Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I was just going through the questions various companies ask in interview. I found one was "Find square root of a number to a precision. Function definition should be of something like this: double getSquareRoot(int num, int precision)".

I wrote one small function which gives the square root but doesn't care about precision:

double getSquareRoot(int num){
 int num1=0, num2=0;
 for(int i=1 ;; i++){
   if(i*i == num){
    std::cout<<i <<" is the sq root"<<std::endl;
  else if(i*i > num){
   num2 = i;
   num1 = --i;
 // in the above for loop, i get the num1 and num2 where my input should lie 
 // between them
 // in the 2nd loop below.. now i will do the same process but incrementing 
 // by 0.005 each time
for(double i =num1;i<(double)num2;i+=0.005)
   if(i*i>= num){
     std::cout<<(double)i <<" is the sq root"<<std::endl;

Now to reach to precision, i will have to do some tweaks like adding if loops and all. I don't like that. Could you guys help me here? If you are writing code, please explain. I would appreciate it.


This code is very insufficient and this doesn't take care of "till this precision" part of the problem. I only wrote it so that you guy's don't think that i tried a bit. This

share|improve this question
That is one idiotic question for a c++ interview. For that you need to know an algorithm that does that. – BЈовић Dec 20 '11 at 7:52
What does the precision parameter mean? What is getSquareRoot(10, 4) supposed to return? – R. Martinho Fernandes Dec 20 '11 at 7:53
it should give something like 3.XXXX.Thank you for asking. – Aj Gauravdeep Dec 20 '11 at 7:57
I think the most standard way taught in a lot of programming books for finding square roots is "newtons method", so I would start there. – Jesse Good Dec 20 '11 at 7:58
Thanks for your comment Jesse. I am reading Newton method. I am sure this will take a while to code. Read it. Sounds good. en.wikipedia.org/wiki/… But after getting each x1 or x2.... i need to ensure that its the square root or not. correct? What would be the complexity here? any Idea? coz complexity is one thing.. otherwise.. i can just do something like this for(int i= num1; i<=num1;i+=0.0000001) – Aj Gauravdeep Dec 20 '11 at 8:05
up vote 4 down vote accepted

Off the top of my head, here are two approaches:

  • Use interval bisection; you know that the error is no more than the current interval width, so stop iterating once the interval is smaller than required precision. This is very simple, but doesn't converge as quickly as other methods.
  • Use an iterative method such as Newton's method (also known as the Babylonian method when used to calculate a square root), and estimate the error after each iteration.

To estimate the error, suppose we're trying to find x0 = sqrt(y), so that x0*x0 = y. After each iteration, we have a candidate x = x0 + d, and we want to estimate the error d. If we square x, then we get

x*x = x0*x0 + 2*x0*d + d*d
    = y + 2*(x-d)*d + d*d
   ~= y + 2*x*d

discarding the d*d terms, which gets very small as d gets small. So we can estimate the error as

d ~= (x*x - y) / (2*x)
   = (x - y/x) / 2

and stop iterating once this is smaller than the required precision.

If you are using the Babylonian method, then this adds very little work to the iterative calculation, x = (x + y/x) / 2, so the result is something like

double sqrt(double y, double precision)
    double x = y;  // or find a better initial estimate
    for (;;) {
        double z = y/x;
        if (std::abs(x-z) < 2*precision)
            return x;
        x = (x+z)/2;
share|improve this answer
Thanks for a good explanation. Although, i am not able to understand x= (x+z)/2. I will go through the Babylonian menthod and if i understand it, well and good, otherwise i will come back with doubt. Thanks again Mike. – Aj Gauravdeep Dec 20 '11 at 17:01

Maybe the best answer in this case is: use some big-number library such as GNU MP Bignum. It provides mpf_sqrt and similar functions. Default precision for floats can be set via mpf_set_default_prec.

Best, -- Christoph

share|improve this answer
I want to write my own function from scratch. I appreciate your answer though. Don't think of it as something you already know. Try making your own algorithm. I wanna go through that process here. – Aj Gauravdeep Dec 20 '11 at 7:59
I know that is tempting to reinvent the wheel, but what you are trying to achieve is probably more complex than at a first glance: you might soon run into floating point issues or similar. Coding for maximum precision is really tedious work. That's why I would always favor libraries from people devoting a lot of work into what seems to be trivia. – Christoph Heindl Dec 20 '11 at 9:14

Look here for several algorithms: Methods of computing square roots

share|improve this answer
Thanks for the link. I am already reading it . – Aj Gauravdeep Dec 20 '11 at 8:01

Here is my solution ::

double root(int num)
  double l=0,m=num,h=num,om=0;

            if(m*m < num)
                l = m;             
            else if(m*m > num)
       return m;
share|improve this answer

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.