I was learning about bit manipulations then I thought of this. Say I have two numbers, First in the range of [1,6] and second in the range of [0,3]. Now the first number can take max 3 bits to be stored and the second can take 2 bits to be stored. How can I use one int32 to store both of them in it. Thanks.



// a : range of [1,6], bit0 ~ bit2
// b : range of [0,3], bit3 ~ bit4
// c : encoded int32
c = 0;
c |= (a | b << 3);


a = (c & 0x00000007);
b = (c & 0x00000018) >> 3;
  • Have an upvote: your code is more professional than mine, especially a | b << 3 which is a touchstone for your operator precedence knowledge.
    – Bathsheba
    Jun 20 '17 at 10:50
  • @Bathsheba Thanks, but I liked your idea of multiplication and division. (guess it's edited now) It looked simpler than this one.
    – nglee
    Jun 20 '17 at 10:59
  • That's how I think of it in my head but I think using bitwise operators is a bit less idiosyncratic. Your answer still remains superior as you've taken care to document it. (Funny how we put the two numbers in different places. Is that how the endianness battle started?)
    – Bathsheba
    Jun 20 '17 at 11:00

int32_t composite = first_number << 2 | second_number; would do it.

second_number then occupies the two least significant bits, and you can extract it with composite & 3.

first_number occupies the three bits to the "left" of that, and you can extract it with composite >> 2.

  • Thanks for the answer. Is it possible to encode more than two numbers? Jun 20 '17 at 11:17
  • 1
    Sure it is. You just use more bitwise operators for the extraction. The answer of @nglee generalises more readily.
    – Bathsheba
    Jun 20 '17 at 12:13

If you just need two numbers packed into one int, instead of bit manipulations you might want to use a bit fields. That way you could store two fields in space of one int-field and access them by names.

  • I am trying to send data over the network and It has to be an int. I have some restrictions here. Thanks. Jun 20 '17 at 11:16
  • 1
    @Ankitsinghkushwah it can take exactly the size of int worth of storage, just be careful with signed/unsigned. You can check it here: cpp.sh/6q73k maybe it will help you another time :)
    – Michael232
    Jun 20 '17 at 11:26
  • Note that the layout of bitfields is implementation-specific. There is no requirement that a struct containing two small fields must fit in an int. That's what's typically done, but it is not guaranteed. Jun 20 '17 at 12:59

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