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What is the correct way to store a function in a struct constructor? And retrieve it? And change its parameters?

I wrote some code back in version 0.4 to 0.5, which unsurprisingly no longer works. In words: I have a struct-cum-method named Model in which I define parameters and functional forms. And a similarly structured Solution in which I solve instances of the model. My purpose is to make multiple simulations of the model for different sets of parameters and functional forms. The code below is part of a module inside a package. I don't have a good handle on how to deal with the function type in Julia 1.6 (something like the code below used to work).

# Non-Parametric version of struct + outer method constructor
# Model parameters and functions
struct Model
    f::Function
    p::Float64
    n::Int64
end
function Model(; 
    f::Function = x -> x + p,
    p::Float64 = 2.0,
    n::Int64 = 4
    )
    Model(f, p, n)
end

This is the output of Model():

julia> m = Model()
Model(var"#2#4"(), 2.0, 4)

julia> Model(p = 1.0)
Model(var"#3#5"(), 1.0, 4)

julia> m.f
#2 (generic function with 1 method)

julia> m.p
2.0

julia> m.n
4

julia> Model(f = x -> x - p)
Model(var"#15#16"(), 2.0, 4)


julia> m.f(1.0)
ERROR: UndefVarError: p not defined
Stacktrace:
 [1] (::var"#2#4")(x::Float64)
   @ Main ./REPL[2]:2
 [2] top-level scope
   @ REPL[4]:1

I'd be grateful for pointers on where the code goes wrong and how to fix it. If at all recommended, I'd like a parametric struct.

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2
  • I recommend against using the Function type, really ever. I would instead just leave your type parameter Objective unconstrained. Any type can support function calls, not just Function. e.g. Float64 is a function.
    – Gus
    Apr 16, 2021 at 16:08
  • Hi Gus. Feel free to post an answer. I'm starting to think that the function should not be inside the struct, as you say. How would you write this minimal example? Thanks.
    – PatrickT
    Apr 17, 2021 at 9:56

1 Answer 1

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You need to use Base.@kwdef or an @with_kw equivalent from the Parameters package (I prefer the latter since it provides nicer formatting for the console)

Base.@kwdef struct Model
    p::Float64 = 2.0
    n::Int64 = 4
    f::Function = x -> x + p
end

This now can be used such as:

julia> Model(p=7).f(11)
18

Regarding solution you should separate the actual solution structure from the constructor. Hence you will have a function solve(m::Model) (or solve! if m is mutated in the process) that should yields a Solution object.

For creating the Solution object use the same pattern as above.

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5
  • Thanks Przemyslaw. I wonder: 1. So Base.@kwdef is not exported, does it mean there's another, preferred way to do this? Or should I prefer the @with_kw solution? 2. With this approach, you did not break down the construction into the usual two steps struct and method, but I could still have two steps, right?
    – PatrickT
    Apr 16, 2021 at 13:44
  • Also, Model(p=7).f(11) works, but Model(f=x->x+2*p).f(11) does not work. Is there a way to redefine f?
    – PatrickT
    Apr 16, 2021 at 14:13
  • 1. I use @with_kw in the future Base.@kwdef will probably get exported. 2. Yes you can build as many constructors as you want. 3. Julia is not object oriented language so there are no elegant ways to reference this/self object.
    – Przemyslaw Szufel
    Apr 16, 2021 at 14:20
  • There are possible workarounds but they will always result in a very ugly API. Hence perhaps the best thing would be to have f(m::Model) defined outside of the model. One possible approach: github.com/ipod825/OOPMacro.jl
    – Przemyslaw Szufel
    Apr 16, 2021 at 15:20
  • I have just realized that the order inside struct Model matters! You have placed the function after the parameter, if you place it before (as I had it in my question), it won't work!
    – PatrickT
    Apr 17, 2021 at 9:54

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