rust/crates/ide-assists/src/handlers/auto_import.rs

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use std::cmp::Reverse;
use hir::{db::HirDatabase, Module};
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use ide_db::{
helpers::mod_path_to_ast,
imports::{
import_assets::{ImportAssets, ImportCandidate, LocatedImport},
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insert_use::{insert_use, ImportScope},
},
};
use syntax::{ast, AstNode, NodeOrToken, SyntaxElement};
use crate::{AssistContext, AssistId, AssistKind, Assists, GroupLabel};
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// Feature: Auto Import
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//
// Using the `auto-import` assist it is possible to insert missing imports for unresolved items.
// When inserting an import it will do so in a structured manner by keeping imports grouped,
// separated by a newline in the following order:
//
// - `std` and `core`
// - External Crates
// - Current Crate, paths prefixed by `crate`
// - Current Module, paths prefixed by `self`
// - Super Module, paths prefixed by `super`
//
// Example:
// ```rust
// use std::fs::File;
//
// use itertools::Itertools;
// use syntax::ast;
//
// use crate::utils::insert_use;
//
// use self::auto_import;
//
// use super::AssistContext;
// ```
//
// .Import Granularity
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//
// It is possible to configure how use-trees are merged with the `imports.granularity.group` setting.
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// It has the following configurations:
//
// - `crate`: Merge imports from the same crate into a single use statement. This kind of
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// nesting is only supported in Rust versions later than 1.24.
// - `module`: Merge imports from the same module into a single use statement.
// - `item`: Don't merge imports at all, creating one import per item.
// - `preserve`: Do not change the granularity of any imports. For auto-import this has the same
// effect as `item`.
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//
// In `VS Code` the configuration for this is `rust-analyzer.imports.granularity.group`.
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//
// .Import Prefix
//
// The style of imports in the same crate is configurable through the `imports.prefix` setting.
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// It has the following configurations:
//
// - `crate`: This setting will force paths to be always absolute, starting with the `crate`
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// prefix, unless the item is defined outside of the current crate.
// - `self`: This setting will force paths that are relative to the current module to always
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// start with `self`. This will result in paths that always start with either `crate`, `self`,
// `super` or an extern crate identifier.
// - `plain`: This setting does not impose any restrictions in imports.
//
// In `VS Code` the configuration for this is `rust-analyzer.imports.prefix`.
//
// image::https://user-images.githubusercontent.com/48062697/113020673-b85be580-917a-11eb-9022-59585f35d4f8.gif[]
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// Assist: auto_import
//
// If the name is unresolved, provides all possible imports for it.
//
// ```
// fn main() {
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// let map = HashMap$0::new();
// }
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// # pub mod std { pub mod collections { pub struct HashMap { } } }
// ```
// ->
// ```
// use std::collections::HashMap;
//
// fn main() {
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// let map = HashMap::new();
// }
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// # pub mod std { pub mod collections { pub struct HashMap { } } }
// ```
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pub(crate) fn auto_import(acc: &mut Assists, ctx: &AssistContext<'_>) -> Option<()> {
let (import_assets, syntax_under_caret) = find_importable_node(ctx)?;
let mut proposed_imports = import_assets.search_for_imports(
&ctx.sema,
ctx.config.insert_use.prefix_kind,
ctx.config.prefer_no_std,
);
if proposed_imports.is_empty() {
return None;
}
let range = match &syntax_under_caret {
NodeOrToken::Node(node) => ctx.sema.original_range(node).range,
NodeOrToken::Token(token) => token.text_range(),
};
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let group_label = group_label(import_assets.import_candidate());
let scope = ImportScope::find_insert_use_container(
&match syntax_under_caret {
NodeOrToken::Node(it) => it,
NodeOrToken::Token(it) => it.parent()?,
},
&ctx.sema,
)?;
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// we aren't interested in different namespaces
proposed_imports.dedup_by(|a, b| a.import_path == b.import_path);
let current_node = match ctx.covering_element() {
NodeOrToken::Node(node) => Some(node),
NodeOrToken::Token(token) => token.parent(),
};
let current_module =
current_node.as_ref().and_then(|node| ctx.sema.scope(node)).map(|scope| scope.module());
// prioritize more relevant imports
proposed_imports
.sort_by_key(|import| Reverse(relevance_score(ctx, import, current_module.as_ref())));
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for import in proposed_imports {
acc.add_group(
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&group_label,
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AssistId("auto_import", AssistKind::QuickFix),
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format!("Import `{}`", import.import_path),
range,
|builder| {
let scope = match scope.clone() {
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ImportScope::File(it) => ImportScope::File(builder.make_mut(it)),
ImportScope::Module(it) => ImportScope::Module(builder.make_mut(it)),
ImportScope::Block(it) => ImportScope::Block(builder.make_mut(it)),
};
insert_use(&scope, mod_path_to_ast(&import.import_path), &ctx.config.insert_use);
},
);
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}
Some(())
}
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pub(super) fn find_importable_node(
ctx: &AssistContext<'_>,
) -> Option<(ImportAssets, SyntaxElement)> {
if let Some(path_under_caret) = ctx.find_node_at_offset_with_descend::<ast::Path>() {
ImportAssets::for_exact_path(&path_under_caret, &ctx.sema)
.zip(Some(path_under_caret.syntax().clone().into()))
} else if let Some(method_under_caret) =
ctx.find_node_at_offset_with_descend::<ast::MethodCallExpr>()
{
ImportAssets::for_method_call(&method_under_caret, &ctx.sema)
.zip(Some(method_under_caret.syntax().clone().into()))
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} else if let Some(pat) = ctx
.find_node_at_offset_with_descend::<ast::IdentPat>()
.filter(ast::IdentPat::is_simple_ident)
{
ImportAssets::for_ident_pat(&ctx.sema, &pat).zip(Some(pat.syntax().clone().into()))
} else {
None
}
}
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fn group_label(import_candidate: &ImportCandidate) -> GroupLabel {
let name = match import_candidate {
ImportCandidate::Path(candidate) => format!("Import {}", candidate.name.text()),
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ImportCandidate::TraitAssocItem(candidate) => {
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format!("Import a trait for item {}", candidate.assoc_item_name.text())
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}
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ImportCandidate::TraitMethod(candidate) => {
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format!("Import a trait for method {}", candidate.assoc_item_name.text())
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}
};
GroupLabel(name)
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}
/// Determine how relevant a given import is in the current context. Higher scores are more
/// relevant.
fn relevance_score(
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ctx: &AssistContext<'_>,
import: &LocatedImport,
current_module: Option<&Module>,
) -> i32 {
let mut score = 0;
let db = ctx.db();
let item_module = match import.item_to_import {
hir::ItemInNs::Types(item) | hir::ItemInNs::Values(item) => item.module(db),
hir::ItemInNs::Macros(makro) => Some(makro.module(db)),
};
match item_module.zip(current_module) {
// get the distance between the imported path and the current module
// (prefer items that are more local)
Some((item_module, current_module)) => {
score -= module_distance_hueristic(db, &current_module, &item_module) as i32;
}
// could not find relevant modules, so just use the length of the path as an estimate
None => return -(2 * import.import_path.len() as i32),
}
score
}
/// A heuristic that gives a higher score to modules that are more separated.
fn module_distance_hueristic(db: &dyn HirDatabase, current: &Module, item: &Module) -> usize {
// get the path starting from the item to the respective crate roots
let mut current_path = current.path_to_root(db);
let mut item_path = item.path_to_root(db);
// we want paths going from the root to the item
current_path.reverse();
item_path.reverse();
// length of the common prefix of the two paths
let prefix_length = current_path.iter().zip(&item_path).take_while(|(a, b)| a == b).count();
// how many modules differ between the two paths (all modules, removing any duplicates)
let distinct_length = current_path.len() + item_path.len() - 2 * prefix_length;
// cost of importing from another crate
let crate_boundary_cost = if current.krate() == item.krate() {
0
} else if item.krate().is_builtin(db) {
2
} else {
4
};
distinct_length + crate_boundary_cost
}
#[cfg(test)]
mod tests {
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use super::*;
use hir::Semantics;
use ide_db::{
assists::AssistResolveStrategy,
base_db::{fixture::WithFixture, FileRange},
RootDatabase,
};
use crate::tests::{
check_assist, check_assist_not_applicable, check_assist_target, TEST_CONFIG,
};
fn check_auto_import_order(before: &str, order: &[&str]) {
let (db, file_id, range_or_offset) = RootDatabase::with_range_or_offset(before);
let frange = FileRange { file_id, range: range_or_offset.into() };
let sema = Semantics::new(&db);
let config = TEST_CONFIG;
let ctx = AssistContext::new(sema, &config, frange);
let mut acc = Assists::new(&ctx, AssistResolveStrategy::All);
auto_import(&mut acc, &ctx);
let assists = acc.finish();
let labels = assists.iter().map(|assist| assist.label.to_string()).collect::<Vec<_>>();
assert_eq!(labels, order);
}
#[test]
fn prefer_shorter_paths() {
let before = r"
//- /main.rs crate:main deps:foo,bar
HashMap$0::new();
//- /lib.rs crate:foo
pub mod collections { pub struct HashMap; }
//- /lib.rs crate:bar
pub mod collections { pub mod hash_map { pub struct HashMap; } }
";
check_auto_import_order(
before,
&["Import `foo::collections::HashMap`", "Import `bar::collections::hash_map::HashMap`"],
)
}
#[test]
fn prefer_same_crate() {
let before = r"
//- /main.rs crate:main deps:foo
HashMap$0::new();
mod collections {
pub mod hash_map {
pub struct HashMap;
}
}
//- /lib.rs crate:foo
pub struct HashMap;
";
check_auto_import_order(
before,
&["Import `collections::hash_map::HashMap`", "Import `foo::HashMap`"],
)
}
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#[test]
fn not_applicable_if_scope_inside_macro() {
check_assist_not_applicable(
auto_import,
r"
mod bar {
pub struct Baz;
}
macro_rules! foo {
($it:ident) => {
mod __ {
fn __(x: $it) {}
}
};
}
foo! {
Baz$0
}
",
);
}
#[test]
fn applicable_in_attributes() {
check_assist(
auto_import,
r"
//- proc_macros: identity
#[proc_macros::identity]
mod foo {
mod bar {
const _: Baz$0 = ();
}
}
mod baz {
pub struct Baz;
}
",
r"
#[proc_macros::identity]
mod foo {
mod bar {
use crate::baz::Baz;
const _: Baz = ();
}
}
mod baz {
pub struct Baz;
}
",
);
}
#[test]
fn applicable_when_found_an_import_partial() {
check_assist(
auto_import,
r"
mod std {
pub mod fmt {
pub struct Formatter;
}
}
use std::fmt;
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$0Formatter
",
r"
mod std {
pub mod fmt {
pub struct Formatter;
}
}
use std::fmt::{self, Formatter};
Formatter
",
);
}
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#[test]
fn applicable_when_found_an_import() {
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check_assist(
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auto_import,
r"
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$0PubStruct
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pub mod PubMod {
pub struct PubStruct;
}
",
r"
use PubMod::PubStruct;
PubStruct
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pub mod PubMod {
pub struct PubStruct;
}
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",
);
}
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#[test]
fn applicable_when_found_an_import_in_macros() {
check_assist(
auto_import,
r"
macro_rules! foo {
($i:ident) => { fn foo(a: $i) {} }
}
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foo!(Pub$0Struct);
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pub mod PubMod {
pub struct PubStruct;
}
",
r"
use PubMod::PubStruct;
macro_rules! foo {
($i:ident) => { fn foo(a: $i) {} }
}
foo!(PubStruct);
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pub mod PubMod {
pub struct PubStruct;
}
",
);
}
#[test]
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fn applicable_when_found_multiple_imports() {
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check_assist(
auto_import,
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r"
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PubSt$0ruct
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pub mod PubMod1 {
pub struct PubStruct;
}
pub mod PubMod2 {
pub struct PubStruct;
}
pub mod PubMod3 {
pub struct PubStruct;
}
",
r"
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use PubMod3::PubStruct;
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PubStruct
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pub mod PubMod1 {
pub struct PubStruct;
}
pub mod PubMod2 {
pub struct PubStruct;
}
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pub mod PubMod3 {
pub struct PubStruct;
}
",
);
}
#[test]
fn not_applicable_for_already_imported_types() {
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check_assist_not_applicable(
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auto_import,
r"
use PubMod::PubStruct;
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PubStruct$0
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pub mod PubMod {
pub struct PubStruct;
}
",
);
}
#[test]
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fn not_applicable_for_types_with_private_paths() {
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check_assist_not_applicable(
auto_import,
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r"
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PrivateStruct$0
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pub mod PubMod {
struct PrivateStruct;
}
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",
);
}
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#[test]
fn not_applicable_when_no_imports_found() {
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check_assist_not_applicable(
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auto_import,
"
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PubStruct$0",
);
}
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#[test]
fn function_import() {
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check_assist(
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auto_import,
r"
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test_function$0
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pub mod PubMod {
pub fn test_function() {};
}
",
r"
use PubMod::test_function;
test_function
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pub mod PubMod {
pub fn test_function() {};
}
",
);
}
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#[test]
fn macro_import() {
check_assist(
auto_import,
r"
//- /lib.rs crate:crate_with_macro
#[macro_export]
macro_rules! foo {
() => ()
}
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//- /main.rs crate:main deps:crate_with_macro
fn main() {
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foo$0
}
",
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r"use crate_with_macro::foo;
fn main() {
foo
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}
",
);
}
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#[test]
fn auto_import_target() {
check_assist_target(
auto_import,
r"
struct AssistInfo {
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group_label: Option<$0GroupLabel>,
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}
mod m { pub struct GroupLabel; }
",
"GroupLabel",
)
}
#[test]
fn not_applicable_when_path_start_is_imported() {
check_assist_not_applicable(
auto_import,
r"
pub mod mod1 {
pub mod mod2 {
pub mod mod3 {
pub struct TestStruct;
}
}
}
use mod1::mod2;
fn main() {
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mod2::mod3::TestStruct$0
}
",
);
}
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#[test]
fn not_applicable_for_imported_function() {
check_assist_not_applicable(
auto_import,
r"
pub mod test_mod {
pub fn test_function() {}
}
use test_mod::test_function;
fn main() {
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test_function$0
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}
",
);
}
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#[test]
fn associated_struct_function() {
check_assist(
auto_import,
r"
mod test_mod {
pub struct TestStruct {}
impl TestStruct {
pub fn test_function() {}
}
}
fn main() {
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TestStruct::test_function$0
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}
",
r"
use test_mod::TestStruct;
mod test_mod {
pub struct TestStruct {}
impl TestStruct {
pub fn test_function() {}
}
}
fn main() {
TestStruct::test_function
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}
",
);
}
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#[test]
fn associated_struct_const() {
check_assist(
auto_import,
r"
mod test_mod {
pub struct TestStruct {}
impl TestStruct {
const TEST_CONST: u8 = 42;
}
}
fn main() {
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TestStruct::TEST_CONST$0
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}
",
r"
use test_mod::TestStruct;
mod test_mod {
pub struct TestStruct {}
impl TestStruct {
const TEST_CONST: u8 = 42;
}
}
fn main() {
TestStruct::TEST_CONST
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}
",
);
}
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#[test]
fn associated_trait_function() {
check_assist(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
fn test_function();
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_function() {}
}
}
fn main() {
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test_mod::TestStruct::test_function$0
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}
",
r"
use test_mod::TestTrait;
mod test_mod {
pub trait TestTrait {
fn test_function();
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_function() {}
}
}
fn main() {
test_mod::TestStruct::test_function
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}
",
);
}
#[test]
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fn not_applicable_for_imported_trait_for_function() {
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check_assist_not_applicable(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
fn test_function();
}
pub trait TestTrait2 {
fn test_function();
}
pub enum TestEnum {
One,
Two,
}
impl TestTrait2 for TestEnum {
fn test_function() {}
}
impl TestTrait for TestEnum {
fn test_function() {}
}
}
use test_mod::TestTrait2;
fn main() {
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test_mod::TestEnum::test_function$0;
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}
",
)
}
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#[test]
fn associated_trait_const() {
check_assist(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
const TEST_CONST: u8;
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
const TEST_CONST: u8 = 42;
}
}
fn main() {
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test_mod::TestStruct::TEST_CONST$0
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}
",
r"
use test_mod::TestTrait;
mod test_mod {
pub trait TestTrait {
const TEST_CONST: u8;
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
const TEST_CONST: u8 = 42;
}
}
fn main() {
test_mod::TestStruct::TEST_CONST
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}
",
);
}
#[test]
fn not_applicable_for_imported_trait_for_const() {
check_assist_not_applicable(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
const TEST_CONST: u8;
}
pub trait TestTrait2 {
const TEST_CONST: f64;
}
pub enum TestEnum {
One,
Two,
}
impl TestTrait2 for TestEnum {
const TEST_CONST: f64 = 42.0;
}
impl TestTrait for TestEnum {
const TEST_CONST: u8 = 42;
}
}
use test_mod::TestTrait2;
fn main() {
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test_mod::TestEnum::TEST_CONST$0;
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}
",
)
}
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#[test]
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fn trait_method() {
check_assist(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
fn test_method(&self);
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_method(&self) {}
}
}
fn main() {
let test_struct = test_mod::TestStruct {};
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test_struct.test_meth$0od()
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}
",
r"
use test_mod::TestTrait;
mod test_mod {
pub trait TestTrait {
fn test_method(&self);
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_method(&self) {}
}
}
fn main() {
let test_struct = test_mod::TestStruct {};
test_struct.test_method()
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}
",
);
}
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#[test]
fn trait_method_cross_crate() {
check_assist(
auto_import,
r"
//- /main.rs crate:main deps:dep
fn main() {
let test_struct = dep::test_mod::TestStruct {};
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test_struct.test_meth$0od()
}
//- /dep.rs crate:dep
pub mod test_mod {
pub trait TestTrait {
fn test_method(&self);
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_method(&self) {}
}
}
",
r"
use dep::test_mod::TestTrait;
fn main() {
let test_struct = dep::test_mod::TestStruct {};
test_struct.test_method()
}
",
);
}
#[test]
fn assoc_fn_cross_crate() {
check_assist(
auto_import,
r"
//- /main.rs crate:main deps:dep
fn main() {
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dep::test_mod::TestStruct::test_func$0tion
}
//- /dep.rs crate:dep
pub mod test_mod {
pub trait TestTrait {
fn test_function();
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_function() {}
}
}
",
r"
use dep::test_mod::TestTrait;
fn main() {
dep::test_mod::TestStruct::test_function
}
",
);
}
#[test]
fn assoc_const_cross_crate() {
check_assist(
auto_import,
r"
//- /main.rs crate:main deps:dep
fn main() {
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dep::test_mod::TestStruct::CONST$0
}
//- /dep.rs crate:dep
pub mod test_mod {
pub trait TestTrait {
const CONST: bool;
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
const CONST: bool = true;
}
}
",
r"
use dep::test_mod::TestTrait;
fn main() {
dep::test_mod::TestStruct::CONST
}
",
);
}
#[test]
fn assoc_fn_as_method_cross_crate() {
check_assist_not_applicable(
auto_import,
r"
//- /main.rs crate:main deps:dep
fn main() {
let test_struct = dep::test_mod::TestStruct {};
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test_struct.test_func$0tion()
}
//- /dep.rs crate:dep
pub mod test_mod {
pub trait TestTrait {
fn test_function();
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_function() {}
}
}
",
);
}
#[test]
fn private_trait_cross_crate() {
check_assist_not_applicable(
auto_import,
r"
//- /main.rs crate:main deps:dep
fn main() {
let test_struct = dep::test_mod::TestStruct {};
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test_struct.test_meth$0od()
}
//- /dep.rs crate:dep
pub mod test_mod {
trait TestTrait {
fn test_method(&self);
}
pub struct TestStruct {}
impl TestTrait for TestStruct {
fn test_method(&self) {}
}
}
",
);
}
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#[test]
fn not_applicable_for_imported_trait_for_method() {
check_assist_not_applicable(
auto_import,
r"
mod test_mod {
pub trait TestTrait {
fn test_method(&self);
}
pub trait TestTrait2 {
fn test_method(&self);
}
pub enum TestEnum {
One,
Two,
}
impl TestTrait2 for TestEnum {
fn test_method(&self) {}
}
impl TestTrait for TestEnum {
fn test_method(&self) {}
}
}
use test_mod::TestTrait2;
fn main() {
let one = test_mod::TestEnum::One;
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one.test$0_method();
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}
",
)
}
#[test]
fn dep_import() {
check_assist(
auto_import,
r"
//- /lib.rs crate:dep
pub struct Struct;
//- /main.rs crate:main deps:dep
fn main() {
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Struct$0
}
",
r"use dep::Struct;
fn main() {
Struct
}
",
);
}
#[test]
fn whole_segment() {
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// Tests that only imports whose last segment matches the identifier get suggested.
check_assist(
auto_import,
r"
//- /lib.rs crate:dep
pub mod fmt {
pub trait Display {}
}
pub fn panic_fmt() {}
//- /main.rs crate:main deps:dep
struct S;
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impl f$0mt::Display for S {}
",
r"use dep::fmt;
struct S;
impl fmt::Display for S {}
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",
);
}
#[test]
fn macro_generated() {
// Tests that macro-generated items are suggested from external crates.
check_assist(
auto_import,
r"
//- /lib.rs crate:dep
macro_rules! mac {
() => {
pub struct Cheese;
};
}
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mac!();
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//- /main.rs crate:main deps:dep
fn main() {
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Cheese$0;
}
",
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r"use dep::Cheese;
fn main() {
Cheese;
}
",
);
}
#[test]
fn casing() {
// Tests that differently cased names don't interfere and we only suggest the matching one.
check_assist(
auto_import,
r"
//- /lib.rs crate:dep
pub struct FMT;
pub struct fmt;
//- /main.rs crate:main deps:dep
fn main() {
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FMT$0;
}
",
r"use dep::FMT;
fn main() {
FMT;
}
",
);
}
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#[test]
fn inner_items() {
check_assist(
auto_import,
r#"
mod baz {
pub struct Foo {}
}
mod bar {
fn bar() {
Foo$0;
println!("Hallo");
}
}
"#,
r#"
mod baz {
pub struct Foo {}
}
mod bar {
use crate::baz::Foo;
fn bar() {
Foo;
println!("Hallo");
}
}
"#,
);
}
#[test]
fn uses_abs_path_with_extern_crate_clash() {
cov_mark::check!(ambiguous_crate_start);
check_assist(
auto_import,
r#"
//- /main.rs crate:main deps:foo
mod foo {}
const _: () = {
Foo$0
};
//- /foo.rs crate:foo
pub struct Foo
"#,
r#"
use ::foo::Foo;
mod foo {}
const _: () = {
Foo
};
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"#,
);
}
#[test]
fn works_on_ident_patterns() {
check_assist(
auto_import,
r#"
mod foo {
pub struct Foo {}
}
fn foo() {
let Foo$0;
}
"#,
r#"
use foo::Foo;
mod foo {
pub struct Foo {}
}
fn foo() {
let Foo;
}
"#,
);
}
#[test]
fn works_in_derives() {
check_assist(
auto_import,
r#"
//- minicore:derive
mod foo {
#[rustc_builtin_macro]
pub macro Copy {}
}
#[derive(Copy$0)]
struct Foo;
"#,
r#"
use foo::Copy;
mod foo {
#[rustc_builtin_macro]
pub macro Copy {}
}
#[derive(Copy)]
struct Foo;
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"#,
);
}
#[test]
fn works_in_use_start() {
check_assist(
auto_import,
r#"
mod bar {
pub mod foo {
pub struct Foo;
}
}
use foo$0::Foo;
"#,
r#"
mod bar {
pub mod foo {
pub struct Foo;
}
}
use bar::foo;
use foo::Foo;
"#,
);
}
#[test]
fn not_applicable_in_non_start_use() {
check_assist_not_applicable(
auto_import,
r"
mod bar {
pub mod foo {
pub struct Foo;
}
}
use foo::Foo$0;
",
);
}
}