How can you get the first digit in an int (C#)?

In C#, what's the best way to get the 1st digit in an int? The method I came up with is to turn the int into a string, find the 1st char of the string, then turn it back to an int.

``````int start = Convert.ToInt32(curr.ToString().Substring(0, 1));
``````

While this does the job, it feels like there is probably a good, simple, math-based solution to such a problem. String manipulation feels clunky.

Edit: irrespective of speed differences, mystring[0] instead of Substring() is still just string manipulation

-
int GetFirstDigitString(int number) { return Convert.ToInt32(number.ToString()[0]); } as I tested, this method is the best performance competitor. Its advantage is it doesn't depend on how big the input :) – Vimvq1987 Mar 31 '09 at 15:16
That's is even slower than the recursive method. =) – J. Steen Mar 31 '09 at 15:20
my bad, i forgot to reset the stopwatch =), it's really slower than others – Vimvq1987 Mar 31 '09 at 15:24
This will fail on negative numbers. – plinth Apr 14 '10 at 13:54
the first digit of an int is always 1 with zero suppression (01010101010100101011011011100101) LOL – Dr. Zim Nov 4 '10 at 1:12

Here's how

``````int i = Math.Abs(386792);
while(i >= 10)
i /= 10;
``````

and `i` will contain what you need

-
By far the fastest code. – J. Steen Mar 31 '09 at 15:16
And the neatest, IMHO – Patrick McDonald Mar 31 '09 at 15:16
I'd say the code is self-documenting, really. – eleven81 Mar 31 '09 at 18:13
@Robert - so use the absolute value of i before the loop. done. OP wasn't interested in the sign of the int, anyway. – cspoe7 Mar 31 '09 at 22:29
doesn't work for numbers < 0 – Younes Apr 22 '09 at 11:59
show 12 more comments

Benchmarks

Firstly, you must decide on what you mean by "best" solution, of course that takes into account the efficiency of the algorithm, its readability/maintainability, and the likelihood of bugs creeping up in the future. Careful unit tests can generally avoid those problems, however.

I ran each of these examples 10 million times, and the results value is the number of `ElapsedTicks` that have passed.

Without further ado, from slowest to quickest, the algorithms are:

Converting to a string, take first character

``````int firstDigit = (int)(Value.ToString()[0]) - 48;
``````

Results:

``````12,552,893 ticks
``````

Using a logarithm

``````int firstDigit = (int)(Value / Math.Pow(10, (int)Math.Floor(Math.Log10(Value))));
``````

Results:

``````9,165,089 ticks
``````

Looping

``````while (number >= 10)
number /= 10;
``````

Results:

``````6,001,570 ticks
``````

Conditionals

``````int firstdigit;
if (Value < 10)
firstdigit = Value;
else if (Value < 100)
firstdigit = Value / 10;
else if (Value < 1000)
firstdigit = Value / 100;
else if (Value < 10000)
firstdigit = Value / 1000;
else if (Value < 100000)
firstdigit = Value / 10000;
else if (Value < 1000000)
firstdigit = Value / 100000;
else if (Value < 10000000)
firstdigit = Value / 1000000;
else if (Value < 100000000)
firstdigit = Value / 10000000;
else if (Value < 1000000000)
firstdigit = Value / 100000000;
else
firstdigit = Value / 1000000000;
``````

Results:

``````1,421,659 ticks
``````

Unrolled & optimized loop

``````if (i >= 100000000) i /= 100000000;
if (i >= 10000) i /= 10000;
if (i >= 100) i /= 100;
if (i >= 10) i /= 10;
``````

Results:

``````1,399,788 ticks
``````

Note:

each test calls `Random.Next()` to get the next `int`

-
+1 for benchmarking. – Randolpho Mar 31 '09 at 15:42
+1 This is more fun than working :) – Mike Dunlavey Mar 31 '09 at 15:54
This is soooooo trivial. I appreciate what you've done and it's quite informative, but it's so overkill for 99% of applications. I'm afraid some novice programmers might get a bad impression. (hard-core, premature optimizations over readability) It's still fun, though. :) – Stuart Branham Mar 31 '09 at 17:46
Where's the lookup table? – GvS Apr 1 '09 at 7:31
+1 - Great stuff. This is the kind of gold-plated, deluxe-model overkill that just makes it obvious that you love coding. Many kudos to you. And no, Stuart, I don't think this will pollute the minds of unsuspecting newbies. Hopefully, it will teach them to develop a love of software. – Mark Brittingham Apr 22 '09 at 13:25
show 15 more comments

Try this

``````public int GetFirstDigit(int number) {
if ( number < 10 ) {
return number;
}
return GetFirstDigit ( (number - (number % 10)) / 10);
}
``````

EDIT

Several people have requested the loop version

``````public static int GetFirstDigitLoop(int number)
{
while (number >= 10)
{
number = (number - (number % 10)) / 10;
}
return number;
}
``````
-
Recursion for something like this... Shame on you. Put a loop in there. – Welbog Mar 31 '09 at 14:51
@Welbog :), Normally I would. But I have a lot of nostalgia around this particular question. It almost exactly the first questions I was ever asked for a CS assignment. At the time I wrote essentially this solution. – JaredPar Mar 31 '09 at 14:52
This is the case where "nice" = slow – Keltex Mar 31 '09 at 14:53
Ugh, callstack bloat... =) – J. Steen Mar 31 '09 at 14:56
But, @Jared, the subtraction of the last digit is completely unnecessary here. Just divide by 10. – Konrad Rudolph Mar 31 '09 at 15:01
show 10 more comments

The best I can come up with is:

``````int numberOfDigits = Convert.ToInt32(Math.Floor( Math.Log10( value ) ) );

int firstDigit = value / Math.Pow( 10, numberOfDigits );
``````

...

Not very pretty :)

[Edited: first answer was really bad :) ]

[Edit 2: I would probably advise the string manipulating solutions, though]

[Edit 3: code formatting is nice :) ]

-
 +1, this is the mathematical solution rather than a string manipulation, recursive or looping solution – Robin Day Mar 31 '09 at 15:01 You can avoid unneccesary conversions between integers and doubles by using divisor=Convert.ToInt32(Math.Pow(10, Math.Floor(Math.Log10(value)))); firstDigit = value/divisor; – MartinStettner Mar 31 '09 at 15:10 upvoted for being mathematical solution. – Daren Thomas Mar 31 '09 at 15:16 What I was thinking also - much smarter than brute force ;) – markt Mar 31 '09 at 18:24 +1 for not using a loop – Stefan Steinegger Apr 22 '09 at 21:13
show 1 more comment

variation on Anton's answer:

`````` // cut down the number of divisions (assuming i is positive & 32 bits)
if (i >= 100000000) i /= 100000000;
if (i >= 10000) i /= 10000;
if (i >= 100) i /= 100;
if (i >= 10) i /= 10;
``````
-
It's fantastically ugly but +1 for creativity :) – Dinah Mar 31 '09 at 15:11
@Dinah: It's so ugly it's pretty. – Mike Dunlavey Mar 31 '09 at 15:16
I think I would just leave it at `/10` and `/1000`. You still get the advantage of dividing more aggressively, but with slightly less mess. +1 for creativity :) – Stuart Branham Mar 31 '09 at 15:29
Reminds me of a function in bcl someone discovered, the method was pretty ugly to read, but it was basically doing looping compares, and was ganging compares into groups of ten or so, knowing that modern cpus would be able to better handle a group of compares at a time. – meandmycode Mar 31 '09 at 15:38
if you make the first "if" a "while", it also works with 64-bit (but is even "uglier"). +1 – MartinStettner Mar 31 '09 at 15:49
show 4 more comments

Had the same idea as Lennaert

``````int start = number == 0 ? 0 : number / (int) Math.Pow(10,Math.Floor(Math.Log10(Math.Abs(number))));
``````

This also works with negative numbers.

-

If you think Keltex's answer is ugly, try this one, it's REALLY ugly, and even faster. It does unrolled binary search to determine the length.

`````` ... leading code along the same lines
/* i<10000 */
if (i >= 100){
if (i >= 1000){
return i/1000;
}
else /* i<1000 */{
return i/100;
}
}
else /* i<100*/ {
if (i >= 10){
return i/10;
}
else /* i<10 */{
return i;
}
}
``````

P.S. MartinStettner had the same idea.

-
You should remove the comments and put it all on one line... – John Rasch Mar 31 '09 at 17:55
@Rasch: I was trying to make it readable :) – Mike Dunlavey Mar 31 '09 at 17:59
This is more like code poetry, screw readability! – John Rasch Mar 31 '09 at 18:01
@Rasch: Ah, the rapture! It should be hidden, brought out for special occasions only, and read in hushed tones... Who says programming has no soul? – Mike Dunlavey Mar 31 '09 at 18:05
how about `i=(...moreugly...)i>=100?i>=1000?i/1000:i/100:i>=10?i/10:i;` – David Murdoch Apr 14 '10 at 14:10
show 1 more comment

An obvious, but slow, mathematical approach is:

``````int firstDigit = (int)(i / Math.Pow(10, (int)Math.Log10(i))));
``````
-
 Time it, it shouldn't be slow at all. This was going to be my suggestion, and given that it's a purely mathematical solution with no looping, it's possibly faster than many solutions here. Keep in mind that every x86 processor sold today has a very, very fast and capable floating point processor. – Adam Davis Mar 31 '09 at 15:10 I think you really should use Math.Log10 here – MartinStettner Mar 31 '09 at 15:17 Thanks, Martin - I don't use .NET math libraries much and forgot it was Log and Log10 instead of Log and Ln. – mquander Mar 31 '09 at 15:20 Well, Adam, at the very least it needs to take 10^(N-1) (n being number of digits) plus it needs to take a logarithm. Compared to a looping answer (where you're dividing N - 1 times) it seems to me that it must be at least a little slower. But I am regularly surprised by benchmarks, so who knows. – mquander Mar 31 '09 at 15:23 Besides, the OP asked for a more meaningful expression, without regard to performance, and this is the most direct (mathematical) way to express what is being sought. – harpo Mar 31 '09 at 16:29
show 1 more comment
``````int temp = i;
while (temp >= 10)
{
temp /= 10;
}
``````

Result in `temp`

-
 snap, except the potential rounding issues with using an int.... – cjk Mar 31 '09 at 14:53 @ck: What rounding issued? Division is integer-division in this case, each division exactly cuts off the last digit ... – MartinStettner Mar 31 '09 at 14:58 @MartinStettner: You're right. – cjk Mar 31 '09 at 15:03 Any multiple of 10 will return 10. Should be while(temp >= 10)... – Bill the Lizard♦ Mar 31 '09 at 19:25

I know it's not C#, but it's surprising curious that in python the "get the first char of the string representation of the number" is the faster!

EDIT: no, I made a mistake, I forgot to construct again the int, sorry. The unrolled version it's the fastest.

``````\$ cat first_digit.py
def loop(n):
while n >= 10:
n /= 10
return n

def unrolled(n):
while n >= 100000000: # yea... unlimited size int supported :)
n /= 100000000
if n >= 10000:
n /= 10000
if n >= 100:
n /= 100
if n >= 10:
n /= 10
return n

def string(n):
return int(str(n)[0])
\$ python -mtimeit -s 'from first_digit import loop as test' \
'for n in xrange(0, 100000000, 1000): test(n)'
10 loops, best of 3: 275 msec per loop
\$ python -mtimeit -s 'from first_digit import unrolled as test' \
'for n in xrange(0, 100000000, 1000): test(n)'
10 loops, best of 3: 149 msec per loop
\$ python -mtimeit -s 'from first_digit import string as test' \
'for n in xrange(0, 100000000, 1000): test(n)'
10 loops, best of 3: 284 msec per loop
\$
``````
-
 But does it convert it back to an integer? – Samuel Mar 31 '09 at 19:23 woops, now it makes a sense -.- – ZeD Mar 31 '09 at 19:27 well he could say it was IronPython to make this slightly less off-topic – Ravi Oct 7 '09 at 21:55
``````int myNumber = 8383;
char firstDigit = myNumber.ToString()[0];
// char = '8'
``````
-
 Isn't this identical to what I posted? It just uses [] instead of Substring – Dinah Mar 31 '09 at 14:50 No: it returns a character rather than a string and the [] lookup should be faster – Joel Coehoorn Mar 31 '09 at 14:51 That's true, but it's still the same basic method -- parse the string representation. I think @Dinah is looking for something... you know.... different. – Randolpho Mar 31 '09 at 14:52 @Randolpho: exactly. Sorry if I was unclear about that. I updated the question to clarify. – Dinah Mar 31 '09 at 14:57 I also would return firstDigit-'0' to get the int. (it works in c ... i guess it does in c#) – Nicolas Irisarri Mar 31 '09 at 15:09

Did some tests with one of my co-workers here, and found out most of the solutions don't work for numbers under 0.

``````  public int GetFirstDigit(int number)
{
number = Math.Abs(number); <- makes sure you really get the digit!

if (number < 10)
{
return number;
}
return GetFirstDigit((number - (number % 10)) / 10);
}
``````
-

I just stumbled upon this old question and felt inclined to propose another suggestion since none of the other answers so far returns the correct result for all possible input values and it can still be made faster:

``````public static int GetFirstDigit( int i )
{
if( i < 0 && ( i = -i ) < 0 ) return 2;
return ( i < 100 ) ? ( i < 1 ) ? 0 : ( i < 10 )
? i : i / 10 : ( i < 1000000 ) ? ( i < 10000 )
? ( i < 1000 ) ? i / 100 : i / 1000 : ( i < 100000 )
? i / 10000 : i / 100000 : ( i < 100000000 )
? ( i < 10000000 ) ? i / 1000000 : i / 10000000
: ( i < 1000000000 ) ? i / 100000000 : i / 1000000000;
}
``````

This works for all signed integer values inclusive `-2147483648` which is the smallest signed integer and doesn't have a positive counterpart. `Math.Abs( -2147483648 )` triggers a `System.OverflowException` and `- -2147483648` computes to `-2147483648`.

The implementation can be seen as a combination of the advantages of the two fastest implementations so far. It uses a binary search and avoids superfluous divisions. A quick benchmark with the index of a loop with 100,000,000 iterations shows that it is twice as fast as the currently fastest implementation.

It finishes after 2,829,581 ticks.

For comparison I also measured a corrected variant of the currently fastest implementation which took 5,664,627 ticks.

``````public static int GetFirstDigitX( int i )
{
if( i < 0 && ( i = -i ) < 0 ) return 2;
if( i >= 100000000 ) i /= 100000000;
if( i >= 10000 ) i /= 10000;
if( i >= 100 ) i /= 100;
if( i >= 10 ) i /= 10;
return i;
}
``````

The accepted answer with the same correction needed 16,561,929 ticks for this test on my computer.

``````public static int GetFirstDigitY( int i )
{
if( i < 0 && ( i = -i ) < 0 ) return 2;
while( i >= 10 )
i /= 10;
return i;
}
``````

Simple functions like these can easily be proven for correctness since iterating all possible integer values takes not much more than a few seconds on current hardware. This means that it is less important to implement them in a exceptionally readable fashion as there simply won't ever be the need to fix a bug inside them later on.

-
``````while (i > 10)
{
i = (Int32)Math.Floor((Decimal)i / 10);
}
// i is now the first int
``````
-
 Why are you converting to Decimal? Also Floor is not needed. – MartinStettner Mar 31 '09 at 14:57 It was there for potential rounding issues, which isn't actually needed. – cjk Mar 31 '09 at 15:02 Should be while(i >= 10) or this will fail for multiples of 10. – Bill the Lizard♦ Mar 31 '09 at 19:26 Doesn't work for numbers < 0 – Younes Apr 22 '09 at 11:54

Non iterative formula:

``````public static int GetHighestDigit(int num)
{
if (num <= 0)
return 0;

return (int)((double)num / Math.Pow(10f, Math.Floor(Math.Log10(num))));
}
``````
-
 Implementation of Log is iterative as it requires a root-finding algorithm – Jasper Bekkers Mar 31 '09 at 16:16

Very simple (and probably quite fast because it only involves comparisons and one division):

``````if(i<10)
firstdigit = i;
else if (i<100)
firstdigit = i/10;
else if (i<1000)
firstdigit = i/100;
else if (i<10000)
firstdigit = i/1000;
else if (i<100000)
firstdigit = i/10000;
else (etc... all the way up to 1000000000)
``````
-
 LOL, I hope you're joking. – Jakob Christensen Mar 31 '09 at 14:48 Smells like a code smell to me.... – cjk Mar 31 '09 at 14:48 And then there's 10k, 100k, 1mil, 10mil, 100mil and so on? – Pawel Krakowiak Mar 31 '09 at 14:50 I would do it this way. A lot more efficient than that recursive function. – Keltex Mar 31 '09 at 14:51 This answer is the best of the bunch. – Brian Mar 31 '09 at 14:54
show 24 more comments

Just to give you an alternative, you could repeatedly divide the integer by 10, and then rollback one value once you reach zero. Since string operations are generally slow, this may be faster than string manipulation, but is by no means elegant.

Something like this:

``````while(curr>=10)
curr /= 10;
``````
-
 Make the while-condition (curr > 10) and you do not need prevValue – MartinStettner Mar 31 '09 at 14:57 >= is needed. The first digit of 10 should be 1, not 10 – Dinah Mar 31 '09 at 15:27
``````start = getFirstDigit(start);
public int getFirstDigit(final int start){
int number = Math.abs(start);
while(number > 10){
number /= 10;
}
return number;
}
``````

or

``````public int getFirstDigit(final int start){
return getFirstDigit(Math.abs(start), true);
}
private int getFirstDigit(final int start, final boolean recurse){
if(start < 10){
return start;
}
return getFirstDigit(start / 10, recurse);
}
``````
-
 Doesn't work for numbers < 0 – Younes Apr 22 '09 at 11:55 Should work now. Also added recursive function with trap for abs. – sdellysse May 1 '09 at 1:51
``````int start = curr;
while (start >= 10)
start /= 10;
``````

This is more efficient than a ToString() approach which internally must implement a similar loop and has to construct (and parse) a string object on the way ...

-

Very easy method to get the Last digit:

``````int myInt = 1821;

int lastDigit = myInt - ((myInt/10)*10); // 1821 - 1820 = 1
``````
-
That's nice, but the question is to get the First digit, not the Last. – Dinah Apr 24 '10 at 18:01
``````int i = 4567789;
int digit1 = int.Parse(i.ToString()[0].ToString());
``````
-
Did you even read the original post or just the title? – Dinah Jul 1 '10 at 13:06

Here is a simpler way that does not involve looping

``````int number = 1234
int firstDigit = Math.Floor(number/(Math.Pow(10, number.ToString().length - 1))
``````

That would give us 1234/Math.Pow(10, 4 - 1) = 1234/1000 = 1

-
you are joking? The original question was to remove string conversion... – MartinStettner Mar 31 '09 at 15:16
Cannot implicitly convert type 'double' to 'int'. – Younes Apr 22 '09 at 11:58