11

IEEE754 supports the negative zero. But this code

a  := -0.0
fmt.Println(a, 1/a)

outputs

0 +Inf

where I would have expected

-0 -Inf

Other languages whose float format is based on IEEE754 let you create negative zero literals

Java :

float a = -0f;
System.out.printf("%f %f", a, 1/a); // outputs "-0,000000 -Infinity"

C# :

var a = -0d;
Console.WriteLine(1/a); // outputs "-Infinity"

Javascript :

​var a = -0;
console.log(a, 1/a);​ // logs "0 -Infinity"

But I couldn't find the equivalent in Go.

How do you write a negative zero literal in go ?

9
  • 2
    Have you tried a := 0.0; a *= -1.0? Commented Dec 10, 2012 at 15:49
  • No, I had only tested a := 0.0 * -1.0. Your code works and I'll use if without better solution. But that's not really what I'd call a literal. Commented Dec 10, 2012 at 15:51
  • Yes, not a literal. I don't know golang, so I just wanted to check this way whether it supports negative zero with ordinary operations. Commented Dec 10, 2012 at 15:55
  • 1
    Have you filed a bug against go yet? Commented Dec 10, 2012 at 17:26
  • @StephenCanon I would have asked golang-nuts before filling. But in fact this isn't needed : there is already a registered issue (see my "answer" below). Commented Dec 10, 2012 at 17:28

3 Answers 3

11

There is a registered issue.

And it happens to give a kind of solution :

a := math.Copysign(0, -1)

It's not so bad as it obviously refers to the standard copysign function defined by IEEE754.

But this means you need to import a package and this still looks much too heavy for the (admittedly minor and rare) need.

2
  • W/o importing "math": play.golang.org/p/iymSJElses (and it gets inlined, I belive)
    – zzzz
    Commented Dec 10, 2012 at 16:24
  • 8
    It's unfortunate that this seems to be the specified language behavior (from the discussion on the issue page), as it clearly contravenes IEEE-754 (5.12.1) "The conversions from supported formats to external character sequences [which includes source-language literals] and back that recover the original floating-point representation, shall recover zeros, infinities, and quiet NaNs, as well as non-zero finite numbers. In particular, signs of zeros and infinities are preserved." Commented Dec 10, 2012 at 17:31
6
package main

import (
        "fmt"
        "math"
)

func main() {
        a := 1. / math.Inf(-1)
        fmt.Println(a, 1/a)
}

(Also here)


Output:

-0 -Inf
9
  • OK. It answers (hence +1). But seriously why not a := -0.0 similarly to other languages ? Is that a bug or a "feature" ? Commented Dec 10, 2012 at 15:52
  • Mathematically -0 and 0 are equal, so I guess Go does the right thing. The signedness of 0 is, AFAIK, only a result of an underflow, not from an unary minus (like -1*0).
    – zzzz
    Commented Dec 10, 2012 at 16:03
  • They're "equal" as -0==0 should give true, but in other languages (I just tested in Javascript and in Java), dividing 1 by -0 or +0 gives -Infinity or +Infinity. And this can be important. Commented Dec 10, 2012 at 16:07
  • 1
    Please don't compare to Javascript. JS is renowned for getting many things wrong in maths.
    – JohnDoe
    Commented Dec 10, 2012 at 16:12
  • 3
    @jnml - it's not quite correct that +0 == -0 because "−0" might denote a small negative number that has been rounded to zero. en.wikipedia.org/wiki/Signed_zero. Note that Go is claimed to handle IEEE-754 correctly and this is one of its requirements.
    – Rick-777
    Commented Dec 11, 2012 at 10:05
0

I just tried out this and it seems to work for me .

package main

import (
    "fmt"
    )

func main() {
    zero := float64(0)
    neg_zero := -zero
    fmt.Println(zero, neg_zero)
}

Though it does not work as expected when I do neg_zer0 := - float64(0)

1
  • That's the equivalent of the first comment I received (from Daniel Fischer). That's not a literal. Commented Dec 20, 2012 at 16:21

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