float bits and strict aliasing

I am trying to extract the bits from a float without invoking undefined behavior. Here is my first attempt:

``````unsigned foo(float x)
{
unsigned* u = (unsigned*)&x;
return *u;
}
``````

As I understand it, this is not guaranteed to work due to strict aliasing rules, right? Does it work if a take an intermediate step with a character pointer?

``````unsigned bar(float x)
{
char* c = (char*)&x;
unsigned* u = (unsigned*)c;
return *u;
}
``````

Or do I have to extract the individual bytes myself?

``````unsigned baz(float x)
{
unsigned char* c = (unsigned char*)&x;
return c[0] | c[1] << 8 | c[2] << 16 | c[3] << 24;
}
``````

Of course this has the disadvantage of depending on endianness, but I could live with that.

The union hack is definitely undefined behavior, right?

``````unsigned uni(float x)
{
union { float f; unsigned u; };
f = x;
return u;
}
``````

Just for completeness, here is a reference version of `foo`. Also undefined behavior, right?

``````unsigned ref(float x)
{
return (unsigned&)x;
}
``````

So, is it possible to extract the bits from a float (assuming both are 32 bits wide, of course)?

EDIT: And here is the `memcpy` version as proposed by Goz. Since many compilers do not support `static_assert` yet, I have replaced `static_assert` with some template metaprogramming:

``````template <bool, typename T>
struct requirement;

template <typename T>
struct requirement<true, T>
{
typedef T type;
};

unsigned bits(float x)
{
requirement<sizeof(unsigned)==sizeof(float), unsigned>::type u;
memcpy(&u, &x, sizeof u);
return u;
}
``````
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I don't really see a problem with the very first approach - you don't even have two pointers pointing to the same object. You should be fine, although you may want a compile-time assert that sizeof(float)==sizeof(unsigned). I also don't see a problem with the union hack (although I would again verify the size). But I'm sure there are some obscure rules that I'm not aware of. Let's sit back and wait for people to prove me wrong! –  EboMike Dec 1 '10 at 19:45
@Ebomike: The first method falls foul of the strict aliasing rules. Have a read of this: cellperformance.beyond3d.com/articles/2006/06/… –  Goz Dec 1 '10 at 19:47
Thanks, I knew someone would prove me wrong :) –  EboMike Dec 1 '10 at 19:48
@Johannes: How is undefined behavior the safest bet? :) Writing to one union member and then reading from another is undefined. –  FredOverflow Feb 8 '11 at 16:32
@FredOverflow well, even if it's UB, I don't think the compiler will go out of its way and sue you for doing it. Anyway, see below for a version that doesn't have the problem. GCC's aggressive optimizations are documented (in its manpage) to allow you to do the union cast. Allowing a necessary evil (it's sometimes not desirable to use library functions or relying on compiler intrinsics to optimize particular uses of memcpy). –  Johannes Schaub - litb Feb 8 '11 at 16:42

About the only way to truly avoid any issues is to memcpy.

``````unsigned int FloatToInt( float f )
{
static_assert( sizeof( float ) == sizeof( unsigned int ), "Sizes must match" );
unsigned int ret;
memcpy( &ret, &f, sizeof( float ) );
return ret;
}
``````

Because you are memcpying a fixed amount the compiler will optimise it out.

That said the union method is VERY widely supported.

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I would go so far as to say I'd actually file a bug on any compiler that didn't support the union method. Yes, it's technically not part of the standard, but it is so widely used throughout embedded programming that a compiler which doesn't support it isn't very useful. –  Crashworks Dec 1 '10 at 21:28
@FredOverflow ... typo ;) Fixed. –  Goz Dec 1 '10 at 21:30
@Crashworks: You'd be fine reporting a bug ... it doesn't mean the compiler writer has to give a monkeys though ;) Their compiler could still be perfectly compliant. –  Goz Dec 1 '10 at 21:33
@Crashworks, hehehe. Personally though, I use the memcpy trick. It is VERY obvious exactly what you are doing to others :) –  Goz Dec 1 '10 at 21:37
@Goz: According to POSIX (pubs.opengroup.org/onlinepubs/9699919799/functions/memcpy.html) and ISO C standards, it's void *. How the data is interpreted internally is left to the implementation. gcc translates memcpys into loops that transfer one basic machine unit per go, then the remainder using shorter loads/stores, for example. –  onitake Jan 8 '12 at 17:11

The union hack is definitely undefined behavior, right?

Yes and no. According to the standard, it is definitely undefined behavior. But it is such a commonly used trick that GCC and MSVC and as far as I know, every other popular compiler, explicitly guarantees that it is safe and will work as expected.

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Out of interest - which part of it is undefined behavior? (other than you're misinterpreting a float as an integer) –  EboMike Dec 1 '10 at 21:36
just that it's not allowed. Only one member of a union is "active" at a time. If you write to a member of a struct, then you are only allowed to read from that same member. The results of reading any other member is undefined. –  jalf Dec 1 '10 at 22:17
@EboMike "other than" .. that's exactly what is UB. It's an aliasing violation to read from a member that is not aliasing compatible with the active member of the union. The following is fine for example: `union A { int a; unsigned char b; }; A x = { 10 }; return x.b;`, because you are allowed to access an `int` by an lvalue of type `unsigned char`. –  Johannes Schaub - litb Feb 8 '11 at 16:52
The spec currently has no notion to forbid `union A { int a; float b; }; A x = { 0 }; float *b = &x.b; *b = 0.f; return x.b;`. The active member in this case is switch to `float` by writing through the float pointer, but when that write happens in a separate function, this becomes problematic (the compiler basically cannot apply the aliasing rule as it was intended by the Standard). See open-std.org/jtc1/sc22/wg21/docs/cwg_active.html#636 –  Johannes Schaub - litb Feb 8 '11 at 16:56

The following does not violate the aliasing rule, because it has no use of lvalues accessing different types anywhere

``````template<typename B, typename A>
B noalias_cast(A a) {
union N {
A a;
B b;
N(A a):a(a) { }
};
return N(a).b;
}

unsigned bar(float x) {
return noalias_cast<unsigned>(x);
}
``````
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This proves the standard is broken. It is ridiculous that temporary.member is not a lvalue. I suppose the std guys got confused by the terms "rvalue" (as in value) and "rvalue" (a temporary). lol –  curiousguy Oct 2 '11 at 18:12
@Johannes: Is this reasoning still true? Accessing `b` is accessing a non-active member of a union. –  GManNickG Sep 7 '13 at 1:53

If you really want to be agnostic about the size of the float type and just return the raw bits, do something like this:

``````void float_to_bytes(char *buffer, float f) {
union {
float x;
char b[sizeof(float)];
};

x = f;
memcpy(buffer, b, sizeof(float));
}
``````

Then call it like so:

``````float a = 12345.6789;
char buffer[sizeof(float)];

float_to_bytes(buffer, a);
``````

This technique will, of course, produce output specific to your machine's byte ordering.

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