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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -1,64 +1,68 @@ | ||
| using IndirectArrays, MappedArrays, OrderedCollections | ||
| using Test, FixedPointNumbers, Colors | ||
|
|
||
| colors = [RGB(1,0,0) RGB(0,1,0); | ||
| RGB(0,0,1) RGB(1,0,0)] | ||
| index0 = [1 3; | ||
| 2 1] | ||
| for indexT in (Int8, Int16, UInt8, UInt16) | ||
| A = IndirectArray{indexT}(colors) | ||
| @test eltype(A) == RGB{N0f8} | ||
| @test size(A) == (2,2) | ||
| @test ndims(A) == 2 | ||
| @test A[1,1] === A[1] === RGB(1,0,0) | ||
| @test A[2,1] === A[2] === RGB(0,0,1) | ||
| @test A[1,2] === A[3] === RGB(0,1,0) | ||
| @test A[2,2] === A[4] === RGB(1,0,0) | ||
| @test isa(eachindex(A), AbstractUnitRange) | ||
| @test A.index == index0 | ||
| end | ||
| x = IndirectArray(colors[:]) | ||
| @test x == IndirectArray{UInt8}(colors[:]) | ||
| xc = copy(x) | ||
| @test x == xc | ||
| xc[2], xc[3] = RGB(0,1,0), RGB(0,1,1) | ||
| @test xc == IndirectArray([RGB(1,0,0), RGB(0,1,0), RGB(0,1,1), RGB(1,0,0)]) | ||
| @test append!(x, x) == IndirectArray([colors[:]; colors[:]]) | ||
| @test append!(x, IndirectArray([RGB(1,0,0), RGB(1,1,0)])) == | ||
| IndirectArray([colors[:]; colors[:]; [RGB(1,0,0), RGB(1,1,0)]]) | ||
| # Append with non-IndirectArray | ||
| @test append!(IndirectArray(colors[:]), IndirectArray(colors[:])) == | ||
| append!(IndirectArray(colors[:]), colors[:]) | ||
| @testset "values::AbstractVector" begin | ||
| colors = [RGB(1,0,0) RGB(0,1,0); | ||
| RGB(0,0,1) RGB(1,0,0)] | ||
| index0 = [1 3; | ||
| 2 1] | ||
| for indexT in (Int8, Int16, UInt8, UInt16) | ||
| A = IndirectArray{indexT}(colors) | ||
| @test eltype(A) == RGB{N0f8} | ||
| @test size(A) == (2,2) | ||
| @test ndims(A) == 2 | ||
| @test A[1,1] === A[1] === RGB(1,0,0) | ||
| @test A[2,1] === A[2] === RGB(0,0,1) | ||
| @test A[1,2] === A[3] === RGB(0,1,0) | ||
| @test A[2,2] === A[4] === RGB(1,0,0) | ||
| @test isa(eachindex(A), AbstractUnitRange) | ||
| @test A.index == index0 | ||
| end | ||
| x = IndirectArray(colors[:]) | ||
| @test x == IndirectArray{UInt8}(colors[:]) | ||
| xc = copy(x) | ||
| @test x == xc | ||
| xc[2], xc[3] = RGB(0,1,0), RGB(0,1,1) | ||
| @test xc == IndirectArray([RGB(1,0,0), RGB(0,1,0), RGB(0,1,1), RGB(1,0,0)]) | ||
| @test append!(x, x) == IndirectArray([colors[:]; colors[:]]) | ||
| @test append!(x, IndirectArray([RGB(1,0,0), RGB(1,1,0)])) == | ||
| IndirectArray([colors[:]; colors[:]; [RGB(1,0,0), RGB(1,1,0)]]) | ||
| # Append with non-IndirectArray | ||
| @test append!(IndirectArray(colors[:]), IndirectArray(colors[:])) == | ||
| append!(IndirectArray(colors[:]), colors[:]) | ||
|
|
||
| # Bounds checking upon construction | ||
| index_ob = copy(index0) | ||
| index_ob[1] = 5 # out-of-bounds | ||
| unsafe_ia(idx, vals) = (@inbounds ret = IndirectArray(idx, vals); ret) | ||
| safe_ia(idx, vals) = (ret = IndirectArray(idx, vals); ret) | ||
| @test_throws BoundsError safe_ia(index_ob, colors[1:3]) | ||
| # This requires inlining, which means it fails on Travis since we turn | ||
| # off inlining for better coverage stats | ||
| # B = unsafe_ia(index_ob, colors) | ||
| # @test_throws BoundsError B[1] | ||
| # @test B[2] == RGB(0,0,1) | ||
| # Bounds checking upon construction | ||
| index_ob = copy(index0) | ||
| index_ob[1] = 5 # out-of-bounds | ||
| unsafe_ia(idx, vals) = (@inbounds ret = IndirectArray(idx, vals); ret) | ||
| safe_ia(idx, vals) = (ret = IndirectArray(idx, vals); ret) | ||
| @test_throws BoundsError safe_ia(index_ob, colors[1:3]) | ||
| # This requires inlining, which means it fails on Travis since we turn | ||
| # off inlining for better coverage stats | ||
| # B = unsafe_ia(index_ob, colors) | ||
| # @test_throws BoundsError B[1] | ||
| # @test B[2] == RGB(0,0,1) | ||
|
|
||
| # Non-Arrays | ||
| a = [0.1 0.4; | ||
| 0.33 1.0] | ||
| f(x) = round(Int, 99*x) + 1 # maps 0-1 to 1-100 | ||
| m = mappedarray(f, a) | ||
| cmap = colormap("RdBu", 100) | ||
| img = IndirectArray(m, cmap) | ||
| @test img == [cmap[11] cmap[41]; | ||
| cmap[34] cmap[100]] | ||
| # Non-Arrays | ||
| a = [0.1 0.4; | ||
| 0.33 1.0] | ||
| f(x) = round(Int, 99*x) + 1 # maps 0-1 to 1-100 | ||
| m = mappedarray(f, a) | ||
| cmap = colormap("RdBu", 100) | ||
| img = IndirectArray(m, cmap) | ||
| @test img == [cmap[11] cmap[41]; | ||
| cmap[34] cmap[100]] | ||
| end | ||
|
|
||
| # With Dicts | ||
| a = ['a' 'b'; | ||
| 'q' 'j'] | ||
| v = freeze(Dict('a' => "apple", 'b' => "book", 'q' => "quit", 'j' => "jolly")) | ||
| A = IndirectArray(a, v) | ||
| @test A[1,1] == "apple" | ||
| @test A[2,1] == "quit" | ||
| @test A[1,2] == "book" | ||
| @test A[2,2] == "jolly" | ||
| @test_throws BoundsError IndirectArray(a, Dict('a' => "apple", 'b' => "book")) | ||
| @testset "values::AbstractDict" begin | ||
| # With Dicts | ||
| a = ['a' 'b'; | ||
| 'q' 'j'] | ||
| v = freeze(Dict('a' => "apple", 'b' => "book", 'q' => "quit", 'j' => "jolly")) | ||
| A = IndirectArray(a, v) | ||
| @test A[1,1] == "apple" | ||
| @test A[2,1] == "quit" | ||
| @test A[1,2] == "book" | ||
| @test A[2,2] == "jolly" | ||
| @test_throws BoundsError IndirectArray(a, Dict('a' => "apple", 'b' => "book")) | ||
| end |