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Is the format and size of a float or double on all major development systems (windows, Linux and Mac) is the same?

Is there any way to make sure that they are compatible with each other? For example, I can make sure that an int is 32 bit by using int32_t as type instead of int, but is there any similar technique for float and double?

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marked as duplicate by Michael Borgwardt, PlasmaHH, Werner Henze, Matti Pastell, MSalters Dec 12 '13 at 14:30

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No there isn't:

1) format: depends on the endianness of your architecture.

2) size: double is mandated to be no smaller than a float. Anything else is permissible.

see the C standard:

§6.2.5.10

There are three real floating types, designated as float, double, and long double. The set of values of the type float is a subset of the set of values of the type double; the set of values of the type double is a subset of the set of values of the type long double.

See also Any guaranteed minimum sizes for types in C?

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There are also constraints involving the minimum ranges and precision. And endianness doesn't affect the format; it only comes into play when you try to access a variable as an array of bytes (and there's practically never any reason to do that). –  James Kanze Dec 12 '13 at 11:56
    
@James Kanze: that's a good clarification but I took format to mean the byte arrangement. Perhaps the OP meant the arrangment of mantissa / exponent, as I think you do. –  Bathsheba Dec 12 '13 at 12:00
    
It's actually quite possible that the OP meant byte arrangement. In which case, it should be pointed out that this is not really part of the format, since all of the machines I know today access float and double as "words", and not as a sequence of bytes. –  James Kanze Dec 12 '13 at 12:49
    
The question states that int32_t is a solution for integers, so presumably endianness is already either understood or irrelevant. –  MSalters Dec 12 '13 at 14:31

It depends on what you mean by "major development systems". Windows and most Unix systems use IEEE float and double, so they will use the same format. Most mainframes (including IBM) use some other format.

The real question is why you need compatibility. If you're worried about portability, you don't use int32_t, because there are still some platforms which don't support it. More generally, in all but exceptional cases, you should be using int, and validating the input against expressions involving INT_MAX and INT_MIN to ensure that no overflow can occur.

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Neither Windows nor Unix nor any other operating system determines the way data types are stored. These are aspects of the compiler (to determine width) and CPU (to determine layout), and sometimes both CPU and compiler (for architectures that support multiple layouts). –  mah Dec 12 '13 at 11:57
    
@mah: you can take a pure view that it's a feature of the implementation and therefore up to the compiler (which might be informed by the CPU). Alternatively you can take the practical view that a hosted C++ implementation will want to expose system APIs to the programmer, therefore will use the OS's ABI or close to it. As far as extern "C" linkage is concerned, anyway, and that includes the layout of basic types. The practical view is more useful for programmers, the pure view applies for example if you emulate one architecture on another. –  Steve Jessop Dec 12 '13 at 12:15
    
@mah Sort of. Windows only runs on Intel compatible, so it uses Intel representations. Unix is more general, but the standard does make some restrictions as to architecture (most importantly that all pointers have the same size and representation), but the fact that there can be variants is why I said "most Unix systems". (Some versions of Unix do run on IBM mainframes, and they do not use IEEE. I suspect that most IBM mainframes run IBM OS's, rather than Unix, however.) –  James Kanze Dec 12 '13 at 12:38
    
@JamesKanze Windows can be tightly paired to Intel however it's still an incorrect selection of identifier. For example, MacOS can be tightly paired to 68k I mean PowerPC I mean Intel (and lets ignore it's highly similar iOS Sister that runs on ARM). There are arguments to dismiss that example, so consider instead your statement about pointer size, x86 vs x86-64 and suddenly the same OS holds different sizes. I agree, your "most" qualifier is correct but I don't see reason to refer to the OS when architecture is so close at hand -- and accurate to its needs explicitly. –  mah Dec 12 '13 at 12:42
    
@SteveJessop It seems a given that an implementation of C++ will respect the platform ABI for the common elements (which conceivably wouldn't include float or double). It also seems given that it will use the "native" representation for types which are directly supported by hardware (which doesn't necessarily include float or double). Beyond that, it's pretty much anything goes, and of course, the system ABI may be parametrized itself: Posix defines an ABI where the size and representation of the basic types is only slightly specified (char must be 8 bits, etc.). –  James Kanze Dec 12 '13 at 12:42

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