# Assists Cursor position or selection is signified by `┃` character. ## `add_derive` Adds a new `#[derive()]` clause to a struct or enum. ```rust // BEFORE struct Point { x: u32, y: u32,┃ } // AFTER #[derive()] struct Point { x: u32, y: u32, } ``` ## `add_explicit_type` Specify type for a let binding. ```rust // BEFORE fn main() { let x┃ = 92; } // AFTER fn main() { let x: i32 = 92; } ``` ## `add_hash` Adds a hash to a raw string literal. ```rust // BEFORE fn main() { r#"Hello,┃ World!"#; } // AFTER fn main() { r##"Hello, World!"##; } ``` ## `add_impl` Adds a new inherent impl for a type. ```rust // BEFORE struct Ctx { data: T,┃ } // AFTER struct Ctx { data: T, } impl Ctx { } ``` ## `add_impl_default_members` Adds scaffold for overriding default impl members. ```rust // BEFORE trait T { Type X; fn foo(&self); fn bar(&self) {} } impl T for () { Type X = (); fn foo(&self) {}┃ } // AFTER trait T { Type X; fn foo(&self); fn bar(&self) {} } impl T for () { Type X = (); fn foo(&self) {} fn bar(&self) {} } ``` ## `add_impl_missing_members` Adds scaffold for required impl members. ```rust // BEFORE trait T { Type X; fn foo(&self); fn bar(&self) {} } impl T for () {┃ } // AFTER trait T { Type X; fn foo(&self); fn bar(&self) {} } impl T for () { fn foo(&self) { unimplemented!() } } ``` ## `apply_demorgan` Apply [De Morgan's law](https://en.wikipedia.org/wiki/De_Morgan%27s_laws). This transforms expressions of the form `!l || !r` into `!(l && r)`. This also works with `&&`. This assist can only be applied with the cursor on either `||` or `&&`, with both operands being a negation of some kind. This means something of the form `!x` or `x != y`. ```rust // BEFORE fn main() { if x != 4 ||┃ !y {} } // AFTER fn main() { if !(x == 4 && y) {} } ``` ## `change_visibility` Adds or changes existing visibility specifier. ```rust // BEFORE ┃fn frobnicate() {} // AFTER pub(crate) fn frobnicate() {} ``` ## `convert_to_guarded_return` Replace a large conditional with a guarded return. ```rust // BEFORE fn main() { ┃if cond { foo(); bar(); } } // AFTER fn main() { if !cond { return; } foo(); bar(); } ``` ## `fill_match_arms` Adds missing clauses to a `match` expression. ```rust // BEFORE enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { ┃ } } // AFTER enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => (), Action::Stop => (), } } ``` ## `flip_binexpr` Flips operands of a binary expression. ```rust // BEFORE fn main() { let _ = 90 +┃ 2; } // AFTER fn main() { let _ = 2 + 90; } ``` ## `flip_comma` Flips two comma-separated items. ```rust // BEFORE fn main() { ((1, 2),┃ (3, 4)); } // AFTER fn main() { ((3, 4), (1, 2)); } ``` ## `inline_local_variable` Inlines local variable. ```rust // BEFORE fn main() { let x┃ = 1 + 2; x * 4; } // AFTER fn main() { (1 + 2) * 4; } ``` ## `introduce_variable` Extracts subexpression into a variable. ```rust // BEFORE fn main() { ┃(1 + 2)┃ * 4; } // AFTER fn main() { let var_name = (1 + 2); var_name * 4; } ``` ## `make_raw_string` Adds `r#` to a plain string literal. ```rust // BEFORE fn main() { "Hello,┃ World!"; } // AFTER fn main() { r#"Hello, World!"#; } ``` ## `make_usual_string` Turns a raw string into a plain string. ```rust // BEFORE fn main() { r#"Hello,┃ "World!""#; } // AFTER fn main() { "Hello, \"World!\""; } ``` ## `merge_match_arms` Merges identical match arms. ```rust // BEFORE enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { ┃Action::Move(..) => foo(), Action::Stop => foo(), } } // AFTER enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move(..) | Action::Stop => foo(), } } ``` ## `move_arm_cond_to_match_guard` Moves if expression from match arm body into a guard. ```rust // BEFORE enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => ┃if distance > 10 { foo() }, _ => (), } } // AFTER enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } if distance > 10 => foo(), _ => (), } } ``` ## `move_bounds_to_where_clause` Moves inline type bounds to a where clause. ```rust // BEFORE fn apply U>(f: F, x: T) -> U { f(x) } // AFTER fn apply(f: F, x: T) -> U where F: FnOnce(T) -> U { f(x) } ``` ## `move_guard_to_arm_body` Moves match guard into match arm body. ```rust // BEFORE enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } ┃if distance > 10 => foo(), _ => (), } } // AFTER enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => if distance > 10 { foo() }, _ => (), } } ``` ## `remove_dbg` Removes `dbg!()` macro call. ```rust // BEFORE fn main() { ┃dbg!(92); } // AFTER fn main() { 92; } ``` ## `remove_hash` Removes a hash from a raw string literal. ```rust // BEFORE fn main() { r#"Hello,┃ World!"#; } // AFTER fn main() { r"Hello, World!"; } ``` ## `replace_if_let_with_match` Replaces `if let` with an else branch with a `match` expression. ```rust // BEFORE enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { ┃if let Action::Move { distance } = action { foo(distance) } else { bar() } } // AFTER enum Action { Move { distance: u32 }, Stop } fn handle(action: Action) { match action { Action::Move { distance } => foo(distance), _ => bar(), } } ``` ## `split_import` Wraps the tail of import into braces. ```rust // BEFORE use std::┃collections::HashMap; // AFTER use std::{collections::HashMap}; ```