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Yesterday, I appeared in an interview. I was stuck in one of the question, and I am asking here the same.

There is an array given that shows points on x-axis, there are N points. and M coins also given.

Remember N >= M

You have to maximize the minimum distance between any two points.

Example: Array : 1 3 6 12
         3 coins are given.
         If you put coins on 1, 3, 6 points Then distance between coins are : 2, 3 
         So it gives 2 as answer 
         But we can improve further
         If we put coins at 1, 6, 12 points.
         Then distances are 5, 6
         So correct answer is : 5

Please help me because I am totally stuck in this question.

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Just answered this a couple of days ago: stackoverflow.com/questions/12278528/… –  ElKamina Sep 8 '12 at 7:35
BTW, the solution I have given is of polynomial complexity and the solution is always optimal. –  ElKamina Sep 8 '12 at 7:37
@ElKamina i think my solution may be faster –  chacham15 Sep 8 '12 at 7:41
@chacham15 I do not read code on this forum. Thanks anyways! –  ElKamina Sep 8 '12 at 7:42
@ElKamina added some text explanation as it seems that people dont want to read pseudo-code, lol. –  chacham15 Sep 8 '12 at 7:47

4 Answers 4

Here's my O(N2) approach to this. First, generate all possible distances;

int dist[1000000][3], ndist = 0;
for(int i = 0; i < n; i ++) {
    for(int j = i + 1; j < n; j ++) {
        dist[ndist][0] = abs(points[i] - points[j]);
        dist[ndist][1] = i; //save the first point
        dist[ndist][2] = j; //save the second point

Now sort the distances in decreasing order:

sort(dist, dist + ndist, cmp);

Where cmp is:

bool cmp(int x[], int y[]) {
    return (x[0] > y[0]);

Sweep through the array, adding points as long as as you don't have m points chosen:

int chosen = 0;
int ans;
for(int i = 0; i < ndist; i ++) {
    int whatadd = (!visited[dist[i][1]]) + (!visited[dist[i][2]); //how many new points we'll get if we take this one
    if(chosen + whatadd > m) {
    visited[dist[i][1]] = 1;
    visited[dist[i][2]] = 1;
    chosen += whatadd;
    ans = dist[i][0]; //ans is the last dist[i][0] chosen, since they're sorted in decreasing order
if(chosen != m) {
    //you need at most one extra point, choose the optimal available one
    //left as an exercise :)

I hope that helped!

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this is the same solution i posted, only i did it in linear time –  chacham15 Sep 8 '12 at 8:08
@chacham15 Actually your solution is different, you're only considering differences between consecutive points after sorting them. –  Chris Sep 8 '12 at 8:09
right, you're essentially running a brute force of what i solved in a single pass –  chacham15 Sep 8 '12 at 8:10
@chacham15 Test your solution on this, please: N = 5, M = 3, and the points are: 1, 4, 7, 100, 200. The output should be 99. –  Chris Sep 8 '12 at 8:13
my solution reaches the same conclusion (although, there was a -1 missing from the pseudo-code, sorry) –  chacham15 Sep 8 '12 at 8:15
$length = length($array);
sort($array); //sorts the list in ascending order
$differences = ($array << 1) - $array; //gets the difference between each value and the next largest value
$max = ($array[$length-1]-$array[0])/$M; //this is the theoretical max of how large the result can be
$result = array();
for ($i = 0; i < $length-1; $i++){
    $count += $differences[i];
    if ($length-$i == $M - 1 || $count >= $max){ //if there are either no more coins that can be taken or we have gone above or equal to the theoretical max, add a point
        $count = 0;
return min($result)

For the non-code people: sort the list, find the differences between each 2 sequential elements, sort that list (in ascending order), then loop through it summing up sequential values until you either pass the theoretical max or there arent enough elements remaining; then add that value to a new array and continue until you hit the end of the array. then return the minimum of the newly created array.

This is just a quick draft though. At a quick glance any operation here can be done in linear time (radix sort for the sorts).

For example, with 1, 4, 7, 100, and 200 and M=3, we get:

$differences = 3, 3, 93, 100
$max = (200-1)/3 ~ 67
then we loop:
$count = 3, 3+3=6, 6+93=99 > 67 so we push 99
$count = 100 > 67 so we push 100
min(99,100) = 99
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Chacham15, can you explain me for below test case, I think it fails :- array[] = {1, 2, 3, 6, 7 ,8, 10} and coins = 3 please explain for this test case, it gives answer = 3, according to your algorithm –  devnull Sep 9 '12 at 6:15
@jhamb yea, sorting the differences was an error, lol. –  chacham15 Sep 9 '12 at 16:18
then how can I solve this question?? any idea please. –  devnull Sep 10 '12 at 10:11
take out the sort of the differences –  chacham15 Sep 10 '12 at 17:19
I highly doubt this works, even with the modification. It must be possible to force the last few points to bunch up and give a non-optimal answer. Linear time surely can't be possible. –  Nicholas Wilson Mar 16 '13 at 13:51

You could use a gready algorithm: you choose the first and last point of the ordered series (as this is the largest possible distance). Then you choose the point closest to the average of them (as any other answer will give a smaller distance in one side), than choose the larger partition. Then repeat it as many times as you need.

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WebMonster, I also told the same approach. Firstly sort the array, then put points on stating and end ponts, then put third point near the mid of start and end points. But where we put the forth point –  devnull Sep 8 '12 at 7:22
Repeat what? where do you put the fourth coin? The fifth? Even with just 4 coins and many equally spaced points this algorithm is clearly wrong because it will put third coin in the middle where there should be no coin. –  6502 Sep 8 '12 at 7:24
Use the largest partition, I think this could be similar to a binary seach problem but I haveto think about it :) –  WebMonster Sep 8 '12 at 7:28
@WebMonster , Can you tell me how you decide where the fourth coin should be placed ? –  devnull Sep 9 '12 at 6:23

You have to use Dynamic Programming. Because, you need an optimum answer. Your problem is similar to "Change -making of the coin" problem. Like the problem, you have no of coins and you want to find minimum distance.(Instead of minimum no of coins).

You can read following link: Change Coin problem & Dynamic Programming

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How do you split the problem in subproblems by maintaining the optimality constraint? –  6502 Sep 8 '12 at 7:38
Sorry!!! It is my mistake. Dynamic programming is not suitable. I thought in the context of optimal answer. But here problem can not be divided in sub problems. Sorry guys. –  Manan Shah Sep 8 '12 at 7:41
Thanks 6502.... –  Manan Shah Sep 8 '12 at 7:42

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