rust/crates/parser/src/grammar.rs

//! This is the actual "grammar" of the Rust language.
//!
//! Each function in this module and its children corresponds
//! to a production of the formal 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`](super::parser::Parser) to learn about API,
//! available to the grammar, and see docs for [`Event`](super::event::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 function_with_zero_parameters
//! // fn foo() {}
//! ```
//!
//! After adding a new inline-test, run `cargo test -p xtask` to
//! extract it as a standalone text-fixture into
//! `crates/syntax/test_data/parser/`, and run `cargo test` once to
//! create the "gold" value.
//!
//! Coding convention: rules like `where_clause` always produce either a
//! node or an error, rules like `opt_where_clause` may produce nothing.
//! Non-opt rules typically start with `assert!(p.at(FIRST_TOKEN))`, the
//! caller is responsible for branching on the first token.

mod attributes;
mod expressions;
mod items;
mod params;
mod paths;
mod patterns;
mod generic_args;
mod generic_params;
mod types;

use crate::{
    parser::{CompletedMarker, Marker, Parser},
    SyntaxKind::{self, *},
    TokenSet, T,
};

pub(crate) mod entry_points {
    use super::*;

    pub(crate) fn source_file(p: &mut Parser) {
        let m = p.start();
        p.eat(SHEBANG);
        items::mod_contents(p, false);
        m.complete(p, SOURCE_FILE);
    }

    pub(crate) use expressions::block_expr;

    pub(crate) use paths::type_path as path;

    pub(crate) use patterns::pattern_single as pattern;

    pub(crate) use types::type_;

    pub(crate) fn expr(p: &mut Parser) {
        let _ = expressions::expr(p);
    }

    pub(crate) fn stmt(p: &mut Parser) {
        expressions::stmt(p, expressions::StmtWithSemi::No, true);
    }

    pub(crate) fn stmt_optional_semi(p: &mut Parser) {
        expressions::stmt(p, expressions::StmtWithSemi::Optional, false);
    }

    pub(crate) fn visibility(p: &mut Parser) {
        let _ = opt_visibility(p, false);
    }

    // Parse a meta item , which excluded [], e.g : #[ MetaItem ]
    pub(crate) fn meta_item(p: &mut Parser) {
        attributes::meta(p);
    }

    pub(crate) fn item(p: &mut Parser) {
        items::item_or_macro(p, true);
    }

    pub(crate) fn macro_items(p: &mut Parser) {
        let m = p.start();
        items::mod_contents(p, false);
        m.complete(p, MACRO_ITEMS);
    }

    pub(crate) fn macro_stmts(p: &mut Parser) {
        let m = p.start();

        while !p.at(EOF) {
            if p.at(T![;]) {
                p.bump(T![;]);
                continue;
            }

            expressions::stmt(p, expressions::StmtWithSemi::Optional, true);
        }

        m.complete(p, MACRO_STMTS);
    }

    pub(crate) fn attr(p: &mut Parser) {
        attributes::outer_attrs(p);
    }
}

pub(crate) fn reparser(
    node: SyntaxKind,
    first_child: Option<SyntaxKind>,
    parent: Option<SyntaxKind>,
) -> Option<fn(&mut Parser)> {
    let res = match node {
        BLOCK_EXPR => expressions::block_expr,
        RECORD_FIELD_LIST => items::record_field_list,
        RECORD_EXPR_FIELD_LIST => items::record_expr_field_list,
        VARIANT_LIST => items::variant_list,
        MATCH_ARM_LIST => items::match_arm_list,
        USE_TREE_LIST => items::use_tree_list,
        EXTERN_ITEM_LIST => items::extern_item_list,
        TOKEN_TREE if first_child? == T!['{'] => items::token_tree,
        ASSOC_ITEM_LIST => match parent? {
            IMPL | TRAIT => items::assoc_item_list,
            _ => return None,
        },
        ITEM_LIST => items::item_list,
        _ => return None,
    };
    Some(res)
}

#[derive(Clone, Copy, PartialEq, Eq)]
enum BlockLike {
    Block,
    NotBlock,
}

impl BlockLike {
    fn is_block(self) -> bool {
        self == BlockLike::Block
    }
}

fn opt_visibility(p: &mut Parser, in_tuple_field: bool) -> bool {
    match p.current() {
        T![pub] => {
            let m = p.start();
            p.bump(T![pub]);
            if p.at(T!['(']) {
                match p.nth(1) {
                    // test crate_visibility
                    // pub(crate) struct S;
                    // pub(self) struct S;
                    // pub(super) struct S;

                    // test pub_parens_typepath
                    // struct B(pub (super::A));
                    // struct B(pub (crate::A,));
                    T![crate] | T![self] | T![super] | T![ident] if p.nth(2) != T![:] => {
                        // If we are in a tuple struct, then the parens following `pub`
                        // might be an tuple field, not part of the visibility. So in that
                        // case we don't want to consume an identifier.

                        // test pub_tuple_field
                        // struct MyStruct(pub (u32, u32));
                        if !(in_tuple_field && matches!(p.nth(1), T![ident])) {
                            p.bump(T!['(']);
                            paths::use_path(p);
                            p.expect(T![')']);
                        }
                    }
                    // test crate_visibility_in
                    // pub(in super::A) struct S;
                    // pub(in crate) struct S;
                    T![in] => {
                        p.bump(T!['(']);
                        p.bump(T![in]);
                        paths::use_path(p);
                        p.expect(T![')']);
                    }
                    _ => (),
                }
            }
            m.complete(p, VISIBILITY);
            true
        }
        // test crate_keyword_vis
        // crate fn main() { }
        // struct S { crate field: u32 }
        // struct T(crate u32);
        T![crate] => {
            if p.nth_at(1, T![::]) {
                // test crate_keyword_path
                // fn foo() { crate::foo(); }
                return false;
            }
            let m = p.start();
            p.bump(T![crate]);
            m.complete(p, VISIBILITY);
            true
        }
        _ => false,
    }
}

fn opt_rename(p: &mut Parser) {
    if p.at(T![as]) {
        let m = p.start();
        p.bump(T![as]);
        if !p.eat(T![_]) {
            name(p);
        }
        m.complete(p, RENAME);
    }
}

fn abi(p: &mut Parser) {
    assert!(p.at(T![extern]));
    let abi = p.start();
    p.bump(T![extern]);
    p.eat(STRING);
    abi.complete(p, ABI);
}

fn opt_ret_type(p: &mut Parser) -> bool {
    if p.at(T![->]) {
        let m = p.start();
        p.bump(T![->]);
        types::type_no_bounds(p);
        m.complete(p, RET_TYPE);
        true
    } else {
        false
    }
}

fn name_r(p: &mut Parser, recovery: TokenSet) {
    if p.at(IDENT) {
        let m = p.start();
        p.bump(IDENT);
        m.complete(p, NAME);
    } else {
        p.err_recover("expected a name", recovery);
    }
}

fn name(p: &mut Parser) {
    name_r(p, TokenSet::EMPTY);
}

fn name_ref(p: &mut Parser) {
    if p.at(IDENT) {
        let m = p.start();
        p.bump(IDENT);
        m.complete(p, NAME_REF);
    } else {
        p.err_and_bump("expected identifier");
    }
}

fn name_ref_or_index(p: &mut Parser) {
    assert!(p.at(IDENT) || p.at(INT_NUMBER));
    let m = p.start();
    p.bump_any();
    m.complete(p, NAME_REF);
}

fn lifetime(p: &mut Parser) {
    assert!(p.at(LIFETIME_IDENT));
    let m = p.start();
    p.bump(LIFETIME_IDENT);
    m.complete(p, LIFETIME);
}

fn error_block(p: &mut Parser, message: &str) {
    assert!(p.at(T!['{']));
    let m = p.start();
    p.error(message);
    p.bump(T!['{']);
    expressions::expr_block_contents(p);
    p.eat(T!['}']);
    m.complete(p, ERROR);
}
Document how the parsing works 2018-02-11 17:58:22 +03:00			`//! This is the actual "grammar" of the Rust language.`
			`//!`
			`//! Each function in this module and its children corresponds`
fix(ra_parser.typo): amend 'format language' to 'formal language' 2020-01-15 23:29:55 +02:00			`//! to a production of the formal grammar. Submodules roughly`
Document how the parsing works 2018-02-11 17:58:22 +03:00			`//! correspond to different areas of the grammar. By convention,`
			//! each submodule starts with `use super::*` import and exports
			//! "public" productions via `pub(super)`.
			`//!`
tree-wide: fix rustdoc warnings, add some links 2021-08-03 20:57:31 -07:00			//! See docs for [`Parser`](super::parser::Parser) to learn about API,
			//! available to the grammar, and see docs for [`Event`](super::event::Event)
			`//! to learn how this actually manages to produce parse trees.`
Document how the parsing works 2018-02-11 17:58:22 +03:00			`//!`
			`//! Code in this module also contains inline tests, which start with`
			//! `// test name-of-the-test` comment and look like this:
			`//!`
			//! ```
fn_item -> function 2018-08-09 17:44:40 +03:00			`//! // test function_with_zero_parameters`
Document how the parsing works 2018-02-11 17:58:22 +03:00			`//! // fn foo() {}`
			//! ```
			`//!`
Fix remaining references to `cargo xtask codegen` 2021-03-12 15:10:33 +01:00			//! After adding a new inline-test, run `cargo test -p xtask` to
Update a comment for the new source organization 2020-05-31 16:04:52 -07:00			`//! extract it as a standalone text-fixture into`
Rename ra_syntax -> syntax 2020-08-12 18:26:51 +02:00			//! `crates/syntax/test_data/parser/`, and run `cargo test` once to
Update a comment for the new source organization 2020-05-31 16:04:52 -07:00			`//! create the "gold" value.`
grammar: for predicates in where closes #191 2018-11-05 11:24:02 +03:00			`//!`
			//! Coding convention: rules like `where_clause` always produce either a
			//! node or an error, rules like `opt_where_clause` may produce nothing.
			//! Non-opt rules typically start with `assert!(p.at(FIRST_TOKEN))`, the
			`//! caller is responsible for branching on the first token.`
Add even more docs 2021-05-22 17:20:22 +03:00
Split into modules 2018-01-07 21:46:10 +03:00			`mod attributes;`
			`mod expressions;`
reformat 2018-07-30 14:08:06 +03:00			`mod items;`
reorganize 2018-07-31 23:38:19 +03:00			`mod params;`
G: simplest use items 2018-01-09 23:32:18 +03:00			`mod paths;`
reformat 2018-07-30 14:08:06 +03:00			`mod patterns;`
internal: better naming 2021-09-18 15:54:55 +03:00			`mod generic_args;`
			`mod generic_params;`
reformat 2018-07-30 14:08:06 +03:00			`mod types;`
Parser: guess what? Groundwork! 2018-01-01 18:58:46 +03:00
Cargo Format Run `cargo fmt` and ignore generated files 2018-10-15 17:44:23 -04:00			`use crate::{`
allow rustfmt to reorder imports This wasn't a right decision in the first place, the feature flag was broken in the last rustfmt release, and syntax highlighting of imports is more important anyway 2019-07-04 23:05:17 +03:00			`parser::{CompletedMarker, Marker, Parser},`
Cargo Format Run `cargo fmt` and ignore generated files 2018-10-15 17:44:23 -04:00			`SyntaxKind::{self, *},`
minor: modernize 2021-09-06 18:42:07 +03:00			`TokenSet, T,`
Cargo Format Run `cargo fmt` and ignore generated files 2018-10-15 17:44:23 -04:00			`};`
Reorganize 2018-07-29 15:16:07 +03:00
internal: make name consistent with usage 2021-09-06 18:34:03 +03:00			`pub(crate) mod entry_points {`
cleanup 2019-09-02 17:37:48 +03:00			`use super::*;`
Add MacroItems and MacroStmts in grammer.ron 2019-04-19 02:47:29 +08:00
internal: make name consistent with usage 2021-09-06 18:34:03 +03:00			`pub(crate) fn source_file(p: &mut Parser) {`
			`let m = p.start();`
			`p.eat(SHEBANG);`
			`items::mod_contents(p, false);`
			`m.complete(p, SOURCE_FILE);`
			`}`

			`pub(crate) use expressions::block_expr;`

			`pub(crate) use paths::type_path as path;`

			`pub(crate) use patterns::pattern_single as pattern;`

			`pub(crate) use types::type_;`
Add expr, pat, ty and macro_stmts 2019-04-19 03:49:56 +08:00
cleanup 2019-09-02 17:37:48 +03:00			`pub(crate) fn expr(p: &mut Parser) {`
feat: allow attributes on all expressions Attrs are syntactically valid on any expression, even if they are not allowed semantically everywhere yet. 2021-09-25 19:51:54 +03:00			`let _ = expressions::expr(p);`
Add expr, pat, ty and macro_stmts 2019-04-19 03:49:56 +08:00			`}`

simplify 2019-09-02 18:51:03 +03:00			`pub(crate) fn stmt(p: &mut Parser) {`
Add semicolons for consistency `clippy::semicolon_if_nothing_returned` 2021-10-03 23:39:43 +11:00			`expressions::stmt(p, expressions::StmtWithSemi::No, true);`
cleanup 2019-09-02 17:37:48 +03:00			`}`
Fix bug and add expr , pat , ty matcher 2019-04-13 18:38:31 +08:00
parser,syntax: Add separate parser for stmt with optional semicolon Adjusting `grammar::fragments::stmt` to Optional or Yes will break original functionality and tests. 2020-11-17 20:02:46 +01:00			`pub(crate) fn stmt_optional_semi(p: &mut Parser) {`
Add semicolons for consistency `clippy::semicolon_if_nothing_returned` 2021-10-03 23:39:43 +11:00			`expressions::stmt(p, expressions::StmtWithSemi::Optional, false);`
parser,syntax: Add separate parser for stmt with optional semicolon Adjusting `grammar::fragments::stmt` to Optional or Yes will break original functionality and tests. 2020-11-17 20:02:46 +01:00			`}`

internal: make name consistent with usage 2021-09-06 18:34:03 +03:00			`pub(crate) fn visibility(p: &mut Parser) {`
Handle pub tuple fields in tuple structs The current implementation will throw a parser error for tuple structs that contain a pub tuple field. For example, ```rust struct Foo(pub (u32, u32)); ``` is valid Rust, but rust-analyzer will throw a parser error. This is because the parens after `pub` is treated as a visibility context. Allowing a tuple type to follow `pub` in the special case when we are defining fields in a tuple struct can fix the issue. 2021-11-03 23:57:46 +01:00			`let _ = opt_visibility(p, false);`
cleanup 2019-09-02 17:37:48 +03:00			`}`
Fix bug and add expr , pat , ty matcher 2019-04-13 18:38:31 +08:00
cleanup 2019-09-02 17:37:48 +03:00			`// Parse a meta item , which excluded [], e.g : #[ MetaItem ]`
			`pub(crate) fn meta_item(p: &mut Parser) {`
Handle extended key value attr in mbe 2021-04-17 14:31:52 +08:00			`attributes::meta(p);`
cleanup 2019-09-02 17:37:48 +03:00			`}`
Add block matcher 2019-04-19 18:30:43 +08:00
cleanup 2019-09-02 17:37:48 +03:00			`pub(crate) fn item(p: &mut Parser) {`
Add semicolons for consistency `clippy::semicolon_if_nothing_returned` 2021-10-03 23:39:43 +11:00			`items::item_or_macro(p, true);`
add block matcher 2019-04-19 19:33:29 +08:00			`}`

cleanup 2019-09-02 17:37:48 +03:00			`pub(crate) fn macro_items(p: &mut Parser) {`
			`let m = p.start();`
			`items::mod_contents(p, false);`
			`m.complete(p, MACRO_ITEMS);`
add block matcher 2019-04-19 19:33:29 +08:00			`}`

cleanup 2019-09-02 17:37:48 +03:00			`pub(crate) fn macro_stmts(p: &mut Parser) {`
			`let m = p.start();`

			`while !p.at(EOF) {`
tiny simplification 2019-09-09 13:23:37 +03:00			`if p.at(T![;]) {`
introduce bump as a better-checked alternative to bump_any 2019-09-10 01:03:00 +03:00			`p.bump(T![;]);`
cleanup 2019-09-02 17:37:48 +03:00			`continue;`
Fix more bugs 2019-04-25 23:12:57 +08:00			`}`
cleanup 2019-09-02 17:37:48 +03:00
Fix macro expansion for statements w/o semicolon 2021-03-16 13:44:50 +08:00			`expressions::stmt(p, expressions::StmtWithSemi::Optional, true);`
add block matcher 2019-04-19 19:33:29 +08:00			`}`

cleanup 2019-09-02 17:37:48 +03:00			`m.complete(p, MACRO_STMTS);`
			`}`
Implement `RawAttr::filter` 2020-12-18 18:58:42 +01:00
			`pub(crate) fn attr(p: &mut Parser) {`
Add semicolons for consistency `clippy::semicolon_if_nothing_returned` 2021-10-03 23:39:43 +11:00			`attributes::outer_attrs(p);`
Implement `RawAttr::filter` 2020-12-18 18:58:42 +01:00			`}`
Add `item` matcher in mbe 2019-04-18 10:21:36 +08:00			`}`

move parser to a separate crate 2019-02-21 13:27:45 +03:00			`pub(crate) fn reparser(`
make grammar independent of syntax tree 2019-02-21 12:12:04 +03:00			`node: SyntaxKind,`
			`first_child: Option<SyntaxKind>,`
			`parent: Option<SyntaxKind>,`
			`) -> Option<fn(&mut Parser)> {`
			`let res = match node {`
Fix parsing of blocks without `{` 2020-05-02 14:34:39 +02:00			`BLOCK_EXPR => expressions::block_expr,`
Align parser names with grammar 2020-08-13 17:58:35 +02:00			`RECORD_FIELD_LIST => items::record_field_list,`
			`RECORD_EXPR_FIELD_LIST => items::record_expr_field_list,`
			`VARIANT_LIST => items::variant_list,`
move reparsers to grammar 2019-02-20 16:02:06 +03:00			`MATCH_ARM_LIST => items::match_arm_list,`
			`USE_TREE_LIST => items::use_tree_list,`
			`EXTERN_ITEM_LIST => items::extern_item_list,`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`TOKEN_TREE if first_child? == T!['{'] => items::token_tree,`
Update tests 2020-07-30 11:48:19 +02:00			`ASSOC_ITEM_LIST => match parent? {`
Fix miscellaneous Clippy lints 2021-10-03 23:45:08 +11:00			`IMPL \| TRAIT => items::assoc_item_list,`
make grammar independent of syntax tree 2019-02-21 12:12:04 +03:00			`_ => return None,`
			`},`
Align parser names with grammar 2020-08-13 17:58:35 +02:00			`ITEM_LIST => items::item_list,`
move reparsers to grammar 2019-02-20 16:02:06 +03:00			`_ => return None,`
			`};`
			`Some(res)`
			`}`

semis after blcoks 2018-08-07 16:32:09 +03:00			`#[derive(Clone, Copy, PartialEq, Eq)]`
Generalize blocklike 2018-08-07 16:11:40 +03:00			`enum BlockLike {`
			`Block,`
			`NotBlock,`
			`}`

semis after blcoks 2018-08-07 16:32:09 +03:00			`impl BlockLike {`
Cargo Format Run `cargo fmt` and ignore generated files 2018-10-15 17:44:23 -04:00			`fn is_block(self) -> bool {`
			`self == BlockLike::Block`
			`}`
semis after blcoks 2018-08-07 16:32:09 +03:00			`}`

Handle pub tuple fields in tuple structs The current implementation will throw a parser error for tuple structs that contain a pub tuple field. For example, ```rust struct Foo(pub (u32, u32)); ``` is valid Rust, but rust-analyzer will throw a parser error. This is because the parens after `pub` is treated as a visibility context. Allowing a tuple type to follow `pub` in the special case when we are defining fields in a tuple struct can fix the issue. 2021-11-03 23:57:46 +01:00			`fn opt_visibility(p: &mut Parser, in_tuple_field: bool) -> bool {`
Support crate vis 2018-08-08 22:09:47 +03:00			`match p.current() {`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`T![pub] => {`
Support crate vis 2018-08-08 22:09:47 +03:00			`let m = p.start();`
introduce bump as a better-checked alternative to bump_any 2019-09-10 01:03:00 +03:00			`p.bump(T![pub]);`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`if p.at(T!['(']) {`
Support crate vis 2018-08-08 22:09:47 +03:00			`match p.nth(1) {`
			`// test crate_visibility`
			`// pub(crate) struct S;`
			`// pub(self) struct S;`
Wrap remaining self/super/crate in Name{Ref} 2021-01-15 21:07:38 +01:00			`// pub(super) struct S;`
Don't interpret type path as part of visibility. 2020-10-23 02:06:04 -04:00
			`// test pub_parens_typepath`
			`// struct B(pub (super::A));`
			`// struct B(pub (crate::A,));`
Restrict completions inside visibility modifiers 2021-07-20 18:37:52 +02:00			`T![crate] \| T![self] \| T![super] \| T![ident] if p.nth(2) != T![:] => {`
Handle pub tuple fields in tuple structs The current implementation will throw a parser error for tuple structs that contain a pub tuple field. For example, ```rust struct Foo(pub (u32, u32)); ``` is valid Rust, but rust-analyzer will throw a parser error. This is because the parens after `pub` is treated as a visibility context. Allowing a tuple type to follow `pub` in the special case when we are defining fields in a tuple struct can fix the issue. 2021-11-03 23:57:46 +01:00			// If we are in a tuple struct, then the parens following `pub`
			`// might be an tuple field, not part of the visibility. So in that`
			`// case we don't want to consume an identifier.`

			`// test pub_tuple_field`
			`// struct MyStruct(pub (u32, u32));`
			`if !(in_tuple_field && matches!(p.nth(1), T![ident])) {`
			`p.bump(T!['(']);`
			`paths::use_path(p);`
			`p.expect(T![')']);`
			`}`
Support crate vis 2018-08-08 22:09:47 +03:00			`}`
Wrap remaining self/super/crate in Name{Ref} 2021-01-15 21:07:38 +01:00			`// test crate_visibility_in`
			`// pub(in super::A) struct S;`
			`// pub(in crate) struct S;`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`T![in] => {`
minor: cleanup 2021-09-17 23:27:26 +03:00			`p.bump(T!['(']);`
			`p.bump(T![in]);`
Support crate vis 2018-08-08 22:09:47 +03:00			`paths::use_path(p);`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`p.expect(T![')']);`
Support crate vis 2018-08-08 22:09:47 +03:00			`}`
			`_ => (),`
Drop high-order combinators 2018-01-20 17:21:13 +03:00			`}`
G: visibility 2018-01-12 22:05:46 +03:00			`}`
Support crate vis 2018-08-08 22:09:47 +03:00			`m.complete(p, VISIBILITY);`
minor: parser cleanup 2021-09-18 00:14:20 +03:00			`true`
G: visibility 2018-01-12 22:05:46 +03:00			`}`
Support crate vis 2018-08-08 22:09:47 +03:00			`// test crate_keyword_vis`
			`// crate fn main() { }`
Use Marker argument for item parsers - Fix pub_expr - Fix incorrect parsing of crate::path 2019-03-18 14:34:08 +09:00			`// struct S { crate field: u32 }`
			`// struct T(crate u32);`
internal: fix bugs in tests by simplifying code 2021-09-13 13:28:00 +03:00			`T![crate] => {`
			`if p.nth_at(1, T![::]) {`
			`// test crate_keyword_path`
			`// fn foo() { crate::foo(); }`
			`return false;`
			`}`
Support crate vis 2018-08-08 22:09:47 +03:00			`let m = p.start();`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(T![crate]);`
Support crate vis 2018-08-08 22:09:47 +03:00			`m.complete(p, VISIBILITY);`
minor: parser cleanup 2021-09-18 00:14:20 +03:00			`true`
Support crate vis 2018-08-08 22:09:47 +03:00			`}`
minor: parser cleanup 2021-09-18 00:14:20 +03:00			`_ => false,`
Drop high-order combinators 2018-01-20 17:21:13 +03:00			`}`
Parser: guess what? Groundwork! 2018-01-01 18:58:46 +03:00			`}`
better self-types 2018-08-24 01:19:38 +03:00
Align parser names with grammar 2020-08-13 17:58:35 +02:00			`fn opt_rename(p: &mut Parser) {`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`if p.at(T![as]) {`
better self-types 2018-08-24 01:19:38 +03:00			`let m = p.start();`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(T![as]);`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`if !p.eat(T![_]) {`
allow aliases in underscores this helps with use foo::Trait as _; syntax 2019-03-04 16:38:54 +03:00			`name(p);`
			`}`
Rename Rename 2020-07-30 11:58:41 +02:00			`m.complete(p, RENAME);`
Drop high-order combinators 2018-01-20 17:21:13 +03:00			`}`
G: extern crate 2018-01-09 00:06:42 +03:00			`}`

G: fn pointer type 2018-02-11 12:51:09 +03:00			`fn abi(p: &mut Parser) {`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`assert!(p.at(T![extern]));`
G: fn pointer type 2018-02-11 12:51:09 +03:00			`let abi = p.start();`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(T![extern]);`
Kill RAW_ literals Syntactically, they are indistinguishable from non-raw versions, so it doesn't make sense to separate then at the syntax level. 2020-11-06 22:21:56 +01:00			`p.eat(STRING);`
G: fn pointer type 2018-02-11 12:51:09 +03:00			`abi.complete(p, ABI);`
			`}`

Align parser names with grammar 2020-08-13 17:58:35 +02:00			`fn opt_ret_type(p: &mut Parser) -> bool {`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`if p.at(T![->]) {`
Add ret type 2018-08-28 21:11:17 +03:00			`let m = p.start();`
WIP: switch to fully decomposed tokens internally 2019-09-09 14:52:31 +03:00			`p.bump(T![->]);`
Parse correctly fn f<T>() where T: Fn() -> u8 + Send {} We used to parse it as T: Fn() -> (u8 + Send), which is different from the rustc behavior of T: (Fn() -> u8) + Send 2020-04-03 21:12:10 +02:00			`types::type_no_bounds(p);`
Add ret type 2018-08-28 21:11:17 +03:00			`m.complete(p, RET_TYPE);`
lambda expressions 2018-07-31 23:13:08 +03:00			`true`
			`} else {`
			`false`
G: fn pointer type 2018-02-11 12:51:09 +03:00			`}`
			`}`

start item recovery 2018-08-31 13:35:48 +03:00			`fn name_r(p: &mut Parser, recovery: TokenSet) {`
G: introduce names 2018-02-10 14:00:23 +03:00			`if p.at(IDENT) {`
			`let m = p.start();`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(IDENT);`
G: introduce names 2018-02-10 14:00:23 +03:00			`m.complete(p, NAME);`
			`} else {`
start item recovery 2018-08-31 13:35:48 +03:00			`p.err_recover("expected a name", recovery);`
G: introduce names 2018-02-10 14:00:23 +03:00			`}`
			`}`

start item recovery 2018-08-31 13:35:48 +03:00			`fn name(p: &mut Parser) {`
Add semicolons for consistency `clippy::semicolon_if_nothing_returned` 2021-10-03 23:39:43 +11:00			`name_r(p, TokenSet::EMPTY);`
start item recovery 2018-08-31 13:35:48 +03:00			`}`

Move numeric names inside of `NameRef` 2019-08-09 12:16:47 +02:00			`fn name_ref(p: &mut Parser) {`
			`if p.at(IDENT) {`
G: use name refs in paths 2018-02-10 14:17:38 +03:00			`let m = p.start();`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(IDENT);`
G: use name refs in paths 2018-02-10 14:17:38 +03:00			`m.complete(p, NAME_REF);`
			`} else {`
Safer errors 2018-08-13 18:30:56 +03:00			`p.err_and_bump("expected identifier");`
G: use name refs in paths 2018-02-10 14:17:38 +03:00			`}`
			`}`

Move numeric names inside of `NameRef` 2019-08-09 12:16:47 +02:00			`fn name_ref_or_index(p: &mut Parser) {`
Remove dead code 2020-04-11 23:08:05 +02:00			`assert!(p.at(IDENT) \|\| p.at(INT_NUMBER));`
			`let m = p.start();`
			`p.bump_any();`
			`m.complete(p, NAME_REF);`
Move numeric names inside of `NameRef` 2019-08-09 12:16:47 +02:00			`}`

Node-ify lifetimes 2020-12-15 19:23:51 +01:00			`fn lifetime(p: &mut Parser) {`
			`assert!(p.at(LIFETIME_IDENT));`
			`let m = p.start();`
			`p.bump(LIFETIME_IDENT);`
			`m.complete(p, LIFETIME);`
			`}`

Skip over balanced parens 2018-01-28 20:48:37 +03:00			`fn error_block(p: &mut Parser, message: &str) {`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`assert!(p.at(T!['{']));`
improve error recovery parse the contents of error block as an expression 2019-03-04 14:24:02 +03:00			`let m = p.start();`
			`p.error(message);`
Replace usages of bump_any with bump 2019-09-19 15:51:46 -04:00			`p.bump(T!['{']);`
improve error recovery parse the contents of error block as an expression 2019-03-04 14:24:02 +03:00			`expressions::expr_block_contents(p);`
apply T! macro where it is possible 2019-05-15 15:35:47 +03:00			`p.eat(T!['}']);`
improve error recovery parse the contents of error block as an expression 2019-03-04 14:24:02 +03:00			`m.complete(p, ERROR);`
Skip over balanced parens 2018-01-28 20:48:37 +03:00			`}`