In this tutorial we will go through the steps to finalizing a Julia package. At this point you have some functionality you wish to share with the world... what do you do? You want to have documentation, code testing each time you commit (on all the major OSs), a nice badge which shows how much of the code is tested, and put it into metadata so that people could install your package just by typing Pkg.add("Pkgname"). How do you do all of this?

Note: At anytime feel free to checkout my package repository DifferentialEquations.jl which should be a working example.

Generate the Package and Get it on Github

First you will want to generate your package and get it on Github repository. Make sure you have a Github account, and then setup the environment variables in the git shell:

$ git config --global user.name "FULL NAME" $ git config --global user.email "EMAIL" $ git config --global github.user "USERNAME"

Now you can generate your package via

using PkgDev PkgDev. generate ( "PkgName" , "license" )

For the license, I tend to use MIT since it is quite permissive. This will tell you where your package was generated (usually in your Julia library folder). Take your function files and paste them into the /src folder in the package. In your /src folder, you will have a file PkgName.jl. This file defines your module. Generally you will want it to look something like this:

module PkgName #Import your packages using Pkg1, Pkg2, Pkg3 import Base: func1 #Any function you add dispatches to need to be imported directly abstract AbType #Define abstract types before the types they abstract! include ( "functionsForPackage.jl" ) #Include all the functionality export coolfunc, coolfunc2 #Export the functions you want users to use end

Now try on your computer using PkgName. Try your functions out. Once this is all working, this means you have your package working locally.

Write the Documentation

For documentation, it's recommended to use Documenter.jl. The other packages, Docile.jl and Lexicon.jl, have been deprecated in favor of Documenter.jl. Getting your documentation to generate starts with writing docstrings. Docstrings are strings in your source code which are used for generating documentation. It is best to use docstrings because these will also show up in the REPL, i.e. if someone types ?coolfunc, your docstrings will show here.

To do this, you just add strings before your function definitions. For example,

"Defines a cool function. Returns some stuff" function coolFunc ( ) ... end """ Defines an even cooler function. ``LaTeX``. ```math SameAs$$LaTeX ``` ### Returns * Markdown works in here """ function coolFunc2 ( ) ... end

Once you have your docstrings together, you can use them to generate your documentation. Install Documenter.jl in your local repository by cloning the repository with Pkg.clone("PkgLocation"). Make a new folder in the top directory of your package named /docs. In this directory, make a file make.jl and add the following lines to the file:

using Documenter, PkgName makedocs ( modules= [ PkgName ] , doctest= true ) deploydocs ( deps = Deps. pip ( "mkdocs" , "python-markdown-math" ) , repo = "github.com/GITHUBNAME/GITHUBREPO.git" , julia = "0.4.5" , osname = "linux" )

Don't forget to change PkgName and repo to match your project. Now make a folder in this directory named /src (i.e. it's /docs/src). Make a file named index.md. This will be the index of your documentation. You'll want to make it something like this:

#Documentation Title Some text describing the package. ## Subtitle More text ## Tutorials ```@contents Pages = [ "tutorials/page1.md", "tutorials/page2.md", "tutorials/page3.md" ] Depth = 2 ``` ## Another Section ```@contents Pages = [ "sec2/page1.md", "sec2/page2.md", "sec2/page3.md" ] Depth = 2 ``` ## Index ```@index ```

At the top we explain the page. The next part adds 3 pages to a "Tutorial" section of the documentation, and then 3 pages to a "Another Section" section of the documentation. Now inside /docs/src make the directories tutorial and sec2, and add the appropriate pages page1.md, page2.md, page3.md. These are the Markdown files that the documentation will use to build the pages.

To build a page, you can do something like as follows:

# Title Some text describing this section ## Subtitle ```@docs PkgName.coolfunc PkgName.coolfunc2 ```

What this does is it builds the page with your added text/titles on the top, and then puts your docstrings in below. Thus most of the information should be in your docstrings, with quick introductions before each page. So if your docstrings are pretty complete, this will be quick.

Build the Documentation

Now we will build the documentation. cd into the /docs folder and run make.jl. If that's successful, then you will have a folder /docs/build. This contains markdown files where the docstrings have been added. To turn this into a documentation, first install mkdocs. Now add the following file to your /docs folder as mkdocs.yml:

site_name : PkgName repo_url : https://github.com/GITHUBUSER/PkgName site_description : Description site_author : You theme : readthedocs markdown_extensions : - codehilite - extra - tables - fenced_code - mdx_math # For LaTeX extra_css : - assets/Documenter.css extra_javascript : - https://cdn.mathjax.org/mathjax/latest/MathJax.js?config=TeX-AMS_HTML - assets/mathjaxhelper.js docs_dir : 'build' pages : - Introduction : index.md - Tutorial : - Title 1 : tutorials/page1.md - Title 2 : tutorials/page2.md - Title 3 : tutorials/page3.md - Another Section : - Title 1 : sec2/page1.md - Title 2 : sec2/page2.md - Title 3 : sec2/page3.md

Now to build the webpage, cd into /docs and run `mkdocs build`, and then `mkdocs serve`. Go to the local webserver that it tells you and check out your documentation.

Testing

Now that we are documented, let's add testing. In the top of your package directory, make a folder /test. In there, make a file runtests.jl. You will want to make it say something like this:

#!/usr/bin/env julia #Start Test Script using PkgName using Base. Test # Run tests tic ( ) println ( "Test 1" ) @ time @test include ( "test1.jl" ) println ( "Test 2" ) @ time @test include ( "test2.jl" ) toc ( )

This will run the files /test/test1.jl and /test/test2.jl and work if they both return a boolean. So make these test files use some of your package functionality and at the bottom make sure it returns a boolean saying whether the tests passed or failed. For example, you can have it make sure some number is close to what it should be, or you can just put `true` on the bottom on the file. Now use

Pkg. test ( "PkgName" )

And make sure your tests pass. Now setup accounts at Travis CI (for Linux and OSX testing) and AppVoyer (for Windows testing). Modify .travis.yml to be like the following:

# Documentation: http://docs.travis-ci.com/user/languages/julia/ language: julia os: - linux - osx julia: - nightly - release - 0.4.5 matrix: allow_failures: - julia: nightly notifications: email: false script: # - if [[ -a .git/shallow ]]; then git fetch --unshallow; fi - julia -e 'Pkg.clone(pwd())' - julia -e 'Pkg.test("PkgName",coverage=true)' after_success: - julia -e julia -e 'Pkg.add("Documenter")' - julia -e 'cd(Pkg.dir("PkgName")); include(joinpath("docs", "make.jl"))' - julia -e 'cd(Pkg.dir("PkgName")); Pkg.add("Coverage"); using Coverage; Codecov.submit(Codecov.process_folder())' - julia -e 'cd(Pkg.dir("PkgName")); Pkg.add("Coverage"); using Coverage; Coveralls.submit(process_folder())'

If you are using matplotlib/PyPlot you will want to add

ENV [ "PYTHON" ] = "" ; Pkg. build ( "PyCall" ) ; using PyPlot ;

before Pkg.test("PkgName",coverage=true). Now edit your appvoyer.yml to be like the following:

environment: matrix: - JULIAVERSION: "julialang/bin/winnt/x86/0.4/julia-0.4-latest-win32.exe" - JULIAVERSION: "julialang/bin/winnt/x64/0.4/julia-0.4-latest-win64.exe" matrix: allow_failures: - JULIAVERSION: "julianightlies/bin/winnt/x86/julia-latest-win32.exe" - JULIAVERSION: "julianightlies/bin/winnt/x64/julia-latest-win64.exe" branches: only: - master - /release-. * / notifications: - provider: Email on_build_success: false on_build_failure: false on_build_status_changed: false install: # Download most recent Julia Windows binary - ps: ( new-object net. webclient ) . DownloadFile ( $ ( "http://s3.amazonaws.com/" +$env:JULIAVERSION ) , "C: \p rojects \j ulia-binary.exe" ) - set PATH=C:\Miniconda3 ; C:\Miniconda3\Scripts ;% PATH % # Run installer silently, output to C:\projects\julia - C:\projects\julia-binary. exe /S /D=C:\projects\julia build_script: # Need to convert from shallow to complete for Pkg.clone to work - IF EXIST . git \shallow ( git fetch --unshallow ) - C:\projects\julia\bin\julia -e "versioninfo(); Pkg.clone(pwd(), \" PkgName \" ); Pkg.build( \" PkgName \" )" test_script: - C:\projects\julia\bin\julia --check-bounds=yes -e "Pkg.test( \" PkgName \" )"

Add Coverage

I was sly and already added all of the coverage parts in there! This is done by the commands which add Coverge.jl, the keyword coverage=true in Pkg.test, and then specific functions for sending the coverage data to appropriate places. Setup an account on Codecov and Coveralls.

Fix Up Readme

Now update your readme to match your documentation, and add the badges for testing, coverage, and docs from the appropriate websites.

Update Your Repository

Now push everything into your Git repository. `cd` into your package directory and using the command line do:

git add --all git commit -m "Commit message" git push origin master

or something of the like. On Windows you can use their GUI. Check your repository and make sure everything is there. Wait for your tests to pass.

Publish Your Package

Now publish your package. This step is optional, but if you do this then people can add your package by just doing `Pkg.add("PkgName")`. To do this, simply run the following:

Pkg. update ( ) using PkgDev PkgDev. register ( "PkgName" ) PkgDev. tag ( "PkgName" ) PkgDev. publish ( )

This will give you a url. Put this into your browser and write a message with your pull request and submit it. If all goes well, they will merge the changes and your package will be registered with METADATA.jl.

That's it! Now every time you commit, your package will automatically be tested, coverage will be calculated, and documentation will be updated. Note that for people to get the changes you made to your code, they will need to run `Pkg.checkout("PkgName")` unless you tag and publish a new version.

This post is open to read and review on The Winnower.