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I am looking to typedef my own arithmetic types (e.g. Byte8, Int16, Int32, Float754, etc) with the intention of ensuring they comprise a specific number of bits (and in the case of the float, adhere to the IEEE754 format). How can I do this in a completely cross-platform way?

I have seen snippets of the C/C++ standards here and there and there is a lot of:

"type is at least x bytes"

and not very much of:

"type is exactly x bytes".

Given that typedef Int16 unsigned short int may not necessarily result in a 16-bit Int16, is there a cross-platform way to guarantee my types will have specific sizes?

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It is possible to use templates to at compile verify that the chosen type is the correct sizeof() and if not try going down the line until you find one that does match. –  X-Istence Oct 31 '12 at 6:46

5 Answers 5

up vote 6 down vote accepted

You can use exact-width integer types int8_t, int16_t, int32_t, int64_t declared in <cstdint>. This way the sizes are fixed on all the platforms

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...all platforms that provide them. If the platform doesn't have (for example) a 16-bit type, then it simply won't have int16_t. –  Jerry Coffin Oct 31 '12 at 6:44
It's easy enough to get around "don't have exactly the size I want" by using the "at least X bits" types ( en.wikibooks.org/wiki/C_Programming/C_Reference/… ). Of course, the original question ruled out "type is at least x bytes" . –  Max Lybbert Oct 31 '12 at 7:03

The only available way to truly guarantee an exact number of bits is to use a bit-field:

struct X { 
    int abc : 14; // exactly 14 bits, regardless of platform

There is some upper limit on the size you can specify this way -- at least 16 bits for int, and 32 bits for long (but a modern platform may easily allow up to 64 bits for either). Note, however, that while this guarantees that arithmetic on X::abc will use (or at least emulate) exactly 14 bits, it does not guarantee that the size of a struct X is the minimum number of bytes necessary to provide 14 bits (e.g., given 8-bit bytes, its size could easily be 4 or 8 instead of the 2 that are absolutely necessary).

The C and C++ standards both now include a specification for fixed-size types (e.g., int8_t, int16_t), but no guarantee that they'll be present. They're required if the platform provides the right type, but otherwise won't be present. If memory serves, these are also required to use a 2's complement representation, so a platform with a 16-bit 1's complement integer type (for example) still won't define int16_t.

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This is not possible.

There are platforms where char is 16 or even 32 bits.

Note that I'm not saying there are in theory platforms where this happens... it is a real and quite concrete possibility (e.g. DSPs).

On that kind of hardware there is just no way to use 8 bit only for an operation and for example if you need 8 bit modular arithmetic then the only way is doing a masking operation yourself.

The C language doesn't provide this kind of emulation for you...

With C++ you could try to build a class that behaves like the expected native elementary type in most cases (with the exclusion of sizeof, obviously). The result will have however truly horrible performances.

I can think to no use case in which forcing the hardware this way against its nature would be a good idea.

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It is however possible at compile time to verify that the type is a certain size, so for some platforms you simply won't get your program to compile. –  X-Istence Oct 31 '12 at 6:52

Have a look at the types declared in stdint.h. This is part of the standard library, so it is expected (though technically not guaranteed) to be available everywhere. Among the types declared here are int8_t, uint8_t, int16_t, uint16_t, int32_t, uint32_t, int64_t, and uint64_t. Local implementations will map these types to the appropriate-width type for the given complier and architecture.

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It is possible to use C++ templates at compile time to check and create new types on the fly that do fit your requirements, specifically that sizeof() of the type is the correct size that you want.

Take a look at this code: Compile time "if".

Do note that if the requested type is not available then it is entirely possible that your program will simply not compile. It simply depends on whether or not that works for you or not!

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