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What is the best method to find the number of digits of a positive integer?

I have found this 3 basic methods:

  • conversion to string

    String s = new Integer(t).toString(); 
    int len = s.length();
  • for loop

    for(long long int temp = number; temp >= 1;)
  • logaritmic calculation

    digits = floor( log10( number ) ) + 1;

where you can calculate log10(x) = ln(x) / ln(10) in most languages.

First I thought the string method is the dirtiest one but the more I think about it the more I think it's the fastest way. Or is it?

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migrated from programmers.stackexchange.com Jul 11 '11 at 19:57

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Define "best", first. Then picking the "best" algorithm is easy. –  S.Lott Jul 11 '11 at 15:12
Use the source, Luke: docjar.com/html/api/java/lang/Integer.java.html –  Blrfl Jul 11 '11 at 15:43
This question probably belongs on codegolf. –  Macneil Jul 11 '11 at 16:04
It seems nobody here has any consideration for non-base-10 integers. Not using Integer.toString(t, radix), temp /= radix; (and correspondingly, numDigits++;, as it's generalizing from decimal), or ln(x) / ln(radix)... –  JAB Jul 11 '11 at 19:24
I can't imagine anything would beat using logarithms. No data conversion, no loops, just a simple, straightforward calculation. –  TMN Jul 11 '11 at 23:50

12 Answers 12

up vote 21 down vote accepted

There's always this method:

n = 1;
if (i >= 100000000){i /= 100000000; n += 8;}
if (i >= 10000){i /= 10000; n += 4;}
if (i >= 100){i /= 100; n += 2;}
if (i >= 10){i /= 10; n += 1;}
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If you know something about the range of integers that need to be supported, this can be very efficient. –  jimreed Jul 11 '11 at 16:15
@jimreed: Right. You need to know ceil(log2(log10(MAXINT))). Then it does at most that number of truncating divisions. –  Mike Dunlavey Jul 11 '11 at 16:27
Or if this is a real coding issue and not just a puzzle, and you know your integer is always less than 10,000 then you don't even need the first two if statements. –  jimreed Jul 11 '11 at 16:32

I don't know, and the answer may well be different depending on how your individual language is implemented.

So, stress test it! Implement all three solutions. Run them on 1 through 1,000,000 (or some other huge set of numbers that's representative of the numbers the solution will be running against) and time how long each of them takes.

Pit your solutions against one another and let them fight it out. Like intellectual gladiators. Three algorithms enter! One algorithm leaves!

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This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. –  kjhughes Sep 17 at 14:18

Well the correct answer would be to measure it - but you should be able to make a guess about the number of CPU steps involved in converting strings and going through them looking for an end marker

Then think how many FPU operations/s your processor can do and how easy it is to calculate a single log.

edit: wasting some more time on a monday morning :-)

String s = new Integer(t).toString(); 
int len = s.length();

One of the problems with high level languages is guessing how much work the system is doing behind the scenes of an apparently simple statement. Mandatory Joel link

This statement involves allocating memory for a string, and possibly a couple of temporary copies of a string. It must parse the integer and copy the digits of it into a string, possibly having to reallocate and move the existing memory if the number is large. It might have to check a bunch of locale settings to decide if your country uses "," or ".", it might have to do a bunch of unicode conversions.
Then finding the length has to scan the entire string, again considering unicode and any local specific settings such as - are you in a right->left language?.


digits = floor( log10( number ) ) + 1;

Just because this would be harder for you to do on paper doesn't mean it's hard for a computer! In fact a good rule in high performance computing seems to have been - if something is hard for a human (fluid dynamics, 3d rendering) it's easy for a computer, and if it's easy for a human (face recognition, detecting a voice in a noisy room) it's hard for a computer!

You can generally assume that the builtin maths functions log/sin/cos etc - have been an important part of computer design for 50years. So even if they don't map directly into a hardware function in the FPU you can bet that the alternative implementation is pretty efficient.

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Be aware that log10(0) returns NegativeInfinity... –  PMF Nov 14 '13 at 11:32

This algorithm might be good also, assuming that:

  • Number is integer and binary encoded (<< operation is cheap)
  • We don't known number boundaries

        var num = 123456789L;
        var len = 0;
        var tmp = 1L;
        while(tmp < num)
            tmp = (tmp << 3) + (tmp << 1);

This algorithm, should have speed comparable to for-loop (2) provided, but a bit faster due to (2 bit-shifts, add and subtract, instead of division).

As for Log10 algorithm, it will give you only approximate answer (that is close to real, but still), since analytic formula for computing Log function have infinite loop and can't be calculated precisely Wiki.

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We only need the integer part of the logarithm here, which makes the "infinite loop" void. –  Paŭlo Ebermann Jul 11 '11 at 22:49
Yes, you are right, it makes computation finite, but still it seems expensive for small numbers. –  Valera Kolupaev Jul 12 '11 at 2:21
Should not that be: tmp += (tmp << 3) + (tmp << 1); ? –  wildplasser Jan 14 '12 at 16:56
  • conversion to string: This will have to iterate through each digit, find the character that maps to the current digit, add a character to a collection of characters. Then get the length of the resulting String object. Will run in O(n) for n=#digits.

  • for-loop: will perform 2 mathematical operation: dividing the number by 10 and incrementing a counter. Will run in O(n) for n=#digits.

  • logarithmic: Will call log10 and floor, and add 1. Looks like O(1) but I'm not really sure how fast the log10 or floor functions are. My knowledge of this sort of things has atrophied with lack of use so there could be hidden complexity in these functions.

So I guess it comes down to: is looking up digit mappings faster than multiple mathematical operations or whatever is happening in log10? The answer will probably vary. There could be platforms where the character mapping is faster, and others where doing the calculations is faster. Also to keep in mind is that the first method will creats a new String object that only exists for the purpose of getting the length. This will probably use more memory than the other two methods, but it may or may not matter.

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The conversion to string will likely also do something like the second loop internally. –  Paŭlo Ebermann Jul 11 '11 at 22:52

You can obviously eliminate the method 1 from the competition, because the atoi/toString algorithm it uses would be similar to method 2.

Method 3's speed depends on whether the code is being compiled for a system whose instruction set includes log base 10.

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Use the simplest solution in whatever programming language you're using. I can't think of a case where counting digits in an integer would be the bottleneck in any (useful) program.

C, C++:

char buffer[32];
int length = sprintf(buffer, "%ld", (long)123456789);


len = (length . show) 123456789


length = String(123456789).length;


$length = strlen(123456789);

Visual Basic (untested):

length = Len(str(123456789)) - 1
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If the number of digits is known and relatively low then I can only agree with you. –  daniel.sedlacek Jul 12 '11 at 13:15

Test conditions

  • Decimal numeral system
  • Positive integers
  • Up to 10 digits
  • Programming language: ActionScript 3


Max digits: 10, count of numbers: 1000000

sample: 8777509,40442298,477894,329950,513,91751410,313,3159,131309,2


sample: 7,8,6,6,3,8,3,4,6,1


sample: 7,8,6,6,3,8,3,4,6,1

DIV 10 ITERATION - time: 229

sample: 7,8,6,6,3,8,3,4,6,1


sample: 7,8,6,6,3,8,3,4,6,1

Note: Author refrains from making any conclusions for numbers with more than 10 digits.


package {
    import flash.display.MovieClip;
    import flash.utils.getTimer;
     * @author Daniel
    public class Digits extends MovieClip {
        private const NUMBERS : uint = 1000000;
        private const DIGITS : uint = 10;

        private var numbers : Array;
        private var digits : Array;

        public function Digits() {
            // ************* NUMBERS *************
            numbers = [];
            for (var i : int = 0; i < NUMBERS; i++) {
                var number : Number = Math.floor(Math.pow(10, Math.random()*DIGITS));
            trace('Max digits: ' + DIGITS + ', count of numbers: ' + NUMBERS);
            trace('sample: ' + numbers.slice(0, 10));

            // ************* CONVERSION TO STRING *************
            digits = [];
            var time : Number = getTimer();

            for (var i : int = 0; i < numbers.length; i++) {

            trace('\nCONVERSION TO STRING - time: ' + (getTimer() - time));
            trace('sample: ' + digits.slice(0, 10));

            // ************* LOGARITMIC CALCULATION *************
            digits = [];
            time = getTimer();

            for (var i : int = 0; i < numbers.length; i++) {
                digits.push(Math.floor( Math.log( numbers[i] ) / Math.log(10) ) + 1);

            trace('\nLOGARITMIC CALCULATION - time: ' + (getTimer() - time));
            trace('sample: ' + digits.slice(0, 10));

            // ************* DIV 10 ITERATION *************
            digits = [];
            time = getTimer();

            var digit : uint = 0;
            for (var i : int = 0; i < numbers.length; i++) {
                digit = 0;
                for(var temp : Number = numbers[i]; temp >= 1;)

            trace('\nDIV 10 ITERATION - time: ' + (getTimer() - time));
            trace('sample: ' + digits.slice(0, 10));

            // ************* MANUAL CONDITIONING *************
            digits = [];
            time = getTimer();

            var digit : uint;
            for (var i : int = 0; i < numbers.length; i++) {
                var number : Number = numbers[i];
                if (number < 10) digit = 1;
                else if (number < 100) digit = 2;  
                else if (number < 1000) digit = 3;  
                else if (number < 10000) digit = 4;  
                else if (number < 100000) digit = 5;  
                else if (number < 1000000) digit = 6;  
                else if (number < 10000000) digit = 7;  
                else if (number < 100000000) digit = 8;  
                else if (number < 1000000000) digit = 9;  
                else if (number < 10000000000) digit = 10;  

            trace('\nMANUAL CONDITIONING: ' + (getTimer() - time));
            trace('sample: ' + digits.slice(0, 10));
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You can use a recursive solution instead of a loop, but somehow similar:

def digits (i: Long, carry: Int=1) : Int =  if (i < 10) carry else digits (i/10, carry+1)

digits (8345012978643L)

With longs, the picture might change - measure small and long numbers independently against different algorithms, and pick the appropriate one, depending on your typical input. :)

Of course nothing beats a switch:

switch (x) {
  case 0:  case 1:  case 2:  case 3:  case 4:  case 5:  case 6:  case 7:  case 8:  case 9: return 1;
  case 10: case 11: // ...
  case 99: return 2;
  case 100: // you get the point :) 
  default: return 10; // switch only over int

except a plain-o-array:

   int [] size = {1,1,1,1,1,1,1,1,1,2,2,2,2,2,... };
   int x = 234561798;
   return size [x];

Some people will tell you to optimize the code-size, but yaknow, premature optimization ...

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Keep it simple:

long long int a = 223452355415634664;

int x;
for (x = 1; a >= 10; x++)
   a = a / 10;

printf("%d", x);
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For very large integers, the log method is much faster. For instance, with a 2491327 digit number (the 11920928th Fibonacci number, if you care), Python takes several minutes to execute the divide-by-10 algorithm, and milliseconds to execute 1+floor(log(n,10)).

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import math
def numdigits(n):
    return int(math.ceil(math.log10(n)))
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