use super::*;
// test use_item
// use std::collections;
pub(super) fn use_(p: &mut Parser<'_>, m: Marker) {
p.bump(T![use]);
use_tree(p, true);
p.expect(T![;]);
m.complete(p, USE);
}
// test use_tree
// use outer::tree::{inner::tree};
fn use_tree(p: &mut Parser<'_>, top_level: bool) {
let m = p.start();
match p.current() {
// test use_tree_star
// use *;
// use std::{*};
T![*] => p.bump(T![*]),
// test use_tree_abs_star
// use ::*;
// use std::{::*};
T![:] if p.at(T![::]) && p.nth(2) == T![*] => {
p.bump(T![::]);
p.bump(T![*]);
}
T!['{'] => use_tree_list(p),
T![:] if p.at(T![::]) && p.nth(2) == T!['{'] => {
p.bump(T![::]);
use_tree_list(p);
}
// test use_tree_path
// use ::std;
// use std::collections;
//
// use self::m;
// use super::m;
// use crate::m;
_ if paths::is_use_path_start(p) => {
paths::use_path(p);
match p.current() {
// test use_tree_alias
// use std as stdlib;
// use Trait as _;
T![as] => opt_rename(p),
T![:] if p.at(T![::]) => {
p.bump(T![::]);
match p.current() {
// test use_tree_path_star
// use std::*;
T![*] => p.bump(T![*]),
// test use_tree_path_use_tree
// use std::{collections};
T!['{'] => use_tree_list(p),
_ => p.error("expected `{` or `*`"),
}
}
_ => (),
}
}
_ => {
m.abandon(p);
let msg = "expected one of `*`, `::`, `{`, `self`, `super` or an identifier";
if top_level {
p.err_recover(msg, ITEM_RECOVERY_SET);
} else {
// if we are parsing a nested tree, we have to eat a token to
// main balanced `{}`
p.err_and_bump(msg);
}
return;
}
}
m.complete(p, USE_TREE);
}
// test use_tree_list
// use {a, b, c};
pub(crate) fn use_tree_list(p: &mut Parser<'_>) {
assert!(p.at(T!['{']));
let m = p.start();
p.bump(T!['{']);
while !p.at(EOF) && !p.at(T!['}']) {
use_tree(p, false);
if !p.at(T!['}']) {
p.expect(T![,]);
}
}
p.expect(T!['}']);
m.complete(p, USE_TREE_LIST);
}