# The most efficient way to reverse a number

I am looking for an efficient algorithm to reverse a number, e.g.

Input: 3456789

Output: 9876543

In C++ there are plenty of options with shifting and bit masks but what would be the most efficient way ?

My platform: x86_64

Numbers range: XXX - XXXXXXXXXX (3 - 9 digits)

EDIT Last digit of my input will never be a zero so there is no leading zeros problem.

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If you're not treating it as a number, why not just read it as a string? Reversing it is then trivial. –  hvd Mar 12 '13 at 6:55
@hvd This would cause calls to string constructor, assignment operator, destructor ... I'm not sure if this is the most efficient way. –  tommyk Mar 12 '13 at 6:59
Do you want leading zeroes? Both the answers provided fail for cases with leading zeroes. –  Rapptz Mar 12 '13 at 7:00
Do you really need "the most efficient way"? Is this really where all the processing time will be spent in your program? Sounds like premature optimization to me. –  Matthew Strawbridge Mar 12 '13 at 7:05
Shifting and bitmasks? Not in base 10. If you wanted to do this in base 16 I would have some nice tricks up my sleeve, but binary computers just don't like base 10. –  harold Mar 12 '13 at 12:07

Something like this will work:

``````#include <iostream>

int main()
{
long in = 3456789;
long out = 0;
while(in)
{
out *= 10;
out += in % 10;
in /= 10;
}
std::cout << out << std::endl;
return 0;
}
``````
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@H2CO3 This answer is really extremely common. Not very hard or impressive enough to be copied. –  Rapptz Mar 12 '13 at 6:59
@H2CO3 no, I wrote separately, actually –  Stephen Lin Mar 12 '13 at 6:59
@H2CO3 - Hm, I was replying to your answer but you seem to have deleted your answer. I only temporarily removed my upvote because I realized I should research math.stackexchange.com in case a more efficient solution (e.g. a one-step formula) existed. However the mathematicians there have not come up with any such thing, only a compact form of the algorithm you (and Stephen Lin) have written. So, upvote restored, in spirit. –  Andrew Cheong Mar 12 '13 at 7:03
@acheong87 Thanks. I removed my answer since it turned out to be wrong, just like this one is. It doesn't count trailing zeroes, `XYZ0` becomes `ZYX` instead of `0ZYX`. –  user529758 Mar 12 '13 at 7:05
@H2CO3 i don't mind taking this down too but it's not clear what OP wants since he mentions bit shifting and such (so presumably he wants a numerical rather than string representation) –  Stephen Lin Mar 12 '13 at 7:07
``````#include <stdio.h>
unsigned int reverse(unsigned int val)
{
unsigned int retval = 0;

while( val > 0)
{
retval  = 10*retval + val%10;
val     /= 10;
}
printf("returning - %d", retval);
return retval;
}

int main()
{
reverse(123);
}
``````
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You may convert the number to string and then reverse the string with STL algorithms. Code below should work:

`````` long number = 123456789;
stringstream ss;
ss << number;
string numberToStr = ss.str();

std::reverse(numberToStr.begin(), numberToStr.end());

cout << atol(numberToStr.c_str());
``````

You may need to include those relevant header files. I am not sure whether it is the most efficient way, but STL algorithms are generally very efficient.

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``````long number;
cin>>number; //Input Number to reverse
long reverse=0;
long remainder;
while(number){
remainder=number%10;
reverse=reverse*10+remainder;
number=number/10;
}
``````
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Uncommented code is faulty: it can not be maintained. Code only replies are not considered answers. What does your approach offer that has not been presented in other answers (or comments), especially the accepted one? –  greybeard Sep 28 at 5:42