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This question was asked in my interview. random(0,1) is a function that generates integers 0 and 1 randomly. Using this function how would you design a function that takes two integers a,b as input and generates random integers including a and b.

I have No idea how to solve this.

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Think of the supplied function as generating random bits. How would you generate a random n-bit number with it? – Chris Nash Jan 31 '12 at 22:12
Apart from a and b occurring with non-zero probability, is there any particular limitation as to the distribution of the random integers? – Neil Jan 31 '12 at 22:27
I did not ask that to interviewer but he meant any number should be selected with equal probability b/w a and b. – user973931 Jan 31 '12 at 22:29

4 Answers 4

up vote 4 down vote accepted

We can do this easily by bit logic (E,g, a=4 b=10)

  1. Calculate difference b-a (for given e.g. 6)
  2. Now calculate ceil(log(b-a+1)(Base 2)) i.e. no of bits required to represent all numbers b/w a and b
  3. now call random(0,1) for each bit. (for given example range will be b/w 000 - 111)
  4. do step 3 till the number(say num) is b/w 000 to 110(inclusive) i.e. we need only 7 levels since b-a+1 is 7.So there are 7 possible states a,a+1,a+2,... a+6 which is b.
  5. return num + a.
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I like this idea but I think there should be a better for doing this. – user973931 Jan 31 '12 at 22:29
No user973931, this is the a good way of doing it. – UmNyobe Jan 31 '12 at 22:53
This is indeed a good way to do it. The issue with this is that there's up to almost 50% chance of reaching step 4 and needing to return to step 3 (for example, when needing a number between 0 and 8, you end up generating numbers from 0 to 15, so 9-15 require repeats), so the total time for the operation is X (step 3 time) + .5X + .25*X + .125X etc., approaching 2X. It's difficult to avoid that overhead without making some results more likely than others, which is why this kind of thing is a common interview question - discussing the problem requires some level of insight. – Tony D Feb 1 '12 at 1:51
There is actually an easy (and intuitive) way to avoid that overhead while maintaining a uniform distribution. – Chris Hopman Feb 2 '12 at 5:37

I hate this kind of interview Question because there are some answer fulfilling it but the interviewer will be pretty mad if you use them. For example,

Call random, 
if you obtain 0, output a
if you obtain 1, output b

A more sophisticate answer, and probably what the interviewer wants is

  c = Max(a,b)
  d = log2(c) //so we know how much bits we need to cover both a and b

 int r = 0;
 for(int i = 0; i< d; i++)
    r = (r<<1)| Random01();
 return r;

You can generate random strings of 0 and 1 by successively calling the sub function.

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So we have randomBit() returning 0 or 1 independently, uniformly at random and we want a function random(a, b) that returns a value in the range [a,b] uniformly at random. Let's actually make that the range [a, b) because half-open ranges are easier to work with and equivalent. In fact, it is easy to see that we can just consider the case where a == 0 (and b > 0), i.e. we just want to generate a random integer in the range [0, b).

Let's start with the simple answer suggested elsewhere. (Forgive me for using c++ syntax, the concept is the same in Java)

int random2n(int n) {
   int ret = n ? randomBit() + (random2n(n - 1) << 1) : 0;
int random(int b) {
    int n = ceil(log2(b)), v;
    while ((v = random2n(n)) >= b);
    return v;

That is-- it is easy to generate a value in the range [0, 2^n) given randomBit(). So to get a value in [0, b), we repeatedly generate something in the range [0, 2^ceil(log2(b))] until we get something in the correct range. It is rather trivial to show that this selects from the range [0, b) uniformly at random.

As stated before, the worst case expected number of calls to randomBit() for this is (1 + 1/2 + 1/4 + ...) ceil(log2(b)) = 2 ceil(log2(b)). Most of those calls are a waste, we really only need log2(n) bits of entropy and so we should try to get as close to that as possible. Even a clever implementation of this that calculates the high bits early and bails out as soon as it exits the wanted range has the same expected number of calls to randomBit() in the worst case.

We can devise a more efficient (in terms of calls to randomBit()) method quite easily. Let's say we want to generate a number in the range [0, b). With a single call to randomBit(), we should be able to approximately cut our target range in half. In fact, if b is even, we can do that. If b is odd, we will have a (very) small chance that we have to "re-roll". Consider the function:

int random(int b) {
    if (b < 2) return 0;
    int mid = (b + 1) / 2, ret = b;
    while (ret == b) {
         ret = (randomBit() ? mid : 0) + random(mid);
    return ret;

This function essentially uses each random bit to select between two halves of the wanted range and then recursively generates a value in that half. While the function is fairly simple, the analysis of it is a bit more complex. By induction one can prove that this generates a value in the range [0, b) uniformly at random. Also, it can be shown that, in the worst case, this is expected to require ceil(log2(b)) + 2 calls to randomBit(). When randomBit() is slow, as may be the case for a true random generator, this is expected to waste only a constant number of calls rather than a linear amount as in the first solution.

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function randomBetween(int a, int b){
int x = b-a;//assuming a is smaller than b
float rand = random();
return a+Math.ceil(rand*x);
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