.. _flycheck-developers-guide: ================= Developer's Guide ================= So you want to extend Flycheck, but have no idea where to start? This guide will give you an overview of Flycheck internals, and take you through adding a syntax checker to Flycheck. An overview of Flycheck internals ================================= The goal of Flycheck is to display errors from external checker programs directly in the buffer you are editing. Instead of you manually invoking ``make`` or the compiler for your favorite language, Flycheck takes care of it for you, collects the errors and displays them right there in the buffer. How Flycheck works is rather straightforward. Whenever a syntax check is started (see :ref:`flycheck-syntax-checks`), the following happens: 1. First, Flycheck runs the external program as an asynchronous process using ``start-process``. While this process runs, Flycheck simply accumulates its output. 2. When the process exits, Flycheck parses its output in order to collect the errors. The raw output is turned into a list of `flycheck-error` objects containing, among others, the filename, line, column, message and severity of the error. 3. Flycheck then filters the collected errors to keep only the relevant ones. For instance, errors directed at other files than the one you are editing are discarded. The exact sementics of which errors are relevant is defined in ``flycheck-relevant-error-p``. 4. Relevant errors are highlighted by Flycheck in the buffer, according to user preference. By default, each error adds a mark in the fringe at the line it occurs, and underlines the symbol at the position of the error using *overlays*. 5. Finally, Flycheck rebuilds the error list buffer. Flycheck follows this process for all the :ref:`many different syntax checkers ` that are provided by default. .. note:: Specifically, the above describes the process of *command checkers*, i.e., checkers that run external programs. All the checkers defined in ``flycheck-checkers`` are command checkers, but command checkers are actually instances of *generic checkers*. Many external packages, such as ``dafny-mode``, ``fstar-mode``, etc. use generic checkers, which allow you more flexibility, including running Flycheck with persistent subprocess such as language servers. See :flyc:`flycheck-ocaml` for an example of how to use a generic checker. .. seealso:: :infonode:`(elisp)Asynchronous Processes` How to run and control asynchronous processes from inside Emacs. :infonode:`(elisp)Overlays` How to add temporary annotations to a buffer. .. _adding-a-checker: Adding a syntax checker to Flycheck =================================== To add a syntax checker to Flycheck, you need to answer a few questions: - How to invoke the checker? What is the name of its program, and what arguments should Flycheck pass to it? - How to parse the error messages from the checker output? - What language (or languages) will the checker be used for? For instance, if I were to manually run the Scala compiler ``scalac`` on the following ``hello.scala`` file: .. code-block:: scala object { println("Hello, world") } Here is the output I would get: .. code-block:: console $ scalac hello.scala hello.scala:1: error: identifier expected but '{' found. object { ^ one error found The compiler reports one syntax error from the file ``hello.scala``, on line 3, with severity ``error``, and the rest of the line contains the error message. So, if we want to instruct Flycheck to run ``scalac`` on our Scala files, we need to tell Flycheck to: - Invoke ``scalac FILE-NAME`` - Get errors from output lines of the form: ``file-name:line: error:message`` Writing the checker ------------------- Once you have answered these questions, you merely have to translate the answers to Emacs Lisp. Here is the full definition of the ``scala`` checker you can find in ``flycheck.el``: .. code-block:: elisp (flycheck-define-checker scala "A Scala syntax checker using the Scala compiler. See URL `https://www.scala-lang.org/'." :command ("scalac" "-Ystop-after:parser" source) :error-patterns ((error line-start (file-name) ":" line ": error: " (message) line-end)) :modes scala-mode :next-checkers ((warning . scala-scalastyle))) The code is rather self-explanatory; but we'll go through it nonetheless. First, we define a checker using `flycheck-define-checker`. Its first argument, ``scala``, is the name of the checker, as a symbol. The name is used to refer to the checker in the documentation, so it should usually be the name of the language to check, or the name of the program used to do the checking, or a combination of both. Here, ``scalac`` is the program, but the checker is named ``scala``. There is another Scala checker using ``scalastyle``, with the name ``scala-scalastyle``. See `flycheck-checkers` for the full list of checker names defined in Flycheck. After the name comes the docstring. This is a documentation string answering three questions: 1) What language is this checker for? 2) What is the program used? 3) Where can users get this program? Nothing more. In particular, this string does *not* include user documentation, which should rather go in the manual (see :ref:`flycheck-languages`). The rest of the arguments are keyword arguments; their order does not matter, but they are usually given in the fashion above. - ``:command`` describes what command to run, and what arguments to pass. Here, we tell Flycheck to run ``scalac -Ystop-after:parser`` on ``source``. In Flycheck, we usually want to get error feedback as fast as possible, hence we will pass any flag that will speed up the invocation of a compiler, even at the cost of missing out on some errors. Here, we are telling ``scalac`` to stop after the parsing phase to ensure we are getting syntax errors quickly. The ``source`` argument is special: it instructs Flycheck to create a temporary file containing the content of the current buffer, and to pass that temporary file as argument to ``scalac``. That way, ``scalac`` can be run on the content of the buffer, even when the buffer has not been saved. There are other ways to pass the content of the buffer to the command, e.g., by piping it through standard input. These special arguments are described in the docstring of `flycheck-substitute-argument`. - ``:error-patterns`` describes how to parse the output, using the `rx` regular expression syntax. Here, we expect ``scalac`` to return error messages of the form:: file:line: error: message This is a common output format for compilers. With the following ``:error-patterns`` value: .. code-block:: elisp ((error line-start (file-name) ":" line ": error: " (message) line-end)) we tell Flycheck to extract three parts from each line in the output that matches the pattern: the ``file-name``, the ``line`` number, and the ``message`` content. These three parts are then used by Flycheck to create a `flycheck-error` with the ``error`` severity. - ``:modes`` is the list of Emacs major modes in which this checker can run. Here, we want the checker to run only in ``scala-mode`` buffers. That's it! This definition alone contains everything Flycheck needs to run ``scalac`` on a Scala buffer and parse its output in order to give error feedback to the user. .. note:: ``rx.el`` is a built-in Emacs module for declarative regular expressions. Look for the documentation of the `rx` function inside Emacs for its usage. Flycheck extends `rx` with a few constructs like ``line``, ``file-name`` and ``message``. You can find them the full list in the docstring for `flycheck-rx-to-string`. Registering the checker ----------------------- Usually, you'll want to register the checker so that it is eligible for automatic selection. For that, you just need to add the checker symbol to `flycheck-checkers`. The order of checkers does matter, as only one checker can be enabled in a buffer at a time. Usually you want to put the most useful checker as the first checker for that mode. For instance, here are the JavaScript checkers provided by Flycheck: .. code-block:: console javascript-eslint javascript-jshint javascript-gjslint javascript-jscs javascript-standard If a buffer is in ``js-mode``, Flycheck will try first to enable ``javascript-eslint`` before any other JavaScript checker. There are other factors governing checker selection in a buffer, namely whether a checker is disabled by user configuration (see :ref:`flycheck-disable-checkers`), and whether this checker *can* be enabled (see the ``:enabled`` property in `flycheck-define-generic-checker`). .. seealso:: flycheck-get-checker-for-buffer This is the function that looks through `flycheck-checkers` to find a valid checker for the buffer. Writing more complex checkers ----------------------------- Here are two examples of more complex checkers: .. code-block:: elisp (flycheck-define-checker protobuf-protoc "A protobuf syntax checker using the protoc compiler. See URL `https://developers.google.com/protocol-buffers/'." :command ("protoc" "--error_format" "gcc" (eval (concat "--java_out=" (flycheck-temp-dir-system))) ;; Add the file directory of protobuf path to resolve import directives (eval (concat "--proto_path=" (file-name-directory (buffer-file-name)))) source-inplace) :error-patterns ((info line-start (file-name) ":" line ":" column ": note: " (message) line-end) (error line-start (file-name) ":" line ":" column ": " (message) line-end) (error line-start (message "In file included from") " " (file-name) ":" line ":" column ":" line-end)) :modes protobuf-mode :predicate (lambda () (buffer-file-name))) .. code-block:: elisp (flycheck-define-checker sh-shellcheck "A shell script syntax and style checker using Shellcheck. See URL `https://github.com/koalaman/shellcheck/'." :command ("shellcheck" "--format" "checkstyle" "--shell" (eval (symbol-name sh-shell)) (option-flag "--external-sources" flycheck-shellcheck-follow-sources) (option "--exclude" flycheck-shellcheck-excluded-warnings list flycheck-option-comma-separated-list) "-") :standard-input t :modes sh-mode :error-parser flycheck-parse-checkstyle :error-filter (lambda (errors) (flycheck-remove-error-file-names "-" errors)) :predicate (lambda () (memq sh-shell '(bash ksh88 sh))) :verify (lambda (_) (let ((supported (memq sh-shell '(bash ksh88 sh)))) (list (flycheck-verification-result-new :label (format "Shell %s supported" sh-shell) :message (if supported "yes" "no") :face (if supports-shell 'success '(bold warning)))))) :error-explainer (lambda (err) (let ((error-code (flycheck-error-id err)) (url "https://github.com/koalaman/shellcheck/wiki/%S")) (and error-code `(url . ,(format url error-code)))))) The ``:command`` forms are longer, as the checkers pass more flags to ``protoc`` and ``shellcheck``. Note the use of ``eval``, ``option``, and ``option-flag`` for transforming Flycheck checker options into flags for the command. See the docstring for `flycheck-substitute-argument` for more info, and look at other checkers for examples. The ``shellcheck`` checker does not use ``source`` nor ``source-inplace``: instead, it passes the buffer contents on standard input, using ``:standard-input t``. The ``protoc`` checker has three patterns in ``:error-patterns``; the first one will catch ``notes`` from the compiler and turn them into `flycheck-error` objects with the ``info`` severity; the second is for errors from the file being checked, and the third one is for errors from other files. In the ``shellcheck`` checker, on the other hand, ``:error-parser`` replaces ``:error-patterns``: ``shellcheck`` outputs results in the standard CheckStyle XML format, so the definition above uses Flycheck's built-in CheckStyle parser, and an ``:error-filter`` to replace ``-`` by the current buffer's filename. Both checkers use a new ``:predicate`` property to determine when the checker can be called. In addition to the ``:mode`` property which restricts the ``protoc`` checker to buffers in ``protobuf-mode``, the ``:predicate`` property ensures that ``protoc`` is called only when there is a file associated to the buffer (this is necessary since we are passing the file associated to the buffer ``protobuf`` using ``source-inplace`` in ``:command``; in contrast, the ``shellcheck`` checker can run in all buffers, because it sends buffer contents through a pipe). The second checker has a more complex ``:predicate`` to make sure that the current shell dialect is supported, and a ``:verify`` function to help users diagnose configuration issues ( ``:verify`` is helpful for giving feedback to users; its output gets included when users invoke `flycheck-verify-setup`) Finally, the ``shellcheck`` checker includes an error explainer, which opens the relevant page on the ShellCheck wiki when users run `flycheck-explain-error-at-point`. There are other useful properties, depending on your situation. Most important is ``:enabled``, which is like ``:predicate`` but is run only once; it is used to make sure a checker has everything it needs before being allowed to run in a buffer (this is particularly useful when the checks are costly: running an external program and parsing its output, checking for a plugin, etc.). .. seealso:: flycheck-define-generic-checker For the full documentation of all the properties you can pass to `flycheck-define-checker`. Look also in the docstring for `flycheck-define-command-checker` for additional properties. .. note:: Don't be afraid to look into the ``flycheck.el`` code. The existing checkers serve as useful examples you can draw from, and all core functions are documented. Sharing your checker -------------------- Once you have written your own syntax checker, why not `submit a pull request `__ to integrate it into Flycheck? If it's useful to you, it may be useful for someone else! Please do check out our :ref:`flycheck-contributors-guide` to learn how we deal with pull requests. Issues with auto-quoting in `flycheck-define-checker` ----------------------------------------------------- You may have noticed that lists passed to the ``:command`` or ``:error-patterns`` in the snippets above are not quoted. That is because `flycheck-define-checker` is a macro which automatically quotes these arguments (not unlike ``use-package`` and other configuration macros). While this makes for less noisy syntax, it unfortunately prevents you from defining a checker with compile-time arguments. For example, you may be tempted to have a custom checker in your Emacs configuration written like this: .. code-block:: elisp (flycheck-define-checker my-foobar-checker :command ("foobar" source) :error-patterns ((error …)) :modes `(foobar-mode ,my-other-foobar-mode)) The idea is that you know statically one mode that you want to use the checker in: ``foobar-mode``, but another mode can be given via the variable ``my-other-foobar-mode`` before the checker is defined. This won't work, because the ``:modes`` property is auto-quoted by `flycheck-define-checker`. The issue arises not just with ``:modes``:, but with almost all the other properties since they are also auto-quoted. If you do find yourself in need to define such a checker, there is a solution though. The `flycheck-define-checker` macro is just a convenience over `flycheck-define-command-checker`, so you could define the checker above as follows: .. code-block:: elisp (flycheck-def-executable-var my-foobar-checker "foobar") (flycheck-define-command-checker 'my-foobar-checker :command '("foobar" source) :error-patterns '((error …)) :modes `(foobar-mode ,my-other-foobar-mode)) Using `flycheck-define-command-checker`, you now need to quote all the list arguments, but now with the confidence that no auto-quoting will take place, since `flycheck-define-command-checker` is just a function. Also note that you need to explicitly define the executable variable for the checker. Using `flycheck-define-command-checker` is the recommended way to define a checker with compile-time arguments. .. note:: The `flycheck-define-checker` macro is an autoload, so using it inside a `with-eval-after-load` form will load all of Flycheck. While this ensures the macro is correctly expanded, it also defeats the purpose of using `with-eval-after-load`. For the background behind this state of affairs, see `issue 1398`_. .. _issue 1398: https://github.com/flycheck/flycheck/issues/1398