334 lines
8.5 KiB
Rust
334 lines
8.5 KiB
Rust
#![allow(
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unused,
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clippy::many_single_char_names,
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clippy::needless_lifetimes,
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clippy::redundant_clone,
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clippy::needless_pass_by_ref_mut
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)]
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#![warn(clippy::ptr_arg)]
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//@no-rustfix
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use std::borrow::Cow;
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use std::path::{Path, PathBuf};
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fn do_vec(x: &Vec<i64>) {
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//~^ ERROR: writing `&Vec` instead of `&[_]` involves a new object where a slice will do
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//~| NOTE: `-D clippy::ptr-arg` implied by `-D warnings`
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//Nothing here
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}
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fn do_vec_mut(x: &mut Vec<i64>) {
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//~^ ERROR: writing `&mut Vec` instead of `&mut [_]` involves a new object where a slice w
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//Nothing here
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}
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fn do_vec_mut2(x: &mut Vec<i64>) {
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//~^ ERROR: writing `&mut Vec` instead of `&mut [_]` involves a new object where a slice w
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x.len();
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x.is_empty();
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}
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fn do_str(x: &String) {
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//~^ ERROR: writing `&String` instead of `&str` involves a new object where a slice will d
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//Nothing here either
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}
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fn do_str_mut(x: &mut String) {
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//~^ ERROR: writing `&mut String` instead of `&mut str` involves a new object where a slic
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//Nothing here either
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}
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fn do_path(x: &PathBuf) {
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//~^ ERROR: writing `&PathBuf` instead of `&Path` involves a new object where a slice will
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//Nothing here either
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}
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fn do_path_mut(x: &mut PathBuf) {
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//~^ ERROR: writing `&mut PathBuf` instead of `&mut Path` involves a new object where a sl
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//Nothing here either
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}
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fn main() {}
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trait Foo {
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type Item;
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fn do_vec(x: &Vec<i64>);
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//~^ ERROR: writing `&Vec` instead of `&[_]` involves a new object where a slice will
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fn do_item(x: &Self::Item);
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}
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struct Bar;
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// no error, in trait impl (#425)
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impl Foo for Bar {
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type Item = Vec<u8>;
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fn do_vec(x: &Vec<i64>) {}
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fn do_item(x: &Vec<u8>) {}
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}
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fn cloned(x: &Vec<u8>) -> Vec<u8> {
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//~^ ERROR: writing `&Vec` instead of `&[_]` involves a new object where a slice will do
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let e = x.clone();
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let f = e.clone(); // OK
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let g = x;
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let h = g.clone();
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let i = (e).clone();
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x.clone()
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}
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fn str_cloned(x: &String) -> String {
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//~^ ERROR: writing `&String` instead of `&str` involves a new object where a slice will d
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let a = x.clone();
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let b = x.clone();
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let c = b.clone();
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let d = a.clone().clone().clone();
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x.clone()
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}
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fn path_cloned(x: &PathBuf) -> PathBuf {
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//~^ ERROR: writing `&PathBuf` instead of `&Path` involves a new object where a slice will
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let a = x.clone();
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let b = x.clone();
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let c = b.clone();
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let d = a.clone().clone().clone();
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x.clone()
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}
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fn false_positive_capacity(x: &Vec<u8>, y: &String) {
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//~^ ERROR: writing `&String` instead of `&str` involves a new object where a slice will d
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let a = x.capacity();
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let b = y.clone();
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let c = y.as_str();
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}
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fn false_positive_capacity_too(x: &String) -> String {
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if x.capacity() > 1024 {
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panic!("Too large!");
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}
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x.clone()
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}
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#[allow(dead_code)]
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fn test_cow_with_ref(c: &Cow<[i32]>) {}
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//~^ ERROR: using a reference to `Cow` is not recommended
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fn test_cow(c: Cow<[i32]>) {
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let _c = c;
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}
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trait Foo2 {
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fn do_string(&self);
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}
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// no error for &self references where self is of type String (#2293)
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impl Foo2 for String {
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fn do_string(&self) {}
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}
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// Check that the allow attribute on parameters is honored
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mod issue_5644 {
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use std::borrow::Cow;
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use std::path::PathBuf;
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fn allowed(
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#[allow(clippy::ptr_arg)] _v: &Vec<u32>,
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#[allow(clippy::ptr_arg)] _s: &String,
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#[allow(clippy::ptr_arg)] _p: &PathBuf,
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#[allow(clippy::ptr_arg)] _c: &Cow<[i32]>,
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#[expect(clippy::ptr_arg)] _expect: &Cow<[i32]>,
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) {
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}
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fn some_allowed(#[allow(clippy::ptr_arg)] _v: &Vec<u32>, _s: &String) {}
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//~^ ERROR: writing `&String` instead of `&str` involves a new object where a slice wi
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struct S;
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impl S {
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fn allowed(
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#[allow(clippy::ptr_arg)] _v: &Vec<u32>,
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#[allow(clippy::ptr_arg)] _s: &String,
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#[allow(clippy::ptr_arg)] _p: &PathBuf,
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#[allow(clippy::ptr_arg)] _c: &Cow<[i32]>,
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#[expect(clippy::ptr_arg)] _expect: &Cow<[i32]>,
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) {
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}
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}
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trait T {
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fn allowed(
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#[allow(clippy::ptr_arg)] _v: &Vec<u32>,
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#[allow(clippy::ptr_arg)] _s: &String,
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#[allow(clippy::ptr_arg)] _p: &PathBuf,
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#[allow(clippy::ptr_arg)] _c: &Cow<[i32]>,
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#[expect(clippy::ptr_arg)] _expect: &Cow<[i32]>,
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) {
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}
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}
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}
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mod issue6509 {
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use std::path::PathBuf;
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fn foo_vec(vec: &Vec<u8>) {
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//~^ ERROR: writing `&Vec` instead of `&[_]` involves a new object where a slice will
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let _ = vec.clone().pop();
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let _ = vec.clone().clone();
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}
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fn foo_path(path: &PathBuf) {
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//~^ ERROR: writing `&PathBuf` instead of `&Path` involves a new object where a slice
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let _ = path.clone().pop();
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let _ = path.clone().clone();
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}
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fn foo_str(str: &PathBuf) {
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//~^ ERROR: writing `&PathBuf` instead of `&Path` involves a new object where a slice
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let _ = str.clone().pop();
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let _ = str.clone().clone();
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}
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}
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fn mut_vec_slice_methods(v: &mut Vec<u32>) {
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//~^ ERROR: writing `&mut Vec` instead of `&mut [_]` involves a new object where a slice w
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v.copy_within(1..5, 10);
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}
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fn mut_vec_vec_methods(v: &mut Vec<u32>) {
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v.clear();
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}
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fn vec_contains(v: &Vec<u32>) -> bool {
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[vec![], vec![0]].as_slice().contains(v)
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}
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fn fn_requires_vec(v: &Vec<u32>) -> bool {
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vec_contains(v)
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}
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fn impl_fn_requires_vec(v: &Vec<u32>, f: impl Fn(&Vec<u32>)) {
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f(v);
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}
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fn dyn_fn_requires_vec(v: &Vec<u32>, f: &dyn Fn(&Vec<u32>)) {
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f(v);
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}
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// No error for types behind an alias (#7699)
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type A = Vec<u8>;
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fn aliased(a: &A) {}
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// Issue #8366
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pub trait Trait {
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fn f(v: &mut Vec<i32>);
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fn f2(v: &mut Vec<i32>) {}
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}
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// Issue #8463
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fn two_vecs(a: &mut Vec<u32>, b: &mut Vec<u32>) {
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a.push(0);
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a.push(0);
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a.push(0);
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b.push(1);
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}
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// Issue #8495
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fn cow_conditional_to_mut(a: &mut Cow<str>) {
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if a.is_empty() {
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a.to_mut().push_str("foo");
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}
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}
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// Issue #9542
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fn dyn_trait_ok(a: &mut Vec<u32>, b: &mut String, c: &mut PathBuf) {
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trait T {}
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impl<U> T for Vec<U> {}
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impl T for String {}
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impl T for PathBuf {}
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fn takes_dyn(_: &mut dyn T) {}
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takes_dyn(a);
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takes_dyn(b);
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takes_dyn(c);
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}
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fn dyn_trait(a: &mut Vec<u32>, b: &mut String, c: &mut PathBuf) {
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//~^ ERROR: writing `&mut Vec` instead of `&mut [_]` involves a new object where a slice w
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//~| ERROR: writing `&mut String` instead of `&mut str` involves a new object where a slic
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//~| ERROR: writing `&mut PathBuf` instead of `&mut Path` involves a new object where a sl
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trait T {}
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impl<U> T for Vec<U> {}
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impl<U> T for [U] {}
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impl T for String {}
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impl T for str {}
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impl T for PathBuf {}
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impl T for Path {}
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fn takes_dyn(_: &mut dyn T) {}
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takes_dyn(a);
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takes_dyn(b);
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takes_dyn(c);
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}
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mod issue_9218 {
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use std::borrow::Cow;
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fn cow_non_elided_lifetime<'a>(input: &Cow<'a, str>) -> &'a str {
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todo!()
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}
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// This one has an anonymous lifetime so it's not okay
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fn cow_elided_lifetime<'a>(input: &'a Cow<str>) -> &'a str {
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//~^ ERROR: using a reference to `Cow` is not recommended
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todo!()
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}
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// These two's return types don't use 'a so it's not okay
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fn cow_bad_ret_ty_1<'a>(input: &'a Cow<'a, str>) -> &'static str {
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//~^ ERROR: using a reference to `Cow` is not recommended
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todo!()
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}
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fn cow_bad_ret_ty_2<'a, 'b>(input: &'a Cow<'a, str>) -> &'b str {
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//~^ ERROR: using a reference to `Cow` is not recommended
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todo!()
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}
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// Inferred to be `&'a str`, afaik.
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fn cow_good_ret_ty<'a>(input: &'a Cow<'a, str>) -> &str {
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todo!()
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}
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}
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mod issue_11181 {
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extern "C" fn allowed(_v: &Vec<u32>) {}
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struct S;
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impl S {
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extern "C" fn allowed(_v: &Vec<u32>) {}
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}
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trait T {
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extern "C" fn allowed(_v: &Vec<u32>) {}
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}
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}
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mod issue_13308 {
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use std::ops::Deref;
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fn repro(source: &str, destination: &mut String) {
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source.clone_into(destination);
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}
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fn repro2(source: &str, destination: &mut String) {
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ToOwned::clone_into(source, destination);
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}
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fn h1(_: &<String as Deref>::Target) {}
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fn h2<T: Deref>(_: T, _: &T::Target) {}
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// Other cases that are still ok to lint and ideally shouldn't regress
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fn good(v1: &String, v2: &String) {
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//~^ ERROR: writing `&String` instead of `&str`
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//~^^ ERROR: writing `&String` instead of `&str`
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h1(v1);
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h2(String::new(), v2);
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}
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}
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