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|
# 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<T: Clone> {
data: T,┃
}
// AFTER
struct Ctx<T: Clone> {
data: T,
}
impl<T: Clone> Ctx<T> {
}
```
## `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!() }
}
```
## `add_import`
Adds a use statement for a given fully-qualified path.
```rust
// BEFORE
fn process(map: std::collections::┃HashMap<String, String>) {}
// AFTER
use std::collections::HashMap;
fn process(map: HashMap<String, String>) {}
```
## `add_new`
Adds a new inherent impl for a type.
```rust
// BEFORE
struct Ctx<T: Clone> {
data: T,┃
}
// AFTER
struct Ctx<T: Clone> {
data: T,
}
impl<T: Clone> Ctx<T> {
fn new(data: T) -> Self { Self { data } }
}
```
## `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));
}
```
## `flip_trait_bound`
Flips two trait bounds.
```rust
// BEFORE
fn foo<T: Clone +┃ Copy>() { }
// AFTER
fn foo<T: Copy + Clone>() { }
```
## `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<T, U, ┃F: FnOnce(T) -> U>(f: F, x: T) -> U {
f(x)
}
// AFTER
fn apply<T, U, F>(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};
```
|