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Let's concatenate the squares of numbers that start with 1. So, what is the n'th digit in this string ?

For example, the 10th digit is 4.

1 4 9 16 25 36 49 64 81

It is just an ordinary question that come to mine ordinary mind. How can I solve this to sleep well tonight? any algorithm without looping ?

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Is the function given the ready-made number (1491625...) or does it have to compute it itself? Extracting the nth digit should be easy (regardless of the base - but I assume you talk about base 10?). – delnan Jan 26 '11 at 21:32
You're missing 64. – ephemient Jan 26 '11 at 21:33
@ephemient yes thanks. it is night now. sorry for that – user467871 Jan 26 '11 at 21:35
up vote 11 down vote accepted

You can work enumerate how many 1-digit, 2-digit, 3-digit, etc. numbers there are in this sequence by taking square roots of powers-of-10. This will allow you to establish which number the n-th digit lies in. From there, it should be pretty trivial.

This should be O(log n) complexity.

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+1 A further optimisation is not to calculate the square roots every time, because sqrt(10^n) = sqrt( 10^(n-1) ) * sqrt( 10 ), that's one multiplication per power of 10. – biziclop Jan 26 '11 at 21:44
@biziclop: That's a nice idea! I guess that numerical inaccuracies would lead this iterative calculation to diverge as n gets really large, though. – Oliver Charlesworth Jan 26 '11 at 21:46
Yes, in practice with floating point arithmetics it will. But as a theoretical algorithm, it works. – biziclop Jan 26 '11 at 21:48
Another simplification could be applied when you reach the number you need and try to find its square's kth digit. If the number's square is m digits long, you don't have to calculate the square of the number, just its last (m-k+1) digits. – biziclop Jan 26 '11 at 22:18
@OliCharlesworth can you show an example? from your answer i'm not sure how to implement getDigit(0x87A99C006D61, 10) == 4 – Segfault May 29 '14 at 14:43

ceil(log10(x+1)) will give you the number of digits in a number. Iterate through the squares keeping a count of the total length and once you've reached or exceeded the target length n, you know you need the mth digit of the last number for some m (easy to work out). Get the mth digit of this number by dividing by 10m-1 than taking the last digit with a mod 10.

All-in-all, constant space overhead and O(n) runtime.

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ceil(log10 X+1) is a better estimate (try, for example, ceil(log10 10) and count the digits in 10).. – Vatine Jan 27 '11 at 15:16
@Vatine Nice catch, edited it in. Thanks! – marcog Jan 27 '11 at 15:23
Having done the same mistake myself, it was easy(ish) to spot. An alternative is floor(log10 X)+1. – Vatine Jan 27 '11 at 15:36

Lazy infinite lists in Haskell make this trivial to express naïvely.

ghci> concat [show $ i*i | i <- [1..]] !! 9
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you set me null now – user467871 Jan 26 '11 at 21:34
Haskell is made of epic win. – delnan Jan 26 '11 at 21:35
My (revised) alternative proposal: concatMap (show . (^2)) [1..] – delnan Jan 26 '11 at 21:41
@delnan Plenty of ways to get even more obtuse, like [1..] >>= show . join (*) :) – ephemient Jan 26 '11 at 21:52

To solve this i have used Python Generators. My solution in Python:

def _countup(n):
    while True:
        yield n
        n += 1

def get_nth_element(n):
    i = 0 # Initialized just to keep track of iterations.
    final_string = ''
    cu_generator = _countup(0)

    while True:
        num =
        final_string += str(num * num)
        if len(final_string) > n:
            print "Number of iterations %s" % i
            return final_string[n]
        i += 1


>>> get_nth_element(1000)
Number of iterations 229

>>> get_nth_element(10000)
Number of iterations 1637
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Why would you not loop over, taking each number, squaring and incrementing the count from 1 checking at each step if you have reached n? You don't have to keep track of the whole number. It is a simple simulation exercise. I afraid, I cannot identify a pattern or formula for this.

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There are more effective ways of doing this. Say, you want the two-billionth digit, that's a lot of squaring until you get there. – biziclop Jan 26 '11 at 21:37

This is a direct port of ephemient's Haskell answer to Scala


returns 4


  • Iterator.from(1) creates an infinite iterator that counts 1,2,3,4,.....
  • Then (x*x).toString computes squares of each of these and turns them into strings.
  • flatMap( ... .iterator) concatenates these to become an infinite iterator of characters from the sequence in question
  • drop(9) removes the first 9 elements (indexes 0 thru 8) from the iterator and gives us a new iterator that's waiting at index 9
  • next gives us that single character.
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I don't understand the code but I'm wonder it is similar linear searching just loop. O(n) – user467871 Jan 28 '11 at 5:37

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