NEWS.md

ComponentArrays.jl NEWS

Notes on new features (minor releases). For more details on bugfixes and non-feature-adding changes (patch releases), check out the releases page.

v0.15.0

• Unpack array components as StaticArrays!

julia> x = ComponentArray(a=5, b=[4, 1], c = [1 2; 3 4], d=(e=2, f=[6, 30.0]));

julia> @static_unpack a, b, c, d = x;

julia> a
5.0

julia> b
2-element SVector{2, Float64} with indices SOneTo(2):
 4.0
 1.0

julia> c
2×2 SMatrix{2, 2, Float64, 4} with indices SOneTo(2)×SOneTo(2):
 1.0  2.0
 3.0  4.0

julia> d
ComponentVector{Float64,SubArray...}(e = 2.0, f = [6.0, 30.0])

v0.12.0

• Multiple symbol indexing!
  • Use either an Array or Tuple of Symbols to extract multiple named components into a new `ComponentArray
  • It's fast!

julia> ca = ComponentArray(a=5, b=[4, 1], c=(a=2, b=[6, 30.0]))
ComponentVector{Float64}(a = 5.0, b = [4.0, 1.0], c = (a = 2.0, b = [6.0, 30.0]))

julia> ca[(:c, :a)]
ComponentVector{Float64}(c = (a = 2.0, b = [6.0, 30.0]), a = 5.0)

julia> ca[[:c, :a]] == ca[(:c, :a)]
true

julia> @view ca[(:c, :a)]
ComponentVector{Float64,SubArray...}(c = (a = 2.0, b = [6.0, 30.0]), a = 5.0)

v0.11.0

• Calling axes on a ComponentArray returns a new CombinedAxis type!
  • Doing things The Right Way™!
  • No more complicated and error-prone custom broadcasting machinery!
  • No more weird special cases!

v0.10.0

• All indexing now slices rather than sometimes viewing and sometimes slicing!
• Property access methods (i.e. "dot-access") still use views!

julia> x = ComponentArray(a=1, b=[4,2])
ComponentVector{Int64}(a = 1, b = [4, 2])

julia> x.b # Dot-access still views by default
2-element view(::Vector{Int64}, 2:3) with eltype Int64:
 4
 2

julia> x[:b] # Slicing now slices
2-element Vector{Int64}:
 4
 2

julia> @view x[:b] # Use @view to view
2-element view(::Vector{Int64}, 2:3) with eltype Int64:
 4
 2

v0.9.0

• Construct ComponentArrays from Dicts!

julia> d = Dict(:a=>rand(3), :b=>rand(2,2))
Dict{Symbol, Array{Float64, N} where N} with 2 entries:
  :a => [0.996693, 0.148683, 0.203083]
  :b => [0.68759 0.41585; 0.900591 0.377475]

julia> ComponentArray(d)
ComponentVector{Float64}(a = [0.9966932920820444, 0.14868304847436709, 0.20308284992079573], b = [0.6875902095731583 0.415850281435181; 0.9005909643364229 0.3774747843717925])

v0.8.0

• Generated valkeys function for fast iteration over ComponentVector subcomponents!

  julia> ca = ComponentArray(a=1, b=[1,2,3], c=(a=4,))
  ComponentVector{Int64}(a = 1, b = [1, 2, 3], c = (a = 4))
  
  julia> valkeys(ca)
  (Val{:a}(), Val{:b}(), Val{:c}())

  julia> [ca[k] for k in valkeys(ca)]
  3-element Array{Any,1}:
   1
    [1, 2, 3]
    ComponentVector{Int64,SubArray...}(a = 4)
  
  julia> @btime sum(prod($ca[k]) for k in valkeys($ca))
    11.511 ns (0 allocations: 0 bytes)
  11

v0.7.0

• Much faster (and lazier) arrays of subcomponents!

julia> ca = ComponentArray(a=5, b=(a=zeros(4,4), b=0), c=(a=[(a=1, b=2), (a=3, b=1), (a=1, b=2), (a=3, b=1)], b=[1., 2., 4]));

julia> @btime sum(x.a + x.b for x in $ca.c.a);
  127.160 ns (2 allocations: 480 bytes)

julia> @btime sum(x.a + x.b for x in $ca.c.a);
  36.895 ns (0 allocations: 0 bytes)

v0.6.0

• Easier DifferentialEquations plotting!
  • Automatic legend labeling!
  • Symbol and String support for the vars plot keyword!
  • See it in an action here!

v0.5.0

• Constructor for making new ComponentVectors with additional fields! Watch out, it's slow!

julia> x = ComponentArray(a=5, b=[1, 2])
ComponentVector{Int64}(a = 5, b = [1, 2])

julia> moar_x = ComponentArray(x; c=zeros(2,2), d=(a=2, b=10))
ComponentVector{Int64}(a = 5, b = [1, 2], c = [0 0; 0 0], d = (a = 2, b = 10))

v0.4.0

• Zygote rules for DiffEqFlux support! Check out the docs for an example!

v0.3.0

• Matrix and higher-dimensional array components!

...and plenty more!