Awesome
Flatten
Flatten.jl converts data from arbitrary nested structs to tuples, using
flatten()
, and rebuilds them using reconstruct()
, update!()
.
modify()
combines flatten
and reconstruct
with a function application
to each element of the intermediate tuple.
This facilitates building modular, composable structs that can be queries, modified and rebuilt based on the types of their fields, without knowing field locations.
It also allows access to solvers and optimisers that require flat lists of parameters. Importantly, it's type-stable and very fast. It does not flatten the contents of Array or Dict (which is a container of Arrays), where the number of values are not known at compile time.
Flatten is also flexible. The types to return and ignore can be specified, and
individual fields can be ignored using field-level traits like flattenable
from FieldMetadata.jl. Method overrides can also be defined for custom types.
Type queries
Flatten allows a kind of querying to extract some types and ignore others,
here using flatten
:
julia> using Flatten
julia> struct Foo{A,B,C}
a::A
b::B
c::C
end
julia> struct Bar{X}
x::X
end
julia> obj = Foo(1, :two, Foo(Bar(3), 4.0, 5.0f0));
julia> use = Union{Int, Float32}; # Return Int and Float32 fields
julia> ignore = Bar; # Dont return Bar or iterate over Bar fields
julia> flatten(obj, use, ignore) # `flatten` all Int and Float32 except fields of Bar
(1, 5.0f0)
julia> modify(string, obj, Int) # `modify`: convert all Int to String
Foo{String,Symbol,Foo{Bar{String},Float64,Float32}}("1", :two, Foo{Bar{String},Float64,Float32}(Bar{String}("3"), 4.0, 5.0f0))
The default type used is Real
. These rules also apply in reconstruct
,
update!
and modify
.
Field removal
There are often cases where you want to ignore certain fields that have the same
type as the fields you want to extract. Flatten.jl also
FieldMetadata.jl to provide
@flattenable
macro and methods, allowing you to choose fields to include and
remove from flattening. The default is true
for all fields.
using Flatten
import Flatten: flattenable
@flattenable struct Bar{X,Y}
x::X | true
y::Y | false
end
flatten(Bar(1, 2))
# output
(1,)
Custom @metadata
methods from FieldMetadata can be used, if they return a Bool.
You can also use custom functions that follow the following form, returning a boolean:
f(::Type, ::Type{Var{:fieldname}}) = false
Metatdata flattening
Flatten also provides metaflatten()
to flatten any FieldMetadata.jl
metadata for the same fields flatten()
returns. This can be useful for attaching
information like descriptions or prior probability distributions to each field.
Regular field data can also be collected with convenience versions of metaflatten:
fieldnameflatten
, parentflatten
, fieldtypeflatten
and parenttypeflatten
functions provide lists of fieldnames and types that may be useful for building
parameter display tables.
This package was started by Robin Deits (@rdeits), and its early development owes much to discussions and ideas from Jan Weidner (@jw3126) and Robin Deits. """
reconstruct
and modify
for StaticArrays
SArray
and other objects from StaticArrays.jl can not be constructed from their fields.
Dealing with this in the long term will require either a dependency on ConstructionBase.jl
in StaticArrays.jl, or a glue package that provides the required constructorof
methods,
which for now you can define manually:
using StaticArrays, ConstructionBase, Flatten
struct SArrayConstructor{S,N,L} end
(::SArrayConstructor{S,N,L})(data::NTuple{L,T}) where {S,T,N,L} = SArray{S,T,N,L}(data)
ConstructionBase.constructorof(sa::Type{<:SArray{S,<:Any,N,L}}) where {S,N,L} =
SArrayConstructor{S,N,L}()