# Why do we have 0.0 and -0.0 in Ruby? [duplicate]

In ruby why can I assign a negative sign to 0.0 float, is this feature useful in any way? Could someone explain this one to me?

``````-0.0
#=> -0.0

-0.0 * -1
#=> 0.0
``````

## marked as duplicate by ruohola, Cole Johnson, jhpratt, Toby Speight, ComFreekNov 6 at 14:23

• Comments are not for extended discussion; this conversation has been moved to chat. – Samuel Liew Nov 5 at 20:43
• @ShadowRanger I'm fairly certain there's not an option to only move certain comments. – jhpratt Nov 6 at 5:46

It's because all IEEE 754 floating point numbers have a sign bit to indicate whether a number is positive or negative.

Here are the binary representations of `2.5` and `-2.5`:

``````[2.5].pack('f').unpack1('b*')
#=> "00000000000000000000010000000010"

[-2.5].pack('f').unpack1('b*')
#=> "00000000000000000000010000000011"
``````

The last bit is the sign bit, note that all the other bits are identical.

On the other hand there's zero with sign bit set to `0`:

``````['00000000000000000000000000000000'].pack('b*').unpack1('f')
#=> 0.0
``````

and zero with sign bit set to `1`:

``````['00000000000000000000000000000001'].pack('b*').unpack1('f')
#=> -0.0
``````

Although `0.0` and `-0.0` are numerically equal, they are not identical on the object level:

``````(0.0).eql?(-0.0)   #=> true
(0.0).equal?(-0.0) #=> false
``````

and there are some special properties when working with negative zero, e.g.:

``````1 / 0.0    #=> Infinity
1 / -0.0   #=> -Infinity
``````

Assigning `-` explicitly isn't the only way to get `-0.0`. You may also get it as the result of a basic arithmetic operation:

``````-1.0 * 0 #=> -0.0
``````
• @CarySwoveland What's surprising about `(-0.0)*(-0.0) => +0.0`? It simply follows the sign rule exactly as it does in the `1/-0.0 = -inf` etc cases. The one thing that is weird is `sqrt(-0.0) = -0.0` since most people would expect only values `>= 0` for the square root... – Bakuriu Nov 4 at 21:02
• @Bakuriu They would technically be correct since `-0.0 >= 0.0` in IEEE 754 – flornquake Nov 4 at 21:04
• @Bakuriu, "Note" is old-English for "not". (Confession: I meant to write "Not suprisingly,". Excuse the typo.) – Cary Swoveland Nov 4 at 21:06
• @Bakuriu wouldn't the `sqrt(-0.0)=>0+0i` be the correct result, a complex zero? – Crowley Nov 4 at 21:13
• @Crowley IEEE-754 specifically says that "squareRoot (−0) shall be −0." – LegionMammal978 Nov 4 at 23:30

Mathematical operations have real-number results, but we map those real results onto the nearest floating-point number, which is called "rounding". For every floating-point number, there is a range of real numbers that will round to that float, and sometimes it's useful to think of the float as being identified with that range of real numbers.

Since there is a finite supply of floating-point numbers, there must be a smallest positive float, and its opposite, the smallest (magnitude) negative float. But what happens to real number results even smaller than those? Well, they must "round to zero". But "a really small number greater than zero" and "a really small number less than zero" are pretty different things with pretty different mathematical behavior, so why should we lose the distinction between them, just because we're rounding? We don't have to.

So, the float 0 doesn't just include the real number 0, it also includes too-small-to-represent positive quantities. And the float -0 includes too-small-to-represent negative quantities. When you use them in arithmetic, they follow rules like "negative times positive equals negative; negative times negative equals positive". Even though we've forgotten almost everything about these numbers in the rounding process, we still haven't forgotten their sign.

• Well said, Calvin, but I have a quibble: it grates to read about "small" negative values close to zero, notwithstanding "(magnitude)". I think it would be preferable say, "...there must be a smallest positive float, and its opposite, a largest negative float. But what happens to real number results even closer to zero?" and similar small adjustments in wording in the second and third paragraphs. – Cary Swoveland Nov 4 at 21:22
• @CarySwoveland those will just cause an annoyance of equal magnitude (but opposite sign) to someone else :) – hobbs Nov 4 at 21:56
• @CarySwoveland that would be the greatest negative float, not the largest. At least in my mathematical education. – mephistolotl Nov 6 at 5:40
• @mephistolotl yeah, "least" and "greatest" point towards negative and positive infinity; "smallest" and "largest" point towards and away from zero. At least in my mind, but I think I'm being at least somewhat conventional here. – hobbs Nov 6 at 5:49
• @mephistolotl, my comment was motivated by mathematics. Here, at math.stackexchange.com, mathematicians address the question, "What is the largest negative number?". They conclude (what seems obvious) that one does not exist, because for every negative real number `a` there is another negative real number `b` such that `a < b < 0`. They refer to the limit zero, not negative infinity. – Cary Swoveland Nov 6 at 6:21

It's not a feature of Ruby, but the part of floating point number specification. See this answer. Negative zero is equal positive zero:

``````-0.0 == 0.0
# => true

``````

An example of when you might need -0.0 is when working with a function, such as tangent, secant or cosecant, that has vertical poles which need to go in the right direction. You might end up dividing to get negative infinity, and you would not want to graph that as a vertical line shooting up to positive infinity. Or you might need the correct sign of a function asymptotically approaching 0 from below, like if you’ve got exponential decay of a negative number and check that it remains negative.