I'm following the programming test, and there are questions like this

From this consecutive digits:


For example The 10th digit is 1 The 11th digit is 0 and so on

  • What is the 1,000,000th digit?

  • What is the 1,000,000,000th digit?

  • What is the 1,000,000,000,000th digit?

Your solution should run below 1 second.

I've been made an answer but still more than 1 second. I try to use polynominal.

So, how I can reduce the time to find n-th place from digits above?

This is my answer, (PHP):

function digit_pol ($n) {

  $counter = 1;
  $digit_arr = array();

  for ($i = 1; $i <= $n; $i++) {

    for ($j = 0; $j < strlen($i); $j++) {

      // If array more than 100, always shift (limit array length to 11)
      if($i > 10) {

      // Fill array
      $digit_arr[$counter] = substr($i, $j, 1);

      // Found
      if($counter == $n) {
        return $digit_arr[$counter];





$find_place = 1000000;

$result = digit_pol($find_place);

echo "Digit of " . $find_place . "th is <b>" . $result . "</b>";
  • 2
    How many digits will there be between 0 and 9 (inclusive)? How many digits will there be between 10 and 99 (inclusive)? How many between 100 and 999?
    – aioobe
    Jun 15, 2015 at 13:19
  • I'm not good in English by the way. But I hope I can explain goal clearly. @aioobe, do you mean "how to use my code?" It's completely the code that I have been test. You can test it, just copy and save it. It's still more than 1 second for 1,000,000th number.
    – ajiyakin
    Jun 15, 2015 at 13:30
  • What is your question ?
    – kebs
    Jun 15, 2015 at 13:35
  • I'd try to eliminate using strings and calculate it based on mathematics. I'd try to calculate the number x that is printed at or around the searched place. In a first loop I'd increment n and calculate how many numbers there are between 10^n and 10^(n+1) and how long the string for all those numbers would be. That way I would be approaching quite fast. In a second loop it would be necessary to find the rest of the number. Finally you know that the searched digit is at position x in number y, which is quite easy to calculate. Jun 15, 2015 at 13:37
  • @ajiyakin, you misunderstood me. I'm not very familiar with PHP, but if I produce an answer in pseudo code or Java, would this still be helpful to you?
    – aioobe
    Jun 15, 2015 at 13:39

1 Answer 1


What's important to realize is that it's easy to take big steps:

1 digit numbers: 123456789           -   9 * 1 digit
2 digit numbers: 101112...9899       -  90 * 2 digits
3 digit numbers: 100101102...998999  - 900 * 3 digits
4 digit numbers: ...

Now you can do a recursive solution that skips over 9×10k×k digits at a time, until you reach the base case where n is in the range of digits in the current magnitude.

When you know which particular range to look in, it's fairly easy to find the nth digit. First divide n by the length of each number. That turns the digit offset into the number offset. Now add 10k to that to get the actual number to look in. At that point it's a matter of finding a specific digit in a given number.

Take for example n = 1234:

  • n > 9, so it's not in the single digit range:
    • Skip over the single digit range (i.e. n -= 9) and continue on 2 digit numbers...
  • n > 90 * 2 so it's not in the two digit range either
    • Skip over the 2-digit range (i.e. n -= 90*2) and continue on 3 digit numbers...
  • Now n < 900 * 3 so we're looking for a digit in the 100101102... sequence
  • Since each number in this sequence is 3 digits long, we can find which particular number to look in by doing 100 + n / 3. In this case this equals 448.
  • We now simply compute n % 3 (which equals 1 in this case) to find which digit to pick. The end result is thus 4.

Here's a solution in Java:

public static char nthDigit(int n, int digitsInFirstNum) {
    int magnitude = (int) Math.pow(10, digitsInFirstNum - 1);
    int digitsInMagnitude = 9 * magnitude * digitsInFirstNum;

    if (n < digitsInMagnitude) {
        int number = magnitude + n / digitsInFirstNum;
        int digitPos = n % digitsInFirstNum;
        return String.valueOf(number).charAt(digitPos);

    return nthDigit(n - digitsInMagnitude, digitsInFirstNum + 1);

public static char nthDigit(int n) {
    return nthDigit(n, 1);
  • I think your solution is correct, but why do you use a recursion instead of a simple loop? Jun 15, 2015 at 13:58
  • That's just the way I thought about the problem. It could just as well have been implemented as a loop.
    – aioobe
    Jun 15, 2015 at 14:04

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