There is only one instance where you might want to use the
signed char is always a different type from "plain"
char, which may be a signed or an unsigned type depending on the implementation.
C++14 3.9.1/1 says:
It is implementation-defined whether a
char object can hold negative values. Characters can be explicitly declared
signed char, and
unsigned char are three distinct types [...]
In other contexts
signed is redundant.
Prior to C++14, (and in C), there was a second instance: bit-fields. It was implementation-defined whether, for example,
int x:2; (in the declaration of a class) is the same as
unsigned int x:2; or the same as
signed int x:2.
C++11 9.6/3 said:
It is implementation-defined whether a plain (neither explicitly signed nor unsigned)
long long bit-field is signed or unsigned.
However, since C++14 this has been changed so that
int x:2; always means
signed int. Link to discussion