fish-shell/src/parse_tree.rs
Mahmoud Al-Qudsi 4730a04f25 Use NonZero types for 1-based line numbers
Since we have a mix of both 0-based and 1-based line numbers in the code base,
we can now distinguish between them by type alone. Also stop using 0 as a
placeholder value for "no line number available" except in explicit helper
functions such as `get_lineno_for_display()`.
2024-07-07 20:58:09 -05:00

276 lines
9.5 KiB
Rust

//! Programmatic representation of fish code.
use std::ops::Deref;
use std::pin::Pin;
use std::sync::Arc;
use crate::ast::{Ast, Node};
use crate::common::{assert_send, assert_sync};
use crate::parse_constants::{
token_type_user_presentable_description, ParseErrorCode, ParseErrorList, ParseKeyword,
ParseTokenType, ParseTreeFlags, SourceOffset, SourceRange, SOURCE_OFFSET_INVALID,
};
use crate::tokenizer::TokenizerError;
use crate::wchar::prelude::*;
use crate::wcstringutil::count_newlines;
/// A struct representing the token type that we use internally.
#[derive(Clone, Copy)]
pub struct ParseToken {
/// The type of the token as represented by the parser
pub typ: ParseTokenType,
/// Any keyword represented by this token
pub keyword: ParseKeyword,
/// Hackish: whether the source contains a dash prefix
pub has_dash_prefix: bool,
/// Hackish: whether the source looks like '-h' or '--help'
pub is_help_argument: bool,
/// Hackish: if TOK_END, whether the source is a newline.
pub is_newline: bool,
// Hackish: whether this token is a string like FOO=bar
pub may_be_variable_assignment: bool,
/// If this is a tokenizer error, that error.
pub tok_error: TokenizerError,
source_start: SourceOffset,
source_length: SourceOffset,
}
impl ParseToken {
pub fn new(typ: ParseTokenType) -> Self {
ParseToken {
typ,
keyword: ParseKeyword::none,
has_dash_prefix: false,
is_help_argument: false,
is_newline: false,
may_be_variable_assignment: false,
tok_error: TokenizerError::none,
source_start: SOURCE_OFFSET_INVALID.try_into().unwrap(),
source_length: 0,
}
}
pub fn set_source_start(&mut self, value: usize) {
self.source_start = value.try_into().unwrap();
}
pub fn source_start(&self) -> usize {
self.source_start.try_into().unwrap()
}
pub fn set_source_length(&mut self, value: usize) {
self.source_length = value.try_into().unwrap();
}
pub fn source_length(&self) -> usize {
self.source_length.try_into().unwrap()
}
/// Return the source range.
/// Note the start may be invalid.
pub fn range(&self) -> SourceRange {
SourceRange::new(self.source_start(), self.source_length())
}
/// Return whether we are a string with the dash prefix set.
pub fn is_dash_prefix_string(&self) -> bool {
self.typ == ParseTokenType::string && self.has_dash_prefix
}
/// Returns a string description of the given parse token.
pub fn describe(&self) -> WString {
let mut result = self.typ.to_wstr().to_owned();
if self.keyword != ParseKeyword::none {
sprintf!(=> &mut result, " <%ls>", self.keyword.to_wstr())
}
result
}
pub fn user_presentable_description(&self) -> WString {
token_type_user_presentable_description(self.typ, self.keyword)
}
}
impl From<TokenizerError> for ParseErrorCode {
fn from(err: TokenizerError) -> Self {
match err {
TokenizerError::none => ParseErrorCode::none,
TokenizerError::unterminated_quote => ParseErrorCode::tokenizer_unterminated_quote,
TokenizerError::unterminated_subshell => {
ParseErrorCode::tokenizer_unterminated_subshell
}
TokenizerError::unterminated_slice => ParseErrorCode::tokenizer_unterminated_slice,
TokenizerError::unterminated_escape => ParseErrorCode::tokenizer_unterminated_escape,
_ => ParseErrorCode::tokenizer_other,
}
}
}
/// A type wrapping up a parse tree and the original source behind it.
pub struct ParsedSource {
pub src: WString,
pub ast: Ast,
}
// Safety: this can be derived once the src_ffi field is removed.
unsafe impl Send for ParsedSource {}
unsafe impl Sync for ParsedSource {}
const _: () = assert_send::<ParsedSource>();
const _: () = assert_sync::<ParsedSource>();
impl ParsedSource {
pub fn new(src: WString, ast: Ast) -> Self {
ParsedSource { src, ast }
}
// Return a line counter over this source.
pub fn line_counter<NodeType: Node>(self: &Arc<Self>) -> LineCounter<NodeType> {
LineCounter {
parsed_source: Pin::new(Arc::clone(self)),
node: std::ptr::null(),
cached_offset: 0,
cached_count: 0,
}
}
}
pub type ParsedSourceRef = Arc<ParsedSource>;
/// A reference to a node within a parse tree.
pub struct NodeRef<NodeType: Node> {
/// The parse tree containing the node.
/// This is pinned because we hold a pointer into it.
parsed_source: Pin<Arc<ParsedSource>>,
/// The node itself. This points into the parsed source.
node: *const NodeType,
}
impl<NodeType: Node> NodeRef<NodeType> {
pub fn new(parsed_source: ParsedSourceRef, node: *const NodeType) -> Self {
NodeRef {
parsed_source: Pin::new(parsed_source),
node,
}
}
}
impl<NodeType: Node> Clone for NodeRef<NodeType> {
fn clone(&self) -> Self {
NodeRef {
parsed_source: self.parsed_source.clone(),
node: self.node,
}
}
}
impl<NodeType: Node> Deref for NodeRef<NodeType> {
type Target = NodeType;
fn deref(&self) -> &Self::Target {
// Safety: the node is valid for the lifetime of the source.
unsafe { &*self.node }
}
}
impl<NodeType: Node> NodeRef<NodeType> {
pub fn parsed_source(&self) -> &ParsedSource {
&self.parsed_source
}
pub fn parsed_source_ref(&self) -> ParsedSourceRef {
Pin::into_inner(self.parsed_source.clone())
}
}
// Safety: NodeRef is Send and Sync because it's just a pointer into a parse tree, which is pinned.
unsafe impl<NodeType: Node> Send for NodeRef<NodeType> {}
unsafe impl<NodeType: Node> Sync for NodeRef<NodeType> {}
/// Return a shared pointer to ParsedSource, or null on failure.
/// If parse_flag_continue_after_error is not set, this will return null on any error.
pub fn parse_source(
src: WString,
flags: ParseTreeFlags,
errors: Option<&mut ParseErrorList>,
) -> Option<ParsedSourceRef> {
let ast = Ast::parse(&src, flags, errors);
if ast.errored() && !flags.contains(ParseTreeFlags::CONTINUE_AFTER_ERROR) {
None
} else {
Some(Arc::new(ParsedSource::new(src, ast)))
}
}
/// A type which assists in returning line numbers.
/// This is a somewhat strange type which both counts line numbers and also holds
/// a reference to a "current" node; this matches the expected usage from parse_execution.
pub struct LineCounter<NodeType: Node> {
/// The parse tree containing the node.
/// This is pinned because we hold a pointer into it.
parsed_source: Pin<Arc<ParsedSource>>,
/// The node itself. This points into the parsed source, or it may be null.
node: *const NodeType,
// Cached line number information: the line number of the start of the node, and the number of newlines.
cached_offset: usize,
cached_count: usize,
}
impl<NodeType: Node> LineCounter<NodeType> {
// Return a line counter for empty source.
pub fn empty() -> Self {
let parsed_source =
Pin::new(parse_source(WString::new(), ParseTreeFlags::default(), None).unwrap());
LineCounter {
parsed_source,
node: std::ptr::null(),
cached_offset: 0,
cached_count: 0,
}
}
// Count the number of newlines, leveraging our cache.
pub fn line_offset_of_character_at_offset(&mut self, offset: usize) -> usize {
let src = &self.parsed_source.src;
assert!(offset <= src.len());
// Easy hack to handle 0.
if offset == 0 {
return 0;
}
// We want to return the number of newlines at offsets less than the given offset.
if offset > self.cached_offset {
// Add one for every newline we find in the range [cached_offset, offset).
// The codegen is substantially better when using a char slice than the char iterator.
self.cached_count += count_newlines(&src[self.cached_offset..offset]);
} else if offset < self.cached_offset {
// Subtract one for every newline we find in the range [offset, cached_range.start).
self.cached_count -= count_newlines(&src[offset..self.cached_offset]);
}
self.cached_offset = offset;
self.cached_count
}
// Returns the 0-based line number of the node.
pub fn line_offset_of_node(&mut self) -> Option<u32> {
let src_offset = self.source_offset_of_node()?;
// Safe to cast/truncate to u32 since SourceRange stores it as a u32 internally
Some(self.line_offset_of_character_at_offset(src_offset) as u32)
}
// Return the 0 based character offset of the node.
pub fn source_offset_of_node(&mut self) -> Option<usize> {
// Safety: any node is valid for the lifetime of the source.
let node = unsafe { self.node.as_ref()? };
let range = node.try_source_range()?;
Some(range.start())
}
// Set the node. The node must belong to the parsed source.
// Returns the original node.
pub fn set_node<'a>(&mut self, node: Option<&'a NodeType>) -> Option<&'a NodeType> {
let node_ptr = node.map_or(std::ptr::null(), |node| node);
let prev = std::mem::replace(&mut self.node, node_ptr);
unsafe { prev.as_ref() }
}
// Return the source.
pub fn get_source(&self) -> &wstr {
&self.parsed_source.src
}
}