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authorAleksey Kladov <[email protected]>2020-08-13 16:42:52 +0100
committerAleksey Kladov <[email protected]>2020-08-13 16:58:27 +0100
commit1b0c7701cc97cd7bef8bb9729011d4cf291a60c5 (patch)
treeb69f0c9947d9cec522ce835d7213b21075fe6dcf /crates/ra_ide/src/completion/complete_qualified_path.rs
parentfc34403018079ea053f26d0a31b7517053c7dd8c (diff)
Rename ra_ide -> ide
Diffstat (limited to 'crates/ra_ide/src/completion/complete_qualified_path.rs')
-rw-r--r--crates/ra_ide/src/completion/complete_qualified_path.rs733
1 files changed, 0 insertions, 733 deletions
diff --git a/crates/ra_ide/src/completion/complete_qualified_path.rs b/crates/ra_ide/src/completion/complete_qualified_path.rs
deleted file mode 100644
index cb7dd23c1..000000000
--- a/crates/ra_ide/src/completion/complete_qualified_path.rs
+++ /dev/null
@@ -1,733 +0,0 @@
1//! Completion of paths, i.e. `some::prefix::<|>`.
2
3use hir::{Adt, HasVisibility, PathResolution, ScopeDef};
4use rustc_hash::FxHashSet;
5use syntax::AstNode;
6use test_utils::mark;
7
8use crate::completion::{CompletionContext, Completions};
9
10pub(super) fn complete_qualified_path(acc: &mut Completions, ctx: &CompletionContext) {
11 let path = match &ctx.path_prefix {
12 Some(path) => path.clone(),
13 None => return,
14 };
15
16 if ctx.attribute_under_caret.is_some() {
17 return;
18 }
19
20 let context_module = ctx.scope.module();
21
22 let resolution = match ctx.scope.resolve_hir_path_qualifier(&path) {
23 Some(res) => res,
24 None => return,
25 };
26
27 // Add associated types on type parameters and `Self`.
28 resolution.assoc_type_shorthand_candidates(ctx.db, |alias| {
29 acc.add_type_alias(ctx, alias);
30 None::<()>
31 });
32
33 match resolution {
34 PathResolution::Def(hir::ModuleDef::Module(module)) => {
35 let module_scope = module.scope(ctx.db, context_module);
36 for (name, def) in module_scope {
37 if ctx.use_item_syntax.is_some() {
38 if let ScopeDef::Unknown = def {
39 if let Some(name_ref) = ctx.name_ref_syntax.as_ref() {
40 if name_ref.syntax().text() == name.to_string().as_str() {
41 // for `use self::foo<|>`, don't suggest `foo` as a completion
42 mark::hit!(dont_complete_current_use);
43 continue;
44 }
45 }
46 }
47 }
48
49 acc.add_resolution(ctx, name.to_string(), &def);
50 }
51 }
52 PathResolution::Def(def @ hir::ModuleDef::Adt(_))
53 | PathResolution::Def(def @ hir::ModuleDef::TypeAlias(_)) => {
54 if let hir::ModuleDef::Adt(Adt::Enum(e)) = def {
55 for variant in e.variants(ctx.db) {
56 acc.add_enum_variant(ctx, variant, None);
57 }
58 }
59 let ty = match def {
60 hir::ModuleDef::Adt(adt) => adt.ty(ctx.db),
61 hir::ModuleDef::TypeAlias(a) => a.ty(ctx.db),
62 _ => unreachable!(),
63 };
64
65 // XXX: For parity with Rust bug #22519, this does not complete Ty::AssocType.
66 // (where AssocType is defined on a trait, not an inherent impl)
67
68 let krate = ctx.krate;
69 if let Some(krate) = krate {
70 let traits_in_scope = ctx.scope.traits_in_scope();
71 ty.iterate_path_candidates(ctx.db, krate, &traits_in_scope, None, |_ty, item| {
72 if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
73 return None;
74 }
75 match item {
76 hir::AssocItem::Function(func) => {
77 acc.add_function(ctx, func, None);
78 }
79 hir::AssocItem::Const(ct) => acc.add_const(ctx, ct),
80 hir::AssocItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty),
81 }
82 None::<()>
83 });
84
85 // Iterate assoc types separately
86 ty.iterate_assoc_items(ctx.db, krate, |item| {
87 if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
88 return None;
89 }
90 match item {
91 hir::AssocItem::Function(_) | hir::AssocItem::Const(_) => {}
92 hir::AssocItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty),
93 }
94 None::<()>
95 });
96 }
97 }
98 PathResolution::Def(hir::ModuleDef::Trait(t)) => {
99 // Handles `Trait::assoc` as well as `<Ty as Trait>::assoc`.
100 for item in t.items(ctx.db) {
101 if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
102 continue;
103 }
104 match item {
105 hir::AssocItem::Function(func) => {
106 acc.add_function(ctx, func, None);
107 }
108 hir::AssocItem::Const(ct) => acc.add_const(ctx, ct),
109 hir::AssocItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty),
110 }
111 }
112 }
113 PathResolution::TypeParam(_) | PathResolution::SelfType(_) => {
114 if let Some(krate) = ctx.krate {
115 let ty = match resolution {
116 PathResolution::TypeParam(param) => param.ty(ctx.db),
117 PathResolution::SelfType(impl_def) => impl_def.target_ty(ctx.db),
118 _ => return,
119 };
120
121 let traits_in_scope = ctx.scope.traits_in_scope();
122 let mut seen = FxHashSet::default();
123 ty.iterate_path_candidates(ctx.db, krate, &traits_in_scope, None, |_ty, item| {
124 if context_module.map_or(false, |m| !item.is_visible_from(ctx.db, m)) {
125 return None;
126 }
127
128 // We might iterate candidates of a trait multiple times here, so deduplicate
129 // them.
130 if seen.insert(item) {
131 match item {
132 hir::AssocItem::Function(func) => {
133 acc.add_function(ctx, func, None);
134 }
135 hir::AssocItem::Const(ct) => acc.add_const(ctx, ct),
136 hir::AssocItem::TypeAlias(ty) => acc.add_type_alias(ctx, ty),
137 }
138 }
139 None::<()>
140 });
141 }
142 }
143 _ => {}
144 }
145}
146
147#[cfg(test)]
148mod tests {
149 use expect::{expect, Expect};
150 use test_utils::mark;
151
152 use crate::completion::{
153 test_utils::{check_edit, completion_list},
154 CompletionKind,
155 };
156
157 fn check(ra_fixture: &str, expect: Expect) {
158 let actual = completion_list(ra_fixture, CompletionKind::Reference);
159 expect.assert_eq(&actual);
160 }
161
162 fn check_builtin(ra_fixture: &str, expect: Expect) {
163 let actual = completion_list(ra_fixture, CompletionKind::BuiltinType);
164 expect.assert_eq(&actual);
165 }
166
167 #[test]
168 fn dont_complete_current_use() {
169 mark::check!(dont_complete_current_use);
170 check(r#"use self::foo<|>;"#, expect![[""]]);
171 }
172
173 #[test]
174 fn dont_complete_current_use_in_braces_with_glob() {
175 check(
176 r#"
177mod foo { pub struct S; }
178use self::{foo::*, bar<|>};
179"#,
180 expect![[r#"
181 st S
182 md foo
183 "#]],
184 );
185 }
186
187 #[test]
188 fn dont_complete_primitive_in_use() {
189 check_builtin(r#"use self::<|>;"#, expect![[""]]);
190 }
191
192 #[test]
193 fn dont_complete_primitive_in_module_scope() {
194 check_builtin(r#"fn foo() { self::<|> }"#, expect![[""]]);
195 }
196
197 #[test]
198 fn completes_primitives() {
199 check_builtin(
200 r#"fn main() { let _: <|> = 92; }"#,
201 expect![[r#"
202 bt bool
203 bt char
204 bt f32
205 bt f64
206 bt i128
207 bt i16
208 bt i32
209 bt i64
210 bt i8
211 bt isize
212 bt str
213 bt u128
214 bt u16
215 bt u32
216 bt u64
217 bt u8
218 bt usize
219 "#]],
220 );
221 }
222
223 #[test]
224 fn completes_mod_with_same_name_as_function() {
225 check(
226 r#"
227use self::my::<|>;
228
229mod my { pub struct Bar; }
230fn my() {}
231"#,
232 expect![[r#"
233 st Bar
234 "#]],
235 );
236 }
237
238 #[test]
239 fn filters_visibility() {
240 check(
241 r#"
242use self::my::<|>;
243
244mod my {
245 struct Bar;
246 pub struct Foo;
247 pub use Bar as PublicBar;
248}
249"#,
250 expect![[r#"
251 st Foo
252 st PublicBar
253 "#]],
254 );
255 }
256
257 #[test]
258 fn completes_use_item_starting_with_self() {
259 check(
260 r#"
261use self::m::<|>;
262
263mod m { pub struct Bar; }
264"#,
265 expect![[r#"
266 st Bar
267 "#]],
268 );
269 }
270
271 #[test]
272 fn completes_use_item_starting_with_crate() {
273 check(
274 r#"
275//- /lib.rs
276mod foo;
277struct Spam;
278//- /foo.rs
279use crate::Sp<|>
280"#,
281 expect![[r#"
282 st Spam
283 md foo
284 "#]],
285 );
286 }
287
288 #[test]
289 fn completes_nested_use_tree() {
290 check(
291 r#"
292//- /lib.rs
293mod foo;
294struct Spam;
295//- /foo.rs
296use crate::{Sp<|>};
297"#,
298 expect![[r#"
299 st Spam
300 md foo
301 "#]],
302 );
303 }
304
305 #[test]
306 fn completes_deeply_nested_use_tree() {
307 check(
308 r#"
309//- /lib.rs
310mod foo;
311pub mod bar {
312 pub mod baz {
313 pub struct Spam;
314 }
315}
316//- /foo.rs
317use crate::{bar::{baz::Sp<|>}};
318"#,
319 expect![[r#"
320 st Spam
321 "#]],
322 );
323 }
324
325 #[test]
326 fn completes_enum_variant() {
327 check(
328 r#"
329enum E { Foo, Bar(i32) }
330fn foo() { let _ = E::<|> }
331"#,
332 expect![[r#"
333 ev Bar(…) (i32)
334 ev Foo ()
335 "#]],
336 );
337 }
338
339 #[test]
340 fn completes_struct_associated_items() {
341 check(
342 r#"
343//- /lib.rs
344struct S;
345
346impl S {
347 fn a() {}
348 fn b(&self) {}
349 const C: i32 = 42;
350 type T = i32;
351}
352
353fn foo() { let _ = S::<|> }
354"#,
355 expect![[r#"
356 ct C const C: i32 = 42;
357 ta T type T = i32;
358 fn a() fn a()
359 me b() fn b(&self)
360 "#]],
361 );
362 }
363
364 #[test]
365 fn associated_item_visibility() {
366 check(
367 r#"
368struct S;
369
370mod m {
371 impl super::S {
372 pub(super) fn public_method() { }
373 fn private_method() { }
374 pub(super) type PublicType = u32;
375 type PrivateType = u32;
376 pub(super) const PUBLIC_CONST: u32 = 1;
377 const PRIVATE_CONST: u32 = 1;
378 }
379}
380
381fn foo() { let _ = S::<|> }
382"#,
383 expect![[r#"
384 ct PUBLIC_CONST pub(super) const PUBLIC_CONST: u32 = 1;
385 ta PublicType pub(super) type PublicType = u32;
386 fn public_method() pub(super) fn public_method()
387 "#]],
388 );
389 }
390
391 #[test]
392 fn completes_enum_associated_method() {
393 check(
394 r#"
395enum E {};
396impl E { fn m() { } }
397
398fn foo() { let _ = E::<|> }
399 "#,
400 expect![[r#"
401 fn m() fn m()
402 "#]],
403 );
404 }
405
406 #[test]
407 fn completes_union_associated_method() {
408 check(
409 r#"
410union U {};
411impl U { fn m() { } }
412
413fn foo() { let _ = U::<|> }
414"#,
415 expect![[r#"
416 fn m() fn m()
417 "#]],
418 );
419 }
420
421 #[test]
422 fn completes_use_paths_across_crates() {
423 check(
424 r#"
425//- /main.rs
426use foo::<|>;
427
428//- /foo/lib.rs
429pub mod bar { pub struct S; }
430"#,
431 expect![[r#"
432 md bar
433 "#]],
434 );
435 }
436
437 #[test]
438 fn completes_trait_associated_method_1() {
439 check(
440 r#"
441trait Trait { fn m(); }
442
443fn foo() { let _ = Trait::<|> }
444"#,
445 expect![[r#"
446 fn m() fn m()
447 "#]],
448 );
449 }
450
451 #[test]
452 fn completes_trait_associated_method_2() {
453 check(
454 r#"
455trait Trait { fn m(); }
456
457struct S;
458impl Trait for S {}
459
460fn foo() { let _ = S::<|> }
461"#,
462 expect![[r#"
463 fn m() fn m()
464 "#]],
465 );
466 }
467
468 #[test]
469 fn completes_trait_associated_method_3() {
470 check(
471 r#"
472trait Trait { fn m(); }
473
474struct S;
475impl Trait for S {}
476
477fn foo() { let _ = <S as Trait>::<|> }
478"#,
479 expect![[r#"
480 fn m() fn m()
481 "#]],
482 );
483 }
484
485 #[test]
486 fn completes_ty_param_assoc_ty() {
487 check(
488 r#"
489trait Super {
490 type Ty;
491 const CONST: u8;
492 fn func() {}
493 fn method(&self) {}
494}
495
496trait Sub: Super {
497 type SubTy;
498 const C2: ();
499 fn subfunc() {}
500 fn submethod(&self) {}
501}
502
503fn foo<T: Sub>() { T::<|> }
504"#,
505 expect![[r#"
506 ct C2 const C2: ();
507 ct CONST const CONST: u8;
508 ta SubTy type SubTy;
509 ta Ty type Ty;
510 fn func() fn func()
511 me method() fn method(&self)
512 fn subfunc() fn subfunc()
513 me submethod() fn submethod(&self)
514 "#]],
515 );
516 }
517
518 #[test]
519 fn completes_self_param_assoc_ty() {
520 check(
521 r#"
522trait Super {
523 type Ty;
524 const CONST: u8 = 0;
525 fn func() {}
526 fn method(&self) {}
527}
528
529trait Sub: Super {
530 type SubTy;
531 const C2: () = ();
532 fn subfunc() {}
533 fn submethod(&self) {}
534}
535
536struct Wrap<T>(T);
537impl<T> Super for Wrap<T> {}
538impl<T> Sub for Wrap<T> {
539 fn subfunc() {
540 // Should be able to assume `Self: Sub + Super`
541 Self::<|>
542 }
543}
544"#,
545 expect![[r#"
546 ct C2 const C2: () = ();
547 ct CONST const CONST: u8 = 0;
548 ta SubTy type SubTy;
549 ta Ty type Ty;
550 fn func() fn func()
551 me method() fn method(&self)
552 fn subfunc() fn subfunc()
553 me submethod() fn submethod(&self)
554 "#]],
555 );
556 }
557
558 #[test]
559 fn completes_type_alias() {
560 check(
561 r#"
562struct S;
563impl S { fn foo() {} }
564type T = S;
565impl T { fn bar() {} }
566
567fn main() { T::<|>; }
568"#,
569 expect![[r#"
570 fn bar() fn bar()
571 fn foo() fn foo()
572 "#]],
573 );
574 }
575
576 #[test]
577 fn completes_qualified_macros() {
578 check(
579 r#"
580#[macro_export]
581macro_rules! foo { () => {} }
582
583fn main() { let _ = crate::<|> }
584 "#,
585 expect![[r##"
586 ma foo!(…) #[macro_export]
587 macro_rules! foo
588 fn main() fn main()
589 "##]],
590 );
591 }
592
593 #[test]
594 fn test_super_super_completion() {
595 check(
596 r#"
597mod a {
598 const A: usize = 0;
599 mod b {
600 const B: usize = 0;
601 mod c { use super::super::<|> }
602 }
603}
604"#,
605 expect![[r#"
606 ct A
607 md b
608 "#]],
609 );
610 }
611
612 #[test]
613 fn completes_reexported_items_under_correct_name() {
614 check(
615 r#"
616fn foo() { self::m::<|> }
617
618mod m {
619 pub use super::p::wrong_fn as right_fn;
620 pub use super::p::WRONG_CONST as RIGHT_CONST;
621 pub use super::p::WrongType as RightType;
622}
623mod p {
624 fn wrong_fn() {}
625 const WRONG_CONST: u32 = 1;
626 struct WrongType {};
627}
628"#,
629 expect![[r#"
630 ct RIGHT_CONST
631 st RightType
632 fn right_fn() fn wrong_fn()
633 "#]],
634 );
635
636 check_edit(
637 "RightType",
638 r#"
639fn foo() { self::m::<|> }
640
641mod m {
642 pub use super::p::wrong_fn as right_fn;
643 pub use super::p::WRONG_CONST as RIGHT_CONST;
644 pub use super::p::WrongType as RightType;
645}
646mod p {
647 fn wrong_fn() {}
648 const WRONG_CONST: u32 = 1;
649 struct WrongType {};
650}
651"#,
652 r#"
653fn foo() { self::m::RightType }
654
655mod m {
656 pub use super::p::wrong_fn as right_fn;
657 pub use super::p::WRONG_CONST as RIGHT_CONST;
658 pub use super::p::WrongType as RightType;
659}
660mod p {
661 fn wrong_fn() {}
662 const WRONG_CONST: u32 = 1;
663 struct WrongType {};
664}
665"#,
666 );
667 }
668
669 #[test]
670 fn completes_in_simple_macro_call() {
671 check(
672 r#"
673macro_rules! m { ($e:expr) => { $e } }
674fn main() { m!(self::f<|>); }
675fn foo() {}
676"#,
677 expect![[r#"
678 fn foo() fn foo()
679 fn main() fn main()
680 "#]],
681 );
682 }
683
684 #[test]
685 fn function_mod_share_name() {
686 check(
687 r#"
688fn foo() { self::m::<|> }
689
690mod m {
691 pub mod z {}
692 pub fn z() {}
693}
694"#,
695 expect![[r#"
696 md z
697 fn z() pub fn z()
698 "#]],
699 );
700 }
701
702 #[test]
703 fn completes_hashmap_new() {
704 check(
705 r#"
706struct RandomState;
707struct HashMap<K, V, S = RandomState> {}
708
709impl<K, V> HashMap<K, V, RandomState> {
710 pub fn new() -> HashMap<K, V, RandomState> { }
711}
712fn foo() {
713 HashMap::<|>
714}
715"#,
716 expect![[r#"
717 fn new() pub fn new() -> HashMap<K, V, RandomState>
718 "#]],
719 );
720 }
721
722 #[test]
723 fn dont_complete_attr() {
724 check(
725 r#"
726mod foo { pub struct Foo; }
727#[foo::<|>]
728fn f() {}
729"#,
730 expect![[""]],
731 );
732 }
733}