# C: Recursive function for inverting an int

I had this problem on an exam yesterday. I couldn't resolve it so you can imagine the result...

Make a recursive function: int invertint( int num) that will receive an integer and return it but inverted, example: 321 would return as 123

I wrote this:

``````int invertint( int num ) {
int rest = num % 10;
int div = num / 10;
if( div == 0 ) {
return( rest );
}
return( rest * 10 + invert( div ) )
}
``````

Worked for 2 digits numbers but not for 3 digits or more. Since 321 would return 1 * 10 + 23 in the last stage.

Thanks a lot!

PS: Is there a way to understand these kind of recursion problems in a faster manner or it's up to imagination of one self?

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Have you considered convert it to char* and call a recursive function with a char*? It makes things easier probably, but I don't know if you were allowed to do this –  Dan Jul 5 '12 at 15:08
What shall the result of `1230` be, `3210` or `321`? –  Jo So Jul 5 '12 at 15:10
@JoSo I think there can't be a leading 0 in a integer... so I guess it would be: 1230: 321 –  Jorge Jul 5 '12 at 15:14
If you are looking at hints on how to solve this kind of problem, my suggestions would be 1) Try to stick to a `if(is_base_case){ basecase } else { recursive_case }` structure. It gets natural with practice and 2) Learn how to convert tail recursion to while loops and vice versa. Many kinds of problems fall under this category –  hugomg Jul 5 '12 at 17:03

``````int invertint( int num ) {
int i ;

for(i=10;num/i;i*=10);
i/=10;
if(i == 1) return num;
return( (num % 10) * i + invertint( num / 10 ) );
}
``````
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Works perfect, thank you. If it's not disturbing, could you explain how you thought it? Thanks! –  Jorge Jul 5 '12 at 15:33
@Jorge: The idea is to recurse the other way around -- instead of handling the rightmost digit first, you handle the leftmost. That's what the loop does here and the `log10`/`pow` combination does in my answer. The rest comes rather naturally. –  cha0site Jul 5 '12 at 15:40
@Jorge - i:10^floor(log10(num)), cha0site explained. –  BLUEPIXY Jul 5 '12 at 16:04

Your mistake is that in the last statement you are multiplying `rest` by `10`. Why only `10`? You need to shift the `rest` digit by as many digits as there are left in the remaining part of the number. You are shifting by only 1. No wonder it works only for 2-digit numbers.

The last part should be done along the lines of

``````int tail = invert( div );
int deg = /* number of digits in `tail` */;
return rest * (int) pow(10, deg) + div;
``````
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+1. This was the answer, I also thought of. But, shouldn't it be (number of digits in tail - 1). For Ex: 321 has 3 digits, so it should be rest * pow(10, 2) when it executes for the last time. –  Jay Jul 5 '12 at 15:43
@Jay: `tail` in this case is actually the remaining portion of the number (which has already been fed through the recursive call). I.e. if the original number was `321`, then `rest` is `1`, while `tail` is `23`. So, `deg` will be `2`, exactly as it should be. However, I already see a problem with this solution if `tail` ends up with leading zeros after inversion. The number of digits should be calculated before the recursive call. BLUEPIXY does it correctly in the accepted solution. –  AndreyT Jul 5 '12 at 16:14

If you do it the other way, you won't need a counter.

``````int invertint(int num)
{
if (0 == num || 0 == num % 10) {
return num / 10;
}
int digits = floor(log10(num)) + 1;
int modulus = pow(10, digits - 1);
return invertint(num % modulus) * 10 + num / modulus;
}
``````

Note that this isn't as simple as I originally thought - I had to use math.

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This is the same as Rafael Baptista's answer, and is just as wrong. –  interjay Jul 5 '12 at 15:06
@interjay: Actually, you're right. Let me think about this some more. –  cha0site Jul 5 '12 at 15:11
@interjay: I fixed it. –  cha0site Jul 5 '12 at 15:25
Yeah, it should work now, +1. I don't think the exam question is very good because it requires you to either use floating point to count the digits, or use a loop (which is silly when the point is to use recursion). –  interjay Jul 5 '12 at 15:32
@interjay: Agreed. Sadly, I think it's quite common, for some reason most "didactic" examples of recursion are not very good uses of recursion. –  cha0site Jul 5 '12 at 15:48

The problem is with `return(rest * 10 + invert(div))`. You can't do the multiplication yourself. The factor depends on the number of times the function is recursed, thus you have to provide the carry as a second argument to your function (carry is initialized with 0)

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``````int reverse(int no,int rev)
{
if(no!=0)
return reverse(no/10,rev*10+no%10);
else
return rev;
}
``````

call this method as reverse(numberToReverse,0)

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Your 2nd function doesn't really work, you aren't even using the result of the recursive call. –  interjay Jul 5 '12 at 15:16
@interjay It will work. –  Kalai Jul 5 '12 at 15:21
No, it won't work. You aren't even returning a value from the function. -1 for arguing when you obviously didn't test it. –  interjay Jul 5 '12 at 15:24
@interjay I have removed that function. After I tested it, I will post it. –  Kalai Jul 5 '12 at 15:31
OK, -1 removed. I don't think there is a simple way to answer the question without adding an extra parameter or counting the number of digits. –  interjay Jul 5 '12 at 15:35

Just as an alternative, this could be done without recursion.

``````    int invertint(int num)
{
int res = 0;
while (num != 0)
{
res = res * 10 + (num % 10);
num /= 10;
}
return res;
}
``````

But since recursion was the assignment, given the int(int) signature, easiest would be with a pow(log10)) variation (provided that you're allowed to include math.h ? )

``````    int invertint(int num)
{
if (num == 0) return 0;
return invertint(num / 10)  +  (int)pow(10, (int)log10(num)) * (num % 10);
}
``````
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