ale/doc/ale.txt

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*ale.txt* For Vim version 8.0.
*ale*
ALE - Asynchronous Lint Engine
===============================================================================
CONTENTS *ale-contents*
1. Introduction.........................|ale-introduction|
2. Supported Languages & Tools..........|ale-support|
3. Linting..............................|ale-lint|
4. Fixing Problems......................|ale-fix|
5. Completion...........................|ale-completion|
6. Global Options.......................|ale-options|
6.1 Highlights........................|ale-highlights|
7. Integration Documentation............|ale-integrations|
asm...................................|ale-asm-options|
gcc.................................|ale-asm-gcc|
awk...................................|ale-awk-options|
gawk................................|ale-awk-gawk|
c.....................................|ale-c-options|
clang...............................|ale-c-clang|
clang-format........................|ale-c-clangformat|
clangtidy...........................|ale-c-clangtidy|
cppcheck............................|ale-c-cppcheck|
gcc.................................|ale-c-gcc|
chef..................................|ale-chef-options|
foodcritic..........................|ale-chef-foodcritic|
cmake.................................|ale-cmake-options|
cmakelint...........................|ale-cmake-cmakelint|
cpp...................................|ale-cpp-options|
clang...............................|ale-cpp-clang|
clangcheck..........................|ale-cpp-clangcheck|
clang-format........................|ale-cpp-clangformat|
clangtidy...........................|ale-cpp-clangtidy|
cppcheck............................|ale-cpp-cppcheck|
cpplint.............................|ale-cpp-cpplint|
gcc.................................|ale-cpp-gcc|
css...................................|ale-css-options|
prettier............................|ale-css-prettier|
stylelint...........................|ale-css-stylelint|
cuda..................................|ale-cuda-options|
nvcc................................|ale-cuda-nvcc|
dart..................................|ale-dart-options|
dartanalyzer........................|ale-dart-dartanalyzer|
dockerfile............................|ale-dockerfile-options|
hadolint............................|ale-dockerfile-hadolint|
elm...................................|ale-elm-options|
elm-format..........................|ale-elm-elm-format|
elm-make............................|ale-elm-elm-make|
erlang................................|ale-erlang-options|
erlc................................|ale-erlang-erlc|
syntaxerl...........................|ale-erlang-syntaxerl|
eruby.................................|ale-eruby-options|
fortran...............................|ale-fortran-options|
gcc.................................|ale-fortran-gcc|
fusionscript..........................|ale-fuse-options|
fusion-lint.........................|ale-fuse-fusionlint|
glsl..................................|ale-glsl-options|
glslang.............................|ale-glsl-glslang|
go....................................|ale-go-options|
gometalinter........................|ale-go-gometalinter|
graphql...............................|ale-graphql-options|
gqlint..............................|ale-graphql-gqlint|
handlebars............................|ale-handlebars-options|
ember-template-lint.................|ale-handlebars-embertemplatelint|
haskell...............................|ale-haskell-options|
hdevtools...........................|ale-haskell-hdevtools|
stack-build.........................|ale-haskell-stack-build|
html..................................|ale-html-options|
htmlhint............................|ale-html-htmlhint|
tidy................................|ale-html-tidy|
idris.................................|ale-idris-options|
idris...............................|ale-idris-idris|
java..................................|ale-java-options|
checkstyle..........................|ale-java-checkstyle|
javac...............................|ale-java-javac|
javascript............................|ale-javascript-options|
eslint..............................|ale-javascript-eslint|
flow................................|ale-javascript-flow|
jscs................................|ale-javascript-jscs|
jshint..............................|ale-javascript-jshint|
prettier............................|ale-javascript-prettier|
prettier-eslint.....................|ale-javascript-prettier-eslint|
prettier-standard...................|ale-javascript-prettier-standard|
standard............................|ale-javascript-standard|
xo..................................|ale-javascript-xo|
json..................................|ale-json-options|
jsonlint............................|ale-json-jsonlint|
prettier............................|ale-json-prettier|
kotlin................................|ale-kotlin-options|
kotlinc.............................|ale-kotlin-kotlinc|
ktlint..............................|ale-kotlin-ktlint|
lua...................................|ale-lua-options|
luacheck............................|ale-lua-luacheck|
objc..................................|ale-objc-options|
clang...............................|ale-objc-clang|
objcpp................................|ale-objcpp-options|
clang...............................|ale-objcpp-clang|
ocaml.................................|ale-ocaml-options|
merlin..............................|ale-ocaml-merlin|
perl..................................|ale-perl-options|
perl................................|ale-perl-perl|
perlcritic..........................|ale-perl-perlcritic|
php...................................|ale-php-options|
hack................................|ale-php-hack|
langserver..........................|ale-php-langserver|
phpcbf..............................|ale-php-phpcbf|
phpcs...............................|ale-php-phpcs|
phpmd...............................|ale-php-phpmd|
phpstan.............................|ale-php-phpstan|
pug...................................|ale-pug-options|
puglint.............................|ale-pug-puglint|
puppet................................|ale-puppet-options|
puppetlint..........................|ale-puppet-puppetlint|
python................................|ale-python-options|
autopep8............................|ale-python-autopep8|
flake8..............................|ale-python-flake8|
isort...............................|ale-python-isort|
mypy................................|ale-python-mypy|
pycodestyle.........................|ale-python-pycodestyle|
pylint..............................|ale-python-pylint|
yapf................................|ale-python-yapf|
r.....................................|ale-r-options|
lintr...............................|ale-r-lintr|
reasonml..............................|ale-reasonml-options|
merlin..............................|ale-reasonml-merlin|
ruby..................................|ale-ruby-options|
brakeman............................|ale-ruby-brakeman|
rails_best_practices................|ale-ruby-rails_best_practices|
reek................................|ale-ruby-reek|
rubocop.............................|ale-ruby-rubocop|
rust..................................|ale-rust-options|
cargo...............................|ale-rust-cargo|
rls.................................|ale-rust-rls|
rustc...............................|ale-rust-rustc|
sass..................................|ale-sass-options|
stylelint...........................|ale-sass-stylelint|
scala.................................|ale-scala-options|
scalastyle..........................|ale-scala-scalastyle|
scss..................................|ale-scss-options|
prettier............................|ale-scss-prettier|
stylelint...........................|ale-scss-stylelint|
sh....................................|ale-sh-options|
shell...............................|ale-sh-shell|
shellcheck..........................|ale-sh-shellcheck|
sml...................................|ale-sml-options|
smlnj...............................|ale-sml-smlnj|
spec..................................|ale-spec-options|
rpmlint.............................|ale-spec-rpmlint|
stylus................................|ale-stylus-options|
stylelint...........................|ale-stylus-stylelint|
tcl...................................|ale-tcl-options|
nagelfar............................|ale-tcl-nagelfar|
tex...................................|ale-tex-options|
chktex..............................|ale-tex-chktex|
lacheck.............................|ale-tex-lacheck|
thrift................................|ale-thrift-options|
thrift..............................|ale-thrift-thrift|
typescript............................|ale-typescript-options|
eslint..............................|ale-typescript-eslint|
prettier............................|ale-typescript-prettier|
tslint..............................|ale-typescript-tslint|
tsserver............................|ale-typescript-tsserver|
verilog/systemverilog.................|ale-verilog-options|
iverilog............................|ale-verilog-iverilog|
verilator...........................|ale-verilog-verilator|
vim...................................|ale-vim-options|
vint................................|ale-vim-vint|
xml...................................|ale-xml-options|
xmllint.............................|ale-xml-xmllint|
yaml..................................|ale-yaml-options|
swaglint............................|ale-yaml-swaglint|
yamllint............................|ale-yaml-yamllint|
8. Commands/Keybinds....................|ale-commands|
9. API..................................|ale-api|
10. Special Thanks......................|ale-special-thanks|
11. Contact.............................|ale-contact|
===============================================================================
1. Introduction *ale-introduction*
ALE provides the means to run linters asynchronously in Vim in a variety of
languages and tools. ALE sends the contents of buffers to linter programs
using the |job-control| features available in Vim 8 and NeoVim. For Vim 8,
Vim must be compiled with the |job| and |channel| and |timer| features
as a minimum.
ALE supports the following key features for linting:
1. Running linters when text is changed.
2. Running linters when files are opened.
3. Running linters when files are saved. (When a global flag is set.)
4. Populating the |loclist| with warning and errors.
5. Setting |signs| with warnings and errors for error markers.
6. Using |echo| to show error messages when the cursor moves.
7. Setting syntax highlights for errors.
ALE can fix problems with files with the |ALEFix| command, using the same job
control functionality used for checking for problems. Try using the
|ALEFixSuggest| command for browsing tools that can be used to fix problems
for the current buffer.
===============================================================================
2. Supported Languages & Tools *ale-support*
The following languages and tools are supported.
Notes:
`^` No linters for text or Vim help filetypes are enabled by default.
`!!` These linters check only files on disk. See |ale-lint-file-linters|
* ASM: `gcc`
* Ansible: `ansible-lint`
* AsciiDoc: `proselint`
* Awk: `gawk`
* Bash: `shell` (-n flag), `shellcheck`
* Bourne Shell: `shell` (-n flag), `shellcheck`
* C: `cppcheck`, `cpplint`!!, `gcc`, `clang`, `clangtidy`!!, `clang-format`
* C++ (filetype cpp): `clang`, `clangcheck`!!, `clangtidy`!!, `cppcheck`, `cpplint`!!, `gcc`, `clang-format`
* CUDA: `nvcc`!!
* C#: `mcs`
* Chef: `foodcritic`
* CMake: `cmakelint`
* CoffeeScript: `coffee`, `coffeelint`
* Crystal: `crystal`!!
* CSS: `csslint`, `stylelint`, `prettier`
* Cython (pyrex filetype): `cython`
* D: `dmd`
* Dart: `dartanalyzer`
* Dockerfile: `hadolint`
* Elixir: `credo`, `dogma`!!
* Elm: `elm-format, elm-make`
* Erb: `erb`, `erubis`
* Erlang: `erlc`, `SyntaxErl`
* Fortran: `gcc`
* FusionScript: `fusion-lint`
* GLSL: glslang
* Go: `gofmt`, `go vet`, `golint`, `gometalinter`!!, `go build`!!, `gosimple`, `staticcheck`
* GraphQL: `gqlint`
* Haml: `haml-lint`
* Handlebars: `ember-template-lint`
* Haskell: `ghc`, `stack-ghc`, `stack-build`!!, `ghc-mod`, `stack-ghc-mod`, `hlint`, `hdevtools`
* HTML: `HTMLHint`, `proselint`, `tidy`
* Idris: `idris`
* Java: `checkstyle`, `javac`
* JavaScript: `eslint`, `jscs`, `jshint`, `flow`, `prettier`, `prettier-eslint` >= 4.2.0, `prettier-standard`, `standard`, `xo`
* JSON: `jsonlint`, `prettier`
* Kotlin: `kotlinc`, `ktlint`
* LaTeX (tex): `chktex`, `lacheck`, `proselint`
* Lua: `luacheck`
* Markdown: `mdl`, `proselint`, `vale`
* MATLAB: `mlint`
* Nim: `nim check`!!
* nix: `nix-instantiate`
* nroff: `proselint`
* Objective-C: `clang`
* Objective-C++: `clang`
* OCaml: `merlin` (see |ale-ocaml-merlin|)
* Perl: `perl -c`, `perl-critic`
* PHP: `hack`, `langserver`, `php -l`, `phpcs`, `phpmd`, `phpstan`, `phpcbf`
* Pod: `proselint`
* Pug: `pug-lint`
* Puppet: `puppet`, `puppet-lint`
* Python: `autopep8`, `flake8`, `isort`, `mypy`, `pycodestyle`, `pylint`!!, `yapf`
* R: `lintr`
* ReasonML: `merlin`
* reStructuredText: `proselint`
* RPM spec: `rpmlint`
* Ruby: `brakeman`, `rails_best_practices`!!, `reek`, `rubocop`, `ruby`
* Rust: `cargo`!!, `rls`, `rustc` (see |ale-integration-rust|)
* SASS: `sass-lint`, `stylelint`
* SCSS: `sass-lint`, `scss-lint`, `stylelint`, `prettier`
* Scala: `scalac`, `scalastyle`
* Slim: `slim-lint`
* SML: `smlnj`
* Stylus: `stylelint`
* SQL: `sqlint`
* Swift: `swiftlint`, `swiftformat`
* Tcl: `nagelfar`!!
* Texinfo: `proselint`
* Text^: `proselint`, `vale`
* Thrift: `thrift`
* TypeScript: `eslint`, `tslint`, `tsserver`, `typecheck`, `prettier`
* Verilog: `iverilog`, `verilator`
* Vim: `vint`
* Vim help^: `proselint`
* XHTML: `proselint`
* XML: `xmllint`
* YAML: `swaglint`, `yamllint`
===============================================================================
3. Linting *ale-lint*
ALE's primary focus is on checking for problems with your code with various
programs via some Vim code for integrating with those programs, referred to
as 'linters.' ALE supports a wide array of programs for linting by default,
but additional programs can be added easily by defining files in |runtimepath|
with the filename pattern `ale_linters/<filetype>/<filename>.vim`. For more
information on defining new linters, see the extensive documentation
for |ale#linter#Define()|.
Without any configuration, ALE will attempt to check all of the code for every
file you open in Vim with all available tools by default. To see what ALE
is doing, and what options have been set, try using the |:ALEInfo| command.
Most of the linters ALE runs will check the Vim buffer you are editing instead
of the file on disk. This allows you to check your code for errors before you
have even saved your changes. ALE will check your code in the following
circumstances, which can be configured with the associated options.
* When you modify a buffer. - |g:ale_lint_on_text_changed|
* When you open a new or modified buffer. - |g:ale_lint_on_enter|
* When you save a buffer. - |g:ale_lint_on_save|
* When the filetype changes for a buffer. - |g:ale_lint_on_filetype_changed|
* If ALE is used to check ccode manually. - |:ALELint|
In addition to the above options, ALE can also check buffers for errors when
you leave insert mode with |g:ale_lint_on_insert_leave|, which is off by
default. It is worth reading the documentation for every option.
*ale-lint-file-linters*
Some programs must be run against files which have been saved to disk, and
simply do not support reading temporary files or stdin, either of which are
required for ALE to be able to check for errors as you type. The programs
which behave this way are documented in the lists and tables of supported
programs. ALE will only lint files with these programs in the following
circumstances.
* When you open a new or modified buffer. - |g:ale_lint_on_enter|
* When you save a buffer. - |g:ale_lint_on_save|
* When the filetype changes for a buffer. - |g:ale_lint_on_filetype_changed|
* If ALE is used to check ccode manually. - |:ALELint|
ALE will report problems with your code in the following ways, listed with
their relevant options.
* By updating loclist. (On by default) - |g:ale_set_loclist|
* By updating quickfix. (Off by default) - |g:ale_set_quickfix|
* By setting error highlights. - |g:ale_set_highlights|
* By creating signs in the sign column. - |g:ale_set_signs|
* By echoing messages based on your cursor. - |g:ale_echo_cursor|
* By showing balloons for your mouse cursor - |g:ale_set_balloons|
Please consult the documentation for each option, which can reveal some other
ways of tweaking the behaviour of each way of displaying problems. You can
disable or enable whichever options you prefer.
Most settings can be configured for each buffer. (|b:| instead of |g:|),
including disabling ALE for certain buffers with |b:ale_enabled|. The
|g:ale_pattern_options| setting can be used to configure files differently
based on regular expressions for filenames. For configuring entire projects,
the buffer-local options can be used with external plugins for reading Vim
project configuration files.
===============================================================================
4. Fixing Problems *ale-fix*
ALE can fix problems with files with the |ALEFix| command. When |ALEFix| is
run, the variable |g:ale_fixers| will be read for getting a |List| of commands
for filetypes, split on `.`, and the functions named in |g:ale_fixers| will be
executed for fixing the errors.
The |ALEFixSuggest| command can be used to suggest tools that be used to
fix problems for the current buffer.
The values for `g:ale_fixers` can be a list of |String|, |Funcref|, or
|lambda| values. String values must either name a function, or a short name
for a function set in the ALE fixer registry.
Each function for fixing errors must accept either one argument `(buffer)` or
two arguments `(buffer, lines)`, representing the buffer being fixed and the
lines to fix. The functions must return either `0`, for changing nothing, a
|List| for new lines to set, or a |Dictionary| for describing a command to be
run in the background.
Functions receiving a variable number of arguments will not receive the second
argument `lines`. Functions should name two arguments if the `lines` argument
is desired. This is required to avoid unnecessary copying of the lines of
the buffers being checked.
When a |Dictionary| is returned for an |ALEFix| callback, the following keys
are supported for running the commands.
`command` A |String| for the command to run. This key is required.
When `%t` is included in a command string, a temporary
file will be created, containing the lines from the file
after previous adjustment have been done.
`read_temporary_file` When set to `1`, ALE will read the contents of the
temporary file created for `%t`. This option can be used
for commands which need to modify some file on disk in
order to fix files.
*ale-fix-configuration*
Synchronous functions and asynchronous jobs will be run in a sequence for
fixing files, and can be combined. For example:
>
let g:ale_fixers = {
\ 'javascript': [
\ 'DoSomething',
\ 'eslint',
\ {buffer, lines -> filter(lines, 'v:val !=~ ''^\s*//''')},
\ ],
\}
ALEFix
<
The above example will call a function called `DoSomething` which could act
upon some lines immediately, then run `eslint` from the ALE registry, and
then call a lambda function which will remove every single line comment
from the file.
For convenience, a plug mapping is defined for |ALEFix|, so you can set up a
keybind easily for fixing files. >
" Bind F8 to fixing problems with ALE
nmap <F8> <Plug>(ale_fix)
<
Files can be fixed automatically with the following options, which are all off
by default.
|g:ale_fix_on_save| - Fix files when they are saved.
===============================================================================
5. Completion *ale-completion*
ALE offers some limited support for automatic completion of code while you
type. Completion is only supported via Language Server Protocol servers which
ALE can connect to for linting, which can offer good built-in support for
suggesting completion information. ALE will only suggest symbols for
completion for LSP linters that are enabled.
NOTE: At the moment, only `tsserver` for TypeScript code is supported for
completion.
Suggestions will be made while you type after completion is enabled.
Completion can be enabled by setting |g:ale_completion_enabled| to `1`. The
delay for completion can be configured with |g:ale_completion_delay|. ALE will
only suggest so many possible matches for completion. The maximum number of
items can be controlled with |g:ale_completion_max_suggestions|.
===============================================================================
6. Global Options *ale-options*
g:airline#extensions#ale#enabled *g:airline#extensions#ale#enabled*
Type: |Number|
Default: `1`
Enables or disables the |airline|'s native extension for ale, which displays
warnings and errors in the status line, prefixed by
|airline#extensions#ale#error_symbol| and
|airline#extensions#ale#warning_symbol|.
g:ale_change_sign_column_color *g:ale_change_sign_column_color*
Type: |Number|
Default: `0`
When set to `1`, this option will set different highlights for the sign
column itself when ALE reports problems with a file. This option can be
combined with |g:ale_sign_column_always|.
ALE uses the following highlight groups for highlighting the sign column:
`ALESignColumnWithErrors` - Links to `error` by default.
`ALESignColumnWithoutErrors` - Uses the value for `SignColumn` by default.
The sign column color can only be changed globally in Vim. The sign column
might produce unexpected results if editing different files in split
windows.
g:ale_completion_delay *g:ale_completion_delay*
Type: |Number|
Default: `100`
The number of milliseconds before ALE will send a request to a language
server for completions after you have finished typing.
See |ale-completion|
g:ale_completion_enabled *g:ale_completion_enabled*
Type: |Number|
Default: `0`
When this option is set to `1`, completion support will be enabled.
See |ale-completion|
g:ale_completion_max_suggestions *g:ale_completion_max_suggestions*
Type: |Number|
Default: `50`
The maximum number of items ALE will suggest in completion menus for
automatic completion.
Setting this number higher will require more processing time, and may
suggest too much noise. Setting this number lower will require less
processing time, but some suggestions will not be included, so you might not
be able to see the suggestions you want.
Adjust this option as needed, depending on the complexity of your codebase
and your available processing power.
g:ale_echo_cursor *g:ale_echo_cursor*
Type: |Number|
Default: `1`
When this option is set to `1`, a truncated message will be echoed when a
cursor is near a warning or error. ALE will attempt to find the warning or
error at a column nearest to the cursor when the cursor is resting on a line
which contains a warning or error. This option can be set to `0` to disable
this behaviour.
The format of the message can be customizable in |g:ale_echo_msg_format|.
g:ale_echo_msg_error_str *g:ale_echo_msg_error_str*
Type: |String|
Default: `Error`
The string used for error severity in the echoed message.
Note |g:ale_echo_cursor| should be set to 1
Note |g:ale_echo_msg_format| should contain the `%severity%` handler
g:ale_echo_msg_format *g:ale_echo_msg_format*
Type: |String|
Default: `%s`
This variable defines the format of the echoed message. The `%s` is the
error message itself, and it can contain the following handlers:
- `%linter%` for linter's name
- `%severity%` for the type of severity
Note |g:ale_echo_cursor| should be setted to 1
g:ale_echo_msg_warning_str *g:ale_echo_msg_warning_str*
Type: |String|
Default: `Warning`
The string used for warning severity in the echoed message.
Note |g:ale_echo_cursor| should be set to 1
Note |g:ale_echo_msg_format| should contain the `%severity%` handler
g:ale_emit_conflict_warnings *g:ale_emit_conflict_warnings*
Type: |Number|
Default: `1`
When set to `0`, ALE will not emit any warnings on startup about conflicting
plugins. ALE will probably not work if other linting plugins are installed.
g:ale_enabled *g:ale_enabled*
*b:ale_enabled*
Type: |Number|
Default: `1`
When set to `0`, this option will completely disable ALE, such that no
error checking will be performed, etc. ALE can be toggled on and off with
the |ALEToggle| command, which changes this option.
ALE can be disabled in each buffer by setting `let b:ale_enabled = 0`
Disabling ALE based on filename patterns can be accomplished by setting
a regular expression for |g:ale_pattern_options|. For example: >
" Disable linting for all minified JS files.
let g:ale_pattern_options = {'\.min.js$': {'ale_enabled': 0}}
<
See |g:ale_pattern_options| for more information on that option.
g:ale_fixers *g:ale_fixers*
*b:ale_fixers*
Type: |Dictionary|
Default: `{}`
A mapping from filetypes to |List| values for functions for fixing errors.
See |ale-fix| for more information.
This variable can be overriden with variables in each buffer.
g:ale_fix_on_save *g:ale_fix_on_save*
Type: |Number|
Default: `0`
When set to 1, ALE will fix files when they are saved.
If |g:ale_lint_on_save| is set to 1, files will be checked with linters
after files are fixed, only when the buffer is open, or re-opened. Changes
to the file will be saved to the file on disk.
g:ale_history_enabled *g:ale_history_enabled*
Type: |Number|
Default: `1`
When set to `1`, ALE will remember the last few commands which were run
for every buffer which is open. This information can be viewed with the
|ALEInfo| command. The size of the buffer can be controlled with the
|g:ale_max_buffer_history_size| option.
This option can be disabled if storing a command history is not desired.
g:ale_history_log_output *g:ale_history_log_output*
Type: |Number|
Default: `1`
When set to `1`, ALE will store the output of commands which have completed
successfully in the command history, and the output will be displayed when
using |ALEInfo|.
|g:ale_history_enabled| must be set to `1` for this output to be stored or
printed.
Some memory will be consumed by this option. It is very useful for figuring
out what went wrong with linters, and for bug reports. Turn this option off
if you want to save on some memory usage.
g:ale_keep_list_window_open *g:ale_keep_list_window_open*
*b:ale_keep_list_window_open*
Type: |Number|
Default: `0`
When set to `1`, this option will keep the loclist or quickfix windows
event after all warnings/errors have been removed for files. By default
the loclist or quicfix windows will be closed automatically when there
are no warnings or errors.
See |g:ale_open_list|
g:ale_list_window_size *g:ale_list_window_size*
*b:ale_list_window_size*
Type: |Number|
Default: `10`
This number configures the number of lines to set for the height of windows
opened automatically for ALE problems. The default of `10` matches the Vim
default height.
See |g:ale_open_list| for information on automatically opening windows
for quickfix or the loclist.
g:ale_lint_delay *g:ale_lint_delay*
Type: |Number|
Default: `200`
This variable controls the milliseconds delay after which the linters will
be run after text is changed. This option is only meaningful with the
|g:ale_lint_on_text_changed| variable set to `always`, `insert`, or `normal`.
g:ale_lint_on_enter *g:ale_lint_on_enter*
Type: |Number|
Default: `1`
When this option is set to `1`, the |BufWinEnter| and |BufRead| events will
be used to apply linters when buffers are first opened. If this is not
desired, this variable can be set to `0` in your vimrc file to disable this
behaviour.
The |FileChangedShellPost| and |BufEnter| events will be used to check if
files have been changed outside of Vim. If a file is changed outside of
Vim, it will be checked when it is next opened.
A |BufWinLeave| event will be used to look for the |E924|, |E925|, or |E926|
errors after moving from a loclist or quickfix window to a new buffer. If
prompts for these errors are opened after moving to new buffers, then ALE
will automatically send the `<CR>` key needed to close the prompt.
g:ale_lint_on_filetype_changed *g:ale_lint_on_filetype_changed*
Type: |Number|
Default: `1`
This option will cause ALE to run whenever the filetype is changed. A short
delay will be used before linting will be done, so the filetype can be
changed quickly several times in a row, but resulting in only one lint
cycle.
If |g:ale_lint_on_enter| is set to `0`, then ALE will not lint a file when
the filetype is initially set. Otherwise ALE would still lint files when
buffers are opened, and the option for doing so is turned off.
g:ale_lint_on_save *g:ale_lint_on_save*
Type: |Number|
Default: `1`
This option will make ALE run the linters whenever a file is saved when it
it set to `1` in your vimrc file. This option can be used in combination
with the |g:ale_lint_on_enter| and |g:ale_lint_on_text_changed| options to
make ALE only check files after that have been saved, if that is what is
desired.
g:ale_lint_on_text_changed *g:ale_lint_on_text_changed*
Type: |String|
Default: `always`
By default, ALE will check files with the various supported programs when
text is changed by using the |TextChanged| event. If this behaviour is not
desired, then this option can be disabled by setting it to `never`. The
|g:ale_lint_delay| variable will be used to set a |timer_start()| on a
delay, and each change to a file will continue to call |timer_stop()| and
|timer_start()| repeatedly until the timer ticks by, and the linters will be
run. The checking of files will run in the background, so it should not
inhibit editing files. This option can also be set to `insert` or `normal`
to lint when text is changed only in insert or normal mode respectively.
g:ale_lint_on_insert_leave *g:ale_lint_on_insert_leave*
Type: |Number|
Default: `0`
This option will make ALE run the linters whenever leaving insert mode when
it is set to `1` in your vimrc file.
g:ale_linter_aliases *g:ale_linter_aliases*
*b:ale_linter_aliases*
Type: |Dictionary|
Default: `{}`
The |g:ale_linter_aliases| option can be used to set aliases from one
filetype to another. A given filetype can be mapped to use the linters
run for another given filetype.
This |Dictionary| will be merged with a default dictionary containing the
following values: >
{
\ 'zsh': 'sh',
\ 'csh': 'sh',
\}
<
For example, if you wish to map a new filetype `'foobar'` to run the `'php'`
linters, you could set the following: >
let g:ale_linter_aliases = {'foobar': 'php'}
<
When combined with the |g:ale_linters| option, the original filetype
(`'foobar'`) will be used for determining which linters to run,
not the aliased type (`'php'`). This allows an aliased type to run a
different set of linters from the type it is being mapped to.
Passing a list of filetypes is also supported. Say you want to lint
javascript and css embedded in HTML (using linters that support that).
You could alias `html` like so:
`let g:ale_linter_aliases = {'html': ['html', 'javascript', 'css']}`
Note that `html` itself was included as an alias. That is because aliases
will override the original linters for the aliased filetepe.
Linter aliases can be configured in each buffer with buffer-local variables.
ALE will first look for aliases for filetypes in the `b:ale_linter_aliases`
variable, then `g:ale_linter_aliases`, and then a default Dictionary.
g:ale_linters *g:ale_linters*
*b:ale_linters*
Type: |Dictionary|
Default: `{}`
The |g:ale_linters| option sets a |Dictionary| mapping a filetype
to a |List| of linter programs to be run when checking particular filetypes.
Only the filetypes specified in the dictionary will be limited in terms
of which linters will be run.
This |Dictionary| will be merged with a default dictionary containing the
following values: >
{
\ 'csh': ['shell'],
\ 'rust': ['cargo'],
\ 'text': [],
\ 'zsh': ['shell'],
\}
<
This option can be used to enable only a particular set of linters for a
file. For example, you can enable only 'eslint' for JavaScript files: >
let g:ale_linters = {'javascript': ['eslint']}
<
If you want to disable all linters for a particular filetype, you can pass
an empty list of linters as the value: >
let g:ale_linters = {'javascript': []}
<
All linters available for a given filetype can be enabled by using the
string `'all'`: >
let g:ale_linters = {'c': 'all'}
<
Linters can be configured in each buffer with buffer-local variables. ALE
will first look for linters for filetypes in the `b:ale_linters` variable,
then `g:ale_linters`, and then a default Dictionary.
g:ale_max_buffer_history_size *g:ale_max_buffer_history_size*
Type: |Number|
Default: `20`
This setting controls the maximum number of commands which will be stored in
the command history used for |ALEInfo|. Command history will be rotated in
a FIFO manner. If set to a number <= 0, then the history will be
continuously set to an empty |List|.
History can be disabled completely with |g:ale_history_enabled|.
g:ale_maximum_file_size *g:ale_maximum_file_size*
*b:ale_maximum_file_size*
Type: |Number|
Default: `0`
A maximum file size in bytes for ALE to check. If set to any positive
number, ALE will skip checking files larger than the given size.
g:ale_open_list *g:ale_open_list*
*b:ale_open_list*
Type: |Number| or |String|
Default: `0`
When set to `1`, this will cause ALE to automatically open a window for the
loclist (|lopen|) or for the quickfix list instead if |g:ale_set_quickfix|
is `1`. (|copen|)
When set to `'on_save'`, ALE will only open the loclist after buffers have
been saved. The list will be opened some time after buffers are saved and
any linter for a buffer returns results.
The window will be kept open until all warnings or errors are cleared,
including those not set by ALE, unless |g:ale_keep_list_window_open| is set
to `1`, in which case the window will be kept open until closed manually.
The window size can be configured with |g:ale_list_window_size|.
g:ale_pattern_options *g:ale_pattern_options*
Type: |Dictionary|
Default: `{}`
This option maps regular expression patterns to |Dictionary| values for
buffer variables. This option can be set to automatically configure
different settings for different files. For example: >
let g:ale_pattern_options = {
\ '\.foo\.js$': {
\ 'ale_linters': {'javascript': ['eslint']},
\ },
\}
<
The above example will match any filename ending in `.foo.js`, and use
only `eslint` for checking those files by setting `b:ale_linters`.
Filenames are matched with |match()|, and patterns depend on the |magic|
setting, unless prefixed with the special escape sequences like `'\v'`, etc.
The patterns can match any part of a filename. The absolute path of the
filename will be used for matching, taken from `expand('%:p')`.
g:ale_pattern_options_enabled *g:ale_pattern_options_enabled*
Type: |Number|
Default: `!empty(g:ale_pattern_options)`
This option can be used for turning the behaviour of setting
|g:ale_pattern_options| on or off. By default, setting a single key
for |g:ale_pattern_options| will turn this option on.
g:ale_set_balloons *g:ale_set_balloons*
Type: |Number|
Default: `has('balloon_eval')`
When this option is set to `1`, balloon messages will be displayed for
problems. Problems nearest to the cursor on the line the cursor is over will
be displayed.
g:ale_set_highlights *g:ale_set_highlights*
Type: |Number|
Default: `has('syntax')`
When this option is set to `1`, highlights will be set for problems.
ALE will use the following highlight groups for problems:
|ALEError| - Items with `'type': 'E'`
|ALEWarning| - Items with `'type': 'W'`
|ALEInfo.| - Items with `'type': 'I'`
|ALEStyleError| - Items with `'type': 'E'` and `'sub_type': 'style'`
|ALEStyleWarning| - Items with `'type': 'W'` and `'sub_type': 'style'`
g:ale_set_loclist *g:ale_set_loclist*
Type: |Number|
Default: `1`
When this option is set to `1`, the |loclist| will be populated with any
warnings and errors which are found by ALE. This feature can be used to
implement jumping between errors through typical use of |lnext| and |lprev|.
g:ale_set_quickfix *g:ale_set_quickfix*
Type: |Number|
Default: `0`
When this option is set to `1`, the |quickfix| list will be populated with
any problems which are found by ALE, instead of the |loclist|. The loclist
will never be populated when this option is on.
Problems from every buffer ALE has checked will be included in the quickfix
list, which can be checked with |:copen|. Problems will be de-duplicated.
g:ale_set_signs *g:ale_set_signs*
Type: |Number|
Default: `has('signs')`
When this option is set to `1`, the |sign| column will be populated with
signs marking where problems appear in the file.
ALE will use the following highlight groups for problems:
|ALEErrorSign| - Items with `'type': 'E'`
|ALEWarningSign| - Items with `'type': 'W'`
|ALEInfoSign| - Items with `'type': 'I'`
|ALEStyleErrorSign| - Items with `'type': 'E'` and `'sub_type': 'style'`
|ALEStyleWarningSign| - Items with `'type': 'W'` and `'sub_type': 'style'`
In addition to the style of the signs, the style of lines where signs appear
can be configured with the following highlights:
|ALEErrorLine| - All items with `'type': 'E'`
|ALEWarningLine| - All items with `'type': 'W'`
|ALEInfoLine| - All items with `'type': 'I'`
The markers for the highlights can be customized with the following options:
|g:ale_sign_error|
|g:ale_sign_warning|
|g:ale_sign_info|
|g:ale_sign_style_error|
|g:ale_sign_style_warning|
When multiple problems exist on the same line, the signs will take
precedence in the order above, from highest to lowest.
g:ale_sign_column_always *g:ale_sign_column_always*
Type: |Number|
Default: `0`
By default, the sign gutter will disappear when all warnings and errors have
been fixed for a file. When this option is set to `1`, the sign column will
remain open. This can be preferable if you don't want the text in your file
to move around as you edit a file.
g:ale_sign_error *g:ale_sign_error*
Type: |String|
Default: `'>>'`
The sign for errors in the sign gutter.
g:ale_sign_info *g:ale_sign_info*
Type: |String|
Default: `g:ale_sign_warning`
The sign for "info" markers in the sign gutter.
g:ale_sign_style_error *g:ale_sign_style_error*
Type: |String|
Default: `g:ale_sign_error`
The sign for style errors in the sign gutter.
g:ale_sign_style_warning *g:ale_sign_style_warning*
Type: |String|
Default: `g:ale_sign_warning`
The sign for style warnings in the sign gutter.
g:ale_sign_offset *g:ale_sign_offset*
Type: |Number|
Default: `1000000`
This variable controls offset from which numeric IDs will be generated for
new signs. Signs cannot share the same ID values, so when two Vim plugins
set signs at the same time, the IDs have to be configured such that they do
not conflict with one another. If the IDs used by ALE are found to conflict
with some other plugin, this offset value can be changed, and hopefully both
plugins will work together. See |sign-place| for more information on how
signs are set.
g:ale_sign_warning *g:ale_sign_warning*
Type: |String|
Default: `'--'`
The sign for warnings in the sign gutter.
g:ale_type_map *g:ale_type_map*
*b:ale_type_map*
Type: |Dictionary|
Default: `{}`
This option can be set re-map problem types for linters. Each key in the
|Dictionary| should be the name of a linter, and each value must be a
|Dictionary| mapping problem types from one type to another. The following
types are supported:
`'E'` - `{'type': 'E'}`
`'ES'` - `{'type': 'E', 'sub_type': 'style'}`
`'W'` - `{'type': 'W'}`
`'WS'` - `{'type': 'W', 'sub_type': 'style'}`
`'I'` - `{'type': 'I'}`
For example, if you want to turn flake8 errors into warnings, you can write
the following: >
let g:ale_type_map = {'flake8': {'ES': 'WS', 'E': 'W'}}
<
If you wanted to turn style errors and warnings into regular errors and
warnings, you can write the following: >
let g:ale_type_map = {'flake8': {'ES': 'E', 'WS': 'W'}}
<
Type maps can be set per-buffer with `b:ale_type_map`.
g:ale_virtualenv_dir_names *g:ale_virtualenv_dir_names*
b:ale_virtualenv_dir_names *b:ale_virtualenv_dir_names*
Type: |List|
Default: `['.env', 'env', 've-py3', 've', 'virtualenv']`
A list of directory names to be used when searching upwards from Python
files to discover virtulenv directories with.
For directory named `'foo'`, ALE will search for `'foo/bin/activate'`
(`foo\Scripts\activate\` on Windows) in all directories on and above the
directory containing the Python file to find virtualenv paths.
g:ale_warn_about_trailing_whitespace *g:ale_warn_about_trailing_whitespace*
b:ale_warn_about_trailing_whitespace *b:ale_warn_about_trailing_whitespace*
Type: |Number|
Default: `1`
When this option is set to `1`, warnings relating to trailing whitespace on
lines will be shown in signs, the loclist, and echo messages, etc. If these
errors are found to be too irritating while edits are being made, and you
have configured Vim to automatically remove trailing whitespace, then you
can disable these warnings for some linters by setting this option to `0`.
Not all linters may respect this option. If a linter does not, please file a
bug report, and it may be possible to add such support.
This option may be configured on a per buffer basis.
g:ale_windows_node_executable_path *g:ale_windows_node_executable_path*
*b:ale_windows_node_executable_path*
Type: |String|
Default: `'node.exe'`
This variable is used as the path to the executable to use for executing
scripts with Node.js on Windows.
For Windows, any file with a `.js` file extension needs to be executed with
the node executable explicitly. Otherwise, Windows could try and open the
scripts with other applications, like a text editor. Therefore, these
scripts are executed with whatever executable is configured with this
setting.
-------------------------------------------------------------------------------
6.1. Highlights *ale-highlights*
ALEError *ALEError*
Default: `highlight link ALEError SpellBad`
The highlight used for highlighted errors. See |g:ale_set_highlights|.
ALEErrorLine *ALEErrorLine*
Default: Undefined
The highlight for lines where error signs appear. See |g:ale_set_signs|.
ALEErrorSign *ALEErrorSign*
Default: `highlight link ALEErrorSign error`
The highlight used for error signs. See |g:ale_set_signs|.
ALEInfo *ALEInfo.*
*ALEInfo-highlight*
Default: `highlight link ALEInfo ALEWarning`
The highlight used for highlighted info messages. See |g:ale_set_highlights|.
ALEInfoSign *ALEInfoSign*
Default: `highlight link ALEInfoSign ALEWarningSign`
The highlight used for info message signs. See |g:ale_set_signs|.
ALEInfoLine *ALEInfoLine*
Default: Undefined
The highlight for lines where info signs appear. See |g:ale_set_signs|.
ALEStyleError *ALEStyleError*
Default: `highlight link ALEStyleError ALEError`
The highlight used for highlighted style errors. See |g:ale_set_highlights|.
ALEStyleErrorSign *ALEStyleErrorSign*
Default: `highlight link ALEStyleErrorSign ALEErrorSign`
The highlight used for style error signs. See |g:ale_set_signs|.
ALEStyleWarning *ALEStyleWarning*
Default: `highlight link ALEStyleWarning ALEError`
The highlight used for highlighted style warnings. See |g:ale_set_highlights|.
ALEStyleWarningSign *ALEStyleWarningSign*
Default: `highlight link ALEStyleWarningSign ALEWarningSign`
The highlight used for style warning signs. See |g:ale_set_signs|.
ALEWarning *ALEWarning*
Default: `highlight link ALEWarning SpellCap`
The highlight used for highlighted warnings. See |g:ale_set_highlights|.
ALEWarningLine *ALEWarningLine*
Default: Undefined
The highlight for lines where warning signs appear. See |g:ale_set_signs|.
ALEWarningSign *ALEWarningSign*
Default: `highlight link ALEWarningSign todo`
The highlight used for warning signs. See |g:ale_set_signs|.
===============================================================================
7. Integration Documentation *ale-integrations*
Linter and fixer options are documented in individual help files. See the
table of contents at |ale-contents|.
Every option for programs can be set globally, or individually for each
buffer. For example, `b:ale_python_flake8_executable` will override any
values set for `g:ale_python_flake8_executable`.
*ale-integrations-local-executables*
Some tools will prefer to search for locally-installed executables, unless
configured otherwise. For example, the `eslint` linter will search for
various executable paths in `node_modules`. The `flake8` linter will search
for virtualenv directories.
If you prefer to use global executables for those tools, set the relevant
`_use_global` and `_executable` options for those linters. >
" Use the global executable with a special name for eslint.
let g:ale_javascript_eslint_executable = 'special-eslint'
let g:ale_javascript_eslint_use_global = 1
" Use the global executable with a special name for flake8.
let g:ale_python_flake8_executable = '/foo/bar/flake8'
let g:ale_python_flake8_use_global = 1
<
The option |g:ale_virtualenv_dir_names| controls the local virtualenv paths
ALE will use to search for Python executables.
===============================================================================
8. Commands/Keybinds *ale-commands*
ALEFix *ALEFix*
Fix problems with the current buffer. See |ale-fix| for more information.
A plug mapping `<Plug>(ale_fix)` is defined for this command.
ALEFixSuggest *ALEFixSuggest*
Suggest tools that can be used to fix problems in the current buffer.
See |ale-fix| for more information.
*:ALELint*
ALELint *ALELint*
Run ALE once for the current buffer. This command can be used to run ALE
manually, instead of automatically, if desired.
This command will also run linters where `lint_file` is set to `1`, or in
other words linters which check the file instead of the Vim buffer.
A plug mapping `<Plug>(ale_lint)` is defined for this command.
ALEPrevious *ALEPrevious*
ALEPreviousWrap *ALEPreviousWrap*
ALENext *ALENext*
ALENextWrap *ALENextWrap*
ALEFirst *ALEFirst*
ALELast *ALELast*
*ale-navigation-commands*
Move between warnings or errors in a buffer. ALE will only navigate between
the errors or warnings it generated, even if both |g:ale_set_quickfix|
and |g:ale_set_loclist| are set to `0`.
`ALEPrevious` and `ALENext` will stop at the top and bottom of a file, while
`ALEPreviousWrap` and `ALENextWrap` will wrap around the file to find
the last or first warning or error in the file, respectively.
`ALEFirst` goes to the first error or warning in the buffer, while `ALELast`
goes to the last one.
The following |<Plug>| mappings are defined for the commands: >
<Plug>(ale_previous) - ALEPrevious
<Plug>(ale_previous_wrap) - ALEPreviousWrap
<Plug>(ale_next) - ALENext
<Plug>(ale_next_wrap) - ALENextWrap
<Plug>(ale_first) - ALEFirst
<Plug>(ale_last) - ALELast
<
For example, these commands could be bound to the keys Ctrl + j
and Ctrl + k: >
" Map movement through errors without wrapping.
nmap <silent> <C-k> <Plug>(ale_previous)
nmap <silent> <C-j> <Plug>(ale_next)
" OR map keys to use wrapping.
nmap <silent> <C-k> <Plug>(ale_previous_wrap)
nmap <silent> <C-j> <Plug>(ale_next_wrap)
<
ALEToggle *ALEToggle*
ALEEnable *ALEEnable*
ALEDisable *ALEDisable*
Enable or disable ALE, including all of its autocmd events, loclist items,
quickfix items, signs, current jobs, etc. Executing any of those commands
will change the |g:ale_enabled| variable.
For convenience, a plug mapping `<Plug>(ale_toggle)` is defined for the
|ALEToggle| command.
ALEDetail *ALEDetail*
Show the full linter message for the current line. This will only have an
effect on lines that contain a linter message.
A plug mapping `<Plug>(ale_detail)` is defined for this command.
*:ALEInfo*
ALEInfo *ALEInfo*
ALEInfoToClipboard *ALEInfoToClipboard*
Print runtime information about ALE, including the values of global and
buffer-local settings for ALE, the linters that are enabled, the commands
that have been run, and the output of commands.
ALE will log the commands that are run by default. If you wish to disable
this, set |g:ale_history_enabled| to `0`. Because it could be expensive, ALE
does not remember the output of recent commands by default. Set
|g:ale_history_log_output| to `1` to enable logging of output for commands.
ALE will only log the output captured for parsing problems, etc.
The command `:ALEInfoToClipboard` can be used to output ALEInfo directly to
your clipboard. This might not work on every machine.
===============================================================================
9. API *ale-api*
ale#Queue(delay, [linting_flag, buffer_number]) *ale#Queue()*
Run linters for the current buffer, based on the filetype of the buffer,
with a given `delay`. A `delay` of `0` will run the linters immediately.
The linters will always be run in the background. Calling this function
again from the same buffer
An optional `linting_flag` argument can be given. If `linting_flag`
is `'lint_file'`, then linters where the `lint_file` option is set to `1` will be
run. Linters with `lint_file` set to `1` are not run by default.
An optional `buffer_number` argument can be given for specifying the buffer
to check. The active buffer (`bufnr('')`) will be checked by default.
*ale-cool-down*
If an exception is thrown when queuing/running ALE linters, ALE will enter
a cool down period where it will stop checking anything for a short period
of time. This is to prevent ALE from seriously annoying users if a linter
is broken, or when developing ALE itself.
ale#engine#CreateDirectory(buffer) *ale#engine#CreateDirectory()*
Create a new temporary directory with a unique name, and manage that
directory with |ale#engine#ManageDirectory()|, so it will be removed as
soon as possible.
It is advised to only call this function from a callback function for
returning a linter command to run.
ale#engine#EscapeCommandPart(command_part) *ale#engine#EscapeCommandPart()*
Given a |String|, return a |String| with all `%` characters replaced with
`%%` instead. This function can be used to escape strings which are
dynamically generated for commands before handing them over to ALE,
so that ALE doesn't treat any strings with `%` formatting sequences
specially.
ale#engine#GetLoclist(buffer) *ale#engine#GetLoclist()*
Given a buffer number, this function will rerurn the list of warnings and
errors reported by ALE for a given buffer in the format accepted by
|setqflist()|.
ale#engine#ManageFile(buffer, filename) *ale#engine#ManageFile()*
Given a buffer number for a buffer currently running some linting tasks
and a filename, register a filename with ALE for automatic deletion after
linting is complete, or when Vim exits.
If Vim exits suddenly, ALE will try its best to remove temporary files, but
ALE cannot guarantee with absolute certainty that the files will be removed.
It is advised to create temporary files in the operating system's managed
temporary file directory, such as with |tempname()|.
Directory names should not be given to this function. ALE will only delete
files and symlinks given to this function. This is to prevent entire
directories from being accidentally deleted, say in cases of writing
`dir . '/' . filename` where `filename` is actually `''`, etc. ALE instead
manages directories separetly with the |ale#engine#ManageDirectory| function.
ale#engine#ManageDirectory(buffer, directory) *ale#engine#ManageDirectory()*
Like |ale#engine#ManageFile()|, but directories and all of their contents
will be deleted, akin to `rm -rf directory`, which could lead to loss of
data if mistakes are made. This command will also delete any temporary
filenames given to it.
It is advised to use |ale#engine#ManageFile()| instead for deleting single
files.
ale#fix#registry#Add(name, func, filetypes, desc) *ale#fix#registry#Add()*
Given a |String| `name` for a name to add to the registry, a |String| `func`
for a function name, a |List| `filetypes` for a list of filetypes to
set for suggestions, and a |String| `desc` for a short description of
the fixer, register a fixer in the registry.
The `name` can then be used for |g:ale_fixers| in place of the function
name, and suggested for fixing files.
ale#linter#Define(filetype, linter) *ale#linter#Define()*
Given a |String| for a filetype and a |Dictionary| Describing a linter
configuration, add a linter for the given filetype. The dictionaries each
offer the following options:
`name` The name of the linter. These names will be used by
|g:ale_linters| option for enabling/disabling
particular linters.
This argument is required.
`callback` A |String| or |Funcref| for a callback function
accepting two arguments (buffer, lines), for a
buffer number the output is for, and the lines of
output from a linter.
This callback function should return a |List| of
|Dictionary| objects in the format accepted by
|setqflist()|. The |List| will be sorted by line and
then column order so it can be searched with a binary
search by in future before being passed on to the
|loclist|, etc.
This argument is required, unless the linter is an
LSP linter. In which case, this argument must not be
defined, as LSP linters handle diangostics
automatically. See |ale-lsp-linters|.
The keys for each item in the List will be handled in
the following manner:
*ale-loclist-format*
`text` - This error message is required.
`lnum` - The line number is required. Any strings
will be automatically converted to numbers by
using `str2nr()`.
Line 0 will be moved to line 1, and lines beyond
the end of the file will be moved to the end.
`col` - The column number is optional and will
default to `0`. Any strings will be automatically
coverted to number using `str2nr()`.
`end_col` - An optional end column number.
This key can be set to specify the column problems
end on, for improved highlighting.
`end_lnum` - An optional end line number.
This key can set along with `end_col` for
highlighting multi-line problems.
`bufnr` - This key represents the buffer number the
problems are for. This value will default to
the buffer number being checked.
The `filename` key can be set instead of this key,
and then the eventual `bufnr` value in the final
list will either represent the number for an open
buffer or `-1` for a file not open in any buffer.
`filename` - An optional filename for the file the
problems are for. This should be an absolute path to
a file.
Problems for files which have not yet been opened
will be set in those files after they are opened
and have been checked at least once.
Temporary files in directories used for Vim
temporary files with `tempname()` will be asssumed
to be the buffer being checked, unless the `bufnr`
key is also set with a valid number for some other
buffer.
`vcol` - Defaults to `0`.
`type` - Defaults to `'E'`.
`nr` - Defaults to `-1`.
`executable` A |String| naming the executable itself which
will be run. This value will be used to check if the
program requested is installed or not.
Either this or the `executable_callback` argument
must be provided.
`executable_callback ` A |String| or |Funcref| for a callback function
accepting a buffer number. A |String| should be
returned for the executable to check. This can be
used in place of `executable` when more complicated
processing is needed.
`command` A |String| for an executable to run asynchronously.
This command will be fed the lines from the buffer to
check, and will produce the lines of output given to
the `callback`.
`command_callback` A |String| or |Funcref| for a callback function
accepting a buffer number. A |String| should be
returned for a command to run. This can be used in
place of `command` when more complicated processing
is needed.
If an empty string is returned from the callback,
no jobs for linting will be run for that linter.
This can be used for skipping a linter call,
say if no configuration file was found.
*ale-command-chain*
`command_chain` A |List| of |Dictionary| items defining a series
of commands to be run. At least one |Dictionary|
should be provided. Each Dictionary must contain the
key `callback`, defining a |String| or |Funcref| for
a function returning a |String| for a command to run.
The callback functions for each command after the
first command in in the chain should accept two
arguments `(buffer, output)`, a buffer number and a
|List| of lines of output from the previous command
in the chain.
The first callback function in a chain accepts only
a `(buffer)` argument, as there are no previous
commands to run which return `output`.
If an empty string is returned for a command in a
chain, that command in the chain will be skipped,
and the next function in the chain will be called
immediately instead. If the last command in a chain
returns an empty string, then no linting will be
performed.
Commands in the chain will all use the
`output_stream` value provided in the root
|Dictionary|. Each command in the chain can also
provide an `output_stream` key to override this value.
See the `output_stream` description for more
information.
Commands in the chain all behave as if `read_buffer`
is set to `0` by default, except for the last command
in the chain, which uses the value set for
`read_buffer` in the root |Dictionary|. Each command
in the chain can also provide a `read_buffer` key
to override these values.
See the `read_buffer` description for more
information.
`output_stream` A |String| for the output stream the lines of output
should be read from for the command which is run. The
accepted values are `'stdout'`, `'stderr'`, and
`'both'`. This argument defaults to `'stdout'`. This
argument can be set for linter programs which output
their errors and warnings to the stderr stream
instead of stdout. The option `'both'` will read
from both stder and stdout at the same time.
`read_buffer` A |Number| (`0` or `1`) indicating whether a command
should read the Vim buffer as input via stdin. This
option is set to `1` by default, and can be disabled
if a command manually reads from a temporary file
instead, etc.
*ale-lint-file*
`lint_file` A |Number| (`0` or `1`) indicating whether a command
should read the file instead of the Vim buffer. This
option can be used for linters which must check the
file on disk, and which cannot check a Vim buffer
instead.
Linters set with this option will not be run as a
user types, per |g:ale_lint_on_text_changed|. Linters
will instead be run only when events occur against
the file on disk, including |g:ale_lint_on_enter|
and |g:ale_lint_on_save|. Linters with this option
set to `1` will also be run when linters are run
manually, per |ALELint-autocmd|.
When this option is set to `1`, `read_buffer` will
be set automatically to `0`. The two options cannot
be used together.
*ale-lsp-linters*
`lsp` A |String| for defining LSP (Language Server Protocol)
linters.
This argument may be omitted or `''` when a linter
does not represent an LSP linter.
When this argument is set to `'stdio'`, then the
linter will be defined as an LSP linter which keeps a
process for a language server runnning, and
communicates with it directly via a |channel|.
When this argument is not empty, then the
`project_callback` and `language_callback` arguments
must also be defined.
LSP linters handle diagonstics automatically, so
the `callback` argument must not be defined.
`project_callback` A |String| or |Funcref| for a callback function
accepting a buffer number. A |String| should be
returned representing the path to the project for the
file being checked with the language server. If an
empty string is returned, the file will not be
checked at all.
This argument must only be set if the `lsp` argument
is also set to a non-empty string.
`language_callback` A |String| or |Funcref| for a callback function
accepting a buffer number. A |String| should be
returned representing the name of the language being
checked.
This argument must only be set if the `lsp` argument
is also set to a non-empty string.
`aliases` A |List| of aliases for the linter name.
This argument can be set with alternative names for
selecting the linter with |g:ale_linters|. This
setting can make it easier to guess the linter name
by offering a few alternatives.
Only one of `command`, `command_callback`, or `command_chain` should be
specified. `command_callback` is generally recommended when a command string
needs to be generated dynamically, or any global options are used.
`command_chain` is recommended where any system calls need to be made to
retrieve some kind of information before running the final command.
If temporary files or directories are created for commands run with
`command_callback` or `command_chain`, then these tempoary files or
directories can be managed by ALE, for automatic deletion.
See |ale#engine#ManageFile()| and |ale#engine#ManageDirectory| for more
information.
*ale-command-format-strings*
All command strings will be formatted for special character sequences.
Any substring `%s` will be replaced with the full path to the current file
being edited. This format option can be used to pass the exact filename
being edited to a program.
For example: >
'command': 'eslint -f unix --stdin --stdin-filename %s'
<
Any substring `%t` will be replaced with a path to a temporary file. Merely
adding `%t` will cause ALE to create a temporary file containing the
contents of the buffer being checked. All occurrences of `%t` in command
strings will reference the one temporary file. The temporary file will be
created inside a temporary directory, and the entire temporary directory
will be automatically deleted, following the behaviour of
|ale#engine#ManageDirectory|. This option can be used for some linters which
do not support reading from stdin.
For example: >
'command': 'ghc -fno-code -v0 %t',
<
The character sequence `%%` can be used to emit a literal `%` into a
command, so literal character sequences `%s` and `%t` can be escaped by
using `%%s` and `%%t` instead, etc.
If a callback for a command generates part of a command string which might
possibly contain `%%`, `%s`, or `%t` where the special formatting behaviour
is not desired, the |ale#engine#EscapeCommandPart()| function can be used to
replace those characters to avoid formatting issues.
*ale-linter-loading-behaviour*
Linters for ALE will be loaded by searching |runtimepath| in the following
format: >
ale_linters/<filetype>/<linter_name>.vim
<
Any linters which exist anywhere in |runtimepath| with that directory
structure will be automatically loaded for the matching |filetype|. Filetypes
containing `.` characters will be split into individual parts, and files
will be loaded for each filetype between the `.` characters.
ale#linter#Get(filetype) *ale#linter#Get()*
Return all of linters configured for a given filetype as a |List| of
|Dictionary| values in the format specified by |ale#linter#Define()|.
Filetypes may be dot-seperated to invoke linters for multiple filetypes:
for instance, the filetype `javascript.jsx` will return linters for both the
`javascript` and `jsx` filetype.
Aliases may be defined in as described in |g:ale_linter_aliases|. Aliases
are applied after dot-seperated filetypes are broken up into their
components.
ale#statusline#Count(buffer) *ale#statusline#Count()*
Given the number of a buffer which may have problems, return a |Dictionary|
containing information about the number of problems detected by ALE. The
following keys are supported:
`error` -> The number of problems with type `E` and `sub_type != 'style'`
`warning` -> The number of problems with type `W` and `sub_type != 'style'`
`info` -> The number of problems with type `I`
`style_error` -> The number of problems with type `E` and `sub_type == 'style'`
`style_warning` -> The number of problems with type `W` and `sub_type == 'style'`
`total` -> The total number of problems.
ALELint *ALELint-autocmd*
This |User| autocommand is triggered by ALE every time it completes a lint
cycle. It can be used to update statuslines, send notifications, or
complete any other operation that needs to be done after linting has been
performed.
For example, you can echo a message when linting is complete like so:
>
autocmd User ALELint unsilent echom 'ALE run!'
<
The autocmd commands are run with |:silent|, so |:unsilent| is required for
echoing messges.
===============================================================================
10. Special Thanks *ale-special-thanks*
Special thanks to Mark Grealish (https://www.bhalash.com/) for providing ALE's
snazzy looking ale glass logo. Cheers, Mark!
===============================================================================
11. Contact *ale-contact*
If you like this plugin, and wish to get in touch, check out the GitHub
page for issues and more at https://github.com/w0rp/ale
If you wish to contact the author of this plugin directly, please feel
free to send an email to devw0rp@gmail.com.
Please drink responsibly, or not at all, which is ironically the preference
of w0rp, who is teetotal.
vim:tw=78:ts=2:sts=2:sw=2:ft=help:norl: