use super::{infer, type_at, type_at_pos}; use crate::test_db::TestDB; use insta::assert_snapshot; use ra_db::fixture::WithFixture; #[test] fn cfg_impl_def() { let (db, pos) = TestDB::with_position( r#" //- /main.rs crate:main deps:foo cfg:test use foo::S as T; struct S; #[cfg(test)] impl S { fn foo1(&self) -> i32 { 0 } } #[cfg(not(test))] impl S { fn foo2(&self) -> i32 { 0 } } fn test() { let t = (S.foo1(), S.foo2(), T.foo3(), T.foo4()); t<|>; } //- /foo.rs crate:foo struct S; #[cfg(not(test))] impl S { fn foo3(&self) -> i32 { 0 } } #[cfg(test)] impl S { fn foo4(&self) -> i32 { 0 } } "#, ); assert_eq!("(i32, {unknown}, i32, {unknown})", type_at_pos(&db, pos)); } #[test] fn infer_macros_expanded() { assert_snapshot!( infer(r#" struct Foo(Vec); macro_rules! foo { ($($item:expr),*) => { { Foo(vec![$($item,)*]) } }; } fn main() { let x = foo!(1,2); } "#), @r###" ![0; 17) '{Foo(v...,2,])}': Foo ![1; 4) 'Foo': Foo({unknown}) -> Foo ![1; 16) 'Foo(vec![1,2,])': Foo ![5; 15) 'vec![1,2,]': {unknown} [156; 182) '{ ...,2); }': () [166; 167) 'x': Foo "### ); } #[test] fn infer_legacy_textual_scoped_macros_expanded() { assert_snapshot!( infer(r#" struct Foo(Vec); #[macro_use] mod m { macro_rules! foo { ($($item:expr),*) => { { Foo(vec![$($item,)*]) } }; } } fn main() { let x = foo!(1,2); let y = crate::foo!(1,2); } "#), @r###" ![0; 17) '{Foo(v...,2,])}': Foo ![1; 4) 'Foo': Foo({unknown}) -> Foo ![1; 16) 'Foo(vec![1,2,])': Foo ![5; 15) 'vec![1,2,]': {unknown} [195; 251) '{ ...,2); }': () [205; 206) 'x': Foo [228; 229) 'y': {unknown} [232; 248) 'crate:...!(1,2)': {unknown} "### ); } #[test] fn infer_path_qualified_macros_expanded() { assert_snapshot!( infer(r#" #[macro_export] macro_rules! foo { () => { 42i32 } } mod m { pub use super::foo as bar; } fn main() { let x = crate::foo!(); let y = m::bar!(); } "#), @r###" ![0; 5) '42i32': i32 ![0; 5) '42i32': i32 [111; 164) '{ ...!(); }': () [121; 122) 'x': i32 [148; 149) 'y': i32 "### ); } #[test] fn expr_macro_expanded_in_various_places() { assert_snapshot!( infer(r#" macro_rules! spam { () => (1isize); } fn spam() { spam!(); (spam!()); spam!().spam(spam!()); for _ in spam!() {} || spam!(); while spam!() {} break spam!(); return spam!(); match spam!() { _ if spam!() => spam!(), } spam!()(spam!()); Spam { spam: spam!() }; spam!()[spam!()]; await spam!(); spam!() as usize; &spam!(); -spam!(); spam!()..spam!(); spam!() + spam!(); } "#), @r###" ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize ![0; 6) '1isize': isize [54; 457) '{ ...!(); }': ! [88; 109) 'spam!(...am!())': {unknown} [115; 134) 'for _ ...!() {}': () [119; 120) '_': {unknown} [132; 134) '{}': () [139; 149) '|| spam!()': || -> isize [155; 171) 'while ...!() {}': () [169; 171) '{}': () [176; 189) 'break spam!()': ! [195; 209) 'return spam!()': ! [215; 269) 'match ... }': isize [239; 240) '_': isize [274; 290) 'spam!(...am!())': {unknown} [296; 318) 'Spam {...m!() }': {unknown} [324; 340) 'spam!(...am!()]': {unknown} [365; 381) 'spam!(... usize': usize [387; 395) '&spam!()': &isize [401; 409) '-spam!()': isize [415; 431) 'spam!(...pam!()': {unknown} [437; 454) 'spam!(...pam!()': isize "### ); } #[test] fn infer_type_value_macro_having_same_name() { assert_snapshot!( infer(r#" #[macro_export] macro_rules! foo { () => { mod foo { pub use super::foo; } }; ($x:tt) => { $x }; } foo!(); fn foo() { let foo = foo::foo!(42i32); } "#), @r###" ![0; 5) '42i32': i32 [171; 206) '{ ...32); }': () [181; 184) 'foo': i32 "### ); } #[test] fn processes_impls_generated_by_macros() { let t = type_at( r#" //- /main.rs macro_rules! m { ($ident:ident) => (impl Trait for $ident {}) } trait Trait { fn foo(self) -> u128 {} } struct S; m!(S); fn test() { S.foo()<|>; } "#, ); assert_eq!(t, "u128"); } #[test] fn infer_impl_items_generated_by_macros() { let t = type_at( r#" //- /main.rs macro_rules! m { () => (fn foo(&self) -> u128 {0}) } struct S; impl S { m!(); } fn test() { S.foo()<|>; } "#, ); assert_eq!(t, "u128"); } #[test] fn infer_impl_items_generated_by_macros_chain() { let t = type_at( r#" //- /main.rs macro_rules! m_inner { () => {fn foo(&self) -> u128 {0}} } macro_rules! m { () => {m_inner!();} } struct S; impl S { m!(); } fn test() { S.foo()<|>; } "#, ); assert_eq!(t, "u128"); } #[test] fn infer_macro_with_dollar_crate_is_correct_in_expr() { let (db, pos) = TestDB::with_position( r#" //- /main.rs crate:main deps:foo fn test() { let x = (foo::foo!(1), foo::foo!(2)); x<|>; } //- /lib.rs crate:foo #[macro_export] macro_rules! foo { (1) => { $crate::bar!() }; (2) => { 1 + $crate::baz() }; } #[macro_export] macro_rules! bar { () => { 42 } } pub fn baz() -> usize { 31usize } "#, ); assert_eq!("(i32, usize)", type_at_pos(&db, pos)); } #[test] fn infer_type_value_non_legacy_macro_use_as() { assert_snapshot!( infer(r#" mod m { macro_rules! _foo { ($x:ident) => { type $x = u64; } } pub(crate) use _foo as foo; } m::foo!(foo); use foo as bar; fn f() -> bar { 0 } fn main() { let _a = f(); } "#), @r###" [159; 164) '{ 0 }': u64 [161; 162) '0': u64 [175; 197) '{ ...f(); }': () [185; 187) '_a': u64 [191; 192) 'f': fn f() -> u64 [191; 194) 'f()': u64 "### ); } #[test] fn infer_builtin_macros_line() { assert_snapshot!( infer(r#" #[rustc_builtin_macro] macro_rules! line {() => {}} fn main() { let x = line!(); } "#), @r###" ![0; 1) '0': i32 [64; 88) '{ ...!(); }': () [74; 75) 'x': i32 "### ); } #[test] fn infer_builtin_macros_file() { assert_snapshot!( infer(r#" #[rustc_builtin_macro] macro_rules! file {() => {}} fn main() { let x = file!(); } "#), @r###" ![0; 2) '""': &str [64; 88) '{ ...!(); }': () [74; 75) 'x': &str "### ); } #[test] fn infer_builtin_macros_column() { assert_snapshot!( infer(r#" #[rustc_builtin_macro] macro_rules! column {() => {}} fn main() { let x = column!(); } "#), @r###" ![0; 1) '0': i32 [66; 92) '{ ...!(); }': () [76; 77) 'x': i32 "### ); } #[test] fn infer_builtin_macros_concat() { assert_snapshot!( infer(r#" #[rustc_builtin_macro] macro_rules! concat {() => {}} fn main() { let x = concat!("hello", concat!("world", "!")); } "#), @r###" ![0; 13) '"helloworld!"': &str [66; 122) '{ ...")); }': () [76; 77) 'x': &str "### ); } #[test] fn infer_builtin_macros_include() { let (db, pos) = TestDB::with_position( r#" //- /main.rs #[rustc_builtin_macro] macro_rules! include {() => {}} include!("foo.rs"); fn main() { bar()<|>; } //- /foo.rs fn bar() -> u32 {0} "#, ); assert_eq!("u32", type_at_pos(&db, pos)); } #[test] fn infer_builtin_macros_include_concat() { let (db, pos) = TestDB::with_position( r#" //- /main.rs #[rustc_builtin_macro] macro_rules! include {() => {}} #[rustc_builtin_macro] macro_rules! concat {() => {}} include!(concat!("f", "oo.rs")); fn main() { bar()<|>; } //- /foo.rs fn bar() -> u32 {0} "#, ); assert_eq!("u32", type_at_pos(&db, pos)); } #[test] fn infer_builtin_macros_concat_with_lazy() { assert_snapshot!( infer(r#" macro_rules! hello {() => {"hello"}} #[rustc_builtin_macro] macro_rules! concat {() => {}} fn main() { let x = concat!(hello!(), concat!("world", "!")); } "#), @r###" ![0; 13) '"helloworld!"': &str [104; 161) '{ ...")); }': () [114; 115) 'x': &str "### ); } #[test] fn infer_derive_clone_simple() { let (db, pos) = TestDB::with_position( r#" //- /main.rs crate:main deps:std #[derive(Clone)] struct S; fn test() { S.clone()<|>; } //- /lib.rs crate:std #[prelude_import] use clone::*; mod clone { trait Clone { fn clone(&self) -> Self; } } "#, ); assert_eq!("S", type_at_pos(&db, pos)); } #[test] fn infer_derive_clone_with_params() { let (db, pos) = TestDB::with_position( r#" //- /main.rs crate:main deps:std #[derive(Clone)] struct S; #[derive(Clone)] struct Wrapper(T); struct NonClone; fn test() { (Wrapper(S).clone(), Wrapper(NonClone).clone())<|>; } //- /lib.rs crate:std #[prelude_import] use clone::*; mod clone { trait Clone { fn clone(&self) -> Self; } } "#, ); assert_eq!("(Wrapper, {unknown})", type_at_pos(&db, pos)); }