rust/src/parser/grammar/mod.rs

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//! This is the actual "grammar" of the Rust language.
//!
//! Each function in this module and its children corresponds
//! to a production of the format grammar. Submodules roughly
//! correspond to different *areas* of the grammar. By convention,
//! each submodule starts with `use super::*` import and exports
//! "public" productions via `pub(super)`.
//!
//! See docs for `Parser` to learn about API, available to the grammar,
//! and see docs for `Event` to learn how this actually manages to
//! produce parse trees.
//!
//! Code in this module also contains inline tests, which start with
//! `// test name-of-the-test` comment and look like this:
//!
//! ```
//! // test fn_item_with_zero_parameters
//! // fn foo() {}
//! ```
//!
//! After adding a new inline-test, run `cargo collect-tests` to extract
//! it as a standalone text-fixture into `tests/data/parser/inline`, and
//! run `cargo test` once to create the "gold" value.
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mod attributes;
mod expressions;
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mod items;
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mod paths;
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mod patterns;
mod type_params;
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mod types;
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use {
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parser::{parser::Parser, token_set::TokenSet},
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SyntaxKind::{self, *},
};
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pub(crate) fn file(p: &mut Parser) {
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let file = p.start();
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p.eat(SHEBANG);
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items::mod_contents(p, false);
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file.complete(p, FILE);
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}
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fn visibility(p: &mut Parser) {
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if p.at(PUB_KW) {
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let vis = p.start();
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p.bump();
if p.at(L_PAREN) {
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match p.nth(1) {
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// test crate_visibility
// pub(crate) struct S;
// pub(self) struct S;
// pub(self) struct S;
// pub(self) struct S;
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CRATE_KW | SELF_KW | SUPER_KW => {
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p.bump();
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p.bump();
p.expect(R_PAREN);
}
IN_KW => {
p.bump();
p.bump();
paths::use_path(p);
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p.expect(R_PAREN);
}
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_ => (),
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}
}
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vis.complete(p, VISIBILITY);
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}
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}
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fn alias(p: &mut Parser) -> bool {
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if p.at(AS_KW) {
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let alias = p.start();
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p.bump();
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name(p);
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alias.complete(p, ALIAS);
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}
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true //FIXME: return false if three are errors
}
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fn abi(p: &mut Parser) {
assert!(p.at(EXTERN_KW));
let abi = p.start();
p.bump();
match p.current() {
STRING | RAW_STRING => p.bump(),
_ => (),
}
abi.complete(p, ABI);
}
// test fn_value_parameters
// fn a() {}
// fn b(x: i32) {}
// fn c(x: i32, ) {}
// fn d(x: i32, y: ()) {}
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fn fn_value_parameters(p: &mut Parser) {
assert!(p.at(L_PAREN));
p.bump();
while !p.at(EOF) && !p.at(R_PAREN) {
value_parameter(p);
if !p.at(R_PAREN) {
p.expect(COMMA);
}
}
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p.expect(R_PAREN);
fn value_parameter(p: &mut Parser) {
let m = p.start();
patterns::pattern(p);
p.expect(COLON);
types::type_(p);
m.complete(p, VALUE_PARAMETER);
}
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}
fn fn_ret_type(p: &mut Parser) {
if p.at(THIN_ARROW) {
p.bump();
types::type_(p);
}
}
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fn name(p: &mut Parser) {
if p.at(IDENT) {
let m = p.start();
p.bump();
m.complete(p, NAME);
} else {
p.error("expected a name");
}
}
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fn name_ref(p: &mut Parser) {
if p.at(IDENT) {
let m = p.start();
p.bump();
m.complete(p, NAME_REF);
} else {
p.error("expected identifier");
}
}
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fn error_block(p: &mut Parser, message: &str) {
assert!(p.at(L_CURLY));
let err = p.start();
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p.error(message);
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p.bump();
let mut level: u32 = 1;
while level > 0 && !p.at(EOF) {
match p.current() {
L_CURLY => level += 1,
R_CURLY => level -= 1,
_ => (),
}
p.bump();
}
err.complete(p, ERROR);
}