# Why 0.1 + 0.2 == 0.3 in D?

``````assert(0.1 + 0.2 != 0.3); // shall be true
``````

is my favorite check that a language uses native floating point arithmetic.

## C++

``````#include <cstdio>

int main()
{
printf("%d\n", (0.1 + 0.2 != 0.3));
return 0;
}
``````

Output:

``````1
``````

http://ideone.com/ErBMd

## Python

``````print(0.1 + 0.2 != 0.3)
``````

Output:

``````True
``````

http://ideone.com/TuKsd

## Other examples

Why is this not true for D? As understand D uses native floating point numbers. Is this a bug? Do they use some specific number representation? Something else? Pretty confusing.

## D

``````import std.stdio;

void main()
{
writeln(0.1 + 0.2 != 0.3);
}
``````

Output:

``````false
``````

http://ideone.com/mX6zF

## UPDATE

Thanks to LukeH. This is an effect of Floating Point Constant Folding described there.

Code:

``````import std.stdio;

void main()
{
writeln(0.1 + 0.2 != 0.3); // constant folding is done in real precision

auto a = 0.1;
auto b = 0.2;
writeln(a + b != 0.3);     // standard calculation in double precision
}
``````

Output:

``````false
true
``````

http://ideone.com/z6ZLk

-
Please put relevant code examples directly in the question and not at external links. Both to make sure that the full information in the question survives and to make it easier to read. –  Anders Abel Jul 29 '11 at 14:10
I was going to reflexively click the close button until I noticed you wrote `==` instead of `!=`. –  dan04 Jul 29 '11 at 14:10
Regarding your update: This is not a "problem" with the compiler optimiser. It's legal floating-point behaviour, and the possibility of this happening is explained in the "Floating Point Constant Folding" section of the D documentation. –  LukeH Jul 29 '11 at 14:34
Please look at what happens when you use the `real` type instead of the `double` type: ideone.com/NAXkM –  Jean Hominal Jul 29 '11 at 14:34
@Jean Hominal: Case with real type is interesting. Thinking... –  Stas Jul 29 '11 at 14:44

It's probably being optimized to (0.3 != 0.3). Which is obviously false. Check optimization settings, make sure they're switched off, and try again.

-
Wait, why would the compiler do decimal floating point calculation and the runtime do binary floating point calculation? –  Jean Hominal Jul 29 '11 at 14:14
This is the correct answer. See the "Floating Point Constant Folding" section of d-programming-language.org/float.html. –  LukeH Jul 29 '11 at 14:17
Definately something with optimization. Tried the same with variables and got true: ideone.com/zO4OD –  Max Jul 29 '11 at 14:19
Heh, I just re-read the question; I thought by 'D', you meant the fourth example in that list; I was trying to repro it in C#! –  Flynn1179 Jul 29 '11 at 14:21
I just tried the same with real variables and got true. ideone.com/sIFgk –  Jean Hominal Jul 29 '11 at 14:30

You seem to be assuming, OP, that the floating-point inaccuracy in your code is deterministic and predictably wrong (in a way, your approach is the polar opposite of that of people who don't understand floating point yet).

Although (as Ben points out) floating-point inaccuracy is deterministic, from the point of view of your code, if you are not being very deliberate about what's happening to your values at every step, this will not be the case. Any number of factors could lead to `0.1 + 0.2 == 0.3` succeeding, compile-time optimisation being one, tweaked values for those literals being another.

Rely here neither on success nor on failure; do not rely on floating-point equality either way.

-
That's a very good point - you can't rely on floating point arithmetic to give you the wrong answer! :-) –  Steve Morgan Jul 29 '11 at 14:30
I would +2 this if I could! –  Daniel Standage Jul 29 '11 at 14:33
@Steve: Exactly! –  Lightness Races in Orbit Jul 29 '11 at 14:34
Floating-point inaccuracy DOES yield deterministic, predictable answers... as long as you use sequence points and assignments to variables to force rounding at every step. And, beware of compiler options which will eliminate rounding, for example with MSVC `/fp:precise` should be used. –  Ben Voigt Jul 29 '11 at 19:55
This is a terrible explanation. IEEE 754 unambiguously define basic operations including `+`. The problem here is one of programming language, not of floating-point. Also, floating-point equality is perfectly defined. You shouldn't use it when it's not what you want, that's all. –  Pascal Cuoq Jul 30 '11 at 18:06