Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an array of n service stations D[] on a highway such that D[i] is the distance of the station i from the start of the highway.

I also have an array of costs C[] such that C[i] is the cost of getting my vehicle serviced at station i.

I have to get my car serviced at the first station, and my car can travel at most 100 miles between stations.

What is the most efficient algorithm to get from the start of the highway to the end with the least cost (I need to know which stations to stop at)? I was able to find a greedy solution for minimizing the number of stops, but for the least cost, I am thinking DP, with the optimal subproblem:

bestcost[j] = min( 0<i<j bestcost[i] + C[j] s.t. D[j]-D[i] <= 100)

and have a separate array last[j] which contains the last station at which to stop, which would be the best i from above subproblem.

Would this be the right approach, or is there a better Greedy / DP solution?

share|improve this question
I don't see a greedy solution. The DP recurrence is correct. You can get runtime O(n) with a monotonic queue that allows you to find the min in O(1), which is optimal and also has a low constant factor. That even works if the range of your bike is not constant. –  Niklas B. Jan 27 at 7:09
@NiklasB. actually his solution is greedy, at each stop he will look for the best option using only the cost .. his solution works fine, except it is not optimal, since he is not considering how much gas exist at every distance and how much can he re-fill with that price make the issue here more complex, and makes a cheaper price-per-gas-unit isn't always the best option to make a stop –  Khaled A Khunaifer Jan 27 at 8:08
@KhaledAKhunaifer please read my question carefully, I am not considering how much gas exists, because this is not the gas station problem, but a variation. It's a service station problem where I have to make a fixed expense C[i] every time I stop at a given station i. –  Anagha Jan 27 at 9:39
@Anagha as Niklas B. mentions, you can go backward from the end station, every time go through each station, update the min cost to reach end station from this station. I don't see any greedy here. –  Pham Trung Jan 27 at 9:47
@Anagha I see, but here is the worst case to your greedy solution .. imagine that the gas-stations have ascending costs C[i] > C[j] where i > j, this is where you will stop at every station on the road –  Khaled A Khunaifer Jan 27 at 9:57

2 Answers 2

The recurrence is better written as

bestcost_serviced_at[j] =
  min(0<i<j: bestcost_serviced_at[i] + C[j] s.t. D[j]-D[i] <= 100)

because the recurrence gives the optimal cost assuming that the vehicle actually stops at station j for service.

Then the solution to the problem is

min (j: bestcost_serviced_at[j] s.t. highway_end - D[j] <= 100)

I don't think a greedy algorithm would work.

share|improve this answer

I think your DP is bit incomplete, here is a DP recurrence which is more comprehensive :-

if(highway_end-D[i]>100) {

   minCost[i] = min(0<i<j && D[j]-D[i] <= 100 : minCost[j]+C[i])

else  minCost[i]  = C[i]     

minCost[i] = minimum cost to reach destination if you have filled up at i

Sort the stations according to distance from start and use DP in higher to lower stations distances. Use sorted array to find nearer neighboring stations <=100 miles away.

Edit : -

Can be done in O(NlogN) using min heap.

share|improve this answer
Can be implemented in O(n) though if distances are pre-sorted –  Niklas B. Jan 27 at 14:21
@NiklasB. even if it is presorted how to satisfy D[j]-D[i]<=100 and min(minCost[j]) in O(1) for each subproblem ? –  Vikram Bhat Jan 27 at 14:24
a segment tree gives you O(log n) per transition. As I mentioned, a monotonic queue with a sliding window algorithm even allows for constant time transitions. I'll write an answer later. –  Niklas B. Jan 27 at 14:27
See my answer for a simple O(n) algo to solve the recurrence, in case you're interested –  Niklas B. Jan 27 at 16:18

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.