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Suppose there is a circle. There are n petrol pumps on that circle. You are given two sets of data.

  1. The amount of petrol that petrol pump will give.
  2. Distance from that petrol pump to the next petrol pump.

Calculate the first point from where a truck will be able to complete the circle

I just solved the problem. I want to know if I solved the problem correctly.


I started from starting point and I tried adding rest of the petrol left travelling the distance. if value is < 0 and if we reach start again then no solution exists. otherwise keep looping till you reach the end. End is always start + 1; Also I know the algorithm O(n). Can some one also explain using a good logic how its O(n).

int PPT(int P[], int D[], int N)

   int start = 0, end = 1, cur_ptr = P[0] - D[0], i = start;

   while(start != end)

      if(cur_ptr < 0)
         start = (i + 1) % N;
         end = (start + 1) % N;
         cur_ptr = 0;
         if(start == 0) return -1; // if start again becomes 0 then no solution exists

      i = (i + 1) % N;

      cur_ptr += P[i] - D[i];
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I assume P[] is the amount of petrol a pump will give and D[] is the distance from that pump to the next pump. Could you explain what is cur_ptr? and how are you calculating amount of petrol to the distance traveled? –  Thanushan Balakrishnan Aug 27 '13 at 6:35
Can I assume that P[] contains the distance for which the user has enough petrol? This would make it easier to compare D[] and P[]. –  akaHuman Aug 27 '13 at 7:06
possible duplicate of algorithm for truck moving around a circle of gas stations –  David Eisenstat Aug 27 '13 at 13:44

2 Answers 2

up vote 5 down vote accepted

start != end always holds. Therefore, your algorithm produces an infinite loop if there is a solution. Furthermore, I don't understand, why end should be start + 1.

Here is another approach:

Consider the following function:

remaining petrol function

This function calculates the remaining petrol just before arriving at pump i. The function can be visualized as follows:

remaining petrol function

The function starts at petrol = 0. You see that this configuration is not valid, because at pump 4 the remaining petrol is negative. Furthermore, there is a solution, because the remaining petrol at the last pump (again the start pump) is positive.

What happens, if we choose a different start? The basic shape of the function remains the same. It is just moved to the left. Furthermore, because the function starts at petrol = 0, the function is decreased by C(start). The remaining fuel at the end does not play a role in this case, because it would increase the current petrol.

The task is to find a start that allows all C(i) to be positive. This is obviously the case for the minimal C(i), in this case for start = 4.

Calculating the function C(i) can be done iteratively, and therefore, in linear time. You iterate once from 0 to N. The minimum can be found during this iteration in constant time (by comparing with the current minimum). Therefore, the overall time complexity is O(n).

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I don't think the solution you provide is correct. Whenever cur_ptr is greater than 0, you are not updating the variable end. Therefore, suppose if at every station P[i] > D[i], the loop will keep running till infinity.

Besides a few more changes, I believe you need to add end = (end + 1) % N; somewhere. I have modified the code and it gives the correct solution.

    int PPT(int[] P, int[] D, int N)
        int start = 0, end = 1, cur_ptr = P[0] - D[0];
        bool none = false;

        while (start != end)
            if (cur_ptr < 0)
                start = (start + 1) % N;
                if (start == 0)    // all stations have been traveled but solution is not yet available
                    none = true;
                end = (start + 1) % N;
                cur_ptr = P[start] - D[start];
                end = (end + 1) % N;
                cur_ptr += P[end] - D[end];
        return none?-1:start;
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