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Can someone please explain this function to me?

A mask with the least significant n bits set to 1.


n = 6 --> 0x2F, n = 17 --> 0x1FFFF // I don't get these at all, especially how n = 6 --> 0x2F

Also, what is a mask?

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also what is a mask? How about Wikipedia? –  chris Sep 14 '12 at 0:34
The 0x2F is wrong by the way, it should be 0x3f –  wich Sep 14 '12 at 0:36
@chris wiki is too confusion... –  sebi Sep 14 '12 at 0:39

4 Answers 4

The usual way is to take a 1, and shift it left n bits. That will give you something like: 00100000. Then subtract one from that, which will clear the bit that's set, and set all the less significant bits, so in this case we'd get: 00011111.

A mask is normally used with bitwise operations, especially and. You'd use the mask above to get the 5 least significant bits by themselves, isolated from anything else that might be present. This is especially common when dealing with hardware that will often have a single hardware register containing bits representing a number of entirely separate, unrelated quantities and/or flags.

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Keep in mind that going 1 << w - 1, where w is the width of the data type, to set all but one of the bits, is UB. –  chris Sep 14 '12 at 0:37
Exactly. Blame it on Intel, but it made it to the standard. –  wildplasser Sep 14 '12 at 0:38

A mask is a common term for an integer value that is bit-wise ANDed, ORed, XORed, etc with another integer value.

For example, if you want to extract the 8 least significant digits of an int variable, you do variable & 0xFF. 0xFF is a mask.

Likewise if you want to set bits 0 and 8, you do variable | 0x101, where 0x101 is a mask.

Or if you want to invert the same bits, you do variable ^ 0x101, where 0x101 is a mask.

To generate a mask for your case you should exploit the simple mathematical fact that if you add 1 to your mask (the mask having all its least significant bits set to 1 and the rest to 0), you get a value that is a power of 2.

So, if you generate the closest power of 2, then you can subtract 1 from it to get the mask.

Positive powers of 2 are easily generated with the left shift << operator in C.

Hence, 1 << n yields 2n. In binary it's 10...0 with n 0s.

(1 << n) - 1 will produce a mask with n lowest bits set to 1.

Now, you need to watch out for overflows in left shifts. In C (and in C++) you can't legally shift a variable left by as many bit positions as the variable has, so if ints are 32-bit, 1<<32 results in undefined behavior. Signed integer overflows should also be avoided, so you should use unsigned values, e.g. 1u << 31.

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I believe your first example should be 0x3f.

0x3f is hexadecimal notation for the number 63 which is 111111 in binary, so that last 6 bits (the least significant 6 bits) are set to 1.

The following little C program will calculate the correct mask:

#include <stdarg.h>
#include <stdio.h>

int mask_for_n_bits(int n)
    int mask = 0;

    for (int i = 0; i < n; ++i)
        mask |= 1 << i;

    return mask;

int main (int argc, char const *argv[])
    printf("6: 0x%x\n17: 0x%x\n", mask_for_n_bits(6), mask_for_n_bits(17));
    return 0;
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0x2F is 0010 1111 in binary - this should be 0x3f, which is 0011 1111 in binary and which has the 6 least-significant bits set.

Similarly, 0x1FFFF is 0001 1111 1111 1111 1111 in binary, which has the 17 least-significant bits set.

A "mask" is a value that is intended to be combined with another value using a bitwise operator like &, | or ^ to individually set, unset, flip or leave unchanged the bits in that other value.

For example, if you combine the mask 0x2F with some value n using the & operator, the result will have zeroes in all but the 6 least significant bits, and those 6 bits will be copied unchanged from the value n.

In the case of an & mask, a binary 0 in the mask means "unconditionally set the result bit to 0" and a 1 means "set the result bit to the input value bit". For an | mask, an 0 in the mask sets the result bit to the input bit and a 1 unconditionally sets the result bit to 1, and for an ^ mask, an 0 sets the result bit to the input bit and a 1 sets the result bit to the complement of the input bit.

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Ops. Got the wrong edit after your update, but I did rollback. Sorry! –  jweyrich Sep 14 '12 at 0:44

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