ALE (Asynchronous Lint Engine) is a plugin providing linting (syntax checking and semantic errors) in NeoVim 0.2.0+ and Vim 8 while you edit your text files, and acts as a Vim Language Server Protocol client.
ALE makes use of NeoVim and Vim 8 job control functions and timers to run linters on the contents of text buffers and return errors as text is changed in Vim. This allows for displaying warnings and errors in files being edited in Vim before files have been saved back to a filesystem.
In other words, this plugin allows you to lint while you type.
ALE offers support for fixing code with command line tools in a non-blocking
manner with the :ALEFix
feature, supporting tools in many languages, like
prettier
, eslint
, autopep8
, and more.
ALE acts as a "language client" to support a variety of Language Server Protocol features, including:
- Diagnostics (via Language Server Protocol linters)
- Go To Definition (
:ALEGoToDefinition
) - Completion (Built in completion support, or with Deoplete)
- Finding references (
:ALEFindReferences
) - Hover information (
:ALEHover
) - Symbol search (
:ALESymbolSearch
)
If you don't care about Language Server Protocol, ALE won't load any of the code for working with it unless needed. One of ALE's general missions is that you won't pay for the features that you don't use.
Help Wanted: If you would like to help maintain this plugin by managing the many issues and pull requests that are submitted, please send the author an email at dev@w0rp.com.
If you enjoy this plugin, feel free to contribute or check out the author's other content at w0rp.com.
- Supported Languages and Tools
- Usage
- Installation
- Contributing
- FAQ
- How do I disable particular linters?
- How can I see what ALE has configured for the current file?
- How can I use ALE and coc.nvim together?
- How can I keep the sign gutter open?
- How can I change the signs ALE uses?
- How can I change or disable the highlights ALE uses?
- How can I show errors or warnings in my statusline?
- How can I show errors or warnings in my lightline?
- How can I change the format for echo messages?
- How can I execute some code when ALE starts or stops linting?
- How can I navigate between errors quickly?
- How can I run linters only when I save files?
- How can I use the quickfix list instead of the loclist?
- How can I check JSX files with both stylelint and eslint?
- How can I check Vue files with ESLint?
- Will this plugin eat all of my laptop battery power?
- How can I configure my C or C++ project?
- How can I configure ALE differently for different buffers?
- How can I configure the height of the list in which ALE displays errors?
- How can I run linters or fixers via Docker or a VM?
- How can I change the borders for floating preview windows?
- How can I use ALE and vim-lsp together?
ALE supports a wide variety of languages and tools. See the full list in the Supported Languages and Tools page.
Once this plugin is installed, while editing your files in supported languages and tools which have been correctly installed, this plugin will send the contents of your text buffers to a variety of programs for checking the syntax and semantics of your programs. By default, linters will be re-run in the background to check your syntax when you open new buffers or as you make edits to your files.
The behavior of linting can be configured with a variety of options,
documented in the Vim help file. For more information on the
options ALE offers, consult :help ale-options
for global options and :help ale-integration-options
for options specified to particular linters.
ALE can fix files with the ALEFix
command. Functions need to be configured
either in each buffer with a b:ale_fixers
, or globally with g:ale_fixers
.
The recommended way to configure fixers is to define a List in an ftplugin file.
" In ~/.vim/ftplugin/javascript.vim, or somewhere similar.
" Fix files with prettier, and then ESLint.
let b:ale_fixers = ['prettier', 'eslint']
" Equivalent to the above.
let b:ale_fixers = {'javascript': ['prettier', 'eslint']}
You can also configure your fixers from vimrc using g:ale_fixers
, before or
after ALE has been loaded.
A *
in place of the filetype will apply a List of fixers to all files which
do not match some filetype in the Dictionary.
Note that using a plain List for g:ale_fixers
is not supported.
" In ~/.vim/vimrc, or somewhere similar.
let g:ale_fixers = {
\ '*': ['remove_trailing_lines', 'trim_whitespace'],
\ 'javascript': ['eslint'],
\}
If you want to automatically fix files when you save them, you need to turn a setting on in vimrc.
" Set this variable to 1 to fix files when you save them.
let g:ale_fix_on_save = 1
The :ALEFixSuggest
command will suggest some supported tools for fixing code.
Both g:ale_fixers
and b:ale_fixers
can also accept functions, including
lambda functions, as fixers, for fixing files with custom tools.
See :help ale-fix
for complete information on how to fix files with ALE.
ALE offers some support for completion via hijacking of omnicompletion while you
type. All of ALE's completion information must come from Language Server
Protocol linters, or from tsserver
for TypeScript.
ALE integrates with Deoplete as a
completion source, named 'ale'
. You can configure Deoplete to only use ALE as
the source of completion information, or mix it with other sources.
" Use ALE and also some plugin 'foobar' as completion sources for all code.
call deoplete#custom#option('sources', {
\ '_': ['ale', 'foobar'],
\})
ALE also offers its own automatic completion support, which does not require any other plugins, and can be enabled by changing a setting before ALE is loaded.
" Enable completion where available.
" This setting must be set before ALE is loaded.
"
" You should not turn this setting on if you wish to use ALE as a completion
" source for other completion plugins, like Deoplete.
let g:ale_completion_enabled = 1
ALE provides an omni-completion function you can use for triggering
completion manually with <C-x><C-o>
.
set omnifunc=ale#completion#OmniFunc
ALE supports automatic imports from external modules. This behavior is enabled by default and can be disabled by setting:
let g:ale_completion_autoimport = 0
Note that disabling auto import can result in missing completion items from some
LSP servers (e.g. eclipselsp). See :help ale-completion
for more information.
ALE supports jumping to the definition of words under your cursor with the
:ALEGoToDefinition
command using any enabled Language Server Protocol linters
and tsserver
.
See :help ale-go-to-definition
for more information.
ALE supports finding references for words under your cursor with the
:ALEFindReferences
command using any enabled Language Server Protocol linters
and tsserver
.
See :help ale-find-references
for more information.
ALE supports "hover" information for printing brief information about symbols at
the cursor taken from Language Server Protocol linters and tsserver
with the
ALEHover
command.
Truncated information will be displayed when the cursor rests on a symbol by default, as long as there are no problems on the same line.
The information can be displayed in a balloon
tooltip in Vim or GVim by
hovering your mouse over symbols. Mouse hovering is enabled by default in GVim,
and needs to be configured for Vim 8.1+ in terminals.
See :help ale-hover
for more information.
ALE supports searching for workspace symbols via Language Server Protocol
linters with the ALESymbolSearch
command.
Search queries can be performed to find functions, types, and more which are similar to a given query string.
See :help ale-symbol-search
for more information.
ALE supports renaming symbols in symbols in code such as variables or class
names with the ALERename
command.
ALEFileRename
will rename file and fix import paths (tsserver
only).
ALECodeAction
will execute actions on the cursor or applied to a visual
range selection, such as automatically fixing errors.
See :help ale-refactor
for more information.
To install this plugin, you should use one of the following methods.
For Windows users, replace usage of the Unix ~/.vim
directory with
%USERPROFILE%\vimfiles
, or another directory if you have configured
Vim differently. On Windows, your ~/.vimrc
file will be similarly
stored in %USERPROFILE%\_vimrc
.
In Vim 8 and NeoVim, you can install plugins easily without needing to use
any other tools. Simply clone the plugin into your pack
directory.
mkdir -p ~/.vim/pack/git-plugins/start
git clone --depth 1 https://github.com/dense-analysis/ale.git ~/.vim/pack/git-plugins/start/ale
mkdir -p ~/.local/share/nvim/site/pack/git-plugins/start
git clone --depth 1 https://github.com/dense-analysis/ale.git ~/.local/share/nvim/site/pack/git-plugins/start/ale
# Run these commands in the "Git for Windows" Bash terminal
mkdir -p ~/vimfiles/pack/git-plugins/start
git clone --depth 1 https://github.com/dense-analysis/ale.git ~/vimfiles/pack/git-plugins/start/ale
You can add the following line to your vimrc files to generate documentation
tags automatically, if you don't have something similar already, so you can use
the :help
command to consult ALE's online documentation:
" Put these lines at the very end of your vimrc file.
" Load all plugins now.
" Plugins need to be added to runtimepath before helptags can be generated.
packloadall
" Load all of the helptags now, after plugins have been loaded.
" All messages and errors will be ignored.
silent! helptags ALL
To install this module with Pathogen,
you should clone this repository to your bundle directory, and ensure
you have the line execute pathogen#infect()
in your ~/.vimrc
file.
You can run the following commands in your terminal to do so:
cd ~/.vim/bundle
git clone https://github.com/dense-analysis/ale.git
You can install this plugin using Vundle
by adding the GitHub path for this repository to your ~/.vimrc
:
Plugin 'dense-analysis/ale'
Then run the command :PluginInstall
in Vim.
See the Vundle documentation for more information.
You can install this plugin using Vim-Plug
by adding the GitHub path for this repository to your ~/.vimrc
:
Plug 'dense-analysis/ale'
Then run the command :PlugInstall
in Vim.
See the Vim-Plug documentation for more information.
If you would like to see support for more languages and tools, please create an issue or create a pull request. If your tool can read from stdin or you have code to suggest which is good, support can be happily added for it.
If you are interested in the general direction of the project, check out the wiki home page. The wiki includes a Roadmap for the future, and more.
If you'd liked to discuss the project more directly, check out the #vim-ale
channel
on Libera Chat. Web chat is available here.
By default, all available tools for all supported languages will be run. If you
want to only select a subset of the tools, you can define b:ale_linters
for a
single buffer, or g:ale_linters
globally.
The recommended way to configure linters is to define a List in an ftplugin file.
" In ~/.vim/ftplugin/javascript.vim, or somewhere similar.
" Enable ESLint only for JavaScript.
let b:ale_linters = ['eslint']
" Equivalent to the above.
let b:ale_linters = {'javascript': ['eslint']}
You can also declare which linters you want to run in your vimrc file, before or after ALE has been loaded.
" In ~/.vim/vimrc, or somewhere similar.
let g:ale_linters = {
\ 'javascript': ['eslint'],
\}
For all languages unspecified in the dictionary, all possible linters will be run for those languages, just as when the dictionary is not defined. Running many linters should not typically obstruct editing in Vim, as they will all be executed in separate processes simultaneously.
If you don't want ALE to run anything other than what you've explicitly asked
for, you can set g:ale_linters_explicit
to 1
.
" Only run linters named in ale_linters settings.
let g:ale_linters_explicit = 1
This plugin will look for linters in the ale_linters
directory.
Each directory within corresponds to a particular filetype in Vim, and each file
in each directory corresponds to the name of a particular linter.
Run the following to see what is currently configured:
:ALEInfo
coc.nvim is a popular Vim plugin written in TypeScript and dependent on the npm ecosystem for providing full IDE features to Vim. Both ALE and coc.nvim implement Language Server Protocol (LSP) clients for supporting diagnostics (linting with a live server), and other features like auto-completion, and others listed above.
ALE is primarily focused on integrating with external programs through virtually any means, provided the plugin remains almost entirely written in Vim script. coc.nvim is primarily focused on bringing IDE features to Vim. If you want to run external programs on your files to check for errors, and also use the most advanced IDE features, you might want to use both plugins at the same time.
The easiest way to get both plugins to work together is to configure coc.nvim to send diagnostics to ALE, so ALE controls how all problems are presented to you, and to disable all LSP features in ALE, so ALE doesn't try to provide LSP features already provided by coc.nvim, such as auto-completion.
- Open your coc.nvim configuration file with
:CocConfig
and add"diagnostic.displayByAle": true
to your settings. - Add
let g:ale_disable_lsp = 1
to your vimrc file, before plugins are loaded.
You can also use b:ale_disable_lsp
in your ftplugin files to enable or disable
LSP features in ALE for different filetypes. After you configure coc.nvim and
ALE this way, you can further configure how problems appear to you by using all
of the settings mentioned in ALE's help file, including how often diagnostics
are requested. See :help ale-lint
.
The integration between ALE and coc.nvim works using an API ALE offers for
letting any other plugin integrate with ALE. If you are interested in writing a
similar integration, see :help ale-lint-other-sources
.
You can keep the sign gutter open at all times by setting the
g:ale_sign_column_always
to 1
let g:ale_sign_column_always = 1
Use these options to specify what text should be used for signs:
let g:ale_sign_error = '>>'
let g:ale_sign_warning = '--'
ALE sets some background colors automatically for warnings and errors
in the sign gutter, with the names ALEErrorSign
and ALEWarningSign
.
These colors can be customised, or even removed completely:
highlight clear ALEErrorSign
highlight clear ALEWarningSign
ALE's highlights problems with highlight groups which link to SpellBad
,
SpellCap
, error
, and todo
groups by default. The characters that are
highlighted depend on the linters being used, and the information provided to
ALE.
Highlighting can be disabled completely by setting g:ale_set_highlights
to
0
.
" Set this in your vimrc file to disabling highlighting
let g:ale_set_highlights = 0
You can control all of the highlights ALE uses, say if you are using a different color scheme which produces ugly highlights. For example:
highlight ALEWarning ctermbg=DarkMagenta
See :help ale-highlights
for more information.
vim-airline integrates with ALE for displaying error information in the status bar. If you want to see the status for ALE in a nice format, it is recommended to use vim-airline with ALE. The airline extension can be enabled by adding the following to your vimrc:
" Set this. Airline will handle the rest.
let g:airline#extensions#ale#enabled = 1
If you don't want to use vim-airline, you can implement your own statusline function without adding any other plugins. ALE provides some functions to assist in this endeavour, including:
ale#statusline#Count
: Which returns the number of problems found by ALE for a specified buffer.ale#statusline#FirstProblem
: Which returns a dictionary containing the full loclist details of the first problem of a specified type found by ALE in a buffer. (e.g. The first style warning in the current buffer.) This can be useful for displaying more detailed information such as the line number of the first problem in a file.
Say you want to display all errors as one figure, and all non-errors as another figure. You can do the following:
function! LinterStatus() abort
let l:counts = ale#statusline#Count(bufnr(''))
let l:all_errors = l:counts.error + l:counts.style_error
let l:all_non_errors = l:counts.total - l:all_errors
return l:counts.total == 0 ? 'OK' : printf(
\ '%dW %dE',
\ all_non_errors,
\ all_errors
\)
endfunction
set statusline=%{LinterStatus()}
See :help ale#statusline#Count()
or :help ale#statusline#FirstProblem()
for more information.
lightline does not have built-in support for ALE, nevertheless there is a plugin that adds this functionality: maximbaz/lightline-ale.
For more information, check out the sources of that plugin, :help ale#statusline#Count()
and lightline documentation.
There are 3 global options that allow customizing the echoed message.
g:ale_echo_msg_format
where:%s
is the error message itself%...code...%
is an optional error code, and most characters can be written between the%
characters.%linter%
is the linter name%severity%
is the severity type
g:ale_echo_msg_error_str
is the string used for error severity.g:ale_echo_msg_warning_str
is the string used for warning severity.
So for example this:
let g:ale_echo_msg_error_str = 'E'
let g:ale_echo_msg_warning_str = 'W'
let g:ale_echo_msg_format = '[%linter%] %s [%severity%]'
Will give you:
See :help g:ale_echo_msg_format
for more information.
ALE runs its own autocmd events when a lint or fix cycle are started and stopped. There is also an event that runs when a linter job has been successfully started. These events can be used to call arbitrary functions during these respective parts of the ALE's operation.
augroup YourGroup
autocmd!
autocmd User ALELintPre call YourFunction()
autocmd User ALELintPost call YourFunction()
autocmd User ALEJobStarted call YourFunction()
autocmd User ALEFixPre call YourFunction()
autocmd User ALEFixPost call YourFunction()
augroup END
ALE offers some commands with <Plug>
keybinds for moving between warnings and
errors quickly. You can map the keys Ctrl+j and Ctrl+k to moving between errors
for example:
nmap <silent> <C-k> <Plug>(ale_previous_wrap)
nmap <silent> <C-j> <Plug>(ale_next_wrap)
For more information, consult the online documentation with
:help ale-navigation-commands
.
ALE offers an option g:ale_lint_on_save
for enabling running the linters
when files are saved. This option is enabled by default. If you only
wish to run linters when files are saved, you can turn the other
options off.
" Write this in your vimrc file
let g:ale_lint_on_text_changed = 'never'
let g:ale_lint_on_insert_leave = 0
" You can disable this option too
" if you don't want linters to run on opening a file
let g:ale_lint_on_enter = 0
If for whatever reason you don't wish to run linters again when you save
files, you can set g:ale_lint_on_save
to 0
.
The quickfix list can be enabled by turning the g:ale_set_quickfix
option on. If you wish to also disable the loclist, you can disable
the g:ale_set_loclist
option.
" Write this in your vimrc file
let g:ale_set_loclist = 0
let g:ale_set_quickfix = 1
If you wish to show Vim windows for the loclist or quickfix items
when a file contains warnings or errors, g:ale_open_list
can be
set to 1
. g:ale_keep_list_window_open
can be set to 1
if you wish to keep the window open even after errors disappear.
let g:ale_open_list = 1
" Set this if you want to.
" This can be useful if you are combining ALE with
" some other plugin which sets quickfix errors, etc.
let g:ale_keep_list_window_open = 1
You can also set let g:ale_list_vertical = 1
to open the windows vertically
instead of the default horizontally.
If you configure ALE options correctly in your vimrc file, and install the right tools, you can check JSX files with stylelint and eslint.
First, install eslint and install stylelint with stylelint-processor-styled-components.
Supposing you have installed both tools correctly, configure your .jsx files so
jsx
is included in the filetype. You can use an autocmd
for this.
augroup FiletypeGroup
autocmd!
au BufNewFile,BufRead *.jsx set filetype=javascript.jsx
augroup END
Supposing the filetype has been set correctly, you can set the following options in a jsx.vim ftplugin file.
" In ~/.vim/ftplugin/jsx.vim, or somewhere similar.
let b:ale_linter_aliases = ['css', 'javascript']
let b:ale_linters = ['stylelint', 'eslint']
Or if you want, you can configure the linters from your vimrc file.
" In ~/.vim/vimrc, or somewhere similar.
let g:ale_linter_aliases = {'jsx': ['css', 'javascript']}
let g:ale_linters = {'jsx': ['stylelint', 'eslint']}
ALE will alias the jsx
filetype so it uses the css
filetype linters, and
use the original Array of selected linters for jsx
from the g:ale_linters
object. All available linters will be used for the filetype javascript
, and
no linter will be run twice for the same file.
To check Vue files with ESLint, your ESLint project configuration file must be configured to use the Vue plugin. After that, you need to configure ALE so it will run the JavaScript ESLint linter on your files. The settings you need are similar to the settings needed for checking JSX code with both stylelint and ESLint, in the previous section.
" In ~/.vim/ftplugin/vue.vim, or somewhere similar.
" Run both javascript and vue linters for vue files.
let b:ale_linter_aliases = ['javascript', 'vue']
" Select the eslint and vls linters.
let b:ale_linters = ['eslint', 'vls']
Run :ALEInfo
to see which linters are available after telling ALE to run
JavaScript linters on Vue files. Not all linters support checking Vue files.
If you don't want to configure your linters in ftplugin files for some reason, you can configure them from your vimrc file instead.
" In ~/.vim/vimrc, or somewhere similar.
let g:ale_linter_aliases = {'vue': ['vue', 'javascript']}
let g:ale_linters = {'vue': ['eslint', 'vls']}
ALE takes advantage of the power of various tools to check your code. This of course means that CPU time will be used to continuously check your code. If you are concerned about the CPU time ALE will spend, which will of course imply some cost to battery life, you can adjust your settings to make your CPU do less work.
First, consider increasing the delay before which ALE will run any linters
while you type. ALE uses a timeout which is cancelled and reset every time you
type, and this delay can be increased so linters are run less often. See
:help g:ale_lint_delay
for more information.
If you don't wish to run linters while you type, you can disable that behavior.
Set g:ale_lint_on_text_changed
to never
. You won't get as frequent error
checking, but ALE shouldn't block your ability to edit a document after you save
a file, so the asynchronous nature of the plugin will still be an advantage.
If you are still concerned, you can turn the automatic linting off altogether,
including the option g:ale_lint_on_enter
, and you can run ALE manually with
:ALELint
.
The structure of C and C++ projects varies wildly from project to project, with many different build tools being used for building them, and many different formats for project configuration files. ALE can run compilers easily, but ALE cannot easily detect which compiler flags to use.
Some tools and build configurations can generate
compile_commands.json
files. The cppcheck
, clangcheck
, clangtidy
and cquery
linters can read
these files for automatically determining the appropriate compiler flags to
use.
For linting with compilers like gcc
and clang
, and with other tools, you
will need to tell ALE which compiler flags to use yourself. You can use
different options for different projects with the g:ale_pattern_options
setting. Consult the documentation for that setting for more information.
b:ale_linters
can be used to select which tools you want to run, say if you
want to use only gcc
for one project, and only clang
for another.
ALE will attempt to parse compile_commands.json
files to discover compiler
flags to use when linting code. See :help g:ale_c_parse_compile_commands
for
more information. See Clang's documentation for
compile_commands.json files.
You should strongly consider generating them in your builds, which is easy to do
with CMake.
You can also configure ALE to automatically run make -n
to run dry runs on
Makefile
s to discover compiler flags. This can execute arbitrary code, so the
option is disabled by default. See :help g:ale_c_parse_makefile
.
You may also configure buffer-local settings for linters with project-specific vimrc files. local_vimrc can be used for executing local vimrc files which can be shared in your project.
ALE offers various ways to configure which linters or fixers are run, and
other settings. For the majority of ALE's settings, they can either be
configured globally with a g:
variable prefix, or for a specific buffer
with a b:
variable prefix. For example, you can configure a Python ftplugin
file like so.
" In ~/.vim/ftplugin/python.vim
" Check Python files with flake8 and pylint.
let b:ale_linters = ['flake8', 'pylint']
" Fix Python files with autopep8 and yapf.
let b:ale_fixers = ['autopep8', 'yapf']
" Disable warnings about trailing whitespace for Python files.
let b:ale_warn_about_trailing_whitespace = 0
For configuring files based on regular expression patterns matched against the
absolute path to a file, you can use g:ale_pattern_options
.
" Do not lint or fix minified files.
let g:ale_pattern_options = {
\ '\.min\.js$': {'ale_linters': [], 'ale_fixers': []},
\ '\.min\.css$': {'ale_linters': [], 'ale_fixers': []},
\}
" If you configure g:ale_pattern_options outside of vimrc, you need this.
let g:ale_pattern_options_enabled = 1
Buffer-local variables for settings always override the global settings.
To set a default height for the error list, use the g:ale_list_window_size
variable.
" Show 5 lines of errors (default: 10)
let g:ale_list_window_size = 5
ALE supports running linters or fixers via Docker, virtual machines, or in
combination with any remote machine with a different file system, so long as the
tools are well-integrated with ALE, and ALE is properly configured to run the
correct commands and map filename paths between different file systems. See
:help ale-lint-other-machines
for the full documentation on how to configure
ALE to support this.
Borders for floating preview windows are enabled by default. You can use the
g:ale_floating_window_border
setting to configure them.
You could disable the border with an empty list.
let g:ale_floating_window_border = []
If the terminal supports Unicode, you might try setting the value like below, to make it look nicer.
let g:ale_floating_window_border = ['│', '─', '╭', '╮', '╯', '╰']
Since vim's default uses nice unicode characters when possible, you can trick ale into using that default with
let g:ale_floating_window_border = repeat([''], 6)
vim-lsp is a popular plugin as implementation of Language Server Protocol (LSP) client for Vim. It provides all the LSP features including auto completion, diagnostics, go to definitions, etc.
ALE also provides LSP support for diagnostics. When you use both ALE and
vim-lsp, one option is disabling ALE's LSP support by
let g:ale_disable_lsp = 1
. However ALE provides integration of external
programs. Showing errors from language servers by vim-lsp and showing errors
from other external programs by ALE are confusing and problematic.
vim-lsp-ale is a bridge plugin to solve the problem when using both ALE and vim-lsp. With the plugin, diagnostics are provided by vim-lsp and ALE can handle all the errors. Please read vim-lsp-ale's documentation for more details.