Languages

Language-specific settings and settings for language servers are configured in languages.toml files.

languages.toml files

There are three possible locations for a languages.toml file:

  1. In the Helix source code, which lives in the Helix repository. It provides the default configurations for languages and language servers.

  2. In your configuration directory. This overrides values from the built-in language configuration. For example, to disable auto-LSP-formatting in Rust:

    # in <config_dir>/helix/languages.toml
    
    [language-server.mylang-lsp]
    command = "mylang-lsp"
    
    [[language]]
    name = "rust"
    auto-format = false
    
  3. In a .helix folder in your project. Language configuration may also be overridden local to a project by creating a languages.toml file in a .helix folder. Its settings will be merged with the language configuration in the configuration directory and the built-in configuration.

Language configuration

Each language is configured by adding a [[language]] section to a languages.toml file. For example:

[[language]]
name = "mylang"
scope = "source.mylang"
injection-regex = "mylang"
file-types = ["mylang", "myl"]
comment-tokens = "#"
indent = { tab-width = 2, unit = "  " }
formatter = { command = "mylang-formatter" , args = ["--stdin"] }
language-servers = [ "mylang-lsp" ]

These configuration keys are available:

KeyDescription
nameThe name of the language
language-idThe language-id for language servers, checkout the table at TextDocumentItem for the right id
scopeA string like source.js that identifies the language. Currently, we strive to match the scope names used by popular TextMate grammars and by the Linguist library. Usually source.<name> or text.<name> in case of markup languages
injection-regexregex pattern that will be tested against a language name in order to determine whether this language should be used for a potential language injection site.
file-typesThe filetypes of the language, for example ["yml", "yaml"]. See the file-type detection section below.
shebangsThe interpreters from the shebang line, for example ["sh", "bash"]
rootsA set of marker files to look for when trying to find the workspace root. For example Cargo.lock, yarn.lock
auto-formatWhether to autoformat this language when saving
diagnostic-severityMinimal severity of diagnostic for it to be displayed. (Allowed values: Error, Warning, Info, Hint)
comment-tokensThe tokens to use as a comment token, either a single token "//" or an array ["//", "///", "//!"] (the first token will be used for commenting). Also configurable as comment-token for backwards compatibility
block-comment-tokensThe start and end tokens for a multiline comment either an array or single table of { start = "/*", end = "*/"}. The first set of tokens will be used for commenting, any pairs in the array can be uncommented
indentThe indent to use. Has sub keys unit (the text inserted into the document when indenting; usually set to N spaces or "\t" for tabs) and tab-width (the number of spaces rendered for a tab)
language-serversThe Language Servers used for this language. See below for more information in the section Configuring Language Servers for a language
grammarThe tree-sitter grammar to use (defaults to the value of name)
formatterThe formatter for the language, it will take precedence over the lsp when defined. The formatter must be able to take the original file as input from stdin and write the formatted file to stdout
soft-wrapeditor.softwrap
text-widthMaximum line length. Used for the :reflow command and soft-wrapping if soft-wrap.wrap-at-text-width is set, defaults to editor.text-width
path-completionOverrides the editor.path-completion config key for the language.
workspace-lsp-rootsDirectories relative to the workspace root that are treated as LSP roots. Should only be set in .helix/config.toml. Overwrites the setting of the same name in config.toml if set.
persistent-diagnostic-sourcesAn array of LSP diagnostic sources assumed unchanged when the language server resends the same set of diagnostics. Helix can track the position for these diagnostics internally instead. Useful for diagnostics that are recomputed on save.

File-type detection and the file-types key

Helix determines which language configuration to use based on the file-types key from the above section. file-types is a list of strings or tables, for example:

file-types = ["toml", { glob = "Makefile" }, { glob = ".git/config" }, { glob = ".github/workflows/*.yaml" } ]

When determining a language configuration to use, Helix searches the file-types with the following priorities:

  1. Glob: values in glob tables are checked against the full path of the given file. Globs are standard Unix-style path globs (e.g. the kind you use in Shell) and can be used to match paths for a specific prefix, suffix, directory, etc. In the above example, the { glob = "Makefile" } config would match files with the name Makefile, the { glob = ".git/config" } config would match config files in .git directories, and the { glob = ".github/workflows/*.yaml" } config would match any yaml files in .github/workflow directories. Note that globs should always use the Unix path separator / even on Windows systems; the matcher will automatically take the machine-specific separators into account. If the glob isn't an absolute path or doesn't already start with a glob prefix, */ will automatically be added to ensure it matches for any subdirectory.
  2. Extension: if there are no glob matches, any file-types string that matches the file extension of a given file wins. In the example above, the "toml" config matches files like Cargo.toml or languages.toml.

Language Server configuration

Language servers are configured separately in the table language-server in the same file as the languages languages.toml

For example:

[language-server.mylang-lsp]
command = "mylang-lsp"
args = ["--stdio"]
config = { provideFormatter = true }
environment = { "ENV1" = "value1", "ENV2" = "value2" }

[language-server.efm-lsp-prettier]
command = "efm-langserver"

[language-server.efm-lsp-prettier.config]
documentFormatting = true
languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] }

These are the available options for a language server.

KeyDescription
commandThe name or path of the language server binary to execute. Binaries must be in $PATH
argsA list of arguments to pass to the language server binary
configLSP initialization options
timeoutThe maximum time a request to the language server may take, in seconds. Defaults to 20
environmentAny environment variables that will be used when starting the language server { "KEY1" = "Value1", "KEY2" = "Value2" }
required-root-patternsA list of glob patterns to look for in the working directory. The language server is started if at least one of them is found.

A format sub-table within config can be used to pass extra formatting options to Document Formatting Requests. For example, with typescript:

[language-server.typescript-language-server]
# pass format options according to https://github.com/typescript-language-server/typescript-language-server#workspacedidchangeconfiguration omitting the "[language].format." prefix.
config = { format = { "semicolons" = "insert", "insertSpaceBeforeFunctionParenthesis" = true } }

Configuring Language Servers for a language

The language-servers attribute in a language tells helix which language servers are used for this language.

They have to be defined in the [language-server] table as described in the previous section.

Different languages can use the same language server instance, e.g. typescript-language-server is used for javascript, jsx, tsx and typescript by default.

The definition order of language servers affects the order in the results list of code action menu.

In case multiple language servers are specified in the language-servers attribute of a language, it's often useful to only enable/disable certain language-server features for these language servers.

As an example, efm-lsp-prettier of the previous example is used only with a formatting command prettier, so everything else should be handled by the typescript-language-server (which is configured by default). The language configuration for typescript could look like this:

[[language]]
name = "typescript"
language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ]

or equivalent:

[[language]]
name = "typescript"
language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ]

Each requested LSP feature is prioritized in the order of the language-servers array. For example, the first goto-definition supported language server (in this case typescript-language-server) will be taken for the relevant LSP request (command goto_definition). The features diagnostics, code-action, completion, document-symbols and workspace-symbols are an exception to that rule, as they are working for all language servers at the same time and are merged together, if enabled for the language. If no except-features or only-features is given, all features for the language server are enabled. If a language server itself doesn't support a feature, the next language server array entry will be tried (and so on).

The list of supported features is:

  • format
  • goto-definition
  • goto-declaration
  • goto-type-definition
  • goto-reference
  • goto-implementation
  • signature-help
  • hover
  • document-highlight
  • completion
  • code-action
  • workspace-command
  • document-symbols
  • workspace-symbols
  • diagnostics
  • rename-symbol
  • inlay-hints

Tree-sitter grammar configuration

The source for a language's tree-sitter grammar is specified in a [[grammar]] section in languages.toml. For example:

[[grammar]]
name = "mylang"
source = { git = "https://github.com/example/mylang", rev = "a250c4582510ff34767ec3b7dcdd3c24e8c8aa68" }

Grammar configuration takes these keys:

KeyDescription
nameThe name of the tree-sitter grammar
sourceThe method of fetching the grammar - a table with a schema defined below

Where source is a table with either these keys when using a grammar from a git repository:

KeyDescription
gitA git remote URL from which the grammar should be cloned
revThe revision (commit hash or tag) which should be fetched
subpathA path within the grammar directory which should be built. Some grammar repositories host multiple grammars (for example tree-sitter-typescript and tree-sitter-ocaml) in subdirectories. This key is used to point hx --grammar build to the correct path for compilation. When omitted, the root of repository is used

Choosing grammars

You may use a top-level use-grammars key to control which grammars are fetched and built when using hx --grammar fetch and hx --grammar build.

# Note: this key must come **before** the [[language]] and [[grammar]] sections
use-grammars = { only = [ "rust", "c", "cpp" ] }
# or
use-grammars = { except = [ "yaml", "json" ] }

When omitted, all grammars are fetched and built.