I want to overwrite a function in Julia using its old definition. It seems the way to do this would be to clone the function and overwrite the original using the copy — something like the following. However, it appears deepcopy(f) just returns a reference to f, so this doesn't work.

f(x) = x
f_old = deepcopy(f)
f(x) = 1 + f_old(x)

How can I clone a function?

Background: I'm interesting in writing a macro @override that allows me to override functions pointwise (or maybe even piecewise).

fib(n::Int) = fib(n-1) + fib(n-2)
@override fib(0) = 1
@override fib(1) = 1

This particular example would be slow and could be made more efficient using @memoize. There may be good reasons not to do this, but there may also be situations in which one does not know a function fully when it is defined and overriding is necessary.

  • presuming you meant f(x) = 1 + f_old(x)?
    – kevbonham
    Commented Oct 15, 2019 at 19:18
  • But... why? Essentially you're asking to work around the fix for the (previously) infamous bug #265. There are ways to do this, but they're likely to be fragile.
    – mbauman
    Commented Oct 15, 2019 at 19:24
  • 1
    Added some notes on what motivated this question
    – Luke Burns
    Commented Oct 15, 2019 at 20:11
  • 2
    An IMHO better approach to implement your macro would be to make a @pointwise macro, taking a begin block with a fixed number of function definitions instead, and converting it to one definition. (PatternDispatch.jl seems to do what you propose, but is rather old.) Commented Oct 16, 2019 at 8:16

2 Answers 2


We can do this using IRTools.jl.

(Note, on newer versions of IRTools, you may need to ask for IRTools.Inner.code_ir instead of IRTools.code_ir.)

using IRTools

fib(n::Int) = fib(n-1) + fib(n-2)

const fib_ir  = IRTools.code_ir(fib, Tuple{Int})
const fib_old = IRTools.func(fib_ir)

fib(n::Int) = n < 2 ? 1 : fib_old(fib, n)

julia> fib(10)

What we did there was captured the intermediate representation of the function fib, and then rebuilt it into a new function which we called fib_old. Then we were free to overwrite the definition of fib in terms of fib_old! Notice that since fib_old was defined as recursively calling fib, not fib_old, there's no stack overflow when we call fib(10).

The other thing to notice is that when we called fib_old, we wrote fib_old(fib, n) instead of fib_old(n). This is due to how IRTools.func works.

According to Mike Innes on Slack:

In Julia IR, all functions take a hidden extra argument that represents the function itself The reason for this is that closures are structs with fields, which you need access to in the IR

Here's an implementation of your @override macro with a slightly different syntax:

function _get_type_sig(fdef)
    d = splitdef(fdef)
    types = []
    for arg in d[:args]
        if arg isa Symbol
            push!(types, :Any)
        elseif @capture(arg, x_::T_) 
            push!(types, T)
    if isempty(d[:whereparams])
        :((Tuple{$(types...)} where {$(d[:whereparams]...)}).body)

macro override(cond, fdef)
    d = splitdef(fdef)
    shadowf = gensym()
    sig = _get_type_sig(fdef)
    f = d[:name]
        const $shadowf = IRTools.func(IRTools.code_ir($(d[:name]), $sig))
        function $f($(d[:args]...)) where {$(d[:whereparams]...)}
            if $cond
                $shadowf($f, $(d[:args]...))
    end |> esc

Now one can type

fib(n::Int) = fib(n-1) + fib(n-2)
@override n < 2 fib(n::Int) = 1

julia> fib(10)

The best part is that this is nearly as fast (at runtime, not compile time!) as if we had written the conditions into the original function!

n = 15

fib2(n::Int) = n < 2 ? 1 : fib2(n-1) + fib2(n-2)

julia> @btime fib($(Ref(15))[])
  4.239 μs (0 allocations: 0 bytes)

julia> @btime fib2($(Ref(15))[])
  3.022 μs (0 allocations: 0 bytes)
  • Thanks! I am having trouble if I replace Int64 with Any. Have any ideas on why this might cause a problem?
    – Luke Burns
    Commented Oct 18, 2019 at 6:46
  • Where did you replace Int64 with any? in IRTools.code_ir(fib, Tuple{Int})? If so, the problem is that you never defined a method for fib(::Any), you defined a method for fib(::Int), so there is no IR available to manipulate for fib(::Any).
    – Mason
    Commented Oct 18, 2019 at 17:08

I really don't see why you'd want to do this (there must a better way to get what you want!).

Nonetheless, although not exactly equivalent you can get what you want by using anonymous functions:

julia> f = x->x                    
#3 (generic function with 1 method)

julia> f_old = deepcopy(f)         
#3 (generic function with 1 method)

julia> f = x->1+f_old(x)           
#5 (generic function with 1 method)

julia> f(4)                        
  • More likely is that I want something a little silly :) I'm interested in a macro that allows me to override a function pointwise. Added some details to the question.
    – Luke Burns
    Commented Oct 15, 2019 at 20:13

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