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I am stuck with a problem here. I entered an integer, casted the integer pointer and sent it into a function print_bytes which accepts a char* pointer and the number of bytes to be printed. Tried printing the address of each byte and the number in type hexadecimal. But with 250 the o/p should have been fa for the first byte and zeroes for next 3 bytes, but instead it prints fffffffa for the first byte.

using namespace std;
void print_bytes(char* ptr,int len)
      for(int i=0;i<len;i++)
             printf("%p  %x\n",ptr+i,*(ptr+i));         
int main()
      int a=250;
      return 0;

But when I change the pointer type to unsigned char* it gives the correct output. That means the MSB being one for char* is making the output go wrong. Or am I missing something?

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3 Answers 3

up vote 0 down vote accepted

The type is getting promoted to signed int when passed to the printf function. When a signed type is promoted, it's "sign-extended".

To an 8-bit signed char, the value 250 is equivalent to -6 (2's complement) and since it's signed, -6 is considered the "true" value. When this is extended to a signed integer (4 bytes), as is happening here, the value -6 is preserved (through the sign-extension), rather than the value 250. But -6 on a 4 byte value is fffffffa, whereas it's merely fa on a single byte.

Since the MSB acts as a flag for the sign, if it's set, you get the behaviour you've observed.

Casting to (unsigned char) on the printf call will cause the value to be "zero-extended" instead. This will cause the value 250 to be preserved, rather than the value -6, and will result in the behaviour you want.

It is a requirement of printf (as set by the standard), being a variadic function (vararg), that arguments narrower than an int be promoted to an int prior to being passed, hence the sign-extension in the first place. (It also requires the promotion of float to double).

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do u know any resources from where one can get hold of such intricacies? –  Karanpreet Jun 27 '13 at 9:56
That's knowledge I obtained from looking at output assembler whilst helping out on a similar problem a while back. For instance, in your example you can clearly see a MOVSX (move, sign extend) instruction prior to the printf call. Casting to unsigned char causes this instruction to be replaced by a MOVZX. Presumably the C standard and/or various C books mention this somewhere. If you're on Windows, the calculator program has a Programmer mode where you can observe the nature of 2's complement (and you can see sign-extension by switching the type size (BYTE -> WORD -> DWORD -> QWORD). –  xen-0 Jun 27 '13 at 10:03
"cannot pass single byte values around" -- wrong. char is extended to int when the type of the argument is int or there's no prototype; since printf is varargs, there's no prototype for the arguments past the format. –  Jim Balter Jun 27 '13 at 10:12
The extension will occur regardless (this is behind the scenes, in the output assembler). If the argument to a function is of type char then it will be zero-extended prior to being pushed onto the stack, since a single byte alone cannot be pushed onto the stack on an x86 processor. The sign-extension comes from the signed-nature of int, but a char must be extended in someway to be passed around in memory. –  xen-0 Jun 27 '13 at 10:19
That has nothing to do with anything here ... the value on the stack will be accessed as a single byte when evaluated by a function with a prototype. An implementation could even pass four single-char arguments in one word if it chose to. –  Jim Balter Jun 27 '13 at 11:00
printf("%p  %02x\n",ptr+i,(unsigned char)*(ptr+i));         
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How about *(ptr+i) -> ptr[i] –  Jim Balter Jun 27 '13 at 9:27

This is because (on your system) char is signed, and it's getting promoted to int in the printf() call.

Use unsigned char:

void print_bytes(const unsigned char *ptr, size_t len)
  for(size_t i = 0; i < len; ++i)
    printf("%p  %x\n", ptr + i, ptr[i]);
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The mask isn't necessary, and omitting it makes print_bytes work when chars aren't 8 bits. –  Jim Balter Jun 27 '13 at 9:23
And for(int i = 0; i < len; i++) printf("%p %x\n", ptr+i, ptr[i]); is simpler. –  Jim Balter Jun 27 '13 at 9:25
@JimBalter Thanks, I edited. I like not adding extra variables when the arguments suffice, but perhaps it's clearer with an i (and more like the OP's code). –  unwind Jun 27 '13 at 9:30
@unwind - if unsigned char does not get promoted to int... then what is the need for masking?? –  Karanpreet Jun 27 '13 at 9:36
@user1969460 The masking isn't needed, the unsigned char will be promoted to unsigned int, but no sign-extension will happen since it's unsigned. This means e.g. '\x80' will be promoted to 0x80u, instead of 0xffffff80 as before. –  unwind Jun 27 '13 at 9:38

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