Per C 2018 6.2.5 15,
char behaves as either
signed char or
unsigned char. Suppose it is
signed char. 22.214.171.124 2 discusses signed integer types, including
signed char. At the end of this paragraph, it says:
Which of these [sign and magnitude, two’s complement, or ones’ complement] applies is implementation-defined, as is whether the value with sign bit 1 and all value bits zero (for the first two), or with sign bit and all value bits 1 (for ones’ complement), is a trap representation or a normal value.
Thus, this paragraph allows
signed char to have a trap representation. However, the paragraph in the standard that says accessing trap representations may have undefined behavior, 126.96.36.199 5, specifically excludes character types:
Certain object representations need not represent a value of the object type. If the stored value of an object has such a representation and is read by an lvalue expression that does not have character type, the behavior is undefined. If such a representation is produced by a side effect that modifies all or any part of the object by an lvalue expression that does not have character type, the behavior is undefined. Such a representation is called a trap representation.
char may have trap representations, there is no reason we should not be able to access it. There is then the question of what happens if we use the value in an expression? If a
char has a trap representation, it does not represent a value. So attempting to compare it to 1 in
*p == 1 does not seem to have a defined behavior.
The specific value of 1 in an
int will not result in a trap representation in
char for any normal C implementation, as the 1 will be in the “rightmost” (lowest valued) bit of some byte of the
int, and no normal C implementation puts the sign bit of a
char in the bit in that position. However, the C standard apparently does not prohibit such an arrangement, so, theoretically, an
int with value 1 might be encoded with bits 00000001 in one of its bytes, and those bits might be a trap representation for a