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Will the following code, with nothing in between the lines, always produce a value of true for the boolean b?

double d = 0.0;
bool b = (d == 0.0);

I'm using g++ version 4.8.1.

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I don't understand the downvote on this. It's perfectly fine to be paranoid about floating-point comparisons if you hang around this site enough. –  Mysticial Dec 3 '13 at 21:45
@Michael: Oddly, in floating-point, == is an operation that always produces an exactly correct result given its inputs, unlike + or *. –  Eric Postpischil Dec 3 '13 at 21:52
@AndonM.Coleman: Betting that a calculation whose exactly mathematical result is zero has a computed result is zero is not the only bet one can make. You said all bets are off. My point is that is not the case. A bet that the computed value is the value specified by IEEE 754 is on, not off. You can use the rules of IEEE 754 to derive formal statements about the calculated values, and you can use those rules to design software to produce desired results. –  Eric Postpischil Dec 3 '13 at 21:57
@Michael: For ==, the definition of correct is that the result is true if and only if the two input values are equal. Your example of .3 + .2 == .5 is not a counter-example, because the error in this case occurs in the + operation, not in the == operation, as I stated. –  Eric Postpischil Dec 3 '13 at 22:00
@AndonM.Coleman: As I said, bindings to IEEE 754 are lax. However, not everybody writes for portability; there are hugely important applications that are not portable. Knowledge about writing good floating-point should be promoted, because it is useful. Furthermore, we should advocate for compilers to adhere to IEEE 754 (at least when requested by an option), so that we get the benefits of IEEE 754. –  Eric Postpischil Dec 3 '13 at 22:11

1 Answer 1

up vote 7 down vote accepted

Assuming IEEE-754 (and probably most floating point representations), this is correct as 0.0 is representable exactly in all IEEE-754 formats.

Now if we take another literal that is not representable exactly in IEEE-754 binary formats, like 0.1:

double d = 0.1;
bool b = (d == 0.1);

This may result in false value in b object!

The implementation has the right to use for example a double precision for d and a greater precision for the comparison with the literal.

(C99, "Except for assignment and cast (which remove all extra range and precision), the values of operations with floating operands and values subject to the usual arithmetic conversions and of floating constants are evaluated to a format whose range and precision may be greater than required by the type."

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