replace StaticArrays with GeometryTypes
This commit is contained in:
Daniel Schwabeneder
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a6e60aea04
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2
REQUIRE
2
REQUIRE
@ -4,7 +4,7 @@ RecipesBase 0.6.0
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PlotUtils 0.4.1
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PlotThemes 0.1.3
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Reexport
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StaticArrays 0.5
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GeometryTypes
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FixedPointNumbers 0.3
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Measures
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Showoff
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@ -4,7 +4,7 @@ _current_plots_version = v"0.24.0"
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using Reexport
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import StaticArrays
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import GeometryTypes
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using Dates, Printf, Statistics, Base64, LinearAlgebra, Random
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import SparseArrays: findnz
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@ -1,7 +1,7 @@
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const P2 = StaticArrays.SVector{2,Float64}
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const P3 = StaticArrays.SVector{3,Float64}
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const P2 = GeometryTypes.Point2{Float64}
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const P3 = GeometryTypes.Point3{Float64}
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nanpush!(a::AbstractVector{P2}, b) = (push!(a, P2(NaN,NaN)); push!(a, b))
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nanappend!(a::AbstractVector{P2}, b) = (push!(a, P2(NaN,NaN)); append!(a, b))
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@ -779,7 +779,7 @@ end
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# -----------------------------------------------------------------------
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"create a BezierCurve for plotting"
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mutable struct BezierCurve{T <: StaticArrays.SVector}
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mutable struct BezierCurve{T <: GeometryTypes.Point}
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control_points::Vector{T}
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end
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@ -792,9 +792,6 @@ function (bc::BezierCurve)(t::Real)
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p
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end
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# mean(x::Real, y::Real) = 0.5*(x+y) #commented out as I cannot see this used anywhere and it overwrites a Base method with different functionality
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# mean{N,T<:Real}(ps::StaticArrays.SVector{N,T}...) = sum(ps) / length(ps) # I also could not see this used anywhere, and it's type piracy - implementing a NaNMath version for this would just involve converting to a standard array
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@deprecate curve_points coords
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coords(curve::BezierCurve, n::Integer = 30; range = [0,1]) = map(curve, range(range..., stop=n, length=50))
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@ -554,7 +554,7 @@ end
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#
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#
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# # --------------------------------------------------------------------
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# # Lists of tuples and StaticArrays
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# # Lists of tuples and GeometryTypes.Points
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# # --------------------------------------------------------------------
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#
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# # if we get an unhandled tuple, just splat it in
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@ -576,14 +576,14 @@ end
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#
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# # 2D StaticArrays
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@recipe f(xy::AVec{StaticArrays.SVector{2,T}}) where {T<:Number} = unzip(xy)
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@recipe f(xy::StaticArrays.SVector{2,T}) where {T<:Number} = [xy[1]], [xy[2]]
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# # 2D Points
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@recipe f(xy::AVec{GeometryTypes.Point{2,T}}) where {T<:Number} = unzip(xy)
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@recipe f(xy::GeometryTypes.Point{2,T}) where {T<:Number} = [xy[1]], [xy[2]]
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#
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# # 3D StaticArrays
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@recipe f(xyz::AVec{StaticArrays.SVector{3,T}}) where {T<:Number} = unzip(xyz)
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@recipe f(xyz::StaticArrays.SVector{3,T}) where {T<:Number} = [xyz[1]], [xyz[2]], [xyz[3]]
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# # 3D Points
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@recipe f(xyz::AVec{GeometryTypes.Point{3,T}}) where {T<:Number} = unzip(xyz)
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@recipe f(xyz::GeometryTypes.Point{3,T}) where {T<:Number} = [xyz[1]], [xyz[2]], [xyz[3]]
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#
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# # --------------------------------------------------------------------
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12
src/utils.jl
12
src/utils.jl
@ -290,14 +290,14 @@ unzip(xy::AVec{Tuple{X,Y}}) where {X,Y} = [t[1] for t in xy], [t[2]
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unzip(xyz::AVec{Tuple{X,Y,Z}}) where {X,Y,Z} = [t[1] for t in xyz], [t[2] for t in xyz], [t[3] for t in xyz]
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unzip(xyuv::AVec{Tuple{X,Y,U,V}}) where {X,Y,U,V} = [t[1] for t in xyuv], [t[2] for t in xyuv], [t[3] for t in xyuv], [t[4] for t in xyuv]
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unzip(xy::AVec{StaticArrays.SVector{2,T}}) where {T} = T[t[1] for t in xy], T[t[2] for t in xy]
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unzip(xy::StaticArrays.SVector{2,T}) where {T} = T[xy[1]], T[xy[2]]
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unzip(xy::AVec{GeometryTypes.Point{2,T}}) where {T} = T[t[1] for t in xy], T[t[2] for t in xy]
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unzip(xy::GeometryTypes.Point{2,T}) where {T} = T[xy[1]], T[xy[2]]
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unzip(xyz::AVec{StaticArrays.SVector{3,T}}) where {T} = T[t[1] for t in xyz], T[t[2] for t in xyz], T[t[3] for t in xyz]
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unzip(xyz::StaticArrays.SVector{3,T}) where {T} = T[xyz[1]], T[xyz[2]], T[xyz[3]]
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unzip(xyz::AVec{GeometryTypes.Point{3,T}}) where {T} = T[t[1] for t in xyz], T[t[2] for t in xyz], T[t[3] for t in xyz]
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unzip(xyz::GeometryTypes.Point{3,T}) where {T} = T[xyz[1]], T[xyz[2]], T[xyz[3]]
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unzip(xyuv::AVec{StaticArrays.SVector{4,T}}) where {T} = T[t[1] for t in xyuv], T[t[2] for t in xyuv], T[t[3] for t in xyuv], T[t[4] for t in xyuv]
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unzip(xyuv::StaticArrays.SVector{4,T}) where {T} = T[xyuv[1]], T[xyuv[2]], T[xyuv[3]], T[xyuv[4]]
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unzip(xyuv::AVec{GeometryTypes.Point{4,T}}) where {T} = T[t[1] for t in xyuv], T[t[2] for t in xyuv], T[t[3] for t in xyuv], T[t[4] for t in xyuv]
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unzip(xyuv::GeometryTypes.Point{4,T}) where {T} = T[xyuv[1]], T[xyuv[2]], T[xyuv[3]], T[xyuv[4]]
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# given 2-element lims and a vector of data x, widen lims to account for the extrema of x
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function _expand_limits(lims, x)
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