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".
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
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
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.