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Riley Bruins 19482834bd feat: add Supertype API 
Introduces a new function that takes in a supertype symbol and returns
all associated subtypes. Can be used by query.c to give better errors
for invalid subtypes, as well as downstream applications like the query
LSP to give better diagnostics.
2025-01-05 00:14:09 -05:00
..
bindings.rs feat: add Supertype API 2025-01-05 00:14:09 -05:00
build.rs build: bump deps 2024-12-16 01:22:58 -05:00
ffi.rs feat(rust): add *_with_options to the parser and query cursor, deprecate old functions 2024-10-31 21:58:35 -04:00
lib.rs feat: add Supertype API 2025-01-05 00:14:09 -05:00
README.md docs(rust): document optional features 2024-10-24 17:08:55 +00:00
util.rs feat(lib): support no_std 2024-07-28 11:34:26 +03:00
wasm_language.rs chore: misc clippy lints 2024-10-06 17:55:00 -04:00

README.md

Rust Tree-sitter

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Rust bindings to the Tree-sitter parsing library.

Basic Usage

First, create a parser:

use tree_sitter::{InputEdit, Language, Parser, Point};

let mut parser = Parser::new();

Add the cc crate to your Cargo.toml under [build-dependencies]:

[build-dependencies]
cc="*"

Then, add a language as a dependency:

[dependencies]
tree-sitter = "0.24"
tree-sitter-rust = "0.23"

To then use a language, you assign them to the parser.

parser.set_language(&tree_sitter_rust::LANGUAGE.into()).expect("Error loading Rust grammar");

Now you can parse source code:

let source_code = "fn test() {}";
let mut tree = parser.parse(source_code, None).unwrap();
let root_node = tree.root_node();

assert_eq!(root_node.kind(), "source_file");
assert_eq!(root_node.start_position().column, 0);
assert_eq!(root_node.end_position().column, 12);

Editing

Once you have a syntax tree, you can update it when your source code changes. Passing in the previous edited tree makes parse run much more quickly:

let new_source_code = "fn test(a: u32) {}";

tree.edit(&InputEdit {
  start_byte: 8,
  old_end_byte: 8,
  new_end_byte: 14,
  start_position: Point::new(0, 8),
  old_end_position: Point::new(0, 8),
  new_end_position: Point::new(0, 14),
});

let new_tree = parser.parse(new_source_code, Some(&tree));

Text Input

The source code to parse can be provided either as a string, a slice, a vector, or as a function that returns a slice. The text can be encoded as either UTF8 or UTF16:

// Store some source code in an array of lines.
let lines = &[
    "pub fn foo() {",
    "  1",
    "}",
];

// Parse the source code using a custom callback. The callback is called
// with both a byte offset and a row/column offset.
let tree = parser.parse_with(&mut |_byte: usize, position: Point| -> &[u8] {
    let row = position.row as usize;
    let column = position.column as usize;
    if row < lines.len() {
        if column < lines[row].as_bytes().len() {
            &lines[row].as_bytes()[column..]
        } else {
            b"\n"
        }
    } else {
        &[]
    }
}, None).unwrap();

assert_eq!(
  tree.root_node().to_sexp(),
  "(source_file (function_item (visibility_modifier) (identifier) (parameters) (block (number_literal))))"
);

Features

  • std - This feature is enabled by default and allows tree-sitter to use the standard library.
    • Error types implement the std::error:Error trait.
    • regex performance optimizations are enabled.
    • The DOT graph methods are enabled.
  • wasm - This feature allows tree-sitter to be built for Wasm targets using the wasmtime-c-api crate.