3

how can is solve this problem?

mutable struct Parent
    name::String
    children::Vector{Child}

    function Parent(name)
        return new(name)

    end

end

mutable struct Child
    name::String
    parent::Parent

    function Child(name)
        return new(name)

    end

end

parent = Parent("father")
child = Child("son")

Produces an error

LoadError: UndefVarError: Child not defined

Is there some way to handle this case?

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2
  • Mutually recursive types are still an [open issue] in the language. Commented Jun 3, 2019 at 8:03
  • (missing link) Commented Jun 3, 2019 at 8:14

3 Answers 3

Reset to default
8

As far as I know the only way to handle this currently is via a parametric type (I know it is not perfect). Here is an example which additionally restricts the parameter so that you get almost what you want:

abstract type AbstractChild end

mutable struct Parent{T<:AbstractChild}
    name::String
    children::Vector{T}
    function Parent{T}(name) where {T<:AbstractChild}
        return new{T}(name)
    end

end

mutable struct Child <: AbstractChild
    name::String
    parent::Parent

    function Child(name)
        return new(name)
    end
end

Parent(name) = Parent{Child}(name)

parent = Parent("father")
child = Child("son")
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1 Comment

Presumably you would also want to instantiate the child with the parent you just created: child = Child("son", parent) and then add the child to parent.children with push!(parent.children, child).
0

And just to add on to @Bogumił Kamiński's answer the abstract type AbstractChild end creates a node for julia to traverse from at runtime in the program.

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1 Comment

This should be a comment to Bogumil's answer, instead of a seperate answer.
0

Leveraging the abstract type seems to be the intended use for situations with circularity.

abstract type AbstractChild end

mutable struct Parent <: AbstractChild
    name::String
    children::Vector{AbstractChild}
    
    Parent(name) = new(name, Vector{AbstractChild}())
end

mutable struct Child <: AbstractChild
    name::String
    parents::Tuple{AbstractChild, AbstractChild}

    Child(name) = new(name)
end

link(parent1::Parent, parent2::Parent, child::Child) = (
    push!(parent1.children, child);
    push!(parent2.children, child);
    child.parents = (parent1, parent2)
)

father = Parent("father")
mother = Parent("mother")
child = Child("son")

link(father, mother, child)

Running the code & inspecting the structures produces the following output (Juila 1.9.4):

julia> father
Parent("father", AbstractChild[Child("son", (Parent(#= circular reference @-4 =#), Parent("mother", AbstractChild[Child(#= circular reference @-4 =#)])))])

julia> mother
Parent("mother", AbstractChild[Child("son", (Parent("father", AbstractChild[Child(#= circular reference @-4 =#)]), Parent(#= circular reference @-4 =#)))])

julia> child
Child("son", (Parent("father", AbstractChild[Child(#= circular reference @-4 =#)]), Parent("mother", AbstractChild[Child(#= circular reference @-4 =#)])))

According to [link], #= circular reference @-4 =# is a good sign that we have setup the two-way reference properly.

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