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We all know (right?!) that one should not compare floating-point values by testing for equality (operator==).

But what if I actually want to determine whether two floats a and b are binary equal? If they're not allowed to be NaN (or other "special values"), is this "safe"? Can I rely on operator== to function in this way?

share|improve this question
What is your proposed use of this binary compare of floats? In other words, why do you want to do this? It's likely that there's a better way to accomplish your actual goal. – Michael Kohne Nov 8 '11 at 1:21
@Michael: My goal is to read the answers to this question, and in doing so expand my knowledge and understanding of all the tools of our profession. – PreferenceBean Nov 8 '11 at 1:22
@MichaelKohne Besides the OPs mentioned goal (which is a valid and often ignored one), there are many situations where a binary compare would be sufficient. You don't always need some fancy epsilon comparison, when you just want to check for a specific exact value and don't (or even shouldn't) care about approximately similar values due to rounding (therefore I also don't like the first sentence of the question too much). – Christian Rau Nov 8 '11 at 1:36
@Christian: I guess I generalised a little. – PreferenceBean Nov 8 '11 at 1:36
Note that although there are many cases where using == with floats is not a good idea, there are also cases where it's perfectly reasonable; for instance, if you do f = 0;, a later test like if (f == 0) does exactly what it looks like; there's no imprecision or uncertainty. So I think one should take the oft-heard maxim "never compare floats with ==" with a grain of salt... (and not repeat it blindly) – snogglethorpe Nov 8 '11 at 8:20
up vote 19 down vote accepted

(Assuming IEEE-754 representations) almost, but not quite. If you can rule out NaNs, you still need to deal with the fact that +0.0 and -0.0 have different binary encodings, but compare equal (because both are exactly zero).

Of course, C++ doesn't require IEEE-754. So strictly speaking, all bets are off.

If you want to check for (in)equality of encoding, just use memcmp(&a, &b, sizeof a).

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Well, that was easy... ;) – PreferenceBean Nov 8 '11 at 1:51
This fails to consider extended precision. See my answer. – edA-qa mort-ora-y Nov 8 '11 at 7:42
@edA-qamort-ora-y: that would be addressed by using memcmp as I suggested. – Stephen Canon Nov 8 '11 at 10:11
Does memcmp force a float store? Is it guaranteed that the optimizer doesn't end up seeing the comparison of two values in registers and simply compare those values? I would hope, that given it has a size argument, the answer is yes, but I wouldn't write a critical piece of software without testing that assumption. Perhaps it compares something unrounded. – edA-qa mort-ora-y Nov 8 '11 at 13:06
@edA-qamort-ora-y: Yes, the "as-if" rule in the standard forces the behavior to be indistinguishable from what would occur if both values were stored, because a value needs to be stored in order to pass its address to a function. (They need not actually be stored; they could, for instance, be rounded to their actual precision and then copied into general-purpose registers and compared there as integer encodings). – Stephen Canon Nov 8 '11 at 13:18

The accepted answer ignores a very important aspect: extended precision floating point. The CPU may be doing calculations with a bit-size that exceeds your storage size. This will particularly be true if you use float but can also be true of double and other floating point types.

To show the problem, the following assert may actually fail depending on how the compilation was done and how the chip behaves.

  void function( float a )
     float b = a / 0.12345;
     assert( b == (a/0.12345) );

Now, in this reduced example it will likely always pass, but there are many cases where it will not. Simply look at GCC Bug 323 and look at how many defects are marked as duplicates. This extended precision causes problems for many people, and it may also cause problems for you.

If you need a guarantee what you'll need to do is make a comparison function that takes two float parameters and guarantee that the function is never inlined (stored floats are not subject to extended precision). That is, you must ensure those floats are actually stored. There is also a GCC option called "store-float" I believe which forces storage, perhaps it can be used here on your individual function.

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Does this really answer the question? If a and b don't even have the same amount of bits (due to extended floating point precision), then the question whether they're binary identical is a bit meaningless. – MSalters Nov 8 '11 at 8:51
The option you refer to is -ffloat-store. – Stephen Canon Nov 8 '11 at 11:14
@MSalters, the question asks can he rely on operator==, so my answer would be a No. – edA-qa mort-ora-y Nov 8 '11 at 12:56
@edA-qamort-ora-y No, the question asks "can we rely on operator== to function in this way`?, where "this way" is binary equality. So MSalters has a point, though I'm not sure if this really invalidates your answer. – Christian Rau Nov 8 '11 at 13:47
@ChristianRau, I just shortened in my comment, but I understood he meant binary equality. MSalters is correct that the notion of binary equality doesn't make sense, thus my answer implies that using == this way is wrong. That is, it won't work. – edA-qa mort-ora-y Nov 8 '11 at 13:52

To make sure a floating point value is not NaN, you can compare it with itself:

double foo;
// do something with foo
if (foo != foo) {
    std::cout << "Halp! Foo is NaN!";

I am pretty sure this is guaranteed by the IEEE-754 standard.

share|improve this answer
Yes, I know how to test for NaN. That wasn't the question, though. – PreferenceBean Nov 8 '11 at 9:45
You can still not compare a float to NaN with operator==, because comparisons with NaN will always return false. And you specifically mentioned NaN in your question. Hence, the answer to your question is simply "no". – arne Nov 8 '11 at 10:01
What? I think you misunderstood my question. "And you specifically mentioned NaN in your question" yes, by way of excluding it from the problem set entirely. That's all. As an equivalent example, just because I put the word "right" in the text doesn't magically mean that a valid answer is an essay extolling the virtues of right-hand-sided driving over left-hand-sided driving. – PreferenceBean Nov 8 '11 at 10:02
Oh, you're right. I misunderstood your question completely. Apologies. – arne Nov 8 '11 at 10:10
No problem; it happens :P – PreferenceBean Nov 8 '11 at 10:35

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