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Is it legal to cast this way?

void probability(void **value)
    double v = 0.1234;
    *value = (void *) *(uint64_t *) &v;

I know, this is a bad thing, but I'm 100% sure that sizeof(double) = sizeof(void *) = sizeof(uint64_t) on target machine.

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3 Answers 3

up vote 5 down vote accepted

It's undefined behavior, because your code violates the strict aliasing rules.

The compiler is permitted to assume that pointers to most unrelated types don't point to the same memory. You create a uint64_t * (the result of the cast) that points to memory which is "actually" a double, and you expect reading from that pointer to give you a value that has something to do with the double.

The purpose of the strict aliasing rules is to allow the compiler to make various optimizations that will break this code - the most likely is that the compiler can "deduce" that v is unused and never initialize it, since it's never accessed via any valid name or pointer, only invalid aliases.

I haven't checked with this specific code, but GCC does in fact rely on strict aliasing at high optimization, and will break this sort of code.

The way to fix strict aliasing problems is with memcpy:

assert(sizeof(*value) == sizeof(v));
memcpy(value, &v, sizeof(*value));

Once this is done, or if you're using a compiler that doesn't rely on strict aliasing, or for which that reliance can be avoided (--no-strict-aliasing), then you still have a problem. The standard doesn't actually guarantee that every numeric value of the same size as an address, can actually be represented in void*. For example, it's legal for the implementation to (in effect) have padding bits in pointers, and to crash if you try to create a pointer value with the wrong values in the padding bits. In practice that isn't going to happen on any hardware that you'd call "normal", but nevertheless the standard doesn't permit your code.

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Is there a "true" way to store double in void pointer? I can not refactor part of the code that use void* as its storage for everything and I can not malloc storage for doubles since it will very inefficient (abot 1M allocations). –  actual Apr 23 '12 at 13:31
@actual: no, there isn't. It is not guaranteed that there are at least as many distinct legal values of void* as there are distinct values of double, even if the sizes make it look as though there should be. –  Steve Jessop Apr 23 '12 at 13:35
Perhaps you could do a single allocation of sizeof(double)*1000000, store the values in that array, and store a double* in the void*. Free the array when you're finished with all of them. This probably takes twice as much memory as doing what you want, but shouldn't be all that much slower. –  Steve Jessop Apr 23 '12 at 13:43
@actual Unless it's been changed between n1570 and the ratification, you can use a union., fn 95: "If the member used to read the contents of a union object is not the same as the member last used to store a value in the object, the appropriate part of the object representation of the value is reinterpreted as an object representation in the new type as described in 6.2.6 (a process sometimes called ‘‘type punning’’). This might be a trap representation." –  Daniel Fischer Apr 23 '12 at 13:59
@Steve Jessop: Yes, maybe I will use some kind of linear allocator. Thank you for an enlightenment. –  actual Apr 23 '12 at 14:04

Strictly speaking, no. The part


is undefined behaviour. The cast of the uint64_t to void* is legal but may be meaningless, such casts are implementation defined (

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Point 7 of section seems to say pointers to different object types (i.e. not functions) can be cast to each other. The behaviour is only undefined if the cast results in an incorrectly aligned pointer. –  JeremyP Apr 23 '12 at 13:43
Yes, I referred to point 5, conversion of integers to pointers. The undefined behaviour comes from the dereferencing, which violates the strict aliasing rules, cf. Steve Jessop's answer. –  Daniel Fischer Apr 23 '12 at 13:53

Undefined behavior. Not matter how sure you are.

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I know this is true in C++ but is it true in C as well? Do you have a reference from the C99 standard? –  Andreas Brinck Apr 23 '12 at 13:25

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