That piece of code is just a search for the number of digits needed for the "longest" integer; that's probably needed to allocate some buffer later.

`log10`

gives you the power of ten that corresponds to its argument, which, rounded to the next integer (hence the `+1`

followed by the `(int)`

cast, which results in truncation), gives you the number of digits required for the number.

The argument of `log10`

is a bit of a mess, since `abs`

is called twice when just once would suffice. Still, the idea is to pass to `log10`

the absolute value of the number being examined if it's not zero, or 1 if it is zero - this because, if the argument were zero, the logarithm would diverge to minus infinity (which is not desirable in this case, I think that the conversion to `int`

would lead to strange results).

The rest of the loop is just the search for the maximum: at each iteration it calculates the digits needed for the current int being examined, checks if it's bigger than the "current maximum" (`d`

) and, if it is, it replaces the "current maximum".

The `d+=1`

may be for cautionary purposes (?) or for the null-terminator of the string being allocated, it depends on how `d`

is used afterward.

As for the "ambiguous call" error: you get it because you are calling `log10`

with an `int`

argument, which can be converted equally to `float`

, `double`

and `long double`

(all types for which `log10`

is overloaded), so the overload to choose is not clear to the compiler. Just stick a `(double)`

cast before the whole `log10`

argument.

By the way, that code could have been simplified/optimized by just looking for the maximum `int`

(in absolute value) and *then* taking the base-10 logarithm to discover the number of digits needed.