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Can you count on a semi-modern processor being able to do floating-point calculations with a piece of data the same size as a pointer? Is there a defined type (possibly in a platform-specific header file) for such a type? I'm after the effect of intptr_t but for floats.

Edit: I'm not referring to C's float type, but to floating-point numbers in general.

Edit: Do I need to just have a script run, testing what the sizes of float, double, and void * are for the compiler being used, and generate an appropriate header file to typedef a type that other code uses?

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It would be interesting to know what are you trying to achieve. It may be something very clever or something rather silly, but it is certainly not something common. – Suma Jun 28 '11 at 19:50
Explain what you're trying to achieve. Most 64-bit machines do not have a floating point type large enough to store any possible pointer. – R.. Jun 28 '11 at 20:11
@Nemo: oh, sorry, didn't realise it was specifically the "most" that you objected to. Yes, x87-derived architectures including x86-64 do still have the 80 bit floating point type, although lots of people, possibly including your compiler-writers, don't want you to use it. – Steve Jessop Jun 28 '11 at 20:59
@grok12: it's still not clear what the requirement really is. R.. says, "a floating point type large enough to store any possible pointer", which seems to me a reasonable interpretation of "intptr_t but for floats", and that the questioner has incorrectly assumed that equal sizes are sufficient to provide this property. Given that we don't know what arithmetic is intended, I don't think we can confidently say that a 64 bit floating point type meets the requirements. It's possible that the requirements are very minimal, and hence that it would, subject to not trapping on signalling NaN, etc. – Steve Jessop Jun 29 '11 at 0:13
@Steve Jessop: It would be nice if OP would unveil his mysterious plan. – grok12 Jun 29 '11 at 0:48
up vote 4 down vote accepted

The closest you will get is:

union floatptr_t {
    float f;
    void *p;

On the down side, this is not exactly what you asked for. On the bright side, it is 100% standard...


Yes, you could use sizeof to compare your pointer size to float, double, and long double, and pick one. But as @R. points out, many pointer values will map to NaN, so you will not be able to do anything with those floating point values other than cast them back to a pointer... And even that is not guaranteed to work (although it probably will in practice).

But if you cannot do anything with the floating point value except cast it back to a pointer, then you are better off using a union, since that will be just as space-efficient and will actually work portably.

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almost, but sizeof float is 4, and sizeof void * is either 4 or 8 depending on the arch. So I think instead of float you'd want to use double, and on 32-bit systems the top 4 bytes should sign-extend to all 0s. – Bobby Powers Jun 28 '11 at 19:50
With C++ one could use a template to select the corresponding type, but the solution would still be a kind of hacky (no such type is guaranteed to exist) and definitely strange (floating point calculations are in its nature inaccurate, using rounding - how could this be used for pointers is hard to imagine). – Suma Jun 28 '11 at 19:52
@Bobby, he said "float"... And on a 32-bit platform void * is likely the same size. The point is that it does not matter; if you need a data type that can hold either a pointer or a float, the standard way is to create a union. Whether double makes more sense depends on what he is trying to achieve, which the question does not make clear – Nemo Jun 28 '11 at 19:53
@Nemo: well, he started by saying 'floating-point calculations', and these days almost all desktops are 64-bit systems. But, I was wrong anyway - section of the C99 standard say that the padding in unions of different-length members take undefined values when smaller members are assigned to, so that makes it a bit more complicated. – Bobby Powers Jun 28 '11 at 20:03
@R: I am assuming he is looking for a space-efficient way to hold a value that might be either a pointer or a floating-point number. – Nemo Jun 28 '11 at 20:51

It's certainly very common, since "semi-modern" processors pretty much all have CHAR_BIT 8 and object pointer size either 4 or 8, and pretty much all support IEEE float (32 bits = 4 bytes) and double (64 bits = 8 bytes). So there will normally be a type of the same size. No doubt there are some "weird" architectures out there

But as R.. points out in a comment, that doesn't necessarily mean that all the values of the pointer type can be represented by the floating type, because not all bit patterns are valid values (and some of the ones that are valid are NaNs, and IIRC when you assign a NaN the result is certainly a NaN, but isn't certainly the same NaN). So this type does not get the effect of intptr_t.

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Well, assuming all you are trying to do is cast them back and forth (and not do arithmetic), the "NaN problem" should not matter in practice. – Nemo Jun 28 '11 at 20:45
@Nemo: I've tried to explain why I think it still is a problem, although I may be incorrect about the behaviour of NaNs. – Steve Jessop Jun 28 '11 at 20:47
I suspect in practice that the bit patterns are preserved if all you do is assignment. But it is obviously not guaranteed... – Nemo Jun 28 '11 at 20:56
The answer seems correct, but if this is what the question was about, I would be interested to learn what is this casting back and forth assumed to achieve? – Suma Jun 28 '11 at 20:57
@Suma: sure, I said I can "barely" figure out the purpose of intptr_t, not that I can't figure it out. I'm not seriously suggesting that it's useless, just that it's already so niche that I'm stumped for a serious use for a floating-point equivalent. Unless maybe the questioner is doing a lot of pointer arithmetic, and hoping to benefit from SIMD. In which case, no chance. – Steve Jessop Jun 28 '11 at 21:30

A float (a.k.a. single precision) is 4 bytes so... yes, maybe.

Note that not all 4 byte values are valid floats, some are NaN, not a number.

The tone of your question makes me think you've heard something about atomic operations on entities the size of the processor bus. If that's true then DON'T do it, use explicit atomic operations. They make for more readable code and less bugs.

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