The use of
int8_t is perfectly good for some circumstances - specifically when the type is used for calculations where a signed 8-bit value is required. Calculations involving strictly sized data [e.g. defined by external requirements to be exactly 8 bit in the result] (I used pixel colour levels in a comment above, but that really would be
uint8_t, as negative pixel colours usually don't exist - except perhaps in YUV type colourspace).
int8_t should NOT be used as a replacement of
char in for strings. This can lead to compiler errors (or warnings, but we don't really want to have to deal with warnings from the compiler either). For example:
int8_t *x = "Hello, World!\n";
may well compile fine on compiler A, but give errors or warnings for mixing signed and unsigned char values on compiler B. Or if
int8_t isn't even using a
char type. That's just like expecting
int *ptr = "Foo";
to compile in a modern compiler...
In other words,
int8_t SHOULD be used instead of
char if you are using 8-bit data for caclulation. It is incorrect to wholesale replace all
int8_t, as they are far from guaranteed to be the same.
If there is a need to use
char for string/text/etc, and for some reason
char is too vague (it can be signed or unsigned, etc), then usign
typedef char mychar; or something like that should be used. (It's probably possible to find a better name than
Edit: I should point out that whether you agree with this or not, I think it would be rather foolish to simply walk up to whoever is in charge of this "principle" at the company, point at a post on SO and say "I think you're wrong". Try to understand what the motivation is. There may be more to it than meets the eye.