aboutsummaryrefslogtreecommitdiff
path: root/crates/parser/src/lib.rs
diff options
context:
space:
mode:
authorIgor Aleksanov <[email protected]>2020-08-14 05:34:07 +0100
committerIgor Aleksanov <[email protected]>2020-08-14 05:34:07 +0100
commitc26c911ec1e6c2ad1dcb7d155a6a1d528839ad1a (patch)
tree7cff36c38234be0afb65273146d8247083a5cfeb /crates/parser/src/lib.rs
parent3c018bf84de5c693b5ee1c6bec0fed3b201c2060 (diff)
parentf1f73649a686dc6e6449afc35e0fa6fed00e225d (diff)
Merge branch 'master' into add-disable-diagnostics
Diffstat (limited to 'crates/parser/src/lib.rs')
-rw-r--r--crates/parser/src/lib.rs149
1 files changed, 149 insertions, 0 deletions
diff --git a/crates/parser/src/lib.rs b/crates/parser/src/lib.rs
new file mode 100644
index 000000000..41e62116f
--- /dev/null
+++ b/crates/parser/src/lib.rs
@@ -0,0 +1,149 @@
1//! The Rust parser.
2//!
3//! The parser doesn't know about concrete representation of tokens and syntax
4//! trees. Abstract `TokenSource` and `TreeSink` traits are used instead. As a
5//! consequence, this crates does not contain a lexer.
6//!
7//! The `Parser` struct from the `parser` module is a cursor into the sequence
8//! of tokens. Parsing routines use `Parser` to inspect current state and
9//! advance the parsing.
10//!
11//! The actual parsing happens in the `grammar` module.
12//!
13//! Tests for this crate live in `syntax` crate.
14
15#[macro_use]
16mod token_set;
17#[macro_use]
18mod syntax_kind;
19mod event;
20mod parser;
21mod grammar;
22
23pub(crate) use token_set::TokenSet;
24
25pub use syntax_kind::SyntaxKind;
26
27#[derive(Debug, Clone, PartialEq, Eq, Hash)]
28pub struct ParseError(pub Box<String>);
29
30/// `TokenSource` abstracts the source of the tokens parser operates on.
31///
32/// Hopefully this will allow us to treat text and token trees in the same way!
33pub trait TokenSource {
34 fn current(&self) -> Token;
35
36 /// Lookahead n token
37 fn lookahead_nth(&self, n: usize) -> Token;
38
39 /// bump cursor to next token
40 fn bump(&mut self);
41
42 /// Is the current token a specified keyword?
43 fn is_keyword(&self, kw: &str) -> bool;
44}
45
46/// `Token` abstracts the cursor of `TokenSource` operates on.
47#[derive(Debug, Copy, Clone, Eq, PartialEq)]
48pub struct Token {
49 /// What is the current token?
50 pub kind: SyntaxKind,
51
52 /// Is the current token joined to the next one (`> >` vs `>>`).
53 pub is_jointed_to_next: bool,
54}
55
56/// `TreeSink` abstracts details of a particular syntax tree implementation.
57pub trait TreeSink {
58 /// Adds new token to the current branch.
59 fn token(&mut self, kind: SyntaxKind, n_tokens: u8);
60
61 /// Start new branch and make it current.
62 fn start_node(&mut self, kind: SyntaxKind);
63
64 /// Finish current branch and restore previous
65 /// branch as current.
66 fn finish_node(&mut self);
67
68 fn error(&mut self, error: ParseError);
69}
70
71fn parse_from_tokens<F>(token_source: &mut dyn TokenSource, tree_sink: &mut dyn TreeSink, f: F)
72where
73 F: FnOnce(&mut parser::Parser),
74{
75 let mut p = parser::Parser::new(token_source);
76 f(&mut p);
77 let events = p.finish();
78 event::process(tree_sink, events);
79}
80
81/// Parse given tokens into the given sink as a rust file.
82pub fn parse(token_source: &mut dyn TokenSource, tree_sink: &mut dyn TreeSink) {
83 parse_from_tokens(token_source, tree_sink, grammar::root);
84}
85
86#[derive(Debug, Clone, Copy, Eq, PartialEq, Hash)]
87pub enum FragmentKind {
88 Path,
89 Expr,
90 Statement,
91 Type,
92 Pattern,
93 Item,
94 Block,
95 Visibility,
96 MetaItem,
97
98 // These kinds are used when parsing the result of expansion
99 // FIXME: use separate fragment kinds for macro inputs and outputs?
100 Items,
101 Statements,
102}
103
104pub fn parse_fragment(
105 token_source: &mut dyn TokenSource,
106 tree_sink: &mut dyn TreeSink,
107 fragment_kind: FragmentKind,
108) {
109 let parser: fn(&'_ mut parser::Parser) = match fragment_kind {
110 FragmentKind::Path => grammar::fragments::path,
111 FragmentKind::Expr => grammar::fragments::expr,
112 FragmentKind::Type => grammar::fragments::type_,
113 FragmentKind::Pattern => grammar::fragments::pattern,
114 FragmentKind::Item => grammar::fragments::item,
115 FragmentKind::Block => grammar::fragments::block_expr,
116 FragmentKind::Visibility => grammar::fragments::opt_visibility,
117 FragmentKind::MetaItem => grammar::fragments::meta_item,
118 FragmentKind::Statement => grammar::fragments::stmt,
119 FragmentKind::Items => grammar::fragments::macro_items,
120 FragmentKind::Statements => grammar::fragments::macro_stmts,
121 };
122 parse_from_tokens(token_source, tree_sink, parser)
123}
124
125/// A parsing function for a specific braced-block.
126pub struct Reparser(fn(&mut parser::Parser));
127
128impl Reparser {
129 /// If the node is a braced block, return the corresponding `Reparser`.
130 pub fn for_node(
131 node: SyntaxKind,
132 first_child: Option<SyntaxKind>,
133 parent: Option<SyntaxKind>,
134 ) -> Option<Reparser> {
135 grammar::reparser(node, first_child, parent).map(Reparser)
136 }
137
138 /// Re-parse given tokens using this `Reparser`.
139 ///
140 /// Tokens must start with `{`, end with `}` and form a valid brace
141 /// sequence.
142 pub fn parse(self, token_source: &mut dyn TokenSource, tree_sink: &mut dyn TreeSink) {
143 let Reparser(r) = self;
144 let mut p = parser::Parser::new(token_source);
145 r(&mut p);
146 let events = p.finish();
147 event::process(tree_sink, events);
148 }
149}