There are several situations that require perfectly valid casting in C. Beware of sweeping assertions like "casting is always bad design", since they are obviously and patently bogus.
One huge group of situations that critically relies on casts is arithmetic operations. The casting is required in situations when you need to force the compiler to interpret arithmetic expression within a type different from the "default" one. As in
unsigned i = ...;
unsigned long s = (unsigned long) i * i;
to avoid overflow. Or in
double d = (double) i / 5;
in order to make the compiler to switch to floating-point division. Or in
s = (unsigned) d * 3 + i;
in order to take the whole part of the floating point value. And so on (the examples are endless).
Another group of valid uses is idioms, i.e. well-established coding practices. For example, the classic C idiom when a function takes a const pointer as an input and returns a non-const pointer to the same (potentially constant) data, like the standard
strstr for example. Implementing this idiom usually requires a use of a cast in order to cast away the constness of the input. Someone might call it bad design, but in reality there's no better design alternative in C. Otherwise, it wouldn't be a well-established idiom :)
Also it is worth mentioning, as an example, that a pedantically correct use of standard
printf function might require casts on the arguments in general case. (Like
%p format specifier expecting a
void * pointer as an argument, which means that an
int * argument has to be transformed into a
void * in one way or another. An explicit cast is the most logical way to perform the transformation.).
Of course, there are other numerous examples of perfectly valid situations when casts are required.
The problems with casts usually arise when people use them thoughtlessly, even where they are not required (like casting the return of
malloc, which is bad for more reasons than one). Or when people use casts to force the compiler to accept their bad code. Needless to say, it takes certain level of expertise to tell a valid cast situation from a bad cast one.
In some cases casts are used to make the compiler to stop issuing some annoying and unnecessary warning messages. These casts belong to the gray area between the good and the bad casts. On the one hand, unnecessary casts are bad. On the other hand, the user might not have control over the compilation settings, thus making the casts the only way to deal with the warnings.