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#![doc = include_str!("./README.md")]
#![cfg_attr(not(feature = "std"), no_std)]
pub mod ffi;
mod util;
#[cfg(not(feature = "std"))]
extern crate alloc;
#[cfg(not(feature = "std"))]
use alloc::{boxed::Box, format, string::String, string::ToString, vec::Vec};
use core::{
ffi::{c_char, c_void, CStr},
fmt::{self, Write},
hash, iter,
marker::PhantomData,
mem::MaybeUninit,
num::NonZeroU16,
ops::{self, Deref},
ptr::{self, NonNull},
slice, str,
sync::atomic::AtomicUsize,
};
#[cfg(feature = "std")]
use std::error;
#[cfg(all(feature = "std", any(unix, target_os = "wasi")))]
use std::os::fd::AsRawFd;
#[cfg(all(windows, feature = "std"))]
use std::os::windows::io::AsRawHandle;
use streaming_iterator::{StreamingIterator, StreamingIteratorMut};
use tree_sitter_language::LanguageFn;
#[cfg(feature = "wasm")]
mod wasm_language;
#[cfg(feature = "wasm")]
pub use wasm_language::*;
/// The latest ABI version that is supported by the current version of the
/// library.
///
/// When Languages are generated by the Tree-sitter CLI, they are
/// assigned an ABI version number that corresponds to the current CLI version.
/// The Tree-sitter library is generally backwards-compatible with languages
/// generated using older CLI versions, but is not forwards-compatible.
#[doc(alias = "TREE_SITTER_LANGUAGE_VERSION")]
pub const LANGUAGE_VERSION: usize = ffi::TREE_SITTER_LANGUAGE_VERSION as usize;
/// The earliest ABI version that is supported by the current version of the
/// library.
#[doc(alias = "TREE_SITTER_MIN_COMPATIBLE_LANGUAGE_VERSION")]
pub const MIN_COMPATIBLE_LANGUAGE_VERSION: usize =
ffi::TREE_SITTER_MIN_COMPATIBLE_LANGUAGE_VERSION as usize;
pub const PARSER_HEADER: &str = include_str!("../src/parser.h");
/// An opaque object that defines how to parse a particular language. The code
/// for each `Language` is generated by the Tree-sitter CLI.
#[doc(alias = "TSLanguage")]
#[derive(Debug, PartialEq, Eq, Hash)]
#[repr(transparent)]
pub struct Language(*const ffi::TSLanguage);
pub struct LanguageRef<'a>(*const ffi::TSLanguage, PhantomData<&'a ()>);
/// A tree that represents the syntactic structure of a source code file.
#[doc(alias = "TSTree")]
pub struct Tree(NonNull<ffi::TSTree>);
/// A position in a multi-line text document, in terms of rows and columns.
///
/// Rows and columns are zero-based.
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub struct Point {
pub row: usize,
pub column: usize,
}
/// A range of positions in a multi-line text document, both in terms of bytes
/// and of rows and columns.
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub struct Range {
pub start_byte: usize,
pub end_byte: usize,
pub start_point: Point,
pub end_point: Point,
}
/// A summary of a change to a text document.
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct InputEdit {
pub start_byte: usize,
pub old_end_byte: usize,
pub new_end_byte: usize,
pub start_position: Point,
pub old_end_position: Point,
pub new_end_position: Point,
}
/// A single node within a syntax [`Tree`].
#[doc(alias = "TSNode")]
#[derive(Clone, Copy)]
#[repr(transparent)]
pub struct Node<'tree>(ffi::TSNode, PhantomData<&'tree ()>);
/// A stateful object that this is used to produce a [`Tree`] based on some
/// source code.
#[doc(alias = "TSParser")]
pub struct Parser(NonNull<ffi::TSParser>);
/// A stateful object that is used to look up symbols valid in a specific parse
/// state
#[doc(alias = "TSLookaheadIterator")]
pub struct LookaheadIterator(NonNull<ffi::TSLookaheadIterator>);
struct LookaheadNamesIterator<'a>(&'a mut LookaheadIterator);
/// A type of log message.
#[derive(Debug, PartialEq, Eq)]
pub enum LogType {
Parse,
Lex,
}
type FieldId = NonZeroU16;
/// A callback that receives log messages during parser.
type Logger<'a> = Box<dyn FnMut(LogType, &str) + 'a>;
/// A stateful object for walking a syntax [`Tree`] efficiently.
#[doc(alias = "TSTreeCursor")]
pub struct TreeCursor<'cursor>(ffi::TSTreeCursor, PhantomData<&'cursor ()>);
/// A set of patterns that match nodes in a syntax tree.
#[doc(alias = "TSQuery")]
#[derive(Debug)]
#[allow(clippy::type_complexity)]
pub struct Query {
ptr: NonNull<ffi::TSQuery>,
capture_names: Box<[&'static str]>,
capture_quantifiers: Box<[Box<[CaptureQuantifier]>]>,
text_predicates: Box<[Box<[TextPredicateCapture]>]>,
property_settings: Box<[Box<[QueryProperty]>]>,
property_predicates: Box<[Box<[(QueryProperty, bool)]>]>,
general_predicates: Box<[Box<[QueryPredicate]>]>,
}
/// A quantifier for captures
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub enum CaptureQuantifier {
Zero,
ZeroOrOne,
ZeroOrMore,
One,
OneOrMore,
}
impl From<ffi::TSQuantifier> for CaptureQuantifier {
fn from(value: ffi::TSQuantifier) -> Self {
match value {
ffi::TSQuantifierZero => Self::Zero,
ffi::TSQuantifierZeroOrOne => Self::ZeroOrOne,
ffi::TSQuantifierZeroOrMore => Self::ZeroOrMore,
ffi::TSQuantifierOne => Self::One,
ffi::TSQuantifierOneOrMore => Self::OneOrMore,
_ => panic!("Unrecognized quantifier: {value}"),
}
}
}
/// A stateful object for executing a [`Query`] on a syntax [`Tree`].
#[doc(alias = "TSQueryCursor")]
pub struct QueryCursor {
ptr: NonNull<ffi::TSQueryCursor>,
}
/// A key-value pair associated with a particular pattern in a [`Query`].
#[derive(Debug, PartialEq, Eq)]
pub struct QueryProperty {
pub key: Box<str>,
pub value: Option<Box<str>>,
pub capture_id: Option<usize>,
}
#[derive(Debug, PartialEq, Eq)]
pub enum QueryPredicateArg {
Capture(u32),
String(Box<str>),
}
/// A key-value pair associated with a particular pattern in a [`Query`].
#[derive(Debug, PartialEq, Eq)]
pub struct QueryPredicate {
pub operator: Box<str>,
pub args: Box<[QueryPredicateArg]>,
}
/// A match of a [`Query`] to a particular set of [`Node`]s.
pub struct QueryMatch<'cursor, 'tree> {
pub pattern_index: usize,
pub captures: &'cursor [QueryCapture<'tree>],
id: u32,
cursor: *mut ffi::TSQueryCursor,
}
/// A sequence of [`QueryMatch`]es associated with a given [`QueryCursor`].
pub struct QueryMatches<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> {
ptr: *mut ffi::TSQueryCursor,
query: &'query Query,
text_provider: T,
buffer1: Vec<u8>,
buffer2: Vec<u8>,
current_match: Option<QueryMatch<'query, 'tree>>,
_phantom: PhantomData<(&'tree (), I)>,
}
/// A sequence of [`QueryCapture`]s associated with a given [`QueryCursor`].
pub struct QueryCaptures<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> {
ptr: *mut ffi::TSQueryCursor,
query: &'query Query,
text_provider: T,
buffer1: Vec<u8>,
buffer2: Vec<u8>,
current_match: Option<(QueryMatch<'query, 'tree>, usize)>,
_phantom: PhantomData<(&'tree (), I)>,
}
pub trait TextProvider<I>
where
I: AsRef<[u8]>,
{
type I: Iterator<Item = I>;
fn text(&mut self, node: Node) -> Self::I;
}
/// A particular [`Node`] that has been captured with a particular name within a
/// [`Query`].
#[derive(Clone, Copy, Debug)]
#[repr(C)]
pub struct QueryCapture<'tree> {
pub node: Node<'tree>,
pub index: u32,
}
/// An error that occurred when trying to assign an incompatible [`Language`] to
/// a [`Parser`].
#[derive(Debug, PartialEq, Eq)]
pub struct LanguageError {
version: usize,
}
/// An error that occurred in [`Parser::set_included_ranges`].
#[derive(Debug, PartialEq, Eq)]
pub struct IncludedRangesError(pub usize);
/// An error that occurred when trying to create a [`Query`].
#[derive(Debug, PartialEq, Eq)]
pub struct QueryError {
pub row: usize,
pub column: usize,
pub offset: usize,
pub message: String,
pub kind: QueryErrorKind,
}
#[derive(Debug, PartialEq, Eq)]
pub enum QueryErrorKind {
Syntax,
NodeType,
Field,
Capture,
Predicate,
Structure,
Language,
}
#[derive(Debug)]
/// The first item is the capture index
/// The next is capture specific, depending on what item is expected
/// The first bool is if the capture is positive
/// The last item is a bool signifying whether or not it's meant to match
/// any or all captures
enum TextPredicateCapture {
EqString(u32, Box<str>, bool, bool),
EqCapture(u32, u32, bool, bool),
MatchString(u32, regex::bytes::Regex, bool, bool),
AnyString(u32, Box<[Box<str>]>, bool),
}
// TODO: Remove this struct at at some point. If `core::str::lossy::Utf8Lossy`
// is ever stabilized.
pub struct LossyUtf8<'a> {
bytes: &'a [u8],
in_replacement: bool,
}
impl Language {
#[must_use]
pub fn new(builder: LanguageFn) -> Self {
Self(unsafe { builder.into_raw()().cast() })
}
/// Get the ABI version number that indicates which version of the
/// Tree-sitter CLI that was used to generate this [`Language`].
#[doc(alias = "ts_language_version")]
#[must_use]
pub fn version(&self) -> usize {
unsafe { ffi::ts_language_version(self.0) as usize }
}
/// Get the number of distinct node types in this language.
#[doc(alias = "ts_language_symbol_count")]
#[must_use]
pub fn node_kind_count(&self) -> usize {
unsafe { ffi::ts_language_symbol_count(self.0) as usize }
}
/// Get the number of valid states in this language.
#[doc(alias = "ts_language_state_count")]
#[must_use]
pub fn parse_state_count(&self) -> usize {
unsafe { ffi::ts_language_state_count(self.0) as usize }
}
/// Get the name of the node kind for the given numerical id.
#[doc(alias = "ts_language_symbol_name")]
#[must_use]
pub fn node_kind_for_id(&self, id: u16) -> Option<&'static str> {
let ptr = unsafe { ffi::ts_language_symbol_name(self.0, id) };
(!ptr.is_null()).then(|| unsafe { CStr::from_ptr(ptr) }.to_str().unwrap())
}
/// Get the numeric id for the given node kind.
#[doc(alias = "ts_language_symbol_for_name")]
#[must_use]
pub fn id_for_node_kind(&self, kind: &str, named: bool) -> u16 {
unsafe {
ffi::ts_language_symbol_for_name(
self.0,
kind.as_bytes().as_ptr().cast::<c_char>(),
kind.len() as u32,
named,
)
}
}
/// Check if the node type for the given numerical id is named (as opposed
/// to an anonymous node type).
#[must_use]
pub fn node_kind_is_named(&self, id: u16) -> bool {
unsafe { ffi::ts_language_symbol_type(self.0, id) == ffi::TSSymbolTypeRegular }
}
#[doc(alias = "ts_language_symbol_type")]
#[must_use]
pub fn node_kind_is_visible(&self, id: u16) -> bool {
unsafe { ffi::ts_language_symbol_type(self.0, id) <= ffi::TSSymbolTypeAnonymous }
}
/// Get the number of distinct field names in this language.
#[doc(alias = "ts_language_field_count")]
#[must_use]
pub fn field_count(&self) -> usize {
unsafe { ffi::ts_language_field_count(self.0) as usize }
}
/// Get the field names for the given numerical id.
#[doc(alias = "ts_language_field_name_for_id")]
#[must_use]
pub fn field_name_for_id(&self, field_id: u16) -> Option<&'static str> {
let ptr = unsafe { ffi::ts_language_field_name_for_id(self.0, field_id) };
(!ptr.is_null()).then(|| unsafe { CStr::from_ptr(ptr) }.to_str().unwrap())
}
/// Get the numerical id for the given field name.
#[doc(alias = "ts_language_field_id_for_name")]
#[must_use]
pub fn field_id_for_name(&self, field_name: impl AsRef<[u8]>) -> Option<FieldId> {
let field_name = field_name.as_ref();
let id = unsafe {
ffi::ts_language_field_id_for_name(
self.0,
field_name.as_ptr().cast::<c_char>(),
field_name.len() as u32,
)
};
FieldId::new(id)
}
/// Get the next parse state. Combine this with
/// [`lookahead_iterator`](Language::lookahead_iterator) to
/// generate completion suggestions or valid symbols in error nodes.
///
/// Example:
/// ```
/// let state = language.next_state(node.parse_state(), node.grammar_id());
/// ```
#[doc(alias = "ts_language_next_state")]
#[must_use]
pub fn next_state(&self, state: u16, id: u16) -> u16 {
unsafe { ffi::ts_language_next_state(self.0, state, id) }
}
/// Create a new lookahead iterator for this language and parse state.
///
/// This returns `None` if state is invalid for this language.
///
/// Iterating [`LookaheadIterator`] will yield valid symbols in the given
/// parse state. Newly created lookahead iterators will return the `ERROR`
/// symbol from [`LookaheadIterator::current_symbol`].
///
/// Lookahead iterators can be useful to generate suggestions and improve
/// syntax error diagnostics. To get symbols valid in an ERROR node, use the
/// lookahead iterator on its first leaf node state. For `MISSING` nodes, a
/// lookahead iterator created on the previous non-extra leaf node may be
/// appropriate.
#[doc(alias = "ts_lookahead_iterator_new")]
#[must_use]
pub fn lookahead_iterator(&self, state: u16) -> Option<LookaheadIterator> {
let ptr = unsafe { ffi::ts_lookahead_iterator_new(self.0, state) };
(!ptr.is_null()).then(|| unsafe { LookaheadIterator::from_raw(ptr) })
}
}
impl From<LanguageFn> for Language {
fn from(value: LanguageFn) -> Self {
Self::new(value)
}
}
impl Clone for Language {
fn clone(&self) -> Self {
unsafe { Self(ffi::ts_language_copy(self.0)) }
}
}
impl Drop for Language {
fn drop(&mut self) {
unsafe { ffi::ts_language_delete(self.0) }
}
}
impl<'a> Deref for LanguageRef<'a> {
type Target = Language;
fn deref(&self) -> &Self::Target {
unsafe { &*(core::ptr::addr_of!(self.0).cast::<Language>()) }
}
}
impl Default for Parser {
fn default() -> Self {
Self::new()
}
}
impl Parser {
/// Create a new parser.
#[doc(alias = "ts_parser_new")]
#[must_use]
pub fn new() -> Self {
unsafe {
let parser = ffi::ts_parser_new();
Self(NonNull::new_unchecked(parser))
}
}
/// Set the language that the parser should use for parsing.
///
/// Returns a Result indicating whether or not the language was successfully
/// assigned. True means assignment succeeded. False means there was a
/// version mismatch: the language was generated with an incompatible
/// version of the Tree-sitter CLI. Check the language's version using
/// [`Language::version`] and compare it to this library's
/// [`LANGUAGE_VERSION`](LANGUAGE_VERSION) and
/// [`MIN_COMPATIBLE_LANGUAGE_VERSION`](MIN_COMPATIBLE_LANGUAGE_VERSION)
/// constants.
#[doc(alias = "ts_parser_set_language")]
pub fn set_language(&mut self, language: &Language) -> Result<(), LanguageError> {
let version = language.version();
if (MIN_COMPATIBLE_LANGUAGE_VERSION..=LANGUAGE_VERSION).contains(&version) {
unsafe {
ffi::ts_parser_set_language(self.0.as_ptr(), language.0);
}
Ok(())
} else {
Err(LanguageError { version })
}
}
/// Get the parser's current language.
#[doc(alias = "ts_parser_language")]
#[must_use]
pub fn language(&self) -> Option<LanguageRef<'_>> {
let ptr = unsafe { ffi::ts_parser_language(self.0.as_ptr()) };
(!ptr.is_null()).then_some(LanguageRef(ptr, PhantomData))
}
/// Get the parser's current logger.
#[doc(alias = "ts_parser_logger")]
#[must_use]
pub fn logger(&self) -> Option<&Logger> {
let logger = unsafe { ffi::ts_parser_logger(self.0.as_ptr()) };
unsafe { logger.payload.cast::<Logger>().as_ref() }
}
/// Set the logging callback that a parser should use during parsing.
#[doc(alias = "ts_parser_set_logger")]
pub fn set_logger(&mut self, logger: Option<Logger>) {
let prev_logger = unsafe { ffi::ts_parser_logger(self.0.as_ptr()) };
if !prev_logger.payload.is_null() {
drop(unsafe { Box::from_raw(prev_logger.payload.cast::<Logger>()) });
}
let c_logger;
if let Some(logger) = logger {
let container = Box::new(logger);
unsafe extern "C" fn log(
payload: *mut c_void,
c_log_type: ffi::TSLogType,
c_message: *const c_char,
) {
let callback = payload.cast::<Logger>().as_mut().unwrap();
if let Ok(message) = CStr::from_ptr(c_message).to_str() {
let log_type = if c_log_type == ffi::TSLogTypeParse {
LogType::Parse
} else {
LogType::Lex
};
callback(log_type, message);
}
}
let raw_container = Box::into_raw(container);
c_logger = ffi::TSLogger {
payload: raw_container.cast::<c_void>(),
log: Some(log),
};
} else {
c_logger = ffi::TSLogger {
payload: ptr::null_mut(),
log: None,
};
}
unsafe { ffi::ts_parser_set_logger(self.0.as_ptr(), c_logger) };
}
/// Set the destination to which the parser should write debugging graphs
/// during parsing. The graphs are formatted in the DOT language. You may
/// want to pipe these graphs directly to a `dot(1)` process in order to
/// generate SVG output.
#[doc(alias = "ts_parser_print_dot_graphs")]
#[cfg(not(target_os = "wasi"))]
#[cfg(feature = "std")]
pub fn print_dot_graphs(
&mut self,
#[cfg(unix)] file: &impl AsRawFd,
#[cfg(windows)] file: &impl AsRawHandle,
) {
#[cfg(unix)]
{
let fd = file.as_raw_fd();
unsafe {
ffi::ts_parser_print_dot_graphs(self.0.as_ptr(), ffi::_ts_dup(fd));
}
}
#[cfg(windows)]
{
let handle = file.as_raw_handle();
unsafe {
ffi::ts_parser_print_dot_graphs(self.0.as_ptr(), ffi::_ts_dup(handle));
}
}
}
/// Stop the parser from printing debugging graphs while parsing.
#[doc(alias = "ts_parser_print_dot_graphs")]
pub fn stop_printing_dot_graphs(&mut self) {
unsafe { ffi::ts_parser_print_dot_graphs(self.0.as_ptr(), -1) }
}
/// Parse a slice of UTF8 text.
///
/// # Arguments:
/// * `text` The UTF8-encoded text to parse.
/// * `old_tree` A previous syntax tree parsed from the same document. If the text of the
/// document has changed since `old_tree` was created, then you must edit `old_tree` to match
/// the new text using [`Tree::edit`].
///
/// Returns a [`Tree`] if parsing succeeded, or `None` if:
/// * The parser has not yet had a language assigned with [`Parser::set_language`]
/// * The timeout set with [`Parser::set_timeout_micros`] expired
/// * The cancellation flag set with [`Parser::set_cancellation_flag`] was flipped
#[doc(alias = "ts_parser_parse")]
pub fn parse(&mut self, text: impl AsRef<[u8]>, old_tree: Option<&Tree>) -> Option<Tree> {
let bytes = text.as_ref();
let len = bytes.len();
self.parse_with(
&mut |i, _| (i < len).then(|| &bytes[i..]).unwrap_or_default(),
old_tree,
)
}
/// Parse a slice of UTF16 text.
///
/// # Arguments:
/// * `text` The UTF16-encoded text to parse.
/// * `old_tree` A previous syntax tree parsed from the same document. If the text of the
/// document has changed since `old_tree` was created, then you must edit `old_tree` to match
/// the new text using [`Tree::edit`].
pub fn parse_utf16(
&mut self,
input: impl AsRef<[u16]>,
old_tree: Option<&Tree>,
) -> Option<Tree> {
let code_points = input.as_ref();
let len = code_points.len();
self.parse_utf16_with(
&mut |i, _| (i < len).then(|| &code_points[i..]).unwrap_or_default(),
old_tree,
)
}
/// Parse UTF8 text provided in chunks by a callback.
///
/// # Arguments:
/// * `callback` A function that takes a byte offset and position and returns a slice of
/// UTF8-encoded text starting at that byte offset and position. The slices can be of any
/// length. If the given position is at the end of the text, the callback should return an
/// empty slice.
/// * `old_tree` A previous syntax tree parsed from the same document. If the text of the
/// document has changed since `old_tree` was created, then you must edit `old_tree` to match
/// the new text using [`Tree::edit`].
pub fn parse_with<T: AsRef<[u8]>, F: FnMut(usize, Point) -> T>(
&mut self,
callback: &mut F,
old_tree: Option<&Tree>,
) -> Option<Tree> {
// A pointer to this payload is passed on every call to the `read` C function.
// The payload contains two things:
// 1. A reference to the rust `callback`.
// 2. The text that was returned from the previous call to `callback`. This allows the
// callback to return owned values like vectors.
let mut payload: (&mut F, Option<T>) = (callback, None);
// This C function is passed to Tree-sitter as the input callback.
unsafe extern "C" fn read<T: AsRef<[u8]>, F: FnMut(usize, Point) -> T>(
payload: *mut c_void,
byte_offset: u32,
position: ffi::TSPoint,
bytes_read: *mut u32,
) -> *const c_char {
let (callback, text) = payload.cast::<(&mut F, Option<T>)>().as_mut().unwrap();
*text = Some(callback(byte_offset as usize, position.into()));
let slice = text.as_ref().unwrap().as_ref();
*bytes_read = slice.len() as u32;
slice.as_ptr().cast::<c_char>()
}
let c_input = ffi::TSInput {
payload: core::ptr::addr_of_mut!(payload).cast::<c_void>(),
read: Some(read::<T, F>),
encoding: ffi::TSInputEncodingUTF8,
};
let c_old_tree = old_tree.map_or(ptr::null_mut(), |t| t.0.as_ptr());
unsafe {
let c_new_tree = ffi::ts_parser_parse(self.0.as_ptr(), c_old_tree, c_input);
NonNull::new(c_new_tree).map(Tree)
}
}
/// Parse UTF16 text provided in chunks by a callback.
///
/// # Arguments:
/// * `callback` A function that takes a code point offset and position and returns a slice of
/// UTF16-encoded text starting at that byte offset and position. The slices can be of any
/// length. If the given position is at the end of the text, the callback should return an
/// empty slice.
/// * `old_tree` A previous syntax tree parsed from the same document. If the text of the
/// document has changed since `old_tree` was created, then you must edit `old_tree` to match
/// the new text using [`Tree::edit`].
pub fn parse_utf16_with<T: AsRef<[u16]>, F: FnMut(usize, Point) -> T>(
&mut self,
callback: &mut F,
old_tree: Option<&Tree>,
) -> Option<Tree> {
// A pointer to this payload is passed on every call to the `read` C function.
// The payload contains two things:
// 1. A reference to the rust `callback`.
// 2. The text that was returned from the previous call to `callback`. This allows the
// callback to return owned values like vectors.
let mut payload: (&mut F, Option<T>) = (callback, None);
// This C function is passed to Tree-sitter as the input callback.
unsafe extern "C" fn read<T: AsRef<[u16]>, F: FnMut(usize, Point) -> T>(
payload: *mut c_void,
byte_offset: u32,
position: ffi::TSPoint,
bytes_read: *mut u32,
) -> *const c_char {
let (callback, text) = payload.cast::<(&mut F, Option<T>)>().as_mut().unwrap();
*text = Some(callback(
(byte_offset / 2) as usize,
Point {
row: position.row as usize,
column: position.column as usize / 2,
},
));
let slice = text.as_ref().unwrap().as_ref();
*bytes_read = slice.len() as u32 * 2;
slice.as_ptr().cast::<c_char>()
}
let c_input = ffi::TSInput {
payload: core::ptr::addr_of_mut!(payload).cast::<c_void>(),
read: Some(read::<T, F>),
encoding: ffi::TSInputEncodingUTF16,
};
let c_old_tree = old_tree.map_or(ptr::null_mut(), |t| t.0.as_ptr());
unsafe {
let c_new_tree = ffi::ts_parser_parse(self.0.as_ptr(), c_old_tree, c_input);
NonNull::new(c_new_tree).map(Tree)
}
}
/// Instruct the parser to start the next parse from the beginning.
///
/// If the parser previously failed because of a timeout or a cancellation,
/// then by default, it will resume where it left off on the next call
/// to [`parse`](Parser::parse) or other parsing functions. If you don't
/// want to resume, and instead intend to use this parser to parse some
/// other document, you must call `reset` first.
#[doc(alias = "ts_parser_reset")]
pub fn reset(&mut self) {
unsafe { ffi::ts_parser_reset(self.0.as_ptr()) }
}
/// Get the duration in microseconds that parsing is allowed to take.
///
/// This is set via [`set_timeout_micros`](Parser::set_timeout_micros).
#[doc(alias = "ts_parser_timeout_micros")]
#[must_use]
pub fn timeout_micros(&self) -> u64 {
unsafe { ffi::ts_parser_timeout_micros(self.0.as_ptr()) }
}
/// Set the maximum duration in microseconds that parsing should be allowed
/// to take before halting.
///
/// If parsing takes longer than this, it will halt early, returning `None`.
/// See [`parse`](Parser::parse) for more information.
#[doc(alias = "ts_parser_set_timeout_micros")]
pub fn set_timeout_micros(&mut self, timeout_micros: u64) {
unsafe { ffi::ts_parser_set_timeout_micros(self.0.as_ptr(), timeout_micros) }
}
/// Set the ranges of text that the parser should include when parsing.
///
/// By default, the parser will always include entire documents. This
/// function allows you to parse only a *portion* of a document but
/// still return a syntax tree whose ranges match up with the document
/// as a whole. You can also pass multiple disjoint ranges.
///
/// If `ranges` is empty, then the entire document will be parsed.
/// Otherwise, the given ranges must be ordered from earliest to latest
/// in the document, and they must not overlap. That is, the following
/// must hold for all `i` < `length - 1`:
/// ```text
/// ranges[i].end_byte <= ranges[i + 1].start_byte
/// ```
/// If this requirement is not satisfied, method will return
/// [`IncludedRangesError`] error with an offset in the passed ranges
/// slice pointing to a first incorrect range.
#[doc(alias = "ts_parser_set_included_ranges")]
pub fn set_included_ranges(&mut self, ranges: &[Range]) -> Result<(), IncludedRangesError> {
let ts_ranges = ranges.iter().copied().map(Into::into).collect::<Vec<_>>();
let result = unsafe {
ffi::ts_parser_set_included_ranges(
self.0.as_ptr(),
ts_ranges.as_ptr(),
ts_ranges.len() as u32,
)
};
if result {
Ok(())
} else {
let mut prev_end_byte = 0;
for (i, range) in ranges.iter().enumerate() {
if range.start_byte < prev_end_byte || range.end_byte < range.start_byte {
return Err(IncludedRangesError(i));
}
prev_end_byte = range.end_byte;
}
Err(IncludedRangesError(0))
}
}
/// Get the ranges of text that the parser will include when parsing.
#[doc(alias = "ts_parser_included_ranges")]
#[must_use]
pub fn included_ranges(&self) -> Vec<Range> {
let mut count = 0u32;
unsafe {
let ptr =
ffi::ts_parser_included_ranges(self.0.as_ptr(), core::ptr::addr_of_mut!(count));
let ranges = slice::from_raw_parts(ptr, count as usize);
let result = ranges.iter().copied().map(Into::into).collect();
result
}
}
/// Get the parser's current cancellation flag pointer.
///
/// # Safety
///
/// It uses FFI
#[doc(alias = "ts_parser_cancellation_flag")]
#[must_use]
pub unsafe fn cancellation_flag(&self) -> Option<&AtomicUsize> {
ffi::ts_parser_cancellation_flag(self.0.as_ptr())
.cast::<AtomicUsize>()
.as_ref()
}
/// Set the parser's current cancellation flag pointer.
///
/// If a pointer is assigned, then the parser will periodically read from
/// this pointer during parsing. If it reads a non-zero value, it will halt
/// early, returning `None`. See [`parse`](Parser::parse) for more
/// information.
///
/// # Safety
///
/// It uses FFI
#[doc(alias = "ts_parser_set_cancellation_flag")]
pub unsafe fn set_cancellation_flag(&mut self, flag: Option<&AtomicUsize>) {
if let Some(flag) = flag {
ffi::ts_parser_set_cancellation_flag(
self.0.as_ptr(),
(flag as *const AtomicUsize).cast::<usize>(),
);
} else {
ffi::ts_parser_set_cancellation_flag(self.0.as_ptr(), ptr::null());
}
}
}
impl Drop for Parser {
fn drop(&mut self) {
self.stop_printing_dot_graphs();
self.set_logger(None);
unsafe { ffi::ts_parser_delete(self.0.as_ptr()) }
}
}
impl Tree {
/// Get the root node of the syntax tree.
#[doc(alias = "ts_tree_root_node")]
#[must_use]
pub fn root_node(&self) -> Node {
Node::new(unsafe { ffi::ts_tree_root_node(self.0.as_ptr()) }).unwrap()
}
/// Get the root node of the syntax tree, but with its position shifted
/// forward by the given offset.
#[doc(alias = "ts_tree_root_node_with_offset")]
#[must_use]
pub fn root_node_with_offset(&self, offset_bytes: usize, offset_extent: Point) -> Node {
Node::new(unsafe {
ffi::ts_tree_root_node_with_offset(
self.0.as_ptr(),
offset_bytes as u32,
offset_extent.into(),
)
})
.unwrap()
}
/// Get the language that was used to parse the syntax tree.
#[doc(alias = "ts_tree_language")]
#[must_use]
pub fn language(&self) -> LanguageRef {
LanguageRef(
unsafe { ffi::ts_tree_language(self.0.as_ptr()) },
PhantomData,
)
}
/// Edit the syntax tree to keep it in sync with source code that has been
/// edited.
///
/// You must describe the edit both in terms of byte offsets and in terms of
/// row/column coordinates.
#[doc(alias = "ts_tree_edit")]
pub fn edit(&mut self, edit: &InputEdit) {
let edit = edit.into();
unsafe { ffi::ts_tree_edit(self.0.as_ptr(), &edit) };
}
/// Create a new [`TreeCursor`] starting from the root of the tree.
#[must_use]
pub fn walk(&self) -> TreeCursor {
self.root_node().walk()
}
/// Compare this old edited syntax tree to a new syntax tree representing
/// the same document, returning a sequence of ranges whose syntactic
/// structure has changed.
///
/// For this to work correctly, this syntax tree must have been edited such
/// that its ranges match up to the new tree. Generally, you'll want to
/// call this method right after calling one of the [`Parser::parse`]
/// functions. Call it on the old tree that was passed to parse, and
/// pass the new tree that was returned from `parse`.
#[doc(alias = "ts_tree_get_changed_ranges")]
#[must_use]
pub fn changed_ranges(&self, other: &Self) -> impl ExactSizeIterator<Item = Range> {
let mut count = 0u32;
unsafe {
let ptr = ffi::ts_tree_get_changed_ranges(
self.0.as_ptr(),
other.0.as_ptr(),
core::ptr::addr_of_mut!(count),
);
util::CBufferIter::new(ptr, count as usize).map(Into::into)
}
}
/// Get the included ranges that were used to parse the syntax tree.
#[doc(alias = "ts_tree_included_ranges")]
#[must_use]
pub fn included_ranges(&self) -> Vec<Range> {
let mut count = 0u32;
unsafe {
let ptr = ffi::ts_tree_included_ranges(self.0.as_ptr(), core::ptr::addr_of_mut!(count));
let ranges = slice::from_raw_parts(ptr, count as usize);
let result = ranges.iter().copied().map(Into::into).collect();
(FREE_FN)(ptr.cast::<c_void>());
result
}
}
/// Print a graph of the tree to the given file descriptor.
/// The graph is formatted in the DOT language. You may want to pipe this
/// graph directly to a `dot(1)` process in order to generate SVG
/// output.
#[doc(alias = "ts_tree_print_dot_graph")]
#[cfg(not(target_os = "wasi"))]
#[cfg(feature = "std")]
pub fn print_dot_graph(
&self,
#[cfg(unix)] file: &impl AsRawFd,
#[cfg(windows)] file: &impl AsRawHandle,
) {
#[cfg(unix)]
{
let fd = file.as_raw_fd();
unsafe { ffi::ts_tree_print_dot_graph(self.0.as_ptr(), fd) }
}
#[cfg(windows)]
{
let handle = file.as_raw_handle();
unsafe { ffi::ts_tree_print_dot_graph(self.0.as_ptr(), handle as i32) }
}
}
}
impl fmt::Debug for Tree {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{{Tree {:?}}}", self.root_node())
}
}
impl Drop for Tree {
fn drop(&mut self) {
unsafe { ffi::ts_tree_delete(self.0.as_ptr()) }
}
}
impl Clone for Tree {
fn clone(&self) -> Self {
unsafe { Self(NonNull::new_unchecked(ffi::ts_tree_copy(self.0.as_ptr()))) }
}
}
impl<'tree> Node<'tree> {
fn new(node: ffi::TSNode) -> Option<Self> {
(!node.id.is_null()).then_some(Node(node, PhantomData))
}
/// Get a numeric id for this node that is unique.
///
/// Within a given syntax tree, no two nodes have the same id. However, if
/// a new tree is created based on an older tree, and a node from the old
/// tree is reused in the process, then that node will have the same id in
/// both trees.
#[must_use]
pub fn id(&self) -> usize {
self.0.id as usize
}
/// Get this node's type as a numerical id.
#[doc(alias = "ts_node_symbol")]
#[must_use]
pub fn kind_id(&self) -> u16 {
unsafe { ffi::ts_node_symbol(self.0) }
}
/// Get the node's type as a numerical id as it appears in the grammar
/// ignoring aliases.
#[doc(alias = "ts_node_grammar_symbol")]
#[must_use]
pub fn grammar_id(&self) -> u16 {
unsafe { ffi::ts_node_grammar_symbol(self.0) }
}
/// Get this node's type as a string.
#[doc(alias = "ts_node_type")]
#[must_use]
pub fn kind(&self) -> &'static str {
unsafe { CStr::from_ptr(ffi::ts_node_type(self.0)) }
.to_str()
.unwrap()
}
/// Get this node's symbol name as it appears in the grammar ignoring
/// aliases as a string.
#[doc(alias = "ts_node_grammar_type")]
#[must_use]
pub fn grammar_name(&self) -> &'static str {
unsafe { CStr::from_ptr(ffi::ts_node_grammar_type(self.0)) }
.to_str()
.unwrap()
}
/// Get the [`Language`] that was used to parse this node's syntax tree.
#[doc(alias = "ts_node_language")]
#[must_use]
pub fn language(&self) -> LanguageRef {
LanguageRef(unsafe { ffi::ts_node_language(self.0) }, PhantomData)
}
/// Check if this node is *named*.
///
/// Named nodes correspond to named rules in the grammar, whereas
/// *anonymous* nodes correspond to string literals in the grammar.
#[doc(alias = "ts_node_is_named")]
#[must_use]
pub fn is_named(&self) -> bool {
unsafe { ffi::ts_node_is_named(self.0) }
}
/// Check if this node is *extra*.
///
/// Extra nodes represent things like comments, which are not required the
/// grammar, but can appear anywhere.
#[doc(alias = "ts_node_is_extra")]
#[must_use]
pub fn is_extra(&self) -> bool {
unsafe { ffi::ts_node_is_extra(self.0) }
}
/// Check if this node has been edited.
#[doc(alias = "ts_node_has_changes")]
#[must_use]
pub fn has_changes(&self) -> bool {
unsafe { ffi::ts_node_has_changes(self.0) }
}
/// Check if this node represents a syntax error or contains any syntax
/// errors anywhere within it.
#[doc(alias = "ts_node_has_error")]
#[must_use]
pub fn has_error(&self) -> bool {
unsafe { ffi::ts_node_has_error(self.0) }
}
/// Check if this node represents a syntax error.
///
/// Syntax errors represent parts of the code that could not be incorporated
/// into a valid syntax tree.
#[doc(alias = "ts_node_is_error")]
#[must_use]
pub fn is_error(&self) -> bool {
unsafe { ffi::ts_node_is_error(self.0) }
}
/// Get this node's parse state.
#[doc(alias = "ts_node_parse_state")]
#[must_use]
pub fn parse_state(&self) -> u16 {
unsafe { ffi::ts_node_parse_state(self.0) }
}
/// Get the parse state after this node.
#[doc(alias = "ts_node_next_parse_state")]
#[must_use]
pub fn next_parse_state(&self) -> u16 {
unsafe { ffi::ts_node_next_parse_state(self.0) }
}
/// Check if this node is *missing*.
///
/// Missing nodes are inserted by the parser in order to recover from
/// certain kinds of syntax errors.
#[doc(alias = "ts_node_is_missing")]
#[must_use]
pub fn is_missing(&self) -> bool {
unsafe { ffi::ts_node_is_missing(self.0) }
}
/// Get the byte offsets where this node starts.
#[doc(alias = "ts_node_start_byte")]
#[must_use]
pub fn start_byte(&self) -> usize {
unsafe { ffi::ts_node_start_byte(self.0) as usize }
}
/// Get the byte offsets where this node end.
#[doc(alias = "ts_node_end_byte")]
#[must_use]
pub fn end_byte(&self) -> usize {
unsafe { ffi::ts_node_end_byte(self.0) as usize }
}
/// Get the byte range of source code that this node represents.
#[must_use]
pub fn byte_range(&self) -> core::ops::Range<usize> {
self.start_byte()..self.end_byte()
}
/// Get the range of source code that this node represents, both in terms of
/// raw bytes and of row/column coordinates.
#[must_use]
pub fn range(&self) -> Range {
Range {
start_byte: self.start_byte(),
end_byte: self.end_byte(),
start_point: self.start_position(),
end_point: self.end_position(),
}
}
/// Get this node's start position in terms of rows and columns.
#[doc(alias = "ts_node_start_point")]
#[must_use]
pub fn start_position(&self) -> Point {
let result = unsafe { ffi::ts_node_start_point(self.0) };
result.into()
}
/// Get this node's end position in terms of rows and columns.
#[doc(alias = "ts_node_end_point")]
#[must_use]
pub fn end_position(&self) -> Point {
let result = unsafe { ffi::ts_node_end_point(self.0) };
result.into()
}
/// Get the node's child at the given index, where zero represents the first
/// child.
///
/// This method is fairly fast, but its cost is technically log(i), so if
/// you might be iterating over a long list of children, you should use
/// [`Node::children`] instead.
#[doc(alias = "ts_node_child")]
#[must_use]
pub fn child(&self, i: usize) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_child(self.0, i as u32) })
}
/// Get this node's number of children.
#[doc(alias = "ts_node_child_count")]
#[must_use]
pub fn child_count(&self) -> usize {
unsafe { ffi::ts_node_child_count(self.0) as usize }
}
/// Get this node's *named* child at the given index.
///
/// See also [`Node::is_named`].
/// This method is fairly fast, but its cost is technically log(i), so if
/// you might be iterating over a long list of children, you should use
/// [`Node::named_children`] instead.
#[doc(alias = "ts_node_named_child")]
#[must_use]
pub fn named_child(&self, i: usize) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_named_child(self.0, i as u32) })
}
/// Get this node's number of *named* children.
///
/// See also [`Node::is_named`].
#[doc(alias = "ts_node_named_child_count")]
#[must_use]
pub fn named_child_count(&self) -> usize {
unsafe { ffi::ts_node_named_child_count(self.0) as usize }
}
/// Get the first child with the given field name.
///
/// If multiple children may have the same field name, access them using
/// [`children_by_field_name`](Node::children_by_field_name)
#[doc(alias = "ts_node_child_by_field_name")]
#[must_use]
pub fn child_by_field_name(&self, field_name: impl AsRef<[u8]>) -> Option<Self> {
let field_name = field_name.as_ref();
Self::new(unsafe {
ffi::ts_node_child_by_field_name(
self.0,
field_name.as_ptr().cast::<c_char>(),
field_name.len() as u32,
)
})
}
/// Get this node's child with the given numerical field id.
///
/// See also [`child_by_field_name`](Node::child_by_field_name). You can
/// convert a field name to an id using [`Language::field_id_for_name`].
#[doc(alias = "ts_node_child_by_field_id")]
#[must_use]
pub fn child_by_field_id(&self, field_id: u16) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_child_by_field_id(self.0, field_id) })
}
/// Get the field name of this node's child at the given index.
#[doc(alias = "ts_node_field_name_for_child")]
#[must_use]
pub fn field_name_for_child(&self, child_index: u32) -> Option<&'static str> {
unsafe {
let ptr = ffi::ts_node_field_name_for_child(self.0, child_index);
(!ptr.is_null()).then(|| CStr::from_ptr(ptr).to_str().unwrap())
}
}
/// Get the field name of this node's named child at the given index.
pub fn field_name_for_named_child(&self, named_child_index: u32) -> Option<&'static str> {
unsafe {
let ptr = ffi::ts_node_field_name_for_named_child(self.0, named_child_index);
(!ptr.is_null()).then(|| CStr::from_ptr(ptr).to_str().unwrap())
}
}
/// Iterate over this node's children.
///
/// A [`TreeCursor`] is used to retrieve the children efficiently. Obtain
/// a [`TreeCursor`] by calling [`Tree::walk`] or [`Node::walk`]. To avoid
/// unnecessary allocations, you should reuse the same cursor for
/// subsequent calls to this method.
///
/// If you're walking the tree recursively, you may want to use the
/// [`TreeCursor`] APIs directly instead.
pub fn children<'cursor>(
&self,
cursor: &'cursor mut TreeCursor<'tree>,
) -> impl ExactSizeIterator<Item = Node<'tree>> + 'cursor {
cursor.reset(*self);
cursor.goto_first_child();
(0..self.child_count()).map(move |_| {
let result = cursor.node();
cursor.goto_next_sibling();
result
})
}
/// Iterate over this node's named children.
///
/// See also [`Node::children`].
pub fn named_children<'cursor>(
&self,
cursor: &'cursor mut TreeCursor<'tree>,
) -> impl ExactSizeIterator<Item = Node<'tree>> + 'cursor {
cursor.reset(*self);
cursor.goto_first_child();
(0..self.named_child_count()).map(move |_| {
while !cursor.node().is_named() {
if !cursor.goto_next_sibling() {
break;
}
}
let result = cursor.node();
cursor.goto_next_sibling();
result
})
}
/// Iterate over this node's children with a given field name.
///
/// See also [`Node::children`].
pub fn children_by_field_name<'cursor>(
&self,
field_name: &str,
cursor: &'cursor mut TreeCursor<'tree>,
) -> impl Iterator<Item = Node<'tree>> + 'cursor {
let field_id = self.language().field_id_for_name(field_name);
let mut done = field_id.is_none();
if !done {
cursor.reset(*self);
cursor.goto_first_child();
}
iter::from_fn(move || {
if !done {
while cursor.field_id() != field_id {
if !cursor.goto_next_sibling() {
return None;
}
}
let result = cursor.node();
if !cursor.goto_next_sibling() {
done = true;
}
return Some(result);
}
None
})
}
/// Iterate over this node's children with a given field id.
///
/// See also [`Node::children_by_field_name`].
pub fn children_by_field_id<'cursor>(
&self,
field_id: FieldId,
cursor: &'cursor mut TreeCursor<'tree>,
) -> impl Iterator<Item = Node<'tree>> + 'cursor {
cursor.reset(*self);
cursor.goto_first_child();
let mut done = false;
iter::from_fn(move || {
if !done {
while cursor.field_id() != Some(field_id) {
if !cursor.goto_next_sibling() {
return None;
}
}
let result = cursor.node();
if !cursor.goto_next_sibling() {
done = true;
}
return Some(result);
}
None
})
}
/// Get this node's immediate parent.
/// Prefer [`child_containing_descendant`](Node::child_containing_descendant)
/// for iterating over this node's ancestors.
#[doc(alias = "ts_node_parent")]
#[must_use]
pub fn parent(&self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_parent(self.0) })
}
/// Get this node's child containing `descendant`. This will not return
/// the descendant if it is a direct child of `self`, for that use
/// [`Node::child_contains_descendant`].
#[doc(alias = "ts_node_child_containing_descendant")]
#[must_use]
#[deprecated(since = "0.24.0", note = "Prefer child_with_descendant instead")]
pub fn child_containing_descendant(&self, descendant: Self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_child_containing_descendant(self.0, descendant.0) })
}
/// Get the node that contains `descendant`.
///
/// Note that this can return `descendant` itself, unlike the deprecated function
/// [`Node::child_containing_descendant`].
#[doc(alias = "ts_node_child_with_descendant")]
#[must_use]
pub fn child_with_descendant(&self, descendant: Self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_child_with_descendant(self.0, descendant.0) })
}
/// Get this node's next sibling.
#[doc(alias = "ts_node_next_sibling")]
#[must_use]
pub fn next_sibling(&self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_next_sibling(self.0) })
}
/// Get this node's previous sibling.
#[doc(alias = "ts_node_prev_sibling")]
#[must_use]
pub fn prev_sibling(&self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_prev_sibling(self.0) })
}
/// Get this node's next named sibling.
#[doc(alias = "ts_node_next_named_sibling")]
#[must_use]
pub fn next_named_sibling(&self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_next_named_sibling(self.0) })
}
/// Get this node's previous named sibling.
#[doc(alias = "ts_node_prev_named_sibling")]
#[must_use]
pub fn prev_named_sibling(&self) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_prev_named_sibling(self.0) })
}
/// Get the node's first child that extends beyond the given byte offset.
#[doc(alias = "ts_node_first_child_for_byte")]
#[must_use]
pub fn first_child_for_byte(&self, byte: usize) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_first_child_for_byte(self.0, byte as u32) })
}
/// Get the node's first named child that extends beyond the given byte offset.
#[doc(alias = "ts_node_first_named_child_for_point")]
#[must_use]
pub fn first_named_child_for_byte(&self, byte: usize) -> Option<Self> {
Self::new(unsafe { ffi::ts_node_first_named_child_for_byte(self.0, byte as u32) })
}
/// Get the node's number of descendants, including one for the node itself.
#[doc(alias = "ts_node_descendant_count")]
#[must_use]
pub fn descendant_count(&self) -> usize {
unsafe { ffi::ts_node_descendant_count(self.0) as usize }
}
/// Get the smallest node within this node that spans the given range.
#[doc(alias = "ts_node_descendant_for_byte_range")]
#[must_use]
pub fn descendant_for_byte_range(&self, start: usize, end: usize) -> Option<Self> {
Self::new(unsafe {
ffi::ts_node_descendant_for_byte_range(self.0, start as u32, end as u32)
})
}
/// Get the smallest named node within this node that spans the given range.
#[doc(alias = "ts_node_named_descendant_for_byte_range")]
#[must_use]
pub fn named_descendant_for_byte_range(&self, start: usize, end: usize) -> Option<Self> {
Self::new(unsafe {
ffi::ts_node_named_descendant_for_byte_range(self.0, start as u32, end as u32)
})
}
/// Get the smallest node within this node that spans the given range.
#[doc(alias = "ts_node_descendant_for_point_range")]
#[must_use]
pub fn descendant_for_point_range(&self, start: Point, end: Point) -> Option<Self> {
Self::new(unsafe {
ffi::ts_node_descendant_for_point_range(self.0, start.into(), end.into())
})
}
/// Get the smallest named node within this node that spans the given range.
#[doc(alias = "ts_node_named_descendant_for_point_range")]
#[must_use]
pub fn named_descendant_for_point_range(&self, start: Point, end: Point) -> Option<Self> {
Self::new(unsafe {
ffi::ts_node_named_descendant_for_point_range(self.0, start.into(), end.into())
})
}
#[doc(alias = "ts_node_string")]
#[must_use]
pub fn to_sexp(&self) -> String {
let c_string = unsafe { ffi::ts_node_string(self.0) };
let result = unsafe { CStr::from_ptr(c_string) }
.to_str()
.unwrap()
.to_string();
unsafe { (FREE_FN)(c_string.cast::<c_void>()) };
result
}
pub fn utf8_text<'a>(&self, source: &'a [u8]) -> Result<&'a str, str::Utf8Error> {
str::from_utf8(&source[self.start_byte()..self.end_byte()])
}
#[must_use]
pub fn utf16_text<'a>(&self, source: &'a [u16]) -> &'a [u16] {
&source[self.start_byte()..self.end_byte()]
}
/// Create a new [`TreeCursor`] starting from this node.
#[doc(alias = "ts_tree_cursor_new")]
#[must_use]
pub fn walk(&self) -> TreeCursor<'tree> {
TreeCursor(unsafe { ffi::ts_tree_cursor_new(self.0) }, PhantomData)
}
/// Edit this node to keep it in-sync with source code that has been edited.
///
/// This function is only rarely needed. When you edit a syntax tree with
/// the [`Tree::edit`] method, all of the nodes that you retrieve from
/// the tree afterward will already reflect the edit. You only need to
/// use [`Node::edit`] when you have a specific [`Node`] instance that
/// you want to keep and continue to use after an edit.
#[doc(alias = "ts_node_edit")]
pub fn edit(&mut self, edit: &InputEdit) {
let edit = edit.into();
unsafe { ffi::ts_node_edit(core::ptr::addr_of_mut!(self.0), &edit) }
}
}
impl PartialEq for Node<'_> {
fn eq(&self, other: &Self) -> bool {
self.0.id == other.0.id
}
}
impl Eq for Node<'_> {}
impl hash::Hash for Node<'_> {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
self.0.id.hash(state);
self.0.context[0].hash(state);
self.0.context[1].hash(state);
self.0.context[2].hash(state);
self.0.context[3].hash(state);
}
}
impl fmt::Debug for Node<'_> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"{{Node {} {} - {}}}",
self.kind(),
self.start_position(),
self.end_position()
)
}
}
impl fmt::Display for Node<'_> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let sexp = self.to_sexp();
if sexp.is_empty() {
write!(f, "")
} else if !f.alternate() {
write!(f, "{sexp}")
} else {
write!(f, "{}", format_sexp(&sexp, f.width().unwrap_or(0)))
}
}
}
impl<'cursor> TreeCursor<'cursor> {
/// Get the tree cursor's current [`Node`].
#[doc(alias = "ts_tree_cursor_current_node")]
#[must_use]
pub fn node(&self) -> Node<'cursor> {
Node(
unsafe { ffi::ts_tree_cursor_current_node(&self.0) },
PhantomData,
)
}
/// Get the numerical field id of this tree cursor's current node.
///
/// See also [`field_name`](TreeCursor::field_name).
#[doc(alias = "ts_tree_cursor_current_field_id")]
#[must_use]
pub fn field_id(&self) -> Option<FieldId> {
let id = unsafe { ffi::ts_tree_cursor_current_field_id(&self.0) };
FieldId::new(id)
}
/// Get the field name of this tree cursor's current node.
#[doc(alias = "ts_tree_cursor_current_field_name")]
#[must_use]
pub fn field_name(&self) -> Option<&'static str> {
unsafe {
let ptr = ffi::ts_tree_cursor_current_field_name(&self.0);
(!ptr.is_null()).then(|| CStr::from_ptr(ptr).to_str().unwrap())
}
}
/// Get the depth of the cursor's current node relative to the original
/// node that the cursor was constructed with.
#[doc(alias = "ts_tree_cursor_current_depth")]
#[must_use]
pub fn depth(&self) -> u32 {
unsafe { ffi::ts_tree_cursor_current_depth(&self.0) }
}
/// Get the index of the cursor's current node out of all of the
/// descendants of the original node that the cursor was constructed with
#[doc(alias = "ts_tree_cursor_current_descendant_index")]
#[must_use]
pub fn descendant_index(&self) -> usize {
unsafe { ffi::ts_tree_cursor_current_descendant_index(&self.0) as usize }
}
/// Move this cursor to the first child of its current node.
///
/// This returns `true` if the cursor successfully moved, and returns
/// `false` if there were no children.
#[doc(alias = "ts_tree_cursor_goto_first_child")]
pub fn goto_first_child(&mut self) -> bool {
unsafe { ffi::ts_tree_cursor_goto_first_child(&mut self.0) }
}
/// Move this cursor to the last child of its current node.
///
/// This returns `true` if the cursor successfully moved, and returns
/// `false` if there were no children.
///
/// Note that this function may be slower than
/// [`goto_first_child`](TreeCursor::goto_first_child) because it needs to
/// iterate through all the children to compute the child's position.
#[doc(alias = "ts_tree_cursor_goto_last_child")]
pub fn goto_last_child(&mut self) -> bool {
unsafe { ffi::ts_tree_cursor_goto_last_child(&mut self.0) }
}
/// Move this cursor to the parent of its current node.
///
/// This returns `true` if the cursor successfully moved, and returns
/// `false` if there was no parent node (the cursor was already on the
/// root node).
#[doc(alias = "ts_tree_cursor_goto_parent")]
pub fn goto_parent(&mut self) -> bool {
unsafe { ffi::ts_tree_cursor_goto_parent(&mut self.0) }
}
/// Move this cursor to the next sibling of its current node.
///
/// This returns `true` if the cursor successfully moved, and returns
/// `false` if there was no next sibling node.
#[doc(alias = "ts_tree_cursor_goto_next_sibling")]
pub fn goto_next_sibling(&mut self) -> bool {
unsafe { ffi::ts_tree_cursor_goto_next_sibling(&mut self.0) }
}
/// Move the cursor to the node that is the nth descendant of
/// the original node that the cursor was constructed with, where
/// zero represents the original node itself.
#[doc(alias = "ts_tree_cursor_goto_descendant")]
pub fn goto_descendant(&mut self, descendant_index: usize) {
unsafe { ffi::ts_tree_cursor_goto_descendant(&mut self.0, descendant_index as u32) }
}
/// Move this cursor to the previous sibling of its current node.
///
/// This returns `true` if the cursor successfully moved, and returns
/// `false` if there was no previous sibling node.
///
/// Note, that this function may be slower than
/// [`goto_next_sibling`](TreeCursor::goto_next_sibling) due to how node
/// positions are stored. In the worst case, this will need to iterate
/// through all the children upto the previous sibling node to recalculate
/// its position.
#[doc(alias = "ts_tree_cursor_goto_previous_sibling")]
pub fn goto_previous_sibling(&mut self) -> bool {
unsafe { ffi::ts_tree_cursor_goto_previous_sibling(&mut self.0) }
}
/// Move this cursor to the first child of its current node that extends
/// beyond the given byte offset.
///
/// This returns the index of the child node if one was found, and returns
/// `None` if no such child was found.
#[doc(alias = "ts_tree_cursor_goto_first_child_for_byte")]
pub fn goto_first_child_for_byte(&mut self, index: usize) -> Option<usize> {
let result =
unsafe { ffi::ts_tree_cursor_goto_first_child_for_byte(&mut self.0, index as u32) };
(result >= 0).then_some(result as usize)
}
/// Move this cursor to the first child of its current node that extends
/// beyond the given byte offset.
///
/// This returns the index of the child node if one was found, and returns
/// `None` if no such child was found.
#[doc(alias = "ts_tree_cursor_goto_first_child_for_point")]
pub fn goto_first_child_for_point(&mut self, point: Point) -> Option<usize> {
let result =
unsafe { ffi::ts_tree_cursor_goto_first_child_for_point(&mut self.0, point.into()) };
(result >= 0).then_some(result as usize)
}
/// Re-initialize this tree cursor to start at the original node that the
/// cursor was constructed with.
#[doc(alias = "ts_tree_cursor_reset")]
pub fn reset(&mut self, node: Node<'cursor>) {
unsafe { ffi::ts_tree_cursor_reset(&mut self.0, node.0) };
}
/// Re-initialize a tree cursor to the same position as another cursor.
///
/// Unlike [`reset`](TreeCursor::reset), this will not lose parent
/// information and allows reusing already created cursors.
#[doc(alias = "ts_tree_cursor_reset_to")]
pub fn reset_to(&mut self, cursor: &Self) {
unsafe { ffi::ts_tree_cursor_reset_to(&mut self.0, &cursor.0) };
}
}
impl Clone for TreeCursor<'_> {
fn clone(&self) -> Self {
TreeCursor(unsafe { ffi::ts_tree_cursor_copy(&self.0) }, PhantomData)
}
}
impl Drop for TreeCursor<'_> {
fn drop(&mut self) {
unsafe { ffi::ts_tree_cursor_delete(&mut self.0) }
}
}
impl LookaheadIterator {
/// Get the current language of the lookahead iterator.
#[doc(alias = "ts_lookahead_iterator_language")]
#[must_use]
pub fn language(&self) -> LanguageRef<'_> {
LanguageRef(
unsafe { ffi::ts_lookahead_iterator_language(self.0.as_ptr()) },
PhantomData,
)
}
/// Get the current symbol of the lookahead iterator.
#[doc(alias = "ts_lookahead_iterator_current_symbol")]
#[must_use]
pub fn current_symbol(&self) -> u16 {
unsafe { ffi::ts_lookahead_iterator_current_symbol(self.0.as_ptr()) }
}
/// Get the current symbol name of the lookahead iterator.
#[doc(alias = "ts_lookahead_iterator_current_symbol_name")]
#[must_use]
pub fn current_symbol_name(&self) -> &'static str {
unsafe {
CStr::from_ptr(ffi::ts_lookahead_iterator_current_symbol_name(
self.0.as_ptr(),
))
.to_str()
.unwrap()
}
}
/// Reset the lookahead iterator.
///
/// This returns `true` if the language was set successfully and `false`
/// otherwise.
#[doc(alias = "ts_lookahead_iterator_reset")]
pub fn reset(&mut self, language: &Language, state: u16) -> bool {
unsafe { ffi::ts_lookahead_iterator_reset(self.0.as_ptr(), language.0, state) }
}
/// Reset the lookahead iterator to another state.
///
/// This returns `true` if the iterator was reset to the given state and
/// `false` otherwise.
#[doc(alias = "ts_lookahead_iterator_reset_state")]
pub fn reset_state(&mut self, state: u16) -> bool {
unsafe { ffi::ts_lookahead_iterator_reset_state(self.0.as_ptr(), state) }
}
/// Iterate symbol names.
pub fn iter_names(&mut self) -> impl Iterator<Item = &'static str> + '_ {
LookaheadNamesIterator(self)
}
}
impl Iterator for LookaheadNamesIterator<'_> {
type Item = &'static str;
#[doc(alias = "ts_lookahead_iterator_next")]
fn next(&mut self) -> Option<Self::Item> {
unsafe { ffi::ts_lookahead_iterator_next(self.0 .0.as_ptr()) }
.then(|| self.0.current_symbol_name())
}
}
impl Iterator for LookaheadIterator {
type Item = u16;
#[doc(alias = "ts_lookahead_iterator_next")]
fn next(&mut self) -> Option<Self::Item> {
// the first symbol is always `0` so we can safely skip it
unsafe { ffi::ts_lookahead_iterator_next(self.0.as_ptr()) }.then(|| self.current_symbol())
}
}
impl Drop for LookaheadIterator {
#[doc(alias = "ts_lookahead_iterator_delete")]
fn drop(&mut self) {
unsafe { ffi::ts_lookahead_iterator_delete(self.0.as_ptr()) }
}
}
impl Query {
/// Create a new query from a string containing one or more S-expression
/// patterns.
///
/// The query is associated with a particular language, and can only be run
/// on syntax nodes parsed with that language. References to Queries can be
/// shared between multiple threads.
pub fn new(language: &Language, source: &str) -> Result<Self, QueryError> {
let mut error_offset = 0u32;
let mut error_type: ffi::TSQueryError = 0;
let bytes = source.as_bytes();
// Compile the query.
let ptr = unsafe {
ffi::ts_query_new(
language.0,
bytes.as_ptr().cast::<c_char>(),
bytes.len() as u32,
core::ptr::addr_of_mut!(error_offset),
core::ptr::addr_of_mut!(error_type),
)
};
// On failure, build an error based on the error code and offset.
if ptr.is_null() {
if error_type == ffi::TSQueryErrorLanguage {
return Err(QueryError {
row: 0,
column: 0,
offset: 0,
message: LanguageError {
version: language.version(),
}
.to_string(),
kind: QueryErrorKind::Language,
});
}
let offset = error_offset as usize;
let mut line_start = 0;
let mut row = 0;
let mut line_containing_error = None;
for line in source.lines() {
let line_end = line_start + line.len() + 1;
if line_end > offset {
line_containing_error = Some(line);
break;
}
line_start = line_end;
row += 1;
}
let column = offset - line_start;
let kind;
let message;
match error_type {
// Error types that report names
ffi::TSQueryErrorNodeType | ffi::TSQueryErrorField | ffi::TSQueryErrorCapture => {
let suffix = source.split_at(offset).1;
let in_quotes = source.as_bytes()[offset - 1] == b'"';
let mut end_offset = suffix.len();
if let Some(pos) = suffix
.char_indices()
.take_while(|(_, c)| *c != '\n')
.find_map(|(i, c)| match c {
'"' if in_quotes
&& i > 0
&& suffix.chars().nth(i - 1) != Some('\\') =>
{
Some(i)
}
c if !in_quotes
&& (c.is_whitespace() || c == '(' || c == ')' || c == ':') =>
{
Some(i)
}
_ => None,
})
{
end_offset = pos;
}
message = suffix.split_at(end_offset).0.to_string();
kind = match error_type {
ffi::TSQueryErrorNodeType => QueryErrorKind::NodeType,
ffi::TSQueryErrorField => QueryErrorKind::Field,
ffi::TSQueryErrorCapture => QueryErrorKind::Capture,
_ => unreachable!(),
};
}
// Error types that report positions
_ => {
message = line_containing_error.map_or_else(
|| "Unexpected EOF".to_string(),
|line| line.to_string() + "\n" + &" ".repeat(offset - line_start) + "^",
);
kind = match error_type {
ffi::TSQueryErrorStructure => QueryErrorKind::Structure,
_ => QueryErrorKind::Syntax,
};
}
};
return Err(QueryError {
row,
column,
offset,
message,
kind,
});
}
unsafe { Self::from_raw_parts(ptr, source) }
}
#[doc(hidden)]
unsafe fn from_raw_parts(ptr: *mut ffi::TSQuery, source: &str) -> Result<Self, QueryError> {
let ptr = {
struct TSQueryDrop(*mut ffi::TSQuery);
impl Drop for TSQueryDrop {
fn drop(&mut self) {
unsafe { ffi::ts_query_delete(self.0) }
}
}
TSQueryDrop(ptr)
};
let string_count = unsafe { ffi::ts_query_string_count(ptr.0) };
let capture_count = unsafe { ffi::ts_query_capture_count(ptr.0) };
let pattern_count = unsafe { ffi::ts_query_pattern_count(ptr.0) as usize };
let mut capture_names = Vec::with_capacity(capture_count as usize);
let mut capture_quantifiers_vec = Vec::with_capacity(pattern_count as usize);
let mut text_predicates_vec = Vec::with_capacity(pattern_count);
let mut property_predicates_vec = Vec::with_capacity(pattern_count);
let mut property_settings_vec = Vec::with_capacity(pattern_count);
let mut general_predicates_vec = Vec::with_capacity(pattern_count);
// Build a vector of strings to store the capture names.
for i in 0..capture_count {
unsafe {
let mut length = 0u32;
let name =
ffi::ts_query_capture_name_for_id(ptr.0, i, core::ptr::addr_of_mut!(length))
.cast::<u8>();
let name = slice::from_raw_parts(name, length as usize);
let name = str::from_utf8_unchecked(name);
capture_names.push(name);
}
}
// Build a vector to store capture qunatifiers.
for i in 0..pattern_count {
let mut capture_quantifiers = Vec::with_capacity(capture_count as usize);
for j in 0..capture_count {
unsafe {
let quantifier = ffi::ts_query_capture_quantifier_for_id(ptr.0, i as u32, j);
capture_quantifiers.push(quantifier.into());
}
}
capture_quantifiers_vec.push(capture_quantifiers.into());
}
// Build a vector of strings to represent literal values used in predicates.
let string_values = (0..string_count)
.map(|i| unsafe {
let mut length = 0u32;
let value =
ffi::ts_query_string_value_for_id(ptr.0, i, core::ptr::addr_of_mut!(length))
.cast::<u8>();
let value = slice::from_raw_parts(value, length as usize);
let value = str::from_utf8_unchecked(value);
value
})
.collect::<Vec<_>>();
// Build a vector of predicates for each pattern.
for i in 0..pattern_count {
let predicate_steps = unsafe {
let mut length = 0u32;
let raw_predicates = ffi::ts_query_predicates_for_pattern(
ptr.0,
i as u32,
core::ptr::addr_of_mut!(length),
);
(length > 0)
.then(|| slice::from_raw_parts(raw_predicates, length as usize))
.unwrap_or_default()
};
let byte_offset = unsafe { ffi::ts_query_start_byte_for_pattern(ptr.0, i as u32) };
let row = source
.char_indices()
.take_while(|(i, _)| *i < byte_offset as usize)
.filter(|(_, c)| *c == '\n')
.count();
use ffi::TSQueryPredicateStepType as T;
const TYPE_DONE: T = ffi::TSQueryPredicateStepTypeDone;
const TYPE_CAPTURE: T = ffi::TSQueryPredicateStepTypeCapture;
const TYPE_STRING: T = ffi::TSQueryPredicateStepTypeString;
let mut text_predicates = Vec::new();
let mut property_predicates = Vec::new();
let mut property_settings = Vec::new();
let mut general_predicates = Vec::new();
for p in predicate_steps.split(|s| s.type_ == TYPE_DONE) {
if p.is_empty() {
continue;
}
if p[0].type_ != TYPE_STRING {
return Err(predicate_error(
row,
format!(
"Expected predicate to start with a function name. Got @{}.",
capture_names[p[0].value_id as usize],
),
));
}
// Build a predicate for each of the known predicate function names.
let operator_name = string_values[p[0].value_id as usize];
match operator_name {
"eq?" | "not-eq?" | "any-eq?" | "any-not-eq?" => {
if p.len() != 3 {
return Err(predicate_error(
row,
format!(
"Wrong number of arguments to #eq? predicate. Expected 2, got {}.",
p.len() - 1
),
));
}
if p[1].type_ != TYPE_CAPTURE {
return Err(predicate_error(row, format!(
"First argument to #eq? predicate must be a capture name. Got literal \"{}\".",
string_values[p[1].value_id as usize],
)));
}
let is_positive = operator_name == "eq?" || operator_name == "any-eq?";
let match_all = match operator_name {
"eq?" | "not-eq?" => true,
"any-eq?" | "any-not-eq?" => false,
_ => unreachable!(),
};
text_predicates.push(if p[2].type_ == TYPE_CAPTURE {
TextPredicateCapture::EqCapture(
p[1].value_id,
p[2].value_id,
is_positive,
match_all,
)
} else {
TextPredicateCapture::EqString(
p[1].value_id,
string_values[p[2].value_id as usize].to_string().into(),
is_positive,
match_all,
)
});
}
"match?" | "not-match?" | "any-match?" | "any-not-match?" => {
if p.len() != 3 {
return Err(predicate_error(row, format!(
"Wrong number of arguments to #match? predicate. Expected 2, got {}.",
p.len() - 1
)));
}
if p[1].type_ != TYPE_CAPTURE {
return Err(predicate_error(row, format!(
"First argument to #match? predicate must be a capture name. Got literal \"{}\".",
string_values[p[1].value_id as usize],
)));
}
if p[2].type_ == TYPE_CAPTURE {
return Err(predicate_error(row, format!(
"Second argument to #match? predicate must be a literal. Got capture @{}.",
capture_names[p[2].value_id as usize],
)));
}
let is_positive =
operator_name == "match?" || operator_name == "any-match?";
let match_all = match operator_name {
"match?" | "not-match?" => true,
"any-match?" | "any-not-match?" => false,
_ => unreachable!(),
};
let regex = &string_values[p[2].value_id as usize];
text_predicates.push(TextPredicateCapture::MatchString(
p[1].value_id,
regex::bytes::Regex::new(regex).map_err(|_| {
predicate_error(row, format!("Invalid regex '{regex}'"))
})?,
is_positive,
match_all,
));
}
"set!" => property_settings.push(Self::parse_property(
row,
operator_name,
&capture_names,
&string_values,
&p[1..],
)?),
"is?" | "is-not?" => property_predicates.push((
Self::parse_property(
row,
operator_name,
&capture_names,
&string_values,
&p[1..],
)?,
operator_name == "is?",
)),
"any-of?" | "not-any-of?" => {
if p.len() < 2 {
return Err(predicate_error(row, format!(
"Wrong number of arguments to #any-of? predicate. Expected at least 1, got {}.",
p.len() - 1
)));
}
if p[1].type_ != TYPE_CAPTURE {
return Err(predicate_error(row, format!(
"First argument to #any-of? predicate must be a capture name. Got literal \"{}\".",
string_values[p[1].value_id as usize],
)));
}
let is_positive = operator_name == "any-of?";
let mut values = Vec::new();
for arg in &p[2..] {
if arg.type_ == TYPE_CAPTURE {
return Err(predicate_error(row, format!(
"Arguments to #any-of? predicate must be literals. Got capture @{}.",
capture_names[arg.value_id as usize],
)));
}
values.push(string_values[arg.value_id as usize]);
}
text_predicates.push(TextPredicateCapture::AnyString(
p[1].value_id,
values
.iter()
.map(|x| (*x).to_string().into())
.collect::<Vec<_>>()
.into(),
is_positive,
));
}
_ => general_predicates.push(QueryPredicate {
operator: operator_name.to_string().into(),
args: p[1..]
.iter()
.map(|a| {
if a.type_ == TYPE_CAPTURE {
QueryPredicateArg::Capture(a.value_id)
} else {
QueryPredicateArg::String(
string_values[a.value_id as usize].to_string().into(),
)
}
})
.collect(),
}),
}
}
text_predicates_vec.push(text_predicates.into());
property_predicates_vec.push(property_predicates.into());
property_settings_vec.push(property_settings.into());
general_predicates_vec.push(general_predicates.into());
}
let result = Self {
ptr: unsafe { NonNull::new_unchecked(ptr.0) },
capture_names: capture_names.into(),
capture_quantifiers: capture_quantifiers_vec.into(),
text_predicates: text_predicates_vec.into(),
property_predicates: property_predicates_vec.into(),
property_settings: property_settings_vec.into(),
general_predicates: general_predicates_vec.into(),
};
core::mem::forget(ptr);
Ok(result)
}
/// Get the byte offset where the given pattern starts in the query's
/// source.
#[doc(alias = "ts_query_start_byte_for_pattern")]
#[must_use]
pub fn start_byte_for_pattern(&self, pattern_index: usize) -> usize {
assert!(
pattern_index < self.text_predicates.len(),
"Pattern index is {pattern_index} but the pattern count is {}",
self.text_predicates.len(),
);
unsafe {
ffi::ts_query_start_byte_for_pattern(self.ptr.as_ptr(), pattern_index as u32) as usize
}
}
/// Get the byte offset where the given pattern ends in the query's
/// source.
#[doc(alias = "ts_query_end_byte_for_pattern")]
#[must_use]
pub fn end_byte_for_pattern(&self, pattern_index: usize) -> usize {
assert!(
pattern_index < self.text_predicates.len(),
"Pattern index is {pattern_index} but the pattern count is {}",
self.text_predicates.len(),
);
unsafe {
ffi::ts_query_end_byte_for_pattern(self.ptr.as_ptr(), pattern_index as u32) as usize
}
}
/// Get the number of patterns in the query.
#[doc(alias = "ts_query_pattern_count")]
#[must_use]
pub fn pattern_count(&self) -> usize {
unsafe { ffi::ts_query_pattern_count(self.ptr.as_ptr()) as usize }
}
/// Get the names of the captures used in the query.
#[must_use]
pub const fn capture_names(&self) -> &[&str] {
&self.capture_names
}
/// Get the quantifiers of the captures used in the query.
#[must_use]
pub const fn capture_quantifiers(&self, index: usize) -> &[CaptureQuantifier] {
&self.capture_quantifiers[index]
}
/// Get the index for a given capture name.
#[must_use]
pub fn capture_index_for_name(&self, name: &str) -> Option<u32> {
self.capture_names
.iter()
.position(|n| *n == name)
.map(|ix| ix as u32)
}
/// Get the properties that are checked for the given pattern index.
///
/// This includes predicates with the operators `is?` and `is-not?`.
#[must_use]
pub const fn property_predicates(&self, index: usize) -> &[(QueryProperty, bool)] {
&self.property_predicates[index]
}
/// Get the properties that are set for the given pattern index.
///
/// This includes predicates with the operator `set!`.
#[must_use]
pub const fn property_settings(&self, index: usize) -> &[QueryProperty] {
&self.property_settings[index]
}
/// Get the other user-defined predicates associated with the given index.
///
/// This includes predicate with operators other than:
/// * `match?`
/// * `eq?` and `not-eq?`
/// * `is?` and `is-not?`
/// * `set!`
#[must_use]
pub const fn general_predicates(&self, index: usize) -> &[QueryPredicate] {
&self.general_predicates[index]
}
/// Disable a certain capture within a query.
///
/// This prevents the capture from being returned in matches, and also
/// avoids any resource usage associated with recording the capture.
#[doc(alias = "ts_query_disable_capture")]
pub fn disable_capture(&mut self, name: &str) {
unsafe {
ffi::ts_query_disable_capture(
self.ptr.as_ptr(),
name.as_bytes().as_ptr().cast::<c_char>(),
name.len() as u32,
);
}
}
/// Disable a certain pattern within a query.
///
/// This prevents the pattern from matching, and also avoids any resource
/// usage associated with the pattern.
#[doc(alias = "ts_query_disable_pattern")]
pub fn disable_pattern(&mut self, index: usize) {
unsafe { ffi::ts_query_disable_pattern(self.ptr.as_ptr(), index as u32) }
}
/// Check if a given pattern within a query has a single root node.
#[doc(alias = "ts_query_is_pattern_rooted")]
#[must_use]
pub fn is_pattern_rooted(&self, index: usize) -> bool {
unsafe { ffi::ts_query_is_pattern_rooted(self.ptr.as_ptr(), index as u32) }
}
/// Check if a given pattern within a query has a single root node.
#[doc(alias = "ts_query_is_pattern_non_local")]
#[must_use]
pub fn is_pattern_non_local(&self, index: usize) -> bool {
unsafe { ffi::ts_query_is_pattern_non_local(self.ptr.as_ptr(), index as u32) }
}
/// Check if a given step in a query is 'definite'.
///
/// A query step is 'definite' if its parent pattern will be guaranteed to
/// match successfully once it reaches the step.
#[doc(alias = "ts_query_is_pattern_guaranteed_at_step")]
#[must_use]
pub fn is_pattern_guaranteed_at_step(&self, byte_offset: usize) -> bool {
unsafe {
ffi::ts_query_is_pattern_guaranteed_at_step(self.ptr.as_ptr(), byte_offset as u32)
}
}
fn parse_property(
row: usize,
function_name: &str,
capture_names: &[&str],
string_values: &[&str],
args: &[ffi::TSQueryPredicateStep],
) -> Result<QueryProperty, QueryError> {
if args.is_empty() || args.len() > 3 {
return Err(predicate_error(
row,
format!(
"Wrong number of arguments to {function_name} predicate. Expected 1 to 3, got {}.",
args.len(),
),
));
}
let mut capture_id = None;
let mut key = None;
let mut value = None;
for arg in args {
if arg.type_ == ffi::TSQueryPredicateStepTypeCapture {
if capture_id.is_some() {
return Err(predicate_error(
row,
format!(
"Invalid arguments to {function_name} predicate. Unexpected second capture name @{}",
capture_names[arg.value_id as usize]
),
));
}
capture_id = Some(arg.value_id as usize);
} else if key.is_none() {
key = Some(&string_values[arg.value_id as usize]);
} else if value.is_none() {
value = Some(string_values[arg.value_id as usize]);
} else {
return Err(predicate_error(
row,
format!(
"Invalid arguments to {function_name} predicate. Unexpected third argument @{}",
string_values[arg.value_id as usize]
),
));
}
}
if let Some(key) = key {
Ok(QueryProperty::new(key, value, capture_id))
} else {
Err(predicate_error(
row,
format!("Invalid arguments to {function_name} predicate. Missing key argument",),
))
}
}
}
impl Default for QueryCursor {
fn default() -> Self {
Self::new()
}
}
impl QueryCursor {
/// Create a new cursor for executing a given query.
///
/// The cursor stores the state that is needed to iteratively search for
/// matches.
#[doc(alias = "ts_query_cursor_new")]
#[must_use]
pub fn new() -> Self {
Self {
ptr: unsafe { NonNull::new_unchecked(ffi::ts_query_cursor_new()) },
}
}
/// Return the maximum number of in-progress matches for this cursor.
#[doc(alias = "ts_query_cursor_match_limit")]
#[must_use]
pub fn match_limit(&self) -> u32 {
unsafe { ffi::ts_query_cursor_match_limit(self.ptr.as_ptr()) }
}
/// Set the maximum number of in-progress matches for this cursor. The
/// limit must be > 0 and <= 65536.
#[doc(alias = "ts_query_cursor_set_match_limit")]
pub fn set_match_limit(&mut self, limit: u32) {
unsafe {
ffi::ts_query_cursor_set_match_limit(self.ptr.as_ptr(), limit);
}
}
/// Set the maximum duration in microseconds that query execution should be allowed to
/// take before halting.
///
/// If query execution takes longer than this, it will halt early, returning None.
#[doc(alias = "ts_query_cursor_set_timeout_micros")]
pub fn set_timeout_micros(&mut self, timeout: u64) {
unsafe {
ffi::ts_query_cursor_set_timeout_micros(self.ptr.as_ptr(), timeout);
}
}
/// Get the duration in microseconds that query execution is allowed to take.
///
/// This is set via [`set_timeout_micros`](QueryCursor::set_timeout_micros).
#[doc(alias = "ts_query_cursor_timeout_micros")]
#[must_use]
pub fn timeout_micros(&self) -> u64 {
unsafe { ffi::ts_query_cursor_timeout_micros(self.ptr.as_ptr()) }
}
/// Check if, on its last execution, this cursor exceeded its maximum number
/// of in-progress matches.
#[doc(alias = "ts_query_cursor_did_exceed_match_limit")]
#[must_use]
pub fn did_exceed_match_limit(&self) -> bool {
unsafe { ffi::ts_query_cursor_did_exceed_match_limit(self.ptr.as_ptr()) }
}
/// Iterate over all of the matches in the order that they were found.
///
/// Each match contains the index of the pattern that matched, and a list of
/// captures. Because multiple patterns can match the same set of nodes,
/// one match may contain captures that appear *before* some of the
/// captures from a previous match.
#[doc(alias = "ts_query_cursor_exec")]
pub fn matches<'query, 'cursor: 'query, 'tree, T: TextProvider<I>, I: AsRef<[u8]>>(
&'cursor mut self,
query: &'query Query,
node: Node<'tree>,
text_provider: T,
) -> QueryMatches<'query, 'tree, T, I> {
let ptr = self.ptr.as_ptr();
unsafe { ffi::ts_query_cursor_exec(ptr, query.ptr.as_ptr(), node.0) };
QueryMatches {
ptr,
query,
text_provider,
buffer1: Vec::default(),
buffer2: Vec::default(),
current_match: None,
_phantom: PhantomData,
}
}
/// Iterate over all of the individual captures in the order that they
/// appear.
///
/// This is useful if you don't care about which pattern matched, and just
/// want a single, ordered sequence of captures.
#[doc(alias = "ts_query_cursor_exec")]
pub fn captures<'query, 'cursor: 'query, 'tree, T: TextProvider<I>, I: AsRef<[u8]>>(
&'cursor mut self,
query: &'query Query,
node: Node<'tree>,
text_provider: T,
) -> QueryCaptures<'query, 'tree, T, I> {
let ptr = self.ptr.as_ptr();
unsafe { ffi::ts_query_cursor_exec(ptr, query.ptr.as_ptr(), node.0) };
QueryCaptures {
ptr,
query,
text_provider,
buffer1: Vec::default(),
buffer2: Vec::default(),
current_match: None,
_phantom: PhantomData,
}
}
/// Set the range in which the query will be executed, in terms of byte
/// offsets.
#[doc(alias = "ts_query_cursor_set_byte_range")]
pub fn set_byte_range(&mut self, range: ops::Range<usize>) -> &mut Self {
unsafe {
ffi::ts_query_cursor_set_byte_range(
self.ptr.as_ptr(),
range.start as u32,
range.end as u32,
);
}
self
}
/// Set the range in which the query will be executed, in terms of rows and
/// columns.
#[doc(alias = "ts_query_cursor_set_point_range")]
pub fn set_point_range(&mut self, range: ops::Range<Point>) -> &mut Self {
unsafe {
ffi::ts_query_cursor_set_point_range(
self.ptr.as_ptr(),
range.start.into(),
range.end.into(),
);
}
self
}
/// Set the maximum start depth for a query cursor.
///
/// This prevents cursors from exploring children nodes at a certain depth.
/// Note if a pattern includes many children, then they will still be
/// checked.
///
/// The zero max start depth value can be used as a special behavior and
/// it helps to destructure a subtree by staying on a node and using
/// captures for interested parts. Note that the zero max start depth
/// only limit a search depth for a pattern's root node but other nodes
/// that are parts of the pattern may be searched at any depth what
/// defined by the pattern structure.
///
/// Set to `None` to remove the maximum start depth.
#[doc(alias = "ts_query_cursor_set_max_start_depth")]
pub fn set_max_start_depth(&mut self, max_start_depth: Option<u32>) -> &mut Self {
unsafe {
ffi::ts_query_cursor_set_max_start_depth(
self.ptr.as_ptr(),
max_start_depth.unwrap_or(u32::MAX),
);
}
self
}
}
impl<'tree> QueryMatch<'_, 'tree> {
#[must_use]
pub const fn id(&self) -> u32 {
self.id
}
#[doc(alias = "ts_query_cursor_remove_match")]
pub fn remove(&self) {
unsafe { ffi::ts_query_cursor_remove_match(self.cursor, self.id) }
}
pub fn nodes_for_capture_index(
&self,
capture_ix: u32,
) -> impl Iterator<Item = Node<'tree>> + '_ {
self.captures
.iter()
.filter_map(move |capture| (capture.index == capture_ix).then_some(capture.node))
}
fn new(m: &ffi::TSQueryMatch, cursor: *mut ffi::TSQueryCursor) -> Self {
QueryMatch {
cursor,
id: m.id,
pattern_index: m.pattern_index as usize,
captures: (m.capture_count > 0)
.then(|| unsafe {
slice::from_raw_parts(
m.captures.cast::<QueryCapture<'tree>>(),
m.capture_count as usize,
)
})
.unwrap_or_default(),
}
}
pub fn satisfies_text_predicates<I: AsRef<[u8]>>(
&self,
query: &Query,
buffer1: &mut Vec<u8>,
buffer2: &mut Vec<u8>,
text_provider: &mut impl TextProvider<I>,
) -> bool {
struct NodeText<'a, T> {
buffer: &'a mut Vec<u8>,
first_chunk: Option<T>,
}
impl<'a, T: AsRef<[u8]>> NodeText<'a, T> {
fn new(buffer: &'a mut Vec<u8>) -> Self {
Self {
buffer,
first_chunk: None,
}
}
fn get_text(&mut self, chunks: &mut impl Iterator<Item = T>) -> &[u8] {
self.first_chunk = chunks.next();
if let Some(next_chunk) = chunks.next() {
self.buffer.clear();
self.buffer
.extend_from_slice(self.first_chunk.as_ref().unwrap().as_ref());
self.buffer.extend_from_slice(next_chunk.as_ref());
for chunk in chunks {
self.buffer.extend_from_slice(chunk.as_ref());
}
self.buffer.as_slice()
} else if let Some(ref first_chunk) = self.first_chunk {
first_chunk.as_ref()
} else {
&[]
}
}
}
let mut node_text1 = NodeText::new(buffer1);
let mut node_text2 = NodeText::new(buffer2);
query.text_predicates[self.pattern_index]
.iter()
.all(|predicate| match predicate {
TextPredicateCapture::EqCapture(i, j, is_positive, match_all_nodes) => {
let mut nodes_1 = self.nodes_for_capture_index(*i);
let mut nodes_2 = self.nodes_for_capture_index(*j);
while let (Some(node1), Some(node2)) = (nodes_1.next(), nodes_2.next()) {
let mut text1 = text_provider.text(node1);
let mut text2 = text_provider.text(node2);
let text1 = node_text1.get_text(&mut text1);
let text2 = node_text2.get_text(&mut text2);
let is_positive_match = text1 == text2;
if is_positive_match != *is_positive && *match_all_nodes {
return false;
}
if is_positive_match == *is_positive && !*match_all_nodes {
return true;
}
}
nodes_1.next().is_none() && nodes_2.next().is_none()
}
TextPredicateCapture::EqString(i, s, is_positive, match_all_nodes) => {
let nodes = self.nodes_for_capture_index(*i);
for node in nodes {
let mut text = text_provider.text(node);
let text = node_text1.get_text(&mut text);
let is_positive_match = text == s.as_bytes();
if is_positive_match != *is_positive && *match_all_nodes {
return false;
}
if is_positive_match == *is_positive && !*match_all_nodes {
return true;
}
}
true
}
TextPredicateCapture::MatchString(i, r, is_positive, match_all_nodes) => {
let nodes = self.nodes_for_capture_index(*i);
for node in nodes {
let mut text = text_provider.text(node);
let text = node_text1.get_text(&mut text);
let is_positive_match = r.is_match(text);
if is_positive_match != *is_positive && *match_all_nodes {
return false;
}
if is_positive_match == *is_positive && !*match_all_nodes {
return true;
}
}
true
}
TextPredicateCapture::AnyString(i, v, is_positive) => {
let nodes = self.nodes_for_capture_index(*i);
for node in nodes {
let mut text = text_provider.text(node);
let text = node_text1.get_text(&mut text);
if (v.iter().any(|s| text == s.as_bytes())) != *is_positive {
return false;
}
}
true
}
})
}
}
impl QueryProperty {
#[must_use]
pub fn new(key: &str, value: Option<&str>, capture_id: Option<usize>) -> Self {
Self {
capture_id,
key: key.to_string().into(),
value: value.map(|s| s.to_string().into()),
}
}
}
/// Provide StreamingIterator instead of traditional one as the underlying object in the C library
/// gets updated on each iteration. Created copies would have their internal state overwritten,
/// leading to Undefined Behavior
impl<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> StreamingIterator
for QueryMatches<'query, 'tree, T, I>
{
type Item = QueryMatch<'query, 'tree>;
fn advance(&mut self) {
self.current_match = unsafe {
loop {
let mut m = MaybeUninit::<ffi::TSQueryMatch>::uninit();
if ffi::ts_query_cursor_next_match(self.ptr, m.as_mut_ptr()) {
let result = QueryMatch::new(&m.assume_init(), self.ptr);
if result.satisfies_text_predicates(
self.query,
&mut self.buffer1,
&mut self.buffer2,
&mut self.text_provider,
) {
break Some(result);
}
} else {
break None;
}
}
};
}
fn get(&self) -> Option<&Self::Item> {
self.current_match.as_ref()
}
}
impl<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> StreamingIteratorMut
for QueryMatches<'query, 'tree, T, I>
{
fn get_mut(&mut self) -> Option<&mut Self::Item> {
self.current_match.as_mut()
}
}
impl<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> StreamingIterator
for QueryCaptures<'query, 'tree, T, I>
{
type Item = (QueryMatch<'query, 'tree>, usize);
fn advance(&mut self) {
self.current_match = unsafe {
loop {
let mut capture_index = 0u32;
let mut m = MaybeUninit::<ffi::TSQueryMatch>::uninit();
if ffi::ts_query_cursor_next_capture(
self.ptr,
m.as_mut_ptr(),
core::ptr::addr_of_mut!(capture_index),
) {
let result = QueryMatch::new(&m.assume_init(), self.ptr);
if result.satisfies_text_predicates(
self.query,
&mut self.buffer1,
&mut self.buffer2,
&mut self.text_provider,
) {
break Some((result, capture_index as usize));
}
result.remove();
} else {
break None;
}
}
}
}
fn get(&self) -> Option<&Self::Item> {
self.current_match.as_ref()
}
}
impl<'query, 'tree: 'query, T: TextProvider<I>, I: AsRef<[u8]>> StreamingIteratorMut
for QueryCaptures<'query, 'tree, T, I>
{
fn get_mut(&mut self) -> Option<&mut Self::Item> {
self.current_match.as_mut()
}
}
impl<T: TextProvider<I>, I: AsRef<[u8]>> QueryMatches<'_, '_, T, I> {
#[doc(alias = "ts_query_cursor_set_byte_range")]
pub fn set_byte_range(&mut self, range: ops::Range<usize>) {
unsafe {
ffi::ts_query_cursor_set_byte_range(self.ptr, range.start as u32, range.end as u32);
}
}
#[doc(alias = "ts_query_cursor_set_point_range")]
pub fn set_point_range(&mut self, range: ops::Range<Point>) {
unsafe {
ffi::ts_query_cursor_set_point_range(self.ptr, range.start.into(), range.end.into());
}
}
}
impl<T: TextProvider<I>, I: AsRef<[u8]>> QueryCaptures<'_, '_, T, I> {
#[doc(alias = "ts_query_cursor_set_byte_range")]
pub fn set_byte_range(&mut self, range: ops::Range<usize>) {
unsafe {
ffi::ts_query_cursor_set_byte_range(self.ptr, range.start as u32, range.end as u32);
}
}
#[doc(alias = "ts_query_cursor_set_point_range")]
pub fn set_point_range(&mut self, range: ops::Range<Point>) {
unsafe {
ffi::ts_query_cursor_set_point_range(self.ptr, range.start.into(), range.end.into());
}
}
}
impl fmt::Debug for QueryMatch<'_, '_> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"QueryMatch {{ id: {}, pattern_index: {}, captures: {:?} }}",
self.id, self.pattern_index, self.captures
)
}
}
impl<F, R, I> TextProvider<I> for F
where
F: FnMut(Node) -> R,
R: Iterator<Item = I>,
I: AsRef<[u8]>,
{
type I = R;
fn text(&mut self, node: Node) -> Self::I {
(self)(node)
}
}
impl<'a> TextProvider<&'a [u8]> for &'a [u8] {
type I = iter::Once<&'a [u8]>;
fn text(&mut self, node: Node) -> Self::I {
iter::once(&self[node.byte_range()])
}
}
impl PartialEq for Query {
fn eq(&self, other: &Self) -> bool {
self.ptr == other.ptr
}
}
impl Drop for Query {
fn drop(&mut self) {
unsafe { ffi::ts_query_delete(self.ptr.as_ptr()) }
}
}
impl Drop for QueryCursor {
fn drop(&mut self) {
unsafe { ffi::ts_query_cursor_delete(self.ptr.as_ptr()) }
}
}
impl Point {
#[must_use]
pub const fn new(row: usize, column: usize) -> Self {
Self { row, column }
}
}
impl fmt::Display for Point {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "({}, {})", self.row, self.column)
}
}
impl From<Point> for ffi::TSPoint {
fn from(val: Point) -> Self {
Self {
row: val.row as u32,
column: val.column as u32,
}
}
}
impl From<ffi::TSPoint> for Point {
fn from(point: ffi::TSPoint) -> Self {
Self {
row: point.row as usize,
column: point.column as usize,
}
}
}
impl From<Range> for ffi::TSRange {
fn from(val: Range) -> Self {
Self {
start_byte: val.start_byte as u32,
end_byte: val.end_byte as u32,
start_point: val.start_point.into(),
end_point: val.end_point.into(),
}
}
}
impl From<ffi::TSRange> for Range {
fn from(range: ffi::TSRange) -> Self {
Self {
start_byte: range.start_byte as usize,
end_byte: range.end_byte as usize,
start_point: range.start_point.into(),
end_point: range.end_point.into(),
}
}
}
impl From<&'_ InputEdit> for ffi::TSInputEdit {
fn from(val: &'_ InputEdit) -> Self {
Self {
start_byte: val.start_byte as u32,
old_end_byte: val.old_end_byte as u32,
new_end_byte: val.new_end_byte as u32,
start_point: val.start_position.into(),
old_end_point: val.old_end_position.into(),
new_end_point: val.new_end_position.into(),
}
}
}
impl<'a> LossyUtf8<'a> {
#[must_use]
pub const fn new(bytes: &'a [u8]) -> Self {
LossyUtf8 {
bytes,
in_replacement: false,
}
}
}
impl<'a> Iterator for LossyUtf8<'a> {
type Item = &'a str;
fn next(&mut self) -> Option<&'a str> {
if self.bytes.is_empty() {
return None;
}
if self.in_replacement {
self.in_replacement = false;
return Some("\u{fffd}");
}
match core::str::from_utf8(self.bytes) {
Ok(valid) => {
self.bytes = &[];
Some(valid)
}
Err(error) => {
if let Some(error_len) = error.error_len() {
let error_start = error.valid_up_to();
if error_start > 0 {
let result =
unsafe { core::str::from_utf8_unchecked(&self.bytes[..error_start]) };
self.bytes = &self.bytes[(error_start + error_len)..];
self.in_replacement = true;
Some(result)
} else {
self.bytes = &self.bytes[error_len..];
Some("\u{fffd}")
}
} else {
None
}
}
}
}
}
#[must_use]
const fn predicate_error(row: usize, message: String) -> QueryError {
QueryError {
kind: QueryErrorKind::Predicate,
row,
column: 0,
offset: 0,
message,
}
}
impl fmt::Display for IncludedRangesError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "Incorrect range by index: {}", self.0)
}
}
impl fmt::Display for LanguageError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"Incompatible language version {}. Expected minimum {}, maximum {}",
self.version, MIN_COMPATIBLE_LANGUAGE_VERSION, LANGUAGE_VERSION,
)
}
}
impl fmt::Display for QueryError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let msg = match self.kind {
QueryErrorKind::Field => "Invalid field name ",
QueryErrorKind::NodeType => "Invalid node type ",
QueryErrorKind::Capture => "Invalid capture name ",
QueryErrorKind::Predicate => "Invalid predicate: ",
QueryErrorKind::Structure => "Impossible pattern:\n",
QueryErrorKind::Syntax => "Invalid syntax:\n",
QueryErrorKind::Language => "",
};
if msg.is_empty() {
write!(f, "{}", self.message)
} else {
write!(
f,
"Query error at {}:{}. {}{}",
self.row + 1,
self.column + 1,
msg,
self.message
)
}
}
}
#[doc(hidden)]
#[must_use]
pub fn format_sexp(sexp: &str, initial_indent_level: usize) -> String {
let mut indent_level = initial_indent_level;
let mut formatted = String::new();
let mut has_field = false;
let mut c_iter = sexp.chars().peekable();
let mut s = String::with_capacity(sexp.len());
let mut quote = '\0';
let mut saw_paren = false;
let mut did_last = false;
let mut fetch_next_str = |next: &mut String| {
next.clear();
while let Some(c) = c_iter.next() {
if c == '\'' || c == '"' {
quote = c;
} else if c == ' ' || (c == ')' && quote != '\0') {
if let Some(next_c) = c_iter.peek() {
if *next_c == quote {
next.push(c);
next.push(*next_c);
c_iter.next();
quote = '\0';
continue;
}
}
break;
}
if c == ')' {
saw_paren = true;
break;
}
next.push(c);
}
// at the end
if c_iter.peek().is_none() && next.is_empty() {
if saw_paren {
// but did we see a ) before ending?
saw_paren = false;
return Some(());
}
if !did_last {
// but did we account for the end empty string as if we're splitting?
did_last = true;
return Some(());
}
return None;
}
Some(())
};
while fetch_next_str(&mut s).is_some() {
if s.is_empty() && indent_level > 0 {
// ")"
indent_level -= 1;
write!(formatted, ")").unwrap();
} else if s.starts_with('(') {
if has_field {
has_field = false;
} else {
if indent_level > 0 {
writeln!(formatted).unwrap();
for _ in 0..indent_level {
write!(formatted, " ").unwrap();
}
}
indent_level += 1;
}
// "(node_name"
write!(formatted, "{s}").unwrap();
// "(MISSING node_name" or "(UNEXPECTED 'x'"
if s.starts_with("(MISSING") || s.starts_with("(UNEXPECTED") {
fetch_next_str(&mut s).unwrap();
if s.is_empty() {
while indent_level > 0 {
indent_level -= 1;
write!(formatted, ")").unwrap();
}
} else {
write!(formatted, " {s}").unwrap();
}
}
} else if s.ends_with(':') {
// "field:"
writeln!(formatted).unwrap();
for _ in 0..indent_level {
write!(formatted, " ").unwrap();
}
write!(formatted, "{s} ").unwrap();
has_field = true;
indent_level += 1;
}
}
formatted
}
pub fn wasm_stdlib_symbols() -> impl Iterator<Item = &'static str> {
const WASM_STDLIB_SYMBOLS: &str = include_str!(concat!(env!("OUT_DIR"), "/stdlib-symbols.txt"));
WASM_STDLIB_SYMBOLS
.lines()
.map(|s| s.trim_matches(|c| c == '"' || c == ','))
}
extern "C" {
fn free(ptr: *mut c_void);
}
static mut FREE_FN: unsafe extern "C" fn(ptr: *mut c_void) = free;
/// Sets the memory allocation functions that the core library should use.
///
/// # Safety
///
/// This function uses FFI and mutates a static global.
#[doc(alias = "ts_set_allocator")]
pub unsafe fn set_allocator(
new_malloc: Option<unsafe extern "C" fn(usize) -> *mut c_void>,
new_calloc: Option<unsafe extern "C" fn(usize, usize) -> *mut c_void>,
new_realloc: Option<unsafe extern "C" fn(*mut c_void, usize) -> *mut c_void>,
new_free: Option<unsafe extern "C" fn(*mut c_void)>,
) {
FREE_FN = new_free.unwrap_or(free);
ffi::ts_set_allocator(new_malloc, new_calloc, new_realloc, new_free);
}
#[cfg(feature = "std")]
impl error::Error for IncludedRangesError {}
#[cfg(feature = "std")]
impl error::Error for LanguageError {}
#[cfg(feature = "std")]
impl error::Error for QueryError {}
unsafe impl Send for Language {}
unsafe impl Sync for Language {}
unsafe impl Send for Node<'_> {}
unsafe impl Sync for Node<'_> {}
unsafe impl Send for LookaheadIterator {}
unsafe impl Sync for LookaheadIterator {}
unsafe impl Send for LookaheadNamesIterator<'_> {}
unsafe impl Sync for LookaheadNamesIterator<'_> {}
unsafe impl Send for Parser {}
unsafe impl Sync for Parser {}
unsafe impl Send for Query {}
unsafe impl Sync for Query {}
unsafe impl Send for QueryCursor {}
unsafe impl Sync for QueryCursor {}
unsafe impl Send for Tree {}
unsafe impl Sync for Tree {}
unsafe impl Send for TreeCursor<'_> {}
unsafe impl Sync for TreeCursor<'_> {}