317 lines
8.6 KiB
Rust
317 lines
8.6 KiB
Rust
//! This is the actual "grammar" of the Rust language.
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//!
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//! Each function in this module and its children corresponds
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//! to a production of the formal grammar. Submodules roughly
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//! correspond to different *areas* of the grammar. By convention,
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//! each submodule starts with `use super::*` import and exports
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//! "public" productions via `pub(super)`.
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//!
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//! See docs for [`Parser`](super::parser::Parser) to learn about API,
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//! available to the grammar, and see docs for [`Event`](super::event::Event)
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//! to learn how this actually manages to produce parse trees.
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//!
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//! Code in this module also contains inline tests, which start with
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//! `// test name-of-the-test` comment and look like this:
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//!
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//! ```
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//! // test function_with_zero_parameters
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//! // fn foo() {}
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//! ```
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//!
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//! After adding a new inline-test, run `cargo test -p xtask` to
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//! extract it as a standalone text-fixture into
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//! `crates/syntax/test_data/parser/`, and run `cargo test` once to
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//! create the "gold" value.
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//!
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//! Coding convention: rules like `where_clause` always produce either a
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//! node or an error, rules like `opt_where_clause` may produce nothing.
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//! Non-opt rules typically start with `assert!(p.at(FIRST_TOKEN))`, the
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//! caller is responsible for branching on the first token.
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mod attributes;
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mod expressions;
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mod items;
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mod params;
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mod paths;
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mod patterns;
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mod generic_args;
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mod generic_params;
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mod types;
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use crate::{
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parser::{CompletedMarker, Marker, Parser},
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SyntaxKind::{self, *},
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TokenSet, T,
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};
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pub(crate) mod entry {
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use super::*;
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pub(crate) mod prefix {
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use super::*;
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pub(crate) fn vis(p: &mut Parser) {
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let _ = opt_visibility(p, false);
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}
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pub(crate) fn block(p: &mut Parser) {
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expressions::block_expr(p);
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}
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pub(crate) fn stmt(p: &mut Parser) {
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expressions::stmt(p, expressions::Semicolon::Forbidden);
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}
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pub(crate) fn pat(p: &mut Parser) {
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patterns::pattern_single(p);
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}
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pub(crate) fn ty(p: &mut Parser) {
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types::type_(p);
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}
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pub(crate) fn expr(p: &mut Parser) {
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let _ = expressions::expr(p);
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}
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pub(crate) fn path(p: &mut Parser) {
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let _ = paths::type_path(p);
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}
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pub(crate) fn item(p: &mut Parser) {
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items::item_or_macro(p, true);
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}
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// Parse a meta item , which excluded [], e.g : #[ MetaItem ]
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pub(crate) fn meta_item(p: &mut Parser) {
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attributes::meta(p);
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}
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}
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pub(crate) mod top {
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use super::*;
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pub(crate) fn source_file(p: &mut Parser) {
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let m = p.start();
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p.eat(SHEBANG);
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items::mod_contents(p, false);
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m.complete(p, SOURCE_FILE);
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}
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pub(crate) fn macro_stmts(p: &mut Parser) {
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let m = p.start();
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while !p.at(EOF) {
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expressions::stmt(p, expressions::Semicolon::Optional);
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}
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m.complete(p, MACRO_STMTS);
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}
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pub(crate) fn macro_items(p: &mut Parser) {
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let m = p.start();
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items::mod_contents(p, false);
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m.complete(p, MACRO_ITEMS);
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}
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pub(crate) fn pattern(p: &mut Parser) {
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let m = p.start();
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patterns::pattern_single(p);
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if p.at(EOF) {
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m.abandon(p);
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return;
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}
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while !p.at(EOF) {
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p.bump_any();
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}
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m.complete(p, ERROR);
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}
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pub(crate) fn type_(p: &mut Parser) {
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let m = p.start();
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types::type_(p);
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if p.at(EOF) {
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m.abandon(p);
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return;
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}
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while !p.at(EOF) {
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p.bump_any();
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}
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m.complete(p, ERROR);
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}
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}
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}
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pub(crate) fn reparser(
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node: SyntaxKind,
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first_child: Option<SyntaxKind>,
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parent: Option<SyntaxKind>,
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) -> Option<fn(&mut Parser)> {
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let res = match node {
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BLOCK_EXPR => expressions::block_expr,
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RECORD_FIELD_LIST => items::record_field_list,
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RECORD_EXPR_FIELD_LIST => items::record_expr_field_list,
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VARIANT_LIST => items::variant_list,
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MATCH_ARM_LIST => items::match_arm_list,
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USE_TREE_LIST => items::use_tree_list,
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EXTERN_ITEM_LIST => items::extern_item_list,
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TOKEN_TREE if first_child? == T!['{'] => items::token_tree,
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ASSOC_ITEM_LIST => match parent? {
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IMPL | TRAIT => items::assoc_item_list,
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_ => return None,
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},
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ITEM_LIST => items::item_list,
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_ => return None,
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};
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Some(res)
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}
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#[derive(Clone, Copy, PartialEq, Eq)]
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enum BlockLike {
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Block,
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NotBlock,
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}
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impl BlockLike {
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fn is_block(self) -> bool {
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self == BlockLike::Block
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}
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}
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fn opt_visibility(p: &mut Parser, in_tuple_field: bool) -> bool {
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match p.current() {
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T![pub] => {
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let m = p.start();
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p.bump(T![pub]);
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if p.at(T!['(']) {
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match p.nth(1) {
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// test crate_visibility
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// pub(crate) struct S;
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// pub(self) struct S;
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// pub(super) struct S;
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// test pub_parens_typepath
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// struct B(pub (super::A));
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// struct B(pub (crate::A,));
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T![crate] | T![self] | T![super] | T![ident] if p.nth(2) != T![:] => {
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// If we are in a tuple struct, then the parens following `pub`
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// might be an tuple field, not part of the visibility. So in that
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// case we don't want to consume an identifier.
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// test pub_tuple_field
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// struct MyStruct(pub (u32, u32));
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if !(in_tuple_field && matches!(p.nth(1), T![ident])) {
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p.bump(T!['(']);
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paths::use_path(p);
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p.expect(T![')']);
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}
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}
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// test crate_visibility_in
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// pub(in super::A) struct S;
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// pub(in crate) struct S;
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T![in] => {
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p.bump(T!['(']);
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p.bump(T![in]);
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paths::use_path(p);
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p.expect(T![')']);
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}
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_ => (),
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}
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}
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m.complete(p, VISIBILITY);
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true
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}
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// test crate_keyword_vis
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// crate fn main() { }
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// struct S { crate field: u32 }
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// struct T(crate u32);
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T![crate] => {
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if p.nth_at(1, T![::]) {
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// test crate_keyword_path
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// fn foo() { crate::foo(); }
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return false;
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}
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let m = p.start();
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p.bump(T![crate]);
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m.complete(p, VISIBILITY);
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true
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}
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_ => false,
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}
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}
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fn opt_rename(p: &mut Parser) {
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if p.at(T![as]) {
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let m = p.start();
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p.bump(T![as]);
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if !p.eat(T![_]) {
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name(p);
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}
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m.complete(p, RENAME);
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}
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}
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fn abi(p: &mut Parser) {
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assert!(p.at(T![extern]));
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let abi = p.start();
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p.bump(T![extern]);
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p.eat(STRING);
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abi.complete(p, ABI);
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}
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fn opt_ret_type(p: &mut Parser) -> bool {
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if p.at(T![->]) {
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let m = p.start();
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p.bump(T![->]);
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types::type_no_bounds(p);
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m.complete(p, RET_TYPE);
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true
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} else {
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false
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}
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}
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fn name_r(p: &mut Parser, recovery: TokenSet) {
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if p.at(IDENT) {
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let m = p.start();
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p.bump(IDENT);
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m.complete(p, NAME);
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} else {
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p.err_recover("expected a name", recovery);
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}
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}
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fn name(p: &mut Parser) {
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name_r(p, TokenSet::EMPTY);
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}
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fn name_ref(p: &mut Parser) {
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if p.at(IDENT) {
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let m = p.start();
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p.bump(IDENT);
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m.complete(p, NAME_REF);
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} else {
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p.err_and_bump("expected identifier");
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}
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}
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fn name_ref_or_index(p: &mut Parser) {
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assert!(p.at(IDENT) || p.at(INT_NUMBER));
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let m = p.start();
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p.bump_any();
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m.complete(p, NAME_REF);
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}
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fn lifetime(p: &mut Parser) {
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assert!(p.at(LIFETIME_IDENT));
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let m = p.start();
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p.bump(LIFETIME_IDENT);
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m.complete(p, LIFETIME);
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}
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fn error_block(p: &mut Parser, message: &str) {
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assert!(p.at(T!['{']));
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let m = p.start();
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p.error(message);
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p.bump(T!['{']);
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expressions::expr_block_contents(p);
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p.eat(T!['}']);
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m.complete(p, ERROR);
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}
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