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Make concatenations involving combinations of sparse vectors with var…
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…ious matrix and vector types consistently yield sparse arrays.
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Sacha0 committed Aug 6, 2016
1 parent 885834a commit 1e53916
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35 changes: 0 additions & 35 deletions base/sparse/sparsematrix.jl
Original file line number Diff line number Diff line change
Expand Up @@ -3264,41 +3264,6 @@ function hcat(X::SparseMatrixCSC...)
SparseMatrixCSC(m, n, colptr, rowval, nzval)
end


# Sparse/special/dense concatenation

# TODO: A similar definition also exists in base/linalg/bidiag.jl. These definitions should
# be consolidated in a more appropriate location, for example base/linalg/special.jl.
SpecialArrays = Union{Diagonal, Bidiagonal, Tridiagonal, SymTridiagonal}

function hcat(Xin::Union{Vector, Matrix, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
hcat(X...)
end

function vcat(Xin::Union{Vector, Matrix, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
vcat(X...)
end

function hvcat(rows::Tuple{Vararg{Int}}, X::Union{Vector, Matrix, SparseMatrixCSC, SpecialArrays}...)
nbr = length(rows) # number of block rows

tmp_rows = Array{SparseMatrixCSC}(nbr)
k = 0
@inbounds for i = 1 : nbr
tmp_rows[i] = hcat(X[(1 : rows[i]) + k]...)
k += rows[i]
end
vcat(tmp_rows...)
end

function cat(catdims, Xin::Union{Vector, Matrix, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
T = promote_eltype(Xin...)
Base.cat_t(catdims, T, X...)
end

"""
blkdiag(A...)
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58 changes: 54 additions & 4 deletions base/sparse/sparsevector.jl
Original file line number Diff line number Diff line change
Expand Up @@ -720,7 +720,13 @@ complex(x::AbstractSparseVector) =

### Concatenation

function hcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
# Without the first of these methods, horizontal concatenations of SparseVectors fall
# back to the horizontal concatenation method that ensures that combinations of
# sparse/special/dense matrix/vector types concatenate to SparseMatrixCSCs, instead
# of _absspvec_hcat below. The <:Integer qualifications are necessary for correct dispatch.
hcat{Tv,Ti<:Integer}(X::SparseVector{Tv,Ti}...) = _absspvec_hcat(X...)
hcat{Tv,Ti<:Integer}(X::AbstractSparseVector{Tv,Ti}...) = _absspvec_hcat(X...)
function _absspvec_hcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
# check sizes
n = length(X)
m = length(X[1])
Expand Down Expand Up @@ -749,7 +755,13 @@ function hcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
SparseMatrixCSC{Tv,Ti}(m, n, colptr, nzrow, nzval)
end

function vcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
# Without the first of these methods, vertical concatenations of SparseVectors fall
# back to the vertical concatenation method that ensures that combinations of
# sparse/special/dense matrix/vector types concatenate to SparseMatrixCSCs, instead
# of _absspvec_vcat below. The <:Integer qualifications are necessary for correct dispatch.
vcat{Tv,Ti<:Integer}(X::SparseVector{Tv,Ti}...) = _absspvec_vcat(X...)
vcat{Tv,Ti<:Integer}(X::AbstractSparseVector{Tv,Ti}...) = _absspvec_vcat(X...)
function _absspvec_vcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
# check sizes
n = length(X)
tnnz = 0
Expand Down Expand Up @@ -777,11 +789,49 @@ function vcat{Tv,Ti}(X::AbstractSparseVector{Tv,Ti}...)
SparseVector(len, rnzind, rnzval)
end

hcat(Xin::Union{AbstractSparseVector, SparseMatrixCSC}...) = hcat(map(SparseMatrixCSC, Xin)...)
vcat(Xin::Union{AbstractSparseVector, SparseMatrixCSC}...) = vcat(map(SparseMatrixCSC, Xin)...)
hcat(Xin::Union{Vector, AbstractSparseVector}...) = hcat(map(sparse, Xin)...)
vcat(Xin::Union{Vector, AbstractSparseVector}...) = vcat(map(sparse, Xin)...)


### Sparse/special/dense vector/matrix concatenation

# TODO: These methods should be moved to a more appropriate location, particularly some
# future equivalent of base/linalg/special.jl dedicated to interactions between a broader
# set of matrix types.

# TODO: A similar definition also exists in base/linalg/bidiag.jl. These definitions should
# be consolidated in a more appropriate location, for example base/linalg/special.jl.
SpecialArrays = Union{Diagonal, Bidiagonal, Tridiagonal, SymTridiagonal}

function hcat(Xin::Union{Vector, Matrix, SparseVector, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
hcat(X...)
end

function vcat(Xin::Union{Vector, Matrix, SparseVector, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
vcat(X...)
end

function hvcat(rows::Tuple{Vararg{Int}}, X::Union{Vector, Matrix, SparseVector, SparseMatrixCSC, SpecialArrays}...)
nbr = length(rows) # number of block rows

tmp_rows = Array{SparseMatrixCSC}(nbr)
k = 0
@inbounds for i = 1 : nbr
tmp_rows[i] = hcat(X[(1 : rows[i]) + k]...)
k += rows[i]
end
vcat(tmp_rows...)
end

function cat(catdims, Xin::Union{Vector, Matrix, SparseVector, SparseMatrixCSC, SpecialArrays}...)
X = SparseMatrixCSC[issparse(x) ? x : sparse(x) for x in Xin]
T = promote_eltype(Xin...)
Base.cat_t(catdims, T, X...)
end


### math functions

### Unary Map
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35 changes: 35 additions & 0 deletions test/sparsedir/sparsevector.jl
Original file line number Diff line number Diff line change
Expand Up @@ -404,6 +404,41 @@ let m = 80, n = 100
@test full(V) == Vr
end

# Test that concatenations of combinations of sparse vectors with various other
# matrix/vector types yield sparse arrays
let
N = 4
spvec = spzeros(N)
spmat = spzeros(N, 1)
densevec = ones(N)
densemat = ones(N, 1)
diagmat = Diagonal(ones(4))
# Test that concatenations of pairwise combinations of sparse vectors with dense
# vectors/matrices, sparse matrices, or special matrices yield sparse arrays
for othervecormat in (densevec, densemat, spmat)
@test issparse(vcat(spvec, othervecormat))
@test issparse(vcat(othervecormat, spvec))
end
for othervecormat in (densevec, densemat, spmat, diagmat)
@test issparse(hcat(spvec, othervecormat))
@test issparse(hcat(othervecormat, spvec))
@test issparse(hvcat((2,), spvec, othervecormat))
@test issparse(hvcat((2,), othervecormat, spvec))
@test issparse(cat((1,2), spvec, othervecormat))
@test issparse(cat((1,2), othervecormat, spvec))
end
# The preceding tests should cover multi-way combinations of those types, but for good
# measure test a few multi-way combinations involving those types
@test issparse(vcat(spvec, densevec, spmat, densemat))
@test issparse(vcat(densevec, spvec, densemat, spmat))
@test issparse(hcat(spvec, densemat, spmat, densevec, diagmat))
@test issparse(hcat(densemat, spmat, spvec, densevec, diagmat))
@test issparse(hvcat((5,), diagmat, densevec, spvec, densemat, spmat))
@test issparse(hvcat((5,), spvec, densemat, diagmat, densevec, spmat))
@test issparse(cat((1,2), densemat, diagmat, spmat, densevec, spvec))
@test issparse(cat((1,2), spvec, diagmat, densevec, spmat, densemat))
end


## sparsemat: combinations with sparse matrix

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