Besides simple syntactic font lock and regexp-based font lock, Emacs also provides complete syntactic font lock with the help of a parser. Currently, Emacs uses the tree-sitter library (see Parsing Program Source) for this purpose.
Parser-based font lock and other font lock mechanisms are not mutually exclusive. By default, if enabled, parser-based font lock runs first, replacing syntactic font lock, followed by regexp-based font lock.
Although parser-based font lock doesn’t share the same customization
variables with regexp-based font lock, it uses similar customization
schemes. The tree-sitter counterpart of font-lock-keywords is
treesit-font-lock-settings.
In general, tree-sitter fontification works as follows:
font-lock-keyword
would be highlighted in font-lock-keyword face.
For more information about queries, patterns, and capture names, see Pattern Matching Tree-sitter Nodes.
To set up tree-sitter fontification, a major mode should first set
treesit-font-lock-settings with the output of
treesit-font-lock-rules, then call
treesit-major-mode-setup.
This function is used to set treesit-font-lock-settings. It
takes care of compiling queries and other post-processing, and outputs
a value that treesit-font-lock-settings accepts. Here’s an
example:
(treesit-font-lock-rules :language 'javascript :feature 'constant :override t '((true) @font-lock-constant-face (false) @font-lock-constant-face) :language 'html :feature 'script "(script_element) @font-lock-builtin-face")
This function takes a series of query-specs, where each query-spec is a query preceded by one or more keyword/value pairs. Each query is a tree-sitter query in either the string, s-expression, or compiled form.
For each query, the keyword/value pairs that precede
it add meta information to it. The :language keyword declares
query’s language. The :feature keyword sets the feature
name of query. Users can control which features are enabled
with treesit-font-lock-level and
treesit-font-lock-feature-list (described below). These two
keywords are mandatory.
Other keywords are optional:
| Keyword | Value | Description |
|---|---|---|
:override | nil | If the region already has a face, discard the new face |
t | Always apply the new face | |
append | Append the new face to existing ones | |
prepend | Prepend the new face to existing ones | |
keep | Fill-in regions without an existing face |
Lisp programs mark patterns in query with capture names (names
that start with @), and tree-sitter will return matched nodes
tagged with those same capture names. For the purpose of
fontification, capture names in query should be face names like
font-lock-keyword-face. The captured node will be fontified
with that face.
A capture name can also be a function name, in which case the function
is called with 4 arguments: node and override, start
and end, where node is the node itself, override is
the :override property of the rule which captured this node,
and start and end limit the region which this function
should fontify. (If this function wants to respect the override
argument, it can use treesit-fontify-with-override.)
Beyond the 4 arguments presented, this function should accept more arguments as optional arguments for future extensibility.
If a capture name is both a face and a function, the face takes priority. If a capture name is neither a face nor a function, it is ignored.
This is a list of lists of feature symbols. Each element of the list
is a list that represents a decoration level.
treesit-font-lock-level controls which levels are
activated.
Each element of the list is a list of the form (feature …), where each feature corresponds to the
:feature value of a query defined in
treesit-font-lock-rules. Removing a feature symbol from this
list disables the corresponding query during font-lock.
Common feature names, for many programming languages, include
definition, type, assignment, builtin,
constant, keyword, string-interpolation,
comment, doc, string, operator,
preprocessor, escape-sequence, and key. Major
modes are free to subdivide or extend these common features.
Some of these features warrant some explanation: definition
highlights whatever is being defined, e.g., the function name in a
function definition, the struct name in a struct definition, the
variable name in a variable definition; assignment highlights
whatever is being assigned to, e.g., the variable or field in an
assignment statement; key highlights keys in key-value pairs,
e.g., keys in a JSON object or Python dictionary; doc
highlights docstrings or doc-comments.
For example, the value of this variable could be:
((comment string doc) ; level 1 (function-name keyword type builtin constant) ; level 2 (variable-name string-interpolation key)) ; level 3
Major modes should set this variable before calling
treesit-major-mode-setup.
For this variable to take effect, a Lisp program should call
treesit-font-lock-recompute-features (which resets
treesit-font-lock-settings accordingly), or
treesit-major-mode-setup (which calls
treesit-font-lock-recompute-features).
A list of settings for tree-sitter based font lock. The exact format
of each setting is considered internal. One should always use
treesit-font-lock-rules to set this variable.
Multi-language major modes should provide range functions in
treesit-range-functions, and Emacs will set the ranges
accordingly before fontifing a region (see Parsing Text in Multiple Languages).