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Allow scalars and Arrays in FieldTuples #80

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12 changes: 7 additions & 5 deletions src/field_tuples.jl
Original file line number Diff line number Diff line change
Expand Up @@ -18,7 +18,7 @@ end
FieldTuple(pairs::Vector{<:Pair}) = FieldTuple(NamedTuple(pairs))

### printing
getindex(f::FieldTuple,::Colon) = vcat(getindex.(values(f.fs),:)...)[:]
getindex(f::FieldTuple,::Colon) = mapreduce(collect, vcat, values(f.fs))
getindex(D::DiagOp{<:FieldTuple}, i::Int, j::Int) = (i==j) ? D.diag[:][i] : diagzero(D, i, j)
typealias_def(::Type{<:FieldTuple{NamedTuple{Names,FS},T}}) where {Names,FS<:Tuple,T} =
"Field-($(join(map(string,Names),",")))-$FS"
Expand Down Expand Up @@ -102,19 +102,21 @@ propertynames(f::FieldTuple) = (:fs, propertynames(f.fs)...)
randn!(rng::AbstractRNG, ξ::FieldTuple) = FieldTuple(map(f -> randn!(rng, f), ξ.fs))

### Diagonal-ops
Diagonal_or_scalar(x::Number) = x
Diagonal_or_scalar(x) = Diagonal(x)
# need a method specific for FieldTuple since we don't carry around
# the basis in a way that works with the default implementation
(*)(D::DiagOp{<:FieldTuple}, f::FieldTuple) = FieldTuple(map((d,f)->Diagonal(d)*f, D.diag.fs, f.fs))
(\)(D::DiagOp{<:FieldTuple}, f::FieldTuple) = FieldTuple(map((d,f)->Diagonal(d)\f, D.diag.fs, f.fs))
(*)(D::DiagOp{<:FieldTuple}, f::FieldTuple) = FieldTuple(map((d,f)->Diagonal_or_scalar(d)*f, D.diag.fs, f.fs))
(\)(D::DiagOp{<:FieldTuple}, f::FieldTuple) = FieldTuple(map((d,f)->Diagonal_or_scalar(d)\f, D.diag.fs, f.fs))


# promote before recursing for these
dot(a::FieldTuple, b::FieldTuple) = reduce(+, map(dot, getfield.(promote(a,b),:fs)...), init=0)
hash(ft::FieldTuple, h::UInt64) = foldr(hash, (typeof(ft), ft.fs), init=h)

# logdet & trace
@auto_adjoint logdet(L::Diagonal{<:Union{Real,Complex}, <:FieldTuple}) = reduce(+, map(logdet∘Diagonal, diag(L).fs), init=0)
tr(L::Diagonal{<:Union{Real,Complex}, <:FieldTuple}) = reduce(+, map(tr∘Diagonal, diag(L).fs), init=0)
@auto_adjoint logdet(L::Diagonal{<:Union{Real,Complex}, <:FieldTuple}) = reduce(+, map(logdet∘Diagonal_or_scalar, diag(L).fs), init=0)
tr(L::Diagonal{<:Union{Real,Complex}, <:FieldTuple}) = reduce(+, map(tr∘Diagonal_or_scalar, diag(L).fs), init=0)

# misc
batch_length(ft::FieldTuple) = only(unique(map(batch_length, ft.fs)))
Expand Down
4 changes: 2 additions & 2 deletions src/generic.jl
Original file line number Diff line number Diff line change
Expand Up @@ -125,7 +125,7 @@ HarmonicBasis(::Basis3Prod{𝐈, 𝐄𝐁, <:S0Basis}) = IEBFourier
(::Type{B})(dst::AbstractArray{<:Field}, src::AbstractArray{<:Field}) where {B<:Basis} = B.(dst,src)

# The abstract `Basis` type means "any basis", hence this conversion rule:
Basis(f::Field) = f
Basis(f) = f


# used in make_field_aliases below
Expand Down Expand Up @@ -226,7 +226,7 @@ unknown_rule_error(::typeof(promote_basis_strict_rule), ::B₁, ::B₂) where {B
basis(f::F) where {F<:Field} = basis(F)
basis(::Type{<:Field{B}}) where {B<:Basis} = B
basis(::Type{<:Field}) = Basis
basis(::AbstractVector) = Basis
basis(::Union{Number,AbstractVector}) = Basis # allows them to be in FieldTuple


### printing
Expand Down