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So, you know how the primitive of type char has the size of 1 byte? How would I make a primitive with a custom size? So like instead of an in int with the size of 4 bytes I make one with size of lets say 16. Is there a way to do this? Is there a way around it?

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What do you want to accomplish with this? Is it to allow bigger numbers in your computations or do you have another plans for your 16 byte large integers? –  Laserallan Apr 21 '10 at 1:48
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This is an interesting question, but a bit underspecified. And the answers don't address creating either bigger or smaller primitives. Smaller than a char: override operator& as in std::vector<bool>::iterator. Larger than a long int: use a bignum library. –  Potatoswatter Apr 21 '10 at 5:34
    
@Laserallan I want to use this for math with primitives in C++ that numbers go out of the range of the standard primitives in C++. –  thyrgle Apr 25 '10 at 5:33

3 Answers 3

up vote 5 down vote accepted

Normally you'd just make a struct that represents the data in which you're interested. If it's 16 bytes of data, either it's an aggregate of a number of smaller types or you're working on a processor that has a native 16-byte integral type.

If you're trying to represent extremely large numbers, you may need to find a special library that handles arbitrarily-sized numbers.

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It depends on why you are doing this. Usually, you can't use types of less than 8 bits, because that is the addressable unit for the architecture. You can use structs, however, to define different lengths:

struct s {
  unsigned int a : 4;  // a is 4 bits
  unsigned int b : 4;  // b is 4 bits
  unsigned int c : 16; // c is 16 bits
};

However, there is no guarantee that the struct will be 24 bits long. Also, this can cause endian issues. Where you can, it's best to use system independent types, such as uint16_t, etc. You can also use bitwise operators and bit shifts to twiddle things very specifically.

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uint16_t still has endian issues. –  Billy ONeal Apr 21 '10 at 2:02
    
@Billy true... I guess my point is that bitfields in structs are very messy in this regard, and that's one of their primary uses. –  WhirlWind Apr 21 '10 at 2:11
    
Yep. I wasn't gonna downvote you for it. But I did think it was worth mentioning. –  Billy ONeal Apr 21 '10 at 2:59

If you want to make a new type, typedef it. If you want it to be 16-bytes in size, typedef a struct that has 16-bytes of member data within it. Just beware that quite often compilers will pad things on you to match your systems alignment needs. A 1 byte struct rarely remains 1 bytes without care.

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