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Is there a 64 bit type that in every OS(32/64 bit) and for every compiler has a size of 64?

The same question is also for 32 bit type. (It should be int?)

The origin of the question is : I am implementing the system which has 2 kinds of instructions :

  1. 32 bit
  2. 64 bit

I want to write something like:

typedef int instruction32bit;

typedef long long instruction64bit //it is not correct some system have sizeof(long long) = 128 
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int by definition is of different size on different machines/compilers. Usually it comes in size "most convenient" to the processor. –  Agent_L Jan 11 '13 at 23:01

3 Answers 3

up vote 3 down vote accepted

If you want your code to be truly portable, then you probably want to typedef your own type, and use for example

   typedef int32_t instruction32bit;
   typedef int64_t instruction64bit;

This will work MOST of the time, but if it doesn't for a particular system/compiler/whatever, you can add do something like this:

   typedef long long int instruction64bit;
   typedef int instruction32bit;
   typedef int32_t instruction32bit;
   typedef int64_t instruction64bit;

Of course, for each model of compiler/OS (or group thereof) that doesn't support int32_t and int64_t, you probably will need a special #ifdef.

This is exactly what all truly portable code does, because no matter how much you find that "nearly all compilers do X", if you get your code popular enough, there's always someone who wants to compile the code with "Bob's Compiler Project" which doesn't have this feature. Of course, the other thing is to just leat those who use "Bob's compiler" edit the typedef itself, and not accept the "For Bob's compiler, you need this ..." patch that inevitably gets sent your way.

As Carl Norum points out in a comment, the #ifdef may be possible to convert to a #if in many cases, and then use generic types such as int and long.

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You should probably replace the ifdef with some #if and some comparisons of constants. Check an implementation of stdint.h out as an example. There's no reason to define things yourself if you can have it happen automatically. –  Carl Norum Jan 11 '13 at 23:07
Good suggestion. Is __WORDSIZE (that gcc/glibc uses) a standard? –  Mats Petersson Jan 11 '13 at 23:12
I don't think so. newlib just uses preprocessor math, IIRC. –  Carl Norum Jan 11 '13 at 23:37
int32_t and int64_t are standard. I feel that much of this answer is rather paranoid. The exact sized types won't exist when the machine doesn't support them. –  David Heffernan Jan 12 '13 at 8:11
But int32_t assumes that the compiler/C library is "new enough". There are plenty of older compilers about that people still use. If you can require that "this must have a new(ish) compiler", and "it can't run on machines that have other than 32/64 bits" [and they are rather unusual these dasy], then I agree. –  Mats Petersson Jan 12 '13 at 10:55

You are looking for int64_t and int32_t, or their unsigned friends uint64_t and uint32_t. Include either cinttypes or cstdint.

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Useful link: en.cppreference.com/w/cpp/header/cstdint –  Robᵩ Jan 11 '13 at 22:57

Use uint_least32_t and uint_least64_t. The fixed-size types uint32_t and uint64_t will not exist on systems that don't have the exact sizes they describe.

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Questions asks for exact size types –  David Heffernan Jan 12 '13 at 12:01
@DavidHeffernan - no, it doesn't. –  Pete Becker Jan 12 '13 at 12:02
Ok. I guess I don't understand "size of 64". –  David Heffernan Jan 12 '13 at 12:04
@DavidHeffernan - it's not clear what's meant by that. I suspect it's not a hard constraint to exactly 64 bits, but an assumption that all systems have power-of-two data sizes. –  Pete Becker Jan 12 '13 at 12:09
@DavidHeffernan - but you're going to tell me I'm perverse. <g> –  Pete Becker Jan 12 '13 at 12:51

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