategy is as follows: - The ship takes the first box, goes to port 1, then returns to storage. 2 trips. - The ship takes the second, third and fourth boxes, goes to port 3, then returns to storage. 2 trips. - The ship takes the fifth box, goes to port 3, then returns to storage. 2 trips. So the total number of trips is 2 + 2 + 2 = 6.
Example 3:
Input: boxes = [[1,4],[1,2],[2,1],[2,1],[3,2],[3,4]], portsCount = 3, maxBoxes = 6, maxWeight = 7 Output: 6 Explanation: The optimal strategy is as follows: - The ship takes the first and second boxes, goes to port 1, then returns to storage. 2 trips. - The ship takes the third and fourth boxes, goes to port 2, then returns to storage. 2 trips. - The ship takes the fifth and sixth boxes, goes to port 3, then returns to storage. 2 trips. So the total number of trips is 2 + 2 + 2 = 6.
Example 4:
Input: boxes = [[2,4],[2,5],[3,1],[3,2],[3,7],[3,1],[4,4],[1,3],[5,2]], portsCount = 5, maxBoxes = 5, maxWeight = 7 Output: 14 Explanation: The optimal strategy is as follows: - The ship takes the first box, goes to port 2, then storage. 2 trips. - The ship takes the second box, goes to port 2, then storage. 2 trips. - The ship takes the third and fourth boxes, goes to port 3, then storage. 2 trips. - The ship takes the fifth box, goes to port 3, then storage. 2 trips. - The ship takes the sixth and seventh boxes, goes to port 3, then port 4, then storage. 3 trips. - The ship takes the eighth and ninth boxes, goes to port 1, then port 5, then storage. 3 trips. So the total number of trips is 2 + 2 + 2 + 2 + 3 + 3 = 14.
Constraints:
1 <= boxes.length <= 105
1 <= portsCount, maxBoxes, maxWeight <= 105
1 <= portsi <= portsCount
1 <= weightsi <= maxWeight