There are a set of conversions called the usual arithmetic conversions that are used prior to the evaluation of most arithmetic operators.
Basically, you can consider there to be a few rules for arithmetic on integers:
First, integer arithmetic is never performed with operands "smaller than"
int, so in the case of
short * signed char, both the
short and the
signed char operands are promoted to
int, the two
int values are multiplied, and then the result is an
Second, if one or both of the types are "larger than"
int, the compiler selects a type that is at least "as large" as the type of the largest operand. So, if you have
long * int, the
int is promoted to a
long and the result is a
Third, if either operand is
unsigned, then the result is unsigned. So, if you have
long * unsigned int, the
long and the
unsigned int are both promoted to an
unsigned long and the result is an
If either operand has floating point type, then floating point arithmetic is performed:
long double is used (which one depends on the types of the operands; the full table used to determine the result type can be found on the page linked at the beginning of this answer).
Note that the result type is not dependent upon the values of the operands. The type has to be selected by the compiler at compile time, before the values are known.
If the result of
s * i * i is out of range of the result type (
int, in your scenario), then you're out of luck: your program can't decide at runtime, "oh, I should switch to use a
long!" because the result type had to be selected at compile time.