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In the following piece of code,

#include<stdio.h>
typedef struct {
    int bit1:1;
    int bit3:4;
    int bit4:4;
} node;

int main(){
    node n,n1,n2,ff[10];

    printf("%d\n",sizeof(node));
    return 0;
}

How do I predict the size of the structure?

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5  
Why do you think you should be able to predict it exactly? –  David Thornley Jun 18 '10 at 18:12
    
And why do you want to? –  anon Jun 18 '10 at 18:22

6 Answers 6

up vote 9 down vote accepted

You cannot predict it without knowing the compiler and the target platform it compiles to.

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It depends on the platform and the compiler settings (packing, alignment, 32/64 machine)

According to comp.lang.c FAQ list

"Bit-fields are thought to be nonportable, although they are no less portable than other parts of the language."

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1  
what a weird quote... –  jalf Jun 19 '10 at 3:07

Unpredictable in general, but practically speaking it'll come out sizeof(int) more often than not. Which itself is very often 4; less commonly 2 and surely 8 at times.

Most of the time the bit fields will be packed and most of the time the int type will have 9 or more bits of storage.

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1  
int is always at least 16 bits, the standard says so (long is always at least 32, and in C99 we get long long which is at least 64, and they can all be bigger than those sizes) –  Spudd86 Jun 19 '10 at 1:01

You will find that the size of your structure changes based on compiler optimization settings. I'd predict anywhere between 2 and 12 bytes for this structure.

Even when using bit-fields like you do, you can't always predict what the size of a struct is going to be. The compiler may have every bit-field take up the full space of an int, or possibly just the 1 or 4 bits that you specify. Using bit-fields, while it is great on memory storage space, is often bad for running time and executable size.

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I'm not sure it would be legal for the compiler to have this structure occupy less than the size of an int. It certainly can't occupy less than the size of a char, since sizeof(...) must return an integer. –  Stewart Jun 18 '10 at 18:22
    
@Stewart: There are platforms on which sizeof(int) == 2. –  Stephen Canon Jun 18 '10 at 18:29
    
@Stephen: I don't think I said there weren't. There are also platforms where it is not a multiple of eight bits, and nothing in my answer disallows that either. The answer suggests the compiler may pack the structure into only 4 bits, that is what I was saying can't happen, particularly as an int must be at least 16 bits. –  Stewart Jun 18 '10 at 18:44
    
@Stewart, no he said that each bitfield might occupy as little space as it is declared to in some cases. And that is true, although since this example declares a total of 9 bits, it is extremely likely that any modern platform will also have some padding bits to make the whole thing fit in an integral number of char. On common platforms, 2 is a plausible size, but 4 is more likely. 12 is certainly possible since there are 3 declared fields and a (foolish?) speed optimization could assign each to its own 32-bit int. –  RBerteig Jun 18 '10 at 22:51
    
the smallest this could ever be is 2 bytes, (assuming you're restricting to platforms with 8 bit bytes.. there are some with 9 bit bytes, but I don't know if anyone still uses them, or if C compilers exist for them... in that case it could be 1 byte) the reason for this is that if you declare an array of these the individual elements must be addressable and I don't think there's ever been an architecture where you can address anything smaller than the platform's byte. –  Spudd86 Jun 18 '10 at 23:06

Usually every compiler decides how to pack the union so you can't make many assumptions on the final size. They can decide a different layout according to its parameters.

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Add the bit-field sizes, divide by 8*sizeof(int), and take the ceiling of that value. In your example, it'll be 4.

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That has no underlying logic whatsoever... –  SurDin Jun 18 '10 at 22:53
    
@SurDin The assumption is the compiler packs the fields tightly and uses blocks of size sizeof(int). –  Spudd86 Jun 19 '10 at 0:57

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