Your own explanation is the right one. Pre-ANSI C ('K&R' C) did not have a
void * type with implicit conversion.
char * doubled as a pseudo
void * type, but you needed the explicit conversion of a type cast.
In modern C the casting is frowned upon because it can suppress compiler warnings for a missing prototype of
malloc. In C++, the casting is needed (but there you should be using
new instead of
malloc most of the time).
My comments below that try to explain why the cast is required were a bit unclear, I'll try to explain it better here. You might think that even when
char *, the cast is not needed because it is similar to:
char *b = a;
But in this example a cast is also needed. The second line is a constraint violation for the simple assignment operator (C99 18.104.22.168.1). Both pointer operands need to be of compatible type. When you change this to:
char *b = (char *) a;
the constraint violation disappears (both operands now have type
char *) and the result is well-defined (for converting to a char pointer). In the 'reverse situation':
int *d = (int *) c;
the same argument hold for the cast, but when
int * has stricter alignment requirements than
char *, the result is implementation defined.
Conclusion: In the pre-ANSI days the type cast was necessary because
char * and not casting results is a constraint violation for the '=' operator.