A Vim wrapper for running tests on different granularities.
- Zero dependencies
- Zero configuration required (it Does the Right Thing™, see Philosophy)
- Wide range of test runners which are automagically detected
- Polyfills for nearest tests (by constructing regexes)
- Wide range of execution environments ("strategies")
- Fully customized CLI options configuration
- Extendable with new runners and strategies
Test.vim consists of a core which provides an abstraction over running any kind of tests from the command-line. Concrete test runners are then simply plugged in, so they all work in the same unified way. Currently the following test runners are supported:
Language | Test Runners | Identifiers |
---|---|---|
C# | .NET | xunit , dotnettest |
Clojure | Fireplace.vim | fireplacetest |
Crystal | Crystal | crystalspec |
Elixir | ESpec, ExUnit | espec , exunit |
Elm | elm-test | elmtest |
Erlang | CommonTest, EUnit | commontest , eunit |
Go | Ginkgo, Go, Rich-Go, Delve | ginkgo , gotest , richgo , delve |
Haskell | stack | stacktest |
Java | Maven, Gradle | maventest , gradletest |
JavaScript | Ava, Cucumber.js, Cypress, Intern, Jasmine, Jest, ReactScripts, Karma, Lab, Mocha, TAP, WebdriverIO | ava , cucumberjs , cypress , intern , jasmine , jest , reactscripts , karma , lab , mocha , tap , webdriverio |
Lua | Busted | busted |
PHP | Behat, Codeception, Kahlan, Peridot, PHPUnit, PHPSpec, Dusk | behat , codeception , dusk , kahlan , peridot , phpunit , phpspec |
Perl | Prove | prove |
Python | Django, Mamba, Nose, Nose2, PyTest, PyUnit | djangotest , djangonose , mamba , nose , nose2 , pytest , pyunit |
Racket | RackUnit | rackunit |
Ruby | Cucumber, M, Minitest, Rails, RSpec | cucumber , m , minitest , rails , rspec |
Rust | Cargo | cargotest |
Scala | SBT, Bloop | sbttest , blooptest |
Shell | Bats | bats |
Swift | Swift Package Manager | swiftpm |
VimScript | Vader.vim, VSpec, Themis, Testify | vader , vspec , themis , testify |
Using vim-plug, add
Plug 'janko/vim-test'
to your .vimrc
file (see vim-plug documentation for where), and run :PlugInstall
.
Add your preferred mappings to your .vimrc
file:
" these "Ctrl mappings" work well when Caps Lock is mapped to Ctrl
nmap <silent> t<C-n> :TestNearest<CR>
nmap <silent> t<C-f> :TestFile<CR>
nmap <silent> t<C-s> :TestSuite<CR>
nmap <silent> t<C-l> :TestLast<CR>
nmap <silent> t<C-g> :TestVisit<CR>
Command | Description |
---|---|
:TestNearest |
In a test file runs the test nearest to the cursor, otherwise runs the last nearest test. In test frameworks that don't support line numbers it will polyfill this functionality with regexes. |
:TestFile |
In a test file runs all tests in the current file, otherwise runs the last file tests. |
:TestSuite |
Runs the whole test suite (if the current file is a test file, runs that framework's test suite, otherwise determines the test framework from the last run test). |
:TestLast |
Runs the last test. |
:TestVisit |
Visits the test file from which you last run your tests (useful when you're trying to make a test pass, and you dive deep into application code and close your test buffer to make more space, and once you've made it pass you want to go back to the test file to write more tests). |
Test.vim can run tests using different execution environments called "strategies". To use a specific strategy, assign it to a variable:
" make test commands execute using dispatch.vim
let test#strategy = "dispatch"
Strategy | Identifier | Description |
---|---|---|
Basic (default) | basic |
Runs test commands with :! on Vim, and with :terminal on Neovim. |
Make | make make_bang |
Runs test commands with :make or :make! . |
Neovim | neovim |
Runs test commands with :terminal in a split window. |
Vim8 Terminal | vimterminal |
Runs test commands with term_start() in a split window. |
Dispatch | dispatch dispatch_background |
Runs test commands with :Dispatch or :Dispatch! . |
Vimux | vimux |
Runs test commands in a small tmux pane at the bottom of your terminal. |
Tslime | tslime |
Runs test commands in a tmux pane you specify. |
Slimux | slimux |
Runs test commands in a tmux pane you specify. |
Neoterm | neoterm |
Runs test commands with :T , see neoterm docs for display customization. |
Neomake | neomake |
Runs test commands asynchronously with :NeomakeProject . |
MakeGreen | makegreen |
Runs test commands with :MakeGreen . |
VimShell | vimshell |
Runs test commands in a shell written in VimScript. |
Vim Tmux Runner | vtr |
Runs test commands in a small tmux pane. |
VimProc | vimproc |
Runs test commands asynchronously. |
AsyncRun | asyncrun |
Runs test commands asynchronosuly using new APIs in Vim 8 and NeoVim. |
Terminal.app | terminal |
Sends test commands to Terminal (useful in MacVim GUI). |
iTerm2.app | iterm |
Sends test commands to iTerm2 >= 2.9 (useful in MacVim GUI). |
Kitty | kitty |
Sends test commands to Kitty terminal. |
Shtuff | shtuff |
Sends test commands to remote terminal via shtuff. |
You can also set up strategies per granularity:
let test#strategy = {
\ 'nearest': 'neovim',
\ 'file': 'dispatch',
\ 'suite': 'basic',
\}
or even per command:
:TestFile -strategy=neovim
Some strategies clear the screen before executing the test command, but you can disable this:
let g:test#preserve_screen = 1
The Vimux strategy will not clear the screen by default, but you can enable it
by explicitly setting test#preserve_screen
to 0
.
On Neovim the "basic" and "neovim" strategies will run test commands using
Neovim's terminal, and leave you in insert mode, so that you can just press
"Enter" to close the terminal session and go back to editing. If you want to
scroll through the test command output, you'll have to first switch to normal
mode. The built-in mapping for exiting terminal insert mode is CTRL-\ CTRL-n
,
which is difficult to press, so I recommend mapping it to CTRL-o
:
if has('nvim')
tmap <C-o> <C-\><C-n>
endif
Before you can run tests in a kitty terminal window using the kitty strategy, please make sure:
-
you start kitty setting up remote control and specifying a socket for kitty to listen to, like this:
$ kitty -o allow_remote_control=yes --listen-on unix:/tmp/mykitty
-
you export an environment variable
$KITTY_LISTEN_ON
with the same socket, like:$ export KITTY_LISTEN_ON=/tmp/mykitty
This strategy lets you run commands in a remote terminal without needing tools
like tmux
or special terminals such as Kitty.
Before you can run tests using this strategy, you will need to have a terminal
setup as a receiver, and also you'll need to set g:shtuff_receiver
in your
vimrc file.
In your terminal of choice:
$ shtuff as devrunner
And in your vimrc:
let g:shtuff_receiver = 'devrunner'
If you want your test results to appear in the quickfix window, use one of the following strategies:
- Make
- Neomake
- MakeGreen
- Dispatch.vim
Regardless of which you pick, it's recommended you have Dispatch.vim installed as the strategies will automatically use it to determine the correct compiler, ensuring the test output is correctly parsed for the quickfix window.
As Dispatch.vim just determines the compiler, you need to make sure the Vim distribution or a plugin has a corresponding compiler for your test runner, or you may need to write a compiler plugin.
If the test command prefix doesn't match the compiler's makeprg
then use the
g:dispatch_compiler
variable. For example if your test command was ./vendor/bin/phpunit
but you wanted to use the phpunit2 compiler:
let g:dispatch_compilers = {}
let g:dispatch_compilers['./vendor/bin/'] = ''
let g:dispatch_compilers['phpunit'] = 'phpunit2'
Strategy is a function which takes one argument – the shell command for the test being run – and it is expected to run that command in some way. Test.vim comes with many predefined strategies (see above), but if none of them suit your needs, you can define your own custom strategy:
function! EchoStrategy(cmd)
echo 'It works! Command for running tests: ' . a:cmd
endfunction
let g:test#custom_strategies = {'echo': function('EchoStrategy')}
let g:test#strategy = 'echo'
You can automatically apply transformations of your test commands by registering a "transformation" function. The following example demonstrates how you could set up a transformation for Vagrant:
function! VagrantTransform(cmd) abort
let vagrant_project = get(matchlist(s:cat('Vagrantfile'), '\vconfig\.vm.synced_folder ["''].+[''"], ["''](.+)[''"]'), 1)
return 'vagrant ssh --command '.shellescape('cd '.vagrant_project.'; '.a:cmd)
endfunction
let g:test#custom_transformations = {'vagrant': function('VagrantTransform')}
let g:test#transformation = 'vagrant'
You can execute test.vim commands directly, and pass them CLI options:
:TestNearest --verbose
:TestFile --format documentation
:TestSuite --fail-fast
:TestLast --backtrace
If you want some options to stick around, see Configuring.
Aside from the main commands, you get a corresponding Vim command for each test runner (which also accept options):
:RSpec --tag ~slow
:Mocha --grep 'API'
:ExUnit --trace
:Nose --failed
These commands are useful when using multiple testing frameworks in the same project, or as a wrapper around your executable. To avoid pollution they are not defined by default, instead you can choose the ones you want:
let g:test#runner_commands = ['Minitest', 'Mocha']
If you want some CLI options to stick around, you can configure them in your
.vimrc
:
let test#ruby#minitest#options = '--verbose'
You can also choose a more granular approach:
let test#ruby#rspec#options = {
\ 'nearest': '--backtrace',
\ 'file': '--format documentation',
\ 'suite': '--tag ~slow',
\}
You can also specify a global approach along with the granular options for the specified test runner:
let test#ruby#rspec#options = {
\ 'all': '--backtrace',
\ 'suite': '--tag ~slow',
\}
Both the neovim
and Vim8 Terminal
strategy will open a split window on the bottom by default, but
you can configure a different position:
" for neovim
let test#neovim#term_position = "topleft"
" or for Vim8
let test#vim#term_position = "belowright"
For full list of variants, see :help opening-window
.
You can instruct test.vim to use a custom executable for a test runner.
let test#ruby#rspec#executable = 'foreman run rspec'
Test.vim has file pattern it uses to determine whether a file belongs to
certain testing framework. You can override that pattern by overriding the
file_pattern
variable:
let test#ruby#minitest#file_pattern = '_spec\.rb' " the default is '_test\.rb'
By default test.vim generates file paths relative to the working directory. If
you're using a strategy which sends commands to a shell which is cd
-ed into
another directory, you might want to change the filename modifier to generate
absolute paths:
let test#filename_modifier = ':.' " test/models/user_test.rb (default)
let test#filename_modifier = ':p' " /User/janko/Code/my_project/test/models/user_test.rb
let test#filename_modifier = ':~' " ~/Code/my_project/test/models/user_test.rb
Test.vim relies on you being cd
-ed into the project root. However, sometimes
you may want to execute tests from a different directory than Vim's current
working directory. You might have a bigger project with many subprojects, or
you might be using autochdir
. In any case, you can tell test.vim to use a
different working directory for running tests:
let test#project_root = "/path/to/your/project"
Since there are multiple Python test runners for the same type of tests, test.vim has no way of detecting which one did you intend to use. By default the first available will be chosen, but you can force a specific one:
let test#python#runner = 'pytest'
" Runners available are 'pytest', 'nose', 'nose2', 'djangotest', 'djangonose', 'mamba', and Python's built-in 'unittest'
The pytest runner optionally supports pipenv.
If you have a Pipfile
, it will use pipenv run pytest
instead of just
pytest
. It also supports poetry
and will use poetry run pytest
if it detects a poetry.lock
.
For the same reason as Python, runner detection works the same for Java. To force a specific runner:
let test#java#runner = 'gradletest'
For the same reason as Python, runner detection works the same for Scala. To force a specific runner:
let test#scala#runner = 'blooptest'
You may have subprojects inside your main sbt projects. Bloop project detection uses your main project to run tests. If you need to run test inside your subproject, you can specify custom projects with:
let g:test#scala#blooptest#project_name = 'custom-project'
With this configuration, the test runner will run test for custom-project
:
$ bloop test custom-project
For the same reason as Python, runner detection works the same for Go. To force a specific runner:
let test#go#runner = 'ginkgo'
" Runners available are 'gotest', 'ginkgo', 'richgo', 'delve'
You can also configure the delve
runner with a different key mapping
alongside another:
nmap <silent> t<C-n> :TestNearest<CR>
function! DebugNearest()
let g:test#go#runner = 'delve'
TestNearest
unlet g:test#go#runner
endfunction
nmap <silent> t<C-d> :call DebugNearest()<CR>
If delve
is selected and vim-delve is
in use, breakpoints and tracepoints that have been marked with vim-delve will
be included.
Unless binstubs are detected (e.g. bin/rspec
), test commands will
automatically be prepended with bundle exec
if a Gemfile is detected, but you
can turn it off:
let test#ruby#bundle_exec = 0
If binstubs are detected, but you don't want to use them, you can turn them off:
let test#ruby#use_binstubs = 0
If your binstubs are not instrumented with spring, you can turn on using the spring
bin (bin/spring
) directly using:
let test#ruby#use_spring_binstub = 1
Test runner detection for JavaScript works by checking which runner is listed in the package.json dependencies. If you have globally installed the runner make sure it's also listed in the dependencies.
The stackTest
runner currently supports running tests in Stack projects with the HSpec framework.
In addition to running tests manually, you can also configure autocommands which run tests automatically when files are saved.
The following setup will automatically run tests when a test file or its alternate application file is saved:
augroup test
autocmd!
autocmd BufWrite * if test#exists() |
\ TestFile |
\ endif
augroup END
If projectionist.vim is present, you can run a test command from an application file, and test.vim will automatically try to run the command on the "alternate" test file.
You can disable this integration by doing
let g:test#no_alternate = 1
If you wish to extend this plugin with your own test runners, first of all, if the runner is well-known, I would encourage to help me merge it into test.vim.
That being said, if you want to do this for yourself, you need to do 2 things.
First, add your runner to the list in your .vimrc
:
" First letter of runner's name must be uppercase
let test#custom_runners = {'MyLanguage': ['MyRunner']}
Second, create ~/.vim/autoload/test/mylanguage/myrunner.vim
, and define the following
methods:
" Returns true if the given file belongs to your test runner
function! test#mylanguage#myrunner#test_file(file)
" Returns test runner's arguments which will run the current file and/or line
function! test#mylanguage#myrunner#build_position(type, position)
" Returns processed args (if you need to do any processing)
function! test#mylanguage#myrunner#build_args(args)
" Returns the executable of your test runner
function! test#mylanguage#myrunner#executable()
See autoload/test
for examples.
All runners are loaded by default. To select which runners to load, set this option:
let test#enabled_runners = ["mylanguage#myrunner", "ruby#rspec"]
All other runners will not be loaded.
Note that for your own custom runners, you still need to set test#custom_runners
.
Tests are run using a Ruby test runner, so you'll have to have Ruby installed. Then run
$ gem install vim-flavor
Now you can run tests with
$ vim-flavor test spec/
Or if you're inside of Vim, you can simply run :VSpec
provided by test.vim.
This plugin was strongly influenced by Gary Bernhardt's Destroy All Software. I also want to thank rspec.vim, from which I borrowed GUI support for OS X, and Windows support. And also thanks to vroom.vim.
Copyright © Janko Marohnić. Distributed under the same terms as Vim itself. See
:help license
.