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|
//! FIXME: write short doc here
mod consts;
mod adt;
mod traits;
mod use_item;
pub(crate) use self::{
adt::{enum_variant_list, record_field_def_list},
expressions::{match_arm_list, record_field_list},
traits::{impl_item_list, trait_item_list},
use_item::use_tree_list,
};
use super::*;
// test mod_contents
// fn foo() {}
// macro_rules! foo {}
// foo::bar!();
// super::baz! {}
// struct S;
pub(super) fn mod_contents(p: &mut Parser, stop_on_r_curly: bool) {
attributes::inner_attributes(p);
while !(stop_on_r_curly && p.at(T!['}']) || p.at(EOF)) {
item_or_macro(p, stop_on_r_curly, ItemFlavor::Mod)
}
}
pub(super) enum ItemFlavor {
Mod,
Trait,
}
pub(super) const ITEM_RECOVERY_SET: TokenSet = token_set![
FN_KW, STRUCT_KW, ENUM_KW, IMPL_KW, TRAIT_KW, CONST_KW, STATIC_KW, LET_KW, MOD_KW, PUB_KW,
CRATE_KW, USE_KW, MACRO_KW
];
pub(super) fn item_or_macro(p: &mut Parser, stop_on_r_curly: bool, flavor: ItemFlavor) {
let m = p.start();
attributes::outer_attributes(p);
let m = match maybe_item(p, m, flavor) {
Ok(()) => {
if p.at(T![;]) {
p.err_and_bump(
"expected item, found `;`\n\
consider removing this semicolon",
);
}
return;
}
Err(m) => m,
};
if paths::is_use_path_start(p) {
match macro_call(p) {
BlockLike::Block => (),
BlockLike::NotBlock => {
p.expect(T![;]);
}
}
m.complete(p, MACRO_CALL);
} else {
m.abandon(p);
if p.at(T!['{']) {
error_block(p, "expected an item");
} else if p.at(T!['}']) && !stop_on_r_curly {
let e = p.start();
p.error("unmatched `}`");
p.bump(T!['}']);
e.complete(p, ERROR);
} else if !p.at(EOF) && !p.at(T!['}']) {
p.err_and_bump("expected an item");
} else {
p.error("expected an item");
}
}
}
pub(super) fn maybe_item(p: &mut Parser, m: Marker, flavor: ItemFlavor) -> Result<(), Marker> {
// test_err pub_expr
// fn foo() { pub 92; }
let has_visibility = opt_visibility(p);
let m = match items_without_modifiers(p, m) {
Ok(()) => return Ok(()),
Err(m) => m,
};
let mut has_mods = false;
// modifiers
has_mods |= p.eat(T![const]);
// test_err async_without_semicolon
// fn foo() { let _ = async {} }
if p.at(T![async]) && p.nth(1) != T!['{'] && p.nth(1) != T![move] && p.nth(1) != T![|] {
p.eat(T![async]);
has_mods = true;
}
// test_err unsafe_block_in_mod
// fn foo(){} unsafe { } fn bar(){}
if p.at(T![unsafe]) && p.nth(1) != T!['{'] {
p.eat(T![unsafe]);
has_mods = true;
}
if p.at(T![extern]) {
has_mods = true;
abi(p);
}
if p.at(IDENT) && p.at_contextual_kw("auto") && p.nth(1) == T![trait] {
p.bump_remap(T![auto]);
has_mods = true;
}
if p.at(IDENT)
&& p.at_contextual_kw("default")
&& (match p.nth(1) {
T![impl] => true,
T![unsafe] => {
// test default_unsafe_impl
// default unsafe impl Foo {}
// test default_unsafe_fn
// impl T for Foo {
// default unsafe fn foo() {}
// }
if p.nth(2) == T![impl] || p.nth(2) == T![fn] {
p.bump_remap(T![default]);
p.bump(T![unsafe]);
has_mods = true;
}
false
}
T![fn] | T![type] | T![const] => {
if let ItemFlavor::Mod = flavor {
true
} else {
false
}
}
_ => false,
})
{
p.bump_remap(T![default]);
has_mods = true;
}
if p.at(IDENT) && p.at_contextual_kw("existential") && p.nth(1) == T![type] {
p.bump_remap(T![existential]);
has_mods = true;
}
// items
match p.current() {
// test async_fn
// async fn foo() {}
// test extern_fn
// extern fn foo() {}
// test const_fn
// const fn foo() {}
// test const_unsafe_fn
// const unsafe fn foo() {}
// test unsafe_extern_fn
// unsafe extern "C" fn foo() {}
// test unsafe_fn
// unsafe fn foo() {}
// test combined_fns
// async unsafe fn foo() {}
// const unsafe fn bar() {}
// test_err wrong_order_fns
// unsafe async fn foo() {}
// unsafe const fn bar() {}
T![fn] => {
fn_def(p);
m.complete(p, FN_DEF);
}
// test unsafe_trait
// unsafe trait T {}
// test auto_trait
// auto trait T {}
// test unsafe_auto_trait
// unsafe auto trait T {}
T![trait] => {
traits::trait_def(p);
m.complete(p, TRAIT_DEF);
}
// test unsafe_impl
// unsafe impl Foo {}
// test default_impl
// default impl Foo {}
// test_err default_fn_type
// trait T {
// default type T = Bar;
// default fn foo() {}
// }
// test default_fn_type
// impl T for Foo {
// default type T = Bar;
// default fn foo() {}
// }
T![const] => {
consts::const_def(p, m);
}
// test unsafe_default_impl
// unsafe default impl Foo {}
T![impl] => {
traits::impl_def(p);
m.complete(p, IMPL_DEF);
}
// test existential_type
// existential type Foo: Fn() -> usize;
T![type] => {
type_def(p, m);
}
_ => {
if !has_visibility && !has_mods {
return Err(m);
} else {
if has_mods {
p.error("expected existential, fn, trait or impl");
} else {
p.error("expected an item");
}
m.complete(p, ERROR);
}
}
}
Ok(())
}
fn items_without_modifiers(p: &mut Parser, m: Marker) -> Result<(), Marker> {
let la = p.nth(1);
match p.current() {
// test extern_crate
// extern crate foo;
T![extern] if la == T![crate] => extern_crate_item(p, m),
T![type] => {
type_def(p, m);
}
T![mod] => mod_item(p, m),
T![struct] => {
// test struct_items
// struct Foo;
// struct Foo {}
// struct Foo();
// struct Foo(String, usize);
// struct Foo {
// a: i32,
// b: f32,
// }
adt::struct_def(p, m);
}
// test pub_macro_def
// pub macro m($:ident) {}
T![macro] => {
macro_def(p, m);
}
IDENT if p.at_contextual_kw("union") && p.nth(1) == IDENT => {
// test union_items
// union Foo {}
// union Foo {
// a: i32,
// b: f32,
// }
adt::union_def(p, m);
}
T![enum] => adt::enum_def(p, m),
T![use] => use_item::use_item(p, m),
T![const] if (la == IDENT || la == T![_] || la == T![mut]) => consts::const_def(p, m),
T![static] => consts::static_def(p, m),
// test extern_block
// extern {}
T![extern]
if la == T!['{'] || ((la == STRING || la == RAW_STRING) && p.nth(2) == T!['{']) =>
{
abi(p);
extern_item_list(p);
m.complete(p, EXTERN_BLOCK);
}
_ => return Err(m),
};
Ok(())
}
fn extern_crate_item(p: &mut Parser, m: Marker) {
assert!(p.at(T![extern]));
p.bump(T![extern]);
assert!(p.at(T![crate]));
p.bump(T![crate]);
if p.at(T![self]) {
p.bump(T![self]);
} else {
name_ref(p);
}
opt_alias(p);
p.expect(T![;]);
m.complete(p, EXTERN_CRATE_ITEM);
}
pub(crate) fn extern_item_list(p: &mut Parser) {
assert!(p.at(T!['{']));
let m = p.start();
p.bump(T!['{']);
mod_contents(p, true);
p.expect(T!['}']);
m.complete(p, EXTERN_ITEM_LIST);
}
fn fn_def(p: &mut Parser) {
assert!(p.at(T![fn]));
p.bump(T![fn]);
name_r(p, ITEM_RECOVERY_SET);
// test function_type_params
// fn foo<T: Clone + Copy>(){}
type_params::opt_type_param_list(p);
if p.at(T!['(']) {
params::param_list_fn_def(p);
} else {
p.error("expected function arguments");
}
// test function_ret_type
// fn foo() {}
// fn bar() -> () {}
opt_fn_ret_type(p);
// test function_where_clause
// fn foo<T>() where T: Copy {}
type_params::opt_where_clause(p);
// test fn_decl
// trait T { fn foo(); }
if p.at(T![;]) {
p.bump(T![;]);
} else {
expressions::block_expr(p)
}
}
// test type_item
// type Foo = Bar;
fn type_def(p: &mut Parser, m: Marker) {
assert!(p.at(T![type]));
p.bump(T![type]);
name(p);
// test type_item_type_params
// type Result<T> = ();
type_params::opt_type_param_list(p);
if p.at(T![:]) {
type_params::bounds(p);
}
// test type_item_where_clause
// type Foo where Foo: Copy = ();
type_params::opt_where_clause(p);
if p.eat(T![=]) {
types::type_(p);
}
p.expect(T![;]);
m.complete(p, TYPE_ALIAS_DEF);
}
pub(crate) fn mod_item(p: &mut Parser, m: Marker) {
assert!(p.at(T![mod]));
p.bump(T![mod]);
name(p);
if p.at(T!['{']) {
mod_item_list(p);
} else if !p.eat(T![;]) {
p.error("expected `;` or `{`");
}
m.complete(p, MODULE);
}
pub(crate) fn mod_item_list(p: &mut Parser) {
assert!(p.at(T!['{']));
let m = p.start();
p.bump(T!['{']);
mod_contents(p, true);
p.expect(T!['}']);
m.complete(p, ITEM_LIST);
}
// test macro_def
// macro m { ($i:ident) => {} }
// macro m($i:ident) {}
fn macro_def(p: &mut Parser, m: Marker) {
p.expect(T![macro]);
name_r(p, ITEM_RECOVERY_SET);
if p.at(T!['{']) {
token_tree(p);
} else if !p.at(T!['(']) {
p.error("unmatched `(`");
} else {
let m = p.start();
token_tree(p);
match p.current() {
T!['{'] | T!['['] | T!['('] => token_tree(p),
_ => p.error("expected `{`, `[`, `(`"),
}
m.complete(p, TOKEN_TREE);
}
m.complete(p, MACRO_DEF);
}
fn macro_call(p: &mut Parser) -> BlockLike {
assert!(paths::is_use_path_start(p));
paths::use_path(p);
macro_call_after_excl(p)
}
pub(super) fn macro_call_after_excl(p: &mut Parser) -> BlockLike {
p.expect(T![!]);
if p.at(IDENT) {
name(p);
}
// Special-case `macro_rules! try`.
// This is a hack until we do proper edition support
// test try_macro_rules
// macro_rules! try { () => {} }
if p.at(T![try]) {
let m = p.start();
p.bump_remap(IDENT);
m.complete(p, NAME);
}
match p.current() {
T!['{'] => {
token_tree(p);
BlockLike::Block
}
T!['('] | T!['['] => {
token_tree(p);
BlockLike::NotBlock
}
_ => {
p.error("expected `{`, `[`, `(`");
BlockLike::NotBlock
}
}
}
pub(crate) fn token_tree(p: &mut Parser) {
let closing_paren_kind = match p.current() {
T!['{'] => T!['}'],
T!['('] => T![')'],
T!['['] => T![']'],
_ => unreachable!(),
};
let m = p.start();
p.bump_any();
while !p.at(EOF) && !p.at(closing_paren_kind) {
match p.current() {
T!['{'] | T!['('] | T!['['] => token_tree(p),
T!['}'] => {
p.error("unmatched `}`");
m.complete(p, TOKEN_TREE);
return;
}
T![')'] | T![']'] => p.err_and_bump("unmatched brace"),
_ => p.bump_any(),
}
}
p.expect(closing_paren_kind);
m.complete(p, TOKEN_TREE);
}
|