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Author SHA1 Message Date
BeastyBlacksmith 43adbdbc79 Update precompile_*.jl file 2020-11-16 09:17:40 +00:00
32 changed files with 591 additions and 967 deletions
+3 -3
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@@ -41,10 +41,10 @@ jobs:
# TESTCMD
- name: Default TESTCMD
run: echo "TESTCMD=julia" >> $GITHUB_ENV
run: echo ::set-env name=TESTCMD::"julia"
- name: Ubuntu TESTCMD
if: startsWith(matrix.os,'ubuntu')
run: echo "TESTCMD=xvfb-run --auto-servernum julia" >> $GITHUB_ENV
run: echo ::set-env name=TESTCMD::"xvfb-run --auto-servernum julia"
# Generate precompile files
- name: Generating precompile files
@@ -78,7 +78,7 @@ jobs:
commit-message: Update precompile_*.jl file
title: "[AUTO] Update precompiles"
labels: SnoopCompile
branch: "Test_SnoopCompile_AutoPR_${{ github.ref }}"
branch: "SnoopCompile_AutoPR"
Skip:
-34
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@@ -1,34 +0,0 @@
name: Run benchmarks
on:
pull_request:
jobs:
Benchmark:
if: "!contains(github.event.head_commit.message, '[skip ci]')"
env:
GKS_ENCODING: "utf8"
GKSwstype: "100"
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- uses: julia-actions/setup-julia@latest
with:
version: 1
## Setup
- name: Ubuntu TESTCMD
run: echo "TESTCMD=xvfb-run --auto-servernum julia" >> $GITHUB_ENV
- name: Install Plots dependencies
uses: julia-actions/julia-buildpkg@latest
- name: Install Benchmarking dependencies
run: julia -e 'using Pkg; pkg"add PkgBenchmark BenchmarkCI@0.1"'
- name: Run benchmarks
run: $TESTCMD -e 'using BenchmarkCI; BenchmarkCI.judge()'
- name: Print judgement
run: julia -e 'using BenchmarkCI; BenchmarkCI.displayjudgement()'
- name: Post results
run: julia -e 'using BenchmarkCI; BenchmarkCI.postjudge()'
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+2 -3
View File
@@ -13,7 +13,6 @@ jobs:
if: "!contains(github.event.head_commit.message, '[skip ci]')"
env:
GKS_ENCODING: "utf8"
GKSwstype: "100"
name: Julia ${{ matrix.version }} - ${{ matrix.os }}
runs-on: ${{ matrix.os }}
@@ -60,10 +59,10 @@ jobs:
# TESTCMD
- name: Default TESTCMD
run: echo "TESTCMD=julia" >> $GITHUB_ENV
run: echo ::set-env name=TESTCMD::"julia"
- name: Ubuntu TESTCMD
if: startsWith(matrix.os,'ubuntu')
run: echo "TESTCMD=xvfb-run --auto-servernum julia" >> $GITHUB_ENV
run: echo ::set-env name=TESTCMD::"xvfb-run --auto-servernum julia"
# Julia Dependencies
- name: Install Julia dependencies
-2
View File
@@ -10,5 +10,3 @@ deps/deps.jl
Manifest.toml
dev/
test/tmpplotsave.hdf5
/.benchmarkci
/benchmark/*.json
+4 -4
View File
@@ -1,7 +1,7 @@
name = "Plots"
uuid = "91a5bcdd-55d7-5caf-9e0b-520d859cae80"
author = ["Tom Breloff (@tbreloff)"]
version = "1.10.4"
version = "1.9.0"
[deps]
Base64 = "2a0f44e3-6c83-55bd-87e4-b1978d98bd5f"
@@ -36,7 +36,7 @@ UUIDs = "cf7118a7-6976-5b1a-9a39-7adc72f591a4"
Contour = "0.5"
FFMPEG = "0.2, 0.3, 0.4"
FixedPointNumbers = "0.6, 0.7, 0.8"
GR = "0.46, 0.47, 0.48, 0.49, 0.50, 0.51, 0.52, 0.53, 0.54"
GR = "0.46, 0.47, 0.48, 0.49, 0.50, 0.51, 0.52, 0.53"
GeometryBasics = "0.2, 0.3.1"
JSON = "0.21, 1"
Latexify = "0.14"
@@ -45,8 +45,8 @@ NaNMath = "0.3"
PlotThemes = "2"
PlotUtils = "1"
RecipesBase = "1"
RecipesPipeline = "0.3"
Reexport = "0.2, 1.0"
RecipesPipeline = "0.2"
Reexport = "0.2"
Requires = "1"
Scratch = "1"
Showoff = "0.3.1"
-5
View File
@@ -1,5 +0,0 @@
[deps]
BenchmarkCI = "20533458-34a3-403d-a444-e18f38190b5b"
BenchmarkTools = "6e4b80f9-dd63-53aa-95a3-0cdb28fa8baf"
PkgBenchmark = "32113eaa-f34f-5b0d-bd6c-c81e245fc73d"
Plots = "91a5bcdd-55d7-5caf-9e0b-520d859cae80"
-10
View File
@@ -1,10 +0,0 @@
using BenchmarkTools
using Plots
const SUITE = BenchmarkGroup()
julia_cmd = split(get(ENV, "TESTCMD", Base.JLOptions().julia_bin))
SUITE["load_plot_display"] = @benchmarkable run(`$julia_cmd --startup-file=no --project -e 'using Plots; display(plot(1:0.1:10, sin.(1:0.1:10)))'`)
SUITE["load"] = @benchmarkable run(`$julia_cmd --startup-file=no --project -e 'using Plots'`)
SUITE["plot"] = @benchmarkable p = plot(1:0.1:10, sin.(1:0.1:10)) samples=1 evals=1
SUITE["display"] = @benchmarkable display(p) setup=(p = plot(1:0.1:10, sin.(1:0.1:10))) samples=1 evals=1
@@ -0,0 +1,390 @@
const __bodyfunction__ = Dict{Method,Any}()
# Find keyword "body functions" (the function that contains the body
# as written by the developer, called after all missing keyword-arguments
# have been assigned values), in a manner that doesn't depend on
# gensymmed names.
# `mnokw` is the method that gets called when you invoke it without
# supplying any keywords.
function __lookup_kwbody__(mnokw::Method)
function getsym(arg)
isa(arg, Symbol) && return arg
@assert isa(arg, GlobalRef)
return arg.name
end
f = get(__bodyfunction__, mnokw, nothing)
if f === nothing
fmod = mnokw.module
# The lowered code for `mnokw` should look like
# %1 = mkw(kwvalues..., #self#, args...)
# return %1
# where `mkw` is the name of the "active" keyword body-function.
ast = Base.uncompressed_ast(mnokw)
if isa(ast, Core.CodeInfo) && length(ast.code) >= 2
callexpr = ast.code[end-1]
if isa(callexpr, Expr) && callexpr.head == :call
fsym = callexpr.args[1]
if isa(fsym, Symbol)
f = getfield(fmod, fsym)
elseif isa(fsym, GlobalRef)
if fsym.mod === Core && fsym.name === :_apply
f = getfield(mnokw.module, getsym(callexpr.args[2]))
elseif fsym.mod === Core && fsym.name === :_apply_iterate
f = getfield(mnokw.module, getsym(callexpr.args[3]))
else
f = getfield(fsym.mod, fsym.name)
end
else
f = missing
end
else
f = missing
end
else
f = missing
end
__bodyfunction__[mnokw] = f
end
return f
end
function _precompile_()
ccall(:jl_generating_output, Cint, ()) == 1 || return nothing
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:label, :blank),Tuple{Symbol,Bool}},Type{Plots.EmptyLayout}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:label, :width, :height),Tuple{Symbol,Symbol,Measures.Length{:pct,Float64}}},Type{Plots.EmptyLayout}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:parent,),Tuple{Plots.GridLayout}},Type{Plots.Subplot},Plots.GRBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:parent,),Tuple{Plots.GridLayout}},Type{Plots.Subplot},Plots.PlotlyBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:parent,),Tuple{Plots.Subplot{Plots.GRBackend}}},Type{Plots.Subplot},Plots.GRBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.Type)),NamedTuple{(:parent,),Tuple{Plots.Subplot{Plots.PlotlyBackend}}},Type{Plots.Subplot},Plots.PlotlyBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Plots._make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Array{Int64,1}}},typeof(Plots._make_hist),Tuple{Array{Float64,1}},Symbol})
Base.precompile(Tuple{Core.kwftype(typeof(Plots._make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Nothing}},typeof(Plots._make_hist),Tuple{Array{Float64,1},Array{Float64,1}},Int64})
Base.precompile(Tuple{Core.kwftype(typeof(Plots._make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Nothing}},typeof(Plots._make_hist),Tuple{Array{Float64,1}},Symbol})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:flip,),Tuple{Bool}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:formatter,),Tuple{typeof(RecipesPipeline.datetimeformatter)}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:grid, :lims),Tuple{Bool,Tuple{Int64,Int64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:grid, :lims, :flip),Tuple{Bool,Tuple{Int64,Int64},Bool}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:grid,),Tuple{Bool}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:gridlinewidth, :grid, :gridalpha, :gridstyle, :foreground_color_grid),Tuple{Int64,Bool,Float64,Symbol,RGBA{Float64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:guide,),Tuple{String}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:lims, :flip, :ticks, :guide),Tuple{Tuple{Int64,Int64},Bool,StepRange{Int64,Int64},String}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:lims,),Tuple{Tuple{Float64,Float64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:lims,),Tuple{Tuple{Int64,Float64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:lims,),Tuple{Tuple{Int64,Int64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:rotation,),Tuple{Int64}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:scale, :guide),Tuple{Symbol,String}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.attr!)),NamedTuple{(:ticks,),Tuple{UnitRange{Int64}}},typeof(attr!),Plots.Axis})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.default)),NamedTuple{(:titlefont, :legendfontsize, :guidefont, :tickfont, :guide, :framestyle, :yminorgrid),Tuple{Tuple{Int64,String},Int64,Tuple{Int64,Symbol},Tuple{Int64,Symbol},String,Symbol,Bool}},typeof(default)})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(Plots.gr_polyline),Array{Int64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(Plots.gr_polyline),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(Plots.gr_polyline),StepRange{Int64,Int64},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(Plots.gr_polyline),UnitRange{Int64},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(Plots.gr_polyline),UnitRange{Int64},UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.heatmap)),Any,typeof(heatmap),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.histogram)),Any,typeof(histogram),Any})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.hline!)),Any,typeof(hline!),Any})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.lens!)),Any,typeof(lens!),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:alpha, :seriestype),Tuple{Float64,Symbol}},typeof(plot!),Array{GeometryBasics.Point{2,Float64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:annotation,),Tuple{Array{Tuple{Int64,Float64,Plots.PlotText},1}}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:line, :seriestype),Tuple{Tuple{Int64,Symbol,Float64,Array{Symbol,2}},Symbol}},typeof(plot!),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:lw, :color),Tuple{Int64,Symbol}},typeof(plot!),Function,Float64,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:lw, :color),Tuple{Int64,Symbol}},typeof(plot!),Plots.Plot{Plots.GRBackend},Function,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),Plots.Plot{Plots.GRBackend},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),Plots.Plot{Plots.PlotlyBackend},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:markersize, :c, :seriestype),Tuple{Int64,Symbol,Symbol}},typeof(plot!),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,Measures.BoundingBox{Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}},Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}}}}}},typeof(plot!),Array{Int64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,Measures.BoundingBox{Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}},Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}}}}}},typeof(plot!),Plots.Plot{Plots.GRBackend},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,Measures.BoundingBox{Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}},Tuple{Measures.Length{:w,Float64},Measures.Length{:h,Float64}}}}}},typeof(plot!),Plots.Plot{Plots.PlotlyBackend},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot!),Array{Int64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:title,),Tuple{String}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:w,),Tuple{Int64}},typeof(plot!),Plots.Plot{Plots.GRBackend},Array{Float64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:xgrid,),Tuple{Tuple{Symbol,Symbol,Int64,Symbol,Float64}}},typeof(plot!),Plots.Plot{Plots.GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:yaxis,),Tuple{Tuple{String,Symbol}}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Plots.Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Plots.Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Plots.Plot{Plots.GRBackend},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Plots.Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Plots.Plot{Plots.PlotlyBackend},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:annotations, :leg),Tuple{Tuple{Int64,Float64,Plots.PlotText},Bool}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:aspect_ratio, :seriestype),Tuple{Int64,Symbol}},typeof(plot),Array{String,1},Array{String,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:bins, :weights, :seriestype),Tuple{Symbol,Array{Int64,1},Symbol}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:color, :line, :marker),Tuple{Array{Symbol,2},Tuple{Symbol,Int64},Tuple{Array{Symbol,2},Int64,Float64,Plots.Stroke}}},typeof(plot),Array{Array{T,1} where T,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:connections, :seriestype),Tuple{Tuple{Array{Int64,1},Array{Int64,1},Array{Int64,1}},Symbol}},typeof(plot),Array{Int64,1},Array{Int64,1},Vararg{Array{Int64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:fill, :seriestype),Tuple{Bool,Symbol}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:framestyle, :title, :color, :layout, :label, :markerstrokewidth, :ticks, :seriestype),Tuple{Array{Symbol,2},Array{String,2},Base.ReshapedArray{Int64,2,UnitRange{Int64},Tuple{}},Int64,String,Int64,UnitRange{Int64},Symbol}},typeof(plot),Array{Array{Float64,1},1},Array{Array{Float64,1},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:grid, :title),Tuple{Tuple{Symbol,Symbol,Symbol,Int64,Float64},String}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:lab, :w, :palette, :fill, :α),Tuple{String,Int64,PlotUtils.ContinuousColorGradient,Int64,Float64}},typeof(plot),StepRange{Int64,Int64},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:label, :title, :xlabel, :linewidth, :legend),Tuple{Array{String,2},String,String,Int64,Symbol}},typeof(plot),Array{Function,1},Float64,Vararg{Float64,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:label,),Tuple{Array{String,2}}},typeof(plot),Array{AbstractArray{Float64,1},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :group, :linetype, :linecolor),Tuple{Plots.GridLayout,Array{String,1},Array{Symbol,2},Symbol}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :label, :fillrange, :fillalpha),Tuple{Tuple{Int64,Int64},String,Int64,Float64}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend},Vararg{Plots.Plot{Plots.GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :label, :fillrange, :fillalpha),Tuple{Tuple{Int64,Int64},String,Int64,Float64}},typeof(plot),Plots.Plot{Plots.PlotlyBackend},Plots.Plot{Plots.PlotlyBackend},Vararg{Plots.Plot{Plots.PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :link),Tuple{Int64,Symbol}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :link),Tuple{Int64,Symbol}},typeof(plot),Plots.Plot{Plots.PlotlyBackend},Plots.Plot{Plots.PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :palette, :bg_inside),Tuple{Int64,Array{PlotUtils.ContinuousColorGradient,2},Array{Symbol,2}}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border),Tuple{Plots.GridLayout,Array{Symbol,2},Bool,Nothing,Symbol}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation),Tuple{Plots.GridLayout,Array{String,2},Symbol,Array{Measures.Length{:mm,Float64},2},Measures.Length{:mm,Float64},Int64}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:layout, :xlims),Tuple{Plots.GridLayout,Tuple{Int64,Float64}}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend},Vararg{Plots.Plot{Plots.GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:legend,),Tuple{Bool}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend},Vararg{Plots.Plot{Plots.GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:legend,),Tuple{Bool}},typeof(plot),Plots.Plot{Plots.PlotlyBackend},Plots.Plot{Plots.PlotlyBackend},Vararg{Plots.Plot{Plots.PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Array{Tuple{Int64,Real},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend},Vararg{Plots.Plot{Plots.GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Plots.Plot{Plots.PlotlyBackend},Plots.Plot{Plots.PlotlyBackend},Vararg{Plots.Plot{Plots.PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:line, :lab, :ms),Tuple{Tuple{Array{Symbol,2},Int64},Array{String,2},Int64}},typeof(plot),Array{Array{T,1} where T,1},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:line, :label, :legendtitle),Tuple{Tuple{Int64,Array{Symbol,2}},Array{String,2},String}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:line, :leg, :fill),Tuple{Int64,Bool,Tuple{Int64,Symbol}}},typeof(plot),Function,Function,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:line, :marker, :bg, :fg, :xlim, :ylim, :leg),Tuple{Tuple{Int64,Symbol,Symbol},Tuple{Shape,Int64,RGBA{Float64}},Symbol,Symbol,Tuple{Int64,Int64},Tuple{Int64,Int64},Bool}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:line_z, :linewidth, :legend),Tuple{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Int64,Bool}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:m, :lab, :bg, :xlim, :ylim, :seriestype),Tuple{Tuple{Int64,Symbol},Array{String,2},Symbol,Tuple{Int64,Int64},Tuple{Int64,Int64},Symbol}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:marker,),Tuple{Bool}},typeof(plot),Array{Union{Missing, Int64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:marker_z, :color, :legend, :seriestype),Tuple{typeof(+),Symbol,Bool,Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:nbins, :seriestype),Tuple{Int64,Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:nbins, :show_empty_bins, :normed, :aspect_ratio, :seriestype),Tuple{Tuple{Int64,Int64},Bool,Bool,Int64,Symbol}},typeof(plot),Array{Complex{Float64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:proj, :m),Tuple{Symbol,Int64}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:projection, :seriestype),Tuple{Symbol,Symbol}},typeof(plot),Array{Int64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:quiver, :seriestype),Tuple{Tuple{Array{Float64,1},Array{Float64,1},Array{Float64,1}},Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Array{Float64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:reg, :fill),Tuple{Bool,Tuple{Int64,Symbol}}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:ribbon,),Tuple{Tuple{LinRange{Float64},LinRange{Float64}}}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:ribbon,),Tuple{typeof(sqrt)}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:seriestype, :markershape, :markersize, :color),Tuple{Array{Symbol,2},Array{Symbol,1},Int64,Array{Symbol,1}}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot),Array{Dates.DateTime,1},UnitRange{Int64},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot),Array{OHLC,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:st, :xlabel, :ylabel, :zlabel),Tuple{Symbol,String,String,String}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Array{Float64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:title, :l, :seriestype),Tuple{String,Float64,Symbol}},typeof(plot),Array{String,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:title,),Tuple{Array{String,2}}},typeof(plot),Plots.Plot{Plots.GRBackend},Plots.Plot{Plots.GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:title,),Tuple{Array{String,2}}},typeof(plot),Plots.Plot{Plots.PlotlyBackend},Plots.Plot{Plots.PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:title,),Tuple{String}},typeof(plot),Plots.Plot{Plots.GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:title,),Tuple{String}},typeof(plot),Plots.Plot{Plots.PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:w,),Tuple{Int64}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:xaxis, :background_color, :leg),Tuple{Tuple{String,Tuple{Int64,Int64},StepRange{Int64,Int64},Symbol},RGB{Float64},Bool}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:yflip, :aspect_ratio),Tuple{Bool,Symbol}},typeof(plot),Array{Float64,1},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.plot)),NamedTuple{(:zcolor, :m, :leg, :cbar, :w),Tuple{StepRange{Int64,Int64},Tuple{Int64,Float64,Symbol,Plots.Stroke},Bool,Bool,Int64}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.portfoliocomposition)),Any,typeof(portfoliocomposition),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.scatter!)),Any,typeof(scatter!),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.scatter!)),Any,typeof(scatter!),Any})
Base.precompile(Tuple{Core.kwftype(typeof(Plots.test_examples)),NamedTuple{(:skip,),Tuple{Array{Int64,1}}},typeof(test_examples),Symbol})
Base.precompile(Tuple{Type{Plots.GridLayout},Int64,Vararg{Int64,N} where N})
Base.precompile(Tuple{Type{Shape},Array{Tuple{Float64,Float64},1}})
Base.precompile(Tuple{typeof(Base.Broadcast.copyto_nonleaf!),Array{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},1},Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Tuple{Base.OneTo{Int64}},typeof(Plots.contour_levels),Tuple{Base.Broadcast.Extruded{Array{Any,1},Tuple{Bool},Tuple{Int64}},Base.RefValue{Tuple{Float64,Float64}}}},Base.OneTo{Int64},Int64,Int64})
Base.precompile(Tuple{typeof(Base.Broadcast.materialize),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Nothing,typeof(Plots.contour_levels),Tuple{Array{Any,1},Base.RefValue{Tuple{Float64,Float64}}}}})
Base.precompile(Tuple{typeof(Base.Broadcast.materialize),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Nothing,typeof(Plots.get_linecolor),Tuple{Array{Any,1},Base.RefValue{Tuple{Float64,Float64}}}}})
Base.precompile(Tuple{typeof(Base.collect_similar),Array{AbstractLayout,1},Base.Generator{Array{AbstractLayout,1},typeof(Plots.leftpad)}})
Base.precompile(Tuple{typeof(Base.collect_similar),Array{AbstractLayout,2},Base.Generator{Array{AbstractLayout,2},typeof(Plots._update_min_padding!)}})
Base.precompile(Tuple{typeof(Base.vect),Tuple{Int64,Float64,Plots.PlotText},Vararg{Tuple{Int64,Float64,Plots.PlotText},N} where N})
Base.precompile(Tuple{typeof(Plots._bin_centers),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}}})
Base.precompile(Tuple{typeof(Plots._cbar_unique),Array{Int64,1},String})
Base.precompile(Tuple{typeof(Plots._cbar_unique),Array{Nothing,1},String})
Base.precompile(Tuple{typeof(Plots._cbar_unique),Array{PlotUtils.ContinuousColorGradient,1},String})
Base.precompile(Tuple{typeof(Plots._cbar_unique),Array{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},1},String})
Base.precompile(Tuple{typeof(Plots._cbar_unique),Array{Symbol,1},String})
Base.precompile(Tuple{typeof(Plots._cycle),Array{Float64,1},Array{Int64,1}})
Base.precompile(Tuple{typeof(Plots._cycle),Array{Float64,1},StepRange{Int64,Int64}})
Base.precompile(Tuple{typeof(Plots._cycle),Array{Float64,1},UnitRange{Int64}})
Base.precompile(Tuple{typeof(Plots._cycle),Base.OneTo{Int64},Array{Int64,1}})
Base.precompile(Tuple{typeof(Plots._cycle),StepRange{Int64,Int64},Array{Int64,1}})
Base.precompile(Tuple{typeof(Plots._do_plot_show),Plots.Plot{Plots.GRBackend},Bool})
Base.precompile(Tuple{typeof(Plots._do_plot_show),Plots.Plot{Plots.PlotlyBackend},Bool})
Base.precompile(Tuple{typeof(Plots._heatmap_edges),Array{Float64,1},Bool})
Base.precompile(Tuple{typeof(Plots._plot!),Plots.Plot,Any,Any})
Base.precompile(Tuple{typeof(Plots._preprocess_barlike),RecipesPipeline.DefaultsDict,Base.OneTo{Int64},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots._preprocess_binlike),RecipesPipeline.DefaultsDict,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots._replace_markershape),Array{Symbol,1}})
Base.precompile(Tuple{typeof(Plots._update_min_padding!),Plots.GridLayout})
Base.precompile(Tuple{typeof(Plots._update_subplot_args),Plots.Plot{Plots.GRBackend},Plots.Subplot{Plots.GRBackend},Dict{Symbol,Any},Int64,Bool})
Base.precompile(Tuple{typeof(Plots._update_subplot_args),Plots.Plot{Plots.PlotlyBackend},Plots.Subplot{Plots.PlotlyBackend},Dict{Symbol,Any},Int64,Bool})
Base.precompile(Tuple{typeof(Plots._update_subplot_periphery),Plots.Subplot{Plots.GRBackend},Array{Any,1}})
Base.precompile(Tuple{typeof(Plots.build_layout),Plots.GridLayout,Int64})
Base.precompile(Tuple{typeof(Plots.convert_to_polar),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1},Tuple{Int64,Float64}})
Base.precompile(Tuple{typeof(Plots.create_grid),Expr})
Base.precompile(Tuple{typeof(Plots.error_coords),Array{Float64,1},Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots.error_zipit),Tuple{Array{Float64,1},Array{Float64,1},Array{Float64,1}}})
Base.precompile(Tuple{typeof(Plots.fakedata),Int64,Vararg{Int64,N} where N})
Base.precompile(Tuple{typeof(Plots.get_clims),Plots.Subplot{Plots.GRBackend},Plots.Series,Function})
Base.precompile(Tuple{typeof(Plots.get_minor_ticks),Plots.Subplot{Plots.GRBackend},Plots.Axis,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(Plots.get_minor_ticks),Plots.Subplot{Plots.GRBackend},Plots.Axis,Tuple{Array{Int64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(Plots.get_series_color),Array{Symbol,1},Plots.Subplot{Plots.GRBackend},Int64,Symbol})
Base.precompile(Tuple{typeof(Plots.get_series_color),Array{Symbol,1},Plots.Subplot{Plots.PlotlyBackend},Int64,Symbol})
Base.precompile(Tuple{typeof(Plots.get_xy),Array{OHLC,1}})
Base.precompile(Tuple{typeof(Plots.gr_add_legend),Plots.Subplot{Plots.GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor),NTuple{9,Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots.gr_add_legend),Plots.Subplot{Plots.GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor),Tuple{Int64,Float64,Float64,Float64,Int64,Float64,Float64,Float64,Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots.gr_display),Plots.Subplot{Plots.GRBackend},Measures.Length{:mm,Float64},Measures.Length{:mm,Float64},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots.gr_draw_colorbar),Plots.GRColorbar,Plots.Subplot{Plots.GRBackend},Tuple{Float64,Float64},Array{Float64,1}})
Base.precompile(Tuple{typeof(Plots.gr_draw_contour),Plots.Series,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_grid),Plots.Subplot{Plots.GRBackend},Plots.Axis,Segments{Tuple{Float64,Float64}}})
Base.precompile(Tuple{typeof(Plots.gr_draw_heatmap),Plots.Series,Array{Float64,1},Array{Float64,1},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_heatmap),Plots.Series,Base.OneTo{Int64},Base.OneTo{Int64},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_markers),Plots.Series,Array{Int64,1},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_markers),Plots.Series,Base.OneTo{Int64},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_markers),Plots.Series,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_segments),Plots.Series,Array{Float64,1},Array{Float64,1},Int64,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_segments),Plots.Series,Base.OneTo{Int64},Array{Float64,1},Nothing,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_draw_segments),Plots.Series,StepRange{Int64,Int64},Array{Float64,1},Int64,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(Plots.gr_get_ticks_size),Tuple{Array{Float64,1},Array{Any,1}},Int64})
Base.precompile(Tuple{typeof(Plots.gr_get_ticks_size),Tuple{Array{Float64,1},Array{String,1}},Int64})
Base.precompile(Tuple{typeof(Plots.gr_get_ticks_size),Tuple{Array{Int64,1},Array{String,1}},Int64})
Base.precompile(Tuple{typeof(Plots.gr_label_ticks),Plots.Subplot{Plots.GRBackend},Symbol,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(Plots.gr_label_ticks_3d),Plots.Subplot{Plots.GRBackend},Symbol,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(Plots.gr_polaraxes),Int64,Float64,Plots.Subplot{Plots.GRBackend}})
Base.precompile(Tuple{typeof(Plots.gr_set_gradient),PlotUtils.ContinuousColorGradient})
Base.precompile(Tuple{typeof(Plots.heatmap_edges),Array{Float64,1},Symbol})
Base.precompile(Tuple{typeof(Plots.heatmap_edges),Base.OneTo{Int64},Symbol})
Base.precompile(Tuple{typeof(Plots.heatmap_edges),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Symbol})
Base.precompile(Tuple{typeof(Plots.heatmap_edges),UnitRange{Int64},Symbol})
Base.precompile(Tuple{typeof(Plots.ignorenan_extrema),StepRange{Int64,Int64}})
Base.precompile(Tuple{typeof(Plots.ignorenan_minimum),Array{Int64,1}})
Base.precompile(Tuple{typeof(Plots.is_marker_supported),Plots.PlotlyBackend,Array{Symbol,1}})
Base.precompile(Tuple{typeof(Plots.layout_args),Int64})
Base.precompile(Tuple{typeof(Plots.make_fillrange_side),UnitRange{Int64},LinRange{Float64}})
Base.precompile(Tuple{typeof(Plots.optimal_ticks_and_labels),Plots.Subplot{Plots.GRBackend},Plots.Axis,StepRange{Int64,Int64}})
Base.precompile(Tuple{typeof(Plots.optimal_ticks_and_labels),Plots.Subplot{Plots.GRBackend},Plots.Axis,UnitRange{Int64}})
Base.precompile(Tuple{typeof(Plots.processFontArg!),Dict{Symbol,Any},Symbol,Symbol})
Base.precompile(Tuple{typeof(Plots.processGridArg!),Dict{Symbol,Any},Symbol,Symbol})
Base.precompile(Tuple{typeof(Plots.processGridArg!),RecipesPipeline.DefaultsDict,Bool,Symbol})
Base.precompile(Tuple{typeof(Plots.processLineArg),Dict{Symbol,Any},Array{Symbol,2}})
Base.precompile(Tuple{typeof(Plots.processLineArg),Dict{Symbol,Any},Symbol})
Base.precompile(Tuple{typeof(Plots.processMarkerArg),Dict{Symbol,Any},Array{Symbol,2}})
Base.precompile(Tuple{typeof(Plots.processMarkerArg),Dict{Symbol,Any},Plots.Stroke})
Base.precompile(Tuple{typeof(Plots.processMarkerArg),Dict{Symbol,Any},RGBA{Float64}})
Base.precompile(Tuple{typeof(Plots.processMarkerArg),Dict{Symbol,Any},Shape})
Base.precompile(Tuple{typeof(Plots.processMarkerArg),Dict{Symbol,Any},Symbol})
Base.precompile(Tuple{typeof(Plots.process_annotation),Plots.Subplot{Plots.GRBackend},Int64,Float64,Plots.PlotText})
Base.precompile(Tuple{typeof(Plots.process_annotation),Plots.Subplot{Plots.PlotlyBackend},Int64,Float64,Plots.PlotText})
Base.precompile(Tuple{typeof(Plots.process_axis_arg!),Dict{Symbol,Any},StepRange{Int64,Int64},Symbol})
Base.precompile(Tuple{typeof(Plots.process_axis_arg!),Dict{Symbol,Any},Symbol,Symbol})
Base.precompile(Tuple{typeof(Plots.process_axis_arg!),Dict{Symbol,Any},Tuple{Int64,Int64},Symbol})
Base.precompile(Tuple{typeof(Plots.quiver_using_arrows),RecipesPipeline.DefaultsDict})
Base.precompile(Tuple{typeof(Plots.quiver_using_hack),RecipesPipeline.DefaultsDict})
Base.precompile(Tuple{typeof(Plots.reset_axis_defaults_byletter!)})
Base.precompile(Tuple{typeof(Plots.slice_arg),Array{Measures.Length{:mm,Float64},2},Int64})
Base.precompile(Tuple{typeof(Plots.slice_arg),Array{PlotUtils.ContinuousColorGradient,2},Int64})
Base.precompile(Tuple{typeof(Plots.slice_arg),Array{RGBA{Float64},2},Int64})
Base.precompile(Tuple{typeof(Plots.slice_arg),Array{String,2},Int64})
Base.precompile(Tuple{typeof(Plots.slice_arg),Array{Symbol,2},Int64})
Base.precompile(Tuple{typeof(Plots.slice_arg),Base.ReshapedArray{Int64,2,UnitRange{Int64},Tuple{}},Int64})
Base.precompile(Tuple{typeof(Plots.straightline_data),Tuple{Float64,Float64},Tuple{Float64,Float64},Array{Float64,1},Array{Float64,1},Int64})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},AbstractArray{OHLC,1}})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Array{Complex{Float64},1}})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Plots.PortfolioComposition})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:barhist}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:bar}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:histogram2d}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:hline}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:pie}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:quiver}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:spy}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:sticks}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:xerror}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesPipeline._finish_userrecipe!),Plots.Plot{Plots.GRBackend},Array{Dict{Symbol,Any},1},RecipeData})
Base.precompile(Tuple{typeof(RecipesPipeline._finish_userrecipe!),Plots.Plot{Plots.PlotlyBackend},Array{Dict{Symbol,Any},1},RecipeData})
Base.precompile(Tuple{typeof(RecipesPipeline.add_series!),Plots.Plot{Plots.GRBackend},RecipesPipeline.DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.add_series!),Plots.Plot{Plots.PlotlyBackend},RecipesPipeline.DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plots.Plot{Plots.GRBackend},Dict{Symbol,Any},Array{Dict{Symbol,Any},1}})
Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plots.Plot{Plots.PlotlyBackend},Dict{Symbol,Any},Array{Dict{Symbol,Any},1}})
Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_attributes!),Plots.Plot{Plots.GRBackend},RecipesPipeline.DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plots.Plot{Plots.GRBackend},Array{Dict{Symbol,Any},1},Dict{Symbol,Any}})
Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plots.Plot{Plots.PlotlyBackend},Array{Dict{Symbol,Any},1},Dict{Symbol,Any}})
Base.precompile(Tuple{typeof(RecipesPipeline.unzip),Array{GeometryBasics.Point{2,Float64},1}})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.GRBackend},Array{RecipeData,1},Symbol,String})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.GRBackend},Dict{Symbol,Any},Symbol,String})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.GRBackend},RecipesPipeline.DefaultsDict,Symbol,String})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.PlotlyBackend},Array{RecipeData,1},Symbol,String})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.PlotlyBackend},Dict{Symbol,Any},Symbol,String})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plots.Plot{Plots.PlotlyBackend},RecipesPipeline.DefaultsDict,Symbol,String})
Base.precompile(Tuple{typeof(backend),Plots.PlotlyBackend})
Base.precompile(Tuple{typeof(bbox),Float64,Float64,Float64,Float64})
Base.precompile(Tuple{typeof(bbox),Measures.Length{:mm,Float64},Measures.Length{:mm,Float64},Measures.Length{:mm,Float64},Measures.Length{:mm,Float64}})
Base.precompile(Tuple{typeof(contour),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Tuple{Base.OneTo{Int64}},typeof(Plots.get_colorgradient),Tuple{Array{Any,1}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Tuple{Base.OneTo{Int64}},typeof(Plots.get_linealpha),Tuple{Array{Any,1}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Tuple{Base.OneTo{Int64}},typeof(Plots.get_linestyle),Tuple{Array{Any,1}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{1},Tuple{Base.OneTo{Int64}},typeof(Plots.get_linewidth),Tuple{Array{Any,1}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.DefaultArrayStyle{2},Tuple{Base.OneTo{Int64},Base.OneTo{Int64}},typeof(Plots.gr_color),Tuple{Array{RGBA{Float64},2}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.Style{Tuple},Nothing,typeof(string),Tuple{Base.Broadcast.Broadcasted{Base.Broadcast.Style{Tuple},Nothing,typeof(typeof),Tuple{Tuple{Plots.PortfolioComposition}}}}}})
Base.precompile(Tuple{typeof(copy),Base.Broadcast.Broadcasted{Base.Broadcast.Style{Tuple},Nothing,typeof(string),Tuple{Base.Broadcast.Broadcasted{Base.Broadcast.Style{Tuple},Nothing,typeof(typeof),Tuple{Tuple{Plots.Spy}}}}}})
Base.precompile(Tuple{typeof(deepcopy),Plots.Plot{Plots.PlotlyBackend}})
Base.precompile(Tuple{typeof(font),String,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(iter_segments),Array{Float64,1},Array{Float64,1},UnitRange{Int64}})
Base.precompile(Tuple{typeof(iter_segments),Base.OneTo{Int64},Array{Float64,1}})
Base.precompile(Tuple{typeof(merge),NamedTuple{(:annotation,),Tuple{Array{Tuple{Int64,Float64,Plots.PlotText},1}}},Base.Iterators.Pairs{Union{},Union{},Tuple{},NamedTuple{(),Tuple{}}}})
Base.precompile(Tuple{typeof(merge),NamedTuple{(:zcolor, :m, :ms, :lab),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Plots.Stroke},Array{Float64,1},String}},NamedTuple{(:seriestype,),Tuple{Symbol}}})
Base.precompile(Tuple{typeof(pairs),NamedTuple{(:zcolor, :m, :ms, :lab),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Plots.Stroke},Array{Float64,1},String}}})
Base.precompile(Tuple{typeof(plot!),Any})
Base.precompile(Tuple{typeof(plot),Any,Any})
Base.precompile(Tuple{typeof(plot),Any})
Base.precompile(Tuple{typeof(push!),Plots.Plot{Plots.GRBackend},Float64,Array{Float64,1}})
Base.precompile(Tuple{typeof(spy),Any})
Base.precompile(Tuple{typeof(stroke),Int64,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(text),String,Int64,Symbol,Vararg{Symbol,N} where N})
Base.precompile(Tuple{typeof(text),String,Symbol,Int64,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(text),String,Symbol})
Base.precompile(Tuple{typeof(title!),AbstractString})
Base.precompile(Tuple{typeof(vcat),Array{Any,1},Array{Tuple{Int64,Float64,Plots.PlotText},1}})
Base.precompile(Tuple{typeof(vcat),Array{Any,1},Tuple{Int64,Float64,Plots.PlotText}})
Base.precompile(Tuple{typeof(vline!),Any})
Base.precompile(Tuple{typeof(xgrid!),Plots.Plot{Plots.GRBackend},Symbol,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(yaxis!),Any,Any})
let fbody = try __lookup_kwbody__(which(Plots.text, (String,Int64,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Base.Iterators.Pairs{Union{},Union{},Tuple{},NamedTuple{(),Tuple{}}},typeof(text),String,Int64,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(Plots.text, (String,Symbol,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Base.Iterators.Pairs{Union{},Union{},Tuple{},NamedTuple{(),Tuple{}}},typeof(text),String,Symbol,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(Plots.title!, (AbstractString,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(title!),AbstractString,))
end
end
let fbody = try __lookup_kwbody__(which(Plots.vline!, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(vline!),Any,))
end
end
let fbody = try __lookup_kwbody__(which(Plots.yaxis!, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(yaxis!),Any,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot!, ())) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot!, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),Any,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot!, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),Any,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Any,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Any,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot, (Plots.Plot,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plots.Plot,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot, (Plots.Plot,Plots.Plot,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plots.Plot,Plots.Plot,))
end
end
let fbody = try __lookup_kwbody__(which(RecipesBase.plot, (Plots.Plot,Plots.Plot,Vararg{Plots.Plot,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plots.Plot,Plots.Plot,Vararg{Plots.Plot,N} where N,))
end
end
end
-390
View File
@@ -1,390 +0,0 @@
const __bodyfunction__ = Dict{Method,Any}()
# Find keyword "body functions" (the function that contains the body
# as written by the developer, called after all missing keyword-arguments
# have been assigned values), in a manner that doesn't depend on
# gensymmed names.
# `mnokw` is the method that gets called when you invoke it without
# supplying any keywords.
function __lookup_kwbody__(mnokw::Method)
function getsym(arg)
isa(arg, Symbol) && return arg
@assert isa(arg, GlobalRef)
return arg.name
end
f = get(__bodyfunction__, mnokw, nothing)
if f === nothing
fmod = mnokw.module
# The lowered code for `mnokw` should look like
# %1 = mkw(kwvalues..., #self#, args...)
# return %1
# where `mkw` is the name of the "active" keyword body-function.
ast = Base.uncompressed_ast(mnokw)
if isa(ast, Core.CodeInfo) && length(ast.code) >= 2
callexpr = ast.code[end-1]
if isa(callexpr, Expr) && callexpr.head == :call
fsym = callexpr.args[1]
if isa(fsym, Symbol)
f = getfield(fmod, fsym)
elseif isa(fsym, GlobalRef)
if fsym.mod === Core && fsym.name === :_apply
f = getfield(mnokw.module, getsym(callexpr.args[2]))
elseif fsym.mod === Core && fsym.name === :_apply_iterate
f = getfield(mnokw.module, getsym(callexpr.args[3]))
else
f = getfield(fsym.mod, fsym.name)
end
else
f = missing
end
else
f = missing
end
else
f = missing
end
__bodyfunction__[mnokw] = f
end
return f
end
function _precompile_()
ccall(:jl_generating_output, Cint, ()) == 1 || return nothing
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:label, :blank),Tuple{Symbol,Bool}},Type{EmptyLayout}})
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:label, :width, :height),Tuple{Symbol,Symbol,Length{:pct,Float64}}},Type{EmptyLayout}})
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:parent,),Tuple{GridLayout}},Type{Subplot},GRBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:parent,),Tuple{GridLayout}},Type{Subplot},PlotlyBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:parent,),Tuple{Subplot{GRBackend}}},Type{Subplot},GRBackend})
Base.precompile(Tuple{Core.kwftype(typeof(Type)),NamedTuple{(:parent,),Tuple{Subplot{PlotlyBackend}}},Type{Subplot},PlotlyBackend})
Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Array{Int64,1}}},typeof(_make_hist),Tuple{Array{Float64,1}},Symbol})
Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Nothing}},typeof(_make_hist),Tuple{Array{Float64,1},Array{Float64,1}},Int64})
Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights),Tuple{Bool,Nothing}},typeof(_make_hist),Tuple{Array{Float64,1}},Symbol})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:flip,),Tuple{Bool}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:formatter,),Tuple{Symbol}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:formatter,),Tuple{typeof(datetimeformatter)}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:grid, :lims),Tuple{Bool,Tuple{Float64,Float64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:grid, :lims, :flip),Tuple{Bool,Tuple{Float64,Float64},Bool}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:grid,),Tuple{Bool}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:gridlinewidth, :grid, :gridalpha, :gridstyle, :foreground_color_grid),Tuple{Int64,Bool,Float64,Symbol,RGBA{Float64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:guide,),Tuple{String}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:lims, :flip, :ticks, :guide),Tuple{Tuple{Int64,Int64},Bool,StepRange{Int64,Int64},String}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:lims,),Tuple{Tuple{Float64,Float64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:lims,),Tuple{Tuple{Int64,Float64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:lims,),Tuple{Tuple{Int64,Int64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:rotation,),Tuple{Int64}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:scale, :guide),Tuple{Symbol,String}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:ticks,),Tuple{Nothing}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:ticks,),Tuple{UnitRange{Int64}}},typeof(attr!),Axis})
Base.precompile(Tuple{Core.kwftype(typeof(default)),NamedTuple{(:titlefont, :legendfontsize, :guidefont, :tickfont, :guide, :framestyle, :yminorgrid),Tuple{Tuple{Int64,String},Int64,Tuple{Int64,Symbol},Tuple{Int64,Symbol},String,Symbol,Bool}},typeof(default)})
Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(gr_polyline),Array{Int64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(gr_polyline),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(gr_polyline),StepRange{Int64,Int64},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(gr_polyline),UnitRange{Int64},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle),Tuple{Symbol,Symbol}},typeof(gr_polyline),UnitRange{Int64},UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(heatmap)),Any,typeof(heatmap),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(hline!)),Any,typeof(hline!),Any})
Base.precompile(Tuple{Core.kwftype(typeof(lens!)),Any,typeof(lens!),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype),Tuple{Float64,Symbol}},typeof(plot!),Array{GeometryBasics.Point{2,Float64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype),Tuple{Float64,Symbol}},typeof(plot!),Plot{GRBackend},Array{GeometryBasics.Point{2,Float64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:annotation,),Tuple{Array{Tuple{Int64,Float64,PlotText},1}}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype),Tuple{Tuple{Int64,Symbol,Float64,Array{Symbol,2}},Symbol}},typeof(plot!),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color),Tuple{Int64,Symbol}},typeof(plot!),Function,Float64,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color),Tuple{Int64,Symbol}},typeof(plot!),Plot{GRBackend},Function,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),Plot{GRBackend},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),Plot{PlotlyBackend},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype),Tuple{Tuple{Int64,Float64,Symbol},Array{Any,1},Symbol}},typeof(plot!),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:markersize, :c, :seriestype),Tuple{Int64,Symbol,Symbol}},typeof(plot!),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,BoundingBox{Tuple{Length{:w,Float64},Length{:h,Float64}},Tuple{Length{:w,Float64},Length{:h,Float64}}}}}},typeof(plot!),Array{Int64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,BoundingBox{Tuple{Length{:w,Float64},Length{:h,Float64}},Tuple{Length{:w,Float64},Length{:h,Float64}}}}}},typeof(plot!),Plot{GRBackend},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype, :inset),Tuple{Symbol,Tuple{Int64,BoundingBox{Tuple{Length{:w,Float64},Length{:h,Float64}},Tuple{Length{:w,Float64},Length{:h,Float64}}}}}},typeof(plot!),Plot{PlotlyBackend},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot!),Array{Int64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:title,),Tuple{String}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:w,),Tuple{Int64}},typeof(plot!),Plot{GRBackend},Array{Float64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:xgrid,),Tuple{Tuple{Symbol,Symbol,Int64,Symbol,Float64}}},typeof(plot!),Plot{GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:yaxis,),Tuple{Tuple{String,Symbol}}},typeof(plot!)})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Plot{GRBackend},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype),Tuple{Array{Float64,1},Tuple{Symbol,Float64,Stroke},Array{Float64,1},String,Symbol}},typeof(plot!),Plot{PlotlyBackend},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:annotations, :leg),Tuple{Tuple{Int64,Float64,PlotText},Bool}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:aspect_ratio, :seriestype),Tuple{Int64,Symbol}},typeof(plot),Array{String,1},Array{String,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bins, :weights, :seriestype),Tuple{Symbol,Array{Int64,1},Symbol}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:color, :line, :marker),Tuple{Array{Symbol,2},Tuple{Symbol,Int64},Tuple{Array{Symbol,2},Int64,Float64,Stroke}}},typeof(plot),Array{Array{T,1} where T,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:connections, :seriestype),Tuple{Tuple{Array{Int64,1},Array{Int64,1},Array{Int64,1}},Symbol}},typeof(plot),Array{Int64,1},Array{Int64,1},Vararg{Array{Int64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill, :seriestype),Tuple{Bool,Symbol}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:framestyle, :title, :color, :layout, :label, :markerstrokewidth, :ticks, :seriestype),Tuple{Array{Symbol,2},Array{String,2},Base.ReshapedArray{Int64,2,UnitRange{Int64},Tuple{}},Int64,String,Int64,UnitRange{Int64},Symbol}},typeof(plot),Array{Array{Float64,1},1},Array{Array{Float64,1},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:grid, :title),Tuple{Tuple{Symbol,Symbol,Symbol,Int64,Float64},String}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:lab, :w, :palette, :fill, :α),Tuple{String,Int64,PlotUtils.ContinuousColorGradient,Int64,Float64}},typeof(plot),StepRange{Int64,Int64},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :title, :xlabel, :linewidth, :legend),Tuple{Array{String,2},String,String,Int64,Symbol}},typeof(plot),Array{Function,1},Float64,Vararg{Float64,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label,),Tuple{Array{String,2}}},typeof(plot),Array{AbstractArray{Float64,1},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :group, :linetype, :linecolor),Tuple{GridLayout,Array{String,1},Array{Symbol,2},Symbol}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :label, :fillrange, :fillalpha),Tuple{Tuple{Int64,Int64},String,Int64,Float64}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :label, :fillrange, :fillalpha),Tuple{Tuple{Int64,Int64},String,Int64,Float64}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :link),Tuple{Int64,Symbol}},typeof(plot),Plot{GRBackend},Plot{GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :link),Tuple{Int64,Symbol}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :palette, :bg_inside),Tuple{Int64,Array{PlotUtils.ContinuousColorGradient,2},Array{Symbol,2}}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border),Tuple{GridLayout,Array{Symbol,2},Bool,Nothing,Symbol}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation),Tuple{GridLayout,Array{String,2},Symbol,Array{Length{:mm,Float64},2},Length{:mm,Float64},Int64}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xlims),Tuple{GridLayout,Tuple{Int64,Float64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,),Tuple{Bool}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,),Tuple{Bool}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Array{Tuple{Int64,Real},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,),Tuple{Symbol}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :lab, :ms),Tuple{Tuple{Array{Symbol,2},Int64},Array{String,2},Int64}},typeof(plot),Array{Array{T,1} where T,1},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :label, :legendtitle),Tuple{Tuple{Int64,Array{Symbol,2}},Array{String,2},String}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :leg, :fill),Tuple{Int64,Bool,Tuple{Int64,Symbol}}},typeof(plot),Function,Function,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :marker, :bg, :fg, :xlim, :ylim, :leg),Tuple{Tuple{Int64,Symbol,Symbol},Tuple{Shape,Int64,RGBA{Float64}},Symbol,Symbol,Tuple{Int64,Int64},Tuple{Int64,Int64},Bool}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line_z, :linewidth, :legend),Tuple{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Int64,Bool}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:m, :lab, :bg, :xlim, :ylim, :seriestype),Tuple{Tuple{Int64,Symbol},Array{String,2},Symbol,Tuple{Int64,Int64},Tuple{Int64,Int64},Symbol}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker,),Tuple{Bool}},typeof(plot),Array{Union{Missing, Int64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker_z, :color, :legend, :seriestype),Tuple{typeof(+),Symbol,Bool,Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:nbins, :seriestype),Tuple{Int64,Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:nbins, :show_empty_bins, :normed, :aspect_ratio, :seriestype),Tuple{Tuple{Int64,Int64},Bool,Bool,Int64,Symbol}},typeof(plot),Array{Complex{Float64},1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:proj, :m),Tuple{Symbol,Int64}},typeof(plot),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:projection, :seriestype),Tuple{Symbol,Symbol}},typeof(plot),Array{Int64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:quiver, :seriestype),Tuple{Tuple{Array{Float64,1},Array{Float64,1},Array{Float64,1}},Symbol}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Array{Float64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:reg, :fill),Tuple{Bool,Tuple{Int64,Symbol}}},typeof(plot),Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,),Tuple{Int64}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,),Tuple{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}}}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,),Tuple{Tuple{LinRange{Float64},LinRange{Float64}}}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,),Tuple{typeof(sqrt)}},typeof(plot),UnitRange{Int64}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype, :markershape, :markersize, :color),Tuple{Array{Symbol,2},Array{Symbol,1},Int64,Array{Symbol,1}}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot),Array{DateTime,1},UnitRange{Int64},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,),Tuple{Symbol}},typeof(plot),Array{OHLC,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:st, :xlabel, :ylabel, :zlabel),Tuple{Symbol,String,String,String}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Array{Float64,1},N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :l, :seriestype),Tuple{String,Float64,Symbol}},typeof(plot),Array{String,1},Array{Float64,1}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,),Tuple{Array{String,2}}},typeof(plot),Plot{GRBackend},Plot{GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,),Tuple{Array{String,2}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,),Tuple{String}},typeof(plot),Plot{GRBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,),Tuple{String}},typeof(plot),Plot{PlotlyBackend}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:w,),Tuple{Int64}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:xaxis, :background_color, :leg),Tuple{Tuple{String,Tuple{Int64,Int64},StepRange{Int64,Int64},Symbol},RGB{Float64},Bool}},typeof(plot),Array{Float64,2}})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:yflip, :aspect_ratio),Tuple{Bool,Symbol}},typeof(plot),Array{Float64,1},Array{Int64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:zcolor, :m, :leg, :cbar, :w),Tuple{StepRange{Int64,Int64},Tuple{Int64,Float64,Symbol,Stroke},Bool,Bool,Int64}},typeof(plot),Array{Float64,1},Array{Float64,1},Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(portfoliocomposition)),Any,typeof(portfoliocomposition),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(scatter!)),Any,typeof(scatter!),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{Core.kwftype(typeof(scatter!)),Any,typeof(scatter!),Any})
Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip, :disp),Tuple{Array{Int64,1},Bool}},typeof(test_examples),Symbol})
Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip,),Tuple{Array{Int64,1}}},typeof(test_examples),Symbol})
Base.precompile(Tuple{Type{GridLayout},Int64,Vararg{Int64,N} where N})
Base.precompile(Tuple{Type{Shape},Array{Tuple{Float64,Float64},1}})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},AbstractArray{OHLC,1}})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Array{Complex{Float64},1}})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},PortfolioComposition})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:barbins}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:barhist}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:bar}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:histogram2d}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:hline}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:pie}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:quiver}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:spy}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:sticks}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol,Any},Type{Val{:xerror}},Any,Any,Any})
Base.precompile(Tuple{typeof(RecipesPipeline.add_series!),Plot{GRBackend},DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.add_series!),Plot{PlotlyBackend},DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{GRBackend},Dict{Symbol,Any},Array{Dict{Symbol,Any},1}})
Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{PlotlyBackend},Dict{Symbol,Any},Array{Dict{Symbol,Any},1}})
Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_attributes!),Plot{GRBackend},DefaultsDict})
Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{GRBackend},Array{Dict{Symbol,Any},1},Dict{Symbol,Any}})
Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{PlotlyBackend},Array{Dict{Symbol,Any},1},Dict{Symbol,Any}})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plot{GRBackend},DefaultsDict,Symbol,Any})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plot{GRBackend},Dict{Symbol,Any},Symbol,Any})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plot{PlotlyBackend},DefaultsDict,Symbol,Any})
Base.precompile(Tuple{typeof(RecipesPipeline.warn_on_recipe_aliases!),Plot{PlotlyBackend},Dict{Symbol,Any},Symbol,Any})
Base.precompile(Tuple{typeof(_bin_centers),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}}})
Base.precompile(Tuple{typeof(_cbar_unique),Array{Int64,1},String})
Base.precompile(Tuple{typeof(_cbar_unique),Array{Nothing,1},String})
Base.precompile(Tuple{typeof(_cbar_unique),Array{PlotUtils.ContinuousColorGradient,1},String})
Base.precompile(Tuple{typeof(_cbar_unique),Array{StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},1},String})
Base.precompile(Tuple{typeof(_cbar_unique),Array{Symbol,1},String})
Base.precompile(Tuple{typeof(_cycle),Array{Float64,1},Array{Int64,1}})
Base.precompile(Tuple{typeof(_cycle),Array{Float64,1},StepRange{Int64,Int64}})
Base.precompile(Tuple{typeof(_cycle),Array{Float64,1},UnitRange{Int64}})
Base.precompile(Tuple{typeof(_cycle),Base.OneTo{Int64},Array{Int64,1}})
Base.precompile(Tuple{typeof(_cycle),StepRange{Int64,Int64},Array{Int64,1}})
Base.precompile(Tuple{typeof(_do_plot_show),Plot{GRBackend},Bool})
Base.precompile(Tuple{typeof(_do_plot_show),Plot{PlotlyBackend},Bool})
Base.precompile(Tuple{typeof(_heatmap_edges),Array{Float64,1},Bool})
Base.precompile(Tuple{typeof(_plot!),Plot,Any,Any})
Base.precompile(Tuple{typeof(_preprocess_barlike),DefaultsDict,Base.OneTo{Int64},Array{Float64,1}})
Base.precompile(Tuple{typeof(_preprocess_binlike),DefaultsDict,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(_replace_markershape),Array{Symbol,1}})
Base.precompile(Tuple{typeof(_update_min_padding!),GridLayout})
Base.precompile(Tuple{typeof(_update_subplot_args),Plot{GRBackend},Subplot{GRBackend},Dict{Symbol,Any},Int64,Bool})
Base.precompile(Tuple{typeof(_update_subplot_args),Plot{PlotlyBackend},Subplot{PlotlyBackend},Dict{Symbol,Any},Int64,Bool})
Base.precompile(Tuple{typeof(backend),PlotlyBackend})
Base.precompile(Tuple{typeof(bbox),Float64,Float64,Float64,Float64})
Base.precompile(Tuple{typeof(bbox),Length{:mm,Float64},Length{:mm,Float64},Length{:mm,Float64},Length{:mm,Float64}})
Base.precompile(Tuple{typeof(build_layout),GridLayout,Int64})
Base.precompile(Tuple{typeof(contour),Any,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(convert_to_polar),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1},Tuple{Int64,Float64}})
Base.precompile(Tuple{typeof(create_grid),Expr})
Base.precompile(Tuple{typeof(error_coords),Array{Float64,1},Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{typeof(error_zipit),Tuple{Array{Float64,1},Array{Float64,1},Array{Float64,1}}})
Base.precompile(Tuple{typeof(fakedata),Int64,Vararg{Int64,N} where N})
Base.precompile(Tuple{typeof(font),String,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(get_clims),Subplot{GRBackend},Series,Function})
Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Array{Int64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(get_series_color),Array{Symbol,1},Subplot{GRBackend},Int64,Symbol})
Base.precompile(Tuple{typeof(get_series_color),Array{Symbol,1},Subplot{PlotlyBackend},Int64,Symbol})
Base.precompile(Tuple{typeof(get_series_color),PlotUtils.ContinuousColorGradient,Subplot{GRBackend},Int64,Symbol})
Base.precompile(Tuple{typeof(get_xy),Array{OHLC,1}})
Base.precompile(Tuple{typeof(get_xy),OHLC{Float64},Int64,Float64})
Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor),NTuple{9,Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor),Tuple{Int64,Float64,Float64,Float64,Int64,Float64,Float64,Float64,Float64}},Array{Float64,1}})
Base.precompile(Tuple{typeof(gr_display),Subplot{GRBackend},Length{:mm,Float64},Length{:mm,Float64},Array{Float64,1}})
Base.precompile(Tuple{typeof(gr_draw_colorbar),GRColorbar,Subplot{GRBackend},Tuple{Float64,Float64},Array{Float64,1}})
Base.precompile(Tuple{typeof(gr_draw_contour),Series,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_grid),Subplot{GRBackend},Axis,Segments{Tuple{Float64,Float64}}})
Base.precompile(Tuple{typeof(gr_draw_heatmap),Series,Array{Float64,1},Array{Float64,1},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_heatmap),Series,Base.OneTo{Int64},Base.OneTo{Int64},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_markers),Series,Array{Int64,1},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_markers),Series,Base.OneTo{Int64},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_markers),Series,StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,Array{Float64,1},Array{Float64,1},Int64,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,Array{Int64,1},Array{Int64,1},Nothing,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Array{Float64,1},Int64,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Array{Float64,1},Nothing,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},UnitRange{Int64},Tuple{Array{Float64,1},Array{Float64,1}},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_segments),Series,StepRange{Int64,Int64},Array{Float64,1},Int64,Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_surface),Series,Array{Float64,1},Array{Float64,1},Array{Float64,1},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_draw_surface),Series,Array{Float64,1},Array{Float64,1},Array{Float64,2},Tuple{Float64,Float64}})
Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Array{Float64,1},Array{Any,1}},Int64})
Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Array{Float64,1},Array{String,1}},Int64})
Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Array{Int64,1},Array{String,1}},Int64})
Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(gr_label_ticks_3d),Subplot{GRBackend},Symbol,Tuple{Array{Float64,1},Array{String,1}}})
Base.precompile(Tuple{typeof(gr_polaraxes),Int64,Float64,Subplot{GRBackend}})
Base.precompile(Tuple{typeof(gr_polyline),Array{Float64,1},Array{Float64,1},Function})
Base.precompile(Tuple{typeof(gr_set_gradient),PlotUtils.ContinuousColorGradient})
Base.precompile(Tuple{typeof(heatmap_edges),Array{Float64,1},Symbol})
Base.precompile(Tuple{typeof(heatmap_edges),Base.OneTo{Int64},Symbol})
Base.precompile(Tuple{typeof(heatmap_edges),StepRangeLen{Float64,Base.TwicePrecision{Float64},Base.TwicePrecision{Float64}},Symbol})
Base.precompile(Tuple{typeof(heatmap_edges),UnitRange{Int64},Symbol})
Base.precompile(Tuple{typeof(ignorenan_minimum),Array{Int64,1}})
Base.precompile(Tuple{typeof(iter_segments),Array{Float64,1},Array{Float64,1},UnitRange{Int64}})
Base.precompile(Tuple{typeof(iter_segments),Array{Float64,1},Array{Float64,1}})
Base.precompile(Tuple{typeof(iter_segments),Array{Float64,1}})
Base.precompile(Tuple{typeof(iter_segments),Base.OneTo{Int64},Array{Float64,1}})
Base.precompile(Tuple{typeof(layout_args),Int64})
Base.precompile(Tuple{typeof(make_fillrange_side),UnitRange{Int64},LinRange{Float64}})
Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Subplot{GRBackend},Axis,StepRange{Int64,Int64}})
Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Subplot{GRBackend},Axis,UnitRange{Int64}})
Base.precompile(Tuple{typeof(plot!),Any})
Base.precompile(Tuple{typeof(plot),Any,Any})
Base.precompile(Tuple{typeof(plot),Any})
Base.precompile(Tuple{typeof(processFontArg!),Dict{Symbol,Any},Symbol,String})
Base.precompile(Tuple{typeof(processGridArg!),DefaultsDict,Bool,Symbol})
Base.precompile(Tuple{typeof(processGridArg!),Dict{Symbol,Any},Int64,Symbol})
Base.precompile(Tuple{typeof(processGridArg!),Dict{Symbol,Any},Symbol,Symbol})
Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol,Any},Array{Symbol,2}})
Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol,Any},Int64})
Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol,Any},Symbol})
Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol,Any},Array{Symbol,2}})
Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol,Any},RGBA{Float64}})
Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol,Any},Shape})
Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol,Any},Stroke})
Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol,Any},Symbol})
Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,PlotText})
Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,PlotText})
Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol,Any},StepRange{Int64,Int64},Symbol})
Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol,Any},String,Symbol})
Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol,Any},Symbol,Symbol})
Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol,Any},Tuple{Int64,Int64},Symbol})
Base.precompile(Tuple{typeof(push!),Plot{GRBackend},Float64,Array{Float64,1}})
Base.precompile(Tuple{typeof(quiver_using_arrows),DefaultsDict})
Base.precompile(Tuple{typeof(quiver_using_hack),DefaultsDict})
Base.precompile(Tuple{typeof(reset_axis_defaults_byletter!)})
Base.precompile(Tuple{typeof(setindex!),Plot{GRBackend},RGBA{Float64},Symbol})
Base.precompile(Tuple{typeof(slice_arg),Array{Length{:mm,Float64},2},Int64})
Base.precompile(Tuple{typeof(slice_arg),Array{PlotUtils.ContinuousColorGradient,2},Int64})
Base.precompile(Tuple{typeof(slice_arg),Array{RGBA{Float64},2},Int64})
Base.precompile(Tuple{typeof(slice_arg),Array{String,2},Int64})
Base.precompile(Tuple{typeof(slice_arg),Array{Symbol,2},Int64})
Base.precompile(Tuple{typeof(slice_arg),Base.ReshapedArray{Int64,2,UnitRange{Int64},Tuple{}},Int64})
Base.precompile(Tuple{typeof(spy),Any})
Base.precompile(Tuple{typeof(straightline_data),Tuple{Float64,Float64},Tuple{Float64,Float64},Array{Float64,1},Array{Float64,1},Int64})
Base.precompile(Tuple{typeof(stroke),Int64,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(text),String,Int64,Symbol,Vararg{Symbol,N} where N})
Base.precompile(Tuple{typeof(text),String,Symbol,Int64,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(text),String,Symbol})
Base.precompile(Tuple{typeof(title!),AbstractString})
Base.precompile(Tuple{typeof(unzip),Array{GeometryBasics.Point{2,Float64},1}})
Base.precompile(Tuple{typeof(vline!),Any})
Base.precompile(Tuple{typeof(xgrid!),Plot{GRBackend},Symbol,Vararg{Any,N} where N})
Base.precompile(Tuple{typeof(xlims),Subplot{PlotlyBackend}})
Base.precompile(Tuple{typeof(yaxis!),Any,Any})
let fbody = try __lookup_kwbody__(which(gr_polyline, (Array{Float64,1},Array{Float64,1},typeof(GR.fillarea),))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Symbol,Symbol,typeof(gr_polyline),Array{Float64,1},Array{Float64,1},typeof(GR.fillarea),))
end
end
let fbody = try __lookup_kwbody__(which(plot!, ())) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),))
end
end
let fbody = try __lookup_kwbody__(which(plot!, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),Any,))
end
end
let fbody = try __lookup_kwbody__(which(plot!, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot!),Any,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(plot, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Any,))
end
end
let fbody = try __lookup_kwbody__(which(plot, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Any,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(plot, (Plot,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plot,))
end
end
let fbody = try __lookup_kwbody__(which(plot, (Plot,Plot,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plot,Plot,))
end
end
let fbody = try __lookup_kwbody__(which(plot, (Plot,Plot,Vararg{Plot,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(plot),Plot,Plot,Vararg{Plot,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(text, (String,Int64,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Base.Iterators.Pairs{Union{},Union{},Tuple{},NamedTuple{(),Tuple{}}},typeof(text),String,Int64,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(text, (String,Symbol,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Base.Iterators.Pairs{Union{},Union{},Tuple{},NamedTuple{(),Tuple{}}},typeof(text),String,Symbol,Vararg{Any,N} where N,))
end
end
let fbody = try __lookup_kwbody__(which(title!, (AbstractString,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(title!),AbstractString,))
end
end
let fbody = try __lookup_kwbody__(which(vline!, (Any,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(vline!),Any,))
end
end
let fbody = try __lookup_kwbody__(which(yaxis!, (Any,Vararg{Any,N} where N,))) catch missing end
if !ismissing(fbody)
precompile(fbody, (Any,typeof(yaxis!),Any,Vararg{Any,N} where N,))
end
end
end
+3
View File
@@ -3,6 +3,9 @@ using CompileBot
snoop_bench(
BotConfig(
"Plots",
yml_path= "SnoopCompile.yml",
else_os = "linux",
else_version = "1.5",
),
joinpath(@__DIR__, "precompile_script.jl"),
)
+3
View File
@@ -3,6 +3,9 @@ using CompileBot
snoop_bot(
BotConfig(
"Plots",
yml_path= "SnoopCompile.yml",
else_os = "linux",
else_version = "1.5",
),
joinpath(@__DIR__, "precompile_script.jl"),
)
-4
View File
@@ -187,10 +187,6 @@ import RecipesPipeline: SliceIt,
datetimeformatter,
timeformatter
# Use fixed version of Plotly instead of the latest one for stable dependency
# Ref: https://github.com/JuliaPlots/Plots.jl/pull/2779
const _plotly_min_js_filename = "plotly-1.57.1.min.js"
include("types.jl")
include("utils.jl")
include("axes.jl")
+1 -1
View File
@@ -98,7 +98,7 @@ function buildanimation(anim::Animation, fn::AbstractString,
ffmpeg_exe(`-v $verbose_level -framerate $framerate -i $(animdir)/%06d.png -i "$(animdir)/palette.bmp" -lavfi "paletteuse=dither=sierra2_4a" -loop $loop -y $fn`)
end
else
ffmpeg_exe(`-v $verbose_level -framerate $framerate -i $(animdir)/%06d.png -vf format=yuv420p -loop $loop -y $fn`)
ffmpeg_exe(`-v $verbose_level -framerate $framerate -i $(animdir)/%06d.png -loop $loop -y $fn`)
end
show_msg && @info("Saved animation to ", fn)
+2 -8
View File
@@ -94,12 +94,6 @@ function attr!(axis::Axis, args...; kw...)
for vi in v
discrete_value!(axis, vi)
end
#could perhaps use TimeType here, as Date and DateTime are both subtypes of TimeType
# or could perhaps check if dateformatter or datetimeformatter is in use
elseif k == :lims && isa(v, Tuple{Date,Date})
plotattributes[k] = (v[1].instant.periods.value, v[2].instant.periods.value)
elseif k == :lims && isa(v, Tuple{DateTime,DateTime})
plotattributes[k] = (v[1].instant.periods.value, v[2].instant.periods.value)
else
plotattributes[k] = v
end
@@ -815,7 +809,7 @@ function axis_drawing_info_3d(sp, letter)
t = invf(f(na0) + 0.006 * (f(na1) - f(na0)) * ticks_in)
(na0, t)
end
for tick in minor_ticks
for tick in minorticks
if ax[:showaxis]
push!(
tick_segments,
@@ -853,4 +847,4 @@ end
reverse_if(x, cond) = cond ? reverse(x) : x
axis_tuple(x, y, letter) = reverse_if((x, y), letter === :y)
axes_shift(t, i) = i % 3 == 0 ? t : i % 3 == 1 ? (t[3], t[1], t[2]) : (t[2], t[3], t[1])
axes_shift(t, i) = i % 3 == 0 ? t : i % 3 == 1 ? (t[3], t[1], t[2]) : (t[2], t[3], t[1])
+7 -6
View File
@@ -219,7 +219,7 @@ gr_inqtext(x, y, s) = gr_inqtext(x, y, string(s))
function gr_inqtext(x, y, s::AbstractString)
if length(s) >= 2 && s[1] == '$' && s[end] == '$'
GR.inqmathtex(x, y, s[2:end-1])
elseif occursin('\\', s) || occursin("10^{", s)
elseif findfirst(isequal('\\'), s) !== nothing || occursin("10^{", s)
GR.inqtextext(x, y, s)
else
GR.inqtext(x, y, s)
@@ -231,7 +231,7 @@ gr_text(x, y, s) = gr_text(x, y, string(s))
function gr_text(x, y, s::AbstractString)
if length(s) >= 2 && s[1] == '$' && s[end] == '$'
GR.mathtex(x, y, s[2:end-1])
elseif occursin('\\', s) || occursin("10^{", s)
elseif findfirst(isequal('\\'), s) !== nothing || occursin("10^{", s)
GR.textext(x, y, s)
else
GR.text(x, y, s)
@@ -1432,11 +1432,12 @@ function gr_label_axis(sp, letter, viewport_plotarea)
axis = sp[Symbol(letter, :axis)]
# guide
if axis[:guide] != ""
isy = letter === :y
GR.savestate()
gr_set_font(guidefont(axis), sp)
guide_position = axis[:guide_position]
if letter === :y
w = 0.03 + gr_axis_width(sp, axis)
if isy
w = 0.02 + gr_axis_width(sp, axis)
GR.setcharup(-1, 0)
if guide_position == :right || (guide_position == :auto && axis[:mirror])
GR.settextalign(GR.TEXT_HALIGN_CENTER, GR.TEXT_VALIGN_BOTTOM)
@@ -1446,7 +1447,7 @@ function gr_label_axis(sp, letter, viewport_plotarea)
gr_text(viewport_plotarea[1] - w, gr_view_ycenter(viewport_plotarea), axis[:guide])
end
else
h = 0.015 + gr_axis_height(sp, axis)
h = 0.01 + gr_axis_height(sp, axis)
if guide_position == :top || (guide_position == :auto && axis[:mirror])
GR.settextalign(GR.TEXT_HALIGN_CENTER, GR.TEXT_VALIGN_TOP)
gr_text(gr_view_xcenter(viewport_plotarea), viewport_plotarea[4] + h, axis[:guide])
@@ -1491,7 +1492,7 @@ function gr_label_axis_3d(sp, letter)
x_offset = letter === :x ? -h : h
y_offset = -h
else
x_offset = -0.03 - gr_axis_width(sp, ax)
x_offset = -gr_axis_width(sp, ax)
y_offset = 0
end
letter === :z && GR.setcharup(-1, 0)
+80 -80
View File
@@ -46,7 +46,7 @@ import Dates
#Plots.jl imports HDF5 to main:
import ..HDF5
import ..HDF5: Group, Dataset
import ..HDF5: HDF5Group, HDF5Dataset
import ..Colors, ..Colorant
import ..PlotUtils.ColorSchemes.ColorScheme
@@ -159,40 +159,40 @@ _type_for_map(::Type{T}) where T<:Surface = Surface
#==Read/write things like type name in attributes
===============================================================================#
function _write_datatype_attr(ds::Union{Group, Dataset}, ::Type{T}) where T
function _write_datatype_attr(ds::Union{HDF5Group, HDF5Dataset}, ::Type{T}) where T
typestr = HDF5PLOT_MAP_TELEM2STR[T]
HDF5.attributes(ds)["TYPE"] = typestr
HDF5.attrs(ds)["TYPE"] = typestr
end
function _read_datatype_attr(ds::Union{Group, Dataset})
if !Base.haskey(HDF5.attributes(ds), "TYPE")
function _read_datatype_attr(ds::Union{HDF5Group, HDF5Dataset})
if !HDF5.exists(HDF5.attrs(ds), "TYPE")
return HDF5_AutoDetect
end
typestr = HDF5.read(HDF5.attributes(ds)["TYPE"])
typestr = HDF5.read(HDF5.attrs(ds)["TYPE"])
return HDF5PLOT_MAP_STR2TELEM[typestr]
end
#Type parameter attributes:
function _write_typeparam_attr(ds::Dataset, v::Length{T}) where T
HDF5.attributes(ds)["TYPEPARAM"] = string(T) #Need to add units for Length
function _write_typeparam_attr(ds::HDF5Dataset, v::Length{T}) where T
HDF5.attrs(ds)["TYPEPARAM"] = string(T) #Need to add units for Length
end
_read_typeparam_attr(ds::Dataset) = HDF5.read(HDF5.attributes(ds)["TYPEPARAM"])
_read_typeparam_attr(ds::HDF5Dataset) = HDF5.read(HDF5.attrs(ds)["TYPEPARAM"])
function _write_length_attr(grp::Group, v::Vector) #of a vector
HDF5.attributes(grp)["LENGTH"] = length(v)
function _write_length_attr(grp::HDF5Group, v::Vector) #of a vector
HDF5.attrs(grp)["LENGTH"] = length(v)
end
_read_length_attr(::Type{Vector}, grp::Group) = HDF5.read(HDF5.attributes(grp)["LENGTH"])
_read_length_attr(::Type{Vector}, grp::HDF5Group) = HDF5.read(HDF5.attrs(grp)["LENGTH"])
function _write_size_attr(grp::Group, v::Array) #of an array
HDF5.attributes(grp)["SIZE"] = [size(v)...]
function _write_size_attr(grp::HDF5Group, v::Array) #of an array
HDF5.attrs(grp)["SIZE"] = [size(v)...]
end
_read_size_attr(::Type{Array}, grp::Group) = tuple(HDF5.read(HDF5.attributes(grp)["SIZE"])...)
_read_size_attr(::Type{Array}, grp::HDF5Group) = tuple(HDF5.read(HDF5.attrs(grp)["SIZE"])...)
#==_write_typed(): Simple (leaf) datatypes. (Labels with type name.)
===============================================================================#
#= No: write out struct instead!
function _write_typed(grp::Group, name::String, v::T) where T
function _write_typed(grp::HDF5Group, name::String, v::T) where T
tstr = string(T)
path = HDF5.name(grp) * "/" * name
@info("Type not supported: $tstr\npath: $path")
@@ -200,41 +200,41 @@ function _write_typed(grp::Group, name::String, v::T) where T
end
=#
#Default behaviour: Assumes value is supported by HDF5 format
function _write_typed(grp::Group, name::String, v::HDF5_SupportedTypes)
function _write_typed(grp::HDF5Group, name::String, v::HDF5_SupportedTypes)
grp[name] = v
return #No need to _write_datatype_attr
end
function _write_typed(grp::Group, name::String, v::Nothing)
function _write_typed(grp::HDF5Group, name::String, v::Nothing)
grp[name] = "nothing" #Redundancy check/easier to read HDF5 file
_write_datatype_attr(grp[name], Nothing)
end
function _write_typed(grp::Group, name::String, v::Symbol)
function _write_typed(grp::HDF5Group, name::String, v::Symbol)
grp[name] = String(v)
_write_datatype_attr(grp[name], Symbol)
end
function _write_typed(grp::Group, name::String, v::Colorant)
function _write_typed(grp::HDF5Group, name::String, v::Colorant)
vstr = "#" * Colors.hex(v, :RRGGBBAA)
grp[name] = vstr
_write_datatype_attr(grp[name], Colorant)
end
function _write_typed(grp::Group, name::String, v::Extrema)
function _write_typed(grp::HDF5Group, name::String, v::Extrema)
grp[name] = [v.emin, v.emax] #More compact than writing struct
_write_datatype_attr(grp[name], Extrema)
end
function _write_typed(grp::Group, name::String, v::Length)
function _write_typed(grp::HDF5Group, name::String, v::Length)
grp[name] = v.value
_write_datatype_attr(grp[name], Length)
_write_typeparam_attr(grp[name], v)
end
function _write_typed(grp::Group, name::String, v::typeof(datetimeformatter))
function _write_typed(grp::HDF5Group, name::String, v::typeof(datetimeformatter))
grp[name] = string(v) #Just write something that helps reader
_write_datatype_attr(grp[name], typeof(datetimeformatter))
end
function _write_typed(grp::Group, name::String, v::Array{T}) where T<:Number #Default for arrays
function _write_typed(grp::HDF5Group, name::String, v::Array{T}) where T<:Number #Default for arrays
grp[name] = v
return #No need to _write_datatype_attr
end
function _write_typed(grp::Group, name::String, v::AbstractRange)
function _write_typed(grp::HDF5Group, name::String, v::AbstractRange)
_write_typed(grp, name, collect(v)) #For now
end
@@ -244,8 +244,8 @@ end
===============================================================================#
#Write an array using HDF5 hierarchy (when not using simple numeric eltype):
function _write_harray(grp::Group, name::String, v::Array)
sgrp = HDF5.create_group(grp, name)
function _write_harray(grp::HDF5Group, name::String, v::Array)
sgrp = HDF5.g_create(grp, name)
sz = size(v)
lidx = LinearIndices(sz)
@@ -260,8 +260,8 @@ function _write_harray(grp::Group, name::String, v::Array)
end
#Write Dict without tagging with type:
function _write(grp::Group, name::String, d::AbstractDict)
sgrp = HDF5.create_group(grp, name)
function _write(grp::HDF5Group, name::String, d::AbstractDict)
sgrp = HDF5.g_create(grp, name)
for (k, v) in d
kstr = string(k)
_write_typed(sgrp, kstr, v)
@@ -270,7 +270,7 @@ function _write(grp::Group, name::String, d::AbstractDict)
end
#Write out arbitrary `struct`s:
function _writestructgeneric(grp::Group, obj::T) where T
function _writestructgeneric(grp::HDF5Group, obj::T) where T
for fname in fieldnames(T)
v = getfield(obj, fname)
_write_typed(grp, String(fname), v)
@@ -283,7 +283,7 @@ end
===============================================================================#
#Catch-all (default behaviour for `struct`s):
function _write_typed(grp::Group, name::String, v::T) where T
function _write_typed(grp::HDF5Group, name::String, v::T) where T
#NOTE: need "name" parameter so that call signature is same with built-ins
MT = _type_for_map(T)
try #Check to see if type is supported
@@ -294,27 +294,27 @@ function _write_typed(grp::Group, name::String, v::T) where T
end
#If attribute is supported and no writer is defined, then this should work:
objgrp = HDF5.create_group(grp, name)
objgrp = HDF5.g_create(grp, name)
_write_datatype_attr(objgrp, MT)
_writestructgeneric(objgrp, v)
end
function _write_typed(grp::Group, name::String, v::Array{T}) where T
function _write_typed(grp::HDF5Group, name::String, v::Array{T}) where T
_write_harray(grp, name, v)
_write_datatype_attr(grp[name], Array) #{Any}
end
function _write_typed(grp::Group, name::String, v::Tuple, ::Type{ELT}) where ELT<: Number #Basic Tuple
function _write_typed(grp::HDF5Group, name::String, v::Tuple, ::Type{ELT}) where ELT<: Number #Basic Tuple
_write_typed(grp, name, [v...])
_write_datatype_attr(grp[name], Tuple)
end
function _write_typed(grp::Group, name::String, v::Tuple, ::Type) #CplxTuple
function _write_typed(grp::HDF5Group, name::String, v::Tuple, ::Type) #CplxTuple
_write_harray(grp, name, [v...])
_write_datatype_attr(grp[name], CplxTuple)
end
_write_typed(grp::Group, name::String, v::Tuple) = _write_typed(grp, name, v, eltype(v))
_write_typed(grp::HDF5Group, name::String, v::Tuple) = _write_typed(grp, name, v, eltype(v))
function _write_typed(grp::Group, name::String, v::Dict)
function _write_typed(grp::HDF5Group, name::String, v::Dict)
#=
tstr = string(Dict)
path = HDF5.name(grp) * "/" * name
@@ -323,27 +323,27 @@ function _write_typed(grp::Group, name::String, v::Dict)
=#
#No support for structures with Dicts yet
end
function _write_typed(grp::Group, name::String, d::DefaultsDict) #Typically for plot attributes
function _write_typed(grp::HDF5Group, name::String, d::DefaultsDict) #Typically for plot attributes
_write(grp, name, d)
_write_datatype_attr(grp[name], DefaultsDict)
end
function _write_typed(grp::Group, name::String, v::Axis)
sgrp = HDF5.create_group(grp, name)
function _write_typed(grp::HDF5Group, name::String, v::Axis)
sgrp = HDF5.g_create(grp, name)
#Ignore: sps::Vector{Subplot}
_write_typed(sgrp, "plotattributes", v.plotattributes)
_write_datatype_attr(sgrp, Axis)
end
function _write_typed(grp::Group, name::String, v::Subplot)
function _write_typed(grp::HDF5Group, name::String, v::Subplot)
#Not for use in main "Plot.subplots[]" hierarchy. Just establishes reference with subplot_index.
sgrp = HDF5.create_group(grp, name)
sgrp = HDF5.g_create(grp, name)
_write_typed(sgrp, "index", v[:subplot_index])
_write_datatype_attr(sgrp, Subplot)
return
end
function _write_typed(grp::Group, name::String, v::Plot)
function _write_typed(grp::HDF5Group, name::String, v::Plot)
#Don't write plot references
end
@@ -352,10 +352,10 @@ end
NOTE: No need to write out type information (inferred from hierarchy)
===============================================================================#
function _write(grp::Group, sp::Subplot{HDF5Backend})
function _write(grp::HDF5Group, sp::Subplot{HDF5Backend})
_write_typed(grp, "attr", sp.attr)
listgrp = HDF5.create_group(grp, "series_list")
listgrp = HDF5.g_create(grp, "series_list")
_write_length_attr(listgrp, sp.series_list)
for (i, series) in enumerate(sp.series_list)
#Just write .plotattributes part:
@@ -365,13 +365,13 @@ function _write(grp::Group, sp::Subplot{HDF5Backend})
return
end
function _write(grp::Group, plt::Plot{HDF5Backend})
function _write(grp::HDF5Group, plt::Plot{HDF5Backend})
_write_typed(grp, "attr", plt.attr)
listgrp = HDF5.create_group(grp, "subplots")
listgrp = HDF5.g_create(grp, "subplots")
_write_length_attr(listgrp, plt.subplots)
for (i, sp) in enumerate(plt.subplots)
sgrp = HDF5.create_group(listgrp, "$i")
sgrp = HDF5.g_create(listgrp, "$i")
_write(sgrp, sp)
end
@@ -380,8 +380,8 @@ end
function hdf5plot_write(plt::Plot{HDF5Backend}, path::AbstractString; name::String="_unnamed")
HDF5.h5open(path, "w") do file
HDF5.write_dataset(file, "VERSION_INFO", _get_Plots_versionstr())
grp = HDF5.create_group(file, h5plotpath(name))
HDF5.d_write(file, "VERSION_INFO", _get_Plots_versionstr())
grp = HDF5.g_create(file, h5plotpath(name))
_write(grp, plt)
end
end
@@ -391,45 +391,45 @@ end
===============================================================================#
#Types with built-in HDF5 support:
_read(::Type{HDF5_AutoDetect}, ds::Dataset) = HDF5.read(ds)
_read(::Type{HDF5_AutoDetect}, ds::HDF5Dataset) = HDF5.read(ds)
function _read(::Type{Nothing}, ds::Dataset)
function _read(::Type{Nothing}, ds::HDF5Dataset)
nstr = "nothing"
v = HDF5.read(ds)
if nstr != v
path = HDF5.name(ds)
throw(Meta.ParseError("_read(::Nothing, ::Group): Read $v != $nstr:\n$path"))
throw(Meta.ParseError("_read(::Nothing, ::HDF5Group): Read $v != $nstr:\n$path"))
end
return nothing
end
_read(::Type{Symbol}, ds::Dataset) = Symbol(HDF5.read(ds))
_read(::Type{Colorant}, ds::Dataset) = parse(Colorant, HDF5.read(ds))
_read(::Type{Tuple}, ds::Dataset) = tuple(HDF5.read(ds)...)
function _read(::Type{Extrema}, ds::Dataset)
_read(::Type{Symbol}, ds::HDF5Dataset) = Symbol(HDF5.read(ds))
_read(::Type{Colorant}, ds::HDF5Dataset) = parse(Colorant, HDF5.read(ds))
_read(::Type{Tuple}, ds::HDF5Dataset) = tuple(HDF5.read(ds)...)
function _read(::Type{Extrema}, ds::HDF5Dataset)
v = HDF5.read(ds)
return Extrema(v[1], v[2])
end
function _read(::Type{Length}, ds::Dataset)
function _read(::Type{Length}, ds::HDF5Dataset)
TUNIT = Symbol(_read_typeparam_attr(ds))
v = HDF5.read(ds)
T = typeof(v)
return Length{TUNIT,T}(v)
end
_read(::Type{typeof(datetimeformatter)}, ds::Dataset) = datetimeformatter
_read(::Type{typeof(datetimeformatter)}, ds::HDF5Dataset) = datetimeformatter
#== Helper functions for reading in complex data structures
===============================================================================#
#When type is unknown, _read_typed() figures it out:
function _read_typed(grp::Group, name::String)
function _read_typed(grp::HDF5Group, name::String)
ds = grp[name]
t = _read_datatype_attr(ds)
return _read(t, ds)
end
#_readstructgeneric: Needs object values to be written out with _write_typed():
function _readstructgeneric(::Type{T}, grp::Group) where T
function _readstructgeneric(::Type{T}, grp::HDF5Group) where T
vlist = Array{Any}(nothing, fieldcount(T))
for (i, fname) in enumerate(fieldnames(T))
vlist[i] = _read_typed(grp, String(fname))
@@ -438,10 +438,10 @@ function _readstructgeneric(::Type{T}, grp::Group) where T
end
#Read KW from group:
function _read(::Type{KW}, grp::Group)
function _read(::Type{KW}, grp::HDF5Group)
d = KW()
gkeys = keys(grp)
for k in gkeys
gnames = names(grp)
for k in gnames
try
v = _read_typed(grp, k)
d[Symbol(k)] = v
@@ -459,9 +459,9 @@ end
===============================================================================#
#Catch-all (default behaviour for `struct`s):
_read(T::Type, grp::Group) = _readstructgeneric(T, grp)
_read(T::Type, grp::HDF5Group) = _readstructgeneric(T, grp)
function _read(::Type{Array}, grp::Group) #Array{Any}
function _read(::Type{Array}, grp::HDF5Group) #Array{Any}
sz = _read_size_attr(Array, grp)
if tuple(0) == sz; return []; end
result = Array{Any}(undef, sz)
@@ -479,9 +479,9 @@ function _read(::Type{Array}, grp::Group) #Array{Any}
return reshape(result, sz)
end
_read(::Type{CplxTuple}, grp::Group) = tuple(_read(Array, grp)...)
_read(::Type{CplxTuple}, grp::HDF5Group) = tuple(_read(Array, grp)...)
function _read(::Type{GridLayout}, grp::Group)
function _read(::Type{GridLayout}, grp::HDF5Group)
#parent = _read_typed(grp, "parent") #Can't use generic reader
parent = RootLayout() #TODO: support parent???
minpad = _read_typed(grp, "minpad")
@@ -494,17 +494,17 @@ function _read(::Type{GridLayout}, grp::Group)
return GridLayout(parent, minpad, bbox, grid, widths, heights, attr)
end
#Defaults depends on context. So: user must constructs with defaults, then read.
function _read(::Type{DefaultsDict}, grp::Group)
function _read(::Type{DefaultsDict}, grp::HDF5Group)
#User should set DefaultsDict.defaults to one of:
# _plot_defaults, _subplot_defaults, _axis_defaults, _series_defaults
path = HDF5.name(ds)
@warn("Cannot yet read DefaultsDict using _read_typed():\n $path\nCannot fully reconstruct plot.")
end
function _read(::Type{Axis}, grp::Group)
function _read(::Type{Axis}, grp::HDF5Group)
#1st arg appears to be ref to subplots. Seems to work without it.
return Axis([], DefaultsDict(_read(KW, grp["plotattributes"]), _axis_defaults))
end
function _read(::Type{Subplot}, grp::Group)
function _read(::Type{Subplot}, grp::HDF5Group)
#Not for use in main "Plot.subplots[]" hierarchy. Just establishes reference with subplot_index.
idx = _read_typed(grp, "index")
return HDF5PLOT_PLOTREF.ref.subplots[idx]
@@ -514,12 +514,12 @@ end
#== _read(): Main plot structures
===============================================================================#
function _read(grp::Group, sp::Subplot)
listgrp = HDF5.open_group(grp, "series_list")
function _read(grp::HDF5Group, sp::Subplot)
listgrp = HDF5.g_open(grp, "series_list")
nseries = _read_length_attr(Vector, listgrp)
for i in 1:nseries
sgrp = HDF5.open_group(listgrp, "$i")
sgrp = HDF5.g_open(listgrp, "$i")
seriesinfo = _read(KW, sgrp)
plot!(sp, seriesinfo[:x], seriesinfo[:y]) #Add data & create data structures
@@ -527,25 +527,25 @@ function _read(grp::Group, sp::Subplot)
end
#Perform after adding series... otherwise values get overwritten:
agrp = HDF5.open_group(grp, "attr")
agrp = HDF5.g_open(grp, "attr")
_hdf5_merge!(sp.attr, _read(KW, agrp))
return sp
end
function _read_plot(grp::Group)
listgrp = HDF5.open_group(grp, "subplots")
function _read_plot(grp::HDF5Group)
listgrp = HDF5.g_open(grp, "subplots")
n = _read_length_attr(Vector, listgrp)
#Construct new plot, +allocate subplots:
plt = plot(layout=n)
HDF5PLOT_PLOTREF.ref = plt #Used when reading "layout"
agrp = HDF5.open_group(grp, "attr")
agrp = HDF5.g_open(grp, "attr")
_hdf5_merge!(plt.attr, _read(KW, agrp))
for (i, sp) in enumerate(plt.subplots)
sgrp = HDF5.open_group(listgrp, "$i")
sgrp = HDF5.g_open(listgrp, "$i")
_read(sgrp, sp)
end
@@ -554,7 +554,7 @@ end
function hdf5plot_read(path::AbstractString; name::String="_unnamed")
HDF5.h5open(path, "r") do file
grp = HDF5.open_group(file, h5plotpath("_unnamed"))
grp = HDF5.g_open(file, h5plotpath("_unnamed"))
return _read_plot(grp)
end
end
+7 -71
View File
@@ -79,58 +79,6 @@ end
# ---------------------------------------------------------------------------
function _inspectdr_getaxisticks(ticks, gridlines, xfrm)
TickCustom = InspectDR.TickCustom
_xfrm(coord) = InspectDR.axis2aloc(Float64(coord), xfrm.spec) #Ensure Float64 - in case
ttype = ticksType(ticks)
if ticks == :native
#keep current
elseif ttype == :ticks_and_labels
pos = ticks[1]; labels = ticks[2]; nticks = length(ticks[1])
newticks = TickCustom[TickCustom(_xfrm(pos[i]), labels[i]) for i in 1:nticks]
gridlines = InspectDR.GridLinesCustom(gridlines)
gridlines.major = newticks
gridlines.minor = []
gridlines.displayminor = false
elseif ttype == :ticks
nticks = length(ticks)
gridlines.major = Float64[_xfrm(t) for t in ticks]
gridlines.minor = []
gridlines.displayminor = false
elseif isnothing(ticks)
gridlines.major = []
gridlines.minor = []
else #Assume ticks == :native
#keep current
end
return gridlines #keep current
end
function _inspectdr_setticks(sp::Subplot, plot, strip, xaxis, yaxis)
InputXfrm1D = InspectDR.InputXfrm1D
_get_ticks(axis) = :native == axis[:ticks] ? (:native) : get_ticks(sp, axis)
wantnative(ticks) = (:native == ticks)
xticks = _get_ticks(xaxis)
yticks = _get_ticks(yaxis)
if wantnative(xticks) && wantnative(yticks)
#Don't "eval" tick values
return
end
#TODO: Allow InspectDR to independently "eval" x or y ticks
ext = InspectDR.getextents_aloc(plot, 1)
grid = InspectDR._eval(strip.grid, plot.xscale, strip.yscale, ext)
grid.xlines = _inspectdr_getaxisticks(xticks, grid.xlines, InputXfrm1D(plot.xscale))
grid.ylines = _inspectdr_getaxisticks(yticks, grid.ylines, InputXfrm1D(strip.yscale))
strip.grid = grid
end
# ---------------------------------------------------------------------------
function _inspectdr_getscale(s::Symbol, yaxis::Bool)
#TODO: Support :asinh, :sqrt
kwargs = yaxis ? (:tgtmajor=>8, :tgtminor=>2) : () #More grid lines on y-axis
@@ -219,7 +167,6 @@ function _series_added(plt::Plot{InspectDRBackend}, series::Series)
st = series[:seriestype]
sp = series[:subplot]
plot = sp.o
clims = get_clims(sp, series)
#Don't do anything without a "subplot" object: Will process later.
if nothing == plot; return; end
@@ -309,8 +256,8 @@ For st in :shape:
wfrm.glyph = InspectDR.glyph(
shape = _inspectdr_mapglyph(series[:markershape]),
size = _inspectdr_mapglyphsize(series[:markersize]),
color = _inspectdr_mapcolor(plot_color(get_markerstrokecolor(series), get_markerstrokealpha(series))),
fillcolor = _inspectdr_mapcolor(plot_color(get_markercolor(series, clims), get_markeralpha(series))),
color = _inspectdr_mapcolor(plot_color(series[:markerstrokecolor], series[:markerstrokealpha])),
fillcolor = _inspectdr_mapcolor(plot_color(series[:markercolor], series[:markeralpha])),
)
end
@@ -341,8 +288,8 @@ function _inspectdr_setupsubplot(sp::Subplot{InspectDRBackend})
ygrid_show = yaxis[:grid]
strip.grid = InspectDR.GridRect(
vmajor=xgrid_show, # vminor=xgrid_show,
hmajor=ygrid_show, # hminor=ygrid_show,
vmajor=xgrid_show, # vminor=xgrid_show,
hmajor=ygrid_show, # hminor=ygrid_show,
)
plot.xscale = _inspectdr_getscale(xaxis[:scale], false)
@@ -355,27 +302,18 @@ function _inspectdr_setupsubplot(sp::Subplot{InspectDRBackend})
xmin, xmax = -rmax, rmax
ymin, ymax = -rmax, rmax
end
plot.xext = InspectDR.PExtents1D() #reset
strip.yext = InspectDR.PExtents1D() #reset
plot.xext_full = InspectDR.PExtents1D(xmin, xmax)
strip.yext_full = InspectDR.PExtents1D(ymin, ymax)
#Set current extents = full extents (needed for _eval(strip.grid,...))
plot.xext = plot.xext_full
strip.yext = strip.yext_full
_inspectdr_setticks(sp, plot, strip, xaxis, yaxis)
a = plot.annotation
a.title = sp[:title]
a.xlabel = xaxis[:guide]; a.ylabels = [yaxis[:guide]]
l = plot.layout
#IMPORTANT: Don't forget to actually register changes
#(TODO: need to find a better way to set layout properties)
l[:frame_canvas].fillcolor = _inspectdr_mapcolor(sp[:background_color_subplot])
l[:frame_canvas] = l[:frame_canvas] #register changes
l[:frame_data].fillcolor = _inspectdr_mapcolor(sp[:background_color_inside])
l[:frame_data] = l[:frame_data] #register changes
l[:frame_data].line.color = _inspectdr_mapcolor(xaxis[:foreground_color_axis])
l[:frame_data] = l[:frame_data] #register changes
l[:font_title] = InspectDR.Font(sp[:titlefontfamily],
_inspectdr_mapptsize(sp[:titlefontsize]),
color = _inspectdr_mapcolor(sp[:titlefontcolor])
@@ -396,7 +334,6 @@ function _inspectdr_setupsubplot(sp::Subplot{InspectDRBackend})
color = _inspectdr_mapcolor(sp[:legendfontcolor])
)
l[:frame_legend].fillcolor = _inspectdr_mapcolor(sp[:background_color_legend])
l[:frame_legend] = l[:frame_legend] #register changes
end
# called just before updating layout bounding boxes... in case you need to prep
@@ -410,9 +347,8 @@ function _before_layout_calcs(plt::Plot{InspectDRBackend})
#Don't use window_title... probably not what you want.
#mplot.title = plt[:window_title]
end
mplot.layout[:frame].fillcolor = _inspectdr_mapcolor(plt[:background_color_outside])
mplot.layout[:frame] = mplot.layout[:frame] #register changes
resize!(mplot.subplots, length(plt.subplots))
nsubplots = length(plt.subplots)
for (i, sp) in enumerate(plt.subplots)
+1 -2
View File
@@ -163,12 +163,11 @@ function (pgfx_plot::PGFPlotsXPlot)(plt::Plot{PGFPlotsXBackend})
) => nothing,
"fill" => cstr,
"fill opacity" => a,
"text opacity" => alpha(plot_color(sp[:legendfontcolor])),
"text opacity" => alpha(plot_color(sp[:legendfontcolor])),
"font" => pgfx_font(
sp[:legendfontsize],
pgfx_thickness_scaling(sp),
),
"text" => plot_color(sp[:legendfontcolor]),
),
"axis background/.style" => PGFPlotsX.Options(
"fill" => bgc_inside,
+16 -27
View File
@@ -883,19 +883,30 @@ plotly_series_json(plt::Plot) = JSON.json(plotly_series(plt), 4)
html_head(plt::Plot{PlotlyBackend}) = plotly_html_head(plt)
html_body(plt::Plot{PlotlyBackend}) = plotly_html_body(plt)
const ijulia_initialized = Ref(false)
function plotly_html_head(plt::Plot)
plotly =
use_local_dependencies[] ? ("file:///" * plotly_local_file_path[]) : "https://cdn.plot.ly/$(_plotly_min_js_filename)"
use_local_dependencies[] ? ("file:///" * plotly_local_file_path[]) : "https://cdn.plot.ly/plotly-1.57.1.min.js"
include_mathjax = get(plt[:extra_plot_kwargs], :include_mathjax, "")
mathjax_file = include_mathjax != "cdn" ? ("file://" * include_mathjax) : "https://cdnjs.cloudflare.com/ajax/libs/mathjax/2.7.7/MathJax.js?config=TeX-MML-AM_CHTML"
mathjax_head = include_mathjax == "" ? "" : "<script src=\"$mathjax_file\"></script>\n\t\t"
if isijulia()
mathjax_head
else
"$mathjax_head<script src=$(repr(plotly))></script>"
if isijulia() && !ijulia_initialized[]
# using requirejs seems to be key to load a js depency in IJulia!
# https://requirejs.org/docs/start.html
# https://github.com/JuliaLang/IJulia.jl/issues/345
display("text/html", """
<script type="text/javascript">
requirejs([$(repr(plotly))], function(p) {
window.Plotly = p
});
</script>
""")
ijulia_initialized[] = true
end
return "$mathjax_head<script src=$(repr(plotly))></script>"
end
function plotly_html_body(plt, style = nothing)
@@ -903,34 +914,12 @@ function plotly_html_body(plt, style = nothing)
w, h = plt[:size]
style = "width:$(w)px;height:$(h)px;"
end
requirejs_prefix = ""
requirejs_suffix = ""
if isijulia()
# require.js adds .js automatically
plotly_no_ext =
use_local_dependencies[] ? ("file:///" * plotly_local_file_path[]) : "https://cdn.plot.ly/$(_plotly_min_js_filename)"
plotly_no_ext = plotly_no_ext[1:end-3]
requirejs_prefix = """
requirejs.config({
paths: {
Plotly: '$(plotly_no_ext)'
}
});
require(['Plotly'], function (Plotly) {
"""
requirejs_suffix = "});"
end
uuid = UUIDs.uuid4()
html = """
<div id=\"$(uuid)\" style=\"$(style)\"></div>
<script>
$(requirejs_prefix)
PLOT = document.getElementById('$(uuid)');
Plotly.plot(PLOT, $(plotly_series_json(plt)), $(plotly_layout_json(plt)));
$(requirejs_suffix)
</script>
"""
html
+19 -58
View File
@@ -799,9 +799,6 @@ function py_set_scale(ax, sp::Subplot, axis::Axis)
letter = axis[:letter]
scale in supported_scales() || return @warn("Unhandled scale value in pyplot: $scale")
func = getproperty(ax, Symbol("set_", letter, "scale"))
if PyPlot.version v"3.3" # https://matplotlib.org/3.3.0/api/api_changes.html
letter = Symbol("")
end
kw = KW()
arg = if scale == :identity
"linear"
@@ -920,6 +917,8 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
end
kw[:spacing] = "proportional"
fig = plt.o
if RecipesPipeline.is3d(sp) || ispolar(sp)
cbax = fig."add_axes"([0.9, 0.1, 0.03, 0.8])
cb = fig."colorbar"(handle; cax=cbax, kw...)
@@ -965,53 +964,25 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
cb."formatter".set_powerlimits((-Inf, Inf))
cb."update_ticks"()
if sp[:colorbar] in (:top, :bottom)
axis = sp[:xaxis] # colorbar inherits from x axis
cbar_axis = cb."ax"."xaxis"
else
axis = sp[:yaxis] # colorbar inherits from y axis
cbar_axis = cb."ax"."yaxis"
for lab in cb."ax"."yaxis"."get_ticklabels"()
lab."set_fontsize"(py_thickness_scale(plt, sp[:yaxis][:tickfontsize]))
lab."set_family"(sp[:yaxis][:tickfontfamily])
lab."set_color"(py_color(sp[:yaxis][:tickfontcolor]))
end
for lab in cbar_axis."get_ticklabels"()
lab."set_fontsize"(py_thickness_scale(plt, axis[:tickfontsize]))
lab."set_family"(axis[:tickfontfamily])
lab."set_color"(py_color(axis[:tickfontcolor]))
end
# Adjust thickness of the cbar ticks
intensity = 0.5
cbar_axis."set_tick_params"(
direction = axis[:tick_direction] == :out ? "out" : "in",
width=py_thickness_scale(plt, intensity),
length= 5 * py_thickness_scale(plt, intensity)
)
cb.outline."set_linewidth"(py_thickness_scale(plt, 1))
sp.attr[:cbar_handle] = cb
sp.attr[:cbar_ax] = cbax
end
# framestyle
if !ispolar(sp) && !RecipesPipeline.is3d(sp)
for pos in ("left", "right", "top", "bottom")
# Scale all axes by default first
ax.spines[pos]."set_linewidth"(py_thickness_scale(plt, 1))
end
# Then set visible some of them
ax.spines["left"]."set_linewidth"(py_thickness_scale(plt, 1))
ax.spines["bottom"]."set_linewidth"(py_thickness_scale(plt, 1))
if sp[:framestyle] == :semi
intensity = 0.5
ax.spines["right"]."set_alpha"(intensity)
ax.spines["top"]."set_alpha"(intensity)
ax.spines["right"]."set_linewidth"(py_thickness_scale(plt, intensity))
ax.spines["top"]."set_linewidth"(py_thickness_scale(plt, intensity))
elseif sp[:framestyle] == :box
ax.tick_params(top=true) # Add ticks too
ax.tick_params(right=true) # Add ticks too
elseif sp[:framestyle] in (:axes, :origin)
ax.spines["right"]."set_visible"(false)
ax.spines["top"]."set_visible"(false)
@@ -1036,11 +1007,15 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
PyPlot.PyCall.hasproperty(ax, axissym) || continue
axis = sp[axissym]
pyaxis = getproperty(ax, axissym)
if axis[:mirror] && letter != :z
pos = letter == :x ? "top" : "right"
pyaxis."set_label_position"(pos) # the guides
pyaxis."set_ticks_position"("both") # the hash marks
getproperty(pyaxis, Symbol(:tick_, pos))() # the tick labels
end
if axis[:guide_position] != :auto && letter != :z
pyaxis."set_label_position"(axis[:guide_position])
end
py_set_scale(ax, sp, axis)
axis[:ticks] == :native ? nothing : py_set_lims(ax, sp, axis)
if ispolar(sp) && letter == :y
@@ -1215,7 +1190,6 @@ function _update_min_padding!(sp::Subplot{PyPlotBackend})
toppad = 0mm
rightpad = 0mm
bottompad = 0mm
for bb in (py_bbox_axis(ax, "x"), py_bbox_axis(ax, "y"), py_bbox_title(ax), py_bbox_legend(ax))
if ispositive(width(bb)) && ispositive(height(bb))
leftpad = max(leftpad, left(plotbb) - left(bb))
@@ -1225,25 +1199,12 @@ function _update_min_padding!(sp::Subplot{PyPlotBackend})
end
end
if haskey(sp.attr, :cbar_ax) # Treat colorbar the same way
ax = sp.attr[:cbar_handle]."ax"
for bb in (py_bbox_axis(ax, "x"), py_bbox_axis(ax, "y"), py_bbox_title(ax), )
if ispositive(width(bb)) && ispositive(height(bb))
leftpad = max(leftpad, left(plotbb) - left(bb))
toppad = max(toppad, top(plotbb) - top(bb))
rightpad = max(rightpad, right(bb) - right(plotbb))
bottompad = max(bottompad, bottom(bb) - bottom(plotbb))
end
end
end
# optionally add the width of colorbar labels and colorbar to rightpad
# if haskey(sp.attr, :cbar_ax)
# bb = py_bbox(sp.attr[:cbar_handle]."ax"."get_yticklabels"())
# sp.attr[:cbar_width] = width(bb) + (sp[:colorbar_title] == "" ? 0px : 30px)
# rightpad = rightpad + sp.attr[:cbar_width]
# end
if haskey(sp.attr, :cbar_ax)
bb = py_bbox(sp.attr[:cbar_handle]."ax"."get_yticklabels"())
sp.attr[:cbar_width] = width(bb) + (sp[:colorbar_title] == "" ? 0px : 30px)
rightpad = rightpad + sp.attr[:cbar_width]
end
# add in the user-specified margin
leftpad += sp[:left_margin]
+1 -1
View File
@@ -54,9 +54,9 @@ function _ijulia_display_dict(plt::Plot)
elseif output_type == :html
mime = "text/html"
out[mime] = sprint(show, MIME(mime), plt)
_ijulia__extra_mime_info!(plt, out)
else
error("Unsupported output type $output_type")
end
_ijulia__extra_mime_info!(plt, out)
out
end
+2 -2
View File
@@ -79,9 +79,9 @@ function __init__()
end
if get(ENV, "PLOTS_HOST_DEPENDENCY_LOCAL", "false") == "true"
global plotly_local_file_path[] = joinpath(@get_scratch!("plotly"), _plotly_min_js_filename)
global plotly_local_file_path[] = joinpath(@get_scratch!("plotly"), "plotly-1.54.2.min.js")
if !isfile(plotly_local_file_path[])
download("https://cdn.plot.ly/$(_plotly_min_js_filename)", plotly_local_file_path[])
download("https://cdn.plot.ly/plotly-1.57.1.min.js", plotly_local_file_path[])
end
use_local_plotlyjs[] = true
+3 -14
View File
@@ -5,24 +5,13 @@
function RecipesPipeline.warn_on_recipe_aliases!(
plt::Plot,
plotattributes::AKW,
recipe_type::Symbol,
@nospecialize(args)
recipe_type,
signature_string
)
for k in keys(plotattributes)
if !is_default_attribute(k)
dk = get(_keyAliases, k, k)
if k !== dk
if recipe_type == :user
signature_string = RecipesPipeline.userrecipe_signature_string(args)
elseif recipe_type == :type
signature_string = RecipesPipeline.typerecipe_signature_string(args)
elseif recipe_type == :plot
signature_string = RecipesPipeline.plotrecipe_signature_string(args)
elseif recipe_type == :series
signature_string = RecipesPipeline.seriesrecipe_signature_string(args)
else
throw(ArgumentError("Invalid recipe type `$recipe_type`"))
end
@warn "Attribute alias `$k` detected in the $recipe_type recipe defined for the signature $signature_string. To ensure expected behavior it is recommended to use the default attribute `$dk`."
end
plotattributes[dk] = RecipesPipeline.pop_kw!(plotattributes, k)
@@ -141,7 +130,7 @@ function _add_smooth_kw(kw_list::Vector{KW}, kw::AKW)
end
RecipesPipeline.get_axis_limits(plt::Plot, letter) = axis_limits(plt[1], letter)
RecipesPipeline.get_axis_limits(plt::Plot, f, letter) = axis_limits(plt[1], letter)
## Plot recipes
+3 -3
View File
@@ -43,8 +43,8 @@ The main plot command. Use `plot` to create a new plot object, and `plot!` to ad
There are lots of ways to pass in data, and lots of keyword arguments... just try it and it will likely work as expected.
When you pass in matrices, it splits by columns. To see the list of available attributes, use the `plotattr([attr])`
function, where `attr` is the symbol `:Series`, `:Subplot`, `:Plot`, or `:Axis`. Pass any attribute to `plotattr`
as a String to look up its docstring, e.g., `plotattr("seriestype")`.
function, where `attr` is the symbol `:Series:`, `:Subplot:`, `:Plot` or `:Axis`. Pass any attribute to `plotattr`
as a String to look up its docstring; e.g. `plotattr("seriestype")`.
"""
function plot(args...; kw...)
@nospecialize
@@ -218,4 +218,4 @@ function plot!(sp::Subplot, args...; kw...)
@nospecialize
plt = sp.plt
plot!(plt, args...; kw..., subplot = findfirst(isequal(sp), plt.subplots))
end
end
+23 -9
View File
@@ -2,19 +2,33 @@ should_precompile = true
# Don't edit the following! Instead change the script for `snoop_bot`.
ismultios = false
ismultiversion = false
ismultios = true
ismultiversion = true
# precompile_enclosure
@static if !should_precompile
# nothing
elseif !ismultios && !ismultiversion
@static if isfile(joinpath(
@__DIR__,
"../deps/SnoopCompile/precompile/precompile_Plots.jl",
))
include("../deps/SnoopCompile/precompile/precompile_Plots.jl")
_precompile_()
end
include("../deps/SnoopCompile/precompile/precompile_Plots.jl")
_precompile_()
else
@static if Sys.islinux()
@static if v"1.5.0-DEV" <= VERSION <= v"1.5.9"
include("../deps/SnoopCompile/precompile/linux/1.5/precompile_Plots.jl")
_precompile_()
else
include("../deps/SnoopCompile/precompile/linux/1.5/precompile_Plots.jl")
_precompile_()
end
else
@static if v"1.5.0-DEV" <= VERSION <= v"1.5.9"
include("../deps/SnoopCompile/precompile/linux/1.5/precompile_Plots.jl")
_precompile_()
else
include("../deps/SnoopCompile/precompile/linux/1.5/precompile_Plots.jl")
_precompile_()
end
end
end # precompile_enclosure
+15 -11
View File
@@ -268,15 +268,15 @@ end
end
end
newx, newy = zeros(3n), zeros(3n)
newz = z !== nothing ? zeros(3n) : nothing
for (i, (xi, yi, zi)) = enumerate(zip(x, y, z !== nothing ? z : 1:n))
newz = z!== nothing ? zeros(3n) : nothing
for i = 1:n
rng = (3i - 2):(3i)
newx[rng] = [xi, xi, NaN]
newx[rng] = [x[i], x[i], NaN]
if z !== nothing
newy[rng] = [yi, yi, NaN]
newz[rng] = [_cycle(fr, i), zi, NaN]
newy[rng] = [y[i], y[i], NaN]
newz[rng] = [_cycle(fr, i), z[i], NaN]
else
newy[rng] = [_cycle(fr, i), yi, NaN]
newy[rng] = [_cycle(fr, i), y[i], NaN]
end
end
x := newx
@@ -1520,10 +1520,14 @@ end
yflip := true
aspect_ratio := 1
rs, cs, zs = Plots.findnz(z.surf)
xlims := widen(ignorenan_extrema(cs)..., get(plotattributes, :xscale, :identity))
ylims := widen(ignorenan_extrema(rs)..., get(plotattributes, :yscale, :identity))
markershape --> :circle
markersize --> 1
xlims := ignorenan_extrema(cs)
ylims := ignorenan_extrema(rs)
if plotattributes[:markershape] == :none
markershape := :circle
end
if plotattributes[:markersize] == default(:markersize)
markersize := 1
end
markerstrokewidth := 0
if length(unique(zs)) == 1
seriescolor --> :black
@@ -1627,4 +1631,4 @@ julia> areaplot(1:3, [1 2 3; 7 8 9; 4 5 6], seriescolor = [:red :green :blue], f
end
end
@specialize
@specialize
+4 -4
View File
@@ -420,13 +420,13 @@ xlabel!(s::AbstractString; kw...) = plot!(; xlabel = s, kw...)
ylabel!(s::AbstractString; kw...) = plot!(; ylabel = s, kw...)
"Set xlims for an existing plot"
xlims!(lims::Tuple; kw...) = plot!(; xlims = lims, kw...)
xlims!(lims::Tuple{T,S}; kw...) where {T<:Real,S<:Real} = plot!(; xlims = lims, kw...)
"Set ylims for an existing plot"
ylims!(lims::Tuple; kw...) = plot!(; ylims = lims, kw...)
ylims!(lims::Tuple{T,S}; kw...) where {T<:Real,S<:Real} = plot!(; ylims = lims, kw...)
"Set zlims for an existing plot"
zlims!(lims::Tuple; kw...) = plot!(; zlims = lims, kw...)
zlims!(lims::Tuple{T,S}; kw...) where {T<:Real,S<:Real} = plot!(; zlims = lims, kw...)
xlims!(xmin::Real, xmax::Real; kw...) = plot!(; xlims = (xmin,xmax), kw...)
ylims!(ymin::Real, ymax::Real; kw...) = plot!(; ylims = (ymin,ymax), kw...)
@@ -478,4 +478,4 @@ yaxis!(args...; kw...) = plot!(; yaxis = args
xgrid!(args...; kw...) = plot!(; xgrid = args, kw...)
ygrid!(args...; kw...) = plot!(; ygrid = args, kw...)
@specialize
@specialize
-44
View File
@@ -13,48 +13,4 @@ using Plots, Test, Dates
ref_xlims = (x[1].instant.periods.value, x[end].instant.periods.value)
@test Plots.ylims(p) == ref_ylims
@test Plots.xlims(p) == ref_xlims
#@static if (haskey(ENV, "APPVEYOR") || haskey(ENV, "CI"))
@static if haskey(ENV, "APPVEYOR")
@info "Skipping display tests on AppVeyor"
else
@test isa(display(p), Nothing) == true
closeall()
end
end # testset
@testset "Date xlims" begin
y=[1.0*i*i for i in 1:10]
x=[Date(2019,11,i) for i in 1:10]
span = (Date(2019,10,31), Date(2019,11,11))
ref_xlims = map(date->date.instant.periods.value, span)
p = plot(x,y, xlims=span, widen = false)
@test Plots.xlims(p) == ref_xlims
#@static if (haskey(ENV, "APPVEYOR") || haskey(ENV, "CI"))
@static if haskey(ENV, "APPVEYOR")
@info "Skipping display tests on AppVeyor"
else
@test isa(display(p), Nothing) == true
closeall()
end
end # testset
@testset "DateTime xlims" begin
y=[1.0*i*i for i in 1:10]
x=[DateTime(2019,11,i,11) for i in 1:10]
span = (DateTime(2019,10,31,11,59,59), DateTime(2019,11,11,12,01,15))
ref_xlims = map(date->date.instant.periods.value, span)
p = plot(x,y, xlims=span, widen = false)
@test Plots.xlims(p) == ref_xlims
#@static if (haskey(ENV, "APPVEYOR") || haskey(ENV, "CI"))
@static if haskey(ENV, "APPVEYOR")
@info "Skipping display tests on AppVeyor"
else
@test isa(display(p), Nothing) == true
closeall()
end
end # testset
+2 -4
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@@ -31,12 +31,10 @@ end # testset
include("test_defaults.jl")
include("test_axes.jl")
include("test_axis_letter.jl")
include("test_components.jl")
include("test_shorthands.jl")
include("integration_dates.jl")
include("test_recipes.jl")
include("test_hdf5plots.jl")
include("test_pgfplotsx.jl")
include("integration_dates.jl")
reference_dir(args...) = joinpath(homedir(), ".julia", "dev", "PlotReferenceImages", args...)
@@ -133,7 +131,7 @@ const IMG_TOL = VERSION < v"1.4" && Sys.iswindows() ? 1e-1 : is_ci() ? 1e-2 : 1e
@test isa(p, Plots.Plot) == true
@test isa(display(p), Nothing) == true
p = plot([Dates.Date(2019, 1, 1), Dates.Date(2019, 2, 1)], [3, 4])
annotate!(p, [(Dates.Date(2019, 1, 15), 3.2, :auto)])
annotate!(p, [(Dates.Date(2019, 1, 15), 3.2, Plots.text("Test", :red, :center))])
hline!(p, [3.1])
@test isa(p, Plots.Plot) == true
@test isa(display(p), Nothing) == true
-111
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@@ -1,111 +0,0 @@
using Plots, Test
@testset "Shapes" begin
@testset "Copy" begin
square = Shape([(0,0),(1,0),(1,1),(0,1)])
square2 = Shape(square)
@test square2.x == square.x
@test square2.y == square.y
end
@testset "Center" begin
square = Shape([(0,0),(1,0),(1,1),(0,1)])
@test Plots.center(square) == (0.5,0.5)
end
@testset "Translate" begin
square = Shape([(0,0),(1,0),(1,1),(0,1)])
squareUp = Shape([(0,1),(1,1),(1,2),(0,2)])
squareUpRight = Shape([(1,1),(2,1),(2,2),(1,2)])
@test Plots.translate(square,0,1).x == squareUp.x
@test Plots.translate(square,0,1).y == squareUp.y
@test Plots.center(translate!(square,1)) == (1.5,1.5)
end
@testset "Rotate" begin
# 2 radians rotation matrix
R2 = [cos(2) sin(2); -sin(2) cos(2)]
coords = [0 0; 1 0; 1 1; 0 1]'
coordsRotated2 = R2*(coords.-0.5).+0.5
square = Shape([(0,0),(1,0),(1,1),(0,1)])
# make a new, rotated square
square2 = Plots.rotate(square, -2)
@test square2.x coordsRotated2[1,:]
@test square2.y coordsRotated2[2,:]
# unrotate the new square in place
rotate!(square2, 2)
@test square2.x coords[1,:]
@test square2.y coords[2,:]
end
end
@testset "Brush" begin
@testset "Colors" begin
baseline = brush(1, RGB(0,0,0))
@test brush(:black) == baseline
@test brush("black") == baseline
end
@testset "Weight" begin
@test brush(10).size == 10
@test brush(0.1).size == 1
end
@testset "Alpha" begin
@test brush(0.4).alpha == 0.4
@test brush(20).alpha == nothing
end
@testset "Bad Argument" begin
# using test_logs because test_warn seems to not work anymore
@test_logs (:warn,"Unused brush arg: nothing (Nothing)") begin
brush(nothing)
end
end
end
@testset "Fonts" begin
@testset "Scaling" begin
sizesToCheck = [:titlefontsize, :legendfontsize, :legendtitlefontsize,
:xtickfontsize, :ytickfontsize, :ztickfontsize,
:xguidefontsize, :yguidefontsize, :zguidefontsize,]
# get inital font sizes
initialSizes = [Plots.default(s) for s in sizesToCheck ]
#scale up font sizes
scalefontsizes(2)
# get inital font sizes
doubledSizes = [Plots.default(s) for s in sizesToCheck ]
@test doubledSizes == initialSizes*2
# reset font sizes
resetfontsizes()
finalSizes = [Plots.default(s) for s in sizesToCheck ]
@test finalSizes == initialSizes
end
end
@testset "Series Annotations" begin
square = Shape([(0,0),(1,0),(1,1),(0,1)])
@test_logs (:warn,"Unused SeriesAnnotations arg: triangle (Symbol)") begin
p = plot([1,2,3],
series_annotations=(["a"],
2, # pass a scale factor
(1,4), # pass two scale factors (overwrites first one)
square, # pass a shape
font(:courier), # pass an annotation font
:triangle # pass an incorrect argument
))
sa = p.series_list[1].plotattributes[:series_annotations]
@test sa.strs == ["a"]
@test sa.font.family == "courier"
@test sa.baseshape == square
@test sa.scalefactor == (1,4)
end
end
-8
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@@ -1,6 +1,4 @@
using Plots, Test
using OffsetArrays
@testset "lens!" begin
pl = plot(1:5)
lens!(pl, [1,2], [1,2], inset = (1, bbox(0.0,0.0,0.2,0.2)), colorbar = false)
@@ -25,9 +23,3 @@ end # testset
vsp = vspan([1,3], ylims=(-2,5), widen = false)
@test Plots.ylims(vsp) == (-2,5)
end # testset
@testset "offset axes" begin
tri = OffsetVector(vcat(1:5, 4:-1:1), 11:19)
sticks = plot(tri, seriestype = :sticks)
@test length(sticks) == 1
end
-48
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@@ -1,48 +0,0 @@
using Plots, Test
@testset "Shorthands" begin
@testset "Set Lims" begin
p = plot(rand(10))
xlims!((1,20))
@test xlims(p) == (1,20)
ylims!((-1,1))
@test ylims(p) == (-1,1)
zlims!((-1,1))
@test zlims(p) == (-1,1)
xlims!(-1,11)
@test xlims(p) == (-1,11)
ylims!((-10,10))
@test ylims(p) == (-10,10)
zlims!((-10,10))
@test zlims(p) == (-10,10)
end
@testset "Set Ticks" begin
p = plot([0,2,3,4,5,6,7,8,9,10])
xticks = 2:6
xticks!(xticks)
@test Plots.get_subplot(current(),1).attr[:xaxis][:ticks] == xticks
yticks = 0.2:0.1:0.7
yticks!(yticks)
@test Plots.get_subplot(current(),1).attr[:yaxis][:ticks] == yticks
xticks = [5,6,7.5]
xlabels = ["a","b","c"]
xticks!(xticks, xlabels)
@test Plots.get_subplot(current(),1).attr[:xaxis][:ticks] == (xticks, xlabels)
yticks = [.5,.6,.75]
ylabels = ["z","y","x"]
yticks!(yticks, ylabels)
@test Plots.get_subplot(current(),1).attr[:yaxis][:ticks] == (yticks, ylabels)
end
end