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Is it safe to assume that sizeof(double) will always be greater than or equal to sizeof(void*)?

To put this in some context, is the following portable?

int x = 100;
double tmp;

union {
  double dbl;
  void* ptr;
} conv;

conv.ptr = (void*)&x;
tmp = conv.dbl;

conv.dbl = tmp;
printf("%d\n", *((int*)conv.ptr));

It does work on the few machines that I've tested it on, but I can see this going horribly wrong if sizeof(void*) > sizeof(double).

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No, it's not safe to assume that. Why shouldn't a void* be 16 bytes, for example? Nothing forbids that. –  Daniel Fischer Jul 3 '12 at 10:46
@DanielFischer That's what I suspected, but I can't seem to find a relevant reference explicitly stating that. I'm looking for something I can use to beat senseless the author of the above code. –  Shawn Chin Jul 3 '12 at 10:56
I think AS-400 virtual instruction set has 128-bit pointers. –  n.m. Jul 3 '12 at 11:16
@ThomasPadron-McCarthy -- Yes. IBM iSeries -- 16 byte pointers. –  Hot Licks Jul 3 '12 at 11:36
On AS/400 / iSeries the above manipulation would cause the pointer to become "untagged" and invalid. –  Hot Licks Jul 3 '12 at 11:38

2 Answers 2

On current systems yes. double is 64 bits on all current and future systems because they're aligned with IEEE arithmetic's double-precision. It's unlikely but certainly possible that pointers could be larger in the future - probably not for the sake of larger address space, but instead for carrying with them bounding information.

In any case it seems like a really bad idea to rely on any relationship between double and void *...

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The size has nothing to do with it. There will always be some bits stored in there and the size will always be large enough to hold a void*. What will go wrong is that you interpret an almost random bit pattern as a pointer, this can't do much else than crash, but most probably you knew that already. Don't do it.

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All he uses the double for is to move bits around. The actual data starts as int *, and is eventually interpreted as int *. But he's afraid that passing it through double will lose some of the pointer's bits. If sizeof(double)>=sizeof(void *), no loss should happen. –  ugoren Jul 3 '12 at 13:39
Note that simply loading/storing a double may alter its bit pattern. –  Hot Licks Jul 3 '12 at 18:25
@HotLicks: If we're talking about IEEE arithmetic, I don't think that can happen. All double representations are valid (either as normal or denormal numbers, infinities, or NANs). Each non-NAN has a unique representation (so loading and storing it can't change the representation or it would also change the value) and NANs are purposefully preserved (even in arithmetic and transcendental functions, when possible) per IEEE to allow them to carry additional information as the programmer sees fit. –  R.. Jul 4 '12 at 1:44
I'm thinking there's one case -- denormalized zero, maybe it is -- where the bit pattern is allowed to be changed by load/store. And several alterations are possible if even a hint of an actual "operation" is performed on the value. –  Hot Licks Jul 4 '12 at 3:35
Zero is always "denormal"; the only "multiple zero representations" are positive and negative zero, and they are not changed by load/store; they're distinct values but can be changed by some "trivial" operations like adding zero. Note that there are even some operations you can safely perform bijectively on doubles, such as unary minus. –  R.. Jul 5 '12 at 11:08

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