I want to define a boolean macro in C that uses less than 4 bytes. I have looked into this, and maybe it is possible to define an asm macro, with gcc, that could be less. It is important that the definition will be small because I will have tens of thousands of matrices which hold these boolean values, and it is important that they can be as memory efficient as possible. Ideally, I want to define a 4-bit, or 8-bit macro that represents true and false, and will evaluate as such in an if-statement.


When I define a macro

#define True 0
#define False !True

and then print the size, it returns a size of 4 bytes, which is very inefficient.


I just read up on bitpacking, and however little bits I could have for a boolean would be best. I'm just not too sure how to bitpack a struck that has the size of a few bits.


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

#define false (unsigned char(0))
#define true (!false)

int main() {
    if (true) {
        printf("The size of true is %d\n", sizeof(true));

gives the following output

test.c: In function ‘main’:
test.c:8:9: error: expected ‘)’ before numeric constant
test.c:9:51: error: expected ‘)’ before numeric constant
  • 12
    How do you define the size of a macro? – user529758 May 22 '13 at 16:55
  • Are you looking for char (or int8_t)? – mpartel May 22 '13 at 16:56
  • 2
    smaller is not more efficient. bytes are pretty innefficient on modern processors 32 or 64 bit sized values (the size of the register) is the most efficient size. x86 has 8 and 16 and 32 and 64 bit sized registers so from that angle a byte is not bad, then it goes to the bus transfer (if in ram) for efficiency and a single byte costs the same as something larger so no need to work to get that small.. – old_timer May 22 '13 at 17:09
  • 1
    The only reason to avoid using a 64-bit integer is because my program could use an upwards of 26 gigs of RAM. – user1876508 May 22 '13 at 17:13
  • 1
    It's dumb to call people dumb when they need to have a more memory efficient representation of something. – user1876508 May 22 '13 at 18:47

Try this instead for your macros:

#define false ((unsigned char) 0)
#define true (!false)

This won't fix your space needs though. For more efficient storage, you need to use bits:

void SetBoolValue(int bitOffset, unsigned char *array, bool value)
    int index = bitOffset >> 3;
    int mask = 1 << (bitOffset & 0x07);

    if (value)
        array[index] |= mask;
        array[index] &= ~mask;

bool GetBoolValue(int bitOffset, unsigned char *array)
    int index = bitOffset >> 3;
    int mask = 1 << (bitOffset & 0x07);

    return array[index] & mask;

Where each value of "array" can hold 8 bools. On modern systems, it can be faster to use a U32 or U64 as the array, but it can take up more space for smaller amounts of data.

To pack larger amounts of data:

void SetMultipleBoolValues(int bitOffset, unsigned char *array, int value, int numBitsInValue)
    for(int i=0; i<numBitsInValue; i++)
        SetBoolValue(bitOffset + i, array, (value & (1 << i)));

And here would be a driver:

int main(void)
    static char array[32];  // Static so it starts 0'd.
    int value = 1234;  // An 11-bit value to pack

    for(int i=0; i<4; i++)
        SetMultipleBoolValues(i * 11, array, value, 11);  // 11 = 11-bits of data - do it 4 times

    for(int i=0; i<32; i++)
       printf("%c", array[i]);

    return 0;
  • I tried this; but, it does not evaluate as true when I have an if statement if (True) { /* Do Something */} – user1876508 May 22 '13 at 17:06
  • Because my macro was backwards - lame on me. Fixed. – Michael Dorgan May 22 '13 at 17:11
  • Note, it should be #define true (!false) – jxh May 22 '13 at 17:12
  • My compiler is still not liking this, let me edit my original post to show you. – user1876508 May 22 '13 at 17:21
  • Those macros are not particularly useful -- and the first one is a syntax error (you got the cast syntax wrong). They specify values for true and false; any use of those values will be converted to some storage format, which you'll have to define anyway. Writing #define true 1 and #define false 0 is clearer and just as good -- and even that's unnecessary if you have #include <stdbool.h>. – Keith Thompson May 22 '13 at 17:32

If you are using this in a structure, then you will want to use a bit field.

struct {
    unsigned flag : 1;
    /* other fields */

If you are wanting an array of boolean values, you should implement a bit vector (I was about to implement one, but Michael Dorgan's already done it).


First of all, there's no storage associated with your macros; they expand to the integer constants 0 and 1. The sizeof evaluates to 4 because the expressions have integer type. You can certainly assign those values to objects of smaller type (short or char).

For me, life got a lot simpler when I stopped using TRUE and FALSE macros1. Remember that in C, a zero-valued integral expression evaluates to false, and all non-zero-valued integral expressions evaluate to true.

If you want to store values into something smaller than 8 bits, then you're going to have to do your own bit packing, something like

#define TEST(x,bit) ((x) & (1 << (bit)))
#define SET(x,bit) ((x) |= (1 << (bit)))
#define CLEAR(x,bit) ((x) &= ~(1 << (bit)))  

The smallest useful type for this is unsigned char. So if you need to store N single-bit values, you need an array of N/CHAR_BIT+1 elements. For example, to store 10 single-bit boolean values, you need 2 eight-bit array elements. Bits 0 through 7 will be stored in element 0, and bits 8 through 10 will be stored in element 1.

So, something like

#define MAX_BITS 24
unsigned char bits[MAX_BITS / CHAR_BIT + 1];

int bit = ...;

SET(bits[bit/CHAR_BIT], bit % CHAR_BIT);

if ( TEST(bits[bit/CHAR_BIT], bit % CHAR_BIT) )
  // do something if bit is set

CLEAR(bits[bit/CHAR_BIT], bit % CHAR_BIT);

No warranties express or implied; I don't do a lot of bit twiddling. But hopefully this at least points you in the right direction.

1. The precipitating event was someone dropping a header where TRUE == FALSE. Not the most productive afternoon.


You should probably just use an unsigned char, it will be the smallest individually addressable type:

typedef unsigned char smallBool;

smallBool boolMatrix[M][N];

The above will use M * N bytes for the matrix.

Of course, wasting CHAR_BIT - 1 bits to store a single bit is ... wasteful. Consider bit-packing the boolean values.

  • How would they evaluate in an if statement? For example, let's say I want to look at the i-th row and j-th column and say if (boolMatrix[i][j]) { return 1} – user1876508 May 22 '13 at 17:00

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