//! Generated file, do not edit by hand, see `xtask/src/codegen` use super::check; #[test] fn doctest_add_custom_impl() { check( "add_custom_impl", r#####" #[derive(Deb<|>ug, Display)] struct S; "#####, r#####" #[derive(Display)] struct S; impl Debug for S { } "#####, ) } #[test] fn doctest_add_derive() { check( "add_derive", r#####" struct Point { x: u32, y: u32,<|> } "#####, r#####" #[derive()] struct Point { x: u32, y: u32, } "#####, ) } #[test] fn doctest_add_explicit_type() { check( "add_explicit_type", r#####" fn main() { let x<|> = 92; } "#####, r#####" fn main() { let x: i32 = 92; } "#####, ) } #[test] fn doctest_add_function() { check( "add_function", r#####" struct Baz; fn baz() -> Baz { Baz } fn foo() { bar<|>("", baz()); } "#####, r#####" struct Baz; fn baz() -> Baz { Baz } fn foo() { bar("", baz()); } fn bar(arg: &str, baz: Baz) { unimplemented!() } "#####, ) } #[test] fn doctest_add_hash() { check( "add_hash", r#####" fn main() { r#"Hello,<|> World!"#; } "#####, r#####" fn main() { r##"Hello, World!"##; } "#####, ) } #[test] fn doctest_add_impl() { check( "add_impl", r#####" struct Ctx { data: T,<|> } "#####, r#####" struct Ctx { data: T, } impl Ctx { } "#####, ) } #[test] fn doctest_add_impl_default_members() { check( "add_impl_default_members", r#####" trait Trait { Type X; fn foo(&self); fn bar(&self) {} } impl Trait for () { Type X = (); fn foo(&self) {}<|> } "#####, r#####" trait Trait { Type X; fn foo(&self); fn bar(&self) {} } impl Trait for () { Type X = (); fn foo(&self) {} fn bar(&self) {} } "#####, ) } #[test] fn doctest_add_impl_missing_members() { check( "add_impl_missing_members", r#####" trait Trait { Type X; fn foo(&self) -> T; fn bar(&self) {} } impl Trait for () {<|> } "#####, r#####" trait Trait { Type X; fn foo(&self) -> T; fn bar(&self) {} } impl Trait for () { fn foo(&self) -> u32 { unimplemented!() } } "#####, ) } #[test] fn doctest_add_new() { check( "add_new", r#####" struct Ctx { data: T,<|> } "#####, r#####" struct Ctx { data: T, } impl Ctx { fn new(data: T) -> Self { Self { data } } } "#####, ) } #[test] fn doctest_apply_demorgan() { check( "apply_demorgan", r#####" fn main() { if x != 4 ||<|> !y {} } "#####, r#####" fn main() { if !(x == 4 && y) {} } "#####, ) } #[test] fn doctest_auto_import() { check( "auto_import", r#####" fn main() { let map = HashMap<|>::new(); } pub mod std { pub mod collections { pub struct HashMap { } } } "#####, r#####" use std::collections::HashMap; fn main() { let map = HashMap::new(); } pub mod std { pub mod collections { pub struct HashMap { } } } "#####, ) } #[test] fn doctest_change_visibility() { check( "change_visibility", r#####" <|>fn frobnicate() {} "#####, r#####" pub(crate) fn frobnicate() {} "#####, ) } #[test] fn doctest_convert_to_guarded_return() { check( "convert_to_guarded_return", r#####" fn main() { <|>if cond { foo(); bar(); } } "#####, r#####" fn main() { if !cond { return; } foo(); bar(); } "#####, ) } #[test] fn doctest_fill_match_arms() { check( "fill_match_arms", r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { <|> } } "#####, r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => {} Action::Stop => {} } } "#####, ) } #[test] fn doctest_flip_binexpr() { check( "flip_binexpr", r#####" fn main() { let _ = 90 +<|> 2; } "#####, r#####" fn main() { let _ = 2 + 90; } "#####, ) } #[test] fn doctest_flip_comma() { check( "flip_comma", r#####" fn main() { ((1, 2),<|> (3, 4)); } "#####, r#####" fn main() { ((3, 4), (1, 2)); } "#####, ) } #[test] fn doctest_flip_trait_bound() { check( "flip_trait_bound", r#####" fn foo Copy>() { } "#####, r#####" fn foo() { } "#####, ) } #[test] fn doctest_inline_local_variable() { check( "inline_local_variable", r#####" fn main() { let x<|> = 1 + 2; x * 4; } "#####, r#####" fn main() { (1 + 2) * 4; } "#####, ) } #[test] fn doctest_introduce_variable() { check( "introduce_variable", r#####" fn main() { <|>(1 + 2)<|> * 4; } "#####, r#####" fn main() { let var_name = (1 + 2); var_name * 4; } "#####, ) } #[test] fn doctest_invert_if() { check( "invert_if", r#####" fn main() { if<|> !y { A } else { B } } "#####, r#####" fn main() { if y { B } else { A } } "#####, ) } #[test] fn doctest_make_raw_string() { check( "make_raw_string", r#####" fn main() { "Hello,<|> World!"; } "#####, r#####" fn main() { r#"Hello, World!"#; } "#####, ) } #[test] fn doctest_make_usual_string() { check( "make_usual_string", r#####" fn main() { r#"Hello,<|> "World!""#; } "#####, r#####" fn main() { "Hello, \"World!\""; } "#####, ) } #[test] fn doctest_merge_imports() { check( "merge_imports", r#####" use std::<|>fmt::Formatter; use std::io; "#####, r#####" use std::{fmt::Formatter, io}; "#####, ) } #[test] fn doctest_merge_match_arms() { check( "merge_match_arms", r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { <|>Action::Move(..) => foo(), Action::Stop => foo(), } } "#####, r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move(..) | Action::Stop => foo(), } } "#####, ) } #[test] fn doctest_move_arm_cond_to_match_guard() { check( "move_arm_cond_to_match_guard", r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => <|>if distance > 10 { foo() }, _ => (), } } "#####, r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } if distance > 10 => foo(), _ => (), } } "#####, ) } #[test] fn doctest_move_bounds_to_where_clause() { check( "move_bounds_to_where_clause", r#####" fn applyF: FnOnce(T) -> U>(f: F, x: T) -> U { f(x) } "#####, r#####" fn apply(f: F, x: T) -> U where F: FnOnce(T) -> U { f(x) } "#####, ) } #[test] fn doctest_move_guard_to_arm_body() { check( "move_guard_to_arm_body", r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } <|>if distance > 10 => foo(), _ => (), } } "#####, r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => if distance > 10 { foo() }, _ => (), } } "#####, ) } #[test] fn doctest_remove_dbg() { check( "remove_dbg", r#####" fn main() { <|>dbg!(92); } "#####, r#####" fn main() { 92; } "#####, ) } #[test] fn doctest_remove_hash() { check( "remove_hash", r#####" fn main() { r#"Hello,<|> World!"#; } "#####, r#####" fn main() { r"Hello, World!"; } "#####, ) } #[test] fn doctest_remove_mut() { check( "remove_mut", r#####" impl Walrus { fn feed(&mut<|> self, amount: u32) {} } "#####, r#####" impl Walrus { fn feed(&self, amount: u32) {} } "#####, ) } #[test] fn doctest_reorder_fields() { check( "reorder_fields", r#####" struct Foo {foo: i32, bar: i32}; const test: Foo = <|>Foo {bar: 0, foo: 1} "#####, r#####" struct Foo {foo: i32, bar: i32}; const test: Foo = Foo {foo: 1, bar: 0} "#####, ) } #[test] fn doctest_replace_if_let_with_match() { check( "replace_if_let_with_match", r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { <|>if let Action::Move { distance } = action { foo(distance) } else { bar() } } "#####, r#####" enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => foo(distance), _ => bar(), } } "#####, ) } #[test] fn doctest_replace_let_with_if_let() { check( "replace_let_with_if_let", r#####" enum Option { Some(T), None } fn main(action: Action) { <|>let x = compute(); } fn compute() -> Option { None } "#####, r#####" enum Option { Some(T), None } fn main(action: Action) { if let Some(x) = compute() { } } fn compute() -> Option { None } "#####, ) } #[test] fn doctest_replace_qualified_name_with_use() { check( "replace_qualified_name_with_use", r#####" fn process(map: std::collections::<|>HashMap) {} "#####, r#####" use std::collections::HashMap; fn process(map: HashMap) {} "#####, ) } #[test] fn doctest_replace_unwrap_with_match() { check( "replace_unwrap_with_match", r#####" enum Result { Ok(T), Err(E) } fn main() { let x: Result = Result::Ok(92); let y = x.<|>unwrap(); } "#####, r#####" enum Result { Ok(T), Err(E) } fn main() { let x: Result = Result::Ok(92); let y = match x { Ok(a) => a, _ => unreachable!(), }; } "#####, ) } #[test] fn doctest_split_import() { check( "split_import", r#####" use std::<|>collections::HashMap; "#####, r#####" use std::{collections::HashMap}; "#####, ) }