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One often needs to read from memory one byte at a time, like in this naive memcpy() implementation:

void *memcpy(void *dest, const void *src, size_t n)
{
    char *from = (char *)src;
    char *to   = (char *)dest;

    while(n--) *to++ = *from++;

    return dest;
}

However, I sometimes see people explicitly use unsigned char * instead of just char *.

Of course, char and unsigned char may not be equal. But does it make a difference whether I use char *, signed char *, or unsigned char * when bytewise reading/writing memory?

UPDATE: Actually, I'm fully aware that c=200 may have different values depending on the type of c. What I am asking here is why people sometimes use unsigned char * instead of just char * when reading memory, e.g. in order to store an uint32_t in a char[4].

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"but does it make a difference?" - a difference to what? –  Mitch Wheat Dec 5 '11 at 13:12
    
Mitch: Good point, it's fixed now. –  Philip Dec 5 '11 at 13:16
    
unsigned char expresses more clearly one are dealing with raw bytes, and not characters, even if it doesn't matter as the binary values are the same. –  nos Dec 5 '11 at 13:34
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5 Answers

up vote 17 down vote accepted

You should use unsigned char. The C99 standard says that unsigned char is the only type guaranteed to be dense (no padding bits), and also defines that you may copy any object (except bitfields) exactly by copying it into an unsigned char array, which is the object representation in bytes.

The sensible interepretation of this is to me, that if you use a pointer to access an object as bytes, you should use unsigned char.

Reference: http://blackshell.com/~msmud/cstd.html#6.2.6.1 (From C1x draft C99)

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This is one point where C++ differs from C. Generally speaking, C only guarantees that raw memory access works for unsigned char; char may be signed, and on a 2's complement or signed magnitude machine, a -0 might be converted to +0 automatically, changing the bit pattern. For some reason (unknown to me), the C++ committee extends the guarantees supporting transparent copy (no change in bit patterns) to char, as well as unsigned char; on a 2's complement or signed magnitude machine, the implementors have no choice but to make plain char unsigned, in order to avoid such side effects. (And of course, most programmers today aren't concerned by such machines anyway.)

Anyway, the end result is that older programmers, who come from a C background (and maybe have actually worked on a 2's complement or a signed magnitude machine) will automatically use unsigned char. It's also a frequent convention to reserve plain char for character data uniquely, with signed char for very small integral values, and unsigned char for raw memory, or when bit manipulation is intended. Such a rule allows the reader to distinguish between different uses (provided it is followed religiously).

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+1, especially for the last part, I've always seen unsigned chars associated to "raw memory". –  Matteo Italia Dec 5 '11 at 14:19
5  
I think every time you say "2's complement" above, you mean "1s' complement". But it's also implementation-defined in C, for 2's complement signed types, whether the value consisting of sign bit 1 and all other bits 0, is a trap value or not (if not then of course it's the minimum value of the type). So there may even be some 2's complement hardware out there somewhere on which copying by char would fail if char were signed. –  Steve Jessop Dec 5 '11 at 14:37
    
I will double Steve Jessop. We all work with 2's complement machines now –  Ulterior Dec 5 '11 at 15:13
    
@SteveJessop Yes. It started as a typo, which got duplicated. (But I've never seen a 2's complement machine which trapped on the maximum negative value. Although that would have made life a lot easier: the fact that -INT_MIN is not a legal value for int means you have to pay a lot of attention in conversion routines.) –  James Kanze Dec 5 '11 at 15:49
    
Thanks for your elaborate answer! This was exactly what I was looking for (I once read about the issue with 1's complement, but have forgotten about it). –  Philip Dec 5 '11 at 18:43
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In your code example it makes no difference. But if you want to display/print the value of the byte than it does (as the highest bit is interpreted differently), and unsigned char seems more suitable

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It depends on what you want to store in the char. A signed char gives you a range from -127 to 127 whereas an unsigned char ranges from 0 to 255.

For pointer arithmetic it doesn't matter.

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#include<stdio.h>
#include<string.h>

int main()
{

unsigned char a[4]={254,254,254,'\0'};
unsigned char b[4];
char c[4];

memset(b,0,4);
memset(c,0,4);

memcpy(b,a,4);
memcpy(c,a,4);
int i;
for(i=0;i<4;i++)
{
    printf("\noriginal is %d",a[i]);
    printf("\nchar %d is %d",i,c[i]);
    printf("\nunsigned char %d is %d \n\n",i,b[i]);
}

}

output is

original is 254
char 0 is -2           
unsigned char 0 is 254 


original is 254
char 1 is -2
unsigned char 1 is 254 


original is 254
char 2 is -2
unsigned char 2 is 254 


original is 0
char 3 is 0
unsigned char 3 is 0 

so here char and unsign both have the same value so it doesnt matter in this case

Edit

if you read anything as signed char still in that case most highre bit will also going to copy so it doesnt matter

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I won't downvote a fellow answer, but proof by one working example isn't a way to go with C, then we are just talking about one implementation, and even worse, maybe just that version of it. –  u0b34a0f6ae Dec 5 '11 at 13:59
    
@kaizer.se By the way, it would be more questionable if you didn't downvote a bad answer just because it's a fellow answer. Neither do I want to encourage you to downvote this one, just a general comment. –  Christian Rau Dec 5 '11 at 14:33
    
@Christian: I don't understand your viewpoint. In general, I think there are too few downvotes on stack, few that do it, and nothing strange will happen if I abstain once. –  u0b34a0f6ae Dec 5 '11 at 14:44
1  
@kaizer.se I didn't say you should do it, it is of course your decision, just don't refrain from it for the wrong reasons (like political correctness or such things), which would make the voting system absurd. –  Christian Rau Dec 5 '11 at 14:57
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