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).

  • 3
    You can't write casts (or operators) that don't involve at least one user defined type – Seth Carnegie Dec 21 '11 at 22:29
  • You have legacy code that uses signed char?? I very much doubt that... – Kerrek SB Dec 21 '11 at 22:30
  • 2
    why is making uint8 a class ridiculous? It's not any more ridiculous than having a bunch of stray global casting functions. – ThomasMcLeod Dec 21 '11 at 22:32
  • 1
    @Kerrek SB: Visual Studio has implicitly made char's signed unless you use a compiler flag for...well, since the legacy code started. – std''OrgnlDave Dec 21 '11 at 23:11
  • 1
    @KerrekSB trilithium.com/johan/2005/01/char-types . It's true they're distinct, but modern compilers including Visual C++ 2010 default them to signed, for the reasons noted in that article. – std''OrgnlDave Dec 22 '11 at 0:44

I'm not a big fan of operator [ab]using, but thats what c++ is for right?

You can do the following:

const char* operator+(const uint8* foo) 
  return (const char *)foo; 

char* operator+(uint8* foo) 
  return (char *)foo; 

With those defined, your example from above:

uint32 len2 = strlen(foo2);

will become

uint32 len2 = strlen(+foo2); 

It is not an automatic cast, but this way you have an easy, yet explicit way of doing it.


Global cast(typecast) operator, global assignment operator, global array subscript operator and global function call operator overloading are not allowed in C++.

MSVS C++ will be generate C2801 errors on them. Look at wiki for list of C++ operators and them overloading rules.


Both compilers you mention do have a "treat chars as unsigned" switch. Why not use that?

  • Breaking legacy code. Like I said in like...the second sentence. – std''OrgnlDave Dec 25 '11 at 0:40
  • Oh... I'm not sure about the nature of your program then. I thought you were writing something new! (like you said in the first sentence) – Mr Lister Dec 25 '11 at 15:48

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.