I'm dealing with some Float64 functions that inside its body compute some fractions that can take the value 0.0/0.0. In that case, that value should be interpret as 1.0. Is it possible to do this automatically and avoid coding the pathological cases?

  • why don't you check for this case and do some conditionals for the numerator/denominator? Sep 20, 2019 at 1:37
  • Right now I'm doing that but I thought there would be some package or global option that could do the trick for me. Sep 20, 2019 at 1:38
  • I see. Well, I guess I will have to stay with these 'extra lines' of code. Thanks for your answer. Sep 20, 2019 at 1:42
  • 1
    There are plenty of reasons why one can legitimately want to make a limited definition such that division works this way. It's obviously a poor default, but that's not what's being asked. I don't think commenting just for the sake of "don't do that" is really warranted.
    – Mason
    Sep 20, 2019 at 2:42

1 Answer 1


Yes, it is fairly straightforward to do this in a safe way that doesn't break julia or other people's code.

One way to achieve this is either inside your module or at the REPL, before you ever explicitly use the / function[1], simply write

/(args...) = Base.:(/)(args...)

function /(x::Float64, y::Float64)
    if x == 0.0 && y == 0.0
        Base.:(/)(x, y)

At the repl:

julia> 1 / 2

julia> 10.0 / 0.0

julia> 0.0 / 0.0

What this does is shadows the built in / function and replaces it with your own custom version that falls back on the built-in one. This shadowing is local to only the current module you're in and won't leak outside unless someone explicitly asks for your version.

Another (perhaps preferable) option is to make a new infix division function via unicode operators. Here's an example:

function /̂(x, y) # /̂ is typed /\hat<TAB> at the REPL
    if x == 0 && y == 0
        one(promote_type(typeof(x), typeof(y)))
        x / y

At the REPL:

julia> 0 /̂ 0.0

julia> 1 /̂ 2

julia> 0 / 0

This works because anytime you apply a unicode modifier like \hat or a superscript or whatever to an infix function symbol (like / or * or whatever) you make a new infix operator with the same precedence. This is nice because we get to keep the old / definition around and we have a visual marker on our division operator that something peculiar is happening.


[1]: Functions from Base are only actually pulled into your namespace the first time you use them, so if you have not yet used / in your current scope, you are free to shadow it. Otherwise, you'll have to introduce a new scope via a let block and only have / shadowed there.

  • This is type piracy. Sep 20, 2019 at 5:36
  • 6
    No it isn't. As defined here, / is a brand new function that sometimes calls Base.:(/). As Mason says, it won't "leak" into other modules.
    – tholy
    Sep 20, 2019 at 8:15
  • 2
    Might want to mention that if Base.:(/) has been broaght into scope, then you can't do this globaly, but you can do it with a let block still Sep 20, 2019 at 10:09
  • I said “... before you ever explicitly use the / function, simply write ...” but yeah, I could be more precise.
    – Mason
    Sep 20, 2019 at 13:18
  • Added mention of let blocks and elaborated on when / is brought into the scope.
    – Mason
    Sep 20, 2019 at 16:43

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