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What happens when casting between these two in relation to the termination character? In C99 Objective-C.

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The only thing a cast does is get rid of compiler warnings, unless you cast a floating point to an integer, or vice versa. The output code is exactly the same. –  ughoavgfhw May 10 '11 at 22:18
This is not true. The C language does not define any implicit conversion between different pointer types (aside from void * of course). A cast is the only way to convert. A compiler that allows conversion without a cast and only generates a warning is being misguidedly "generous" to you; it's not correct. –  R.. May 10 '11 at 23:22

2 Answers 2

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I assume that a char is 8 bits on your system in this answer.

If your architecture uses unsigned char as char type then absolutely nothing will happen.

If your architecture uses signed char as char type then negative values of char will wrap around causing possibly unexpected results. This however will never happen to the termination null character.

Please note, by "casting" nothing really happens, you just tell the compiler to interpret a certain location in the memory differently. This difference in interpretation would create the actual (side)effects of the cast.

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Thank you but I thought some types were converted specially. For example float to int. It has to be converted. But for pointers, nothing ever happens to the data with any cast? –  Matthew Mitchell May 10 '11 at 22:32
casting a float to int value will convert the value on copy. Casting a pointer to a block of ints to floats will just leave you with weird values in the floats - nothign is changed –  Martin Beckett May 10 '11 at 22:38
Of-course, yes. Didn't know if there were exceptions. I found a website somewhere which was saying the wrong thing about uint8_t and char which confused me so I had to come here. –  Matthew Mitchell May 10 '11 at 22:47
@Matthew Mitchell: Which website? –  orlp May 10 '11 at 22:49
If char is not 8-bit, uint8_t cannot exist and there's no question. –  R.. May 10 '11 at 23:23

If char and uint8_t are compatible types (they should be on most current desktop computers), pointers to objects of that type have the same representation and alignment requirements, so there should be no problem converting (implicitly, or explicitly with a cast) one to the other.

The values pointed to, again, if they are compatible, should be treated equally no matter what type they are interpreted as.

Note: I am not 100% certain that uint8_t and char are compatible on a implementation with signed chars.

If the types are not compatible you invoke Undefined Behaviour and anything can happen: a very likely thing to happen is that everything "works" as you expect -- but there is no guarantee it will always work the same

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Regardless of compatibility, you have not invoked UB. Any type can be accessed as an overlaid array of unsigned char [sizeof(type)]. –  R.. May 10 '11 at 23:24
Hmmm ... of course! I was just picturing uint8_t as incompatible with char, but I can't imagine uint8_t existing and be incompatible with char. –  pmg May 11 '11 at 0:06
I don't think they're considered "compatible" unless char happens to be unsigned; it's just that unsigned char is special and can access anything. Actually, technically I suppose uint8_t could be an "extended integer type" with the same properties as unsigned char except for aliasing properties, in which case the code might invoke UB.... –  R.. May 11 '11 at 0:18

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