coc.nvim wrapper for Python's jedi-language-server.
If you would like to know more about why coc-jedi is useful, please read this blog post.
Install in NeoVim / Vim with one of the following techniques:
:CocInstall coc-jedi
If using vim-plug:
Plug 'pappasam/coc-jedi', { 'do': 'yarn install --frozen-lockfile && yarn build', 'branch': 'main' }
I personally use vim-packager, so if you'd like to go down the package rabbit hole, I suggest giving that a try.
Note: this extension is incompatible with coc-python. Uninstall coc-python before using coc-jedi.
jedi-language-server supports top-level configuration items in coc-settings.json
(or your editor-specific configuration file). After jedi-language-server has started, changes to configurations mentioned below require restarting Vim / Neovim before they take effect.
The following is a snippet of coc-settings.json
with some defaults or with acceptable values:
Note: you probably do NOT need most of these configuration options. Use what you actually need, but the defaults should be enough for most users on POSIX-compliant systems. Blind copy/pasting may yield surprising results.
{
"jedi.enable": true,
"jedi.startupMessage": false,
"jedi.markupKindPreferred": "plaintext",
"jedi.trace.server": "off",
"jedi.jediSettings.autoImportModules": [],
"jedi.jediSettings.caseInsensitiveCompletion": true,
"jedi.jediSettings.debug": false,
"jedi.executable.command": "jedi-language-server",
"jedi.executable.args": [],
"jedi.codeAction.nameExtractFunction": "jls_extract_def",
"jedi.codeAction.nameExtractVariable": "jls_extract_var",
"jedi.completion.disableSnippets": false,
"jedi.completion.resolveEagerly": false,
"jedi.completion.ignorePatterns": [],
"jedi.diagnostics.enable": true,
"jedi.diagnostics.didOpen": true,
"jedi.diagnostics.didChange": true,
"jedi.diagnostics.didSave": true,
"jedi.hover.enable": true,
"jedi.hover.disable.keyword.all": false,
"jedi.hover.disable.keyword.names": [],
"jedi.hover.disable.keyword.fullNames": [],
"jedi.workspace.extraPaths": [],
"jedi.workspace.environmentPath": "/path/to/venv/bin/python",
"jedi.workspace.symbols.maxSymbols": 20,
"jedi.workspace.symbols.ignoreFolders": [
".nox",
".tox",
".venv",
"__pycache__",
"venv"
]
}
Most of these sections are documented in the README for jedi-language-server. When using the options documented there with coc-jedi
, flatten your JSON using dot notation and prefix with jedi
(as shown above).
The following options are exclusively available for coc-jedi
:
Enable (or disable) jedi-language-server.
- type:
boolean
- default:
true
Enable/disable jedi-language-server's message on startup.
- type:
boolean
- default:
false
Trace level of jedi-language-server. See here for a coc-specific explanation.
- type:
string
- accepted values:
"off"
,"messages"
,"verbose"
- default:
"off"
To see trace, run:
:CocCommand workspace.showOutput
Specify your jedi-language-server executable. This is the command name / path used to run jedi-language-server on your machine.
- type:
string
If this argument is not provided, coc-jedi
will do the following:
- For most platforms,
coc-jedi
will use acoc-jedi
-managedjedi-language-server
executable. If no such executable is found,coc-jedi
will try to automatically install the executable for you in a virtual environment within thecoc-jedi
path. - For Windows,
coc-jedi
will try execute the commandjedi-language-server
. TODO: support Windows in the same way we support other platforms.
Specify the args passed to your executable. This a list of arguments passed to the jedi executable command.
- type:
string[]
- default:
[]
This option is only relevant if you also specify jedi.executable.command
. Otherwise it is ignored.
If you would like diagnostics (from pylint, mypy, etc.), we recommend using the powerful diagnostic-language-server.
If using Neovim/coc, this can easily be done with coc-diagnostic. An example configuration for pylint in your coc-settings.json
:
"diagnostic-languageserver.filetypes": {
"python": "pylint"
},
"diagnostic-languageserver.linters": {
"pylint": {
"sourceName": "pylint",
"command": "pylint",
"debounce": 100,
"args": [
"--output-format",
"text",
"--score",
"no",
"--msg-template",
"'{line}:{column}:{category}:{msg} ({msg_id}:{symbol})'",
"%file"
],
"formatPattern": [
"^(\\d+?):(\\d+?):([a-z]+?):(.*)$",
{
"line": 1,
"column": 2,
"endColumn": 2,
"security": 3,
"message": 4
}
],
"rootPatterns": ["pyproject.toml", "setup.py", ".git"],
"securities": {
"informational": "hint",
"refactor": "info",
"convention": "info",
"warning": "warning",
"error": "error",
"fatal": "error"
},
"offsetColumn": 1,
"offsetColumnEnd": 1,
"formatLines": 1
}
}
If you experience any problems with pylint you can configure coc-diagnostic to use flake8 as a linter instead:
"diagnostic-languageserver.filetypes": {
"python": "flake8",
},
"diagnostic-languageserver.linters": {
"flake8": {
"sourceName": "flake8",
"command": "flake8",
"debounce": 200,
"rootPatterns": [".git", "pyproject.toml", "setup.py"],
"args": [
"--ignore=E402,C901,W503,W504,E116,E702,C0103,C0114,C0115,C0116,C0103,C0301,W0613,W0102,R0903,R0902,R0914,R0915,R0205,W0703,W0702,W0603",
"--format=%(row)d,%(col)d,%(code).1s,%(code)s: %(text)s",
"-"
],
"offsetLine": 0,
"offsetColumn": 0,
"formatLines": 1,
"formatPattern": [
"(\\d+),(\\d+),([A-Z]),(.*)(\\r|\\n)*$",
{
"line": 1,
"column": 2,
"security": 3,
"message": 4
}
],
"securities": {
"W": "info",
"E": "warning",
"F": "info",
"C": "info",
"N": "hint"
}
}
},
You can also use diagnostic-language-server for code formatting:
"diagnostic-languageserver.formatFiletypes": {
"python": ["black", "isort", "docformatter"]
},
"diagnostic-languageserver.formatters": {
"black": {
"command": "black",
"args": ["-q", "-"]
},
"isort": {
"command": "isort",
"args": ["-q", "-"]
},
"docformatter": {
"command": "docformatter",
"args": ["-"]
}
}
Alternatively, you can rely on non-LSP-based tooling for your code formatting needs (which I do, for performance and logging reasons). One great tool the adventurous types might consider: https://github.com/pappasam/vim-filetype-formatter.
If you haven't installed a dependency in a virtualenv and/or don't have a virtualenv active, Jedi may have trouble locating your dependencies. If you encounter issues with completion / anything else, install jedi-language-server in your Python environment (system Python, conda, homebrew, etc) and update your coc-settings.json
with the path to your jedi-language-server
executable. Example:
{
"jedi.executable.command": "/PATH/TO/JEDI/LANGUAGE/SERVER"
}
Note: replace /PATH/TO/JEDI/LANGUAGE/SERVER
with your path. If jedi-language-server
is in your home folder and your username is potato
its path would probably be /home/potato/jedi-language-server
.
If this does not resolve your issue, please create a GitHub issue describing your Python environment and problem.
Relative imports should normally work correctly, but if they do not, your LSP workspace root path is most likely incorrect. For example, when you use a file explorer like ranger, your root path will likely be the same directory as the file you're opening. When you open a file directly with Vim, your root path is your current working directory. See this GIF:
When Vim's current working directory is deep within a project's tree, things like relative imports won't work correctly. They ONLY work when Vim's current working directory (and, therefore, your LSP workspace) can be outside of the package where relative imports take place.
In short: if you want relative imports to work correctly, you should generally open Vim in the root of your project. Some file explorers seem to prevent this from happening.
MIT
- Built using create-coc-extension.
- Written by Samuel Roeca