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trivial example program:

#include <stdio.h>
main()
{
    bool tim = true;
    bool rob = false;
    bool mike = true;

    printf("%d, %d, %d\n", tim, rob, mike);

}

Using the gcc compiler it appearers, based on looking at the assembly output, that each bool is stored as a bit in individual bytes:

0x4004fc <main()+8>          movb      $0x1,-0x3(%rbp)
0x400500 <main()+12>         movb      $0x0,-0x2(%rbp)
0x400504 <main()+16>         movb      $0x1,-0x1(%rbp)

if, however, one turns optimization on, is there a level of optimization that will cause gcc to store these bools as bits in a byte or would one have to put the bools in a union of some bools and a short int? Other compilers? I have tried '-Os' but I must admit I can't make heads or tails of the output disassembly.

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5  
No. The smallest addressable unit in C is a byte, that's why we can't really have a real bool datatype. –  user529758 Jul 26 '13 at 16:10
    
If storage is at a premium then you could store these three bits in a single char using bitmasks. –  jsp Jul 26 '13 at 16:14
2  
@H2CO3: how about bitfields? anyway, the question was about internal representations, so cannot we have bools in bits, if the compiler decides so (possibly at the cost of additional glue code) ? or does the current standard forbid it ? –  collapsar Jul 26 '13 at 16:16
    
@collapsar: Yes and no; see my answer. But that optimization would save 2 bytes at the cost of (probably) multiple additional instructions to access the individual bits. It's a poor tradeoff unless data storage is very expensive compared to code size (as it might be on some small embedded systems). –  Keith Thompson Jul 26 '13 at 16:29
    
@KeithThompson: you confirmed my hunches. thanks. –  collapsar Jul 26 '13 at 16:32

3 Answers 3

up vote 1 down vote accepted

@Keith Thompson's good answer can explain what happened with the code example in the question. But I'll assume that the compiler doesn't transform the program. According to the standard, a bool (a macro in stdbool.h the same as the keyword _Bool) must have a size of one byte.

C99 6.2.6.1 General

Except for bit-fields, objects are composed of contiguous sequences of one or more bytes, the number, order, and encoding of which are either explicitly specified or implementation-defined.

This means that any type(except bit-fields, including bool) of objects must have at least one byte.

C99 6.3.1.1 Boolean, characters, and integers

The rank of_Bool shall be less than the rank of all other standard integer types.

This means bool's size is no more than a char(which is an integer type). And we also know that the size of an char is guaranteed to be one byte. So the size of bool should be at most one byte.

Conclusion: the size of bool must be one byte.

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ahhh, read the source (document), Luke-- I should have read the C99 standard document –  tallen Jul 26 '13 at 17:06
    
I think you're missing a step there. How does the fact that _Bool has a rank lower than that of char imply that it can be only one byte? Why couldn't _Bool have, say, 15 or 31 padding bits? There might be a performance advantage to storing _Bools in one word rather than one byte -- whatever a "word" is on a given machine. –  Keith Thompson Jul 26 '13 at 17:48
    
@KeithThompson After a second thought, I think you are right, the lower rank of _Bool doesn't mean the order of size. I mis-understood that. I'll delete this anser as long as OP un-accept it. –  Yu Hao Jul 26 '13 at 18:03

A compiler can perform any tranformations it likes, as long as the resulting behavior of the program is unaffected, or at least within the range of permitted behaviors.

This program:

#include <stdio.h>
#include <stdbool.h>
int main(void)
{
    bool tim = true;
    bool rob = false;
    bool mike = true;

    printf("%d, %d, %d\n", tim, rob, mike);

}

(which I've modified a bit to make it valid) could be optimized to the equivalent of this, since the behavior is identical:

#include <stdio.h>
int main(void)
{
    puts("1, 0, 1");
}

So the three bool objects aren't just stored in single bits, they're not stored at all.

A compiler is free to play games like that as long as they don't affect the visible behavior. For example, since the program never uses the addresses of the three bool variables, and never refers to their sizes, a compiler could choose to store them all as bits within a single byte. (There's little reason to do so; the increase in the size of the code needed to access individual bits would outweigh any savings in data size.)

But that kind of aggressive optimization probably isn't what you're asking about.

In the "abstract machine", a bool object must be a least one byte unless it's a bit field. A bool object, or any object other than a bit field, must have an unique address, and must have a size that's a whole multiple of 1 byte. If you print the value of sizeof (bool) or sizeof tim, the result will be at least 1. If you print the addresses of the three objects, they will be unique and at least one byte apart.

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1  
good answer because it describes exactly what is happening on this specific code...using clang to emit the llvm code is a real winner on that matter. upvote! –  Stefan Jul 26 '13 at 16:39
    
In your usage of "abstract machine" I presume we assume there is no such machine that can address an individual bit; therefore, since byte is the minimum addressable unit, it most store bools (bits) as individual bytes. –  tallen Jul 26 '13 at 16:39
1  
@tallen No, the expression "abstract machine" refers to the wording used by the C standard. The C language targets a so-called abstract machine to describe behavior and to maintain platform-independence. –  user529758 Jul 26 '13 at 16:49

You would not use a union of bools. Instead you can say

struct a
{
unsigned char tim : 1;
unsigned char rob : 1;
unsigned char mike : 1;
} b;

b.tim=1;
b.rob=0;
b.mike=1;

and it would all get stored in a single char. However, you would not have any guarantees about how it's layed out in memory or how it's aligned.

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I knew there were ways to do it, e.g. bit-fields or unions. What I didn't understand is why the compiler doesn't "want" to do it. I think this "abstract machine" concept is what I'm looking for. –  tallen Jul 26 '13 at 16:45
    
@tallen It doesn't want to do it because it's more complicated and if it wants to extract the boolean values, it will have to perform bitwise operations, which take more instructions than fetching simply loading/storing a byte. C is all for efficiency and simplicity. –  user529758 Jul 26 '13 at 17:00
    
but if I (-Os) tell it (gcc in this case) to optimize for size... –  tallen Jul 26 '13 at 17:03

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