5

There are N cities given in an array A. There is also a bike that can travel atmost K units between the cities.

There are Q queries that we need to answer. Each query has the form L R X. It asks for the number of cities that are reachable from the city X that are between L and R in A (1 - indexed). Each city has a petrol pump so you can assume that fuel gets replenished as you reach it.

Example:

A = [4, 3, 1, 9, 6], K = 2

Q1 = 1 3 6 => (3)

Q2 = 1 5 3 => (4)

In Q1, from city 6 you can go to city 4, then to city 3, and then to 1.

In Q2, from city 3 you can go to all of the cities except the city at 9.

Constraints:

N <= 10^5 and Q <= 10^5 and K <= 10^8

How do I solve this problem? Obviously it is not possible to do a DFS / BFS from each X because it is very costly and will timeout. I tried thinking of Disjoint sets to join the cities that are within K distance from each other but I don't have a very clear idea of it.

Any help is appreciated. Thank you!

  • I'm voting to close this question as off-topic because it belongs to Computer Science Stack Exchange – kvantour Oct 12 '18 at 14:41
  • People have seen this question and there are also some votes and an answer. Also you could see several such related questions on StackOverflow, so I don't think it should be deleted. – Andrew Scott Oct 12 '18 at 20:41
4

I recommend:

  1. Sort the cities by their location: [4, 3, 1, 9, 6] -> [1,3,4,6,9]
  2. A linear scan through this will allow you to identify which sets of cities are reachable from each other. Label the cities according to which group they are in: [1,1,1,1,2]
  3. Label each query according to the label of its starting city
  4. Add all the label 1 cities into a segment tree
  5. Use the segment tree to answer all the label 1 queries
  6. Remove the label 1 cities from the segment tree

Then repeat steps 4,5,6 for each label.

This should give a total complexity of O(NlogN)+O(QlogN).

  • Nice solution. Thank you!! – Andrew Scott Sep 17 '18 at 6:30

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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