I'm writing some 'portable' code (meaning that it targets 32- and 64-bit MSVC2k10 and GCC on Linux) in which I have, more or less:
typedef unsigned char uint8;
C-strings are always uint8; this is for string-processing reasons. Legacy code needs char compiled as signed, so I can't set compiler switches to default it to unsigned. But if I'm processing a string I can't very well index an array:
char foo[500];
char *ptr = (foo + 4);
*ptr = some_array_that_normalizes_it[*ptr];
You can't index an array with a negative number at run-time without serious consequences. Keeping C-strings unsigned allows for such easier protection from bugs.
I would really like to not have to keep casting (char *) every time I use a function that takes char *'s, and also stop duplicating class functions so that they take either. This is especially a pain because a string constant is implicitly passed as a char *
int foo = strlen("Hello"); // "Hello" is passed as a char *
I want all of these to work:
char foo[500] = "Hello!"; // Works
uint8 foo2[500] = "Hello!"; // Works
uint32 len = strlen(foo); // Works
uint32 len2 = strlen(foo2); // Doesn't work
uint32 len3 = strlen((char *)foo2); // Works
There are probably caveats to allowing implicit type conversions of this nature, however, it'd be nice to use functions that take a char * without a cast every time.
So, I figured something like this would work:
operator char* (const uint8* foo) { return (char *)foo; }
However it does not. I can't figure out any way to make it work. I also can't find anything to tell me why there seems to be no way to do this. I can see the possible logic - implicit conversions like that could be a cause of FAR too many bugs - but I can't find anything that says "this will not work in C++" or why, or how to make it work (short of making uin8 a class which is ridiculous).
signed char?? I very much doubt that... – Kerrek SB Dec 21 '11 at 22:30