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Is there a way to declare 32-bit floating point value in C++ - ensuring that it will always be 32 bits regardless of platform/compiler?

I can do that for integers like that:

#include <stdint.h>

uint32_t var;  //32 bit unsigned integer
uint64_t var1; //64 bit unsigned integer

is there a way to do something like that for floats? As far as I know,

float var; //Usually is 32 bit, but NOT GUARANTEED to be 32 bit

is implementation specific, and is not necessarily 32 bit.. (Correct me if I am wrong).

I am using qt, so if there is any solution using it I would accept it - I couldn't find anything like quint16 for floats (qreal changes size depending on platform).

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No - some platforms may have decimal floats. –  Dieter Lücking Sep 9 '13 at 19:09
4  
What are you going to do with a 32 bit binary floating point data type on a platform without support for that? –  David Heffernan Sep 9 '13 at 19:10
    
So exactly what do you want to have happen if float isn't 32-bits? One can of course make a check if (sizeof(float) != 4 && CHAR_BITS == 8) PANIC("Not 32-bit float!!!"); - but I'm not sure what you expect the compiler to do instead, if there isn't a 32-bit float... –  Mats Petersson Sep 9 '13 at 19:18
    
@MatsPetersson - I just want to ensure that float is 32 bit, and not 64 or 16 bit. –  Ilya Kobelevskiy Sep 9 '13 at 19:24
    
So, are you writing code that is likely to run on really obscure hardware? I mean DSP's and large and ancient mainframes? If not, then I'd say ignore the problem... [I have a feeling that QT won't work well on mainframes anyway, and DSP's tend to be pretty specialized]. –  Mats Petersson Sep 9 '13 at 19:28

5 Answers 5

up vote 6 down vote accepted

You're using Qt. which is specific to C++, so I'm not sure why the question is tagged C.

As far as I know, on all platforms where Qt is supported, type float is 32-bit IEEE.

If somebody decides to port Qt to, say, a Cray vector machine with 64-bit float, you're not going to have a 32-bit floating-point type anyway (unless you implement it yourself in software, but I don't see how that would be useful).

There is no <stdfloat.h> / <cstdfloat> corresponding to <stdint.h> / <cstdint>. C and C++ provide float, double, and long double, and imposes minimal requirements on them, but doesn't give you a way to ask for a floating-point type of any specific size.

Your best bet is probably to add something like this in main, or in some function that's guaranteed to be called during program startup:

assert(CHAR_BIT * sizeof (float) == 32);

and perhaps CHAR_BIT == 8 as well if your code implicitly depends on that.

It's unlikely that the assert will ever fire -- and if it does, you've got bigger problems.

You might want to reconsider whether you really need a 32-bit floating type. If your code were running on a system with 64-bit float, how would that fail to meet your requirements?

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Thanks! Is it certain Qt only runs on 32-bit IEEE? I tagged as C since I use qt but am not limited to it - any solution ensuring float is 32 bit/providing float data type guaranteed to be 32 bit would be fine, including C. I would like floating point to be 32 bit since I write 32bit since I do some pointer casts/arithmetic relying on the data sizes. –  Ilya Kobelevskiy Sep 9 '13 at 19:40
    
@IlyaKobelevskiy: It's not certain to me, and it's less certain that it will continue to be the case, but it's very likely. Consider not writing code that makes any assumptions about sizeof (float). Otherwise, decide what you want to do if no 32-bit floating-point type is available. Unless you implement 32-bit FP in software (which is likely overkill), you're going to be out of luck -- and an assert is just the way to handle that. –  Keith Thompson Sep 9 '13 at 19:51
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You can have compile time checks too -- C++ defines the macros FLT_MIN, FLT_MAX, FLT_MANT_DIG (#include <cfloat>); or in C++11 code you can use a static_assert(numeric_limits<float>::max() <= ...) (or min, etc.) (#include <limits>). –  peppe Sep 9 '13 at 19:52
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And what about a platform where float is 32 bits, but with a different format than the one you want? It's difficult to tell just what your requirements are. –  Keith Thompson Sep 9 '13 at 19:54
    
@IlyaKobelevskiy: Some low end ARMs have only double 64 bits IEEE hardware. 32 bits FP can be fairly efficiently emulated in 64 bits., but you have issues similar to the x87 80 bits registers. –  MSalters Sep 10 '13 at 8:24

There isn't such a sized floating point type, but you can always statically assert that the size is 32 bits. Maybe even something as simple as a global char array:

#include <climits>

char static_assert_float32[1 - (2 * ((sizeof(float) * CHAR_BIT) != 32))];

This will fail to compile if float is not 32 bits by declaring an array of negative size.

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Or, more simply, static_assert(sizeof(float) == 4, "require 32-bit floats"). –  Adam Burry Sep 10 '13 at 3:55
    
@Adam: Nope, that fails for CHAR_BIT==16. –  MSalters Sep 10 '13 at 8:20
    
@MSalters, if I read you correctly, you are correct. What I wrote is true if a byte is not 8-bits. Since sizeof returns the number of bytes. Is that what you mean? –  Adam Burry Sep 10 '13 at 12:18
    
@AdamBurry: Yes, C++ defines a byte as the size of a char, which is not necessarily an octet (8 bits). Therefore, sizeof(char)==1 everywhere by definition. All other sizes are defined relative to this. –  MSalters Sep 10 '13 at 12:22
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Well, there is the obvious static_assert(sizeof(float) * CHAR_BIT == 32, "require 32 bits floats" which makes the 32 obvious and the code portable. –  MSalters Sep 10 '13 at 14:26

Most common implementations of C and C++ will use 32 bit float types. If you really need to catch any platforms where that won't be the case you can use the following to throw an error early in the program:

#include <limits.h>
if (sizeof(float) * CHAR_BIT != 32)
    // error code here

Unfortunately I don't know of a way to detect it at compile time, my earlier answer was flawed.

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As far as I know, sizeof() cannot be used in a preprocessor directive. –  Martin R Sep 9 '13 at 19:23
    
@MartinR why wouldn't it? it's compile-time anyway :p –  user9000 Sep 9 '13 at 19:28
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@user9000: Because the preprocessor runs before the source code has even been parsed; the sizeof keyword is just an ordinary identifier with no special significance. –  Keith Thompson Sep 9 '13 at 19:30
    
My clang compiler complains: "error: token is not a valid binary operator in a preprocessor subexpression". –  Martin R Sep 9 '13 at 19:32
    
@MartinR I'm sure you're right. I'll update or delete this answer. –  Mark Ransom Sep 9 '13 at 19:32

On a platfrom that supports IEEE-754 float it's going to be 32 bit. On platforms that don't, different width will probably be the least of your problems. Bottom line - use float and don't worry.

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Knowing that the sizeof(float) is 32 bits may be sufficient, in general, but insufficient in all cases.

IEEE 758 defines the well known 32-bit binary32 which is commonly implemented. But IEEE 758 also defines a 32-bit decimal32, which is primarily use for storage and not computation. There also exists other non-IEEE 758 32-bit floating point implementations, though certainly not as common.

Even if it is known that float is 32-bit IEEE 758-2008 binary32, the degree which a given environment adheres to its strict definitions (Nan, subnormals, rounding modes) may vary. This I suspect is the greatest source of subtle variation of 32-float implementations.

Thus the goal of knowing precisely the floating point model used, likely to gain insure consistency across platforms, may be very challenging to detect at compile time.

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