Avoid Vararg

Following https://github.com/JuliaPlots/RecipesPipeline.jl/pull/104.
2021-09-14 18:35:16 +02:00
61 changed files with 1415 additions and 3780 deletions
--- a/.github/ISSUE_TEMPLATE/bug.md
+++ b/.github/ISSUE_TEMPLATE/bug.md
@ -20,11 +20,10 @@ Backend      | yes | no  | untested
 -------------|-----|-----|---------
 gr (default) |     |     |
 pyplot       |     |     |
+plotly       |     |     |
 plotlyjs     |     |     |
 pgfplotsx    |     |     |
-unicodeplots |     |     |
 inspectdr    |     |     |
-gaston       |     |     |

 ### Versions

--- a/.github/workflows/SnoopCompile.yml
+++ b/.github/workflows/SnoopCompile.yml
@ -1,11 +1,9 @@
-# NOTE: this file should be named 'SnoopCompile.yml', cf github.com/aminya/CompileBot.jl/blob/master/src/CompileBot.jl#L57
-
 name: SnoopCompile

 on:
  push:
    branches:
-      - master  # NOTE: to run the bot only on pushes to master
+    #  - 'master'  # NOTE: to run the bot only on pushes to master

 defaults:
  run:
@ -16,19 +14,14 @@ jobs:
    if: "!contains(github.event.head_commit.message, '[skip ci]')"
    env:
      GKS_ENCODING: "utf8"
-      GKSwstype: "nul"
+      GKSwstype: "100"
      PLOTS_TEST: "true"
-    runs-on: ${{matrix.os}}
-    continue-on-error: ${{ matrix.version == '~1.8.0-0' }}
+    runs-on: ${{ matrix.os }}
    strategy:
      fail-fast: false
      matrix:
        version:   # NOTE: the versions below should match those in your botconfig
-          - '1.6'       # ⎤
-          - '1.7'       # |
-          - '~1.8.0-0'  # |
-          # - 'nightly'   # ⎦ <<< keep these versions in sync with deps/SnoopCompile/snoop_bot_config.jl
-          # ^^^^^^^^^ for 'nightly', see github.com/JuliaPlots/Plots.jl/issues/4079
+          - '1'
        os:        # NOTE: should match the os setting of your botconfig
          - ubuntu-latest
        arch:
@ -38,22 +31,13 @@ jobs:
      - uses: actions/checkout@v2
      - uses: julia-actions/setup-julia@latest
        with:
-          version: ${{matrix.version}}
-          
-      - name: Set Swap Space
-        uses: pierotofy/set-swap-space@master
-        with:
-          swap-size-gb: 10  # required (not enough memory on github actions virtual machine)
+          version: ${{ matrix.version }}

      - name: Install dependencies
        run: |
-          cat /proc/cpuinfo
-          cat /proc/meminfo
-          cat /proc/swaps
-          free
-          df -h
-          julia --project -e 'using Pkg; Pkg.instantiate()'
-          julia -e 'using Pkg; Pkg.add(PackageSpec(name="CompileBot", version="1")); Pkg.develop(PackageSpec(; path=pwd())); using CompileBot; CompileBot.addtestdep()'
+          julia --project -e 'using Pkg; Pkg.instantiate();'
+          julia -e 'using Pkg; Pkg.add( PackageSpec(name = "CompileBot", version = "1") ); Pkg.develop(PackageSpec(; path=pwd())); using CompileBot; CompileBot.addtestdep();'
+

      # TESTCMD
      - name: Default TESTCMD
@ -85,9 +69,7 @@ jobs:
        uses: actions/download-artifact@v2

      - name: CompileBot postprocess
-        run: |
-          if ! grep -m1 -q 'format: off' artifact/src/precompile_includer.jl; then sed -i '1 i\#! format: off' artifact/src/precompile_includer.jl; fi
-          julia -e 'using Pkg; Pkg.add(PackageSpec(name="CompileBot", version="1")); using CompileBot; CompileBot.postprocess()'
+        run: julia -e 'using Pkg; Pkg.add( PackageSpec(name = "CompileBot", version = "1") ); using CompileBot; CompileBot.postprocess();'

      - name: Create Pull Request
        uses: peter-evans/create-pull-request@v3
@ -100,6 +82,7 @@ jobs:
            no changelog
          branch: "Test_SnoopCompile_AutoPR_${{ github.ref }}"

+
  Skip:
    if: "contains(github.event.head_commit.message, '[skip ci]')"
    runs-on: ubuntu-latest
--- a/.github/workflows/TagBot.yml
+++ b/.github/workflows/TagBot.yml
@ -12,4 +12,3 @@ jobs:
      - uses: JuliaRegistries/TagBot@v1
        with:
          token: ${{ secrets.GITHUB_TOKEN }}
-          ssh: ${{ secrets.TAGBOT_KEY }}
--- a/.github/workflows/benchmark.yml
+++ b/.github/workflows/benchmark.yml
@ -11,7 +11,7 @@ jobs:
      - uses: actions/checkout@v2
      - uses: julia-actions/setup-julia@latest
        with:
-          version: '1.7'
+          version: 1

      # Setup
      - name: Ubuntu TESTCMD
--- a/.github/workflows/ci.yml
+++ b/.github/workflows/ci.yml
@ -2,8 +2,6 @@ name: ci

 on:
  push:
-    branches:
-      - master
  pull_request:

 defaults:
@ -15,7 +13,7 @@ jobs:
    if: "!contains(github.event.head_commit.message, '[skip ci]')"
    env:
      GKS_ENCODING: "utf8"
-      GKSwstype: "nul"
+      GKSwstype: "100"

    name: Julia ${{ matrix.version }} - ${{ matrix.os }}
    runs-on: ${{ matrix.os }}
@ -24,8 +22,8 @@ jobs:
      fail-fast: false
      matrix:
        version:
-          - '1.6' # LTS
-          - '1.7' # latest stable
+          - '1'
+          - 'nightly'
        os:
          - ubuntu-latest
          - windows-latest
@ -33,11 +31,9 @@ jobs:
        arch:
          - x64
          # - x86
-        include:
-          - version: 'nightly'
-            os: ubuntu-latest

    steps:
+
      # Setup environment
      - uses: actions/checkout@v2
      - uses: julia-actions/setup-julia@latest
@ -55,16 +51,19 @@ jobs:
            ${{ runner.os }}-test-
            ${{ runner.os }}-

+      ## maybe required if we ever want to run graphical tests for plotly
+      # OS Dependencies
+      # - name: Ubuntu OS dependencies
+      #   if: startsWith(matrix.os,'ubuntu')
+      #   run: |
+      #    ./test/install_wkhtmltoimage.sh
+
      # TESTCMD
      - name: Default TESTCMD
        run: echo "TESTCMD=julia" >> $GITHUB_ENV
      - name: Ubuntu TESTCMD
        if: startsWith(matrix.os,'ubuntu')
-        run: |
-          echo "TESTCMD=xvfb-run --auto-servernum julia" >> $GITHUB_ENV
-          sudo apt-get -y update
-          sudo apt-get -y install gnuplot poppler-utils texlive-{latex-base,latex-extra,luatex}
-          sudo fc-cache -vr
+        run: echo "TESTCMD=xvfb-run --auto-servernum julia" >> $GITHUB_ENV

      # Julia Dependencies
      - name: Install Julia dependencies
@ -79,9 +78,7 @@ jobs:

      # Codecov
      - uses: julia-actions/julia-processcoverage@v1
-        if: startsWith(matrix.os,'ubuntu')
-      - uses: codecov/codecov-action@v2
-        if: startsWith(matrix.os,'ubuntu')
+      - uses: codecov/codecov-action@v1
        with:
          file: lcov.info

--- a/.github/workflows/docs.yml
+++ b/.github/workflows/docs.yml
@ -1,7 +1,6 @@
 name: docs

 on:
- workflow_dispatch:
 push:
  branches:
    - master
@ -9,7 +8,7 @@ on:
 
 jobs:
  Build_docs:
-    runs-on: ubuntu-latest
+    runs-on: ubuntu-18.04
    steps:
      - uses: actions/checkout@v2
        with:
@ -21,14 +20,37 @@ jobs:
          cache-name: cache-artifacts
        with:
          path: ~/.julia/artifacts 
-          key: ${{runner.os}}-test-${{env.cache-name}}-${{hashFiles('**/Project.toml')}}
+          key: ${{ runner.os }}-test-${{ env.cache-name }}-${{ hashFiles('**/Project.toml') }}
          restore-keys: |
-            ${{runner.os}}-test-${{env.cache-name}}-
-            ${{runner.os}}-test-
-            ${{runner.os}}-
-      - name: Build documentation
+            ${{ runner.os }}-test-${{ env.cache-name }}-
+            ${{ runner.os }}-test-
+            ${{ runner.os }}-
+      - name: Install dependencies
+        run: |
+          sudo apt-get update -y
+          sudo apt-get install -y qt5-default \
+            ttf-mscorefonts-installer \
+            poppler-utils \
+            pdf2svg \
+            texlive-latex-base \
+            texlive-binaries \
+            texlive-pictures \
+            texlive-latex-extra \
+            texlive-luatex \
+            ghostscript-x \
+            libgconf2-4 \
+            gnuplot
+          sudo fc-cache -vr
+            
+      - name: build documentation
        env: 
          PYTHON: ""
-          DOCUMENTER_KEY: ${{secrets.DOCUMENTER_KEY}}
-          GITHUB_TOKEN: ${{secrets.GITHUB_TOKEN}}
-        run: bash docs/ci_build.sh
+          DOCUMENTER_KEY: ${{ secrets.DOCUMENTER_KEY }}
+        run: |
+          export JULIA_DEBUG=Documenter
+          export PLOTDOCS_ANSICOLOR=true
+          export GKSwstype=nul  # Plots.jl/issues/3664
+          xvfb-run julia --color=yes --project=docs/ -e 'using Pkg; Pkg.develop(PackageSpec(path=pwd())); Pkg.add(PackageSpec(name="Plots", rev=split(ENV["GITHUB_REF"], "/", limit=3)[3])); Pkg.instantiate()'
+          # xvfb-run julia --color=yes --project=docs/ -e 'using Pkg; pkg"add Documenter#master"'
+          xvfb-run julia --color=yes --project=docs/ -e 'using Pkg; pkg"st -m"'
+          xvfb-run julia --color=yes --project=docs/ -e 'withenv("GITHUB_REPOSITORY" => "JuliaPlots/PlotDocs.jl") do; include("docs/make.jl"); end' 
--- a/.github/workflows/format.yml.disabled
+++ b/.github/workflows/format.yml.disabled
@ -0,0 +1,22 @@
+name: format
+
+on:
+  pull_request:
+
+jobs:
+  JuliaFormatter:
+    if: "!contains(github.event.head_commit.message, '[skip ci]')"
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@v2
+      - uses: julia-actions/setup-julia@latest
+        with:
+          version: 1
+
+      # Check format
+      - name: Install JuliaFormatter and format
+        run: |
+          git diff --name-only --exit-code
+          julia -e 'using Pkg; pkg"add JuliaFormatter CSTParser#master"'
+          julia -e 'using JuliaFormatter; [format(["src", "test"]) for _ in 1:2]'
+          git diff --exit-code
--- a/.github/workflows/format_check.yml
+++ b/.github/workflows/format_check.yml
@ -1,54 +0,0 @@
-name: format
-
-on:
-  pull_request:
-  push:
-    branches:
-      - 'master'
-
-jobs:
-  code-style:
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v2
-      - uses: julia-actions/setup-julia@v1
-      - name: Install dependencies
-        run: |
-          using Pkg
-          Pkg.add([
-              PackageSpec("JuliaFormatter"),
-              PackageSpec(url = "https://github.com/tkf/JuliaProjectFormatter.jl.git"),
-          ])
-        shell: julia --color=yes {0}
-
-      - name: Format Julia files
-        run: |
-          using JuliaFormatter
-          format(["src", "test"])
-        shell: julia --color=yes --compile=min -O0 {0}
-      - name: suggester / JuliaFormatter
-        uses: reviewdog/action-suggester@v1
-        with:
-          tool_name: JuliaFormatter
-          fail_on_error: true
-
-      # reviewdog/action-suggester not using `cleanup` flag?
-      - name: Cleanup
-        if: success() || failure()
-        run: |
-          git checkout -- .
-          git clean --force
-        shell: bash
-
-      - name: Format Julia project files
-        if: success() || failure()
-        run: |
-          using JuliaProjectFormatter
-          format_projects()
-        shell: julia --color=yes --compile=min -O0 {0}
-      - name: suggester / JuliaProjectFormatter
-        if: success() || failure()
-        uses: reviewdog/action-suggester@v1
-        with:
-          tool_name: JuliaProjectFormatter
-          fail_on_error: true
--- a/.github/workflows/format_pr.yml
+++ b/.github/workflows/format_pr.yml
@ -1,19 +1,19 @@
-name: format
+name: format-pr

 on:
  schedule:
-    - cron: '0 0 1 * *'
+    - cron: '0 0 * * SUN'

 jobs:
-  pr:
+  build:
    if: "!contains(github.event.head_commit.message, '[skip ci]')"
    runs-on: ubuntu-latest
    steps:
      - uses: actions/checkout@v2
      - name: Install JuliaFormatter and format
        run: |
-          julia -e 'using Pkg; Pkg.add(PackageSpec(name="JuliaFormatter"))'
-          julia -e 'using JuliaFormatter; [format(["src", "test"]) for _ in 1:2]'
+          julia  -e 'using Pkg; pkg"add JuliaFormatter CSTParser#master"'
+          julia  -e 'using JuliaFormatter; [format(["src", "test"]) for _ in 1:2]'
          git diff --exit-code

      - name: Create Pull Request
--- a/.zenodo.json
+++ b/.zenodo.json
@ -3,7 +3,7 @@
    "license": "MIT",
    "creators": [
        {
-            "affiliation": "Headlands Technologies",
+            "affiliation": "Elemental Cognition",
            "name": "Tom Breloff"
        }
    ],
@ -142,8 +142,6 @@
        },
        {
            "name": "Anshul Singhvi",
-            "affiliation": "Columbia University",
-            "orcid": "0000-0001-6055-1291",
            "type": "Other"
        },
        {
@ -403,7 +401,7 @@
            "type": "Other"
        },
        {
-            "name": "Mosè Giodano",
+            "name": "Moesè Giodano",
            "type": "Other"
        },
        {
@ -694,28 +692,6 @@
        {
            "name": "Fred Callaway",
            "type": "Other"
-        },
-        {
-            "name": "Jan Thorben Schneider",
-            "type": "Other"
-        },
-        {
-            "orcid": "0000-0003-4102-2460",
-            "affiliation": "Alogus Research Corporation",
-            "name": "Lee Phillips",
-            "type": "Other"
-        },
-        {
-            "name": "Tom Gillam",
-            "type": "Other"
-        },
-        {
-            "name": "Steve Leung",
-            "type": "Other"
-        },
-        {
-            "name": "Xu Zhi-Yuan",
-            "type": "Other"
        }
    ],
    "upload_type": "software"
--- a/NEWS.md
+++ b/NEWS.md
@ -3,7 +3,7 @@

 #### notes on release changes, ongoing development, and future planned work

-## NOTE: this file is deprecated, see the [TagBot](https://github.com/marketplace/actions/julia-tagbot) auto-generated changelogs instead
+## (current master)

 ## 0.28.3
 - support generalized array interface
--- a/Project.toml
+++ b/Project.toml
@ -1,7 +1,7 @@
 name = "Plots"
 uuid = "91a5bcdd-55d7-5caf-9e0b-520d859cae80"
 author = ["Tom Breloff (@tbreloff)"]
-version = "1.29.0"
+version = "1.21.3"

 [deps]
 Base64 = "2a0f44e3-6c83-55bd-87e4-b1978d98bd5f"
@ -17,7 +17,6 @@ Latexify = "23fbe1c1-3f47-55db-b15f-69d7ec21a316"
 LinearAlgebra = "37e2e46d-f89d-539d-b4ee-838fcccc9c8e"
 Measures = "442fdcdd-2543-5da2-b0f3-8c86c306513e"
 NaNMath = "77ba4419-2d1f-58cd-9bb1-8ffee604a2e3"
-Pkg = "44cfe95a-1eb2-52ea-b672-e2afdf69b78f"
 PlotThemes = "ccf2f8ad-2431-5c83-bf29-c5338b663b6a"
 PlotUtils = "995b91a9-d308-5afd-9ec6-746e21dbc043"
 Printf = "de0858da-6303-5e67-8744-51eddeeeb8d7"
@ -33,53 +32,40 @@ SparseArrays = "2f01184e-e22b-5df5-ae63-d93ebab69eaf"
 Statistics = "10745b16-79ce-11e8-11f9-7d13ad32a3b2"
 StatsBase = "2913bbd2-ae8a-5f71-8c99-4fb6c76f3a91"
 UUIDs = "cf7118a7-6976-5b1a-9a39-7adc72f591a4"
-UnicodeFun = "1cfade01-22cf-5700-b092-accc4b62d6e1"
-Unzip = "41fe7b60-77ed-43a1-b4f0-825fd5a5650d"

 [compat]
 Contour = "0.5"
-FFMPEG = "0.2 - 0.4"
-FixedPointNumbers = "0.6 - 0.8"
-GR = "0.64"
+FFMPEG = "0.2, 0.3, 0.4"
+FixedPointNumbers = "0.6, 0.7, 0.8"
+GR = "0.53, 0.54, 0.55, 0.57, 0.58, 0.59"
 GeometryBasics = "0.2, 0.3.1, 0.4"
 JSON = "0.21, 1"
-Latexify = "0.14 - 0.15"
+Latexify = "0.14, 0.15"
 Measures = "0.3"
-NaNMath = "0.3, 1"
-PGFPlotsX = "1"
-PlotThemes = "2, 3"
+NaNMath = "0.3"
+PlotThemes = "2"
 PlotUtils = "1"
-PlotlyBase = "0.7"
-PlotlyJS = "0.18"
-PyPlot = "2"
-RecipesBase = "1.2"
-RecipesPipeline = "0.5"
+RecipesBase = "1"
+RecipesPipeline = "0.3.5, 0.4"
 Reexport = "0.2, 1.0"
 Requires = "1"
 Scratch = "1"
 Showoff = "0.3.1, 1.0"
-StatsBase = "0.32 - 0.33"
-UnicodeFun = "0.4"
-UnicodePlots = "2.10"
-Unzip = "0.1"
-julia = "1.6"
+StatsBase = "0.32, 0.33"
+UnicodePlots = "2.2"
+julia = "1.5"

 [extras]
-Colors = "5ae59095-9a9b-59fe-a467-6f913c188581"
 Distributions = "31c24e10-a181-5473-b8eb-7969acd0382f"
 FileIO = "5789e2e9-d7fb-5bc7-8068-2c6fae9b9549"
-Gaston = "4b11ee91-296f-5714-9832-002c20994614"
 Gtk = "4c0ca9eb-093a-5379-98c5-f87ac0bbbf44"
 HDF5 = "f67ccb44-e63f-5c2f-98bd-6dc0ccc4ba2f"
 ImageMagick = "6218d12a-5da1-5696-b52f-db25d2ecc6d1"
 Images = "916415d5-f1e6-5110-898d-aaa5f9f070e0"
-InspectDR = "d0351b0e-4b05-5898-87b3-e2a8edfddd1d"
 LibGit2 = "76f85450-5226-5b5a-8eaa-529ad045b433"
 OffsetArrays = "6fe1bfb0-de20-5000-8ca7-80f57d26f881"
 PGFPlotsX = "8314cec4-20b6-5062-9cdb-752b83310925"
-PlotlyBase = "a03496cd-edff-5a9b-9e67-9cda94a718b5"
 PlotlyJS = "f0f68f2c-4968-5e81-91da-67840de0976a"
-PyPlot = "d330b81b-6aea-500a-939a-2ce795aea3ee"
 RDatasets = "ce6b1742-4840-55fa-b093-852dadbb1d8b"
 StableRNGs = "860ef19b-820b-49d6-a774-d7a799459cd3"
 StaticArrays = "90137ffa-7385-5640-81b9-e52037218182"
@ -90,4 +76,4 @@ UnicodePlots = "b8865327-cd53-5732-bb35-84acbb429228"
 VisualRegressionTests = "34922c18-7c2a-561c-bac1-01e79b2c4c92"

 [targets]
-test = ["Colors", "Distributions", "FileIO", "Gaston", "Gtk", "ImageMagick", "Images", "InspectDR", "LibGit2", "OffsetArrays", "PGFPlotsX", "PlotlyJS", "PlotlyBase", "PyPlot", "HDF5", "RDatasets", "StableRNGs", "StaticArrays", "StatsPlots", "Test", "TestImages", "UnicodePlots", "VisualRegressionTests"]
+test = ["Distributions", "FileIO", "Gtk", "ImageMagick", "Images", "LibGit2", "OffsetArrays", "PGFPlotsX", "PlotlyJS", "HDF5", "RDatasets", "StableRNGs", "StaticArrays", "StatsPlots", "Test", "TestImages", "UnicodePlots", "VisualRegressionTests"]
--- a/README.md
+++ b/README.md
@ -10,18 +10,18 @@
 [gitter-url]: https://gitter.im/tbreloff/Plots.jl?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge

 [docs-img]: https://img.shields.io/badge/docs-stable-blue.svg
-[docs-url]: https://docs.juliaplots.org/stable/
+[docs-url]: http://docs.juliaplots.org/latest/

 [![][gh-ci-img]][gh-ci-url]
 [![][pkgeval-img]][pkgeval-url]
 [![project chat](https://img.shields.io/badge/zulip-join_chat-brightgreen.svg)](https://julialang.zulipchat.com/#narrow/stream/236493-plots)
 [![][docs-img]][docs-url]
 [![Codecov](https://codecov.io/gh/JuliaPlots/Plots.jl/branch/master/graph/badge.svg)](https://codecov.io/gh/JuliaPlots/Plots.jl)
-[![Plots Downloads](https://shields.io/endpoint?url=https://pkgs.genieframework.com/api/v1/badge/Plots)](https://pkgs.genieframework.com?packages=Plots)

 [![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.4725317.svg)](https://doi.org/10.5281/zenodo.4725317)
 This is the DOI for all Versions, please follow the link to get the DOI for a specific version.

+
 #### Created by Tom Breloff (@tbreloff)

 #### Maintained by the [JuliaPlots members](https://github.com/orgs/JuliaPlots/people)
--- a/deps/SnoopCompile/precompile/1.7/precompile_Plots.jl
+++ b/deps/SnoopCompile/precompile/1.7/precompile_Plots.jl
@ -1,487 +0,0 @@
-# Use
-#    @warnpcfail precompile(args...)
-# if you want to be warned when a precompile directive fails
-macro warnpcfail(ex::Expr)
-    modl = __module__
-    file = __source__.file === nothing ? "?" : String(__source__.file)
-    line = __source__.line
-    quote
-        $(esc(ex)) || @warn """precompile directive
-     $($(Expr(:quote, ex)))
- failed. Please report an issue in $($modl) (after checking for duplicates) or remove this directive.""" _file=$file _line=$line
-    end
-end
-
-
-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{(: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, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}, Vector{Float64}},Int64})
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}, Vector{Float64}},Tuple{Int64, Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Vector{Int64}}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(areaplot)),Any,typeof(areaplot),Any,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:flip,), Tuple{Bool}},typeof(attr!),Axis})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:foreground_color_grid, :grid, :gridalpha, :gridstyle, :gridlinewidth), Tuple{RGBA{Float64}, Bool, Float64, Symbol, Int64}},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, :flip, :minorgrid, :guide), Tuple{Bool, Bool, Bool, String}},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, :minorgrid, :guide), Tuple{Bool, Bool, String}},typeof(attr!),Axis})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:grid, :minorgrid, :mirror, :guide), Tuple{Bool, Bool, Bool, String}},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{(:guide,), Tuple{String}},typeof(attr!),Axis})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:guide_position, :guidefontvalign, :mirror, :guide), Tuple{Symbol, Symbol, Bool, String}},typeof(attr!),Axis})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:guidefonthalign, :guide_position, :mirror, :guide), Tuple{Symbol, Symbol, Bool, 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{(:minorgrid, :scale, :guide), Tuple{Bool, Symbol, String}},typeof(attr!),Axis})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:minorgrid,), Tuple{Bool}},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{(: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{(:shape,), Tuple{Symbol}},typeof(default)})
-    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(font)),NamedTuple{(:family, :pointsize, :halign, :valign, :rotation, :color), Tuple{String, Int64, Symbol, Symbol, Float64, RGBA{Float64}}},typeof(font)})
-    Base.precompile(Tuple{Core.kwftype(typeof(font)),NamedTuple{(:family, :pointsize, :valign, :halign, :rotation, :color), Tuple{String, Int64, Symbol, Symbol, Float64, RGBA{Float64}}},typeof(font)})
-    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}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),StepRange{Int64, Int64},Vector{Float64}})
-    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(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),UnitRange{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),Vector{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:halign, :valign, :rotation), Tuple{Symbol, Symbol, Int64}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:rotation, :color), Tuple{Int64, RGBA{Float64}}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(lens!)),Any,typeof(lens!),Any,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Plot{GRBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{GRBackend},Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:annotation,), Tuple{Vector{Tuple{Int64, Float64, Tuple{String, Any, Any, Any}}}}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{GRBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:layout, :margin), Tuple{Matrix{Any}, AbsoluteLength}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot!),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot!),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Plot{GRBackend},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Plot{PlotlyBackend},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color), Tuple{Int64, Symbol}},typeof(plot!),Function,Float64,Irrational{:π}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color), Tuple{Int64, Symbol}},typeof(plot!),Plot{GRBackend},Function,Float64,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),Plot{GRBackend},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),Plot{PlotlyBackend},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:markersize, :c, :seriestype), Tuple{Int64, Symbol, Symbol}},typeof(plot!),Plot{GRBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:markersize, :c, :seriestype), Tuple{Int64, Symbol, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:markersize, :c, :seriestype), Tuple{Int64, Symbol, Symbol}},typeof(plot!),Vector{Float64}})
-    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},Vector{Int64},Vector{Float64}})
-    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},Vector{Int64},Vector{Float64}})
-    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!),Vector{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot!),Plot{GRBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot!),Vector{Int64}})
-    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{(:title,), Tuple{String}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:w,), Tuple{Int64}},typeof(plot!),Plot{GRBackend},Vector{Float64},Vector{Float64},Vararg{Any}})
-    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, :minorgrid), Tuple{Tuple{String, Symbol}, Bool}},typeof(plot!),Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:yaxis, :minorgrid), Tuple{Tuple{String, Symbol}, Bool}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Plot{GRBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:annotations, :leg), Tuple{Tuple{Int64, Float64, PlotText}, Bool}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:arrow,), Tuple{Int64}},typeof(plot),Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:aspect_ratio, :seriestype), Tuple{Int64, Symbol}},typeof(plot),Vector{String},Vector{String},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bar_width, :alpha, :color, :fillto, :label, :seriestype), Tuple{Float64, Float64, Vector{Symbol}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, String, Symbol}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bins, :weights, :seriestype), Tuple{Symbol, Vector{Int64}, Symbol}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:color, :line, :marker), Tuple{Matrix{Symbol}, Tuple{Symbol, Int64}, Tuple{Matrix{Symbol}, Int64, Float64, Stroke}}},typeof(plot),Vector{Vector}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:connections, :title, :xlabel, :ylabel, :zlabel, :legend, :margin, :seriestype), Tuple{Tuple{Vector{Int64}, Vector{Int64}, Vector{Int64}}, String, String, String, String, Symbol, AbsoluteLength, Symbol}},typeof(plot),Vector{Int64},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill, :seriestype), Tuple{Bool, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill_z, :alpha, :label, :bar_width, :seriestype), Tuple{StepRange{Int64, Int64}, Vector{Float64}, String, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:framestyle, :title, :color, :layout, :label, :markerstrokewidth, :ticks, :seriestype), Tuple{Matrix{Symbol}, Matrix{String}, Base.ReshapedArray{Int64, 2, UnitRange{Int64}, Tuple{}}, Int64, String, Int64, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Vector{Float64}},Vector{Vector{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:grid, :title), Tuple{Tuple{Symbol, Symbol, Symbol, Int64, Float64}, String}},typeof(plot),Vector{Float64}})
-    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},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :legend, :seriestype), Tuple{String, Symbol, Symbol}},typeof(plot),Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :title, :xlabel, :linewidth, :legend), Tuple{Matrix{String}, String, String, Int64, Symbol}},typeof(plot),Vector{Function},Float64,Float64})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label,), Tuple{Matrix{String}}},typeof(plot),Vector{AbstractVector{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:labels,), Tuple{Matrix{String}}},typeof(plot),PortfolioComposition})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :group, :linetype, :linecolor), Tuple{Matrix{Any}, Vector{String}, Matrix{Symbol}, Symbol}},typeof(plot),Vector{Float64}})
-    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},Plot{GRBackend}})
-    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},Plot{PlotlyBackend}})
-    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, :margin), Tuple{Matrix{Any}, AbsoluteLength}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :palette, :bg_inside), Tuple{Int64, Matrix{PlotUtils.ContinuousColorGradient}, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border), Tuple{Matrix{Any}, Matrix{Symbol}, Bool, Nothing, Symbol}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation), Tuple{Matrix{Any}, Matrix{String}, Symbol, Matrix{AbsoluteLength}, AbsoluteLength, Int64}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xguide, :yguide, :xguidefonthalign, :yguidefontvalign, :xguideposition, :yguideposition, :ymirror, :xmirror, :legend, :seriestype), Tuple{Int64, String, String, Matrix{Symbol}, Matrix{Symbol}, Symbol, Matrix{Symbol}, Matrix{Bool}, Matrix{Bool}, Bool, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xlims), Tuple{Matrix{Any}, Tuple{Int64, Float64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot),Vector{Tuple{Int64, Real}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :lab, :ms), Tuple{Tuple{Matrix{Symbol}, Int64}, Matrix{String}, Int64}},typeof(plot),Vector{Vector},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :label, :legendtitle), Tuple{Tuple{Int64, Matrix{Symbol}}, Matrix{String}, String}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :leg, :fill), Tuple{Int64, Bool, Tuple{Int64, Symbol}}},typeof(plot),Function,Function,Int64,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :marker, :bg, :fg, :xlim, :ylim, :leg), Tuple{Tuple{Int64, Symbol, Symbol}, Tuple{Shape{Float64, Float64}, Int64, RGBA{Float64}}, Symbol, Symbol, Tuple{Int64, Int64}, Tuple{Int64, Int64}, Bool}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line_z, :linewidth, :legend), Tuple{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, Int64, Bool}},typeof(plot),Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:m, :markersize, :lab, :bg, :xlim, :ylim, :seriestype), Tuple{Matrix{Symbol}, Int64, Matrix{String}, Symbol, Tuple{Int64, Int64}, Tuple{Int64, Int64}, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker,), Tuple{Bool}},typeof(plot),Vector{Union{Missing, Int64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker_z, :color, :legend, :seriestype), Tuple{typeof(+), Symbol, Bool, Symbol}},typeof(plot),Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:markershape, :markersize, :marker_z, :line_z, :linewidth), Tuple{Matrix{Symbol}, Matrix{Int64}, Matrix{Int64}, Matrix{Int64}, Matrix{Int64}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:markershape, :seriestype, :label), Tuple{Symbol, Symbol, String}},typeof(plot),UnitRange{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:nbins, :seriestype), Tuple{Int64, Symbol}},typeof(plot),Vector{Float64},Vector{Float64}})
-    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),Vector{ComplexF64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:proj, :m), Tuple{Symbol, Int64}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:projection, :seriestype), Tuple{Symbol, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},UnitRange{Int64},Matrix{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:quiver, :seriestype), Tuple{Tuple{Vector{Float64}, Vector{Float64}, Vector{Float64}}, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:reg, :fill), Tuple{Bool, Tuple{Int64, Symbol}}},typeof(plot),Vector{Float64}})
-    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}, Int64}}},typeof(plot),UnitRange{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,), Tuple{Tuple{LinRange{Float64, Int64}, LinRange{Float64, Int64}}}},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{(:seriescolor, :fillalpha), Tuple{Matrix{Symbol}, Matrix{Float64}}},typeof(plot),AreaPlot})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype, :markershape, :markersize, :color), Tuple{Matrix{Symbol}, Vector{Symbol}, Int64, Vector{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),Vector{DateTime},UnitRange{Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),Vector{OHLC}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:st, :xlabel, :ylabel, :zlabel), Tuple{Symbol, String, String, String}},typeof(plot),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :l, :seriestype), Tuple{String, Float64, Symbol}},typeof(plot),Vector{String},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :xflip, :yflip, :zflip, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, Bool, Bool, Bool, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :xmirror, :ymirror, :zmirror, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, Bool, Bool, Bool, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,), Tuple{Matrix{String}}},typeof(plot),Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,), Tuple{Matrix{String}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:w,), Tuple{Int64}},typeof(plot),Matrix{Float64}})
-    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),Matrix{Float64}})
-    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),Vector{Float64},Vector{Float64},UnitRange{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(portfoliocomposition)),Any,typeof(portfoliocomposition),Any,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(scatter!)),Any,typeof(scatter!),Any})
-    Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip, :disp), Tuple{Vector{Int64}, Bool}},typeof(test_examples),Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip,), Tuple{Vector{Int64}}},typeof(test_examples),Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(yaxis!)),Any,typeof(yaxis!),Any,Any})
-    Base.precompile(Tuple{Type{GridLayout},Int64,Vararg{Int64}})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},AbstractVector{<:GeometryBasics.Point}})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},AbstractVector{OHLC}})
-    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{:bins2d}},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{:hspan}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:lens}},AbstractPlot})
-    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{:steppre}},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{:vline}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:vspan}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:xerror}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Vector{ComplexF64}})
-    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},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{PlotlyBackend},Dict{Symbol, Any},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_attributes!),Plot{GRBackend},DefaultsDict})
-    Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_axis_args!),Plot{GRBackend},Dict{Symbol, Any},Symbol})
-    Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_axis_args!),Plot{PlotlyBackend},Dict{Symbol, Any},Symbol})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{GRBackend},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{PlotlyBackend},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{GRBackend},Vector{Dict{Symbol, Any}},Dict{Symbol, Any}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{PlotlyBackend},Vector{Dict{Symbol, Any}},Dict{Symbol, Any}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.unzip),Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{typeof(_bin_centers),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Float64},String})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Int64},String})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Nothing},String})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{PlotUtils.ContinuousColorGradient},String})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}},String})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Symbol},String})
-    Base.precompile(Tuple{typeof(_cycle),Base.OneTo{Int64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),StepRange{Int64, Int64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),UnitRange{Int64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},StepRange{Int64, Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},UnitRange{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Int64},StepRange{Int64, Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Int64},UnitRange{Int64}})
-    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),Vector{Float64},Bool,Bool})
-    Base.precompile(Tuple{typeof(_plot!),Plot,Any,Any})
-    Base.precompile(Tuple{typeof(_preprocess_barlike),DefaultsDict,Base.OneTo{Int64},Vector{Float64}})
-    Base.precompile(Tuple{typeof(_preprocess_binlike),DefaultsDict,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{typeof(_replace_markershape),Vector{Symbol}})
-    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(_update_subplot_periphery),Subplot{GRBackend},Vector{Any}})
-    Base.precompile(Tuple{typeof(_update_subplot_periphery),Subplot{PlotlyBackend},Vector{Any}})
-    Base.precompile(Tuple{typeof(annotate!),AbstractVector{<:Tuple}})
-    Base.precompile(Tuple{typeof(axis_limits),Subplot{GRBackend},Symbol,Bool,Bool})
-    Base.precompile(Tuple{typeof(axis_limits),Subplot{PlotlyBackend},Symbol,Bool,Bool})
-    Base.precompile(Tuple{typeof(backend),PlotlyBackend})
-    Base.precompile(Tuple{typeof(bbox),AbsoluteLength,AbsoluteLength,AbsoluteLength,AbsoluteLength})
-    Base.precompile(Tuple{typeof(bbox),Float64,Float64,Float64,Float64})
-    Base.precompile(Tuple{typeof(build_layout),GridLayout,Int64,Vector{Plot}})
-    Base.precompile(Tuple{typeof(convert_to_polar),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64},Tuple{Int64, Float64}})
-    Base.precompile(Tuple{typeof(discrete_value!),Axis,Vector{Union{Missing, Float64}}})
-    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64},Vararg{Vector{Float64}}})
-    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{typeof(error_zipit),Tuple{Vector{Float64}, Vector{Float64}, Vector{Float64}}})
-    Base.precompile(Tuple{typeof(fakedata),Int64,Int64})
-    Base.precompile(Tuple{typeof(fakedata),TaskLocalRNG,Int64,Vararg{Int64}})
-    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Int64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(get_series_color),SubArray{Symbol, 1, Vector{Symbol}, Tuple{UnitRange{Int64}}, true},Subplot{GRBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{GRBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{PlotlyBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_ticks),StepRange{Int64, Int64},Vector{Float64},Vector{Any},Tuple{Int64, Int64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Float64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Int64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Int64, Int64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),UnitRange{Int64},Vector{Float64},Vector{Any},Tuple{Float64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_xy),Vector{OHLC}})
-    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}},Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}},Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_display),Subplot{GRBackend},AbsoluteLength,AbsoluteLength,Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_contour),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_heatmap),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Float64,Float64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Shape{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Float64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Int64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_markers),Series,Base.OneTo{Int64},Vector{Float64},Tuple{Float64, Float64},Int64,Int64})
-    Base.precompile(Tuple{typeof(gr_draw_markers),Series,Base.OneTo{Int64},Vector{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_markers),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_markers),Series,UnitRange{Int64},Vector{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},UnitRange{Int64},Tuple{Vector{Float64}, Vector{Float64}},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Vector{Float64},Nothing,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64},Nothing,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,StepRange{Int64, Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,UnitRange{Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,UnitRange{Int64},Vector{Float64},Nothing,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,UnitRange{Int64},Vector{Float64},Vector{Int64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Vector{Float64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Vector{Float64},Vector{Float64},Nothing,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Vector{Int64},Vector{Int64},Nothing,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Vector{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_fill_viewport),Vector{Float64},RGBA{Float64}})
-    Base.precompile(Tuple{typeof(gr_get_3d_axis_angle),Vector{Float64},Float64,Float64,Symbol})
-    Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Vector{Float64}, Vector{String}},Int64})
-    Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Vector{Int64}, Vector{String}},Int64})
-    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Int64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_label_ticks_3d),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_polaraxes),Int64,Float64,Subplot{GRBackend}})
-    Base.precompile(Tuple{typeof(gr_polyline),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{typeof(gr_set_gradient),PlotUtils.ContinuousColorGradient})
-    Base.precompile(Tuple{typeof(gr_text),Float64,Float64,String})
-    Base.precompile(Tuple{typeof(gr_text_size),String})
-    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}}})
-    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}}})
-    Base.precompile(Tuple{typeof(gr_viewport_from_bbox),Subplot{GRBackend},BoundingBox{Tuple{AbsoluteLength, AbsoluteLength}, Tuple{AbsoluteLength, AbsoluteLength}},AbsoluteLength,AbsoluteLength,Vector{Float64}})
-    Base.precompile(Tuple{typeof(heatmap_edges),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Symbol})
-    Base.precompile(Tuple{typeof(heatmap_edges),UnitRange{Int64},Symbol})
-    Base.precompile(Tuple{typeof(heatmap_edges),Vector{Float64},Symbol})
-    Base.precompile(Tuple{typeof(ignorenan_minimum),Vector{Int64}})
-    Base.precompile(Tuple{typeof(layout_args),Matrix{Any}})
-    Base.precompile(Tuple{typeof(layout_args),NamedTuple{(:label, :blank), Tuple{Symbol, Bool}}})
-    Base.precompile(Tuple{typeof(layout_args),NamedTuple{(:label, :width, :height), Tuple{Symbol, Symbol, Float64}}})
-    Base.precompile(Tuple{typeof(make_fillrange_side),UnitRange{Int64},LinRange{Float64, Int64}})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Function})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Int64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Int64, Int64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),StepRange{Int64, Int64},Tuple{Int64, Int64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),UnitRange{Int64},Tuple{Float64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(partialcircle),Float64,Float64,Int64})
-    Base.precompile(Tuple{typeof(partialcircle),Int64,Float64,Int64})
-    Base.precompile(Tuple{typeof(plot!),Any})
-    Base.precompile(Tuple{typeof(plot!),Plot,Plot,Plot,Vararg{Plot}})
-    Base.precompile(Tuple{typeof(plot),Any,Any})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend}})
-    Base.precompile(Tuple{typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{typeof(processGridArg!),Dict{Symbol, Any},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol, Any},Matrix{Symbol}})
-    Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol, Any},Symbol})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Bool})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Matrix{Symbol}})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},RGBA{Float64}})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Shape{Float64, Float64}})
-    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{GRBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Symbol, Int64, String}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,PlotText})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Symbol, Int64, String}})
-    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},StepRange{Int64, Int64},Symbol})
-    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(push!),Plot{GRBackend},Float64,Vector{Float64}})
-    Base.precompile(Tuple{typeof(quiver_using_arrows),DefaultsDict})
-    Base.precompile(Tuple{typeof(resetfontsizes)})
-    Base.precompile(Tuple{typeof(scalefontsizes),Float64})
-    Base.precompile(Tuple{typeof(series_annotations),Vector{Any}})
-    Base.precompile(Tuple{typeof(slice_arg),Base.ReshapedArray{Int64, 2, UnitRange{Int64}, Tuple{}},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{AbsoluteLength},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{Bool},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{Int64},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{PlotUtils.ContinuousColorGradient},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{RGBA{Float64}},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{String},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{Symbol},Int64})
-    Base.precompile(Tuple{typeof(spy),Any})
-    Base.precompile(Tuple{typeof(straightline_data),Tuple{Float64, Float64},Tuple{Float64, Float64},Vector{Float64},Vector{Float64},Int64})
-    Base.precompile(Tuple{typeof(stroke),Int64,Vararg{Any}})
-    Base.precompile(Tuple{typeof(text),String,Symbol})
-    Base.precompile(Tuple{typeof(title!),AbstractString})
-    Base.precompile(Tuple{typeof(vline!),Any})
-    Base.precompile(Tuple{typeof(warn_on_attr_dim_mismatch),Series,Vector{Float64},Vector{Float64},Nothing,Base.Iterators.Flatten{Vector{Tuple{SeriesSegment}}}})
-    Base.precompile(Tuple{typeof(xgrid!),Plot{GRBackend},Symbol,Vararg{Any}})
-    Base.precompile(Tuple{typeof(xgrid!),Plot{PlotlyBackend},Symbol,Vararg{Any}})
-    Base.precompile(Tuple{typeof(xlims),Subplot{PlotlyBackend}})
-    isdefined(Plots, Symbol("#168#169")) && Base.precompile(Tuple{getfield(Plots, Symbol("#168#169")),Any})
-    isdefined(Plots, Symbol("#170#171")) && Base.precompile(Tuple{getfield(Plots, Symbol("#170#171")),Any})
-    isdefined(Plots, Symbol("#2#6")) && Base.precompile(Tuple{getfield(Plots, Symbol("#2#6")),UnitRange{Int64}})
-    isdefined(Plots, Symbol("#301#337")) && Base.precompile(Tuple{getfield(Plots, Symbol("#301#337"))})
-    isdefined(Plots, Symbol("#322#358")) && Base.precompile(Tuple{getfield(Plots, Symbol("#322#358"))})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#102")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#102")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64}},Float64,Bool})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#103")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#103")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64, Float64}},Float64,Bool})
-    let fbody = try __lookup_kwbody__(which(annotate!, (AbstractVector{<:Tuple},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(annotate!),AbstractVector{<:Tuple},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(font, (Font,Vararg{Any},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}},typeof(font),Font,Vararg{Any},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(gr_polyline, (Vector{Float64},Vector{Float64},typeof(GR.fillarea),))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Symbol,Symbol,typeof(gr_polyline),Vector{Float64},Vector{Float64},typeof(GR.fillarea),))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(gr_set_font, (Font,Subplot{GRBackend},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Symbol,Symbol,RGBA{Float64},Float64,typeof(gr_set_font),Font,Subplot{GRBackend},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot!, (Any,Vararg{Any},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot!),Any,Vararg{Any},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot!, (Plot,Plot,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot!),Plot,Plot,))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot!, (Plot,Plot,Plot,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot!),Plot,Plot,Plot,))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot!, (Plot,Plot,Plot,Vararg{Plot},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot!),Plot,Plot,Plot,Vararg{Plot},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot, (Any,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot),Any,))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot, (Any,Vararg{Any},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(plot),Any,Vararg{Any},))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(title!, (AbstractString,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(title!),AbstractString,))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(yaxis!, (Any,Vararg{Any},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Pairs{Symbol, V, Tuple{Vararg{Symbol, N}}, NamedTuple{names, T}} where {V, N, names, T<:Tuple{Vararg{Any, N}}},typeof(yaxis!),Any,Vararg{Any},))
-    end
-end
-end
--- a/deps/SnoopCompile/precompile/1.8/precompile_Plots.jl
+++ b/deps/SnoopCompile/precompile/1.8/precompile_Plots.jl
@ -1,282 +0,0 @@
-# Use
-#    @warnpcfail precompile(args...)
-# if you want to be warned when a precompile directive fails
-macro warnpcfail(ex::Expr)
-    modl = __module__
-    file = __source__.file === nothing ? "?" : String(__source__.file)
-    line = __source__.line
-    quote
-        $(esc(ex)) || @warn """precompile directive
-     $($(Expr(:quote, ex)))
- failed. Please report an issue in $($modl) (after checking for duplicates) or remove this directive.""" _file=$file _line=$line
-    end
-end
-
-
-function _precompile_()
-    ccall(:jl_generating_output, Cint, ()) == 1 || return nothing
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}, Vector{Float64}},Int64})
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Vector{Int64}}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:formatter,), Tuple{typeof(datetimeformatter)}},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{(:guide_position, :guidefontvalign, :mirror, :guide), Tuple{Symbol, Symbol, Bool, String}},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{(:ticks,), Tuple{Nothing}},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),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),StepRange{Int64, Int64},Vector{Float64}})
-    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(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),UnitRange{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),Vector{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:halign, :valign, :rotation), Tuple{Symbol, Symbol, Int64}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:rotation, :color), Tuple{Int64, RGBA{Float64}}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{GRBackend},Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:annotation,), Tuple{Vector{Tuple{Int64, Float64, Tuple{String, Any, Any, Any}}}}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{GRBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:layout, :margin), Tuple{Matrix{Any}, AbsoluteLength}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot!),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot!),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Plot{GRBackend},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:line, :seriestype), Tuple{Tuple{Int64, Symbol, Float64, Matrix{Symbol}}, Symbol}},typeof(plot!),Plot{PlotlyBackend},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color), Tuple{Int64, Symbol}},typeof(plot!),Function,Float64,Irrational{:π}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:lw, :color), Tuple{Int64, Symbol}},typeof(plot!),Plot{GRBackend},Function,Float64,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),Plot{GRBackend},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),Plot{PlotlyBackend},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:marker, :series_annotations, :seriestype), Tuple{Tuple{Int64, Float64, Symbol}, Vector{Any}, Symbol}},typeof(plot!),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:markersize, :c, :seriestype), Tuple{Int64, Symbol, Symbol}},typeof(plot!),Vector{Float64}})
-    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},Vector{Int64},Vector{Float64}})
-    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},Vector{Int64},Vector{Float64}})
-    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!),Vector{Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot!),Vector{Int64}})
-    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{(:title,), Tuple{String}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:w,), Tuple{Int64}},typeof(plot!),Plot{GRBackend},Vector{Float64},Vector{Float64},Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:yaxis, :minorgrid), Tuple{Tuple{String, Symbol}, Bool}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Plot{GRBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:annotations, :leg), Tuple{Tuple{Int64, Float64, PlotText}, Bool}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:aspect_ratio, :seriestype), Tuple{Int64, Symbol}},typeof(plot),Vector{String},Vector{String},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bar_width, :alpha, :color, :fillto, :label, :seriestype), Tuple{Float64, Float64, Vector{Symbol}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, String, Symbol}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bins, :weights, :seriestype), Tuple{Symbol, Vector{Int64}, Symbol}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:color, :line, :marker), Tuple{Matrix{Symbol}, Tuple{Symbol, Int64}, Tuple{Matrix{Symbol}, Int64, Float64, Stroke}}},typeof(plot),Vector{Vector}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:connections, :title, :xlabel, :ylabel, :zlabel, :legend, :margin, :seriestype), Tuple{Tuple{Vector{Int64}, Vector{Int64}, Vector{Int64}}, String, String, String, String, Symbol, AbsoluteLength, Symbol}},typeof(plot),Vector{Int64},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill, :seriestype), Tuple{Bool, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill_z, :alpha, :label, :bar_width, :seriestype), Tuple{StepRange{Int64, Int64}, Vector{Float64}, String, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:framestyle, :title, :color, :layout, :label, :markerstrokewidth, :ticks, :seriestype), Tuple{Matrix{Symbol}, Matrix{String}, Base.ReshapedArray{Int64, 2, UnitRange{Int64}, Tuple{}}, Int64, String, Int64, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Vector{Float64}},Vector{Vector{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:grid, :title), Tuple{Tuple{Symbol, Symbol, Symbol, Int64, Float64}, String}},typeof(plot),Vector{Float64}})
-    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},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :legend, :seriestype), Tuple{String, Symbol, Symbol}},typeof(plot),Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :title, :xlabel, :linewidth, :legend), Tuple{Matrix{String}, String, String, Int64, Symbol}},typeof(plot),Vector{Function},Float64,Float64})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label,), Tuple{Matrix{String}}},typeof(plot),Vector{AbstractVector{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :group, :linetype, :linecolor), Tuple{Matrix{Any}, Vector{String}, Matrix{Symbol}, Symbol}},typeof(plot),Vector{Float64}})
-    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},Plot{GRBackend}})
-    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},Plot{PlotlyBackend}})
-    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, Matrix{PlotUtils.ContinuousColorGradient}, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border), Tuple{Matrix{Any}, Matrix{Symbol}, Bool, Nothing, Symbol}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation), Tuple{Matrix{Any}, Matrix{String}, Symbol, Matrix{AbsoluteLength}, AbsoluteLength, Int64}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xguide, :yguide, :xguidefonthalign, :yguidefontvalign, :xguideposition, :yguideposition, :ymirror, :xmirror, :legend, :seriestype), Tuple{Int64, String, String, Matrix{Symbol}, Matrix{Symbol}, Symbol, Matrix{Symbol}, Matrix{Bool}, Matrix{Bool}, Bool, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xlims), Tuple{Matrix{Any}, Tuple{Int64, Float64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot),Vector{Tuple{Int64, Real}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :lab, :ms), Tuple{Tuple{Matrix{Symbol}, Int64}, Matrix{String}, Int64}},typeof(plot),Vector{Vector},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :label, :legendtitle), Tuple{Tuple{Int64, Matrix{Symbol}}, Matrix{String}, String}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :leg, :fill), Tuple{Int64, Bool, Tuple{Int64, Symbol}}},typeof(plot),Function,Function,Int64,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line, :marker, :bg, :fg, :xlim, :ylim, :leg), Tuple{Tuple{Int64, Symbol, Symbol}, Tuple{Shape{Float64, Float64}, Int64, RGBA{Float64}}, Symbol, Symbol, Tuple{Int64, Int64}, Tuple{Int64, Int64}, Bool}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:line_z, :linewidth, :legend), Tuple{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}, Int64, Bool}},typeof(plot),Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:m, :markersize, :lab, :bg, :xlim, :ylim, :seriestype), Tuple{Matrix{Symbol}, Int64, Matrix{String}, Symbol, Tuple{Int64, Int64}, Tuple{Int64, Int64}, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker,), Tuple{Bool}},typeof(plot),Vector{Union{Missing, Int64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:marker_z, :color, :legend, :seriestype), Tuple{typeof(+), Symbol, Bool, Symbol}},typeof(plot),Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:markershape, :markersize, :marker_z, :line_z, :linewidth), Tuple{Matrix{Symbol}, Matrix{Int64}, Matrix{Int64}, Matrix{Int64}, Matrix{Int64}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:markershape, :seriestype, :label), Tuple{Symbol, Symbol, String}},typeof(plot),UnitRange{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:nbins, :seriestype), Tuple{Int64, Symbol}},typeof(plot),Vector{Float64},Vector{Float64}})
-    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),Vector{ComplexF64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:proj, :m), Tuple{Symbol, Int64}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:projection, :seriestype), Tuple{Symbol, Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},UnitRange{Int64},Matrix{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:quiver, :seriestype), Tuple{Tuple{Vector{Float64}, Vector{Float64}, Vector{Float64}}, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:reg, :fill), Tuple{Bool, Tuple{Int64, Symbol}}},typeof(plot),Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:ribbon,), Tuple{Tuple{LinRange{Float64, Int64}, LinRange{Float64, Int64}}}},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{Matrix{Symbol}, Vector{Symbol}, Int64, Vector{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),Vector{DateTime},UnitRange{Int64},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),Vector{OHLC}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:st, :xlabel, :ylabel, :zlabel), Tuple{Symbol, String, String, String}},typeof(plot),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :l, :seriestype), Tuple{String, Float64, Symbol}},typeof(plot),Vector{String},Vector{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :xflip, :yflip, :zflip, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, Bool, Bool, Bool, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :xmirror, :ymirror, :zmirror, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, Bool, Bool, Bool, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title, :zlabel, :grid, :ylabel, :minorgrid, :xlabel, :seriestype), Tuple{String, String, Bool, String, Bool, String, Symbol}},typeof(plot),Vector{Float64},Vector{Float64},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,), Tuple{Matrix{String}}},typeof(plot),Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:title,), Tuple{Matrix{String}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:w,), Tuple{Int64}},typeof(plot),Matrix{Float64}})
-    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),Matrix{Float64}})
-    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),Vector{Float64},Vector{Float64},UnitRange{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(portfoliocomposition)),Any,typeof(portfoliocomposition),Any,Vararg{Any}})
-    Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip, :disp), Tuple{Vector{Int64}, Bool}},typeof(test_examples),Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(test_examples)),NamedTuple{(:skip,), Tuple{Vector{Int64}}},typeof(test_examples),Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(yaxis!)),Any,typeof(yaxis!),Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},AbstractVector{OHLC}})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},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{:bins2d}},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{:hspan}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:lens}},AbstractPlot})
-    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{:sticks}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:vline}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:vspan}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:xerror}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Vector{ComplexF64}})
-    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},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{PlotlyBackend},Dict{Symbol, Any},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_attributes!),Plot{GRBackend},DefaultsDict})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{GRBackend},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{PlotlyBackend},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{GRBackend},Vector{Dict{Symbol, Any}},Dict{Symbol, Any}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.unzip),Vector{GeometryBasics.Point2{Float64}}})
-    Base.precompile(Tuple{typeof(_bin_centers),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64}})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{PlotUtils.ContinuousColorGradient},String})
-    Base.precompile(Tuple{typeof(_cycle),StepRange{Int64, Int64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},StepRange{Int64, Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_do_plot_show),Plot{GRBackend},Bool})
-    Base.precompile(Tuple{typeof(_do_plot_show),Plot{PlotlyBackend},Bool})
-    Base.precompile(Tuple{typeof(_preprocess_barlike),DefaultsDict,Base.OneTo{Int64},Vector{Float64}})
-    Base.precompile(Tuple{typeof(_preprocess_binlike),DefaultsDict,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64}})
-    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(_update_subplot_periphery),Subplot{GRBackend},Vector{Any}})
-    Base.precompile(Tuple{typeof(_update_subplot_periphery),Subplot{PlotlyBackend},Vector{Any}})
-    Base.precompile(Tuple{typeof(annotate!),AbstractVector{<:Tuple}})
-    Base.precompile(Tuple{typeof(axis_limits),Subplot{GRBackend},Symbol,Bool,Bool})
-    Base.precompile(Tuple{typeof(axis_limits),Subplot{PlotlyBackend},Symbol,Bool,Bool})
-    Base.precompile(Tuple{typeof(backend),PlotlyBackend})
-    Base.precompile(Tuple{typeof(bbox),AbsoluteLength,AbsoluteLength,AbsoluteLength,AbsoluteLength})
-    Base.precompile(Tuple{typeof(bbox),Float64,Float64,Float64,Float64})
-    Base.precompile(Tuple{typeof(build_layout),GridLayout,Int64,Vector{Plot}})
-    Base.precompile(Tuple{typeof(convert_to_polar),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Vector{Float64},Tuple{Int64, Float64}})
-    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64},Vararg{Vector{Float64}}})
-    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64}})
-    Base.precompile(Tuple{typeof(error_zipit),Tuple{Vector{Float64}, Vector{Float64}, Vector{Float64}}})
-    Base.precompile(Tuple{typeof(fakedata),Int64,Int64})
-    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Int64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(get_series_color),SubArray{Symbol, 1, Vector{Symbol}, Tuple{UnitRange{Int64}}, true},Subplot{GRBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{GRBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{PlotlyBackend},Int64,Symbol})
-    Base.precompile(Tuple{typeof(get_ticks),StepRange{Int64, Int64},Vector{Float64},Vector{Any},Tuple{Int64, Int64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Float64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Int64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),Symbol,Vector{Float64},Vector{Any},Tuple{Int64, Int64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_ticks),UnitRange{Int64},Vector{Float64},Vector{Any},Tuple{Float64, Float64},Vararg{Any}})
-    Base.precompile(Tuple{typeof(get_xy),Vector{OHLC}})
-    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}},Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}},Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_display),Subplot{GRBackend},AbsoluteLength,AbsoluteLength,Vector{Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_contour),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_heatmap),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Float64,Float64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Shape{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Float64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Int64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},UnitRange{Int64},Tuple{Vector{Float64}, Vector{Float64}},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,StepRange{Int64, Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Vector{Float64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Vector{Float64},Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_fill_viewport),Vector{Float64},RGBA{Float64}})
-    Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Vector{Float64}, Vector{String}},Int64})
-    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Int64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_label_ticks_3d),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_polaraxes),Int64,Float64,Subplot{GRBackend}})
-    Base.precompile(Tuple{typeof(gr_set_gradient),PlotUtils.ContinuousColorGradient})
-    Base.precompile(Tuple{typeof(gr_text),Float64,Float64,String})
-    Base.precompile(Tuple{typeof(gr_text_size),String})
-    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}}})
-    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}}})
-    Base.precompile(Tuple{typeof(gr_viewport_from_bbox),Subplot{GRBackend},BoundingBox{Tuple{AbsoluteLength, AbsoluteLength}, Tuple{AbsoluteLength, AbsoluteLength}},AbsoluteLength,AbsoluteLength,Vector{Float64}})
-    Base.precompile(Tuple{typeof(heatmap_edges),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}, Int64},Symbol})
-    Base.precompile(Tuple{typeof(heatmap_edges),UnitRange{Int64},Symbol})
-    Base.precompile(Tuple{typeof(heatmap_edges),Vector{Float64},Symbol})
-    Base.precompile(Tuple{typeof(ignorenan_minimum),Vector{Int64}})
-    Base.precompile(Tuple{typeof(is_marker_supported),GRBackend,Vector{Symbol}})
-    Base.precompile(Tuple{typeof(layout_args),Matrix{Any}})
-    Base.precompile(Tuple{typeof(link_axes!),GridLayout,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Function})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Int64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Int64, Int64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),StepRange{Int64, Int64},Tuple{Int64, Int64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),UnitRange{Int64},Tuple{Float64, Float64},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(partialcircle),Int64,Float64,Int64})
-    Base.precompile(Tuple{typeof(plot!),Plot,Plot,Plot,Vararg{Plot}})
-    Base.precompile(Tuple{typeof(plot),Any,Any})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}}})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend}})
-    Base.precompile(Tuple{typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
-    Base.precompile(Tuple{typeof(processLineArg),Dict{Symbol, Any},Matrix{Symbol}})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Matrix{Symbol}})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},RGBA{Float64}})
-    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Shape{Float64, Float64}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,PlotText,Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,PlotText})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol},Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Symbol, Int64, String},Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Symbol, Int64, String}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,PlotText,Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,PlotText})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol},Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol}})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Symbol, Int64, String},Font})
-    Base.precompile(Tuple{typeof(process_annotation),Subplot{PlotlyBackend},Int64,Float64,Tuple{String, Symbol, Int64, String}})
-    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},StepRange{Int64, Int64},Symbol})
-    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},Symbol,Symbol})
-    Base.precompile(Tuple{typeof(push!),Plot{GRBackend},Float64,Vector{Float64}})
-    Base.precompile(Tuple{typeof(push!),Segments{Tuple{Float64, Float64, Float64}},Tuple{Float64, Int64, Int64},Tuple{Float64, Int64, Int64}})
-    Base.precompile(Tuple{typeof(resetfontsizes)})
-    Base.precompile(Tuple{typeof(scalefontsizes),Float64})
-    Base.precompile(Tuple{typeof(series_annotations),Vector{Any}})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{AbsoluteLength},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{Bool},Int64})
-    Base.precompile(Tuple{typeof(slice_arg),Matrix{Int64},Int64})
-    Base.precompile(Tuple{typeof(spy),Any})
-    Base.precompile(Tuple{typeof(straightline_data),Tuple{Float64, Float64},Tuple{Float64, Float64},Vector{Float64},Vector{Float64},Int64})
-    Base.precompile(Tuple{typeof(title!),AbstractString})
-    Base.precompile(Tuple{typeof(update_child_bboxes!),GridLayout})
-    Base.precompile(Tuple{typeof(update_clims),Float64,Float64,SubArray{Int64, 1, Vector{Int64}, Tuple{UnitRange{Int64}}, true},typeof(ignorenan_extrema)})
-    Base.precompile(Tuple{typeof(warn_on_attr_dim_mismatch),Series,Vector{Float64},Vector{Float64},Nothing,Base.Iterators.Flatten{Vector{Tuple{SeriesSegment}}}})
-    Base.precompile(Tuple{typeof(xgrid!),Plot{GRBackend},Symbol,Vararg{Any}})
-    Base.precompile(Tuple{typeof(xgrid!),Plot{PlotlyBackend},Symbol,Vararg{Any}})
-    Base.precompile(Tuple{typeof(xlims),Subplot{PlotlyBackend}})
-    isdefined(Plots, Symbol("#2#6")) && Base.precompile(Tuple{getfield(Plots, Symbol("#2#6")),UnitRange{Int64}})
-    isdefined(Plots, Symbol("#322#358")) && Base.precompile(Tuple{getfield(Plots, Symbol("#322#358"))})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#102")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#102")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64}},Float64,Bool})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#103")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#103")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64, Float64}},Float64,Bool})
-end
--- a/deps/SnoopCompile/precompile/1.6/precompile_Plots.jl
+++ b/deps/SnoopCompile/precompile/1.6/precompile_Plots.jl
@ -66,19 +66,26 @@ 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, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}, Vector{Float64}},Int64})
    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}, Vector{Float64}},Tuple{Int64, Int64}})
    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Nothing}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
    Base.precompile(Tuple{Core.kwftype(typeof(_make_hist)),NamedTuple{(:normed, :weights), Tuple{Bool, Vector{Int64}}},typeof(_make_hist),Tuple{Vector{Float64}},Symbol})
-    Base.precompile(Tuple{Core.kwftype(typeof(areaplot)),Any,typeof(areaplot),Any,Vararg{Any, N} where N})
-    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:foreground_color_grid, :grid, :gridalpha, :gridstyle, :gridlinewidth), Tuple{RGBA{Float64}, Bool, Float64, Symbol, Int64}},typeof(attr!),Axis})
+    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, :flip, :minorgrid, :guide), Tuple{Bool, Bool, Bool, String}},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, :minorgrid, :guide), Tuple{Bool, Bool, String}},typeof(attr!),Axis})
    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:grid, :minorgrid, :mirror, :guide), Tuple{Bool, Bool, Bool, String}},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{(:guide_position, :guidefontvalign, :mirror, :guide), Tuple{Symbol, Symbol, Bool, String}},typeof(attr!),Axis})
    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:guidefonthalign, :guide_position, :mirror, :guide), Tuple{Symbol, Symbol, Bool, String}},typeof(attr!),Axis})
@ -87,6 +94,8 @@ function _precompile_()
    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{(:minorgrid, :scale, :guide), Tuple{Bool, Symbol, String}},typeof(attr!),Axis})
+    Base.precompile(Tuple{Core.kwftype(typeof(attr!)),NamedTuple{(:minorgrid,), Tuple{Bool}},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{(: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{(:shape,), Tuple{Symbol}},typeof(default)})
@ -99,17 +108,12 @@ function _precompile_()
    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),UnitRange{Int64},Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(gr_polyline)),NamedTuple{(:arrowside, :arrowstyle), Tuple{Symbol, Symbol}},typeof(gr_polyline),Vector{Int64},Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:halign, :valign, :rotation), Tuple{Symbol, Symbol, Int64}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(gr_set_font)),NamedTuple{(:rotation, :color), Tuple{Int64, RGBA{Float64}}},typeof(gr_set_font),Font,Subplot{GRBackend}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Plot{GRBackend},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :label, :seriestype), Tuple{Float64, String, Symbol}},typeof(plot!),Vector{Int64}})
+    Base.precompile(Tuple{Core.kwftype(typeof(hline!)),Any,typeof(hline!),Any})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{GRBackend},Vector{GeometryBasics.Point2{Float64}}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{GeometryBasics.Point2{Float64}}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:alpha, :seriestype), Tuple{Float64, Symbol}},typeof(plot!),Vector{GeometryBasics.Point2{Float64}}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:annotation,), Tuple{Vector{Tuple{Int64, Float64, Tuple{String, Any, Any, Any}}}}},typeof(plot!)})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{GRBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Plot{PlotlyBackend},Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:c, :lw, :label), Tuple{Symbol, Int64, String}},typeof(plot!),Vector{Int64},Vector{Int64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:layout, :margin), Tuple{Matrix{Any}, AbsoluteLength}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:layout, :margin), Tuple{GridLayout, AbsoluteLength}},typeof(plot!),Plot{GRBackend},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},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},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}, N} where N})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:legend,), Tuple{Symbol}},typeof(plot!),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
@ -141,30 +145,29 @@ function _precompile_()
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Plot{PlotlyBackend},Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot!)),NamedTuple{(:zcolor, :m, :ms, :lab, :seriestype), Tuple{Vector{Float64}, Tuple{Symbol, Float64, Stroke}, Vector{Float64}, String, Symbol}},typeof(plot!),Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:annotations, :leg), Tuple{Tuple{Int64, Float64, PlotText}, Bool}},typeof(plot),Vector{Float64}})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:arrow,), Tuple{Int64}},typeof(plot),Vector{Float64},Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:aspect_ratio, :seriestype), Tuple{Int64, Symbol}},typeof(plot),Vector{String},Vector{String},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bar_width, :alpha, :color, :fillto, :label, :seriestype), Tuple{Float64, Float64, Vector{Symbol}, StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}}, String, Symbol}},typeof(plot),Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:bins, :weights, :seriestype), Tuple{Symbol, Vector{Int64}, Symbol}},typeof(plot),Vector{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:color, :line, :marker), Tuple{Matrix{Symbol}, Tuple{Symbol, Int64}, Tuple{Matrix{Symbol}, Int64, Float64, Stroke}}},typeof(plot),Vector{Vector{T} where T}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:connections, :title, :xlabel, :ylabel, :zlabel, :legend, :margin, :seriestype), Tuple{Tuple{Vector{Int64}, Vector{Int64}, Vector{Int64}}, String, String, String, String, Symbol, AbsoluteLength, Symbol}},typeof(plot),Vector{Int64},Vector{Int64},Vector{Int64}})
    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}},Function})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:fill_z, :alpha, :label, :bar_width, :seriestype), Tuple{StepRange{Int64, Int64}, Vector{Float64}, String, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Int64},Vector{Int64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:framestyle, :title, :color, :layout, :label, :markerstrokewidth, :ticks, :seriestype), Tuple{Matrix{Symbol}, Matrix{String}, Base.ReshapedArray{Int64, 2, UnitRange{Int64}, Tuple{}}, Int64, String, Int64, UnitRange{Int64}, Symbol}},typeof(plot),Vector{Vector{Float64}},Vector{Vector{Float64}}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:grid, :title), Tuple{Tuple{Symbol, Symbol, Symbol, Int64, Float64}, String}},typeof(plot),Vector{Float64}})
    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},Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :legend, :seriestype), Tuple{String, Symbol, Symbol}},typeof(plot),Vector{Int64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label, :title, :xlabel, :linewidth, :legend), Tuple{Matrix{String}, String, String, Int64, Symbol}},typeof(plot),Vector{Function},Float64,Float64})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:label,), Tuple{Matrix{String}}},typeof(plot),Vector{AbstractVector{Float64}}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :group, :linetype, :linecolor), Tuple{Matrix{Any}, Vector{String}, Matrix{Symbol}, Symbol}},typeof(plot),Vector{Float64}})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:labels,), Tuple{Matrix{String}}},typeof(plot),PortfolioComposition})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :group, :linetype, :linecolor), Tuple{GridLayout, Vector{String}, Matrix{Symbol}, Symbol}},typeof(plot),Vector{Float64}})
    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},Plot{GRBackend}})
    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},Plot{PlotlyBackend}})
    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, :margin), Tuple{Matrix{Any}, AbsoluteLength}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :margin), Tuple{GridLayout, AbsoluteLength}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :palette, :bg_inside), Tuple{Int64, Matrix{PlotUtils.ContinuousColorGradient}, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border), Tuple{Matrix{Any}, Matrix{Symbol}, Bool, Nothing, Symbol}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation), Tuple{Matrix{Any}, Matrix{String}, Symbol, Matrix{AbsoluteLength}, AbsoluteLength, Int64}},typeof(plot),Matrix{Float64}})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :t, :leg, :ticks, :border), Tuple{GridLayout, Matrix{Symbol}, Bool, Nothing, Symbol}},typeof(plot),Matrix{Float64}})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :title, :titlelocation, :left_margin, :bottom_margin, :xrotation), Tuple{GridLayout, Matrix{String}, Symbol, Matrix{AbsoluteLength}, AbsoluteLength, Int64}},typeof(plot),Matrix{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xguide, :yguide, :xguidefonthalign, :yguidefontvalign, :xguideposition, :yguideposition, :ymirror, :xmirror, :legend, :seriestype), Tuple{Int64, String, String, Matrix{Symbol}, Matrix{Symbol}, Symbol, Matrix{Symbol}, Matrix{Bool}, Matrix{Bool}, Bool, Matrix{Symbol}}},typeof(plot),Matrix{Float64}})
-    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xlims), Tuple{Matrix{Any}, Tuple{Int64, Float64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
+    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout, :xlims), Tuple{GridLayout, Tuple{Int64, Float64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:layout,), Tuple{Tuple{Int64, Int64}}},typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:legend,), Tuple{Bool}},typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
@ -192,7 +195,6 @@ function _precompile_()
    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{(:seriescolor, :fillalpha), Tuple{Matrix{Symbol}, Matrix{Float64}}},typeof(plot),AreaPlot})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype, :markershape, :markersize, :color), Tuple{Matrix{Symbol}, Vector{Symbol}, Int64, Vector{Symbol}}},typeof(plot),Matrix{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},Matrix{Float64}})
    Base.precompile(Tuple{Core.kwftype(typeof(plot)),NamedTuple{(:seriestype,), Tuple{Symbol}},typeof(plot),Vector{DateTime},UnitRange{Int64},Matrix{Float64}})
@ -220,14 +222,12 @@ function _precompile_()
    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:bins2d}},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{:hspan}},Any,Any,Any})
    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:lens}},AbstractPlot})
    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{:steppre}},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{:vline}},Any,Any,Any})
-    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:vspan}},Any,Any,Any})
    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Type{Val{:xerror}},Any,Any,Any})
    Base.precompile(Tuple{typeof(RecipesBase.apply_recipe),AbstractDict{Symbol, Any},Vector{ComplexF64}})
    Base.precompile(Tuple{typeof(RecipesPipeline.add_series!),Plot{GRBackend},DefaultsDict})
@ -235,23 +235,22 @@ function _precompile_()
    Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{GRBackend},Dict{Symbol, Any},Vector{Dict{Symbol, Any}}})
    Base.precompile(Tuple{typeof(RecipesPipeline.plot_setup!),Plot{PlotlyBackend},Dict{Symbol, Any},Vector{Dict{Symbol, Any}}})
    Base.precompile(Tuple{typeof(RecipesPipeline.preprocess_attributes!),Plot{GRBackend},DefaultsDict})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{GRBackend},Vector{Dict{Symbol, Any}}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.process_sliced_series_attributes!),Plot{PlotlyBackend},Vector{Dict{Symbol, Any}}})
    Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{GRBackend},Vector{Dict{Symbol, Any}},Dict{Symbol, Any}})
    Base.precompile(Tuple{typeof(RecipesPipeline.process_userrecipe!),Plot{PlotlyBackend},Vector{Dict{Symbol, Any}},Dict{Symbol, Any}})
-    Base.precompile(Tuple{typeof(RecipesPipeline.unzip),Vector{GeometryBasics.Point2{Float64}}})
+    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(_bin_centers),Vector{Float64}})
-    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Float64},String})
    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Int64},String})
    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Nothing},String})
    Base.precompile(Tuple{typeof(_cbar_unique),Vector{PlotUtils.ContinuousColorGradient},String})
    Base.precompile(Tuple{typeof(_cbar_unique),Vector{StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}}},String})
    Base.precompile(Tuple{typeof(_cbar_unique),Vector{Symbol},String})
-    Base.precompile(Tuple{typeof(_cycle),UnitRange{Int64},Vector{Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},StepRange{Int64, Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Int64},StepRange{Int64, Int64}})
-    Base.precompile(Tuple{typeof(_cycle),Vector{Int64},UnitRange{Int64}})
+    Base.precompile(Tuple{typeof(_cycle),Base.OneTo{Int64},Vector{Int64}})
+    Base.precompile(Tuple{typeof(_cycle),StepRange{Int64, Int64},Vector{Int64}})
+    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},UnitRange{Int64}})
+    Base.precompile(Tuple{typeof(_cycle),Vector{Float64},Vector{Int64}})
    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),Vector{Float64},Bool,Bool})
@ -270,7 +269,7 @@ function _precompile_()
    Base.precompile(Tuple{typeof(bbox),Float64,Float64,Float64,Float64})
    Base.precompile(Tuple{typeof(build_layout),GridLayout,Int64,Vector{Plot}})
    Base.precompile(Tuple{typeof(convert_to_polar),StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},Vector{Float64},Tuple{Int64, Float64}})
-    Base.precompile(Tuple{typeof(default),Symbol,Bool})
+    Base.precompile(Tuple{typeof(create_grid),Expr})
    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64},Vararg{Vector{Float64}, N} where N})
    Base.precompile(Tuple{typeof(error_coords),Vector{Float64},Vector{Float64},Vector{Float64}})
    Base.precompile(Tuple{typeof(error_zipit),Tuple{Vector{Float64}, Vector{Float64}, Vector{Float64}}})
@ -278,7 +277,6 @@ function _precompile_()
    Base.precompile(Tuple{typeof(fakedata),MersenneTwister,Int64,Vararg{Int64, N} where N})
    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Float64}, Vector{String}}})
    Base.precompile(Tuple{typeof(get_minor_ticks),Subplot{GRBackend},Axis,Tuple{Vector{Int64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(get_series_color),SubArray{Symbol, 1, Vector{Symbol}, Tuple{UnitRange{Int64}}, true},Subplot{GRBackend},Int64,Symbol})
    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{GRBackend},Int64,Symbol})
    Base.precompile(Tuple{typeof(get_series_color),Vector{Symbol},Subplot{PlotlyBackend},Int64,Symbol})
    Base.precompile(Tuple{typeof(get_ticks),StepRange{Int64, Int64},Vector{Float64},Vector{Any},Tuple{Int64, Int64},Vararg{Any, N} where N})
@ -290,44 +288,43 @@ function _precompile_()
    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}},Vector{Float64}})
    Base.precompile(Tuple{typeof(gr_add_legend),Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}},Vector{Float64}})
    Base.precompile(Tuple{typeof(gr_display),Subplot{GRBackend},AbsoluteLength,AbsoluteLength,Vector{Float64}})
+    Base.precompile(Tuple{typeof(gr_draw_colorbar),GRColorbar,Subplot{GRBackend},Tuple{Float64, Float64},Vector{Float64}})
    Base.precompile(Tuple{typeof(gr_draw_contour),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},Matrix{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_heatmap),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Float64,Float64,Symbol})
    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Shape{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Float64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Float64,Int64,Symbol})
-    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Float64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
    Base.precompile(Tuple{typeof(gr_draw_marker),Series,Int64,Int64,Tuple{Float64, Float64},Int64,Int64,Int64,Symbol})
    Base.precompile(Tuple{typeof(gr_draw_markers),Series,Base.OneTo{Int64},Vector{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_markers),Series,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},Vector{Float64},Tuple{Float64, Float64}})
+    Base.precompile(Tuple{typeof(gr_draw_markers),Series,UnitRange{Int64},Vector{Float64},Tuple{Float64, Float64}})
+    Base.precompile(Tuple{typeof(gr_draw_markers),Series,Vector{Int64},Vector{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},UnitRange{Int64},Tuple{Vector{Float64}, Vector{Float64}},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Base.OneTo{Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_segments),Series,StepRange{Int64, Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,UnitRange{Int64},Vector{Float64},Int64,Tuple{Float64, Float64}})
-    Base.precompile(Tuple{typeof(gr_draw_segments),Series,UnitRange{Int64},Vector{Float64},Vector{Int64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_segments),Series,Vector{Float64},Vector{Float64},Int64,Tuple{Float64, Float64}})
+    Base.precompile(Tuple{typeof(gr_draw_shapes),Series,Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Matrix{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_draw_surface),Series,Vector{Float64},Vector{Float64},Vector{Float64},Tuple{Float64, Float64}})
    Base.precompile(Tuple{typeof(gr_fill_viewport),Vector{Float64},RGBA{Float64}})
-    Base.precompile(Tuple{typeof(gr_get_3d_axis_angle),Vector{Float64},Float64,Float64,Symbol})
    Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Vector{Float64}, Vector{String}},Int64})
+    Base.precompile(Tuple{typeof(gr_get_ticks_size),Tuple{Vector{Int64}, Vector{String}},Int64})
    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
-    Base.precompile(Tuple{typeof(gr_label_ticks),Subplot{GRBackend},Symbol,Tuple{Vector{Int64}, Vector{String}}})
    Base.precompile(Tuple{typeof(gr_label_ticks_3d),Subplot{GRBackend},Symbol,Tuple{Vector{Float64}, Vector{String}}})
    Base.precompile(Tuple{typeof(gr_polaraxes),Int64,Float64,Subplot{GRBackend}})
    Base.precompile(Tuple{typeof(gr_polyline),Vector{Float64},Vector{Float64},Function})
    Base.precompile(Tuple{typeof(gr_set_gradient),PlotUtils.ContinuousColorGradient})
-    Base.precompile(Tuple{typeof(gr_text),Float64,Float64,String})
-    Base.precompile(Tuple{typeof(gr_text_size),String})
    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), NTuple{9, Float64}}})
    Base.precompile(Tuple{typeof(gr_update_viewport_legend!),Vector{Float64},Subplot{GRBackend},NamedTuple{(:w, :h, :dy, :leftw, :textw, :rightw, :xoffset, :yoffset, :width_factor), Tuple{Int64, Int64, Int64, Float64, Int64, Float64, Float64, Float64, Float64}}})
    Base.precompile(Tuple{typeof(gr_viewport_from_bbox),Subplot{GRBackend},BoundingBox{Tuple{AbsoluteLength, AbsoluteLength}, Tuple{AbsoluteLength, AbsoluteLength}},AbsoluteLength,AbsoluteLength,Vector{Float64}})
+    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,StepRangeLen{Float64, Base.TwicePrecision{Float64}, Base.TwicePrecision{Float64}},Symbol,Tuple{Int64, Int64},Bool})
    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(heatmap_edges),Vector{Float64},Symbol,UnitRange{Int64},Symbol,Tuple{Int64, Int64},Bool})
+    Base.precompile(Tuple{typeof(heatmap_edges),Vector{Float64},Symbol,Vector{Float64},Symbol,Tuple{Int64, Int64},Bool})
    Base.precompile(Tuple{typeof(heatmap_edges),Vector{Float64},Symbol})
    Base.precompile(Tuple{typeof(ignorenan_minimum),Vector{Int64}})
-    Base.precompile(Tuple{typeof(layout_args),NamedTuple{(:label, :blank), Tuple{Symbol, Bool}}})
-    Base.precompile(Tuple{typeof(layout_args),NamedTuple{(:label, :width, :height), Tuple{Symbol, Symbol, Float64}}})
    Base.precompile(Tuple{typeof(make_fillrange_side),UnitRange{Int64},LinRange{Float64}})
    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Function})
    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),Nothing,Tuple{Float64, Float64},Symbol,Symbol})
@ -336,12 +333,10 @@ function _precompile_()
    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),StepRange{Int64, Int64},Tuple{Int64, Int64},Symbol,Symbol})
    Base.precompile(Tuple{typeof(optimal_ticks_and_labels),UnitRange{Int64},Tuple{Float64, Float64},Symbol,Symbol})
    Base.precompile(Tuple{typeof(partialcircle),Int64,Float64,Int64})
-    Base.precompile(Tuple{typeof(plot!),Any})
-    Base.precompile(Tuple{typeof(plot!),Plot,Plot,Plot,Vararg{Plot, N} where N})
    Base.precompile(Tuple{typeof(plot),Any,Any})
+    Base.precompile(Tuple{typeof(plot),Any})
    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend},Plot{GRBackend},Vararg{Plot{GRBackend}, N} where N})
    Base.precompile(Tuple{typeof(plot),Plot{GRBackend},Plot{GRBackend}})
-    Base.precompile(Tuple{typeof(plot),Plot{GRBackend}})
    Base.precompile(Tuple{typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend},Plot{PlotlyBackend},Vararg{Plot{PlotlyBackend}, N} where N})
    Base.precompile(Tuple{typeof(plot),Plot{PlotlyBackend},Plot{PlotlyBackend}})
    Base.precompile(Tuple{typeof(processGridArg!),Dict{Symbol, Any},Symbol,Symbol})
@ -350,7 +345,9 @@ function _precompile_()
    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Matrix{Symbol}})
    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},RGBA{Float64}})
    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Shape{Float64, Float64}})
+    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Stroke})
    Base.precompile(Tuple{typeof(processMarkerArg),Dict{Symbol, Any},Symbol})
+    Base.precompile(Tuple{typeof(processMinorGridArg!),Dict{Symbol, Any},Bool,Symbol})
    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,PlotText})
    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Int64, Symbol, Symbol}})
    Base.precompile(Tuple{typeof(process_annotation),Subplot{GRBackend},Int64,Float64,Tuple{String, Symbol, Int64, String}})
@ -360,7 +357,8 @@ function _precompile_()
    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},StepRange{Int64, Int64},Symbol})
    Base.precompile(Tuple{typeof(process_axis_arg!),Dict{Symbol, Any},Symbol,Symbol})
    Base.precompile(Tuple{typeof(push!),Plot{GRBackend},Float64,Vector{Float64}})
-    Base.precompile(Tuple{typeof(push!),Segments{Tuple{Float64, Float64, Float64}},Tuple{Int64, Int64, Float64},Tuple{Int64, Int64, Float64}})
+    Base.precompile(Tuple{typeof(push!),Segments{Tuple{Float64, Float64, Float64}},Tuple{Float64, Float64, Float64},Tuple{Float64, Float64, Float64}})
+    Base.precompile(Tuple{typeof(push!),Segments{Tuple{Float64, Float64, Float64}},Tuple{Int64, Float64, Int64},Tuple{Int64, Float64, Int64}})
    Base.precompile(Tuple{typeof(resetfontsizes)})
    Base.precompile(Tuple{typeof(scalefontsizes),Float64})
    Base.precompile(Tuple{typeof(series_annotations),Vector{Any}})
@ -368,84 +366,53 @@ function _precompile_()
    Base.precompile(Tuple{typeof(slice_arg),Matrix{AbsoluteLength},Int64})
    Base.precompile(Tuple{typeof(slice_arg),Matrix{Bool},Int64})
    Base.precompile(Tuple{typeof(slice_arg),Matrix{Int64},Int64})
+    Base.precompile(Tuple{typeof(slice_arg),Matrix{PlotUtils.ContinuousColorGradient},Int64})
    Base.precompile(Tuple{typeof(slice_arg),Matrix{RGBA{Float64}},Int64})
+    Base.precompile(Tuple{typeof(slice_arg),Matrix{String},Int64})
+    Base.precompile(Tuple{typeof(slice_arg),Matrix{Symbol},Int64})
    Base.precompile(Tuple{typeof(spy),Any})
    Base.precompile(Tuple{typeof(straightline_data),Tuple{Float64, Float64},Tuple{Float64, Float64},Vector{Float64},Vector{Float64},Int64})
    Base.precompile(Tuple{typeof(stroke),Int64,Vararg{Any, N} where N})
    Base.precompile(Tuple{typeof(title!),AbstractString})
+    Base.precompile(Tuple{typeof(unzip),Vector{GeometryBasics.Point2{Float64}}})
    Base.precompile(Tuple{typeof(vline!),Any})
-    Base.precompile(Tuple{typeof(warn_on_attr_dim_mismatch),Series,Vector{Float64},Vector{Float64},Nothing,Base.Iterators.Flatten{Vector{Tuple{SeriesSegment}}}})
    Base.precompile(Tuple{typeof(xgrid!),Plot{GRBackend},Symbol,Vararg{Any, N} where N})
    Base.precompile(Tuple{typeof(xlims),Subplot{PlotlyBackend}})
-    isdefined(Plots, Symbol("#166#167")) && Base.precompile(Tuple{getfield(Plots, Symbol("#166#167")),Any})
-    isdefined(Plots, Symbol("#2#6")) && Base.precompile(Tuple{getfield(Plots, Symbol("#2#6")),UnitRange{Int64}})
-    isdefined(Plots, Symbol("#295#331")) && Base.precompile(Tuple{getfield(Plots, Symbol("#295#331"))})
-    isdefined(Plots, Symbol("#316#352")) && Base.precompile(Tuple{getfield(Plots, Symbol("#316#352"))})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#100")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#100")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64}},Float64,Bool})
-    isdefined(Plots, Symbol("#add_major_or_minor_segments#101")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#101")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64, Float64}},Float64,Bool})
+    isdefined(Plots, Symbol("#add_major_or_minor_segments#120")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#120")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64}},Float64,Bool})
+    isdefined(Plots, Symbol("#add_major_or_minor_segments#121")) && Base.precompile(Tuple{getfield(Plots, Symbol("#add_major_or_minor_segments#121")),Vector{Float64},Bool,Segments{Tuple{Float64, Float64, Float64}},Float64,Bool})
    let fbody = try __lookup_kwbody__(which(font, (Font,Vararg{Any, N} where N,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Base.Iterators.Pairs{Union{}, Union{}, Tuple{}, NamedTuple{(), Tuple{}}},typeof(font),Font,Vararg{Any, N} where N,))
+        if !ismissing(fbody)
+            precompile(fbody, (Base.Iterators.Pairs{Union{}, Union{}, Tuple{}, NamedTuple{(), Tuple{}}},typeof(font),Font,Vararg{Any, N} where N,))
+        end
    end
-end
    let fbody = try __lookup_kwbody__(which(gr_polyline, (Vector{Float64},Vector{Float64},typeof(GR.fillarea),))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Symbol,Symbol,typeof(gr_polyline),Vector{Float64},Vector{Float64},typeof(GR.fillarea),))
+        if !ismissing(fbody)
+            precompile(fbody, (Symbol,Symbol,typeof(gr_polyline),Vector{Float64},Vector{Float64},typeof(GR.fillarea),))
+        end
    end
-end
-    let fbody = try __lookup_kwbody__(which(gr_set_font, (Font,Subplot{GRBackend},))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Symbol,Symbol,RGBA{Float64},Float64,typeof(gr_set_font),Font,Subplot{GRBackend},))
-    end
-end
    let fbody = try __lookup_kwbody__(which(plot!, (Any,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Any,typeof(plot!),Any,))
+        if !ismissing(fbody)
+            precompile(fbody, (Any,typeof(plot!),Any,))
+        end
    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,))
+        if !ismissing(fbody)
+            precompile(fbody, (Any,typeof(plot!),Any,Vararg{Any, N} where N,))
+        end
    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,Plot,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Any,typeof(plot!),Plot,Plot,Plot,))
-    end
-end
-    let fbody = try __lookup_kwbody__(which(plot!, (Plot,Plot,Plot,Vararg{Plot, N} where N,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Any,typeof(plot!),Plot,Plot,Plot,Vararg{Plot, 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,))
+        if !ismissing(fbody)
+            precompile(fbody, (Any,typeof(plot),Any,))
+        end
    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,))
+        if !ismissing(fbody)
+            precompile(fbody, (Any,typeof(plot),Any,Vararg{Any, N} where N,))
+        end
    end
-end
-    let fbody = try __lookup_kwbody__(which(scatter, (Any,Vararg{Any, N} where N,))) catch missing end
-    if !ismissing(fbody)
-        precompile(fbody, (Any,typeof(scatter),Any,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,))
+        if !ismissing(fbody)
+            precompile(fbody, (Any,typeof(title!),AbstractString,))
+        end
    end
 end
-end
--- a/deps/SnoopCompile/snoop_bench.jl
+++ b/deps/SnoopCompile/snoop_bench.jl
@ -1,6 +1,8 @@
-include("snoop_bot_config.jl")
+using CompileBot

 snoop_bench(
-    botconfig,
+    BotConfig(
+        "Plots",
+    ),
    joinpath(@__DIR__, "precompile_script.jl"),
 )
--- a/deps/SnoopCompile/snoop_bot.jl
+++ b/deps/SnoopCompile/snoop_bot.jl
@ -1,6 +1,8 @@
-include("snoop_bot_config.jl")
+using CompileBot

 snoop_bot(
-    botconfig,
+    BotConfig(
+        "Plots",
+    ),
    joinpath(@__DIR__, "precompile_script.jl"),
 )
--- a/deps/SnoopCompile/snoop_bot_config.jl
+++ b/deps/SnoopCompile/snoop_bot_config.jl
@ -1,7 +0,0 @@
-using CompileBot
-
-botconfig = BotConfig(
-    "Plots",
-    version = ["1.6", "1.7", "1.8", "nightly"],  # <<< keep these versions in sync with .github/workflows/SnoopCompile.yml
-    # else_version = "nightly",
-)
--- a/src/Plots.jl
+++ b/src/Plots.jl
@ -1,52 +1,37 @@
 module Plots

-using Pkg
-
 if isdefined(Base, :Experimental) && isdefined(Base.Experimental, Symbol("@optlevel"))
    @eval Base.Experimental.@optlevel 1
 end
-if isdefined(Base, :Experimental) && isdefined(Base.Experimental, Symbol("@max_methods"))
-    @eval Base.Experimental.@max_methods 1
-end

-const _plots_project = Pkg.Types.read_project(normpath(@__DIR__, "..", "Project.toml"))
-const _current_plots_version = _plots_project.version
-const _plots_compats = _plots_project.compat
-function _check_compat(sim::Module)
-    sim_str = string(sim)
-    if !haskey(_plots_compats, sim_str)
-        return nothing
-    end
-    be_v = Pkg.Types.read_project(joinpath(Base.pkgdir(sim), "Project.toml")).version
-    be_c = _plots_compats[sim_str]
-    if be_c isa String # julia 1.6
-        if !(be_v in Pkg.Types.semver_spec(be_c))
-            @warn "$sim $be_v is not compatible with this version of Plots. The declared compatibility is $(be_c)."
-        end
-    else
-        if isempty(intersect(be_v, be_c.val))
-            @warn "$sim $be_v is not compatible with this version of Plots. The declared compatibility is $(be_c.str)."
-        end
-    end
-end
+const _current_plots_version = VersionNumber(
+    split(
+        first(
+            filter(
+                line -> occursin("version", line),
+                readlines(normpath(@__DIR__, "..", "Project.toml")),
+            ),
+        ),
+        "\"",
+    )[2],
+)

 using Reexport

 import GeometryBasics
-using Dates, Printf, Statistics, Base64, LinearAlgebra, Random, Unzip
+using Dates, Printf, Statistics, Base64, LinearAlgebra, Random
 using SparseArrays

 using FFMPEG

@reexport using RecipesBase
-import RecipesBase: plot, plot!, animate, is_explicit, grid
+import RecipesBase: plot, plot!, animate, is_explicit
 using Base.Meta
@reexport using PlotUtils
@reexport using PlotThemes
-import UnicodeFun
+import Showoff
 import StatsBase
 import Downloads
-import Showoff
 import JSON

 using Requires
@ -56,6 +41,7 @@ export
    grid,
    bbox,
    plotarea,
+    @layout,
    KW,

    wrap,
@ -180,8 +166,6 @@ const BBox = Measures.Absolute2DBox
 const px = AbsoluteLength(0.254)
 const pct = Length{:pct,Float64}(1.0)

-Base.convert(::Type{<:Measure}, x::Float64) = x * pct
-
 Base.:*(m1::AbsoluteLength, m2::Length{:pct}) = AbsoluteLength(m1.value * m2.value)
 Base.:*(m1::Length{:pct}, m2::AbsoluteLength) = AbsoluteLength(m2.value * m1.value)
 Base.:/(m1::AbsoluteLength, m2::Length{:pct}) = AbsoluteLength(m1.value / m2.value)
@ -210,13 +194,14 @@ import RecipesPipeline:
    pop_kw!,
    scale_func,
    inverse_scale_func,
+    unzip,
    dateformatter,
    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-2.6.3.min.js"
+const _plotly_min_js_filename = "plotly-1.57.1.min.js"

 include("types.jl")
 include("utils.jl")
@ -224,7 +209,6 @@ include("colorbars.jl")
 include("axes.jl")
 include("args.jl")
 include("components.jl")
-include("consts.jl")
 include("themes.jl")
 include("plot.jl")
 include("pipeline.jl")
--- a/src/arg_desc.jl
+++ b/src/arg_desc.jl
@ -32,8 +32,7 @@ const _arg_desc = KW(
    :line_z             => "AbstractVector, Function `f(x,y,z) -> z_value`, or Function `f(x,y) -> z_value`, or nothing. z-values for each series line segment, which correspond to the color to be used from a linecolor gradient.  Note that for N points, only the first N-1 values are used (one per line-segment).",
    :fill_z             => "Matrix{Float64} of the same size as z matrix, which specifies the color of the 3D surface; the default value is `nothing`.",
    :levels             => "Integer (number of contours) or AbstractVector (contour values). Determines contour levels for a contour type.",
-    :permute            => "Tuple{Symbol,Symbol}. Permutes data and axis properties of the axes given in the tuple. E.g. (:x, :y).",
-    :orientation        => "Symbol. (deprecated) Horizontal or vertical orientation for bar types.  Values `:h`, `:hor`, `:horizontal` correspond to horizontal (sideways, anchored to y-axis), and `:v`, `:vert`, and `:vertical` correspond to vertical (the default).",
+    :orientation        => "Symbol.  Horizontal or vertical orientation for bar types.  Values `:h`, `:hor`, `:horizontal` correspond to horizontal (sideways, anchored to y-axis), and `:v`, `:vert`, and `:vertical` correspond to vertical (the default).",
    :bar_position       => "Symbol.  Choose from `:overlay` (default), `:stack`.  (warning: May not be implemented fully)",
    :bar_width          => "nothing or Number. Width of bars in data coordinates. When nothing, chooses based on x (or y when `orientation = :h`).",
    :bar_edges          => "Bool.  Align bars to edges (true), or centers (the default)?",
@ -53,7 +52,6 @@ const _arg_desc = KW(
    :primary            => "Bool.  Does this count as a 'real series'?  For example, you could have a path (primary), and a scatter (secondary) as 2 separate series, maybe with different data (see sticks recipe for an example).  The secondary series will get the same color, etc as the primary.",
    :hover              => "nothing or vector of strings. Text to display when hovering over each data point.",
    :colorbar_entry     => "Bool.  Include this series in the color bar?  Set to `false` to exclude.",
-    :z_order            => "Symbol or Integer. :front (default), :back or index of position where 1 is farest in the background.",

    # plot args
    :plot_title               => "String. Title for the whole plot (not the subplots)",
@ -79,66 +77,64 @@ const _arg_desc = KW(
    :warn_on_unsupported      => "Bool. Warn on unsupported attributes, series types and marker shapes",

    # subplot args
-    :title => "String. Subplot title.",
-    :titlelocation => "Symbol. Position of subplot title. Values: `:left`, `:center`, `:right`",
-    :titlefontfamily => "String or Symbol. Font family of subplot title.",
-    :titlefontsize => "Integer. Font pointsize of subplot title.",
-    :titlefonthalign => "Symbol. Font horizontal alignment of subplot title: :hcenter, :left, :right or :center",
-    :titlefontvalign => "Symbol. Font vertical alignment of subplot title: :vcenter, :top, :bottom or :center",
-    :titlefontrotation => "Real. Font rotation of subplot title",
-    :titlefontcolor => "Color Type. Font color of subplot title",
+    :title                    => "String. Subplot title.",
+    :titlelocation            => "Symbol. Position of subplot title. Values: `:left`, `:center`, `:right`",
+    :titlefontfamily          => "String or Symbol. Font family of subplot title.",
+    :titlefontsize            => "Integer. Font pointsize of subplot title.",
+    :titlefonthalign          => "Symbol. Font horizontal alignment of subplot title: :hcenter, :left, :right or :center",
+    :titlefontvalign          => "Symbol. Font vertical alignment of subplot title: :vcenter, :top, :bottom or :center",
+    :titlefontrotation        => "Real. Font rotation of subplot title",
+    :titlefontcolor           => "Color Type. Font color of subplot title",
    :background_color_subplot => "Color Type or `:match` (matches `:background_color`).  Base background color of the subplot.",
-    :legend_background_color => "Color Type or `:match` (matches `:background_color_subplot`).  Background color of the legend.",
-    :background_color_inside => "Color Type or `:match` (matches `:background_color_subplot`).  Background color inside the plot area (under the grid).",
+    :background_color_legend  => "Color Type or `:match` (matches `:background_color_subplot`).  Background color of the legend.",
+    :background_color_inside  => "Color Type or `:match` (matches `:background_color_subplot`).  Background color inside the plot area (under the grid).",
    :foreground_color_subplot => "Color Type or `:match` (matches `:foreground_color`).  Base foreground color of the subplot.",
-    :legend_foreground_color => "Color Type or `:match` (matches `:foreground_color_subplot`).  Foreground color of the legend.",
-    :foreground_color_title => "Color Type or `:match` (matches `:foreground_color_subplot`). Color of subplot title.",
-    :color_palette => "Vector of colors (cycle through) or color gradient (generate list from gradient) or `:auto` (generate a color list using `Colors.distiguishable_colors` and custom seed colors chosen to contrast with the background).  The color palette is a color list from which series colors are automatically chosen.",
-    :legend_position => "Bool (show the legend?) or (x,y) tuple or Symbol (legend position) or angle or (angle,inout) tuple. Bottom left corner of legend is placed at (x,y).  Symbol values: `:none`; `:best`; `:inline`; `:inside`; `:legend`; any valid combination of `:(outer ?)(top/bottom ?)(right/left ?)`, i.e.: `:top`, `:topright`, `:outerleft`, `:outerbottomright` ... (note: only some may be supported in each backend)",
-    :legend_column => "Integer. Number of columns in the legend. `-1` stands for maximum number of colums (horizontal legend).",
-    :legend_title_font => "Font. Font of the legend title.",
-    :legend_font_family => "String or Symbol. Font family of legend entries.",
-    :legend_font_pointsize => "Integer. Font pointsize of legend entries.",
-    :legend_font_halign => "Symbol. Font horizontal alignment of legend entries: :hcenter, :left, :right or :center",
-    :legend_font_valign => "Symbol. Font vertical alignment of legend entries: :vcenter, :top, :bottom or :center",
-    :legend_font_rotation => "Real. Font rotation of legend entries",
-    :legend_font_color => "Color Type. Font color of legend entries",
-    :legend_title => "String. Legend title.",
-    :legend_title_font_family => "String or Symbol. Font family of the legend title.",
-    :legend_title_font_pointsize => "Integer. Font pointsize the legend title.",
-    :legend_title_font_halign => "Symbol. Font horizontal alignment of the legend title: :hcenter, :left, :right or :center",
-    :legend_title_font_valign => "Symbol. Font vertical alignment of the legend title: :vcenter, :top, :bottom or :center",
-    :legend_title_font_rotation => "Real. Font rotation of the legend title",
-    :legend_title_font_color => "Color Type. Font color of the legend title",
-    :colorbar => "Bool (show the colorbar?) or Symbol (colorbar position).  Symbol values: `:none`, `:best`, `:right`, `:left`, `:top`, `:bottom`, `:legend` (matches legend value) (note: only some may be supported in each backend)",
-    :clims => "`:auto`, NTuple{2,Number}, or a function that takes series data in and returns NTuple{2,Number}.  Fixes the limits of the colorbar.",
-    :colorbar_fontfamily => "String or Symbol. Font family of colobar entries.",
-    :colorbar_ticks => "Vector of numbers (set the tick values), Tuple of (tickvalues, ticklabels), or `:auto`",
-    :colorbar_tickfontfamily => "String or Symbol. Font family of colorbar tick labels.",
-    :colorbar_tickfontsize => "Integer. Font pointsize of colorbar tick entries.",
-    :colorbar_tickfontcolor => "Color Type. Font color of colorbar tick entries",
-    :colorbar_scale => "Symbol. Scale of the colorbar axis: `:none`, `:ln`, `:log2`, `:log10`",
-    :colorbar_formatter => "Function, :scientific, :plain or :auto. A method which converts a number to a string for tick labeling.",
-    :legend_font => "Font. Font of legend items.",
-    :legend_titlefont => "Font. Font of the legend title.",
-    :annotations => "(x,y,text) tuple(s).  Can be a single tuple or a list of them.  Text can be String, PlotText (created with `text(args...)`), or a tuple of arguments to `text` (e.g., `(\"Label\", 8, :red, :top)`). Add one-off text annotations at the x,y coordinates.",
-    :annotationfontfamily => "String or Symbol. Font family of annotations.",
-    :annotationfontsize => "Integer. Font pointsize of annotations.",
-    :annotationhalign => "Symbol. horizontal alignment of annotations, :hcenter, :left, :right or :center.",
-    :annotationvalign => "Symbol. Vertical alignment of annotations, :vcenter, :top, :bottom or :center.",
-    :annotationrotation => "Float. Rotation of annotations in degrees.",
-    :annotationcolor => "Colorant or :match. Color of annotations.",
-    :projection => "Symbol or String.  '3d' or 'polar'",
-    :aspect_ratio => "Symbol (:equal or :none) or Number. Plot area is resized so that 1 y-unit is the same size as `aspect_ratio` x-units. With `:none`, images inherit aspect ratio of the plot area.",
-    :margin => "Measure (multiply by `mm`, `px`, etc). Base for individual margins... not directly used.  Specifies the extra padding around subplots.",
-    :left_margin => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding to the left of the subplot.",
-    :top_margin => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding on the top of the subplot.",
-    :right_margin => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding to the right of the subplot.",
-    :bottom_margin => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding on the bottom of the subplot.",
-    :subplot_index => "Integer.  Internal (not set by user).  Specifies the index of this subplot in the Plot's `plt.subplot` list.",
-    :colorbar_title => "String.  Title of colorbar.",
-    :framestyle => "Symbol.  Style of the axes frame. Choose from $(_allFramestyles)",
-    :camera => "NTuple{2, Real}. Sets the view angle (azimuthal, elevation) for 3D plots",
+    :foreground_color_legend  => "Color Type or `:match` (matches `:foreground_color_subplot`).  Foreground color of the legend.",
+    :foreground_color_title   => "Color Type or `:match` (matches `:foreground_color_subplot`). Color of subplot title.",
+    :color_palette            => "Vector of colors (cycle through) or color gradient (generate list from gradient) or `:auto` (generate a color list using `Colors.distiguishable_colors` and custom seed colors chosen to contrast with the background).  The color palette is a color list from which series colors are automatically chosen.",
+    :legend                   => "Bool (show the legend?) or (x,y) tuple or Symbol (legend position) or angle or (angle,inout) tuple. Bottom left corner of legend is placed at (x,y).  Symbol values: `:none`; `:best`; `:inline`; `:inside`; `:legend`; any valid combination of `:(outer ?)(top/bottom ?)(right/left ?)`, i.e.: `:top`, `:topright`, `:outerleft`, `:outerbottomright` ... (note: only some may be supported in each backend). Legend is positioned at (angle degrees) (so (90,:outer) is roughly equivalent to :outertop), close to the inside of the axes or the outside if inout=:outer.",
+    :legendfontfamily         => "String or Symbol. Font family of legend entries.",
+    :legendfontsize           => "Integer. Font pointsize of legend entries.",
+    :legendfonthalign         => "Symbol. Font horizontal alignment of legend entries: :hcenter, :left, :right or :center",
+    :legendfontvalign         => "Symbol. Font vertical alignment of legend entries: :vcenter, :top, :bottom or :center",
+    :legendfontrotation       => "Real. Font rotation of legend entries",
+    :legendfontcolor          => "Color Type. Font color of legend entries",
+    :legendtitle              => "String. Legend title.",
+    :legendtitlefontfamily    => "String or Symbol. Font family of the legend title.",
+    :legendtitlefontsize      => "Integer. Font pointsize the legend title.",
+    :legendtitlefonthalign    => "Symbol. Font horizontal alignment of the legend title: :hcenter, :left, :right or :center",
+    :legendtitlefontvalign    => "Symbol. Font vertical alignment of the legend title: :vcenter, :top, :bottom or :center",
+    :legendtitlefontrotation  => "Real. Font rotation of the legend title",
+    :legendtitlefontcolor     => "Color Type. Font color of the legend title",
+    :colorbar                 => "Bool (show the colorbar?) or Symbol (colorbar position).  Symbol values: `:none`, `:best`, `:right`, `:left`, `:top`, `:bottom`, `:legend` (matches legend value) (note: only some may be supported in each backend)",
+    :clims                    => "`:auto`, NTuple{2,Number}, or a function that takes series data in and returns NTuple{2,Number}.  Fixes the limits of the colorbar.",
+    :colorbar_fontfamily      => "String or Symbol. Font family of colobar entries.",
+    :colorbar_ticks           => "Vector of numbers (set the tick values), Tuple of (tickvalues, ticklabels), or `:auto`",
+    :colorbar_tickfontfamily  => "String or Symbol. Font family of colorbar tick labels.",
+    :colorbar_tickfontsize    => "Integer. Font pointsize of colorbar tick entries.",
+    :colorbar_tickfontcolor   => "Color Type. Font color of colorbar tick entries",
+    :colorbar_scale           => "Symbol. Scale of the colorbar axis: `:none`, `:ln`, `:log2`, `:log10`",
+    :colorbar_formatter       => "Function, :scientific, :plain or :auto. A method which converts a number to a string for tick labeling.",
+    :legendfont               => "Font. Font of legend items.",
+    :legendtitlefont          => "Font. Font of the legend title.",
+    :annotations              => "(x,y,text) tuple(s).  Can be a single tuple or a list of them.  Text can be String, PlotText (created with `text(args...)`), or a tuple of arguments to `text` (e.g., `(\"Label\", 8, :red, :top)`).  Add one-off text annotations at the x,y coordinates.",
+    :annotationfontfamily     => "String or Symbol. Font family of annotations.",
+    :annotationfontsize       => "Integer. Font pointsize of annotations.",
+    :annotationhalign         => "Symbol. horizontal alignment of annotations, :hcenter, :left, :right or :center.",
+    :annotationvalign         => "Symbol. Vertical alignment of annotations, :vcenter, :top, :bottom or :center.",
+    :annotationrotation       => "Float. Rotation of annotations in degrees.",
+    :annotationcolor          => "Colorant or :match. Color of annotations.",
+    :projection               => "Symbol or String.  '3d' or 'polar'",
+    :aspect_ratio             => "Symbol (:equal or :none) or Number. Plot area is resized so that 1 y-unit is the same size as `aspect_ratio` x-units. With `:none`, images inherit aspect ratio of the plot area.",
+    :margin                   => "Measure (multiply by `mm`, `px`, etc). Base for individual margins... not directly used.  Specifies the extra padding around subplots.",
+    :left_margin              => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding to the left of the subplot.",
+    :top_margin               => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding on the top of the subplot.",
+    :right_margin             => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding to the right of the subplot.",
+    :bottom_margin            => "Measure (multiply by `mm`, `px`, etc) or `:match` (matches `:margin`).  Specifies the extra padding on the bottom of the subplot.",
+    :subplot_index            => "Integer.  Internal (not set by user).  Specifies the index of this subplot in the Plot's `plt.subplot` list.",
+    :colorbar_title           => "String.  Title of colorbar.",
+    :framestyle               => "Symbol.  Style of the axes frame. Choose from $(_allFramestyles)",
+    :camera                   => "NTuple{2, Real}. Sets the view angle (azimuthal, elevation) for 3D plots",

    # axis args
    :guide                       => "String. Axis guide (label).",
--- a/src/args.jl
+++ b/src/args.jl
@ -24,9 +24,8 @@ function add_aliases(sym::Symbol, aliases::Symbol...)
    return nothing
 end

-function add_axes_aliases(sym::Symbol, aliases::Symbol...; generic::Bool = true)
+function add_axes_aliases(sym::Symbol, aliases::Symbol...)
    sym in keys(_axis_defaults) || throw(ArgumentError("Invalid `$sym`"))
-    generic && add_aliases(sym, aliases...)
    for letter in (:x, :y, :z)
        add_aliases(Symbol(letter, sym), (Symbol(letter, a) for a in aliases)...)
    end
@ -89,8 +88,6 @@ const _allTypes = vcat(
    _3dTypes,
 )

-const _z_colored_series = [:contour, :contour3d, :heatmap, :histogram2d, :surface, :hexbin]
-
 const _typeAliases = Dict{Symbol,Symbol}(
    :n             => :none,
    :no            => :none,
@ -399,8 +396,6 @@ const _series_defaults = KW(
    :hover        => nothing,  # text to display when hovering over the data points
    :stride       => (1, 1),    # array stride for wireframe/surface, the first element is the row stride and the second is the column stride.
    :connections  => nothing,  # tuple of arrays to specifiy connectivity of a 3d mesh
-    :z_order      => :front, # one of :front, :back or integer in 1:length(sp.series_list)
-    :permute      => :none, # tuple of two symbols to be permuted
    :extra_kwargs => Dict(),
 )

@ -449,10 +444,14 @@ const _subplot_defaults = KW(
    :titlefontrotation => 0.0,
    :titlefontcolor => :match,
    :background_color_subplot => :match,            # default for other bg colors... match takes plot default
+    :background_color_legend => :match,            # background of legend
    :background_color_inside => :match,            # background inside grid
    :foreground_color_subplot => :match,            # default for other fg colors... match takes plot default
+    :foreground_color_legend => :match,            # foreground of legend
    :foreground_color_title => :match,            # title color
    :color_palette => :auto,
+    :legend => :best,
+    :legendtitle => nothing,
    :colorbar => :legend,
    :clims => :auto,
    :colorbar_fontfamily => :match,
@ -467,6 +466,18 @@ const _subplot_defaults = KW(
    :colorbar_formatter => :auto,
    :colorbar_discrete_values => [],
    :colorbar_continuous_values => zeros(0),
+    :legendfontfamily => :match,
+    :legendfontsize => 8,
+    :legendfonthalign => :hcenter,
+    :legendfontvalign => :vcenter,
+    :legendfontrotation => 0.0,
+    :legendfontcolor => :match,
+    :legendtitlefontfamily => :match,
+    :legendtitlefontsize => 11,
+    :legendtitlefonthalign => :hcenter,
+    :legendtitlefontvalign => :vcenter,
+    :legendtitlefontrotation => 0.0,
+    :legendtitlefontcolor => :match,
    :annotations => [],                # annotation tuples... list of (x,y,annotation)
    :annotationfontfamily => :match,
    :annotationfontsize => 14,
@ -485,7 +496,6 @@ const _subplot_defaults = KW(
    :colorbar_title => "",
    :colorbar_titlefontsize => 10,
    :colorbar_title_location => :center,           # also :left or :right
-    :colorbar_fontfamily => :match,
    :colorbar_titlefontfamily => :match,
    :colorbar_titlefonthalign => :hcenter,
    :colorbar_titlefontvalign => :vcenter,
@ -555,6 +565,80 @@ const _suppress_warnings = Set{Symbol}([
    :relative_bbox,
 ])

+# add defaults for the letter versions
+const _axis_defaults_byletter = KW()
+
+function reset_axis_defaults_byletter!()
+    for letter in (:x, :y, :z)
+        _axis_defaults_byletter[letter] = KW()
+        for (k, v) in _axis_defaults
+            _axis_defaults_byletter[letter][k] = v
+        end
+    end
+end
+reset_axis_defaults_byletter!()
+
+const _all_defaults = KW[_series_defaults, _plot_defaults, _subplot_defaults]
+
+const _initial_defaults = deepcopy(_all_defaults)
+const _initial_axis_defaults = deepcopy(_axis_defaults)
+
+# to be able to reset font sizes to initial values
+const _initial_plt_fontsizes =
+    Dict(:plot_titlefontsize => _plot_defaults[:plot_titlefontsize])
+
+const _initial_sp_fontsizes = Dict(
+    :titlefontsize => _subplot_defaults[:titlefontsize],
+    :legendfontsize => _subplot_defaults[:legendfontsize],
+    :legendtitlefontsize => _subplot_defaults[:legendtitlefontsize],
+    :annotationfontsize => _subplot_defaults[:annotationfontsize],
+    :colorbar_tickfontsize => _subplot_defaults[:colorbar_tickfontsize],
+    :colorbar_titlefontsize => _subplot_defaults[:colorbar_titlefontsize],
+)
+
+const _initial_ax_fontsizes = Dict(
+    :tickfontsize  => _axis_defaults[:tickfontsize],
+    :guidefontsize => _axis_defaults[:guidefontsize],
+)
+
+const _initial_fontsizes =
+    merge(_initial_plt_fontsizes, _initial_sp_fontsizes, _initial_ax_fontsizes)
+
+const _internal_args =
+    [:plot_object, :series_plotindex, :markershape_to_add, :letter, :idxfilter]
+
+const _axis_args = sort(union(collect(keys(_axis_defaults))))
+const _series_args = sort(union(collect(keys(_series_defaults))))
+const _subplot_args = sort(union(collect(keys(_subplot_defaults))))
+const _plot_args = sort(union(collect(keys(_plot_defaults))))
+
+const _magic_axis_args = [:axis, :tickfont, :guidefont, :grid, :minorgrid]
+const _magic_subplot_args =
+    [:titlefont, :legendfont, :legendtitlefont, :plot_titlefont, :colorbar_titlefont]
+const _magic_series_args = [:line, :marker, :fill]
+
+const _all_axis_args = sort(union([_axis_args; _magic_axis_args]))
+const _all_subplot_args = sort(union([_subplot_args; _magic_subplot_args]))
+const _all_series_args = sort(union([_series_args; _magic_series_args]))
+const _all_plot_args = _plot_args
+
+for letter in (:x, :y, :z)
+    _attrsymbolcache[letter] = Dict{Symbol,Symbol}()
+    for k in keys(_axis_defaults)
+        # populate attribute cache
+        lk = Symbol(letter, k)
+        _attrsymbolcache[letter][k] = lk
+        # allow the underscore version too: xguide or x_guide
+        add_aliases(lk, Symbol(letter, "_", k))
+    end
+    for k in (_magic_axis_args..., :(_discrete_indices))
+        _attrsymbolcache[letter][k] = Symbol(letter, k)
+    end
+end
+
+const _all_args =
+    sort(union([_all_axis_args; _all_subplot_args; _all_series_args; _all_plot_args]))
+
 is_subplot_attr(k) = k in _all_subplot_args
 is_series_attr(k) = k in _all_series_args
 is_axis_attr(k) = Symbol(chop(string(k); head = 1, tail = 0)) in _all_axis_args
@ -586,46 +670,9 @@ aliases(aliasMap::Dict{Symbol,Symbol}, val) =
    sortedkeys(filter((k, v) -> v == val, aliasMap))

 # -----------------------------------------------------------------------------
-# legend
-add_aliases(:legend_position, :legend, :leg, :key, :legends)
-add_aliases(
-    :legend_background_color,
-    :bg_legend,
-    :bglegend,
-    :bgcolor_legend,
-    :bg_color_legend,
-    :background_legend,
-    :background_colour_legend,
-    :bgcolour_legend,
-    :bg_colour_legend,
-    :background_color_legend,
-)
-add_aliases(
-    :legend_foreground_color,
-    :fg_legend,
-    :fglegend,
-    :fgcolor_legend,
-    :fg_color_legend,
-    :foreground_legend,
-    :foreground_colour_legend,
-    :fgcolour_legend,
-    :fg_colour_legend,
-    :foreground_color_legend,
-)
-add_aliases(:legend_font_pointsize, :legendfontsize)
-add_aliases(
-    :legend_title,
-    :key_title,
-    :keytitle,
-    :label_title,
-    :labeltitle,
-    :leg_title,
-    :legtitle,
-)
-add_aliases(:legend_title_font_pointsize, :legendtitlefontsize)
+
 # margin
 add_aliases(:left_margin, :leftmargin)
-
 add_aliases(:top_margin, :topmargin)
 add_aliases(:bottom_margin, :bottommargin)
 add_aliases(:right_margin, :rightmargin)
@ -648,6 +695,17 @@ add_aliases(
    :bgcolour,
    :bg_colour,
 )
+add_aliases(
+    :background_color_legend,
+    :bg_legend,
+    :bglegend,
+    :bgcolor_legend,
+    :bg_color_legend,
+    :background_legend,
+    :background_colour_legend,
+    :bgcolour_legend,
+    :bg_colour_legend,
+)
 add_aliases(
    :background_color_subplot,
    :bg_subplot,
@ -691,7 +749,17 @@ add_aliases(
    :fgcolour,
    :fg_colour,
 )
-
+add_aliases(
+    :foreground_color_legend,
+    :fg_legend,
+    :fglegend,
+    :fgcolor_legend,
+    :fg_color_legend,
+    :foreground_legend,
+    :foreground_colour_legend,
+    :fgcolour_legend,
+    :fg_colour_legend,
+)
 add_aliases(
    :foreground_color_subplot,
    :fg_subplot,
@ -703,90 +771,6 @@ add_aliases(
    :fgcolour_subplot,
    :fg_colour_subplot,
 )
-add_aliases(
-    :foreground_color_grid,
-    :fg_grid,
-    :fggrid,
-    :fgcolor_grid,
-    :fg_color_grid,
-    :foreground_grid,
-    :foreground_colour_grid,
-    :fgcolour_grid,
-    :fg_colour_grid,
-    :gridcolor,
-)
-add_aliases(
-    :foreground_color_minor_grid,
-    :fg_minor_grid,
-    :fgminorgrid,
-    :fgcolor_minorgrid,
-    :fg_color_minorgrid,
-    :foreground_minorgrid,
-    :foreground_colour_minor_grid,
-    :fgcolour_minorgrid,
-    :fg_colour_minor_grid,
-    :minorgridcolor,
-)
-add_aliases(
-    :foreground_color_title,
-    :fg_title,
-    :fgtitle,
-    :fgcolor_title,
-    :fg_color_title,
-    :foreground_title,
-    :foreground_colour_title,
-    :fgcolour_title,
-    :fg_colour_title,
-    :titlecolor,
-)
-add_aliases(
-    :foreground_color_axis,
-    :fg_axis,
-    :fgaxis,
-    :fgcolor_axis,
-    :fg_color_axis,
-    :foreground_axis,
-    :foreground_colour_axis,
-    :fgcolour_axis,
-    :fg_colour_axis,
-    :axiscolor,
-)
-add_aliases(
-    :foreground_color_border,
-    :fg_border,
-    :fgborder,
-    :fgcolor_border,
-    :fg_color_border,
-    :foreground_border,
-    :foreground_colour_border,
-    :fgcolour_border,
-    :fg_colour_border,
-    :bordercolor,
-)
-add_aliases(
-    :foreground_color_text,
-    :fg_text,
-    :fgtext,
-    :fgcolor_text,
-    :fg_color_text,
-    :foreground_text,
-    :foreground_colour_text,
-    :fgcolour_text,
-    :fg_colour_text,
-    :textcolor,
-)
-add_aliases(
-    :foreground_color_guide,
-    :fg_guide,
-    :fgguide,
-    :fgcolor_guide,
-    :fg_color_guide,
-    :foreground_guide,
-    :foreground_colour_guide,
-    :fgcolour_guide,
-    :fg_colour_guide,
-    :guidecolor,
-)

 add_aliases(
    :foreground_color_title,
@ -857,20 +841,13 @@ add_aliases(:markerstrokealpha, :msa, :msalpha, :msα, :markerstrokeopacity, :ms
 add_aliases(:fillalpha, :fa, :falpha, :fα, :fillopacity, :fopacity)

 # axes attributes
-add_axes_aliases(:guide, :label, :lab, :l; generic = false)
+add_axes_aliases(:guide, :label, :lab, :l)
 add_axes_aliases(:lims, :lim, :limit, :limits, :range)
 add_axes_aliases(:ticks, :tick)
 add_axes_aliases(:rotation, :rot, :r)
 add_axes_aliases(:guidefontsize, :labelfontsize)
 add_axes_aliases(:gridalpha, :ga, :galpha, :gα, :gridopacity, :gopacity)
-add_axes_aliases(
-    :gridstyle,
-    :grid_style,
-    :gridlinestyle,
-    :grid_linestyle,
-    :grid_ls,
-    :gridls,
-)
+add_axes_aliases(:gridstyle, :grid_style, :gridlinestyle, :grid_linestyle, :grid_ls, :gridls)
 add_axes_aliases(
    :foreground_color_grid,
    :fg_grid,
@ -895,14 +872,7 @@ add_axes_aliases(
    :fg_colour_minor_grid,
    :minorgridcolor,
 )
-add_axes_aliases(
-    :gridlinewidth,
-    :gridwidth,
-    :grid_linewidth,
-    :grid_width,
-    :gridlw,
-    :grid_lw,
-)
+add_axes_aliases(:gridlinewidth, :gridwidth, :grid_linewidth, :grid_width, :gridlw, :grid_lw)
 add_axes_aliases(
    :minorgridstyle,
    :minorgrid_style,
@ -947,19 +917,7 @@ add_aliases(:group, :g, :grouping)
 add_aliases(:bins, :bin, :nbin, :nbins, :nb)
 add_aliases(:ribbon, :rib)
 add_aliases(:annotations, :ann, :anns, :annotate, :annotation)
-add_aliases(:xguide, :xlabel, :xlab, :xl)
-add_aliases(:xlims, :xlim, :xlimit, :xlimits, :xrange)
-add_aliases(:xticks, :xtick)
-add_aliases(:xrotation, :xrot, :xr)
-add_aliases(:yguide, :ylabel, :ylab, :yl)
-add_aliases(:ylims, :ylim, :ylimit, :ylimits, :yrange)
-add_aliases(:yticks, :ytick)
-add_aliases(:yrotation, :yrot, :yr)
-add_aliases(:zguide, :zlabel, :zlab, :zl)
-add_aliases(:zlims, :zlim, :zlimit, :zlimits)
-add_aliases(:zticks, :ztick)
-add_aliases(:zrotation, :zrot, :zr)
-add_aliases(:guidefontsize, :labelfontsize)
+
 add_aliases(
    :fill_z,
    :fillz,
@ -970,6 +928,8 @@ add_aliases(
    :surfcolor,
    :surfcolour,
 )
+add_aliases(:legend, :leg, :key)
+add_aliases(:legendtitle, :legend_title, :labeltitle, :label_title, :leg_title, :key_title)
 add_aliases(:colorbar, :cb, :cbar, :colorkey)
 add_aliases(
    :colorbar_title,
@ -1045,6 +1005,13 @@ add_aliases(:camera, :cam, :viewangle, :view_angle)
 add_aliases(:contour_labels, :contourlabels, :clabels, :clabs)
 add_aliases(:warn_on_unsupported, :warn)

+# add all pluralized forms to the _keyAliases dict
+for arg in _all_args
+    add_aliases(arg, makeplural(arg))
+end
+# add all non_underscored forms to the _keyAliases
+add_non_underscore_aliases!(_keyAliases)
+
 # -----------------------------------------------------------------------------

 function parse_axis_kw(s::Symbol)
@ -1060,14 +1027,10 @@ end
 # update the defaults globally

 """
-`default(key)` returns the current default value for that key.
-
-`default(key, value)` sets the current default value for that key.
-
-`default(; kw...)` will set the current default value for each key/value pair.
-
-`default(plotattributes, key)` returns the key from plotattributes if it exists, otherwise `default(key)`.
-
+`default(key)` returns the current default value for that key
+`default(key, value)` sets the current default value for that key
+`default(; kw...)` will set the current default value for each key/value pair
+`default(plotattributes, key)` returns the key from  plotattributes if it exists, otherwise `default(key)`
 """
 function default(k::Symbol)
    k = get(_keyAliases, k, k)
@ -1349,12 +1312,7 @@ function processFontArg!(plotattributes::AKW, fontname::Symbol, arg)
    T = typeof(arg)
    if T <: Font
        plotattributes[Symbol(fontname, :family)] = arg.family
-        # TODO: this is neccessary in the transition from old fontsize to new font_pointsize and should be removed when it is completed
-        if in(Symbol(fontname, :size), _all_args)
-            plotattributes[Symbol(fontname, :size)] = arg.pointsize
-        else
-            plotattributes[Symbol(fontname, :_pointsize)] = arg.pointsize
-        end
+        plotattributes[Symbol(fontname, :size)] = arg.pointsize
        plotattributes[Symbol(fontname, :halign)] = arg.halign
        plotattributes[Symbol(fontname, :valign)] = arg.valign
        plotattributes[Symbol(fontname, :rotation)] = arg.rotation
@ -1375,11 +1333,7 @@ function processFontArg!(plotattributes::AKW, fontname::Symbol, arg)
            plotattributes[Symbol(fontname, :family)] = string(arg)
        end
    elseif typeof(arg) <: Integer
-        if in(Symbol(fontname, :size), _all_args)
-            plotattributes[Symbol(fontname, :size)] = arg
-        else
-            plotattributes[Symbol(fontname, :_pointsize)] = arg
-        end
+        plotattributes[Symbol(fontname, :size)] = arg
    elseif typeof(arg) <: Real
        plotattributes[Symbol(fontname, :rotation)] = convert(Float64, arg)
    else
@ -1499,7 +1453,7 @@ function RecipesPipeline.preprocess_attributes!(plotattributes::AKW)

    # fonts
    for fontname in
-        (:titlefont, :legend_title_font, :plot_titlefont, :colorbar_titlefont, :legend_font)
+        (:titlefont, :legendfont, :legendtitlefont, :plot_titlefont, :colorbar_titlefont)
        args = RecipesPipeline.pop_kw!(plotattributes, fontname, ())
        for arg in wraptuple(args)
            processFontArg!(plotattributes, fontname, arg)
@ -1566,9 +1520,8 @@ function RecipesPipeline.preprocess_attributes!(plotattributes::AKW)
    # end

    # legends
-    if haskey(plotattributes, :legend_position)
-        plotattributes[:legend_position] =
-            convertLegendValue(plotattributes[:legend_position])
+    if haskey(plotattributes, :legend)
+        plotattributes[:legend] = convertLegendValue(plotattributes[:legend])
    end
    if haskey(plotattributes, :colorbar)
        plotattributes[:colorbar] = convertLegendValue(plotattributes[:colorbar])
@ -1587,11 +1540,7 @@ function RecipesPipeline.preprocess_attributes!(plotattributes::AKW)

    # warnings for moved recipes
    st = get(plotattributes, :seriestype, :path)
-    if st in (:boxplot, :violin, :density) &&
-       !haskey(
-        Base.loaded_modules,
-        Base.PkgId(Base.UUID("f3b207a7-027a-5e70-b257-86293d7955fd"), "StatsPlots"),
-    )
+    if st in (:boxplot, :violin, :density) && !isdefined(Main, :StatsPlots)
        @warn(
            "seriestype $st has been moved to StatsPlots.  To use: \`Pkg.add(\"StatsPlots\"); using StatsPlots\`"
        )
@ -1604,15 +1553,13 @@ end
 const _already_warned = Dict{Symbol,Set{Symbol}}()
 const _to_warn = Set{Symbol}()

-should_warn_on_unsupported(::AbstractBackend) = _plot_defaults[:warn_on_unsupported]
-
 function warn_on_unsupported_args(pkg::AbstractBackend, plotattributes)
    empty!(_to_warn)
    bend = backend_name(pkg)
    already_warned = get!(_already_warned, bend, Set{Symbol}())
    extra_kwargs = Dict{Symbol,Any}()
    for k in keys(plotattributes)
-        is_attr_supported(pkg, k) && !(k in keys(_deprecated_attributes)) && continue
+        is_attr_supported(pkg, k) && continue
        k in _suppress_warnings && continue
        default_value = default(k)
        if ismissing(default_value)
@ -1623,19 +1570,12 @@ function warn_on_unsupported_args(pkg::AbstractBackend, plotattributes)
    end

    if !isempty(_to_warn) &&
-       get(plotattributes, :warn_on_unsupported, should_warn_on_unsupported(pkg))
+       !get(plotattributes, :warn_on_unsupported, _plot_defaults[:warn_on_unsupported])
        for k in sort(collect(_to_warn))
            push!(already_warned, k)
-            if k in keys(_deprecated_attributes)
-                @warn("""
-                Keyword argument `$k` is deprecated.
-                Please use `$(_deprecated_attributes[k])` instead.
-                """)
-            else
-                @warn(
-                    "Keyword argument $k not supported with $pkg.  Choose from: $(join(supported_attrs(pkg), ", "))"
-                )
-            end
+            @warn(
+                "Keyword argument $k not supported with $pkg.  Choose from: $(supported_attrs(pkg))"
+            )
        end
    end
    return extra_kwargs
@ -1646,7 +1586,7 @@ end
 # _markershape_supported(pkg::AbstractBackend, shapes::AVec) = all([_markershape_supported(pkg, shape) for shape in shapes])

 function warn_on_unsupported(pkg::AbstractBackend, plotattributes)
-    if !get(plotattributes, :warn_on_unsupported, should_warn_on_unsupported(pkg))
+    if !get(plotattributes, :warn_on_unsupported, _plot_defaults[:warn_on_unsupported])
        return
    end
    if !is_seriestype_supported(pkg, plotattributes[:seriestype])
@ -1667,13 +1607,13 @@ function warn_on_unsupported(pkg::AbstractBackend, plotattributes)
 end

 function warn_on_unsupported_scales(pkg::AbstractBackend, plotattributes::AKW)
-    if !get(plotattributes, :warn_on_unsupported, should_warn_on_unsupported(pkg))
+    if !get(plotattributes, :warn_on_unsupported, _plot_defaults[:warn_on_unsupported])
        return
    end
    for k in (:xscale, :yscale, :zscale, :scale)
        if haskey(plotattributes, k)
            v = plotattributes[k]
-            if !all(is_scale_supported.(Ref(pkg), v))
+            if !is_scale_supported(pkg, v)
                @warn(
                    "scale $v is unsupported with $pkg.  Choose from: $(supported_scales(pkg))"
                )
@ -1712,18 +1652,15 @@ function convertLegendValue(val::Symbol)
        :inline,
    )
        val
-    elseif val == :horizontal
-        -1
    else
        error("Invalid symbol for legend: $val")
    end
 end
-convertLegendValue(val::Real) = val
 convertLegendValue(val::Bool) = val ? :best : :none
 convertLegendValue(val::Nothing) = :none
-convertLegendValue(v::Union{Tuple,NamedTuple}) = convertLegendValue.(v)
 convertLegendValue(v::Tuple{S,T}) where {S<:Real,T<:Real} = v
 convertLegendValue(v::Tuple{<:Real,Symbol}) = v
+convertLegendValue(v::Real) = v
 convertLegendValue(v::AbstractArray) = map(convertLegendValue, v)

 # -----------------------------------------------------------------------------
@ -1771,17 +1708,12 @@ function slice_arg!(
    remove_pair::Bool,
 )
    v = get(plotattributes_in, k, plotattributes_out[k])
-    plotattributes_out[k] = if haskey(plotattributes_in, k) && !(k in _plot_args)
-        if typeof(v) <: AMat && !isempty(v)
+    plotattributes_out[k] =
+        if haskey(plotattributes_in, k) && typeof(v) <: AMat && !isempty(v)
            slice_arg(v, idx)
-        elseif typeof(v) <: NTuple{2,AMat}
-            (slice_arg(v[1], idx), slice_arg(v[2], idx))
        else
            v
        end
-    else
-        v
-    end
    if remove_pair
        RecipesPipeline.reset_kw!(plotattributes_in, k)
    end
@ -1814,9 +1746,9 @@ end
 # when a value can be `:match`, this is the key that should be used instead for value retrieval
 const _match_map = KW(
    :background_color_outside => :background_color,
-    :legend_background_color  => :background_color_subplot,
+    :background_color_legend  => :background_color_subplot,
    :background_color_inside  => :background_color_subplot,
-    :legend_foreground_color  => :foreground_color_subplot,
+    :foreground_color_legend  => :foreground_color_subplot,
    :foreground_color_title   => :foreground_color_subplot,
    :left_margin              => :margin,
    :top_margin               => :margin,
@ -1824,10 +1756,10 @@ const _match_map = KW(
    :bottom_margin            => :margin,
    :titlefontfamily          => :fontfamily_subplot,
    :titlefontcolor           => :foreground_color_subplot,
-    :legend_font_family       => :fontfamily_subplot,
-    :legend_font_color        => :foreground_color_subplot,
-    :legend_title_font_family => :fontfamily_subplot,
-    :legend_title_font_color  => :foreground_color_subplot,
+    :legendfontfamily         => :fontfamily_subplot,
+    :legendfontcolor          => :foreground_color_subplot,
+    :legendtitlefontfamily    => :fontfamily_subplot,
+    :legendtitlefontcolor     => :foreground_color_subplot,
    :colorbar_fontfamily      => :fontfamily_subplot,
    :colorbar_titlefontfamily => :fontfamily_subplot,
    :colorbar_titlefontcolor  => :foreground_color_subplot,
@ -1958,10 +1890,10 @@ function _update_subplot_periphery(sp::Subplot, anns::AVec)
    sp.attr[:annotations] = newanns

    # handle legend/colorbar
-    sp.attr[:legend_position] = convertLegendValue(sp.attr[:legend_position])
+    sp.attr[:legend] = convertLegendValue(sp.attr[:legend])
    sp.attr[:colorbar] = convertLegendValue(sp.attr[:colorbar])
    if sp.attr[:colorbar] == :legend
-        sp.attr[:colorbar] = sp.attr[:legend_position]
+        sp.attr[:colorbar] = sp.attr[:legend]
    end
    return
 end
@ -1970,12 +1902,12 @@ function _update_subplot_colors(sp::Subplot)
    # background colors
    color_or_nothing!(sp.attr, :background_color_subplot)
    sp.attr[:color_palette] = get_color_palette(sp.attr[:color_palette], 30)
-    color_or_nothing!(sp.attr, :legend_background_color)
+    color_or_nothing!(sp.attr, :background_color_legend)
    color_or_nothing!(sp.attr, :background_color_inside)

    # foreground colors
    color_or_nothing!(sp.attr, :foreground_color_subplot)
-    color_or_nothing!(sp.attr, :legend_foreground_color)
+    color_or_nothing!(sp.attr, :foreground_color_legend)
    color_or_nothing!(sp.attr, :foreground_color_title)
    return
 end
@ -2065,7 +1997,7 @@ function _update_subplot_args(
 )
    anns = RecipesPipeline.pop_kw!(sp.attr, :annotations)

-    # grab those args which apply to this subplot
+    # # grab those args which apply to this subplot
    for k in keys(_subplot_defaults)
        slice_arg!(plotattributes_in, sp.attr, k, subplot_index, remove_pair)
    end
@ -2086,6 +2018,7 @@ function _update_subplot_args(
            lims_warned = true
        end
    end
+    _update_subplot_colorbars(sp)
 end

 # -----------------------------------------------------------------------------
@ -2262,16 +2195,7 @@ end

 #--------------------------------------------------
 ## inspired by Base.@kwdef
-"""
-    add_attributes(level, expr, match_table)
-
-Takes a `struct` definition and recurses into its fields to create keywords by chaining the field names with the structs' name with underscore.
-Also creates pluralized and non-underscore aliases for these keywords.
- `level` indicates which group of `plot`, `subplot`, `series`, etc. the keywords belong to.
- `expr` is the struct definition with default values like `Base.@kwdef`
- `match_table` is an expression of the form `:match = (symbols)`, with symbols whose default value should be `:match`
-"""
-macro add_attributes(level, expr, match_table)
+macro add_attributes(level, expr)
    expr = macroexpand(__module__, expr) # to expand @static
    expr isa Expr && expr.head === :struct || error("Invalid usage of @add_attributes")
    T = expr.args[2]
@ -2279,18 +2203,16 @@ macro add_attributes(level, expr, match_table)
        T = T.args[1]
    end

-    key_dict = KW()
+    key_args = Any[]
+    value_args = Any[]

-    _splitdef!(expr.args[3], key_dict)
+    _splitdef!(expr.args[3], value_args, key_args)

    insert_block = Expr(:block)
-    for (key, value) in key_dict
+    for (key, value) in zip(key_args, value_args)
        # e.g. _series_defualts[key] = value
        exp_key = Symbol(lowercase(string(T)), "_", key)
        pl_key = makeplural(exp_key)
-        if QuoteNode(exp_key) in match_table.args[2].args
-            value = QuoteNode(:match)
-        end
        push!(
            insert_block.args,
            Expr(
@ -2324,7 +2246,7 @@ macro add_attributes(level, expr, match_table)
    end |> esc
 end

-function _splitdef!(blk, key_dict)
+function _splitdef!(blk, value_args, key_args)
    for i in eachindex(blk.args)
        ei = blk.args[i]
        if ei isa Symbol
@ -2339,25 +2261,20 @@ function _splitdef!(blk, key_dict)
                elseif lhs isa Expr && lhs.head === :(::) && lhs.args[1] isa Symbol
                    #  var::T = defexpr
                    var = lhs.args[1]
-                    type = lhs.args[2]
-                    if @isdefined type
-                        for field in fieldnames(getproperty(Plots, type))
-                            key_dict[Symbol(var, "_", field)] =
-                                :(getfield($(ei.args[2]), $(QuoteNode(field))))
-                        end
-                    end
                else
                    # something else, e.g. inline inner constructor
                    #   F(...) = ...
                    continue
                end
                defexpr = ei.args[2]  # defexpr
-                key_dict[var] = defexpr
+                push!(value_args, defexpr)
+                push!(key_args, var)
                blk.args[i] = lhs
            elseif ei.head === :(::) && ei.args[1] isa Symbol
                # var::Typ
                var = ei.args[1]
-                key_dict[var] = defexpr
+                push!(value_args, var)
+                push!(key_args, var)
            elseif ei.head === :block
                # can arise with use of @static inside type decl
                _kwdef!(ei, value_args, key_args)
--- a/src/axes.jl
+++ b/src/axes.jl
@ -675,17 +675,9 @@ end
 # these methods track the discrete (categorical) values which correspond to axis continuous values (cv)
 # whenever we have discrete values, we automatically set the ticks to match.
 # we return (continuous_value, discrete_index)
-function discrete_value!(plotattributes, letter::Symbol, dv)
-    l = if plotattributes[:permute] !== :none
-        only(filter(!=(letter), plotattributes[:permute]))
-    else
-        letter
-    end
-    discrete_value!(plotattributes[:subplot][get_attr_symbol(l, :axis)], dv)
-end
-
 function discrete_value!(axis::Axis, dv)
    cv_idx = get(axis[:discrete_map], dv, -1)
+    # @show axis[:discrete_map], axis[:discrete_values], dv
    if cv_idx == -1
        ex = axis[:extrema]
        cv = NaNMath.max(0.5, ex.emax + 1.0)
--- a/src/backends.jl
+++ b/src/backends.jl
@ -240,8 +240,6 @@ const _base_supported_args = [
    :discrete_values,
    :projection,
    :show_empty_bins,
-    :z_order,
-    :permute,
 ]

 function merge_with_base_supported(v::AVec)
@ -286,7 +284,7 @@ for s in (:attr, :seriestype, :marker, :style, :scale)
        v = Symbol("_", bend, "_", s)
        @eval begin
            $f(::$bend_type, $s::Symbol) = $s in $v
-            $f2(::$bend_type) = sort(collect($v))
+            $f2(::$bend_type) = $v
        end
    end
 end
@ -302,32 +300,20 @@ function _initialize_backend(pkg::AbstractBackend)
    @eval Main begin
        import $sym
        export $sym
-        $(_check_compat)($sym)
    end
 end

 _initialize_backend(pkg::GRBackend) = nothing

-function _initialize_backend(pkg::PlotlyBackend)
-    try
-        @eval Main begin
-            import PlotlyBase
-        end
-        _check_compat(PlotlyBase)
-    catch
-        @info "For saving to png with the Plotly backend PlotlyBase has to be installed."
-    end
-end
-
 # ------------------------------------------------------------------------------
 # gr

 const _gr_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_grid,
    :foreground_color_axis,
    :foreground_color_text,
@ -349,7 +335,6 @@ const _gr_attr = merge_with_base_supported([
    :fillrange,
    :fillcolor,
    :fillalpha,
-    :fillstyle,
    :bins,
    :layout,
    :title,
@ -365,12 +350,12 @@ const _gr_attr = merge_with_base_supported([
    :titlefontvalign,
    :titlefontrotation,
    :titlefontcolor,
-    :legend_font_family,
-    :legend_font_pointsize,
-    :legend_font_halign,
-    :legend_font_valign,
-    :legend_font_rotation,
-    :legend_font_color,
+    :legendfontfamily,
+    :legendfontsize,
+    :legendfonthalign,
+    :legendfontvalign,
+    :legendfontrotation,
+    :legendfontcolor,
    :tickfontfamily,
    :tickfontsize,
    :tickfonthalign,
@ -387,13 +372,17 @@ const _gr_attr = merge_with_base_supported([
    :gridalpha,
    :gridstyle,
    :gridlinewidth,
-    :legend_position,
-    :legend_title,
+    :legend,
+    :legendtitle,
    :colorbar,
    :colorbar_title,
    :colorbar_entry,
-    :colorbar_scale,
-    :clims,
+    :colorbar_titlefontfamily,
+    :colorbar_titlefontsize,
+    :colorbar_titlefontvalign,
+    :colorbar_titlefonthalign,
+    :colorbar_titlefontrotation,
+    :colorbar_titlefontcolor,
    :fill_z,
    :line_z,
    :marker_z,
@ -413,7 +402,6 @@ const _gr_attr = merge_with_base_supported([
    :tick_direction,
    :camera,
    :contour_labels,
-    :connections,
 ])
 const _gr_seriestype = [
    :path,
@ -438,12 +426,22 @@ is_marker_supported(::GRBackend, shape::Shape) = true
 # ------------------------------------------------------------------------------
 # plotly

+function _initialize_backend(pkg::PlotlyBackend)
+    try
+        @eval Main begin
+            import PlotlyBase
+        end
+    catch
+        @info "For saving to png with the Plotly backend PlotlyBase has to be installed."
+    end
+end
+
 const _plotly_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_guide,
    :foreground_color_grid,
    :foreground_color_axis,
@ -476,9 +474,9 @@ const _plotly_attr = merge_with_base_supported([
    :titlefonthalign,
    :titlefontvalign,
    :titlefontcolor,
-    :legend_font_family,
-    :legend_font_pointsize,
-    :legend_font_color,
+    :legendfontfamily,
+    :legendfontsize,
+    :legendfontcolor,
    :tickfontfamily,
    :tickfontsize,
    :tickfontcolor,
@ -523,7 +521,6 @@ const _plotly_attr = merge_with_base_supported([
    :tick_direction,
    :camera,
    :contour_labels,
-    :connections,
 ])

 const _plotly_seriestype = [
@ -566,10 +563,10 @@ defaultOutputFormat(plt::Plot{Plots.PlotlyBackend}) = "html"

 const _pgfplots_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    # :background_color_outside,
-    # :legend_foreground_color,
+    # :foreground_color_legend,
    :foreground_color_grid,
    :foreground_color_axis,
    :foreground_color_text,
@ -689,11 +686,11 @@ end

 const _pyplot_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
    :foreground_color_grid,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_title,
    :foreground_color_axis,
    :foreground_color_border,
@ -732,9 +729,9 @@ const _pyplot_attr = merge_with_base_supported([
    :titlefontfamily,
    :titlefontsize,
    :titlefontcolor,
-    :legend_font_family,
-    :legend_font_pointsize,
-    :legend_font_color,
+    :legendfontfamily,
+    :legendfontsize,
+    :legendfontcolor,
    :tickfontfamily,
    :tickfontsize,
    :tickfontcolor,
@ -745,8 +742,8 @@ const _pyplot_attr = merge_with_base_supported([
    :gridalpha,
    :gridstyle,
    :gridlinewidth,
-    :legend_position,
-    :legend_title,
+    :legend,
+    :legendtitle,
    :colorbar,
    :colorbar_title,
    :colorbar_entry,
@ -780,7 +777,6 @@ const _pyplot_attr = merge_with_base_supported([
    :tick_direction,
    :camera,
    :contour_labels,
-    :connections,
 ])
 const _pyplot_seriestype = [
    :path,
@ -797,7 +793,6 @@ const _pyplot_seriestype = [
    :contour3d,
    :path3d,
    :scatter3d,
-    :mesh3d,
    :surface,
    :wireframe,
 ]
@ -865,7 +860,6 @@ const _gaston_attr = merge_with_base_supported([
    # :framestyle,
    # :camera,
    # :contour_labels,
-    :connections,
 ])

 const _gaston_seriestype = [
@ -916,87 +910,44 @@ const _gaston_scale = [:identity, :ln, :log2, :log10]
 # unicodeplots

 const _unicodeplots_attr = merge_with_base_supported([
-    :annotations,
-    :bins,
-    :guide,
-    :grid,
    :label,
-    :layout,
    :legend,
-    :lims,
-    :linealpha,
-    :linecolor,
+    :seriescolor,
+    :seriesalpha,
    :linestyle,
    :markershape,
-    :quiver,
-    :arrow,
-    :seriesalpha,
-    :seriescolor,
-    :scale,
-    :flip,
+    :bins,
    :title,
-    # :marker_z,
-    :line_z,
+    :guide,
+    :lims,
 ])
 const _unicodeplots_seriestype = [
    :path,
-    :path3d,
    :scatter,
-    :scatter3d,
    :straightline,
    # :bar,
    :shape,
    :histogram2d,
    :heatmap,
-    :contour,
-    # :contour3d,
-    :permute,
    :spy,
-    :surface,
-    :wireframe,
-    :mesh3d,
 ]
 const _unicodeplots_style = [:auto, :solid]
-const _unicodeplots_marker = [
-    :none,
-    :auto,
-    :pixel,
-    # vvvvvvvvvv shapes
-    :circle,
-    :rect,
-    :star5,
-    :diamond,
-    :hexagon,
-    :cross,
-    :xcross,
-    :utriangle,
-    :dtriangle,
-    :rtriangle,
-    :ltriangle,
-    :pentagon,
-    # :heptagon,
-    # :octagon,
-    :star4,
-    :star6,
-    # :star7,
-    :star8,
-    :vline,
-    :hline,
-    :+,
-    :x,
-]
+const _unicodeplots_marker = [:none, :auto, :circle]
 const _unicodeplots_scale = [:identity, :ln, :log2, :log10]

+# Additional constants
+const _canvas_type = Ref(:auto)
+
 # ------------------------------------------------------------------------------
 # hdf5

 const _hdf5_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
    :foreground_color_grid,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_title,
    :foreground_color_axis,
    :foreground_color_border,
@ -1094,11 +1045,11 @@ const HDF5PLOT_PLOTREF = HDF5Plot_PlotRef(nothing)

 const _inspectdr_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
    # :foreground_color_grid,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_title,
    :foreground_color_axis,
    :foreground_color_border,
@ -1131,9 +1082,9 @@ const _inspectdr_attr = merge_with_base_supported([
    :titlefontfamily,
    :titlefontsize,
    :titlefontcolor,
-    :legend_font_family,
-    :legend_font_pointsize,
-    :legend_font_color,
+    :legendfontfamily,
+    :legendfontsize,
+    :legendfontcolor,
    :tickfontfamily,
    :tickfontsize,
    :tickfontcolor,
@ -1141,7 +1092,7 @@ const _inspectdr_attr = merge_with_base_supported([
    :guidefontsize,
    :guidefontcolor,
    :grid,
-    :legend_position, #:colorbar,
+    :legend, #:colorbar,
    #    :marker_z,
    #    :line_z,
    #    :levels,
@ -1197,10 +1148,10 @@ const _inspectdr_scale = [:identity, :ln, :log2, :log10]

 const _pgfplotsx_attr = merge_with_base_supported([
    :annotations,
-    :legend_background_color,
+    :background_color_legend,
    :background_color_inside,
    :background_color_outside,
-    :legend_foreground_color,
+    :foreground_color_legend,
    :foreground_color_grid,
    :foreground_color_axis,
    :foreground_color_text,
@ -1237,12 +1188,12 @@ const _pgfplotsx_attr = merge_with_base_supported([
    :titlefontvalign,
    :titlefontrotation,
    :titlefontcolor,
-    :legend_font_family,
-    :legend_font_pointsize,
-    :legend_font_halign,
-    :legend_font_valign,
-    :legend_font_rotation,
-    :legend_font_color,
+    :legendfontfamily,
+    :legendfontsize,
+    :legendfonthalign,
+    :legendfontvalign,
+    :legendfontrotation,
+    :legendfontcolor,
    :tickfontfamily,
    :tickfontsize,
    :tickfonthalign,
@ -1259,8 +1210,8 @@ const _pgfplotsx_attr = merge_with_base_supported([
    :gridalpha,
    :gridstyle,
    :gridlinewidth,
-    :legend_position,
-    :legend_title,
+    :legend,
+    :legendtitle,
    :colorbar,
    :colorbar_title,
    :colorbar_entry,
@ -1283,7 +1234,6 @@ const _pgfplotsx_attr = merge_with_base_supported([
    :tick_direction,
    :camera,
    :contour_labels,
-    :connections,
 ])
 const _pgfplotsx_seriestype = [
    :path,
@ -1323,6 +1273,7 @@ const _pgfplotsx_marker = [
    :pentagon,
    :hline,
    :vline,
+    Shape,
 ]
 const _pgfplotsx_scale = [:identity, :ln, :log2, :log10]
 is_marker_supported(::PGFPlotsXBackend, shape::Shape) = true
--- a/src/backends/deprecated/pgfplots.jl
+++ b/src/backends/deprecated/pgfplots.jl
@ -3,7 +3,7 @@
 # significant contributions by: @pkofod

 # --------------------------------------------------------------------------------------
-# COV_EXCL_START
+
 const _pgfplots_linestyles = KW(
    :solid => "solid",
    :dash => "dashed",
@ -227,7 +227,7 @@ function pgf_series(sp::Subplot, series::Series)
            end

            # add to legend?
-            if i == 1 && sp[:legend_position] != :none && should_add_to_legend(series)
+            if i == 1 && sp[:legend] != :none && should_add_to_legend(series)
                if plotattributes[:fillrange] !== nothing
                    push!(style, "forget plot")
                    push!(series_collection, pgf_fill_legend_hack(plotattributes, args))
@ -590,12 +590,12 @@ function _update_plot_object(plt::Plot{PGFPlotsBackend})
            kw[:axisEqual] = "true"
        end

-        legpos = sp[:legend_position]
+        legpos = sp[:legend]
        if haskey(_pgfplots_legend_pos, legpos)
            kw[:legendPos] = _pgfplots_legend_pos[legpos]
        end
-        cstr, bg_alpha = pgf_color(plot_color(sp[:legend_background_color]))
-        fg_alpha = alpha(plot_color(sp[:legend_foreground_color]))
+        cstr, bg_alpha = pgf_color(plot_color(sp[:background_color_legend]))
+        fg_alpha = alpha(plot_color(sp[:foreground_color_legend]))

        push!(
            style,
@ -603,16 +603,16 @@ function _update_plot_object(plt::Plot{PGFPlotsBackend})
                "legend style = {",
                pgf_linestyle(
                    pgf_thickness_scaling(sp),
-                    sp[:legend_foreground_color],
+                    sp[:foreground_color_legend],
                    fg_alpha,
                    "solid",
                ),
                ",",
                "fill = $cstr,",
                "fill opacity = $bg_alpha,",
-                "text opacity = $(alpha(plot_color(sp[:legend_font_color]))),",
+                "text opacity = $(alpha(plot_color(sp[:legendfontcolor]))),",
                "font = ",
-                pgf_font(sp[:legend_font_pointsize], pgf_thickness_scaling(sp)),
+                pgf_font(sp[:legendfontsize], pgf_thickness_scaling(sp)),
                "}",
            ),
        )
@ -740,5 +740,3 @@ function _display(plt::Plot{PGFPlotsBackend})
    # cleanup
    PGFPlots.cleanup(plt.o)
 end
-
-# COV_EXCL_STOP
--- a/src/backends/gaston.jl
+++ b/src/backends/gaston.jl
@ -1,6 +1,8 @@
 # https://github.com/mbaz/Gaston.

-should_warn_on_unsupported(::GastonBackend) = false
+# --------------------------------------------
+# These functions are called by Plots
+# --------------------------------------------

 # Create the window/figure for this backend.
 function _create_backend_figure(plt::Plot{GastonBackend})
@ -110,7 +112,7 @@ function gaston_saveopts(plt::Plot{GastonBackend})

    # Scale all plot elements to match Plots.jl DPI standard
    scaling = plt.attr[:dpi] / Plots.DPI
-    push!(saveopts, "fontscale $scaling lw $scaling dl $scaling")  #  ps $scaling
+    push!(saveopts, "fontscale $scaling lw $scaling dl $scaling ps $scaling")

    return join(saveopts, " ")
 end
@ -244,9 +246,10 @@ function gaston_add_series(plt::Plot{GastonBackend}, series::Series)
                if (lx = length(x)) == 2 && lx != nc
                    x = collect(range(x[1], x[2], length = nc))
                end
+            elseif st == :heatmap
+                length(x) == size(z, 2) + 1 && (x = @view x[1:(end - 1)])
+                length(y) == size(z, 1) + 1 && (y = @view y[1:(end - 1)])
            end
-            length(x) == size(z, 2) + 1 && (x = (x[1:(end - 1)] + x[2:end]) / 2)
-            length(y) == size(z, 1) + 1 && (y = (y[1:(end - 1)] + y[2:end]) / 2)
        end
        if st == :mesh3d
            x, y, z = mesh3d_triangles(x, y, z, series[:connections])
@ -502,8 +505,8 @@ function gaston_set_ticks!(axesconf, ticks, letter, maj_min, add)
 end

 function gaston_set_legend!(axesconf, sp, any_label)
-    leg = sp[:legend_position]
-    if sp[:legend_position] ∉ (:none, :inline) && any_label
+    leg = sp[:legend]
+    if sp[:legend] ∉ (:none, :inline) && any_label
        leg == :best && (leg = :topright)

        push!(
@ -514,9 +517,9 @@ function gaston_set_legend!(axesconf, sp, any_label)
            occursin(position, string(leg)) && push!(axesconf, "set key $position")
        end
        push!(axesconf, "set key $(gaston_font(legendfont(sp), rot=false, align=false))")
-        if sp[:legend_title] !== nothing
+        if sp[:legendtitle] !== nothing
            # NOTE: cannot use legendtitlefont(sp) as it will override legendfont
-            push!(axesconf, "set key title '$(sp[:legend_title])'")
+            push!(axesconf, "set key title '$(sp[:legendtitle])'")
        end
        push!(axesconf, "set key box lw 1 opaque")
        push!(axesconf, "set border back")
--- a/src/backends/gr.jl
+++ b/src/backends/gr.jl
@ -104,9 +104,6 @@ function gr_color(c, ::Type{<:AbstractGray})
 end
 gr_color(c, ::Type) = gr_color(RGBA(c), RGB)

-set_RGBA_alpha(alpha, c::RGBA) = RGBA(red(c), green(c), blue(c), alpha)
-set_RGBA_alpha(alpha::Nothing, c::RGBA) = c
-
 function gr_getcolorind(c)
    gr_set_transparency(float(alpha(c)))
    convert(Int, GR.inqcolorfromrgb(red(c), green(c), blue(c)))
@ -228,8 +225,9 @@ end
 gr_inqtext(x, y, s) = gr_inqtext(x, y, string(s))

 function gr_inqtext(x, y, s::AbstractString)
-    if (occursin('\\', s) || occursin("10^{", s)) &&
-       match(r".*\$[^\$]+?\$.*", String(s)) == nothing
+    if length(s) >= 2 && s[1] == '$' && s[end] == '$'
+        GR.inqmathtex(x, y, s[2:(end - 1)])
+    elseif occursin('\\', s) || occursin("10^{", s)
        GR.inqtextext(x, y, s)
    else
        GR.inqtext(x, y, s)
@ -239,8 +237,9 @@ end
 gr_text(x, y, s) = gr_text(x, y, string(s))

 function gr_text(x, y, s::AbstractString)
-    if (occursin('\\', s) || occursin("10^{", s)) &&
-       match(r".*\$[^\$]+?\$.*", String(s)) == nothing
+    if length(s) >= 2 && s[1] == '$' && s[end] == '$'
+        GR.mathtex(x, y, s[2:(end - 1)])
+    elseif occursin('\\', s) || occursin("10^{", s)
        GR.textext(x, y, s)
    else
        GR.text(x, y, s)
@ -413,7 +412,7 @@ function gr_set_font(
            gr_font_family[family] >= 200 ? 3 : GR.TEXT_PRECISION_STRING,
        )
    end
-    gr_set_textcolor(plot_color(color))
+    gr_set_textcolor(color)
    GR.settextalign(gr_halign(halign), gr_valign(valign))
 end

@ -571,9 +570,6 @@ function gr_draw_colorbar(cbar::GRColorbar, sp::Subplot, clims, viewport_plotare

    ztick = 0.5 * GR.tick(zmin, zmax)
    gr_set_line(1, :solid, plot_color(:black), sp)
-    if sp[:colorbar_scale] == :log10
-        GR.setscale(2)
-    end
    GR.axes(0, ztick, xmax, zmin, 0, 1, 0.005)

    title = if isa(sp[:colorbar_title], PlotText)
@ -675,19 +671,31 @@ end

 function gr_set_tickfont(sp, letter)
    axis = sp[get_attr_symbol(letter, :axis)]
+
+    # invalidate alignment changes for small rotations (|θ| < 45°)
+    trigger(rot) = abs(sind(rot)) < abs(cosd(rot)) ? 0 : sign(rot)
+
+    rot = axis[:rotation]
+    if letter === :x || (RecipesPipeline.is3d(sp) && letter === :y)
+        halign = (:left, :hcenter, :right)[trigger(rot) + 2]
+        valign = (axis[:mirror] ? :bottom : :top, :vcenter)[trigger(abs(rot)) + 1]
+    else
+        halign = (axis[:mirror] ? :left : :right, :hcenter)[trigger(abs(rot)) + 1]
+        valign = (:top, :vcenter, :bottom)[trigger(rot) + 2]
+    end
    gr_set_font(
        tickfont(axis),
        sp,
+        halign = halign,
+        valign = valign,
        rotation = axis[:rotation],
        color = axis[:tickfontcolor],
    )
 end

-# size of the text with no rotation
 function gr_text_size(str)
    GR.savestate()
    GR.selntran(0)
-    GR.setcharup(0, 1)
    xs, ys = gr_inqtext(0, 0, string(str))
    l, r = extrema(xs)
    b, t = extrema(ys)
@ -697,11 +705,9 @@ function gr_text_size(str)
    return w, h
 end

-# size of the text with rotation applied
 function gr_text_size(str, rot)
    GR.savestate()
    GR.selntran(0)
-    GR.setcharup(0, 1)
    xs, ys = gr_inqtext(0, 0, string(str))
    l, r = extrema(xs)
    b, t = extrema(ys)
@ -714,21 +720,12 @@ end
 text_box_width(w, h, rot) = abs(cosd(rot)) * w + abs(cosd(rot + 90)) * h
 text_box_height(w, h, rot) = abs(sind(rot)) * w + abs(sind(rot + 90)) * h

-function gr_get_3d_axis_angle(cvs, nt, ft, letter)
-    length(cvs) < 2 && return 0
-    tickpoints = [gr_w3tondc(sort_3d_axes(cv, nt, ft, letter)...) for cv in cvs]
-
-    dx = tickpoints[2][1] - tickpoints[1][1]
-    dy = tickpoints[2][2] - tickpoints[1][2]
-    return atand(dy, dx)
-end
-
 function gr_get_ticks_size(ticks, rot)
    w, h = 0.0, 0.0
    for (cv, dv) in zip(ticks...)
        wi, hi = gr_text_size(dv, rot)
-        w = NaNMath.max(w, wi)
-        h = NaNMath.max(h, hi)
+        w = max(w, wi)
+        h = max(h, hi)
    end
    return w, h
 end
@ -954,9 +951,6 @@ function get_z_normalized(z, clims...)
 end

 function gr_clims(args...)
-    if args[1][:clims] != :auto
-        return get_clims(args[1])
-    end
    lo, hi = get_clims(args...)
    if lo == hi
        if lo == 0
@ -1028,7 +1022,7 @@ end
 ## Legend

 function gr_add_legend(sp, leg, viewport_plotarea)
-    if !(sp[:legend_position] in (:none, :inline))
+    if sp[:legend] ∉ (:none, :inline)
        GR.savestate()
        GR.selntran(0)
        GR.setscale(0)
@ -1036,14 +1030,14 @@ function gr_add_legend(sp, leg, viewport_plotarea)
        if leg.w > 0
            xpos, ypos = gr_legend_pos(sp, leg, viewport_plotarea)
            GR.setfillintstyle(GR.INTSTYLE_SOLID)
-            gr_set_fillcolor(sp[:legend_background_color])
+            gr_set_fillcolor(sp[:background_color_legend])
            GR.fillrect(
                xpos - leg.leftw,
                xpos + leg.textw + leg.rightw,
                ypos + leg.dy,
                ypos - leg.h,
            ) # Allocating white space for actual legend width here
-            gr_set_line(1, :solid, sp[:legend_foreground_color], sp)
+            gr_set_line(1, :solid, sp[:foreground_color_legend], sp)
            GR.drawrect(
                xpos - leg.leftw,
                xpos + leg.textw + leg.rightw,
@ -1051,10 +1045,10 @@ function gr_add_legend(sp, leg, viewport_plotarea)
                ypos - leg.h,
            ) # Drawing actual legend width here
            i = 0
-            if sp[:legend_title] !== nothing
+            if sp[:legendtitle] !== nothing
                GR.settextalign(GR.TEXT_HALIGN_CENTER, GR.TEXT_VALIGN_HALF)
                gr_set_font(legendtitlefont(sp), sp)
-                gr_text(xpos - 0.03 + 0.5 * leg.w, ypos, string(sp[:legend_title]))
+                gr_text(xpos - 0.03 + 0.5 * leg.w, ypos, string(sp[:legendtitle]))
                ypos -= leg.dy
                gr_set_font(legendfont(sp), sp)
            end
@ -1063,7 +1057,7 @@ function gr_add_legend(sp, leg, viewport_plotarea)
                should_add_to_legend(series) || continue
                st = series[:seriestype]
                lc = get_linecolor(series, clims)
-                gr_set_line(sp[:legend_font_pointsize] / 8, get_linestyle(series), lc, sp)
+                gr_set_line(sp[:legendfontsize] / 8, get_linestyle(series), lc, sp)

                if (
                    (st == :shape || series[:fillrange] !== nothing) &&
@ -1104,17 +1098,16 @@ function gr_add_legend(sp, leg, viewport_plotarea)
                    ms = first(series[:markersize])
                    msw = first(series[:markerstrokewidth])
                    s, sw = if ms > 0
-                        0.8 * sp[:legend_font_pointsize],
-                        0.8 * sp[:legend_font_pointsize] * msw / ms
+                        0.8 * sp[:legendfontsize], 0.8 * sp[:legendfontsize] * msw / ms
                    else
-                        0, 0.8 * sp[:legend_font_pointsize] * msw / 8
+                        0, 0.8 * sp[:legendfontsize] * msw / 8
                    end
                    gr_draw_markers(series, xpos - leg.width_factor * 2, ypos, clims, s, sw)
                end

                lab = series[:label]
                GR.settextalign(GR.TEXT_HALIGN_LEFT, GR.TEXT_VALIGN_HALF)
-                gr_set_textcolor(plot_color(sp[:legend_font_color]))
+                gr_set_textcolor(plot_color(sp[:legendfontcolor]))
                gr_text(xpos, ypos, string(lab))
                ypos -= leg.dy
            end
@ -1125,7 +1118,7 @@ function gr_add_legend(sp, leg, viewport_plotarea)
 end

 function gr_legend_pos(sp::Subplot, leg, viewport_plotarea)
-    s = sp[:legend_position]
+    s = sp[:legend]
    s isa Real && return gr_legend_pos(s, leg, viewport_plotarea)
    if s isa Tuple{<:Real,Symbol}
        if s[2] !== :outer
@ -1242,29 +1235,24 @@ end

 function gr_get_legend_geometry(viewport_plotarea, sp)
    legendn = legendw = dy = 0
-    if sp[:legend_position] != :none
+    if sp[:legend] != :none
        GR.savestate()
        GR.selntran(0)
-        GR.setcharup(0, 1)
        GR.setscale(0)
-        if sp[:legend_title] !== nothing
+        if sp[:legendtitle] !== nothing
            gr_set_font(legendtitlefont(sp), sp)
            legendn += 1
-            tbx, tby = gr_inqtext(0, 0, string(sp[:legend_title]))
-            l, r = extrema(tbx)
-            b, t = extrema(tby)
-            legendw = r - l
-            dy = t - b
+            tbx, tby = gr_inqtext(0, 0, string(sp[:legendtitle]))
+            legendw = tbx[3] - tbx[1]
+            dy = tby[3] - tby[1]
        end
        gr_set_font(legendfont(sp), sp)
        for series in series_list(sp)
            should_add_to_legend(series) || continue
            legendn += 1
            tbx, tby = gr_inqtext(0, 0, string(series[:label]))
-            l, r = extrema(tbx)
-            b, t = extrema(tby)
-            legendw = max(legendw, r - l) # Holds text width right now
-            dy = max(dy, t - b)
+            legendw = max(legendw, tbx[3] - tbx[1]) # Holds text width right now
+            dy = max(dy, tby[3] - tby[1])
        end

        GR.setscale(1)
@ -1282,6 +1270,7 @@ function gr_get_legend_geometry(viewport_plotarea, sp)
    y_legend_offset = (viewport_plotarea[4] - viewport_plotarea[3]) / 30

    dy *= get(sp[:extra_kwargs], :legend_hfactor, 1)
+
    legendh = dy * legendn

    return (
@ -1300,7 +1289,7 @@ end
 ## Viewport, window and scale

 function gr_update_viewport_legend!(viewport_plotarea, sp, leg)
-    s = sp[:legend_position]
+    s = sp[:legend]

    xaxis, yaxis = sp[:xaxis], sp[:yaxis]
    xmirror =
@ -1349,7 +1338,7 @@ function gr_update_viewport_legend!(viewport_plotarea, sp, leg)
                leg.h + leg.dy + leg.yoffset + !xmirror * gr_axis_height(sp, sp[:xaxis])
        end
    end
-    if s == :inline
+    if s === :inline
        if sp[:yaxis][:mirror]
            viewport_plotarea[1] += leg.w
        else
@ -1571,35 +1560,13 @@ function gr_label_ticks(sp, letter, ticks)
    oamin, oamax = axis_limits(sp, oletter)
    gr_set_tickfont(sp, letter)
    out_factor = ifelse(axis[:tick_direction] === :out, 1.5, 1)
-    x_base_offset = isy ? -1.5e-2 * out_factor : 0
-    y_base_offset = isy ? 0 : -8e-3 * out_factor
+    x_offset = isy ? -1.5e-2 * out_factor : 0
+    y_offset = isy ? 0 : -8e-3 * out_factor

-    rot = axis[:rotation] % 360
    ov = sp[:framestyle] == :origin ? 0 : xor(oaxis[:flip], axis[:mirror]) ? oamax : oamin
    sgn = axis[:mirror] ? -1 : 1
-    sgn2 = iseven(Int(floor(rot / 90))) ? -1 : 1
-    sgn3 = if isy
-        -360 < rot < -180 || 0 < rot < 180 ? 1 : -1
-    else
-        rot < -270 || -90 < rot < 90 || rot > 270 ? 1 : -1
-    end
    for (cv, dv) in zip(ticks...)
        x, y = GR.wctondc(reverse_if((cv, ov), isy)...)
-        sz_rot = gr_text_size(dv, rot)
-        sz = gr_text_size(dv)
-        x_offset = x_base_offset
-        y_offset = y_base_offset
-        if isy
-            x_offset += -first(sz_rot) / 2
-            if rot % 90 != 0
-                y_offset += sgn2 * last(sz_rot) / 2 + sgn3 * last(sz) * cosd(rot) / 2
-            end
-        else
-            if rot % 90 != 0
-                x_offset += sgn2 * first(sz_rot) / 2 + sgn3 * last(sz) * sind(rot) / 2
-            end
-            y_offset += -last(sz_rot) / 2
-        end
        gr_text(x + sgn * x_offset, y + sgn * y_offset, dv)
    end
 end
@ -1610,9 +1577,6 @@ function gr_label_ticks_3d(sp, letter, ticks)
    near_letter = letter in (:x, :z) ? :y : :x
    far_letter = letter in (:x, :y) ? :z : :x

-    isy = letter === :y
-    isz = letter === :z
-
    ax = sp[get_attr_symbol(letter, :axis)]
    nax = sp[get_attr_symbol(near_letter, :axis)]
    fax = sp[get_attr_symbol(far_letter, :axis)]
@ -1620,7 +1584,7 @@ function gr_label_ticks_3d(sp, letter, ticks)
    amin, amax = axis_limits(sp, letter)
    namin, namax = axis_limits(sp, near_letter)
    famin, famax = axis_limits(sp, far_letter)
-    n0, n1 = isy ? (namax, namin) : (namin, namax)
+    n0, n1 = letter === :y ? (namax, namin) : (namin, namax)

    # find out which axes we are dealing with
    i = findfirst(==(letter), (:x, :y, :z))
@ -1637,57 +1601,27 @@ function gr_label_ticks_3d(sp, letter, ticks)
    nt = sp[:framestyle] == :origin ? 0 : ax[:mirror] ? n1 : n0
    ft = sp[:framestyle] == :origin ? 0 : ax[:mirror] ? famax : famin

-    rot = mod(ax[:rotation], 360)
-    sgn = ax[:mirror] ? -1 : 1
+    xoffset = if letter === :x
+        (sp[:yaxis][:mirror] ? 1 : -1) * 1e-2 * (sp[:xaxis][:tick_direction] == :out ? 1.5 : 1)
+    elseif letter === :y
+        (sp[:yaxis][:mirror] ? -1 : 1) * 1e-2 * (sp[:yaxis][:tick_direction] == :out ? 1.5 : 1)
+    else
+        (sp[:zaxis][:mirror] ? 1 : -1) * 1e-2 * (sp[:zaxis][:tick_direction] == :out ? 1.5 : 1)
+    end
+    yoffset = if letter === :x
+        (sp[:xaxis][:mirror] ? 1 : -1) * 1e-2 * (sp[:xaxis][:tick_direction] == :out ? 1.5 : 1)
+    elseif letter === :y
+        (sp[:yaxis][:mirror] ? 1 : -1) * 1e-2 * (sp[:yaxis][:tick_direction] == :out ? 1.5 : 1)
+    else
+        0
+    end

    cvs, dvs = ticks
    ax[:flip] && reverse!(cvs)

-    axisθ = isz ? 270 : mod(gr_get_3d_axis_angle(cvs, nt, ft, letter), 360) # issue: doesn't work with 1 tick
-    axisϕ = mod(axisθ - 90, 360)
-
-    out_factor = ifelse(ax[:tick_direction] === :out, 1.5, 1)
-    axisoffset = out_factor * 1.2e-2
-    x_base_offset = axisoffset * cosd(axisϕ)
-    y_base_offset = axisoffset * sind(axisϕ)
-
-    sgn2a = sgn2b = sgn3 = 0
-    if axisθ != 0 || rot % 90 != 0
-        sgn2a =
-            (axisθ != 90) && (axisθ == 0 && (rot < 90 || 180 ≤ rot < 270)) ||
-            (axisθ == 270) ||
-            (axisθ < 90 && (axisθ < rot < 90 || axisθ + 180 < rot < 270)) ||
-            (axisθ > 270 && (rot < 90 || axisθ - 180 < rot < 270 || rot > axisθ)) ? -1 : 1
-    end
-
-    if (axisθ - 90) % 180 != 0 || (rot - 90) % 180 != 0
-        sgn2b =
-            axisθ == 0 ||
-            (axisθ == 90 && (90 ≤ rot < 180 || 270 ≤ rot < 360)) ||
-            (axisθ == 270 && (rot < 90 || 180 ≤ rot < 270)) ||
-            (axisθ < 90 && (axisθ < rot < 180 || axisθ + 180 < rot)) ||
-            (axisθ > 270 && (rot < axisθ - 180 || 180 ≤ rot < axisθ)) ? -1 : 1
-    end
-
-    if !(axisθ == 0 && rot % 180 == 0) && ((rot - 90) % 180 != 0)
-        sgn3 =
-            (axisθ == 0 && 90 < rot < 270) ||
-            (axisθ == 90 && rot < 180) ||
-            (axisθ == 270 && rot > 180) ||
-            (axisθ < 90 && (rot < axisθ || 90 ≤ rot < 180 || axisθ + 180 < rot < 270)) ||
-            (axisθ > 270 && (90 ≤ rot < axisθ - 180 || 180 ≤ rot < 270 || rot > axisθ)) ?
-            -1 : 1
-    end
-
    for (cv, dv) in zip((cvs, dvs)...)
        xi, yi = gr_w3tondc(sort_3d_axes(cv, nt, ft, letter)...)
-        sz_rot = gr_text_size(dv, rot)
-        sz = gr_text_size(dv)
-        x_offset =
-            x_base_offset + sgn2a * first(sz_rot) / 2 + sgn3 * last(sz) * sind(rot) / 2
-        y_offset =
-            y_base_offset + sgn2b * last(sz_rot) / 2 + sgn3 * last(sz) * cosd(rot) / 2
-        gr_text(xi + sgn * x_offset, yi + sgn * y_offset, dv)
+        gr_text(xi + xoffset, yi + yoffset, dv)
    end
 end

@ -1850,7 +1784,7 @@ function gr_add_series(sp, series)
    elseif st in (:surface, :wireframe, :mesh3d)
        gr_draw_surface(series, x, y, z, clims)
    elseif st === :volume
-        sp[:legend_position] = :none
+        sp[:legend] = :none
        GR.gr3.clear()
        dmin, dmax = GR.gr3.volume(y.v, 0)
    elseif st === :heatmap
@ -1868,9 +1802,9 @@ function gr_add_series(sp, series)
        gr_text(GR.wctondc(xi, yi)..., str)
    end

-    if sp[:legend_position] == :inline && should_add_to_legend(series)
+    if sp[:legend] == :inline && should_add_to_legend(series)
        gr_set_font(legendfont(sp), sp)
-        gr_set_textcolor(plot_color(sp[:legend_font_color]))
+        gr_set_textcolor(plot_color(sp[:legendfontcolor]))
        if sp[:yaxis][:mirror]
            (_, i) = sp[:xaxis][:flip] ? findmax(x) : findmin(x)
            GR.settextalign(GR.TEXT_HALIGN_RIGHT, GR.TEXT_VALIGN_HALF)
@ -2047,42 +1981,14 @@ function gr_draw_surface(series, x, y, z, clims)
        GR.setfillcolorind(0)
        GR.surface(x, y, z, get(e_kwargs, :display_option, GR.OPTION_FILLED_MESH))
    elseif st === :mesh3d
-        if series[:connections] isa AbstractVector{<:AbstractVector{Int}}
-            # Combination of any polygon types
-            cns = [[length(polyinds), polyinds...] for polyinds in series[:connections]]
-        elseif series[:connections] isa AbstractVector{NTuple{N,Int}} where {N}
-            # Only N-gons - connections have to be 1-based (indexing)
-            N = length(series[:connections][1])
-            cns = [[N, polyinds...] for polyinds in series[:connections]]
-        elseif series[:connections] isa NTuple{3,<:AbstractVector{Int}}
-            # Only triangles - connections have to be 0-based (indexing)
-            ci, cj, ck = series[:connections]
-            if !(length(ci) == length(cj) == length(ck))
-                throw(
-                    ArgumentError(
-                        "Argument connections must consist of equally sized arrays.",
-                    ),
-                )
-            end
-            cns = [([3, ci[i] + 1, cj[i] + 1, ck[i] + 1]) for i in eachindex(ci)]
-        else
-            throw(
-                ArgumentError(
-                    "Unsupported `:connections` type $(typeof(series[:connections])) for seriestype=$st",
-                ),
-            )
-        end
-        fillalpha = get_fillalpha(series)
-        n_polygons = length(cns)
-        facecolor = if series[:fillcolor] isa AbstractArray
-            series[:fillcolor]
-        else
-            fill(series[:fillcolor], n_polygons)
-        end
-        facecolor = map(fc -> set_RGBA_alpha(fillalpha, fc), facecolor)
-        GR.setborderwidth(get_linewidth(series))
-        GR.setbordercolorind(gr_getcolorind(get_linecolor(series)))
-        GR.polygonmesh3d(x, y, z, vcat(cns...), signed.(gr_color.(facecolor)))
+        @warn "GR: mesh3d is experimental (no face colors)"
+        gr_set_line(
+            get_linewidth(series),
+            get_linestyle(series),
+            get_linecolor(series),
+            series,
+        )
+        GR.polyline3d(mesh3d_triangles(x, y, z, series[:connections])...)
    else
        throw(ArgumentError("Not handled !"))
    end
@ -2098,38 +2004,15 @@ function gr_draw_heatmap(series, x, y, z, clims)
        # pdf output, and also supports alpha values.
        # Note that drawimage draws uniformly spaced data correctly
        # even on log scales, where it is visually non-uniform.
-        colors, _z = if series[:subplot][:colorbar_scale] == :identity
-            plot_color.(get(fillgrad, z, clims), series[:fillalpha]), z
-        elseif series[:subplot][:colorbar_scale] == :log10
-            z_log = replace(x -> isinf(x) ? NaN : x, log10.(z))
-            z_normalized = get_z_normalized.(z_log, log10.(clims)...)
-            plot_color.(map(z -> get(fillgrad, z), z_normalized), series[:fillalpha]), z_log
-        end
-        for i in eachindex(colors)
-            if isnan(_z[i])
-                colors[i] = set_RGBA_alpha(0, colors[i])
-            end
-        end
+        colors = plot_color.(get(fillgrad, z, clims), series[:fillalpha])
        rgba = gr_color.(colors)
        GR.drawimage(first(x), last(x), last(y), first(y), w, h, rgba)
    else
        if something(series[:fillalpha], 1) < 1
            @warn "GR: transparency not supported in non-uniform heatmaps. Alpha values ignored."
        end
-        z_normalized, _z = if series[:subplot][:colorbar_scale] == :identity
-            get_z_normalized.(z, clims...), z
-        elseif series[:subplot][:colorbar_scale] == :log10
-            z_log = replace(x -> isinf(x) ? NaN : x, log10.(z))
-            get_z_normalized.(z_log, log10.(clims)...), z_log
-        end
+        z_normalized = get_z_normalized.(z, clims...)
        rgba = Int32[round(Int32, 1000 + _i * 255) for _i in z_normalized]
-        background_color_ind =
-            gr_getcolorind(plot_color(series[:subplot][:background_color_inside]))
-        for i in eachindex(rgba)
-            if isnan(_z[i])
-                rgba[i] = background_color_ind
-            end
-        end
        if !ispolar(series)
            GR.nonuniformcellarray(x, y, w, h, rgba)
        else
--- a/src/backends/inspectdr.jl
+++ b/src/backends/inspectdr.jl
@ -13,7 +13,7 @@ Add in functionality to Plots.jl:
    :aspect_ratio,
 =#

-should_warn_on_unsupported(::InspectDRBackend) = false
+# ---------------------------------------------------------------------------

 is_marker_supported(::InspectDRBackend, shape::Shape) = true

@ -70,7 +70,7 @@ function _inspectdr_add_annotations(plot, x, y, val::PlotText)
        color = _inspectdr_mapcolor(val.font.color),
    )
    ann = InspectDR.atext(
-        texmath2unicode(val.str),
+        val.str,
        x = x,
        y = y,
        font = fnt,
@ -384,9 +384,9 @@ function _inspectdr_setupsubplot(sp::Subplot{InspectDRBackend})
    _inspectdr_setticks(sp, plot, strip, xaxis, yaxis)

    a = plot.annotation
-    a.title = texmath2unicode(sp[:title])
-    a.xlabel = texmath2unicode(xaxis[:guide])
-    a.ylabels = [texmath2unicode(yaxis[:guide])]
+    a.title = sp[:title]
+    a.xlabel = xaxis[:guide]
+    a.ylabels = [yaxis[:guide]]

    #Modify base layout of new object:
    l = plot.layout.defaults = deepcopy(InspectDR.defaults.plotlayout)
@ -411,14 +411,15 @@ function _inspectdr_setupsubplot(sp::Subplot{InspectDRBackend})
        _inspectdr_mapptsize(xaxis[:tickfontsize]),
        color = _inspectdr_mapcolor(xaxis[:tickfontcolor]),
    )
-    l.enable_legend = (sp[:legend_position] != :none)
+    l.enable_legend = (sp[:legend] != :none)
    #l.halloc_legend = 150 #TODO: compute???
    l.font_legend = InspectDR.Font(
-        sp[:legend_font_family],
-        _inspectdr_mapptsize(sp[:legend_font_pointsize]),
-        color = _inspectdr_mapcolor(sp[:legend_font_color]),
+        sp[:legendfontfamily],
+        _inspectdr_mapptsize(sp[:legendfontsize]),
+        color = _inspectdr_mapcolor(sp[:legendfontcolor]),
    )
-    l.frame_legend.fillcolor = _inspectdr_mapcolor(sp[:legend_background_color])
+    l.frame_legend.fillcolor = _inspectdr_mapcolor(sp[:background_color_legend])
+
    #_round!() ensures values use integer spacings (looks better on screen):
    InspectDR._round!(InspectDR.autofit2font!(l, legend_width = 10.0)) #10 "em"s wide
    return
--- a/src/backends/pgfplotsx.jl
+++ b/src/backends/pgfplotsx.jl
@ -141,12 +141,9 @@ function (pgfx_plot::PGFPlotsXPlot)(plt::Plot{PGFPlotsXBackend})
            title_loc = sp[:titlelocation]
            bgc_inside = plot_color(sp[:background_color_inside])
            bgc_inside_a = alpha(bgc_inside)
-            update_clims(sp)
            axis_opt = PGFPlotsX.Options(
                "point meta max" => get_clims(sp)[2],
                "point meta min" => get_clims(sp)[1],
-                "legend cell align" => "left",
-                "legend columns" => pgfx_legend_col(sp[:legend_column]),
                "title" => sp[:title],
                "title style" => PGFPlotsX.Options(
                    pgfx_get_title_pos(title_loc)...,
@ -206,8 +203,8 @@ function (pgfx_plot::PGFPlotsXPlot)(plt::Plot{PGFPlotsXBackend})

            if hascolorbar(sp)
                cticks = get_colorbar_ticks(sp)[2]
+                colorbar_style = PGFPlotsX.Options("title" => sp[:colorbar_title])
                if sp[:colorbar] === :top
-                    colorbar_style = PGFPlotsX.Options("xlabel" => sp[:colorbar_title])
                    push!(
                        colorbar_style,
                        "at" => string((0.5, 1.05)),
@ -217,7 +214,6 @@ function (pgfx_plot::PGFPlotsXPlot)(plt::Plot{PGFPlotsXBackend})
                        "xticklabel style" => pgfx_get_colorbar_ticklabel_style(sp),
                    )
                else
-                    colorbar_style = PGFPlotsX.Options("ylabel" => sp[:colorbar_title])
                    push!(
                        colorbar_style,
                        "ytick" => string("{", join(cticks, ","), "}"),
@ -249,18 +245,12 @@ function (pgfx_plot::PGFPlotsXPlot)(plt::Plot{PGFPlotsXBackend})
                extra_sp = wraptuple(extra_sp)
                push!(axis, extra_sp...)
            end
-            if sp[:legend_title] !== nothing
-                legtfont = legendtitlefont(sp)
+            if sp[:legendtitle] !== nothing
                push!(axis, PGFPlotsX.Options("\\addlegendimage{empty legend}" => nothing))
                push!(
                    axis,
                    PGFPlotsX.LegendEntry(
-                        PGFPlotsX.Options(
-                            "font" =>
-                                pgfx_font(legtfont.pointsize, pgfx_thickness_scaling(sp)),
-                            "text" => legtfont.color,
-                        ),
-                        string("\\hspace{-.6cm}{\\textbf{", sp[:legend_title], "}}"),
+                        string("\\hspace{-.6cm}{\\textbf{", sp[:legendtitle], "}}"),
                        false,
                    ),
                )
@ -385,9 +375,11 @@ function pgfx_add_series!(::Val{:path}, axis, series_opt, series, series_func, o
                    )
                end
            end
-            if i == 1 &&
-               series[:subplot][:legend_position] != :none &&
-               pgfx_should_add_to_legend(series)
+            if (
+                k == 1 &&
+                series[:subplot][:legend] != :none &&
+                pgfx_should_add_to_legend(series)
+            )
                pgfx_filllegend!(series_opt, opt)
            end
        end
@ -404,9 +396,6 @@ function pgfx_add_series!(::Val{:path}, axis, series_opt, series, series_func, o
                    ),
                ),
            )
-            if opt[:label] == ""
-                push!(arrow_opt, "forget plot" => nothing)
-            end
            if arrow.side == :head
                x_arrow = opt[:x][rng][(end - 1):end]
                y_arrow = opt[:y][rng][(end - 1):end]
@ -430,7 +419,6 @@ function pgfx_add_series!(::Val{:path}, axis, series_opt, series, series_func, o
                :v => [y_arrow[i] - y_arrow[i - 1] for i in 2:2:lastindex(y_arrow)],
            ])
            arrow_plot = series_func(merge(series_opt, arrow_opt), coordinates)
-            push!(series_opt, "forget plot" => nothing)
            push!(axis, arrow_plot)
            coordinates = PGFPlotsX.Table(x_path, y_path)
            segment_plot = series_func(merge(series_opt, segment_opt), coordinates)
@ -524,29 +512,10 @@ function pgfx_add_series!(::Val{:heatmap}, axis, series_opt, series, series_func
 end

 function pgfx_add_series!(::Val{:mesh3d}, axis, series_opt, series, series_func, opt)
-    if opt[:connections] isa Tuple{Array,Array,Array}
-        # 0-based indexing
-        ptable = join(
-            [string(i, " ", j, " ", k, "\\\\") for (i, j, k) in zip(opt[:connections]...)],
-            "\n        ",
-        )
-    elseif typeof(opt[:connections]) <: AbstractVector{NTuple{3,Int}}
-        # 1-based indexing
-        ptable = join(
-            [
-                string(i - 1, " ", j - 1, " ", k - 1, "\\\\") for
-                (i, j, k) in opt[:connections]
-            ],
-            "\n        ",
-        )
-    else
-        throw(
-            ArgumentError(
-                "Argument connections has to be either a tuple of three arrays (0-based indexing)
-                    or an AbstractVector{NTuple{3,Int}} (1-based indexing).",
-            ),
-        )
-    end
+    ptable = join(
+        [string(i, " ", j, " ", k, "\\\\") for (i, j, k) in zip(opt[:connections]...)],
+        "\n        ",
+    )
    push!(
        series_opt,
        "patch" => nothing,
@ -664,7 +633,7 @@ function pgfx_add_series!(::Val{:xsticks}, axis, series_opt, series, series_func
 end

 function pgfx_add_legend!(axis, series, opt, i = 1)
-    if series[:subplot][:legend_position] != :none
+    if series[:subplot][:legend] != :none
        leg_entry = if opt[:label] isa AVec
            get(opt[:label], i, "")
        elseif opt[:label] isa AbstractString
@ -811,22 +780,22 @@ function pgfx_get_legend_pos(v::Tuple{S,Symbol}) where {S<:Real}
 end

 function pgfx_get_legend_style(sp)
-    cstr = plot_color(sp[:legend_background_color])
+    cstr = plot_color(sp[:background_color_legend])
    a = alpha(cstr)
-    fg_alpha = alpha(plot_color(sp[:legend_foreground_color]))
+    fg_alpha = alpha(plot_color(sp[:foreground_color_legend]))
    legfont = legendfont(sp)
    PGFPlotsX.Options(
        pgfx_linestyle(
            pgfx_thickness_scaling(sp),
-            sp[:legend_foreground_color],
+            sp[:foreground_color_legend],
            fg_alpha,
            "solid",
        ) => nothing,
        "fill" => cstr,
        "fill opacity" => a,
-        "text opacity" => alpha(plot_color(sp[:legend_font_color])),
-        "font" => pgfx_font(sp[:legend_font_pointsize], pgfx_thickness_scaling(sp)),
-        "text" => plot_color(sp[:legend_font_color]),
+        "text opacity" => alpha(plot_color(sp[:legendfontcolor])),
+        "font" => pgfx_font(sp[:legendfontsize], pgfx_thickness_scaling(sp)),
+        "text" => plot_color(sp[:legendfontcolor]),
        "cells" => PGFPlotsX.Options(
            "anchor" => get(
                (left = "west", right = "east", hcenter = "center"),
@ -834,7 +803,7 @@ function pgfx_get_legend_style(sp)
                "west",
            ),
        ),
-        pgfx_get_legend_pos(sp[:legend_position])...,
+        pgfx_get_legend_pos(sp[:legend])...,
    )
 end

@ -960,9 +929,6 @@ function pgfx_linestyle(linewidth::Real, color, α = 1, linestyle = :solid)
    )
 end

-pgfx_legend_col(s::Symbol) = s == :horizontal ? -1 : 1
-pgfx_legend_col(n) = n
-
 function pgfx_linestyle(plotattributes, i = 1)
    lw = pgfx_thickness_scaling(plotattributes) * get_linewidth(plotattributes, i)
    lc = single_color(get_linecolor(plotattributes, i))
@ -984,20 +950,21 @@ function pgfx_font(fontsize::Nothing, thickness_scaling = 1, font = "\\selectfon
 end

 function pgfx_should_add_to_legend(series::Series)
-    series.plotattributes[:primary] && !(
-        series.plotattributes[:seriestype] in (
-            :hexbin,
-            :bins2d,
-            :histogram2d,
-            :hline,
-            :vline,
-            :contour,
-            :contourf,
-            :contour3d,
-            :heatmap,
-            :image,
+    series.plotattributes[:primary] &&
+        !(
+            series.plotattributes[:seriestype] in (
+                :hexbin,
+                :bins2d,
+                :histogram2d,
+                :hline,
+                :vline,
+                :contour,
+                :contourf,
+                :contour3d,
+                :heatmap,
+                :image,
+            )
        )
-    )
 end

 function pgfx_marker(plotattributes, i = 1)
@ -1231,18 +1198,6 @@ function pgfx_sanitize_plot!(plt)
    end
    ##
 end
-
-function wrap_power_labels(ticks)
-    # wrap the power part of label with }
-    tick_labels = similar(ticks)
-    for (i, label) in enumerate(ticks)
-        base, power = split(label, "^")
-        power = string("{", power, "}")
-        tick_labels[i] = string(base, "^", power)
-    end
-    tick_labels
-end
-
 # --------------------------------------------------------------------------------------
 function pgfx_axis!(opt::PGFPlotsX.Options, sp::Subplot, letter)
    axis = sp[get_attr_symbol(letter, :axis)]
@ -1301,8 +1256,7 @@ function pgfx_axis!(opt::PGFPlotsX.Options, sp::Subplot, letter)

    # scale
    scale = axis[:scale]
-    is_log_scale = scale in (:ln, :log2, :log10)
-    if is_log_scale
+    if scale in (:log2, :ln, :log10)
        push!(opt, string(letter, :mode) => "log")
        scale == :ln || push!(opt, "log basis $letter" => "$(scale == :log2 ? 2 : 10)")
    end
@ -1315,10 +1269,11 @@ function pgfx_axis!(opt::PGFPlotsX.Options, sp::Subplot, letter)
    end

    # grid on or off
-    push!(
-        opt,
-        "$(letter)majorgrids" => axis[:grid] && framestyle != :none ? "true" : "false",
-    )
+    if axis[:grid] && framestyle != :none
+        push!(opt, "$(letter)majorgrids" => "true")
+    else
+        push!(opt, "$(letter)majorgrids" => "false")
+    end

    # limits
    lims =
@ -1329,13 +1284,19 @@ function pgfx_axis!(opt::PGFPlotsX.Options, sp::Subplot, letter)
    if !(axis[:ticks] in (nothing, false, :none, :native)) && framestyle != :none
        # ticks
        ticks = get_ticks(sp, axis)
-        # pgf plot ignores ticks with angle below 90 when xmin = 90 so shift values
+        #pgf plot ignores ticks with angle below 90 when xmin = 90 so shift values
        tick_values =
            ispolar(sp) && letter == :x ? [rad2deg.(ticks[1])[3:end]..., 360, 405] :
            ticks[1]
        push!(opt, string(letter, "tick") => string("{", join(tick_values, ","), "}"))
-        if axis[:showaxis] && is_log_scale && axis[:ticks] == :auto
-            tick_labels = wrap_power_labels(ticks[2])
+        if axis[:showaxis] && axis[:scale] in (:ln, :log2, :log10) && axis[:ticks] == :auto
+            # wrap the power part of label with }
+            tick_labels = similar(ticks[2])
+            for (i, label) in enumerate(ticks[2])
+                base, power = split(label, "^")
+                power = string("{", power, "}")
+                tick_labels[i] = string(base, "^", power)
+            end
            if tick_labels isa Vector{String}
                push!(
                    opt,
@ -1348,7 +1309,6 @@ function pgfx_axis!(opt::PGFPlotsX.Options, sp::Subplot, letter)
        elseif axis[:showaxis]
            tick_labels =
                ispolar(sp) && letter == :x ? [ticks[2][3:end]..., "0", "45"] : ticks[2]
-            is_log_scale && (tick_labels = wrap_power_labels(tick_labels))
            if axis[:formatter] in (:scientific, :auto) && tick_labels isa Vector{String}
                tick_labels = string.("\$", convert_sci_unicode.(tick_labels), "\$")
                tick_labels = replace.(tick_labels, Ref("×" => "\\times"))
@ -1465,7 +1425,7 @@ end
 # Set the (left, top, right, bottom) minimum padding around the plot area
 # to fit ticks, tick labels, guides, colorbars, etc.
 function _update_min_padding!(sp::Subplot{PGFPlotsXBackend})
-    leg = sp[:legend_position]
+    leg = sp[:legend]
    if leg in (:best, :outertopright, :outerright, :outerbottomright) ||
       (leg isa Tuple && leg[1] >= 1)
        sp.minpad = (0mm, 0mm, 5mm, 0mm)
--- a/src/backends/plotly.jl
+++ b/src/backends/plotly.jl
@ -338,12 +338,12 @@ function plotly_layout(plt::Plot)
 end

 function plotly_add_legend!(plotattributes_out::KW, sp::Subplot)
-    plotattributes_out[:showlegend] = sp[:legend_position] != :none
-    legend_position = plotly_legend_pos(sp[:legend_position])
-    if sp[:legend_position] != :none
-        plotattributes_out[:legend_position] = KW(
-            :bgcolor => rgba_string(sp[:legend_background_color]),
-            :bordercolor => rgba_string(sp[:legend_foreground_color]),
+    plotattributes_out[:showlegend] = sp[:legend] != :none
+    legend_position = plotly_legend_pos(sp[:legend])
+    if sp[:legend] != :none
+        plotattributes_out[:legend] = KW(
+            :bgcolor => rgba_string(sp[:background_color_legend]),
+            :bordercolor => rgba_string(sp[:foreground_color_legend]),
            :borderwidth => 1,
            :traceorder => "normal",
            :xanchor => legend_position.xanchor,
@ -353,7 +353,7 @@ function plotly_add_legend!(plotattributes_out::KW, sp::Subplot)
            :x => legend_position.coords[1],
            :y => legend_position.coords[2],
            :title => KW(
-                :text => sp[:legend_title] === nothing ? "" : string(sp[:legend_title]),
+                :text => sp[:legendtitle] === nothing ? "" : string(sp[:legendtitle]),
                :font => plotly_font(legendtitlefont(sp)),
            ),
        )
@ -362,7 +362,6 @@ end

 function plotly_legend_pos(pos::Symbol)
    xleft = 0.07
-    xright = 1.0
    ybot = 0.07
    ytop = 1.0
    xcenter = 0.55
@ -373,14 +372,14 @@ function plotly_legend_pos(pos::Symbol)
    xouterright = 1.05
    xouterleft = -0.15
    plotly_legend_position_mapping = (
-        right = (coords = [xright, ycenter], xanchor = "right", yanchor = "middle"),
+        right = (coords = [1.0, ycenter], xanchor = "right", yanchor = "middle"),
        left = (coords = [xleft, ycenter], xanchor = "left", yanchor = "middle"),
        top = (coords = [xcenter, ytop], xanchor = "center", yanchor = "top"),
        bottom = (coords = [xcenter, ybot], xanchor = "center", yanchor = "bottom"),
        bottomleft = (coords = [xleft, ybot], xanchor = "left", yanchor = "bottom"),
-        bottomright = (coords = [xright, ybot], xanchor = "right", yanchor = "bottom"),
-        topright = (coords = [xright, ytop], xanchor = "right", yanchor = "top"),
-        topleft = (coords = [xleft, ytop], xanchor = "left", yanchor = "top"),
+        bottomright = (coords = [1.0, ybot], xanchor = "right", yanchor = "bottom"),
+        topright = (coords = [1.0, 1.0], xanchor = "right", yanchor = "top"),
+        topleft = (coords = [xleft, 1.0], xanchor = "left", yanchor = "top"),
        outertop = (coords = [center, youtertop], xanchor = "upper", yanchor = "middle"),
        outerbottom = (coords = [center, youterbot], xanchor = "lower", yanchor = "middle"),
        outerleft = (coords = [xouterleft, center], xanchor = "left", yanchor = "top"),
@ -401,7 +400,7 @@ function plotly_legend_pos(pos::Symbol)
            xanchor = "lower",
            yanchor = "right",
        ),
-        default = (coords = [xright, ytop], xanchor = "auto", yanchor = "auto"),
+        default = (coords = [1.0, 1.0], xanchor = "auto", yanchor = "auto"),
    )

    legend_position =
@ -679,7 +678,6 @@ function plotly_series(plt::Plot, series::Series)

        if series[:connections] !== nothing
            if typeof(series[:connections]) <: Tuple{Array,Array,Array}
-                # 0-based indexing
                i, j, k = series[:connections]
                if !(length(i) == length(j) == length(k))
                    throw(
@ -691,20 +689,10 @@ function plotly_series(plt::Plot, series::Series)
                plotattributes_out[:i] = i
                plotattributes_out[:j] = j
                plotattributes_out[:k] = k
-            elseif typeof(series[:connections]) <: AbstractVector{NTuple{3,Int}}
-                # 1-based indexing
-                i, j, k = broadcast(
-                    i -> [inds[i] - 1 for inds in series[:connections]],
-                    (1, 2, 3),
-                )
-                plotattributes_out[:i] = i
-                plotattributes_out[:j] = j
-                plotattributes_out[:k] = k
            else
                throw(
                    ArgumentError(
-                        "Argument connections has to be either a tuple of three arrays (0-based indexing)
-                         or an AbstractVector{NTuple{3,Int}} (1-based indexing).",
+                        "Argument connections has to be a tuple of three arrays.",
                    ),
                )
            end
@ -752,14 +740,14 @@ function plotly_series(plt::Plot, series::Series)
    end

    plotly_polar!(plotattributes_out, series)
-    plotly_adjust_hover_label!(plotattributes_out, series[:hover])
+    plotly_hover!(plotattributes_out, series[:hover])

-    return [merge(plotattributes_out, series[:extra_kwargs])]
+    return [plotattributes_out]
 end

 function plotly_series_shapes(plt::Plot, series::Series, clims)
    segments = series_segments(series; check = true)
-    plotattributes_outs = [KW() for _ in 1:length(segments)]
+    plotattributes_outs = Vector{KW}(undef, length(segments))

    # TODO: create a plotattributes_out for each polygon
    # x, y = series[:x], series[:y]
@ -807,8 +795,8 @@ function plotly_series_shapes(plt::Plot, series::Series, clims)
        end
        plotattributes_out[:showlegend] = k == 1 ? should_add_to_legend(series) : false
        plotly_polar!(plotattributes_out, series)
-        plotly_adjust_hover_label!(plotattributes_out, _cycle(series[:hover], i))
-        plotattributes_outs[k] = merge(plotattributes_out, series[:extra_kwargs])
+        plotly_hover!(plotattributes_out, _cycle(series[:hover], i))
+        plotattributes_outs[k] = plotattributes_out
    end
    if series[:fill_z] !== nothing
        push!(plotattributes_outs, plotly_colorbar_hack(series, plotattributes_base, :fill))
@ -931,7 +919,7 @@ function plotly_series_segments(series::Series, plotattributes_base::KW, x, y, z
        end

        plotly_polar!(plotattributes_out, series)
-        plotly_adjust_hover_label!(plotattributes_out, _cycle(series[:hover], rng))
+        plotly_hover!(plotattributes_out, _cycle(series[:hover], rng))

        if hasfillrange
            # if hasfillrange is true, return two dictionaries (one for original
@ -940,7 +928,7 @@ function plotly_series_segments(series::Series, plotattributes_base::KW, x, y, z
            plotattributes_out_fillrange[:showlegend] = false
            # if fillrange is provided as real or tuple of real, expand to array
            if typeof(series[:fillrange]) <: Real
-                plotattributes_out[:fillrange] = fill(series[:fillrange], length(rng))
+                series[:fillrange] = fill(series[:fillrange], length(rng))
            elseif typeof(series[:fillrange]) <: Tuple
                f1 =
                    typeof(series[:fillrange][1]) <: Real ?
@ -948,7 +936,7 @@ function plotly_series_segments(series::Series, plotattributes_base::KW, x, y, z
                f2 =
                    typeof(series[:fillrange][2]) <: Real ?
                    fill(series[:fillrange][2], length(rng)) : series[:fillrange][2][rng]
-                plotattributes_out[:fillrange] = (f1, f2)
+                series[:fillrange] = (f1, f2)
            end
            if isa(series[:fillrange], AbstractVector)
                plotattributes_out_fillrange[:y] = series[:fillrange][rng]
@ -969,7 +957,6 @@ function plotly_series_segments(series::Series, plotattributes_base::KW, x, y, z
        else
            plotattributes_outs[k] = plotattributes_out
        end
-        plotattributes_outs[k] = merge(plotattributes_outs[k], series[:extra_kwargs])
    end

    if series[:line_z] !== nothing
@ -1014,30 +1001,28 @@ function plotly_polar!(plotattributes_out::KW, series::Series)
    # convert polar plots x/y to theta/radius
    if ispolar(series[:subplot])
        theta, r = pop!(plotattributes_out, :x), pop!(plotattributes_out, :y)
-        plotattributes_out[:theta] = rad2deg.(theta)
+        plotattributes_out[:t] = rad2deg.(theta)
        plotattributes_out[:r] = r
-        plotattributes_out[:type] = :scatterpolar
    end
 end

-function plotly_adjust_hover_label!(plotattributes_out::KW, hover)
-    if hover === nothing
-        return nothing
-    elseif all(in([:none, false]), hover)
+function plotly_hover!(plotattributes_out::KW, hover)
+    # hover text
+    if hover === nothing || all(in([:none, false]), hover)
        plotattributes_out[:hoverinfo] = "none"
    elseif any(!isnothing, hover)
        plotattributes_out[:hoverinfo] = "text"
        plotattributes_out[:text] = hover
    end
-    return nothing
 end

 # get a list of dictionaries, each representing the series params
 function plotly_series(plt::Plot)
-    if isempty(plt.series_list)
-        return KW[]
+    slist = []
+    for series in plt.series_list
+        append!(slist, plotly_series(plt, series))
    end
-    reduce(vcat, plotly_series(plt, series) for series in plt.series_list)
+    slist
 end

 # get json string for a list of dictionaries, each representing the series params
@ -1107,12 +1092,16 @@ end

 function js_body(plt::Plot, uuid)
    js = """
-        Plotly.newPlot('$(uuid)', $(plotly_series_json(plt)), $(plotly_layout_json(plt)));
+        var PLOT = document.getElementById('$(uuid)');
+        Plotly.plot(PLOT, $(plotly_series_json(plt)), $(plotly_layout_json(plt)));
    """
 end

 function plotly_show_js(io::IO, plot::Plot)
-    data = plotly_series(plot)
+    data = []
+    for series in plot.series_list
+        append!(data, plotly_series(plot, series))
+    end
    layout = plotly_layout(plot)
    JSON.print(io, Dict(:data => data, :layout => layout))
 end
--- a/src/backends/plotlyjs.jl
+++ b/src/backends/plotlyjs.jl
@ -8,7 +8,6 @@ function plotlyjs_syncplot(plt::Plot{PlotlyJSBackend})
    traces = PlotlyJS.GenericTrace[]
    for series_dict in plotly_series(plt)
        plotly_type = pop!(series_dict, :type)
-        series_dict[:transpose] = false
        push!(traces, PlotlyJS.GenericTrace(plotly_type; series_dict...))
    end
    PlotlyJS.addtraces!(plt.o, traces...)
--- a/src/backends/pyplot.jl
+++ b/src/backends/pyplot.jl
@ -26,25 +26,9 @@ pyrcparams = PyPlot.PyDict(PyPlot.matplotlib."rcParams")

 # "support" matplotlib v3.4
 if PyPlot.version < v"3.4"
-    @warn("""You are using Matplotlib $(PyPlot.version), which is no longer
+    @warn("You are using Matplotlib $(PyPlot.version), which is no longer
    officialy supported by the Plots community. To ensure smooth Plots.jl
-    integration update your Matplotlib library to a version >= 3.4.0
-
-    If you have used Conda.jl to install PyPlot (default installation),
-    upgrade your matplotlib via Conda.jl and rebuild the PyPlot.
-
-    If you are not sure, here are the default instructions:
-
-    In Julia REPL:
-    ```
-    import Pkg;
-    Pkg.add("Conda")
-    import Conda
-    Conda.update()
-    Pkg.build("PyPlot")
-    ```
-
-    """)
+    integration update your Matplotlib library to a version >= 3.4.0")
 end

 set_facecolor_sym = if PyPlot.version < v"2"
@ -698,50 +682,6 @@ function py_add_series(plt::Plot{PyPlotBackend}, series::Series)
        end
    end

-    if st == :mesh3d
-        polygons = if series[:connections] isa AbstractVector{<:AbstractVector{Int}}
-            # Combination of any polygon types
-            broadcast(inds -> broadcast(i -> [x[i], y[i], z[i]], inds), series[:connections])
-        elseif series[:connections] isa AbstractVector{NTuple{N,Int}} where {N}
-            # Only N-gons - connections have to be 1-based (indexing)
-            broadcast(inds -> broadcast(i -> [x[i], y[i], z[i]], inds), series[:connections])
-        elseif series[:connections] isa NTuple{3,<:AbstractVector{Int}}
-            # Only triangles - connections have to be 0-based (indexing)
-            ci, cj, ck = series[:connections]
-            if !(length(ci) == length(cj) == length(ck))
-                throw(
-                    ArgumentError(
-                        "Argument connections must consist of equally sized arrays.",
-                    ),
-                )
-            end
-            broadcast(
-                j -> broadcast(i -> [x[i], y[i], z[i]], [ci[j] + 1, cj[j] + 1, ck[j] + 1]),
-                eachindex(ci),
-            )
-        else
-            throw(
-                ArgumentError(
-                    "Unsupported `:connections` type $(typeof(series[:connections])) for seriestype=$st",
-                ),
-            )
-        end
-        col = mplot3d.art3d.Poly3DCollection(
-            polygons,
-            linewidths = py_thickness_scale(plt, series[:linewidth]),
-            edgecolor = py_color(get_linecolor(series)),
-            facecolor = py_color(series[:fillcolor]),
-            alpha = get_fillalpha(series),
-            zorder = series[:series_plotindex],
-        )
-        handle = ax."add_collection3d"(col)
-        # Fix for handle: https://stackoverflow.com/questions/54994600/pyplot-legend-poly3dcollection-object-has-no-attribute-edgecolors2d
-        # It seems there aren't two different alpha values for edge and face
-        handle._facecolors2d = py_color(series[:fillcolor])
-        handle._edgecolors2d = py_color(get_linecolor(series))
-        push!(handles, handle)
-    end
-
    if st == :image
        xmin, xmax = ignorenan_extrema(series[:x])
        ymin, ymax = ignorenan_extrema(series[:y])
@ -981,7 +921,7 @@ end

 function py_set_spine_color(spines, color)
    for loc in spines
-        getproperty(spines, loc)."set_color"(color)
+        spines[loc]."set_color"(color)
    end
 end

@ -1206,7 +1146,7 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
        if !ispolar(sp) && !RecipesPipeline.is3d(sp)
            for pos in ("left", "right", "top", "bottom")
                # Scale all axes by default first
-                getproperty(ax.spines, pos)."set_linewidth"(py_thickness_scale(plt, 1))
+                ax.spines[pos]."set_linewidth"(py_thickness_scale(plt, 1))
            end

            # Then set visible some of them
@ -1214,32 +1154,28 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
                intensity = 0.5

                spine = sp[:yaxis][:mirror] ? "left" : "right"
-                getproperty(ax.spines, spine)."set_alpha"(intensity)
-                getproperty(ax.spines, spine)."set_linewidth"(
-                    py_thickness_scale(plt, intensity),
-                )
+                ax.spines[spine]."set_alpha"(intensity)
+                ax.spines[spine]."set_linewidth"(py_thickness_scale(plt, intensity))

                spine = sp[:xaxis][:mirror] ? "bottom" : "top"
-                getproperty(ax.spines, spine)."set_linewidth"(
-                    py_thickness_scale(plt, intensity),
-                )
-                getproperty(ax.spines, spine)."set_alpha"(intensity)
+                ax.spines[spine]."set_linewidth"(py_thickness_scale(plt, intensity))
+                ax.spines[spine]."set_alpha"(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)
-                sp[:xaxis][:mirror] ? ax.spines."bottom"."set_visible"(false) :
-                ax.spines."top"."set_visible"(false)
-                sp[:yaxis][:mirror] ? ax.spines."left"."set_visible"(false) :
-                ax.spines."right"."set_visible"(false)
+                sp[:xaxis][:mirror] ? ax.spines["bottom"]."set_visible"(false) :
+                ax.spines["top"]."set_visible"(false)
+                sp[:yaxis][:mirror] ? ax.spines["left"]."set_visible"(false) :
+                ax.spines["right"]."set_visible"(false)
                if sp[:framestyle] == :origin
-                    ax.spines."bottom"."set_position"("zero")
-                    ax.spines."left"."set_position"("zero")
+                    ax.spines["bottom"]."set_position"("zero")
+                    ax.spines["left"]."set_position"("zero")
                end
            elseif sp[:framestyle] in (:grid, :none, :zerolines)
                if PyPlot.version >= v"3.4.1" # that is one where it worked, the API change may have some other value
                    for spine in ax.spines
-                        getproperty(ax.spines, string(spine))."set_visible"(false)
+                        ax.spines[string(spine)]."set_visible"(false)
                    end
                else
                    for (loc, spine) in ax.spines
@ -1283,7 +1219,7 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
            end

            py_set_scale(ax, sp, axis)
-            py_set_lims(ax, sp, axis)
+            axis[:ticks] == :native ? nothing : py_set_lims(ax, sp, axis)
            if ispolar(sp) && letter == :y
                ax."set_rlabel_position"(90)
            end
@ -1297,8 +1233,8 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
            fontProperties = PyPlot.PyCall.PyDict(
                Dict(
                    "family" => axis[:tickfontfamily],
-                   # "math_fontfamily" =>
-                   #     py_get_matching_math_font(axis[:tickfontfamily]),
+                    "math_fontfamily" =>
+                        py_get_matching_math_font(axis[:tickfontfamily]),
                    "size" => py_thickness_scale(plt, axis[:tickfontsize]),
                    "rotation" => axis[:tickfontrotation],
                ),
@ -1318,14 +1254,7 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
                )
            end

-            py_set_ticks(sp, ax, ticks, letter)
-
-            if axis[:ticks] == :native # It is easier to reset than to account for this
-                py_set_lims(ax, sp, axis)
-                pyaxis.set_major_locator(pyticker.AutoLocator())
-                pyaxis.set_major_formatter(pyticker.ScalarFormatter())
-            end
-
+            axis[:ticks] == :native ? nothing : py_set_ticks(sp, ax, ticks, letter)
            # Tick marks
            intensity = 0.5  # This value corresponds to scaling of other grid elements
            pyaxis."set_tick_params"(
@ -1410,11 +1339,11 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
        if !sp[:xaxis][:showaxis]
            kw = KW()
            if ispolar(sp)
-                ax.spines."polar".set_visible(false)
+                ax.spines["polar"].set_visible(false)
            end
            for dir in (:top, :bottom)
                if !ispolar(sp)
-                    getproperty(ax.spines, string(dir)).set_visible(false)
+                    ax.spines[string(dir)].set_visible(false)
                end
                kw[dir] = kw[get_attr_symbol(:label, dir)] = false
            end
@ -1424,7 +1353,7 @@ function _before_layout_calcs(plt::Plot{PyPlotBackend})
            kw = KW()
            for dir in (:left, :right)
                if !ispolar(sp)
-                    getproperty(ax.spines, string(dir)).set_visible(false)
+                    ax.spines[string(dir)].set_visible(false)
                end
                kw[dir] = kw[get_attr_symbol(:label, dir)] = false
            end
@ -1566,7 +1495,7 @@ end
 py_legend_bbox(pos) = pos

 function py_add_legend(plt::Plot, sp::Subplot, ax)
-    leg = sp[:legend_position]
+    leg = sp[:legend]
    if leg != :none
        # gotta do this to ensure both axes are included
        labels = []
@ -1627,7 +1556,7 @@ function py_add_legend(plt::Plot, sp::Subplot, ax)
                        ),
                        linewidth = py_thickness_scale(
                            plt,
-                            hasline * sp[:legend_font_pointsize] / 8,
+                            hasline * sp[:legendfontsize] / 8,
                        ),
                        linestyle = py_linestyle(:path, get_linestyle(series)),
                        solid_capstyle = "butt",
@ -1635,10 +1564,7 @@ function py_add_legend(plt::Plot, sp::Subplot, ax)
                        dash_capstyle = "butt",
                        dash_joinstyle = "miter",
                        marker = py_marker(_cycle(series[:markershape], 1)),
-                        markersize = py_thickness_scale(
-                            plt,
-                            0.8 * sp[:legend_font_pointsize],
-                        ),
+                        markersize = py_thickness_scale(plt, 0.8 * sp[:legendfontsize]),
                        markeredgecolor = py_color(
                            single_color(get_markerstrokecolor(series)),
                            get_markerstrokealpha(series),
@ -1649,9 +1575,8 @@ function py_add_legend(plt::Plot, sp::Subplot, ax)
                        ),
                        markeredgewidth = py_thickness_scale(
                            plt,
-                            0.8 *
-                            get_markerstrokewidth(series) *
-                            sp[:legend_font_pointsize] / first(series[:markersize]),
+                            0.8 * get_markerstrokewidth(series) * sp[:legendfontsize] /
+                            first(series[:markersize]),
                        ),   # retain the markersize/markerstroke ratio from the markers on the plot
                    )
                    push!(handles, handle)
@ -1671,32 +1596,34 @@ function py_add_legend(plt::Plot, sp::Subplot, ax)
                loc = py_legend_pos(leg),
                bbox_to_anchor = py_legend_bbox(leg),
                scatterpoints = 1,
-                fontsize = py_thickness_scale(plt, sp[:legend_font_pointsize]),
-                facecolor = py_color(sp[:legend_background_color]),
-                edgecolor = py_color(sp[:legend_foreground_color]),
-                framealpha = alpha(plot_color(sp[:legend_background_color])),
+                fontsize = py_thickness_scale(plt, sp[:legendfontsize]),
+                facecolor = py_color(sp[:background_color_legend]),
+                edgecolor = py_color(sp[:foreground_color_legend]),
+                framealpha = alpha(plot_color(sp[:background_color_legend])),
                fancybox = false,  # makes the legend box square
                borderpad = 0.8,      # to match GR legendbox
            )
            frame = leg."get_frame"()
            frame."set_linewidth"(py_thickness_scale(plt, 1))
            leg."set_zorder"(1000)
-            if sp[:legend_title] !== nothing
-                leg."set_title"(sp[:legend_title])
+            if sp[:legendtitle] !== nothing
+                leg."set_title"(sp[:legendtitle])
                PyPlot.plt."setp"(
                    leg."get_title"(),
-                    color = py_color(sp[:legend_title_font_color]),
-                    family = sp[:legend_title_font_family],
-                    fontsize = py_thickness_scale(plt, sp[:legend_title_font_pointsize]),
+                    color = py_color(sp[:legendtitlefontcolor]),
+                    family = sp[:legendtitlefontfamily],
+                    math_fontfamily = py_get_matching_math_font(sp[:legendtitlefontfamily]),
+                    fontsize = py_thickness_scale(plt, sp[:legendtitlefontsize]),
                )
            end

            for txt in leg."get_texts"()
                PyPlot.plt."setp"(
                    txt,
-                    color = py_color(sp[:legend_font_color]),
-                    family = sp[:legend_font_family],
-                    fontsize = py_thickness_scale(plt, sp[:legend_font_pointsize]),
+                    color = py_color(sp[:legendfontcolor]),
+                    family = sp[:legendfontfamily],
+                    math_fontfamily = py_get_matching_math_font(sp[:legendtitlefontfamily]),
+                    fontsize = py_thickness_scale(plt, sp[:legendfontsize]),
                )
            end
        end
@ -1725,12 +1652,7 @@ function _update_plot_object(plt::Plot{PyPlotBackend})
                _cbar_width - 1mm,
                height(sp.bbox) - 4mm,
            )
-            pcts = get(
-                sp[:extra_kwargs],
-                "3d_colorbar_axis",
-                bbox_to_pcts(cb_bbox, figw, figh),
-            )
-
+            pcts = bbox_to_pcts(cb_bbox, figw, figh)
            sp.attr[:cbar_ax]."set_position"(pcts)
        end
    end
--- a/src/backends/unicodeplots.jl
+++ b/src/backends/unicodeplots.jl
@ -1,224 +1,109 @@
+
 # https://github.com/JuliaPlots/UnicodePlots.jl

-const _canvas_map = (
-    braille = UnicodePlots.BrailleCanvas,
-    density = UnicodePlots.DensityCanvas,
-    heatmap = UnicodePlots.HeatmapCanvas,
-    lookup = UnicodePlots.LookupCanvas,
+# don't warn on unsupported... there's just too many warnings!!
+warn_on_unsupported_args(::UnicodePlotsBackend, plotattributes::KW) = nothing
+
+# --------------------------------------------------------------------------------------
+
+_canvas_map() = (
    ascii = UnicodePlots.AsciiCanvas,
    block = UnicodePlots.BlockCanvas,
+    braille = UnicodePlots.BrailleCanvas,
+    density = UnicodePlots.DensityCanvas,
    dot = UnicodePlots.DotCanvas,
+    heatmap = UnicodePlots.HeatmapCanvas,
+    lookup = UnicodePlots.LookupCanvas,
 )

-should_warn_on_unsupported(::UnicodePlotsBackend) = false
-
-function _before_layout_calcs(plt::Plot{UnicodePlotsBackend})
+# do all the magic here... build it all at once, since we need to know about all the series at the very beginning
+function unicodeplots_rebuild(plt::Plot{UnicodePlotsBackend})
    plt.o = UnicodePlots.Plot[]
-    up_width = UnicodePlots.DEFAULT_WIDTH[]
-    up_height = UnicodePlots.DEFAULT_HEIGHT[]
-
-    has_layout = prod(size(plt.layout)) > 1
+    canvas_map = _canvas_map()
    for sp in plt.subplots
-        sp_kw = sp[:extra_kwargs]
        xaxis = sp[:xaxis]
        yaxis = sp[:yaxis]
-        xlim = collect(axis_limits(sp, :x))
-        ylim = collect(axis_limits(sp, :y))
-        zlim = collect(axis_limits(sp, :z))
-        F = float(eltype(xlim))
+        xlim = axis_limits(sp, :x)
+        ylim = axis_limits(sp, :y)

-        # We set x/y to have a single point,
-        # since we need to create the plot with some data.
-        # Since this point is at the bottom left corner of the plot,
-        # it should be hidden by consecutive plotting commands.
-        x = Vector{F}(xlim)
-        y = Vector{F}(ylim)
-        z = Vector{F}(zlim)
+        # make vectors
+        xlim = [xlim[1], xlim[2]]
+        ylim = [ylim[1], ylim[2]]

-        # create a plot window with xlim/ylim set,
-        # but the X/Y vectors are outside the bounds
-        canvas = if (up_c = get(sp_kw, :canvas, :auto)) === :auto
+        # we set x/y to have a single point, since we need to create the plot with some data.
+        # since this point is at the bottom left corner of the plot, it shouldn't actually be shown
+        x = Float64[xlim[1]]
+        y = Float64[ylim[1]]
+
+        # create a plot window with xlim/ylim set, but the X/Y vectors are outside the bounds
+        canvas_type = if (ct = _canvas_type[]) == :auto
            isijulia() ? :ascii : :braille
        else
-            up_c
+            ct
        end

-        border = if (up_b = get(sp_kw, :border, :auto)) === :auto
-            isijulia() ? :ascii : :solid
-        else
-            up_b
-        end
-
-        # blank plots will not be shown
-        width = has_layout && isempty(series_list(sp)) ? 0 : get(sp_kw, :width, up_width)
-        height = get(sp_kw, :height, up_height)
-
-        plot_3d = is3d(sp)
-        blend = get(sp_kw, :blend, true)
-        grid = xaxis[:grid] && yaxis[:grid]
-        quiver = contour = false
-        for series in series_list(sp)
-            st = series[:seriestype]
-            blend &= get(series[:extra_kwargs], :blend, true)
-            quiver |= series[:arrow] isa Arrow  # post-pipeline detection (:quiver -> :path)
-            contour |= st === :contour
-            if st === :histogram2d
-                xlim = ylim = (0, 0)
-            elseif st === :spy || st === :heatmap
-                width = height = 0
-                grid = false
-            end
-        end
-        grid &= !(quiver || contour)
-        blend &= !(quiver || contour)
-
-        plot_3d && (xlim = ylim = (0, 0))  # determined using projection
-        azimuth, elevation = sp[:camera]  # PyPlot: azimuth = -60 & elevation = 30
-        projection = plot_3d ? get(sp_kw, :projection, :orthographic) : nothing
-
-        kw = (
-            compact = true,
-            title = texmath2unicode(sp[:title]),
-            xlabel = texmath2unicode(xaxis[:guide]),
-            ylabel = texmath2unicode(yaxis[:guide]),
-            grid = grid,
-            blend = blend,
-            height = height,
-            width = width,
-            xscale = xaxis[:scale],
-            yscale = yaxis[:scale],
-            border = border,
+        o = UnicodePlots.Plot(
+            x,
+            y,
+            canvas_map[canvas_type];
+            title = sp[:title],
            xlim = xlim,
            ylim = ylim,
-            # 3d
-            projection = projection,
-            elevation = elevation,
-            azimuth = azimuth,
-            zoom = get(sp_kw, :zoom, 1),
-            up = get(sp_kw, :up, :z),
+            xlabel = xaxis[:guide],
+            ylabel = yaxis[:guide],
+            border = isijulia() ? :ascii : :solid,
        )
-
-        o = UnicodePlots.Plot(x, y, plot_3d ? z : nothing, _canvas_map[canvas]; kw...)
        for series in series_list(sp)
-            o = addUnicodeSeries!(
-                sp,
-                o,
-                kw,
-                series,
-                sp[:legend_position] !== :none,
-                plot_3d,
-            )
-        end
-
-        for ann in sp[:annotations]
-            x, y, val = locate_annotation(sp, ann...)
-            o = UnicodePlots.annotate!(
-                o,
-                x,
-                y,
-                texmath2unicode(val.str);
-                color = up_color(val.font.color),
-                halign = val.font.halign,
-                valign = val.font.valign,
-            )
+            o = addUnicodeSeries!(sp, o, series, sp[:legend] != :none, xlim, ylim)
        end

        push!(plt.o, o)  # save the object
    end
 end

-up_color(col::UnicodePlots.UserColorType) = col
-up_color(col::RGBA) =
-    (c = convert(ARGB32, col); map(Int, (red(c).i, green(c).i, blue(c).i)))
-up_color(col) = :auto
-
-function up_cmap(series)
-    rng = range(0, 1, length = length(UnicodePlots.COLOR_MAP_DATA[:viridis]))
-    [(red(c), green(c), blue(c)) for c in get(get_colorgradient(series), rng)]
-end
-
 # add a single series
 function addUnicodeSeries!(
    sp::Subplot{UnicodePlotsBackend},
    up::UnicodePlots.Plot,
-    kw,
    series,
    addlegend::Bool,
-    plot_3d::Bool,
+    xlim,
+    ylim,
 )
    st = series[:seriestype]
-    se_kw = series[:extra_kwargs]

    # get the series data and label
-    x, y = if st === :straightline
+    x, y = if st == :straightline
        straightline_data(series)
-    elseif st === :shape
+    elseif st == :shape
        shape_data(series)
    else
-        series[:x], series[:y]
-    end
-
-    if ispolar(sp) || ispolar(series)
-        return UnicodePlots.polarplot(x, y)
+        float(series[:x]), float(series[:y])
    end

    # special handling (src/interface)
-    fix_ar = get(se_kw, :fix_ar, true)
-    if st === :histogram2d
-        return UnicodePlots.densityplot(x, y; kw...)
-    elseif st === :spy
-        return UnicodePlots.spy(Array(series[:z]); fix_ar = fix_ar, kw...)
-    elseif st in (:contour, :heatmap)  # 2D
-        colormap = get(se_kw, :colormap, :none)
-        kw = (
-            kw...,
+    if st == :histogram2d
+        return UnicodePlots.densityplot(x, y)
+    elseif st == :heatmap
+        rng = range(0, 1, length = length(UnicodePlots.COLOR_MAP_DATA[:viridis]))
+        cmap = [(red(c), green(c), blue(c)) for c in get(get_colorgradient(series), rng)]
+        return UnicodePlots.heatmap(
+            series[:z].surf;
+            title = sp[:title],
            zlabel = sp[:colorbar_title],
-            colormap = colormap === :none ? up_cmap(series) : colormap,
-            colorbar = hascolorbar(sp),
-        )
-        if st === :contour
-            isfilledcontour(series) &&
-                @warn "Plots(UnicodePlots): filled contour is not implemented"
-            return UnicodePlots.contourplot(
-                x,
-                y,
-                Array(series[:z]);
-                kw...,
-                levels = series[:levels],
-            )
-        elseif st === :heatmap
-            return UnicodePlots.heatmap(Array(series[:z]); fix_ar = fix_ar, kw...)
-        end
-    elseif st in (:surface, :wireframe)  # 3D
-        colormap = get(se_kw, :colormap, :none)
-        lines = get(se_kw, :lines, st === :wireframe)
-        zscale = get(se_kw, :zscale, :identity)
-        kw = (
-            kw...,
-            zlabel = sp[:colorbar_title],
-            colormap = colormap === :none ? up_cmap(series) : colormap,
-            colorbar = hascolorbar(sp),
-            color = st === :wireframe ? up_color(get_linecolor(series, 1)) : nothing,
-            zscale = zscale,
-            lines = lines,
-        )
-        return UnicodePlots.surfaceplot(x, y, Array(series[:z]); kw...)
-    elseif st === :mesh3d
-        return UnicodePlots.lineplot!(
-            up,
-            mesh3d_triangles(x, y, series[:z], series[:connections])...,
+            colormap = cmap,
        )
+    elseif st == :spy
+        return UnicodePlots.spy(series[:z].surf; title = sp[:title])
    end

    # now use the ! functions to add to the plot
-    if st in (:path, :path3d, :straightline, :shape, :mesh3d)
+    if st in (:path, :straightline, :shape)
        func = UnicodePlots.lineplot!
-        series_kw = (; head_tail = series[:arrow] isa Arrow ? series[:arrow].side : nothing)
-    elseif st in (:scatter, :scatter3d) || series[:markershape] !== :none
+    elseif st == :scatter || series[:markershape] != :none
        func = UnicodePlots.scatterplot!
-        series_kw = (; marker = series[:markershape])
    else
-        error("Plots(UnicodePlots): series type $st not supported")
+        error("Series type $st not supported by UnicodePlots")
    end

    label = addlegend ? series[:label] : ""
@ -226,148 +111,111 @@ function addUnicodeSeries!(
    for (n, segment) in enumerate(series_segments(series, st; check = true))
        i, rng = segment.attr_index, segment.range
        lc = get_linecolor(series, i)
-        up = func(
-            up,
-            x[rng],
-            y[rng],
-            plot_3d ? series[:z][rng] : nothing;
-            color = up_color(lc),
-            name = n == 1 ? label : "",
-            series_kw...,
-        )
-    end
+        if typeof(lc) <: UnicodePlots.UserColorType
+            color = lc
+        elseif typeof(lc) <: RGBA
+            lc = convert(ARGB32, lc)
+            color = map(Int, (red(lc).i, green(lc).i, blue(lc).i))
+        else
+            color = :auto
+        end

-    for (xi, yi, str, fnt) in EachAnn(series[:series_annotations], x, y)
-        up = UnicodePlots.annotate!(
-            up,
-            xi,
-            yi,
-            str;
-            color = up_color(fnt.color),
-            halign = fnt.halign,
-            valign = fnt.valign,
-        )
+        up = func(up, x[rng], y[rng]; color = color, name = n == 1 ? label : "")
    end
-
-    up
+    return up
 end

-# ------------------------------------------------------------------------------------------
+# -------------------------------

-function _show(io::IO, ::MIME"image/png", plt::Plot{UnicodePlotsBackend})
-    prepare_output(plt)
-    nr, nc = size(plt.layout)
-    s1 = zeros(Int, nr, nc)
-    s2 = zeros(Int, nr, nc)
-    canvas_type = nothing
-    imgs = []
-    sps = 0
-    for r in 1:nr
-        for c in 1:nc
-            if (l = plt.layout[r, c]) isa GridLayout && size(l) != (1, 1)
-                error("Plots(UnicodePlots): complex nested layout is currently unsupported")
-            else
-                img = UnicodePlots.png_image(plt.o[sps += 1])
-                canvas_type = eltype(img)
-                h, w = size(img)
-                s1[r, c] = h
-                s2[r, c] = w
-                push!(imgs, img)
-            end
-        end
+# since this is such a hack, it's only callable using `png`... should error during normal `show`
+function png(plt::Plot{UnicodePlotsBackend}, fn::AbstractString)
+    fn = addExtension(fn, "png")
+
+    @static if Sys.isapple()
+        # make some whitespace and show the plot
+        println("\n\n\n\n\n\n")
+        gui(plt)
+
+        # BEGIN HACK
+
+        # wait while the plot gets drawn
+        sleep(0.5)
+
+        # use osx screen capture when my terminal is maximized and cursor starts at the bottom (I know, right?)
+        # TODO: compute size of plot to adjust these numbers (or maybe implement something good??)
+        run(`screencapture -R50,600,700,420 $fn`)
+
+        # END HACK (phew)
+        return
+    elseif Sys.islinux()
+        run(`clear`)
+        gui(plt)
+        run(`import -window $(ENV["WINDOWID"]) $fn`)
+        return
    end
-    if canvas_type !== nothing
-        m1 = maximum(s1; dims = 2)
-        m2 = maximum(s2; dims = 1)
-        img = zeros(canvas_type, sum(m1), sum(m2))
-        sps = 0
-        n1 = 1
-        for r in 1:nr
-            n2 = 1
-            for c in 1:nc
-                sp = imgs[sps += 1]
-                h, w = size(sp)
-                img[n1:(n1 + (h - 1)), n2:(n2 + (w - 1))] = sp
-                n2 += m2[c]
-            end
-            n1 += m1[r]
-        end
-        stream = UnicodePlots.FileIO.Stream{UnicodePlots.FileIO.format"PNG"}(io)
-        UnicodePlots.FileIO.save(stream, img)
-    end
-    nothing
+
+    error(
+        "Can only savepng on MacOS or Linux with UnicodePlots (though even then I wouldn't do it)",
+    )
 end

-Base.show(plt::Plot{UnicodePlotsBackend}) = show(stdout, plt)
-Base.show(io::IO, plt::Plot{UnicodePlotsBackend}) = _show(io, MIME("text/plain"), plt)
+# -------------------------------
+Base.show(plt::Plot{UnicodePlotsBackend}) = _show(stdout, MIME("text/plain"), plt)

-# NOTE: _show(...) must be kept for Base.showable (src/output.jl)
 function _show(io::IO, ::MIME"text/plain", plt::Plot{UnicodePlotsBackend})
-    prepare_output(plt)
+    unicodeplots_rebuild(plt)
    nr, nc = size(plt.layout)
-    if nr == 1 && nc == 1  # fast path
-        n = length(plt.o)
-        for (i, p) in enumerate(plt.o)
-            show(io, p)
-            i < n && println(io)
-        end
-    else
-        have_color = Base.get_have_color()
-        buf = IOContext(PipeBuffer(), :color => have_color)
-        lines_colored = Array{Union{Nothing,Vector{String}}}(undef, nr, nc)
-        lines_uncolored = have_color ? similar(lines_colored) : lines_colored
-        l_max = zeros(Int, nr)
-        w_max = zeros(Int, nc)
-        sps = 0
-        for r in 1:nr
-            lmax = 0
-            for c in 1:nc
-                if (l = plt.layout[r, c]) isa GridLayout && size(l) != (1, 1)
-                    error(
-                        "Plots(UnicodePlots): complex nested layout is currently unsupported",
-                    )
+    lines_colored = Array{Union{Nothing,Vector{String}}}(undef, nr, nc)
+    lines_uncolored = copy(lines_colored)
+    l_max = zeros(Int, nr)
+    buf = IOBuffer()
+    cbuf = IOContext(buf, :color => true)
+    sps = wmax = 0
+    for r in 1:nr
+        lmax = 0
+        for c in 1:nc
+            l = plt.layout[r, c]
+            if l isa GridLayout && size(l) != (1, 1)
+                @error "UnicodePlots: complex nested layout is currently unsupported !"
+            else
+                if get(l.attr, :blank, false)
+                    lines_colored[r, c] = lines_uncolored[r, c] = nothing
                else
-                    if get(l.attr, :blank, false)
-                        lines_colored[r, c] = lines_uncolored[r, c] = nothing
-                    else
-                        sp = plt.o[sps += 1]
-                        show(buf, sp)
-                        colored = read(buf, String)
-                        lines_colored[r, c] = lu = lc = split(colored, '\n')
-                        if have_color
-                            uncolored = UnicodePlots.no_ansi_escape(colored)
-                            lines_uncolored[r, c] = lu = split(uncolored, '\n')
-                        end
-                        lmax = max(length(lc), lmax)
-                        w_max[c] = max(maximum(length.(lu)), w_max[c])
-                    end
+                    sp = plt.o[sps += 1]
+                    show(cbuf, sp)
+                    colored = String(take!(buf))
+                    uncolored = replace(colored, r"\x1B\[[0-9;]*[a-zA-Z]" => "")
+                    lines_colored[r, c] = lc = split(colored, "\n")
+                    lines_uncolored[r, c] = lu = split(uncolored, "\n")
+                    lmax = max(length(lc), lmax)
+                    wmax = max(maximum(length.(lu)), wmax)
                end
            end
-            l_max[r] = lmax
        end
-        empty = String[' '^w for w in w_max]
-        for r in 1:nr
-            for n in 1:l_max[r]
-                for c in 1:nc
-                    pre = c == 1 ? '\0' : ' '
-                    lc = lines_colored[r, c]
-                    if lc === nothing || length(lc) < n
-                        print(io, pre, empty[c])
-                    else
-                        lu = lines_uncolored[r, c]
-                        print(io, pre, lc[n], ' '^(w_max[c] - length(lu[n])))
-                    end
+        l_max[r] = lmax
+    end
+    empty = ' '^wmax
+    for r in 1:nr
+        for n in 1:l_max[r]
+            for c in 1:nc
+                pre = c == 1 ? '\0' : ' '
+                lc = lines_colored[r, c]
+                if lc === nothing || length(lc) < n
+                    print(io, pre, empty)
+                else
+                    lu = lines_uncolored[r, c]
+                    print(io, pre, lc[n], ' '^(wmax - length(lu[n])))
                end
-                n < l_max[r] && println(io)
            end
-            r < nr && println(io)
+            println(io)
        end
+        r < nr && println(io)
    end
    nothing
 end

-# we only support MIME"text/plain", hence display(...) falls back to plain-text on stdout
 function _display(plt::Plot{UnicodePlotsBackend})
-    show(stdout, plt)
-    println(stdout)
+    unicodeplots_rebuild(plt)
+    map(display, plt.o)
+    nothing
 end
--- a/src/colorbars.jl
+++ b/src/colorbars.jl
@ -5,57 +5,50 @@ process_clims(s::Union{Symbol,Nothing,Missing}) = ignorenan_extrema
 # don't specialize on ::Function otherwise python functions won't work
 process_clims(f) = f

-get_clims(sp::Subplot)::Tuple{Float64,Float64} =
-    haskey(sp.attr, :clims_calculated) ? sp[:clims_calculated] : update_clims(sp)
-get_clims(series::Series)::Tuple{Float64,Float64} =
-    haskey(series.plotattributes, :clims_calculated) ?
-    series[:clims_calculated]::Tuple{Float64,Float64} : update_clims(series)
-get_clims(sp::Subplot, series::Series)::Tuple{Float64,Float64} =
-    series[:colorbar_entry] ? get_clims(sp) : get_clims(series)
-
-function update_clims(sp::Subplot, op = process_clims(sp[:clims]))::Tuple{Float64,Float64}
+function get_clims(sp::Subplot, op = process_clims(sp[:clims]))
    zmin, zmax = Inf, -Inf
    for series in series_list(sp)
-        if series[:colorbar_entry]::Bool
-            zmin, zmax = _update_clims(zmin, zmax, update_clims(series, op)...)
-        else
-            update_clims(series, op)
+        if series[:colorbar_entry]
+            zmin, zmax = _update_clims(zmin, zmax, get_clims(series, op)...)
        end
    end
-    return sp[:clims_calculated] = zmin <= zmax ? (zmin, zmax) : (NaN, NaN)
+    return zmin <= zmax ? (zmin, zmax) : (NaN, NaN)
+end
+
+function get_clims(sp::Subplot, series::Series, op = process_clims(sp[:clims]))
+    zmin, zmax = if series[:colorbar_entry]
+        get_clims(sp, op)
+    else
+        get_clims(series, op)
+    end
+    return zmin <= zmax ? (zmin, zmax) : (NaN, NaN)
 end

 """
-    update_clims(::Series, op=Plots.ignorenan_extrema)
+    get_clims(::Series, op=Plots.ignorenan_extrema)
+
 Finds the limits for the colorbar by taking the "z-values" for the series and passing them into `op`,
 which must return the tuple `(zmin, zmax)`. The default op is the extrema of the finite
-values of the input. The value is stored as a series property, which is retrieved by `get_clims`.
+values of the input.
 """
-function update_clims(series::Series, op = ignorenan_extrema)::Tuple{Float64,Float64}
+function get_clims(series::Series, op = ignorenan_extrema)
    zmin, zmax = Inf, -Inf
-
-    # keeping this unrolled has higher performance
-    if series[:seriestype] ∈ _z_colored_series && series[:z] !== nothing
-        zmin, zmax = update_clims(zmin, zmax, series[:z], op)
+    z_colored_series = (:contour, :contour3d, :heatmap, :histogram2d, :surface, :hexbin)
+    for vals in (
+        series[:seriestype] in z_colored_series ? series[:z] : nothing,
+        series[:line_z],
+        series[:marker_z],
+        series[:fill_z],
+    )
+        if (typeof(vals) <: AbstractSurface) && (eltype(vals.surf) <: Union{Missing,Real})
+            zmin, zmax = _update_clims(zmin, zmax, op(vals.surf)...)
+        elseif (vals !== nothing) && (eltype(vals) <: Union{Missing,Real})
+            zmin, zmax = _update_clims(zmin, zmax, op(vals)...)
+        end
    end
-    if series[:line_z] !== nothing
-        zmin, zmax = update_clims(zmin, zmax, series[:line_z], op)
-    end
-    if series[:marker_z] !== nothing
-        zmin, zmax = update_clims(zmin, zmax, series[:marker_z], op)
-    end
-    if series[:fill_z] !== nothing
-        zmin, zmax = update_clims(zmin, zmax, series[:fill_z], op)
-    end
-    return series[:clims_calculated] = zmin <= zmax ? (zmin, zmax) : (NaN, NaN)
+    return zmin <= zmax ? (zmin, zmax) : (NaN, NaN)
 end

-update_clims(zmin, zmax, vals::AbstractSurface, op)::Tuple{Float64,Float64} =
-    update_clims(zmin, zmax, vals.surf, op)
-update_clims(zmin, zmax, vals::Any, op)::Tuple{Float64,Float64} =
-    _update_clims(zmin, zmax, op(vals)...)
-update_clims(zmin, zmax, ::Nothing, ::Any)::Tuple{Float64,Float64} = zmin, zmax
-
 _update_clims(zmin, zmax, emin, emax) = NaNMath.min(zmin, emin), NaNMath.max(zmax, emax)

@enum ColorbarStyle cbar_gradient cbar_fill cbar_lines
@ -101,5 +94,4 @@ end

 function _update_subplot_colorbars(sp::Subplot)
    # Dynamic callback from the pipeline if needed
-    update_clims(sp)
 end
--- a/src/components.jl
+++ b/src/components.jl
@ -43,7 +43,13 @@ vertices(shape::Shape) = collect(zip(shape.x, shape.y))
 "return the vertex points from a Shape or Segments object"
 coords(shape::Shape) = shape.x, shape.y

-coords(shapes::AVec{<:Shape}) = unzip(map(coords, shapes))
+#coords(shapes::AVec{Shape}) = unzip(map(coords, shapes))
+function coords(shapes::AVec{<:Shape})
+    c = map(coords, shapes)
+    x = [q[1] for q in c]
+    y = [q[2] for q in c]
+    x, y
+end

 "get an array of tuples of points on a circle with radius `r`"
 partialcircle(start_θ, end_θ, n = 20, r = 1) =
@ -159,15 +165,10 @@ function scale!(shape::Shape, x::Real, y::Real = x, c = center(shape))
    shape
 end

-"""
-    scale(shape, x, y = x, c = center(shape))
-    scale!(shape, x, y = x, c = center(shape))
-
-Scale shape by a factor.
-"""
 scale(shape::Shape, x::Real, y::Real = x, c = center(shape)) =
    scale!(deepcopy(shape), x, y, c)

+"translate a Shape in space"
 function translate!(shape::Shape, x::Real, y::Real = x)
    sx, sy = coords(shape)
    for i in eachindex(sx)
@ -177,27 +178,22 @@ function translate!(shape::Shape, x::Real, y::Real = x)
    shape
 end

-"""
-    translate(shape, x, y = x)
-    translate!(shape, x, y = x)
-
-Translate a Shape in space.
-"""
 translate(shape::Shape, x::Real, y::Real = x) = translate!(deepcopy(shape), x, y)

-rotate_x(x::Real, y::Real, θ::Real, centerx::Real, centery::Real) =
-    ((x - centerx) * cos(θ) - (y - centery) * sin(θ) + centerx)
+rotate_x(x::Real, y::Real, Θ::Real, centerx::Real, centery::Real) =
+    ((x - centerx) * cos(Θ) - (y - centery) * sin(Θ) + centerx)

-rotate_y(x::Real, y::Real, θ::Real, centerx::Real, centery::Real) =
-    ((y - centery) * cos(θ) + (x - centerx) * sin(θ) + centery)
+rotate_y(x::Real, y::Real, Θ::Real, centerx::Real, centery::Real) =
+    ((y - centery) * cos(Θ) + (x - centerx) * sin(Θ) + centery)

-rotate(x::Real, y::Real, θ::Real, c) = (rotate_x(x, y, θ, c...), rotate_y(x, y, θ, c...))
+rotate(x::Real, y::Real, θ::Real, c = center(shape)) =
+    (rotate_x(x, y, Θ, c...), rotate_y(x, y, Θ, c...))

-function rotate!(shape::Shape, θ::Real, c = center(shape))
+function rotate!(shape::Shape, Θ::Real, c = center(shape))
    x, y = coords(shape)
    for i in eachindex(x)
-        xi = rotate_x(x[i], y[i], θ, c...)
-        yi = rotate_y(x[i], y[i], θ, c...)
+        xi = rotate_x(x[i], y[i], Θ, c...)
+        yi = rotate_y(x[i], y[i], Θ, c...)
        x[i], y[i] = xi, yi
    end
    shape
@ -250,7 +246,6 @@ function font(args...; kw...)

    for arg in args
        T = typeof(arg)
-        @assert arg !== :match

        if T == Font
            family = arg.family
@ -274,12 +269,12 @@ function font(args...; kw...)
            catch
                family = string(arg)
            end
-        elseif T <: Integer
+        elseif typeof(arg) <: Integer
            pointsize = arg
-        elseif T <: Real
+        elseif typeof(arg) <: Real
            rotation = convert(Float64, arg)
        else
-            @warn "Unused font arg: $arg ($T)"
+            @warn "Unused font arg: $arg ($(typeof(arg)))"
        end
    end

@ -777,20 +772,3 @@ function extrema_plus_buffer(v, buffmult = 0.2)
    buffer = vdiff * buffmult
    vmin - buffer, vmax + buffer
 end
-
-### Legend
-
-@add_attributes subplot struct Legend
-    background_color = :match
-    foreground_color = :match
-    position = :best
-    title = nothing
-    font::Font = font(8)
-    title_font::Font = font(11)
-    column = 1
-end :match = (
-    :legend_font_family,
-    :legend_font_color,
-    :legend_title_font_family,
-    :legend_title_font_color,
-)
--- a/src/consts.jl
+++ b/src/consts.jl
@ -1,88 +0,0 @@
-
-const _deprecated_attributes = Dict{Symbol,Symbol}(:orientation => :permute)
-const _all_defaults = KW[_series_defaults, _plot_defaults, _subplot_defaults]
-
-const _initial_defaults = deepcopy(_all_defaults)
-const _initial_axis_defaults = deepcopy(_axis_defaults)
-
-# add defaults for the letter versions
-const _axis_defaults_byletter = KW()
-
-function reset_axis_defaults_byletter!()
-    for letter in (:x, :y, :z)
-        _axis_defaults_byletter[letter] = KW()
-        for (k, v) in _axis_defaults
-            _axis_defaults_byletter[letter][k] = v
-        end
-    end
-end
-reset_axis_defaults_byletter!()
-
-# to be able to reset font sizes to initial values
-const _initial_plt_fontsizes =
-    Dict(:plot_titlefontsize => _plot_defaults[:plot_titlefontsize])
-
-const _initial_sp_fontsizes = Dict(
-    :titlefontsize => _subplot_defaults[:titlefontsize],
-    :legend_font_pointsize => _subplot_defaults[:legend_font_pointsize],
-    :legend_title_font_pointsize => _subplot_defaults[:legend_title_font_pointsize],
-    :annotationfontsize => _subplot_defaults[:annotationfontsize],
-    :colorbar_tickfontsize => _subplot_defaults[:colorbar_tickfontsize],
-    :colorbar_titlefontsize => _subplot_defaults[:colorbar_titlefontsize],
-)
-
-const _initial_ax_fontsizes = Dict(
-    :tickfontsize  => _axis_defaults[:tickfontsize],
-    :guidefontsize => _axis_defaults[:guidefontsize],
-)
-
-const _initial_fontsizes =
-    merge(_initial_plt_fontsizes, _initial_sp_fontsizes, _initial_ax_fontsizes)
-
-const _internal_args =
-    [:plot_object, :series_plotindex, :markershape_to_add, :letter, :idxfilter]
-
-const _axis_args = Set(keys(_axis_defaults))
-const _series_args = Set(keys(_series_defaults))
-const _subplot_args = Set(keys(_subplot_defaults))
-const _plot_args = Set(keys(_plot_defaults))
-
-const _magic_axis_args = [:axis, :tickfont, :guidefont, :grid, :minorgrid]
-const _magic_subplot_args =
-    [:title_font, :legend_font, :legend_title_font, :plot_title_font, :colorbar_titlefont]
-const _magic_series_args = [:line, :marker, :fill]
-const _all_magic_args =
-    Set(union(_magic_axis_args, _magic_series_args, _magic_subplot_args))
-
-const _all_axis_args = union(_axis_args, _magic_axis_args)
-const _lettered_all_axis_args =
-    Set([Symbol(letter, kw) for letter in (:x, :y, :z) for kw in _all_axis_args])
-const _all_subplot_args = union(_subplot_args, _magic_subplot_args)
-const _all_series_args = union(_series_args, _magic_series_args)
-const _all_plot_args = _plot_args
-
-const _all_args =
-    union(_lettered_all_axis_args, _all_subplot_args, _all_series_args, _all_plot_args)
-
-# add all pluralized forms to the _keyAliases dict
-for arg in _all_args
-    add_aliases(arg, makeplural(arg))
-end
-
-# fill symbol cache
-for letter in (:x, :y, :z)
-    _attrsymbolcache[letter] = Dict{Symbol,Symbol}()
-    for k in _axis_args
-        # populate attribute cache
-        lk = Symbol(letter, k)
-        _attrsymbolcache[letter][k] = lk
-        # allow the underscore version too: xguide or x_guide
-        add_aliases(lk, Symbol(letter, "_", k))
-    end
-    for k in (_magic_axis_args..., :(_discrete_indices))
-        _attrsymbolcache[letter][k] = Symbol(letter, k)
-    end
-end
-
-# add all non_underscored forms to the _keyAliases
-add_non_underscore_aliases!(_keyAliases)
--- a/src/examples.jl
+++ b/src/examples.jl
@ -849,6 +849,7 @@ const _examples = PlotExample[
        [
            quote
                begin
+                    using Plots
                    default(
                        titlefont = (20, "times"),
                        legendfontsize = 18,
@ -961,10 +962,8 @@ const _examples = PlotExample[
        """
        Allows to plot arbitrary 3d meshes. If only x,y,z are given the mesh is generated automatically.
        You can also specify the connections using the connections keyword.
-        The connections can be specified in two ways: Either as a tuple of vectors where each vector
-        contains the 0-based indices of one point of a triangle, such that elements at the same
-        position of these vectors form a triangle. Or as a vector of NTuple{3,Ints} where each element
-        contains the 1-based indices of the three points of a triangle.
+        The connections are specified using a tuple of vectors. Each vector contains the 0-based indices of one point of a triangle,
+        such that elements at the same position of these vectors form a triangle.
        """,
        [
            :(
@ -980,14 +979,13 @@ const _examples = PlotExample[
                    i = [0, 0, 0, 1]
                    j = [1, 2, 3, 2]
                    k = [2, 3, 1, 3]
-                    # Or: cns = [(1, 2, 3), (1, 3, 4), (1, 4, 2), (2, 3, 4)] (1-based indexing)

                    # the four triangles gives above give a tetrahedron
                    mesh3d(
                        x,
                        y,
                        z;
-                        connections = (i, j, k), # connections = cns
+                        connections = (i, j, k),
                        title = "triangles",
                        xlabel = "x",
                        ylabel = "y",
@ -1070,6 +1068,7 @@ const _examples = PlotExample[
        "",
        [
            quote
+                using Plots
                using TestImages
                img = testimage("lighthouse")

@ -1090,6 +1089,8 @@ const _examples = PlotExample[
        "3d quiver",
        "",
        [quote
+            using Plots
+
            ϕs = range(-π, π, length = 50)
            θs = range(0, π, length = 25)
            θqs = range(1, π - 1, length = 25)
@ -1228,77 +1229,15 @@ const _examples = PlotExample[
            ),
        ],
    ),
-    PlotExample( # 56
-        "Bar plot customizations",
-        """
-        Width of bars may be specified as `bar_width`.
-        The bars' baseline may be specified as `fillto`.
-        Each may be scalar, or a vector spcifying one value per bar.
-        """,
-        [
-            :(
-                begin
-                    plot(
-                        bar(
-                            [-1, 0, 2, 3],
-                            [1, 3, 6, 2],
-                            fill_z = 4:-1:1,
-                            alpha = [1, 0.2, 0.8, 0.5],
-                            label = "",
-                            bar_width = 1:4,
-                        ),
-                        bar(
-                            rand(5),
-                            bar_width = 1.2,
-                            alpha = 0.8,
-                            color = [:lightsalmon, :tomato, :crimson, :firebrick, :darkred],
-                            fillto = 0:-0.1:-0.4,
-                            label = "reds",
-                        ),
-                    )
-                end
-            ),
-        ],
-    ),
-    PlotExample( # 57
-        "Vertical and horizonal spans",
-        """
-        `vspan` and `hspan` can be used to shade horizontal and vertical ranges.
-        """,
-        [:(
-            begin
-                hspan([1, 2, 3, 4]; label = "hspan", legend = :topleft)
-                vspan!([2, 3]; alpha = 0.5, label = "vspan")
-                plot!([0, 2, 3, 5], [-1, 3, 2, 6]; c = :black, lw = 2, label = "line")
-            end
-        )],
-    ),
-    PlotExample( # 58
-        "Stacked area chart",
-        """
-        `areaplot` draws stacked area plots.
-        """,
-        [
-            :(
-                begin
-                    areaplot(
-                        1:3,
-                        [1 2 3; 7 8 9; 4 5 6],
-                        seriescolor = [:red :green :blue],
-                        fillalpha = [0.2 0.3 0.4],
-                    )
-                end
-            ),
-        ],
-    ),
 ]

 # Some constants for PlotDocs and PlotReferenceImages
 _animation_examples = [2, 31]
 _backend_skips = Dict(
-    :gr => [30],
-    :pyplot => [2, 25, 30, 31, 49, 55, 56],
-    :plotlyjs => [2, 21, 24, 25, 30, 31, 49, 50, 51, 55, 56],
+    :gr => [25, 30],
+    :pyplot => [2, 25, 30, 31, 47, 49, 55],
+    :plotlyjs => [2, 21, 24, 25, 30, 31, 49, 51, 55],
+    :plotly => [2, 21, 24, 25, 30, 31, 49, 50, 51, 55],
    :pgfplotsx => [
        2,  # animation
        6,  # images
@ -1308,26 +1247,30 @@ _backend_skips = Dict(
        32,  # spy
        49,  # polar heatmap
        51,  # image with custom axes
-        56,  # custom bar plot
    ],
-    :inspectdr => [4, 6, 10, 22, 24, 28, 30, 38, 43, 45, 47, 48, 49, 50, 51, 55, 56],
+    :inspectdr => [4, 6, 10, 22, 24, 28, 30, 38, 43, 45, 47, 48, 49, 50, 51, 55],
    :unicodeplots => [
-        5,  # limits issue
        6,  # embedded images unsupported
+        13,  # markers unsupported
        16,  # nested layout unsupported
+        20,  # annotations unsupported
        21,  # custom markers unsupported
+        22,  # contours unsupported
+        24,  # 3D unsupported
        26,  # nested layout unsupported
        29,  # nested layout unsupported
-        31,  # nested layout unsupported
        33,  # grid lines unsupported
        34,  # framestyle unsupported
        37,  # ribbons / filled unsupported
        43,  # heatmap with DateTime
        45,  # error bars
+        47,  # mesh3D unsupported
+        48,  # markershapes unsupported
        49,  # polar heatmap
+        50,  # 3D surface unsupported
        51,  # embedded images unsupported
-        55,  # mirror unsupported, resolution too low
-        56,  # barplots
+        52,  # 3D quiver unsupported
+        55,  # 3D unsupported
    ],
    :gaston => [
        2,  # animations
@ -1336,7 +1279,6 @@ _backend_skips = Dict(
        50,  # TODO: 1D data not supported for pm3d
    ],
 )
-_backend_skips[:plotly] = _backend_skips[:plotlyjs]

 # ---------------------------------------------------------------------------------

@ -1352,8 +1294,11 @@ function test_examples(pkgname::Symbol, idx::Int; debug = false, disp = true)
    Base.eval(m, :(using Plots))
    map(exprs -> Base.eval(m, exprs), _examples[idx].exprs)

-    disp && Base.eval(m, :(gui(current())))
-    current()
+    plt = current()
+    if disp
+        gui(plt)
+    end
+    plt
 end

 # generate all plots and create a dict mapping idx --> plt
--- a/src/ijulia.jl
+++ b/src/ijulia.jl
@ -49,9 +49,6 @@ function _ijulia_display_dict(plt::Plot)
        mime = "text/html"
        out[mime] = sprint(show, MIME(mime), plt)
        _ijulia__extra_mime_info!(plt, out)
-    elseif output_type == :pdf
-        mime = "application/pdf"
-        out[mime] = base64encode(show, MIME(mime), plt)
    else
        error("Unsupported output type $output_type")
    end
--- a/src/init.jl
+++ b/src/init.jl
@ -89,6 +89,7 @@ function __init__()
    @require IJulia = "7073ff75-c697-5162-941a-fcdaad2a7d2a" begin
        if IJulia.inited
            _init_ijulia_plotting()
+
            IJulia.display_dict(plt::Plot) = _ijulia_display_dict(plt)
        end
    end
--- a/src/layouts.jl
+++ b/src/layouts.jl
@ -269,9 +269,6 @@ Base.getindex(layout::GridLayout, r::Int, c::Int) = layout.grid[r, c]
 function Base.setindex!(layout::GridLayout, v, r::Int, c::Int)
    layout.grid[r, c] = v
 end
-function Base.setindex!(layout::GridLayout, v, ci::CartesianIndex)
-    layout.grid[ci] = v
-end

 leftpad(layout::GridLayout)   = layout.minpad[1]
 toppad(layout::GridLayout)    = layout.minpad[2]
@ -494,19 +491,6 @@ function layout_args(sztup::NTuple{3,Integer})
    GridLayout(nr, nc), n
 end

-layout_args(nt::NamedTuple) = EmptyLayout(; nt...), 1
-
-function layout_args(m::AbstractVecOrMat)
-    sz = size(m)
-    nr = sz[1]
-    nc = get(sz, 2, 1)
-    gl = GridLayout(nr, nc)
-    for ci in CartesianIndices(m)
-        gl[ci] = layout_args(m[ci])[1]
-    end
-    layout_args(gl)
-end
-
 # compute number of subplots
 function layout_args(layout::GridLayout)
    # recursively get the size of the grid
@ -514,8 +498,7 @@ function layout_args(layout::GridLayout)
    layout, n
 end

-layout_args(n_override::Integer, layout::Union{AbstractVecOrMat,GridLayout}) =
-    layout_args(layout)
+layout_args(n_override::Integer, layout::GridLayout) = layout_args(layout)

 layout_args(huh) = error("unhandled layout type $(typeof(huh)): $huh")

@ -579,6 +562,138 @@ function build_layout(layout::GridLayout, n::Integer, plts::AVec{Plot})
    layout, subplots, spmap
 end

+# ----------------------------------------------------------------------
+# @layout macro
+
+function add_layout_pct!(kw::AKW, v::Expr, idx::Integer, nidx::Integer)
+    # dump(v)
+    # something like {0.2w}?
+    if v.head == :call && v.args[1] == :*
+        num = v.args[2]
+        if length(v.args) == 3 && isa(num, Number)
+            units = v.args[3]
+            if units == :h
+                return kw[:h] = num * pct
+            elseif units == :w
+                return kw[:w] = num * pct
+            elseif units in (:pct, :px, :mm, :cm, :inch)
+                idx == 1 && (kw[:w] = v)
+                (idx == 2 || nidx == 1) && (kw[:h] = v)
+                # return kw[idx == 1 ? :w : :h] = v
+            end
+        end
+    end
+    error("Couldn't match layout curly (idx=$idx): $v")
+end
+
+function add_layout_pct!(kw::AKW, v::Number, idx::Integer)
+    # kw[idx == 1 ? :w : :h] = v*pct
+    idx == 1 && (kw[:w] = v * pct)
+    (idx == 2 || nidx == 1) && (kw[:h] = v * pct)
+end
+
+isrow(v) = isa(v, Expr) && v.head in (:hcat, :row)
+iscol(v) = isa(v, Expr) && v.head == :vcat
+rowsize(v) = isrow(v) ? length(v.args) : 1
+
+function create_grid(expr::Expr)
+    if iscol(expr)
+        create_grid_vcat(expr)
+    elseif isrow(expr)
+        :(
+            let cell = GridLayout(1, $(length(expr.args)))
+                $(
+                    [
+                        :(cell[1, $i] = $(create_grid(v))) for
+                        (i, v) in enumerate(expr.args)
+                    ]...
+                )
+                cell
+            end
+        )
+
+    elseif expr.head == :curly
+        create_grid_curly(expr)
+    else
+        # if it's something else, just return that (might be an existing layout?)
+        esc(expr)
+    end
+end
+
+function create_grid_vcat(expr::Expr)
+    rowsizes = map(rowsize, expr.args)
+    rmin, rmax = extrema(rowsizes)
+    if rmin > 0 && rmin == rmax
+        # we have a grid... build the whole thing
+        # note: rmin is the number of columns
+        nr = length(expr.args)
+        nc = rmin
+        body = Expr(:block)
+        for r in 1:nr
+            arg = expr.args[r]
+            if isrow(arg)
+                for (c, item) in enumerate(arg.args)
+                    push!(body.args, :(cell[$r, $c] = $(create_grid(item))))
+                end
+            else
+                push!(body.args, :(cell[$r, 1] = $(create_grid(arg))))
+            end
+        end
+        :(
+            let cell = GridLayout($nr, $nc)
+                $body
+                cell
+            end
+        )
+    else
+        # otherwise just build one row at a time
+        :(
+            let cell = GridLayout($(length(expr.args)), 1)
+                $(
+                    [
+                        :(cell[$i, 1] = $(create_grid(v))) for
+                        (i, v) in enumerate(expr.args)
+                    ]...
+                )
+                cell
+            end
+        )
+    end
+end
+
+function create_grid_curly(expr::Expr)
+    kw = KW()
+    for (i, arg) in enumerate(expr.args[2:end])
+        add_layout_pct!(kw, arg, i, length(expr.args) - 1)
+    end
+    s = expr.args[1]
+    if isa(s, Expr) && s.head == :call && s.args[1] == :grid
+        create_grid(
+            :(grid(
+                $(s.args[2:end]...),
+                width = $(get(kw, :w, QuoteNode(:auto))),
+                height = $(get(kw, :h, QuoteNode(:auto))),
+            )),
+        )
+    elseif isa(s, Symbol)
+        :(EmptyLayout(
+            label = $(QuoteNode(s)),
+            width = $(get(kw, :w, QuoteNode(:auto))),
+            height = $(get(kw, :h, QuoteNode(:auto))),
+        ))
+    else
+        error("Unknown use of curly brackets: $expr")
+    end
+end
+
+function create_grid(s::Symbol)
+    :(EmptyLayout(label = $(QuoteNode(s)), blank = $(s == :_)))
+end
+
+macro layout(mat::Expr)
+    create_grid(mat)
+end
+
 # -------------------------------------------------------------------------

 # make all reference the same axis extrema/values.
--- a/src/legend.jl
+++ b/src/legend.jl
@ -4,7 +4,8 @@ legend_pos_from_angle(theta, xmin, xcenter, xmax, ymin, ycenter, ymax, inout)
 ```

 Return `(x,y)` at an angle `theta` degrees from
-`(xcenter,ycenter)` on a rectangle defined by (`xmin`, `xmax`, `ymin`, `ymax`).
+`(xcenter,ycenter)` on a rectangle defined by (`xmin`,
+`xmax`, `ymin`, `ymax`).
 """
 function legend_pos_from_angle(theta, xmin, xcenter, xmax, ymin, ycenter, ymax)
    (s, c) = sincosd(theta)
--- a/src/output.jl
+++ b/src/output.jl
@ -2,65 +2,74 @@
 defaultOutputFormat(plt::Plot) = "png"

 function png(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "png"), "w") do io
-        show(io, MIME("image/png"), plt)
-    end
+    fn = addExtension(fn, "png")
+    io = open(fn, "w")
+    show(io, MIME("image/png"), plt)
+    close(io)
 end
 png(fn::AbstractString) = png(current(), fn)

 function svg(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "svg"), "w") do io
-        show(io, MIME("image/svg+xml"), plt)
-    end
+    fn = addExtension(fn, "svg")
+    io = open(fn, "w")
+    show(io, MIME("image/svg+xml"), plt)
+    close(io)
 end
 svg(fn::AbstractString) = svg(current(), fn)

 function pdf(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "pdf"), "w") do io
-        show(io, MIME("application/pdf"), plt)
-    end
+    fn = addExtension(fn, "pdf")
+    io = open(fn, "w")
+    show(io, MIME("application/pdf"), plt)
+    close(io)
 end
 pdf(fn::AbstractString) = pdf(current(), fn)

 function ps(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "ps"), "w") do io
-        show(io, MIME("application/postscript"), plt)
-    end
+    fn = addExtension(fn, "ps")
+    io = open(fn, "w")
+    show(io, MIME("application/postscript"), plt)
+    close(io)
 end
 ps(fn::AbstractString) = ps(current(), fn)

 function eps(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "eps"), "w") do io
-        show(io, MIME("image/eps"), plt)
-    end
+    fn = addExtension(fn, "eps")
+    io = open(fn, "w")
+    show(io, MIME("image/eps"), plt)
+    close(io)
 end
 eps(fn::AbstractString) = eps(current(), fn)

 function tex(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "tex"), "w") do io
-        show(io, MIME("application/x-tex"), plt)
-    end
+    fn = addExtension(fn, "tex")
+    io = open(fn, "w")
+    show(io, MIME("application/x-tex"), plt)
+    close(io)
 end
 tex(fn::AbstractString) = tex(current(), fn)

 function json(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "json"), "w") do io
-        show(io, MIME("application/vnd.plotly.v1+json"), plt)
-    end
+    fn = addExtension(fn, "json")
+    io = open(fn, "w")
+    show(io, MIME("application/vnd.plotly.v1+json"), plt)
+    close(io)
 end
 json(fn::AbstractString) = json(current(), fn)

 function html(plt::Plot, fn::AbstractString)
-    open(addExtension(fn, "html"), "w") do io
-        show(io, MIME("text/html"), plt)
-    end
+    fn = addExtension(fn, "html")
+    io = open(fn, "w")
+    show(io, MIME("text/html"), plt)
+    close(io)
 end
 html(fn::AbstractString) = html(current(), fn)

-function txt(plt::Plot, fn::AbstractString; color::Bool = true)
-    open(addExtension(fn, "txt"), "w") do io
-        show(IOContext(io, :color => color), MIME("text/plain"), plt)
-    end
+function txt(plt::Plot, fn::AbstractString)
+    fn = addExtension(fn, "txt")
+    io = open(fn, "w")
+    show(io, MIME("text/plain"), plt)
+    close(io)
 end
 txt(fn::AbstractString) = txt(current(), fn)

@ -79,13 +88,6 @@ const _savemap = Dict(
    "txt" => txt,
 )

-for out in Symbol.(unique(values(_savemap)))
-    @eval @doc """
-        $($out)([plot,], filename)
-    Save plot as $($out)-file.
-    """ $out
-end
-
 const _extension_map = Dict("tikz" => "tex")

 function addExtension(fn::AbstractString, ext::AbstractString)
@ -194,7 +196,6 @@ Base.show(io::IO, m::MIME"text/plain", plt::Plot) = show(io, plt)
 # for writing to io streams... first prepare, then callback
 for mime in (
    "text/html",
-    "text/latex",
    "image/png",
    "image/eps",
    "image/svg+xml",
@ -215,8 +216,6 @@ for mime in (
    end
 end

-Base.showable(::MIME"text/html", plt::Plot{UnicodePlotsBackend}) = false  # Pluto
-
 Base.show(io::IO, m::MIME"application/prs.juno.plotpane+html", plt::Plot) =
    showjuno(io, MIME("text/html"), plt)

--- a/src/pipeline.jl
+++ b/src/pipeline.jl
@ -8,14 +8,24 @@ function RecipesPipeline.warn_on_recipe_aliases!(
    recipe_type::Symbol,
    @nospecialize(args)
 )
-    pkeys = keys(plotattributes)
-    for k in pkeys
-        dk = get(_keyAliases, k, nothing)
-        if dk !== nothing
-            kv = RecipesPipeline.pop_kw!(plotattributes, k)
-            if dk ∉ pkeys
-                plotattributes[dk] = kv
+    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)
        end
    end
 end
@ -68,19 +78,8 @@ end
 function _preprocess_userrecipe(kw::AKW)
    _add_markershape(kw)

-    if get(kw, :permute, default(:permute)) != :none
-        l1, l2 = kw[:permute]
-        for k in _axis_args
-            k1 = _attrsymbolcache[l1][k]
-            k2 = _attrsymbolcache[l2][k]
-            kwk = keys(kw)
-            if k1 in kwk || k2 in kwk
-                kw[k1], kw[k2] = get(kw, k2, default(k2)), get(kw, k1, default(k1))
-            end
-        end
-    end
    # map marker_z if it's a Function
-    if isa(get(kw, :marker_z, default(:marker_z)), Function)
+    if isa(get(kw, :marker_z, nothing), Function)
        # TODO: should this take y and/or z as arguments?
        kw[:marker_z] =
            isa(kw[:z], Nothing) ? map(kw[:marker_z], kw[:x], kw[:y]) :
@ -88,12 +87,16 @@ function _preprocess_userrecipe(kw::AKW)
    end

    # map line_z if it's a Function
-    if isa(get(kw, :line_z, default(:line_z)), Function)
+    if isa(get(kw, :line_z, nothing), Function)
        kw[:line_z] =
            isa(kw[:z], Nothing) ? map(kw[:line_z], kw[:x], kw[:y]) :
            map(kw[:line_z], kw[:x], kw[:y], kw[:z])
    end

+    # convert a ribbon into a fillrange
+    if get(kw, :ribbon, nothing) !== nothing
+        make_fillrange_from_ribbon(kw)
+    end
    return
 end

@ -161,22 +164,6 @@ function RecipesPipeline.process_sliced_series_attributes!(plt::Plots.Plot, kw_l
            kw_list[ind - 1] = tmp
        end
    end
-
-    for kw in kw_list
-        rib = get(kw, :ribbon, default(:ribbon))
-        fr = get(kw, :fillrange, default(:fillrange))
-        # map ribbon if it's a Function
-        if rib isa Function
-            kw[:ribbon] = map(rib, kw[:x])
-        end
-        # convert a ribbon into a fillrange
-        if rib !== nothing
-            make_fillrange_from_ribbon(kw)
-            # map fillrange if it's a Function
-        elseif fr !== nothing && fr isa Function
-            kw[:fillrange] = map(fr, kw[:x])
-        end
-    end
    return nothing
 end

@ -266,12 +253,12 @@ function _subplot_setup(plt::Plot, plotattributes::AKW, kw_list::Vector{KW})
                    attr[get_attr_symbol(letter, k)] = v
                end
            end
-        end
-        for k in (:scale,), letter in (:x, :y, :z)
-            # Series recipes may need access to this information
-            lk = get_attr_symbol(letter, k)
-            if haskey(attr, lk)
-                kw[lk] = attr[lk]
+            for k in (:scale,), letter in (:x, :y, :z)
+                # Series recipes may need access to this information
+                lk = get_attr_symbol(letter, k)
+                if haskey(attr, lk)
+                    kw[lk] = attr[lk]
+                end
            end
        end
        sp_attrs[sp] = attr
@ -299,38 +286,27 @@ end

 function _add_plot_title!(plt)
    plot_title = plt[:plot_title]
-    plot_titleindex = nothing
-
    if plot_title != ""
-        # make new subplot for plot title
-        if plt[:plot_titleindex] == 0
-            the_layout = plt.layout
-            vspan = plt[:plot_titlevspan]
-            plt.layout = grid(2, 1, heights = (vspan, 1 - vspan))
-            plt.layout.grid[1, 1] =
-                subplot = Subplot(plt.backend, parent = plt.layout[1, 1])
-            plt.layout.grid[2, 1] = the_layout
-            subplot.plt = plt
-
-            top = plt.backend isa PyPlotBackend ? nothing : 0mm
-            bot = 0mm
-            plt[:force_minpad] = nothing, top, nothing, bot
-            subplot[:subplot_index] = last(plt.subplots)[:subplot_index] + 1
-            plt[:plot_titleindex] = subplot[:subplot_index]
-            subplot[:framestyle] = :none
-            subplot[:margin] = 0px
-            push!(plt.subplots, subplot)
-        end
-
+        the_layout = plt.layout
+        vspan = plt[:plot_titlevspan]
+        plt.layout = grid(2, 1, heights = (vspan, 1 - vspan))
+        plt.layout.grid[1, 1] = subplot = Subplot(plt.backend, parent = plt.layout[1, 1])
+        plt.layout.grid[2, 1] = the_layout
+        subplot.plt = plt
        # propagate arguments plt[:plot_titleXXX] --> subplot[:titleXXX]
-        plot_titleindex = plt[:plot_titleindex]
-        subplot = plt.subplots[plot_titleindex]
        for sym in filter(x -> startswith(string(x), "plot_title"), keys(_plot_defaults))
            subplot[Symbol(string(sym)[(length("plot_") + 1):end])] = plt[sym]
        end
+        top = plt.backend isa PyPlotBackend ? nothing : 0mm
+        bot = 0mm
+        plt[:force_minpad] = nothing, top, nothing, bot
+        subplot[:subplot_index] = last(plt.subplots)[:subplot_index] + 1
+        plt[:plot_titleindex] = subplot[:subplot_index]
+        subplot[:framestyle] = :none
+        subplot[:margin] = 0px
+        push!(plt.subplots, subplot)
    end
-
-    return plot_titleindex
+    return nothing
 end

 ## Series recipes
@ -349,19 +325,6 @@ RecipesPipeline.is_seriestype_supported(plt::Plot, st) = is_seriestype_supported

 function RecipesPipeline.add_series!(plt::Plot, plotattributes)
    sp = _prepare_subplot(plt, plotattributes)
-    if plotattributes[:permute] != :none
-        letter1, letter2 = plotattributes[:permute]
-        if plotattributes[:markershape] == :hline &&
-           (plotattributes[:permute] == (:x, :y) || plotattributes[:permute] == (:y, :x))
-            plotattributes[:markershape] = :vline
-        elseif plotattributes[:markershape] == :vline && (
-            plotattributes[:permute] == (:x, :y) || plotattributes[:permute] == (:y, :x)
-        )
-            plotattributes[:markershape] = :hline
-        end
-        plotattributes[letter1], plotattributes[letter2] =
-            plotattributes[letter2], plotattributes[letter1]
-    end
    _expand_subplot_extrema(sp, plotattributes, plotattributes[:seriestype])
    _update_series_attributes!(plotattributes, plt, sp)
    _add_the_series(plt, sp, plotattributes)
@ -451,16 +414,6 @@ function _add_the_series(plt, sp, plotattributes)
    warn_on_unsupported(plt.backend, plotattributes)
    series = Series(plotattributes)
    push!(plt.series_list, series)
-    z_order = plotattributes[:z_order]
-    if z_order == :front
-        push!(sp.series_list, series)
-    elseif z_order == :back
-        pushfirst!(sp.series_list, series)
-    elseif z_order isa Integer
-        insert!(sp.series_list, z_order, series)
-    else
-        @error "Wrong type $(typeof(z_order)) for attribute z_order"
-    end
+    push!(sp.series_list, series)
    _series_added(plt, series)
-    _update_subplot_colorbars(sp)
 end
--- a/src/plot.jl
+++ b/src/plot.jl
@ -163,11 +163,11 @@ function plot!(plt1::Plot, plt2::Plot, plts_tail::Plot...; kw...)
            cmdidx += 1
        end
    end
-    ttl_idx = _add_plot_title!(plt)
+    _add_plot_title!(plt)

    # first apply any args for the subplots
    for (idx, sp) in enumerate(plt.subplots)
-        _update_subplot_args(plt, sp, idx == ttl_idx ? KW() : plotattributes, idx, false)
+        _update_subplot_args(plt, sp, plotattributes, idx, false)
    end

    # finish up
@ -247,12 +247,6 @@ function prepare_output(plt::Plot)
    _update_plot_object(plt)
 end

-"""
-    backend_object(plot)
-
-Returns the backend representation of a Plot object.
-Returns `nothing` if the backend does not support this.
-"""
 function backend_object(plt::Plot)
    prepare_output(plt)
    plt.o
--- a/src/precompile_includer.jl
+++ b/src/precompile_includer.jl
@ -1,40 +1,17 @@
-#! format: off
-should_precompile =     true
-
+should_precompile = true

 # Don't edit the following! Instead change the script for `snoop_bot`.
 ismultios = false
-ismultiversion = true
+ismultiversion = false
 # precompile_enclosure
@static if !should_precompile
    # nothing
 elseif !ismultios && !ismultiversion
-    @static if isfile(joinpath(@__DIR__, "../deps/SnoopCompile/precompile/precompile_Plots.jl"))
+    @static if isfile(
+        joinpath(@__DIR__, "../deps/SnoopCompile/precompile/precompile_Plots.jl"),
+    )
        include("../deps/SnoopCompile/precompile/precompile_Plots.jl")
        _precompile_()
    end
 else
-    @static if v"1.6.0-DEV" <= VERSION <= v"1.6.9" 
-    @static if isfile(joinpath(@__DIR__, "../deps/SnoopCompile/precompile//1.6/precompile_Plots.jl"))
-        include("../deps/SnoopCompile/precompile//1.6/precompile_Plots.jl")
-        _precompile_()
-    end
-elseif v"1.7.0-DEV" <= VERSION <= v"1.7.9" 
-    @static if isfile(joinpath(@__DIR__, "../deps/SnoopCompile/precompile//1.7/precompile_Plots.jl"))
-        include("../deps/SnoopCompile/precompile//1.7/precompile_Plots.jl")
-        _precompile_()
-    end
-elseif v"1.8.0-DEV" <= VERSION <= v"1.8.9" 
-    @static if isfile(joinpath(@__DIR__, "../deps/SnoopCompile/precompile//1.8/precompile_Plots.jl"))
-        include("../deps/SnoopCompile/precompile//1.8/precompile_Plots.jl")
-        _precompile_()
-    end
-elseif v"1.9.0-DEV" <= VERSION <= v"1.9.9" 
-    @static if isfile(joinpath(@__DIR__, "../deps/SnoopCompile/precompile//1.9/precompile_Plots.jl"))
-        include("../deps/SnoopCompile/precompile//1.9/precompile_Plots.jl")
-        _precompile_()
-    end
-else 
-    end
-
 end # precompile_enclosure
--- a/src/recipes.jl
+++ b/src/recipes.jl
@ -438,7 +438,7 @@ end
    procx, procy, xscale, yscale, baseline = _preprocess_barlike(plotattributes, x, y)
    nx, ny = length(procx), length(procy)
    axis = plotattributes[:subplot][isvertical(plotattributes) ? :xaxis : :yaxis]
-    cv = [discrete_value!(plotattributes, :x, xi)[1] for xi in procx]
+    cv = [discrete_value!(axis, xi)[1] for xi in procx]
    procx = if nx == ny
        cv
    elseif nx == ny + 1
@ -508,18 +508,6 @@ end
        primary := true
        x := xseg.pts
        y := yseg.pts
-        # expand attributes to match indices in new series data
-        for k in _segmenting_vector_attributes ∪ _segmenting_array_attributes
-            v = get(plotattributes, k, nothing)
-            if v isa AVec
-                if eachindex(v) != eachindex(y)
-                    @warn "Indices $(eachindex(v)) of attribute `$k` do not match data indices $(eachindex(y))."
-                end
-                # Each segment is 6 elements long, including the NaN separator.
-                # There is no trailing NaN, so the last repetition is dropped.
-                plotattributes[k] = @view repeat(v; inner = 6)[1:(end - 1)]
-            end
-        end
        ()
    end

@ -795,7 +783,7 @@ function _auto_binning_nbins(
    elseif mode == :fd  # Freedman–Diaconis rule
        _cl(_span(v) / (2 * _iqr(v) / nd))
    elseif mode == :wand
-        wand_edges(v)  # this makes this function not type stable, but the type instability does not propagate
+        _cl(wand_edges(v))  # this makes this function not type stable, but the type instability does not propagate
    else
        error("Unknown auto-binning mode $mode")
    end
@ -1037,32 +1025,24 @@ export lens!
        throw(ArgumentError("Inset bounding box needs to in relative coordinates."))
    end
    sp = plt.subplots[sp_index]
-    xscale = sp[:xaxis][:scale]
-    yscale = sp[:yaxis][:scale]
-    xl1, xl2 = xlims(sp)
+    xl1, xl2 = xlims(plt.subplots[sp_index])
    bbx1 = xl1 + left(inset_bbox).value * (xl2 - xl1)
    bbx2 = bbx1 + width(inset_bbox).value * (xl2 - xl1)
-    yl1, yl2 = ylims(sp)
+    yl1, yl2 = ylims(plt.subplots[sp_index])
    bby1 = yl1 + (1 - bottom(inset_bbox).value) * (yl2 - yl1)
    bby2 = bby1 + height(inset_bbox).value * (yl2 - yl1)
-    bbx = bbx1 + width(inset_bbox).value * (xl2 - xl1) / 2 * (sp[:xaxis][:flip] ? -1 : 1)
-    bby = bby1 + height(inset_bbox).value * (yl2 - yl1) / 2 * (sp[:yaxis][:flip] ? -1 : 1)
+    bbx = bbx1 + width(inset_bbox).value * (xl2 - xl1) / 2
+    bby = bby1 + height(inset_bbox).value * (yl2 - yl1) / 2
    lens_index = last(plt.subplots)[:subplot_index] + 1
-    x1, x2 = RecipesPipeline.inverse_scale_func(xscale).(plotattributes[:x])
-    y1, y2 = RecipesPipeline.inverse_scale_func(yscale).(plotattributes[:y])
+    x1, x2 = plotattributes[:x]
+    y1, y2 = plotattributes[:y]
    backup = copy(plotattributes)
    empty!(plotattributes)

    series_plotindex := backup[:series_plotindex]
    seriestype := :path
    primary := false
-    linecolor := get(backup, :linecolor, :lightgray)
-    if haskey(backup, :linestyle)
-        linestyle := backup[:linestyle]
-    end
-    if haskey(backup, :linewidth)
-        linewidth := backup[:linewidth]
-    end
+    linecolor := :lightgray
    bbx_mag = (x1 + x2) / 2
    bby_mag = (y1 + y2) / 2
    xi_lens, yi_lens =
@ -1074,8 +1054,8 @@ export lens!
        @series begin
            primary := false
            subplot := sp_index
-            x := RecipesPipeline.scale_func(xscale).([xi_mag, xi_lens])
-            y := RecipesPipeline.scale_func(yscale).([yi_mag, yi_lens])
+            x := [xi_mag, xi_lens]
+            y := [yi_mag, yi_lens]
            ()
        end
    end
@ -1083,8 +1063,8 @@ export lens!
    @series begin
        primary := false
        subplot := sp_index
-        x := RecipesPipeline.scale_func(xscale).([x1, x1, x2, x2, x1])
-        y := RecipesPipeline.scale_func(yscale).([y1, y2, y2, y1, y1])
+        x := [x1, x1, x2, x2, x1]
+        y := [y1, y2, y2, y1, y1]
        ()
    end
    # add subplot
@ -1093,8 +1073,8 @@ export lens!
            plotattributes = merge(backup, copy(series.plotattributes))
            subplot := lens_index
            primary := false
-            xlims := RecipesPipeline.scale_func(xscale).((x1, x2))
-            ylims := RecipesPipeline.scale_func(yscale).((y1, y2))
+            xlims := (x1, x2)
+            ylims := (y1, y2)
            ()
        end
    end
@ -1140,13 +1120,6 @@ end
 # Error Bars

 function error_style!(plotattributes::AKW)
-    # errorbar color should soley determined by markerstrokecolor
-    if haskey(plotattributes, :marker_z)
-        reset_kw!(plotattributes, :marker_z)
-    end
-    if haskey(plotattributes, :line_z)
-        reset_kw!(plotattributes, :line_z)
-    end
    msc = plotattributes[:markerstrokecolor]
    msc = if msc === :match
        plotattributes[:subplot][:foreground_color_subplot]
@ -1389,8 +1362,7 @@ function clamp_greys!(mat::AMat{<:Gray})
 end

@recipe function f(mat::AMat{<:Gray})
-    n, m = map(a -> range(0.5, stop = a.stop + 0.5), axes(mat))
-
+    n, m = axes(mat)
    if is_seriestype_supported(:image)
        seriestype := :image
        yflip --> true
@ -1408,7 +1380,7 @@ end

 # images - colors
@recipe function f(mat::AMat{T}) where {T<:Colorant}
-    n, m = map(a -> range(0.5, stop = a.stop + 0.5), axes(mat))
+    n, m = axes(mat)

    if is_seriestype_supported(:image)
        seriestype := :image
@ -1632,6 +1604,7 @@ end

@nospecialize

+"Adds ax+b... straight line over the current plot, without changing the axis limits"
 abline!(plt::Plot, a, b; kw...) =
    plot!(plt, [0, 1], [b, b + a]; seriestype = :straightline, kw...)

@ -1676,6 +1649,16 @@ end
    end
 end

+"""
+    areaplot([x,] y)
+    areaplot!([x,] y)
+
+Draw a stacked area plot of the matrix y.
+# Examples
+```julia-repl
+julia> areaplot(1:3, [1 2 3; 7 8 9; 4 5 6], seriescolor = [:red :green :blue], fillalpha = [0.2 0.3 0.4])
+```
+"""
@userplot AreaPlot

@recipe function f(a::AreaPlot)
--- a/src/shorthands.jl
+++ b/src/shorthands.jl
@ -348,10 +348,10 @@ Make a box and whisker plot.

 # Keyword arguments
 - `notch`: Bool. Notch the box plot? (false)
- `whisker_range`: Real. Whiskers extend `whisker_range`*IQR below the first quartile
-           and above the third quartile. Values outside this range are shown as outliers (1.5)
+- `range`: Real. Values more than range*IQR below the first quartile
+           or above the third quartile are shown as outliers (1.5)
 - `outliers`: Bool. Show outliers? (true)
- `whisker_width`: Real or Symbol. Length of whiskers; the options are `:match` to match the box width, `:half`, or a number to indicate the total length. (:half)
+- `whisker_width`: Real or Symbol. Length of whiskers (:match)

 # Example
 ```julia-repl
@ -472,33 +472,10 @@ yflip!(flip::Bool = true; kw...) = plot!(; yflip = flip, kw...)

 "Specify x axis attributes for an existing plot"
 xaxis!(args...; kw...) = plot!(; xaxis = args, kw...)
-xgrid!(args...; kw...) = plot!(; xgrid = args, kw...)

 "Specify y axis attributes for an existing plot"
 yaxis!(args...; kw...) = plot!(; yaxis = args, kw...)
+xgrid!(args...; kw...) = plot!(; xgrid = args, kw...)
 ygrid!(args...; kw...) = plot!(; ygrid = args, kw...)

-@doc """
-   abline!([plot,] a, b; kwargs...)
-
-Adds ax+b... straight line over the current plot, without changing the axis limits
-""" abline!
-
-@doc """
-    areaplot([x,] y)
-    areaplot!([x,] y)
-
-Draw a stacked area plot of the matrix y.
-# Examples
-```julia-repl
-julia> areaplot(1:3, [1 2 3; 7 8 9; 4 5 6], seriescolor = [:red :green :blue], fillalpha = [0.2 0.3 0.4])
-```
-""" areaplot
-
-@doc """
-    lens!([plot,] x, y, inset = (sp_index, bbox(x1, x2, y1, y2)))
-
-Magnify a region of a plot given by `x` and `y`.
-`sp_index` is the index of the subplot and `x1`, `x2`, `y1` and `y2` should be between `0` and `1`.
-""" lens!
@specialize
--- a/src/utils.jl
+++ b/src/utils.jl
@ -103,10 +103,7 @@ function series_segments(series::Series, seriestype::Symbol = :path; check = fal

    segments = if has_attribute_segments(series)
        Iterators.flatten(map(nan_segments) do r
-                if seriestype == :shape
-                    warn_on_inconsistent_shape_attr(series, x, y, z, r)
-                    (SeriesSegment(r, first(r)),)
-                elseif seriestype in (:scatter, :scatter3d)
+                if seriestype in (:scatter, :scatter3d)
                    (SeriesSegment(i:i, i) for i in r)
                else
                    (SeriesSegment(i:(i + 1), i) for i in first(r):(last(r) - 1))
@ -143,16 +140,6 @@ function warn_on_attr_dim_mismatch(series, x, y, z, segments)
    end
 end

-function warn_on_inconsistent_shape_attr(series, x, y, z, r)
-    for attr in _segmenting_vector_attributes
-        v = get(series, attr, nothing)
-        if v isa AVec && length(unique(v[r])) > 1
-            @warn "Different values of `$attr` specified for different shape vertices. Only first one will be used."
-            break
-        end
-    end
-end
-
 # helpers to figure out if there are NaN values in a list of array types
 anynan(i::Int, args::Tuple) = any(a -> try
    isnan(_cycle(a, i))
@ -215,12 +202,14 @@ makevec(v::T) where {T} = T[v]
 maketuple(x::Real) = (x, x)
 maketuple(x::Tuple{T,S}) where {T,S} = x

-RecipesPipeline.unzip(v) = unzip(v)
-RecipesPipeline.unzip(points::AbstractVector{<:GeometryBasics.Point}) =
-    unzip(Tuple.(points))
-RecipesPipeline.unzip(points::AbstractVector{GeometryBasics.Point{N,T}}) where {N,T} =
-    isbitstype(T) && sizeof(T) > 0 ? unzip(reinterpret(NTuple{N,T}, points)) :
-    unzip(Tuple.(points))
+RecipesPipeline.unzip(v::Union{AVec{<:Tuple},AVec{<:GeometryBasics.Point}) = tuple((([t[j] for t in v]) for j in 1:length(v[1]))...) 
+                                        
+RecipesPipeline.unzip(
+    ::Union{AVec{<:GeometryBasics.Point{N}},AVec{<:Tuple}},
+) where {N} = error("$N-dimensional unzip not implemented.")
+
+RecipesPipeline.unzip(::Union{AVec{<:GeometryBasics.Point},AVec{<:Tuple}}) =
+    error("Can't unzip points of different dimensions.")

 # given 2-element lims and a vector of data x, widen lims to account for the extrema of x
 function _expand_limits(lims, x)
@ -377,7 +366,8 @@ nanappend!(a::AbstractVector, b) = (push!(a, NaN); append!(a, b))
 function nansplit(v::AVec)
    vs = Vector{eltype(v)}[]
    while true
-        if (idx = findfirst(isnan, v)) === nothing
+        idx = findfirst(isnan, v)
+        if idx <= 0
            # no nans
            push!(vs, v)
            break
@ -433,9 +423,9 @@ end

 #turn tuple of fillranges to one path
 function concatenate_fillrange(x, y::Tuple)
-    rib1, rib2 = collect(first(y)), collect(last(y)) # collect needed until https://github.com/JuliaLang/julia/pull/37629 is merged
-    yline = vcat(rib1, reverse(rib2))
-    xline = vcat(x, reverse(x))
+    rib1, rib2 = first(y), last(y)
+    yline = vcat(rib1, (rib2)[end:-1:1])
+    xline = vcat(x, x[end:-1:1])
    return xline, yline
 end

@ -504,7 +494,7 @@ for comp in (:line, :fill, :marker)
            end
        end

-        $get_compcolor(series, clims::Tuple{<:Number,<:Number}, i::Int = 1) =
+        $get_compcolor(series, clims, i::Int = 1) =
            $get_compcolor(series, clims[1], clims[2], i)

        function $get_compcolor(series, i::Int = 1)
@ -577,6 +567,7 @@ const _segmenting_array_attributes = :line_z, :fill_z, :marker_z
 function has_attribute_segments(series::Series)
    # we want to check if a series needs to be split into segments just because
    # of its attributes
+    series[:seriestype] == :shape && return false
    # check relevant attributes if they have multiple inputs
    return any(
        series[attr] isa AbstractVector && length(series[attr]) > 1 for
@ -651,7 +642,7 @@ function with(f::Function, args...; kw...)
        newdefs[:xticks] = nothing
        newdefs[:yticks] = nothing
        newdefs[:grid] = false
-        newdefs[:legend_position] = false
+        newdefs[:legend] = false
    end

    # dict to store old and new keyword args for anything that changes
@ -986,21 +977,21 @@ titlefont(sp::Subplot) = font(;
 )

 legendfont(sp::Subplot) = font(;
-    family = sp[:legend_font_family],
-    pointsize = sp[:legend_font_pointsize],
-    valign = sp[:legend_font_valign],
-    halign = sp[:legend_font_halign],
-    rotation = sp[:legend_font_rotation],
-    color = sp[:legend_font_color],
+    family = sp[:legendfontfamily],
+    pointsize = sp[:legendfontsize],
+    valign = sp[:legendfontvalign],
+    halign = sp[:legendfonthalign],
+    rotation = sp[:legendfontrotation],
+    color = sp[:legendfontcolor],
 )

 legendtitlefont(sp::Subplot) = font(;
-    family = sp[:legend_title_font_family],
-    pointsize = sp[:legend_title_font_pointsize],
-    valign = sp[:legend_title_font_valign],
-    halign = sp[:legend_title_font_halign],
-    rotation = sp[:legend_title_font_rotation],
-    color = sp[:legend_title_font_color],
+    family = sp[:legendtitlefontfamily],
+    pointsize = sp[:legendtitlefontsize],
+    valign = sp[:legendtitlefontvalign],
+    halign = sp[:legendtitlefonthalign],
+    rotation = sp[:legendtitlefontrotation],
+    color = sp[:legendtitlefontcolor],
 )

 tickfont(ax::Axis) = font(;
@ -1184,10 +1175,16 @@ end
 _document_argument(S::AbstractString) =
    _fmt_paragraph("`$S`: " * _arg_desc[Symbol(S)], leadingspaces = 6 + length(S))

-function mesh3d_triangles(x, y, z, cns::Tuple{Array,Array,Array})
-    ci, cj, ck = cns
-    if !(length(ci) == length(cj) == length(ck))
-        throw(ArgumentError("Argument connections must consist of equally sized arrays."))
+function mesh3d_triangles(x, y, z, cns)
+    if typeof(cns) <: Tuple{Array,Array,Array}
+        ci, cj, ck = cns
+        if !(length(ci) == length(cj) == length(ck))
+            throw(
+                ArgumentError("Argument connections must consist of equally sized arrays."),
+            )
+        end
+    else
+        throw(ArgumentError("Argument connections has to be a tuple of three arrays."))
    end
    X = zeros(eltype(x), 4length(ci))
    Y = zeros(eltype(y), 4length(cj))
@ -1213,36 +1210,8 @@ function mesh3d_triangles(x, y, z, cns::Tuple{Array,Array,Array})
    return X, Y, Z
 end

-function mesh3d_triangles(x, y, z, cns::AbstractVector{NTuple{3,Int}})
-    X = zeros(eltype(x), 4length(cns))
-    Y = zeros(eltype(y), 4length(cns))
-    Z = zeros(eltype(z), 4length(cns))
-    @inbounds for I in 1:length(cns)
-        i = cns[I][1]  # connections are 1-based
-        j = cns[I][2]
-        k = cns[I][3]
-        m = 4(I - 1) + 1
-        n = m + 1
-        o = m + 2
-        p = m + 3
-        X[m] = X[p] = x[i]
-        Y[m] = Y[p] = y[i]
-        Z[m] = Z[p] = z[i]
-        X[n] = x[j]
-        Y[n] = y[j]
-        Z[n] = z[j]
-        X[o] = x[k]
-        Y[o] = y[k]
-        Z[o] = z[k]
-    end
-    return X, Y, Z
-end
-
 # cache joined symbols so they can be looked up instead of constructed each time
 const _attrsymbolcache = Dict{Symbol,Dict{Symbol,Symbol}}()

 get_attr_symbol(letter::Symbol, keyword::String) = get_attr_symbol(letter, Symbol(keyword))
 get_attr_symbol(letter::Symbol, keyword::Symbol) = _attrsymbolcache[letter][keyword]
-
-texmath2unicode(s::AbstractString, pat = r"\$([^$]+)\$") =
-    replace(s, pat => m -> UnicodeFun.to_latex(m[2:(length(m) - 1)]))
--- a/test/imgcomp.jl
+++ b/test/imgcomp.jl
@ -13,6 +13,7 @@ function replace_rand!(ex::Expr)
 end
 function fix_rand!(ex)
    replace_rand!(ex)
+    pushfirst!(ex.args[1].args, :(rng = StableRNG(PLOTS_SEED)))
 end

 function image_comparison_tests(
@ -38,13 +39,10 @@ function image_comparison_tests(

    # test function
    func = (fn, idx) -> begin
-        eval(:(rng = StableRNG(PLOTS_SEED)))
-        for the_expr in example.exprs
-            expr = Expr(:block)
-            push!(expr.args, the_expr)
-            fix_rand!(expr)
-            eval(expr)
-        end
+        expr = Expr(:block)
+        append!(expr.args, example.exprs)
+        fix_rand!(expr)
+        eval(expr)
        png(fn)
    end

--- a/test/runtests.jl
+++ b/test/runtests.jl
@ -1,20 +1,18 @@
 using Plots: guidefont, series_annotations, PLOTS_SEED
-
-using VisualRegressionTests
-using RecipesBase
-using StableRNGs
-using TestImages
-using LibGit2
-using Random
-using FileIO
-using Plots
-using Dates
-using JSON
-using Test
-using Gtk
-
-import GeometryBasics
 import ImageMagick
+using VisualRegressionTests
+using Plots
+using Random
+using StableRNGs
+using Test
+using TestImages
+using FileIO
+using Gtk
+using LibGit2
+import GeometryBasics
+using Dates
+using RecipesBase
+using JSON

@testset "Infrastructure" begin
    @test_nowarn JSON.Parser.parse(
@ -35,299 +33,20 @@ end
    end
    Plots.plotly_local_file_path[] = nothing
    Plots.use_local_dependencies[] = temp
-end
+end # testset

-@testset "Utils" begin
-    zipped = (
-        [(1, 2)],
-        [("a", "b")],
-        [(1, "a"), (2, "b")],
-        [(1, 2), (3, 4)],
-        [(1, 2, 3), (3, 4, 5)],
-        [(1, 2, 3, 4), (3, 4, 5, 6)],
-        [(1, 2.0), (missing, missing)],
-        [(1, missing), (missing, "a")],
-        [(missing, missing)],
-        [(missing, missing, missing), ("a", "b", "c")],
-    )
-    for z in zipped
-        @test isequal(collect(zip(Plots.RecipesPipeline.unzip(z)...)), z)
-        @test isequal(
-            collect(zip(Plots.RecipesPipeline.unzip(GeometryBasics.Point.(z))...)),
-            z,
-        )
-    end
-    op1 = Plots.process_clims((1.0, 2.0))
-    op2 = Plots.process_clims((1, 2.0))
-    data = randn(100, 100)
-    @test op1(data) == op2(data)
-    @test Plots.process_clims(nothing) ==
-          Plots.process_clims(missing) ==
-          Plots.process_clims(:auto)
-
-    @test (==)(
-        Plots.texmath2unicode(
-            raw"Equation $y = \alpha \cdot x + \beta$ and eqn $y = \sin(x)^2$",
-        ),
-        raw"Equation y = α ⋅ x + β and eqn y = sin(x)²",
-    )
-
-    @test Plots.isvector([1, 2])
-    @test !Plots.isvector(nothing)
-    @test Plots.ismatrix([1 2; 3 4])
-    @test !Plots.ismatrix(nothing)
-    @test Plots.isscalar(1.0)
-    @test !Plots.isscalar(nothing)
-    @test Plots.tovec([]) isa AbstractVector
-    @test Plots.tovec(nothing) isa AbstractVector
-    @test Plots.anynan(1, 3, (1, NaN, 3))
-    @test Plots.allnan(1, 2, (NaN, NaN, 1))
-    @test Plots.makevec([]) isa AbstractVector
-    @test Plots.makevec(1) isa AbstractVector
-    @test Plots.maketuple(1) == (1, 1)
-    @test Plots.maketuple((1, 1)) == (1, 1)
-    @test Plots.ok(1, 2)
-    @test !Plots.ok(1, 2, NaN)
-    @test Plots.ok((1, 2, 3))
-    @test !Plots.ok((1, 2, NaN))
-    @test Plots.nansplit([1, 2, NaN, 3, 4]) == [[1.0, 2.0], [3.0, 4.0]]
-    @test Plots.nanvcat([1, NaN]) |> length == 4
-
-    @test Plots.nop() === nothing
-    @test_throws ErrorException Plots.notimpl()
-
-    @test Plots.inch2px(1) isa AbstractFloat
-    @test Plots.px2inch(1) isa AbstractFloat
-    @test Plots.inch2mm(1) isa AbstractFloat
-    @test Plots.mm2inch(1) isa AbstractFloat
-    @test Plots.px2mm(1) isa AbstractFloat
-    @test Plots.mm2px(1) isa AbstractFloat
-
-    p = plot()
-    @test xlims() isa Tuple
-    @test ylims() isa Tuple
-    @test zlims() isa Tuple
-
-    Plots.makekw(foo = 1, bar = 2) isa Dict
-
-    @test_throws ErrorException Plots.inline()
-    @test_throws ErrorException Plots._do_plot_show(plot(), :inline)
-    @test_throws ErrorException Plots.dumpcallstack()
-
-    Plots.debugplots(true)
-    Plots.debugplots(false)
-    Plots.debugshow(devnull, nothing)
-    Plots.debugshow(devnull, [1])
-
-    p = plot(1)
-    push!(p, 1.5)
-    push!(p, 1, 1.5)
-    # append!(p, [1., 2.])
-    append!(p, 1, 2.5, 2.5)
-    push!(p, (1.5, 2.5))
-    push!(p, 1, (1.5, 2.5))
-    append!(p, (1.5, 2.5))
-    append!(p, 1, (1.5, 2.5))
-
-    p = plot([1, 2, 3], [4, 5, 6])
-    @test Plots.xmin(p) == 1
-    @test Plots.xmax(p) == 3
-    @test Plots.ignorenan_extrema(p) == (1, 3)
-
-    @test Plots.get_attr_symbol(:x, "lims") == :xlims
-    @test Plots.get_attr_symbol(:x, :lims) == :xlims
-
-    @testset "NaN-separated Segments" begin
-        segments(args...) = collect(iter_segments(args...))
-
-        nan10 = fill(NaN, 10)
-        @test segments(11:20) == [1:10]
-        @test segments([NaN]) == []
-        @test segments(nan10) == []
-        @test segments([nan10; 1:5]) == [11:15]
-        @test segments([1:5; nan10]) == [1:5]
-        @test segments([nan10; 1:5; nan10; 1:5; nan10]) == [11:15, 26:30]
-        @test segments([NaN; 1], 1:10) == [2:2, 4:4, 6:6, 8:8, 10:10]
-        @test segments([nan10; 1:15], [1:15; nan10]) == [11:15]
-    end
-end
-
-@testset "Axes" begin
-    p = plot()
-    axis = p.subplots[1][:xaxis]
-    @test typeof(axis) == Plots.Axis
-    @test Plots.discrete_value!(axis, "HI") == (0.5, 1)
-    @test Plots.discrete_value!(axis, :yo) == (1.5, 2)
-    @test Plots.ignorenan_extrema(axis) == (0.5, 1.5)
-    @test axis[:discrete_map] == Dict{Any,Any}(:yo => 2, "HI" => 1)
-
-    Plots.discrete_value!(axis, ["x$i" for i in 1:5])
-    Plots.discrete_value!(axis, ["x$i" for i in 0:2])
-    @test Plots.ignorenan_extrema(axis) == (0.5, 7.5)
-end
-
-@testset "NoFail" begin
-    # ensure backend with tested display
-    @test unicodeplots() == Plots.UnicodePlotsBackend()
-    @test backend() == Plots.UnicodePlotsBackend()
-
-    dsp = TextDisplay(IOContext(IOBuffer(), :color => true))
-
-    @testset "plot" begin
-        for plt in [
-            histogram([1, 0, 0, 0, 0, 0]),
-            plot([missing]),
-            plot([missing, missing]),
-            plot(fill(missing, 10)),
-            plot([missing; 1:4]),
-            plot([fill(missing, 10); 1:4]),
-            plot([1 1; 1 missing]),
-            plot(["a" "b"; missing "d"], [1 2; 3 4]),
-        ]
-            display(dsp, plt)
-        end
-        @test_nowarn plot(x -> x^2, 0, 2)
-    end
-
-    @testset "bar" begin
-        p = bar([3, 2, 1], [1, 2, 3])
-        @test p isa Plots.Plot
-        @test display(dsp, p) isa Nothing
-    end
-
-    @testset "gui" begin
-        open(tempname(), "w") do io
-            redirect_stdout(io) do
-                gui(plot())
-            end
-        end
-    end
-end
-
-@testset "Coverage" begin
-    @testset "themes" begin
-        p = showtheme(:dark)
-        @test p isa Plots.Plot
-    end
-
-    @testset "plotattr" begin
-        tmp = tempname()
-        open(tmp, "w") do io
-            redirect_stdout(io) do
-                plotattr("seriestype")
-                plotattr(:Plot)
-                plotattr()
-            end
-        end
-        str = join(readlines(tmp), "")
-        @test occursin("seriestype", str)
-        @test occursin("Plot attributes", str)
-    end
-
-    @testset "legend" begin
-        @test isa(
-            Plots.legend_pos_from_angle(20, 0.0, 0.5, 1.0, 0.0, 0.5, 1.0),
-            NTuple{2,<:AbstractFloat},
-        )
-        @test Plots.legend_anchor_index(-1) == 1
-        @test Plots.legend_anchor_index(+0) == 2
-        @test Plots.legend_anchor_index(+1) == 3
-
-        @test Plots.legend_angle(:foo_bar) == (45, :inner)
-        @test Plots.legend_angle(20.0) ==
-              Plots.legend_angle((20.0, :inner)) ==
-              (20.0, :inner)
-        @test Plots.legend_angle((20.0, 10.0)) == (20.0, 10.0)
-    end
-end
-
-@testset "Output" begin
-    @test Plots.defaultOutputFormat(plot()) == "png"
-    @test Plots.addExtension("foo", "bar") == "foo.bar"
-
-    fn = tempname()
-    gr()
-    let p = plot()
-        Plots.png(p, fn)
-        Plots.png(fn)
-        savefig(p, "$fn.png")
-        savefig("$fn.png")
-
-        Plots.pdf(p, fn)
-        Plots.pdf(fn)
-        savefig(p, "$fn.pdf")
-        savefig("$fn.pdf")
-
-        Plots.ps(p, fn)
-        Plots.ps(fn)
-        savefig(p, "$fn.ps")
-        savefig("$fn.ps")
-
-        Plots.svg(p, fn)
-        Plots.svg(fn)
-        savefig(p, "$fn.svg")
-        savefig("$fn.svg")
-    end
-
-    if Sys.islinux()
-        pgfplotsx()
-        let p = plot()
-            Plots.tex(p, fn)
-            Plots.tex(fn)
-            savefig(p, "$fn.tex")
-            savefig("$fn.tex")
-        end
-    end
-
-    unicodeplots()
-    let p = plot()
-        Plots.txt(p, fn)
-        Plots.txt(fn)
-        savefig(p, "$fn.txt")
-        savefig("$fn.txt")
-    end
-
-    plotlyjs()
-    let p = plot()
-        Plots.html(p, fn)
-        Plots.html(fn)
-        savefig(p, "$fn.html")
-        savefig("$fn.html")
-
-        if Sys.islinux()
-            Plots.eps(p, fn)
-            Plots.eps(fn)
-            savefig(p, "$fn.eps")
-            savefig("$fn.eps")
-        end
-    end
-
-    @test_throws ErrorException savefig("$fn.foo")
-end
-
-gr()  # reset to default backend
-
-for fn in (
-    "test_args.jl",
-    "test_defaults.jl",
-    "test_pipeline.jl",
-    "test_axes.jl",
-    "test_layouts.jl",
-    "test_contours.jl",
-    "test_axis_letter.jl",
-    "test_components.jl",
-    "test_shorthands.jl",
-    "integration_dates.jl",
-    "test_recipes.jl",
-    "test_hdf5plots.jl",
-    "test_pgfplotsx.jl",
-    "test_plotly.jl",
-    "test_animations.jl",
-)
-    @testset "$fn" begin
-        include(fn)
-    end
-end
+include("test_defaults.jl")
+include("test_pipeline.jl")
+include("test_axes.jl")
+include("test_contours.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("test_plotly.jl")

 reference_dir(args...) =
    joinpath(homedir(), ".julia", "dev", "PlotReferenceImages", args...)
@ -336,6 +55,7 @@ function reference_file(backend, i, version)
    refdir = reference_dir("Plots", string(backend))
    fn = "ref$i.png"
    versions = sort(VersionNumber.(readdir(refdir)), rev = true)
+
    reffn = joinpath(refdir, string(version), fn)
    for v in versions
        tmpfn = joinpath(refdir, string(v), fn)
@ -344,6 +64,7 @@ function reference_file(backend, i, version)
            break
        end
    end
+
    return reffn
 end

@ -358,15 +79,11 @@ if !isdir(reference_dir())
 end

 include("imgcomp.jl")
+# don't actually show the plots
 Random.seed!(PLOTS_SEED)
-
-default(show = false, reuse = true)  # don't actually show the plots
-
+default(show = false, reuse = true)
 is_ci() = get(ENV, "CI", "false") == "true"
-const PLOTS_IMG_TOL = parse(
-    Float64,
-    get(ENV, "PLOTS_IMG_TOL", is_ci() ? Sys.iswindows() ? "2e-4" : "1e-4" : "1e-5"),
-)
+const PLOTS_IMG_TOL = parse(Float64, get(ENV, "PLOTS_IMG_TOL", is_ci() ? "1e-4" : "1e-5"))

 ## Uncomment the following lines to update reference images for different backends

@ -389,72 +106,11 @@ const PLOTS_IMG_TOL = parse(
 #     image_comparison_facts(:pgfplotsx, tol=PLOTS_IMG_TOL, skip = Plots._backend_skips[:pgfplotsx])
 # end

+# 10 Histogram2D
+
 ##

-@testset "Examples" begin
-    if Sys.islinux()
-        backends = (
-            :unicodeplots,
-            :pgfplotsx,
-            :inspectdr,
-            :plotlyjs,
-            :gaston,
-            # :pyplot,  # FIXME: fails with system matplotlib
-        )
-        only = setdiff(
-            1:length(Plots._examples),
-            (Plots._backend_skips[be] for be in backends)...,
-        )
-        for be in backends
-            @info be
-            for (i, p) in Plots.test_examples(be, only = only, disp = false)
-                fn = tempname() * ".png"
-                png(p, fn)
-                @test filesize(fn) > 1_000
-            end
-        end
-    end
-end
-
@testset "Backends" begin
-    @testset "UnicodePlots" begin
-        @test unicodeplots() == Plots.UnicodePlotsBackend()
-        @test backend() == Plots.UnicodePlotsBackend()
-
-        io = IOContext(IOBuffer(), :color => true)
-
-        # lets just make sure it runs without error
-        p = plot(rand(10))
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-
-        p = bar(randn(10))
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-
-        p = plot([1, 2], [3, 4])
-        annotate!(p, [(1.5, 3.2, Plots.text("Test", :red, :center))])
-        hline!(p, [3.1])
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-
-        p = plot([Dates.Date(2019, 1, 1), Dates.Date(2019, 2, 1)], [3, 4])
-        hline!(p, [3.1])
-        annotate!(p, [(Dates.Date(2019, 1, 15), 3.2, Plots.text("Test", :red, :center))])
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-
-        p = plot([Dates.Date(2019, 1, 1), Dates.Date(2019, 2, 1)], [3, 4])
-        annotate!(p, [(Dates.Date(2019, 1, 15), 3.2, :auto)])
-        hline!(p, [3.1])
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-
-        p = plot((plot(i) for i in 1:4)..., layout = (2, 2))
-        @test p isa Plots.Plot
-        @test show(io, p) isa Nothing
-    end
-
    @testset "GR" begin
        ENV["PLOTS_TEST"] = "true"
        ENV["GKSwstype"] = "100"
@ -472,12 +128,130 @@ end
        end
    end

+    @testset "UnicodePlots" begin
+        @test unicodeplots() == Plots.UnicodePlotsBackend()
+        @test backend() == Plots.UnicodePlotsBackend()
+
+        # lets just make sure it runs without error
+        p = plot(rand(10))
+        @test isa(p, Plots.Plot) == true
+        @test isa(display(p), Nothing) == true
+        p = bar(randn(10))
+        @test isa(p, Plots.Plot) == true
+        @test isa(display(p), Nothing) == true
+        p = plot([1, 2], [3, 4])
+        annotate!(p, [(1.5, 3.2, Plots.text("Test", :red, :center))])
+        hline!(p, [3.1])
+        @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])
+        hline!(p, [3.1])
+        annotate!(p, [(Dates.Date(2019, 1, 15), 3.2, Plots.text("Test", :red, :center))])
+        @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)])
+        hline!(p, [3.1])
+        @test isa(p, Plots.Plot) == true
+        @test isa(display(p), Nothing) == true
+    end
+
    @testset "PlotlyJS" begin
        @test plotlyjs() == Plots.PlotlyJSBackend()
        @test backend() == Plots.PlotlyJSBackend()

        p = plot(rand(10))
-        @test p isa Plots.Plot
-        @test_broken display(p) isa Nothing
+        @test isa(p, Plots.Plot) == true
+        @test_broken isa(display(p), Nothing) == true
    end
 end
+
+@testset "Axes" begin
+    p = plot()
+    axis = p.subplots[1][:xaxis]
+    @test typeof(axis) == Plots.Axis
+    @test Plots.discrete_value!(axis, "HI") == (0.5, 1)
+    @test Plots.discrete_value!(axis, :yo) == (1.5, 2)
+    @test Plots.ignorenan_extrema(axis) == (0.5, 1.5)
+    @test axis[:discrete_map] == Dict{Any,Any}(:yo => 2, "HI" => 1)
+
+    Plots.discrete_value!(axis, ["x$i" for i in 1:5])
+    Plots.discrete_value!(axis, ["x$i" for i in 0:2])
+    @test Plots.ignorenan_extrema(axis) == (0.5, 7.5)
+end
+
+@testset "NoFail" begin
+    #ensure backend with tested display
+    @test unicodeplots() == Plots.UnicodePlotsBackend()
+    @test backend() == Plots.UnicodePlotsBackend()
+
+    @testset "Plot" begin
+        plots = [
+            histogram([1, 0, 0, 0, 0, 0]),
+            plot([missing]),
+            plot([missing, missing]),
+            plot(fill(missing, 10)),
+            plot([missing; 1:4]),
+            plot([fill(missing, 10); 1:4]),
+            plot([1 1; 1 missing]),
+            plot(["a" "b"; missing "d"], [1 2; 3 4]),
+        ]
+        for plt in plots
+            display(plt)
+        end
+        @test_nowarn plot(x -> x^2, 0, 2)
+    end
+
+    @testset "Bar" begin
+        p = bar([3, 2, 1], [1, 2, 3])
+        @test isa(p, Plots.Plot)
+        @test isa(display(p), Nothing) == true
+    end
+end
+
+@testset "EmptyAnim" begin
+    anim = @animate for i in []
+    end
+
+    @test_throws ArgumentError gif(anim)
+end
+
+@testset "NaN-separated Segments" begin
+    segments(args...) = collect(iter_segments(args...))
+
+    nan10 = fill(NaN, 10)
+    @test segments(11:20) == [1:10]
+    @test segments([NaN]) == []
+    @test segments(nan10) == []
+    @test segments([nan10; 1:5]) == [11:15]
+    @test segments([1:5; nan10]) == [1:5]
+    @test segments([nan10; 1:5; nan10; 1:5; nan10]) == [11:15, 26:30]
+    @test segments([NaN; 1], 1:10) == [2:2, 4:4, 6:6, 8:8, 10:10]
+    @test segments([nan10; 1:15], [1:15; nan10]) == [11:15]
+end
+
+@testset "Utils" begin
+    zipped = (
+        [(1, 2)],
+        [("a", "b")],
+        [(1, "a"), (2, "b")],
+        [(1, 2), (3, 4)],
+        [(1, 2, 3), (3, 4, 5)],
+        [(1, 2, 3, 4), (3, 4, 5, 6)],
+        [(1, 2.0), (missing, missing)],
+        [(1, missing), (missing, "a")],
+        [(missing, missing)],
+        [(missing, missing, missing), ("a", "b", "c")],
+    )
+    for z in zipped
+        @test isequal(collect(zip(Plots.unzip(z)...)), z)
+        @test isequal(collect(zip(Plots.unzip(GeometryBasics.Point.(z))...)), z)
+    end
+    op1 = Plots.process_clims((1.0, 2.0))
+    op2 = Plots.process_clims((1, 2.0))
+    data = randn(100, 100)
+    @test op1(data) == op2(data)
+    @test Plots.process_clims(nothing) ==
+          Plots.process_clims(missing) ==
+          Plots.process_clims(:auto)
+end
--- a/test/test_animations.jl
+++ b/test/test_animations.jl
@ -1,61 +0,0 @@
-
-@testset "Empty anim" begin
-    anim = @animate for i in []
-    end
-    @test_throws ArgumentError gif(anim)
-end
-
-@userplot CirclePlot
-@recipe function f(cp::CirclePlot)
-    x, y, i = cp.args
-    n = length(x)
-    inds = circshift(1:n, 1 - i)
-    linewidth --> range(0, 10, length = n)
-    seriesalpha --> range(0, 1, length = n)
-    aspect_ratio --> 1
-    label --> false
-    x[inds], y[inds]
-end
-
-@testset "Circle plot" begin
-    n = 10
-    t = range(0, 2π, length = n)
-    x = sin.(t)
-    y = cos.(t)
-
-    anim = @animate for i in 1:n
-        circleplot(x, y, i)
-    end
-    @test filesize(gif(anim).filename) > 10_000
-    @test filesize(mov(anim).filename) > 10_000
-    @test filesize(mp4(anim).filename) > 10_000
-    @test filesize(webm(anim).filename) > 10_000
-
-    @gif for i in 1:n
-        circleplot(x, y, i, line_z = 1:n, cbar = false, framestyle = :zerolines)
-    end every 5
-end
-
-@testset "html" begin
-    p = plot([sin, cos], zeros(0), leg = false, xlims = (0, 2π), ylims = (-1, 1))
-    anim = Animation()
-    for x in range(0, stop = 2π, length = 10)
-        push!(p, x, Float64[sin(x), cos(x)])
-        frame(anim)
-    end
-
-    agif = gif(anim)
-    html = tempname() * ".html"
-    open(html, "w") do io
-        show(io, MIME("text/html"), agif)
-    end
-    @test filesize(html) > 10_000
-    @test showable(MIME("image/gif"), agif)
-
-    agif = mp4(anim)
-    html = tempname() * ".html"
-    open(html, "w") do io
-        show(io, MIME("text/html"), agif)
-    end
-    @test filesize(html) > 10_000
-end
--- a/test/test_args.jl
+++ b/test/test_args.jl
@ -1,27 +0,0 @@
-using Plots, Test
-
-@testset "Series Attributes" begin
-    pl = plot([[1, 2, 3], [2, 3, 4]], lw = 5)
-    @test hline!(deepcopy(pl), [1.75])[1].series_list[3][:label] ==
-          hline!(deepcopy(pl), [1.75], z_order = :front)[1].series_list[3][:label] ==
-          "y3"
-    @test hline!(deepcopy(pl), [1.75], z_order = :back)[1].series_list[1][:label] == "y3"
-    @test hline!(deepcopy(pl), [1.75], z_order = 2)[1].series_list[2][:label] == "y3"
-end
-
-@testset "Axis Attributes" begin
-    pl = @test_nowarn plot(; tickfont = font(10, "Times"))
-    for axis in (:xaxis, :yaxis, :zaxis)
-        @test pl[1][axis][:tickfontsize] == 10
-        @test pl[1][axis][:tickfontfamily] == "Times"
-    end
-end
-
-@testset "Permute recipes" begin
-    pl = bar(["a", "b", "c"], [1, 2, 3])
-    ppl = bar(["a", "b", "c"], [1, 2, 3], permute = (:x, :y))
-    @test xticks(ppl) == yticks(pl)
-    @test yticks(ppl) == xticks(pl)
-    @test filter(isfinite, pl[1][1][:x]) == filter(isfinite, ppl[1][1][:y])
-    @test filter(isfinite, pl[1][1][:y]) == filter(isfinite, ppl[1][1][:x])
-end
--- a/test/test_axes.jl
+++ b/test/test_axes.jl
@ -64,10 +64,7 @@ end
    @test twpl[:bottom_margin] == 2Plots.cm
 end

-@testset "axis-aliases" begin
-    @test haskey(Plots._keyAliases, :xguideposition)
-    @test haskey(Plots._keyAliases, :x_guide_position)
-    @test !haskey(Plots._keyAliases, :xguide_position)
+@testset "aliases" begin
    p = plot(1:2, xl = "x label")
    @test p[1][:xaxis][:guide] === "x label"
    p = plot(1:2, xrange = (0, 3))
@ -76,47 +73,18 @@ end
    @test p[1][:xaxis][:ticks] == [1.25, 1.5, 1.75]
    p = plot(1:2, xlabelfontsize = 4)
    @test p[1][:xaxis][:guidefontsize] == 4
-    p = plot(1:2, xgα = 0.07)
-    @test p[1][:xaxis][:gridalpha] ≈ 0.07
+    p = plot(1:2, xgα = .07)
+    @test p[1][:xaxis][:gridalpha] ≈ .07
    p = plot(1:2, xgridls = :dashdot)
    @test p[1][:xaxis][:gridstyle] === :dashdot
    p = plot(1:2, xgridcolor = :red)
-    @test p[1][:xaxis][:foreground_color_grid] === RGBA{Float64}(1.0, 0.0, 0.0, 1.0)
+    @test p[1][:xaxis][:foreground_color_grid] === RGBA{Float64}(1.,0.,0.,1.)
    p = plot(1:2, xminorgridcolor = :red)
-    @test p[1][:xaxis][:foreground_color_minor_grid] === RGBA{Float64}(1.0, 0.0, 0.0, 1.0)
-    p = plot(1:2, xgrid_lw = 0.01)
-    @test p[1][:xaxis][:gridlinewidth] ≈ 0.01
-    p = plot(1:2, xminorgrid_lw = 0.01)
-    @test p[1][:xaxis][:minorgridlinewidth] ≈ 0.01
+    @test p[1][:xaxis][:foreground_color_minor_grid] === RGBA{Float64}(1.,0.,0.,1.)
+    p = plot(1:2, xgrid_lw = .01)
+    @test p[1][:xaxis][:gridlinewidth] ≈ .01
+    p = plot(1:2, xminorgrid_lw = .01)
+    @test p[1][:xaxis][:minorgridlinewidth] ≈ .01
    p = plot(1:2, xtickor = :out)
    @test p[1][:xaxis][:tick_direction] === :out
 end
-
-@testset "aliases" begin
-    compare(p::Plots.Plot, s::Symbol, val, op) =
-        op(p[1][:xaxis][s], val) && op(p[1][:yaxis][s], val) && op(p[1][:zaxis][s], val)
-    p = plot(1:2, guide = "all labels")
-    @test compare(p, :guide, "all labels", ===)
-    p = plot(1:2, label = "test")
-    @test compare(p, :guide, "", ===)
-    p = plot(1:2, lim = (0, 3))
-    @test xlims(p) === ylims(p) === zlims(p) === (0, 3)
-    p = plot(1:2, tick = [1.25, 1.5, 1.75])
-    @test compare(p, :ticks, [1.25, 1.5, 1.75], ==)
-    p = plot(1:2, labelfontsize = 4)
-    @test compare(p, :guidefontsize, 4, ==)
-    p = plot(1:2, gα = 0.07)
-    @test compare(p, :gridalpha, 0.07, ≈)
-    p = plot(1:2, gridls = :dashdot)
-    @test compare(p, :gridstyle, :dashdot, ===)
-    p = plot(1:2, gridcolor = :red)
-    @test compare(p, :foreground_color_grid, RGBA{Float64}(1.0, 0.0, 0.0, 1.0), ===)
-    p = plot(1:2, minorgridcolor = :red)
-    @test compare(p, :foreground_color_minor_grid, RGBA{Float64}(1.0, 0.0, 0.0, 1.0), ===)
-    p = plot(1:2, grid_lw = 0.01)
-    @test compare(p, :gridlinewidth, 0.01, ≈)
-    p = plot(1:2, minorgrid_lw = 0.01)
-    @test compare(p, :minorgridlinewidth, 0.01, ≈)
-    p = plot(1:2, tickor = :out)
-    @test compare(p, :tick_direction, :out, ===)
-end
--- a/test/test_components.jl
+++ b/test/test_components.jl
@ -3,9 +3,6 @@ using Plots, Test
@testset "Shapes" begin
    @testset "Type" begin
        square = Shape([(0, 0.0), (1, 0.0), (1, 1.0), (0, 1.0)])
-        @test Plots.get_xs(square) == [0, 1, 1, 0]
-        @test Plots.get_ys(square) == [0, 0, 1, 1]
-        @test Plots.vertices(square) == [(0, 0), (1, 0), (1, 1), (0, 1)]
        @test isa(square, Shape{Int64,Float64})
        @test coords(square) isa Tuple{Vector{S},Vector{T}} where {T,S}
    end
@ -61,25 +58,6 @@ using Plots, Test
        @test_nowarn p = plot(myshapes)
        @test p[1][1][:seriestype] == :shape
    end
-
-    @testset "Misc" begin
-        @test Plots.weave([1, 3], [2, 4]) == collect(1:4)
-        @test Plots.makeshape(3) isa Plots.Shape
-        @test Plots.makestar(3) isa Plots.Shape
-        @test Plots.makecross() isa Plots.Shape
-        @test Plots.makearrowhead(10.0) isa Plots.Shape
-
-        @test Plots.rotate(1.0, 2.0, 5.0, (0, 0)) isa Tuple
-
-        star = Plots.makestar(3)
-        star_scaled = Plots.scale(star, 0.5)
-
-        Plots.scale!(star, 0.5)
-        @test Plots.get_xs(star) == Plots.get_xs(star_scaled)
-        @test Plots.get_ys(star) == Plots.get_ys(star_scaled)
-
-        @test Plots.extrema_plus_buffer([1, 2], 0.1) == (0.9, 2.1)
-    end
 end

@testset "Brush" begin
@ -104,39 +82,6 @@ end
    end
 end

-@testset "Text" begin
-    t = Plots.PlotText("foo")
-    f = Plots.font()
-
-    @test Plots.PlotText(nothing).str == "nothing"
-    @test length(t) == 3
-    @test text(t).str == "foo"
-    @test text(t, f).str == "foo"
-    @test text("bar", f).str == "bar"
-    @test text(true).str == "true"
-end
-
-@testset "Annotations" begin
-    ann = Plots.series_annotations(missing)
-
-    @test Plots.series_annotations(["1" "2"; "3" "4"]) isa AbstractMatrix
-    @test Plots.series_annotations(10).strs[1].str == "10"
-    @test Plots.series_annotations(nothing) === nothing
-    @test Plots.series_annotations(ann) == ann
-
-    @test Plots.annotations(["1" "2"; "3" "4"]) isa AbstractMatrix
-    @test Plots.annotations(ann) == ann
-    @test Plots.annotations([ann]) == [ann]
-    @test Plots.annotations(nothing) == []
-
-    t = Plots.text("foo")
-    sp = plot(1)[1]
-    @test Plots.locate_annotation(sp, 1, 2, t) == (1, 2, t)
-    @test Plots.locate_annotation(sp, 1, 2, 3, t) == (1, 2, 3, t)
-    @test Plots.locate_annotation(sp, (0.1, 0.2), t) isa Tuple
-    @test Plots.locate_annotation(sp, (0.1, 0.2, 0.3), t) isa Tuple
-end
-
@testset "Fonts" begin
    @testset "Scaling" begin
        sizesToCheck = [
@ -213,9 +158,3 @@ end
    @test pos == (0.1, 0.5)
    @test txt.str == "(a)"
 end
-
-@testset "Bezier" begin
-    curve = Plots.BezierCurve([Plots.P2(0.0, 0.0), Plots.P2(0.5, 1.0), Plots.P2(1.0, 0.0)])
-    @test curve(0.75) == Plots.P2(0.75, 0.375)
-    @test length(coords(curve, 10)) == 10
-end
--- a/test/test_defaults.jl
+++ b/test/test_defaults.jl
@ -1,4 +1,4 @@
-using Plots, Test, Plots.Colors
+using Plots, Test

 const PLOTS_DEFAULTS = Dict(:theme => :wong2, :fontfamily => :palantino)
 Plots.__init__()
@ -6,96 +6,8 @@ Plots.__init__()
@testset "Loading theme" begin
    pl = plot(1:5)
    @test pl[1][1][:seriescolor] == RGBA(colorant"black")
-    @test Plots.guidefont(pl[1][:xaxis]).family == "palantino"
+    @test guidefont(pl[1][:xaxis]).family == "palantino"
 end

 empty!(PLOTS_DEFAULTS)
 Plots.__init__()
-
-@testset "default" begin
-    default(fillrange = 0)
-    @test Plots._series_defaults[:fillrange] == 0
-    pl = plot(1:5)
-    @test pl[1][1][:fillrange] == 0
-    default()
-end
-
-@testset "Legend defaults" begin
-    p = plot()
-    @test p[1][:legend_font_family] == "sans-serif"
-    @test p[1][:legend_font_pointsize] == 8
-    @test p[1][:legend_font_halign] == :hcenter
-    @test p[1][:legend_font_valign] == :vcenter
-    @test p[1][:legend_font_rotation] == 0.0
-    @test p[1][:legend_font_color] == RGB{Colors.N0f8}(0.0, 0.0, 0.0)
-    @test p[1][:legend_position] == :best
-    @test p[1][:legend_title] == nothing
-    @test p[1][:legend_title_font_family] == "sans-serif"
-    @test p[1][:legend_title_font_pointsize] == 11
-    @test p[1][:legend_title_font_halign] == :hcenter
-    @test p[1][:legend_title_font_valign] == :vcenter
-    @test p[1][:legend_title_font_rotation] == 0.0
-    @test p[1][:legend_title_font_color] == RGB{Colors.N0f8}(0.0, 0.0, 0.0)
-    @test p[1][:legend_background_color] == RGBA{Float64}(1.0, 1.0, 1.0, 1.0)
-    @test p[1][:legend_foreground_color] == RGB{Colors.N0f8}(0.0, 0.0, 0.0)
-end # testset
-
-@testset "Legend API" begin
-    p = plot(;
-        legendfontfamily = "serif",
-        legendfontsize = 12,
-        legendfonthalign = :left,
-        legendfontvalign = :top,
-        legendfontrotation = 1,
-        legendfontcolor = :red,
-        legend = :outertopleft,
-        legendtitle = "The legend",
-        legendtitlefontfamily = "helvetica",
-        legendtitlefontsize = 3,
-        legendtitlefonthalign = :right,
-        legendtitlefontvalign = :bottom,
-        legendtitlefontrotation = -5.2,
-        legendtitlefontcolor = :blue,
-        background_color_legend = :cyan,
-        foreground_color_legend = :green,
-    )
-    @test p[1][:legend_font_family] == "serif"
-    @test p[1][:legend_font_pointsize] == 12
-    @test p[1][:legend_font_halign] == :left
-    @test p[1][:legend_font_valign] == :top
-    @test p[1][:legend_font_rotation] == 1.0
-    @test p[1][:legend_font_color] == :red
-    @test p[1][:legend_position] == :outertopleft
-    @test p[1][:legend_title] == "The legend"
-    @test p[1][:legend_title_font_family] == "helvetica"
-    @test p[1][:legend_title_font_pointsize] == 3
-    @test p[1][:legend_title_font_halign] == :right
-    @test p[1][:legend_title_font_valign] == :bottom
-    @test p[1][:legend_title_font_rotation] == -5.2
-    @test p[1][:legend_title_font_color] == :blue
-    @test p[1][:legend_background_color] == RGBA{Float64}(0.0, 1.0, 1.0, 1.0)
-    @test p[1][:legend_foreground_color] == RGBA{Float64}(0.0, 0.5019607843137255, 0.0, 1.0)
-
-    #remember settings
-    plot(legend_font_pointsize = 20)
-    sp = plot!(label = "R")[1]
-    @test Plots.legendfont(sp).pointsize == 20
-
-    #setting whole font
-    sp = plot(
-        1:5,
-        legendfont = font(12),
-        legend_font_halign = :left,
-        foreground_color_subplot = :red,
-    )[1]
-    @test Plots.legendfont(sp).pointsize == 12
-    @test Plots.legendfont(sp).halign == :left
-    # match mechanism
-    @test sp[:legend_font_color] == sp[:foreground_color_subplot]
-    @test Plots.legendfont(sp).color == sp[:foreground_color_subplot]
-
-    # magic invocation
-    @test_nowarn sp = plot(; legendfont = 12)[1]
-    @test sp[:legend_font_pointsize] == 12
-    @test Plots.legendfont(sp).pointsize == 12
-end # testset
--- a/test/test_layouts.jl
+++ b/test/test_layouts.jl
@ -1,98 +0,0 @@
-using Plots, Test
-
-@testset "Subplot sclicing" begin
-    pl = @test_nowarn plot(
-        rand(4, 8),
-        layout = 4,
-        yscale = [:identity :identity :log10 :log10],
-    )
-    @test pl[1][:yaxis][:scale] == :identity
-    @test pl[2][:yaxis][:scale] == :identity
-    @test pl[3][:yaxis][:scale] == :log10
-    @test pl[4][:yaxis][:scale] == :log10
-end
-
-@testset "Plot title" begin
-    pl = plot(rand(4, 8), layout = 4, plot_title = "My title")
-    @test pl[:plot_title] == "My title"
-    @test pl[:plot_titleindex] == 5
-
-    plot!(pl)
-    @test pl[:plot_title] == "My title"
-    @test pl[:plot_titleindex] == 5
-
-    plot!(pl, plot_title = "My new title")
-    @test pl[:plot_title] == "My new title"
-    @test pl[:plot_titleindex] == 5
-end
-
-@testset "Plots.jl/issues/4083" begin
-    p = plot(plot(1:2), plot(1:2); border = :grid, plot_title = "abc")
-    @test p[1][:framestyle] === :grid
-    @test p[2][:framestyle] === :grid
-    @test p[3][:framestyle] === :none
-end
-
-@testset "Coverage" begin
-    p = plot((plot(i) for i in 1:4)..., layout = (2, 2))
-
-    sp = p[end]
-    @test sp isa Plots.Subplot
-    @test size(sp) == (1, 1)
-    @test length(sp) == 1
-    @test sp[1, 1] == sp
-    @test Plots.get_subplot(p, UInt32(4)) == sp
-    @test Plots.series_list(sp) |> first |> Plots.get_subplot isa Plots.Subplot
-    @test Plots.get_subplot(p, keys(p.spmap) |> first) isa Plots.Subplot
-
-    gl = p[2, 2]
-    @test gl isa Plots.GridLayout
-    @test length(gl) == 1
-    @test size(gl) == (1, 1)
-    @test Plots.layout_args(gl) == (gl, 1)
-
-    @test size(p, 1) == 2
-    @test size(p, 2) == 2
-    @test size(p) === (2, 2)
-    @test ndims(p) == 2
-
-    @test p[1][end] isa Plots.Series
-    show(devnull, p[1])
-
-    @test Plots.getplot(p) == p
-    @test Plots.getattr(p) == p.attr
-    @test Plots.backend_object(p) == p.o
-    @test occursin("Plot", string(p))
-    print(devnull, p)
-
-    @test Plots.to_pixels(1Plots.mm) isa AbstractFloat
-    @test Plots.ispositive(1Plots.mm)
-    @test size(Plots.defaultbox) == (0Plots.mm, 0Plots.mm)
-    show(devnull, Plots.defaultbox)
-    show(devnull, p.layout)
-
-    @test Plots.make_measure_hor(1Plots.mm) == 1Plots.mm
-    @test Plots.make_measure_vert(1Plots.mm) == 1Plots.mm
-
-    @test Plots.parent(p.layout) isa Plots.RootLayout
-    show(devnull, Plots.parent_bbox(p.layout))
-
-    rl = Plots.RootLayout()
-    show(devnull, rl)
-    @test parent(rl) === nothing
-    @test Plots.parent_bbox(rl) == Plots.defaultbox
-    @test Plots.bbox(rl) == Plots.defaultbox
-
-    el = Plots.EmptyLayout()
-    @test Plots.update_position!(el) === nothing
-    @test size(el) == (0, 0)
-    @test length(el) == 0
-    @test el[1, 1] === nothing
-
-    @test Plots.left(el) == 0Plots.mm
-    @test Plots.top(el) == 0Plots.mm
-    @test Plots.right(el) == 0Plots.mm
-    @test Plots.bottom(el) == 0Plots.mm
-
-    @test_throws ErrorException Plots.layout_args(nothing)
-end
--- a/test/test_pgfplotsx.jl
+++ b/test/test_pgfplotsx.jl
@ -21,19 +21,16 @@ end
    @test !haskey(axis.contents[1].options.dict, "fill")

    @testset "Legends" begin
-        legends_plot = plot(rand(5, 2), lab = ["1" ""], arrow = true)
+        legends_plot = plot(rand(5, 2), lab = ["1" ""])
        scatter!(legends_plot, rand(5))
        Plots._update_plot_object(legends_plot)
        axis_contents = Plots.pgfx_axes(legends_plot.o)[1].contents
        leg_entries = filter(x -> x isa PGFPlotsX.LegendEntry, axis_contents)
        series = filter(x -> x isa PGFPlotsX.Plot, axis_contents)
        @test length(leg_entries) == 2
-        @test length(series) == 5
        @test !haskey(series[1].options.dict, "forget plot")
        @test haskey(series[2].options.dict, "forget plot")
-        @test haskey(series[3].options.dict, "forget plot")
-        @test haskey(series[4].options.dict, "forget plot")
-        @test !haskey(series[5].options.dict, "forget plot")
+        @test !haskey(series[3].options.dict, "forget plot")
    end # testset

    @testset "3D docs example" begin
--- a/test/test_pipeline.jl
+++ b/test/test_pipeline.jl
@ -17,22 +17,3 @@ end
    @test all(RecipesPipeline.get_axis_limits(p1, :x) .== x)
    @test all(RecipesPipeline.get_axis_limits(p2, :x) .== x)
 end
-
-@testset "Slicing" begin
-    @test plot(1:5, fillrange = 0)[1][1][:fillrange] == 0
-    data4 = rand(4, 4)
-    mat = reshape(1:8, 2, 4)
-    for i in axes(data4, 1)
-        for attribute in (:fillrange, :ribbon)
-            @test plot(data4; NamedTuple{tuple(attribute)}(0)...)[1][i][attribute] == 0
-            @test plot(data4; NamedTuple{tuple(attribute)}(Ref([1, 2]))...)[1][i][attribute] ==
-                  [1.0, 2.0]
-            @test plot(data4; NamedTuple{tuple(attribute)}(Ref([1 2]))...)[1][i][attribute] ==
-                  (iseven(i) ? 2 : 1)
-            @test plot(data4; NamedTuple{tuple(attribute)}(Ref(mat))...)[1][i][attribute] ==
-                  [2(i - 1) + 1, 2i]
-        end
-        @test plot(data4, ribbon = (mat, mat))[1][i][:ribbon] ==
-              ([2(i - 1) + 1, 2i], [2(i - 1) + 1, 2i])
-    end
-end
--- a/test/test_plotly.jl
+++ b/test/test_plotly.jl
@ -7,7 +7,6 @@ using Plots, Test

        p = plot(rand(10))
        @test isa(p, Plots.Plot) == true
-        @test_nowarn Plots.plotly_series(plot())
    end

    @testset "Contours" begin
@ -55,10 +54,4 @@ using Plots, Test
            end
        end
    end
-    @testset "Extra kwargs" begin
-        pl = plot(1:5, test = "me")
-        @test Plots.plotly_series(pl)[1][:test] == "me"
-        pl = plot(1:5, test = "me", extra_kwargs = :plot)
-        @test Plots.plotly_layout(pl)[:test] == "me"
-    end
 end
--- a/test/test_recipes.jl
+++ b/test/test_recipes.jl
@ -1,18 +1,6 @@
 using Plots, Test
 using OffsetArrays

-@testset "User recipes" begin
-    struct LegendPlot end
-    @recipe function f(plot::LegendPlot)
-        legend --> :topleft
-        (1:3, 1:3)
-    end
-    pl = plot(LegendPlot(); legend = :right)
-    @test pl[1][:legend_position] == :right
-    pl = plot(LegendPlot())
-    @test pl[1][:legend_position] == :topleft
-end
-
@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)
--- a/test/test_shorthands.jl
+++ b/test/test_shorthands.jl
@ -7,132 +7,42 @@ using Plots, Test
        xlims!((1, 20))
        @test xlims(p) == (1, 20)

-        xlims!(p, (1, 21))
-        @test xlims(p) == (1, 21)
-
        ylims!((-1, 1))
        @test ylims(p) == (-1, 1)

-        ylims!(p, (-2, 2))
-        @test ylims(p) == (-2, 2)
-
        zlims!((-1, 1))
        @test zlims(p) == (-1, 1)

-        zlims!(p, (-2, 2))
-        @test zlims(p) == (-2, 2)
-
        xlims!(-1, 11)
        @test xlims(p) == (-1, 11)

-        xlims!(p, -2, 12)
-        @test xlims(p) == (-2, 12)
-
        ylims!((-10, 10))
        @test ylims(p) == (-10, 10)

-        ylims!(p, (-11, 9))
-        @test ylims(p) == (-11, 9)
-
        zlims!((-10, 10))
        @test zlims(p) == (-10, 10)
-
-        zlims!(p, (-9, 8))
-        @test zlims(p) == (-9, 8)
-    end
-
-    @testset "Set Title / Labels" begin
-        p = plot()
-        title!(p, "Foo")
-        sp = p[1]
-        @test sp[:title] == "Foo"
-        xlabel!(p, "xlabel")
-        @test sp[:xaxis][:guide] == "xlabel"
-        ylabel!(p, "ylabel")
-        @test sp[:yaxis][:guide] == "ylabel"
-    end
-
-    @testset "Misc" begin
-        p = plot()
-        sp = p[1]
-
-        xflip!(p)
-        @test sp[:xaxis][:flip]
-
-        yflip!(p)
-        @test sp[:yaxis][:flip]
-
-        xgrid!(p, true)
-        @test sp[:xaxis][:grid]
-
-        xgrid!(p, false)
-        @test !sp[:xaxis][:grid]
-
-        ygrid!(p, true)
-        @test sp[:yaxis][:grid]
-
-        ygrid!(p, false)
-        @test !sp[:yaxis][:grid]
-
-        ann = [(7, 3, "(7,3)"), (3, 7, text("hey", 14, :left, :top, :green))]
-        annotate!(p, ann)
-        annotate!(p, ann...)
-
-        xaxis!(p, true)
-        @test sp[:xaxis][:showaxis]
-
-        xaxis!(p, false)
-        @test !sp[:xaxis][:showaxis]
-
-        yaxis!(p, true)
-        @test sp[:yaxis][:showaxis]
-
-        yaxis!(p, false)
-        @test !sp[:yaxis][:showaxis]
-
-        p = plot3d([1, 2], [1, 2], [1, 2])
-        plot3d!(p, [3, 4], [3, 4], [3, 4])
-        @test Plots.series_list(p[1])[1][:seriestype] == :path3d
    end

    @testset "Set Ticks" begin
        p = plot([0, 2, 3, 4, 5, 6, 7, 8, 9, 10])
-        sp = p[1]

        xticks = 2:6
        xticks!(xticks)
-        @test sp.attr[:xaxis][:ticks] == xticks
-
-        xticks = 1:5
-        xticks!(p, xticks)
-        @test sp.attr[:xaxis][:ticks] == xticks
+        @test Plots.get_subplot(current(), 1).attr[:xaxis][:ticks] == xticks

        yticks = 0.2:0.1:0.7
        yticks!(yticks)
-        @test sp.attr[:yaxis][:ticks] == yticks
-
-        yticks = 0.1:0.5
-        yticks!(p, yticks)
-        @test sp.attr[:yaxis][:ticks] == yticks
+        @test Plots.get_subplot(current(), 1).attr[:yaxis][:ticks] == yticks

        xticks = [5, 6, 7.5]
        xlabels = ["a", "b", "c"]
-        xticks!(xticks, xlabels)
-        @test sp.attr[:xaxis][:ticks] == (xticks, xlabels)

-        xticks = [5, 2]
-        xlabels = ["b", "a"]
-        xticks!(p, xticks, xlabels)
-        @test sp.attr[:xaxis][:ticks] == (xticks, xlabels)
+        xticks!(xticks, xlabels)
+        @test Plots.get_subplot(current(), 1).attr[:xaxis][:ticks] == (xticks, xlabels)

        yticks = [0.5, 0.6, 0.75]
        ylabels = ["z", "y", "x"]
        yticks!(yticks, ylabels)
-        @test sp.attr[:yaxis][:ticks] == (yticks, ylabels)
-
-        yticks = [0.5, 0.1]
-        ylabels = ["z", "y"]
-        yticks!(p, yticks, ylabels)
-        @test sp.attr[:yaxis][:ticks] == (yticks, ylabels)
+        @test Plots.get_subplot(current(), 1).attr[:yaxis][:ticks] == (yticks, ylabels)
    end
 end