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Is there a standards-complaint method to represent a byte in ANSI (C89/90) C? I know that, most often, a char happens to be a byte, but my understanding is that this is not guaranteed to be the case. Also, there is stdint.h in the C99 standard, but what was used before C99?

I'm curious about both 8 bits specifically, and a "byte" (sizeof(x) == 1).

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Make sure you distinguish byte from octet. sizeof(char) = 1 always, which means a char is always a byte. However, a byte is not always an octet (DEC Alpha bytes were 10 bits, IIRC... octects are defined to be 8 bits). –  Tom Jan 13 '09 at 4:47

6 Answers 6

up vote 43 down vote accepted

char is always a byte , but it's not always an octet. A byte is the smallest addressable unit of memory (in most definitions), an octet is 8-bit unit of memory.

That is, sizeof(char) is always 1 for all implementations, but CHAR_BIT macro in limits.h defines the size of a byte for a platform and it is not always 8 bit. There are platforms with 16-bit and 32-bit bytes, hence char will take up more bits, but it is still a byte. Since required range for char is at least -127 to 127 (or 0 to 255), it will be at least 8 bit on all platforms.

ISO/IEC 9899:TC3 The sizeof operator

  1. ...
  2. The sizeof operator yields the size (in bytes) of its operand, which may be an expression or the parenthesized name of a type. [...]
  3. When applied to an operand that has type char, unsigned char, or signed char, (or a qualified version thereof) the result is 1. [...]

Emphasis mine.

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Just for clarifications, is sizeof(char) always 1 per the spec, or just happens to be in all implementations? –  Sydius Jan 13 '09 at 2:28
@Chris: byte = smallest addressable unit of memory. I am not sure what you mean by your question. less-than-8bit byte means a platform can't be C compliant. –  Alex B Jan 14 '09 at 8:37
Didn't realize C required >=8-bit bytes (indeed, the standard says a byte must hold a char and a char must be 8 bits). We've reached the frontier of C's portability... –  Chris Conway Jan 14 '09 at 16:36
@theduke, mainly DSPs, for example: leo.sprossenwanne.at/dsp/Entwicklungsprogramme/Entpack/CC56/DSP/… –  Alex B Oct 2 '11 at 3:10
A physical hardware byte smaller than 8 bits is no problem with regard to C conformance as long as the logical byte presented by the C implementation is at least 8 bits. This means a machine with 7-bit hardware bytes could provide a 14-bit logical byte for char and be conformant, but then all larger types would have to occupy an integral (and aligned) number of such logical bytes (i.e. you could not have a 21-bit integer made up of 3 hardware bytes unless you included an additional 7 bits of padding (the rest of the second char) along with it. –  R.. Oct 21 '11 at 4:54

Before C99? Platform-dependent code.

But why do you care? Just use stdint.h.

In every implementation of C I have used (from old UNIX to embedded compilers written by hardware engineers to big-vendor compilers) char has always been 8-bit.

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So is your advice to use uint8_t or to use unsigned char? –  Chris Conway Jan 13 '09 at 0:42
Funny, when I went to school, a character was 6-bits. Lowercase cost 12-bits! I take it you don't miss the 36-Bit, 60-Bit, and other fun machines we used to work with. –  Will Hartung Jan 13 '09 at 1:43

You can find pretty reliable macros and typedefs in boost.

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But that'd be C++, right? –  Sydius Jan 12 '09 at 23:52
Well, you could just copy/paste what you need from there. There's nothing special if you only need a reliable type of integers of a certain length. –  PolyThinker Jan 13 '09 at 1:04

You can always represent a byte (if you mean 8bits) in a unsigned char. It's always at least 8 bits in size, all bits making up the value, so a 8 bit value will always fit into it.

If you want exactly 8 bits, i also think you'll have to use platform dependent ways. POSIX systems seem to be required to support int8_t. That means that on POSIX systems, char (and thus a byte) is always 8 bits.

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POSIX support for stdint.h post-dates C99. –  Chris Conway Jan 13 '09 at 0:47
ah yeah. looks like from 2001. but i think even if he hasn't got a c99 compiler shipping it - if he's on a posix machine, he can take advantage of its requirements from stdint.h . if he's on ms windows, all my bets are off :) maybe he can grab stuff out of cstdint.hpp of boost and c'ify them ? –  Johannes Schaub - litb Jan 13 '09 at 0:55
I mean a byte, not necessarily 8 bits, but thanks. As an aside, does the spec say it must be at least 8 bits, or does it just happen to be the case? –  Sydius Jan 13 '09 at 2:30
yes, the c standard documenting limits.h requires UCHAR_MAX be at least 255, have no padding bits and use a pure binary system. char is required to have same range and representation as either unsigned char or signed char but still must be a distinct type. –  Johannes Schaub - litb Jan 13 '09 at 12:15

In ANSI C89/ISO C90 sizeof(char) == 1. However, it is not always the case that 1 byte is 8 bits. If you wish to count the number of bits in 1 byte (and you don't have access to limits.h), I suggest the following:

unsigned int bitnum(void) {
    unsigned char c = ~0u; /* Thank you Jonathan. */
    unsigned int v;

    for(v = 0u; c; ++v)
        c &= c - 1u;

Here we use Kernighan's method to count the number of bits set in c. To better understand the code above (or see others like it), I refer you to "Bit Twiddling Hacks".

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Better to use ~0 than -1; on a one's complement or sign-magnitude machine, -1 might not be all-bits-set. ~0 is guaranteed to be all bits set. –  Jonathan Leffler Jan 13 '09 at 4:31
@Jonathan: That makes sense. Thank you for the suggestion. I am editing the post now. (I'm sorry that I edited this comment so many times!) –  anon Jan 13 '09 at 4:52
-1 is always all bits one. the conversion of -1 to unsigned char is not necassarily bit-preserving (truncating) –  Johannes Schaub - litb Jan 13 '09 at 12:17
it's defined mathematically: -N is (2^CHAR_BIT - (N mod (2^CHAR_BIT))) that means, -1 is always the most highest unsigned char, having all bits 1. the difference in sign representation is, that if you have two's complement, the conversion is conceptual there: the bit pattern won't change: –  Johannes Schaub - litb Jan 13 '09 at 12:21
@R: How can this be? One's complement means that, for 16 bit integers, -1 is %11111111-11111110 because to make a negative number, bits are simply flipped (see here). Only for Two's complement -1 would be %11111111-11111111, i.e. 0x7FFFF + 1 (which is when many CPUs kindly set the overflow flag). –  Andreas Spindler Oct 23 '12 at 21:23

I notice that some answered have re-defined the word byte to mean something other than 8 bits. A byte is 8 bits, however in some c implementations char is 16 bits (2 bytes) or 8 bits (1 byte). The people that are calling a byte 'smallest addressable unit of memory' or some such garbage have lost grasp of the meaning of byte (8 bits). The reason that some implementations of C have 16 bit chars (2 bytes) and some have 8 bit chars (1 byte), and there is no standard type called 'byte', is due to laziness.

So, we should use int_8

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The language standard has defined its meaning of the word 'byte' to mean the smallest addressable unit. That doesn't have to be 8 bits. It can be larger on some systems. Those systems are also unlikely to even have an int_8 (or int8_t). –  Bo Persson Jun 12 '11 at 17:55
Not just unlikely. int8_t is required, if it exists, to have no padding bits (and twos complement representation), so the only way it can exist is if char is exactly 8 bits. –  R.. Oct 21 '11 at 4:58

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