178 lines
5.5 KiB
Rust
178 lines
5.5 KiB
Rust
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#![deny(clippy::index_refutable_slice)]
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#![allow(clippy::uninlined_format_args)]
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enum SomeEnum<T> {
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One(T),
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Two(T),
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Three(T),
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Four(T),
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}
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fn lintable_examples() {
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// Try with reference
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let slice: Option<&[u32]> = Some(&[1, 2, 3]);
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if let Some([slice_0, ..]) = slice {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{}", slice_0);
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}
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// Try with copy
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let slice: Option<[u32; 3]> = Some([1, 2, 3]);
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if let Some([slice_0, ..]) = slice {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{}", slice_0);
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}
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// Try with long slice and small indices
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let slice: Option<[u32; 9]> = Some([1, 2, 3, 4, 5, 6, 7, 8, 9]);
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if let Some([slice_0, _, slice_2, ..]) = slice {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{}", slice_2);
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println!("{}", slice_0);
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}
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// Multiple bindings
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let slice_wrapped: SomeEnum<[u32; 3]> = SomeEnum::One([5, 6, 7]);
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if let SomeEnum::One([slice_0, ..]) | SomeEnum::Three([slice_0, ..]) = slice_wrapped {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{}", slice_0);
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}
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// Two lintable slices in one if let
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let a_wrapped: SomeEnum<[u32; 3]> = SomeEnum::One([9, 5, 1]);
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let b_wrapped: Option<[u32; 2]> = Some([4, 6]);
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if let (SomeEnum::Three([_, _, a_2, ..]), Some([_, b_1, ..])) = (a_wrapped, b_wrapped) {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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//~| ERROR: this binding can be a slice pattern to avoid indexing
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println!("{} -> {}", a_2, b_1);
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}
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// This requires the slice values to be borrowed as the slice values can only be
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// borrowed and `String` doesn't implement copy
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let slice: Option<[String; 2]> = Some([String::from("1"), String::from("2")]);
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if let Some([_, ref slice_1, ..]) = slice {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{:?}", slice_1);
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}
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println!("{:?}", slice);
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// This should not suggest using the `ref` keyword as the scrutinee is already
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// a reference
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let slice: Option<[String; 2]> = Some([String::from("1"), String::from("2")]);
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if let Some([slice_0, ..]) = &slice {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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println!("{:?}", slice_0);
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}
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println!("{:?}", slice);
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}
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fn slice_index_above_limit() {
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let slice: Option<&[u32]> = Some(&[1, 2, 3]);
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if let Some(slice) = slice {
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// Would cause a panic, IDK
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println!("{}", slice[7]);
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}
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}
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fn slice_is_used() {
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let slice: Option<&[u32]> = Some(&[1, 2, 3]);
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if let Some(slice) = slice {
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println!("{:?}", slice.len());
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}
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let slice: Option<&[u32]> = Some(&[1, 2, 3]);
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if let Some(slice) = slice {
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println!("{:?}", slice.to_vec());
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}
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let opt: Option<[String; 2]> = Some([String::from("Hello"), String::from("world")]);
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if let Some(slice) = opt {
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if !slice.is_empty() {
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println!("first: {}", slice[0]);
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}
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}
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}
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/// The slice is used by an external function and should therefore not be linted
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fn check_slice_as_arg() {
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fn is_interesting<T>(slice: &[T; 2]) -> bool {
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!slice.is_empty()
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}
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let slice_wrapped: Option<[String; 2]> = Some([String::from("Hello"), String::from("world")]);
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if let Some(slice) = &slice_wrapped {
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if is_interesting(slice) {
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println!("This is interesting {}", slice[0]);
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}
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}
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println!("{:?}", slice_wrapped);
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}
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fn check_slice_in_struct() {
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#[derive(Debug)]
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struct Wrapper<'a> {
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inner: Option<&'a [String]>,
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is_awesome: bool,
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}
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impl<'a> Wrapper<'a> {
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fn is_super_awesome(&self) -> bool {
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self.is_awesome
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}
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}
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let inner = &[String::from("New"), String::from("World")];
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let wrap = Wrapper {
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inner: Some(inner),
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is_awesome: true,
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};
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// Test 1: Field access
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if let Some([slice_0, ..]) = wrap.inner {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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if wrap.is_awesome {
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println!("This is awesome! {}", slice_0);
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}
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}
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// Test 2: function access
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if let Some([slice_0, ..]) = wrap.inner {
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//~^ ERROR: this binding can be a slice pattern to avoid indexing
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if wrap.is_super_awesome() {
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println!("This is super awesome! {}", slice_0);
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}
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}
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println!("Complete wrap: {:?}", wrap);
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}
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/// This would be a nice additional feature to have in the future, but adding it
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/// now would make the PR too large. This is therefore only a test that we don't
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/// lint cases we can't make a reasonable suggestion for
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fn mutable_slice_index() {
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// Mut access
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let mut slice: Option<[String; 1]> = Some([String::from("Penguin")]);
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if let Some(ref mut slice) = slice {
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slice[0] = String::from("Mr. Penguin");
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}
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println!("Use after modification: {:?}", slice);
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// Mut access on reference
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let mut slice: Option<[String; 1]> = Some([String::from("Cat")]);
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if let Some(slice) = &mut slice {
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slice[0] = String::from("Lord Meow Meow");
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}
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println!("Use after modification: {:?}", slice);
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}
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/// The lint will ignore bindings with sub patterns as it would be hard
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/// to build correct suggestions for these instances :)
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fn binding_with_sub_pattern() {
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let slice: Option<&[u32]> = Some(&[1, 2, 3]);
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if let Some(slice @ [_, _, _]) = slice {
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println!("{:?}", slice[2]);
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}
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}
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fn main() {}
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