rust-clippy/tests/ui/unnecessary_to_owned.fixed

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#![allow(clippy::needless_borrow, clippy::ptr_arg)]
#![warn(clippy::unnecessary_to_owned, clippy::redundant_clone)]
use std::borrow::Cow;
use std::ffi::{CStr, CString, OsStr, OsString};
use std::ops::Deref;
#[derive(Clone)]
struct X(String);
impl Deref for X {
type Target = [u8];
fn deref(&self) -> &[u8] {
self.0.as_bytes()
}
}
impl AsRef<str> for X {
fn as_ref(&self) -> &str {
self.0.as_str()
}
}
impl ToString for X {
fn to_string(&self) -> String {
self.0.to_string()
}
}
impl X {
fn join(&self, other: impl AsRef<str>) -> Self {
let mut s = self.0.clone();
s.push_str(other.as_ref());
Self(s)
}
}
#[allow(dead_code)]
#[derive(Clone)]
enum FileType {
Account,
PrivateKey,
Certificate,
}
fn main() {
let c_str = CStr::from_bytes_with_nul(&[0]).unwrap();
let os_str = OsStr::new("x");
let path = std::path::Path::new("x");
let s = "x";
let array = ["x"];
let array_ref = &["x"];
let slice = &["x"][..];
let x = X(String::from("x"));
let x_ref = &x;
require_c_str(&Cow::from(c_str));
require_c_str(c_str);
require_os_str(os_str);
require_os_str(&Cow::from(os_str));
require_os_str(os_str);
require_path(path);
require_path(&Cow::from(path));
require_path(path);
require_str(s);
require_str(&Cow::from(s));
require_str(s);
require_str(x_ref.as_ref());
require_slice(slice);
require_slice(&Cow::from(slice));
require_slice(array.as_ref());
require_slice(array_ref.as_ref());
require_slice(slice);
require_slice(&x_ref.to_owned()); // No longer flagged because of #8759.
require_x(&Cow::<X>::Owned(x.clone()));
require_x(&x_ref.to_owned()); // No longer flagged because of #8759.
require_deref_c_str(c_str);
require_deref_os_str(os_str);
require_deref_path(path);
require_deref_str(s);
require_deref_slice(slice);
require_impl_deref_c_str(c_str);
require_impl_deref_os_str(os_str);
require_impl_deref_path(path);
require_impl_deref_str(s);
require_impl_deref_slice(slice);
require_deref_str_slice(s, slice);
require_deref_slice_str(slice, s);
require_as_ref_c_str(c_str);
require_as_ref_os_str(os_str);
require_as_ref_path(path);
require_as_ref_str(s);
require_as_ref_str(&x);
require_as_ref_slice(array);
require_as_ref_slice(array_ref);
require_as_ref_slice(slice);
require_impl_as_ref_c_str(c_str);
require_impl_as_ref_os_str(os_str);
require_impl_as_ref_path(path);
require_impl_as_ref_str(s);
require_impl_as_ref_str(&x);
require_impl_as_ref_slice(array);
require_impl_as_ref_slice(array_ref);
require_impl_as_ref_slice(slice);
require_as_ref_str_slice(s, array);
require_as_ref_str_slice(s, array_ref);
require_as_ref_str_slice(s, slice);
require_as_ref_slice_str(array, s);
require_as_ref_slice_str(array_ref, s);
require_as_ref_slice_str(slice, s);
let _ = x.join(x_ref);
let _ = slice.iter().copied();
let _ = slice.iter().copied();
let _ = [std::path::PathBuf::new()][..].iter().cloned();
let _ = [std::path::PathBuf::new()][..].iter().cloned();
let _ = slice.iter().copied();
let _ = slice.iter().copied();
let _ = [std::path::PathBuf::new()][..].iter().cloned();
let _ = [std::path::PathBuf::new()][..].iter().cloned();
let _ = check_files(&[FileType::Account]);
// negative tests
require_string(&s.to_string());
require_string(&Cow::from(s).into_owned());
require_string(&s.to_owned());
require_string(&x_ref.to_string());
// `X` isn't copy.
require_slice(&x.to_owned());
require_deref_slice(x.to_owned());
// The following should be flagged by `redundant_clone`, but not by this lint.
require_c_str(&CString::from_vec_with_nul(vec![0]).unwrap());
require_os_str(&OsString::from("x"));
require_path(&std::path::PathBuf::from("x"));
require_str(&String::from("x"));
require_slice(&[String::from("x")]);
}
fn require_c_str(_: &CStr) {}
fn require_os_str(_: &OsStr) {}
fn require_path(_: &std::path::Path) {}
fn require_str(_: &str) {}
fn require_slice<T>(_: &[T]) {}
fn require_x(_: &X) {}
fn require_deref_c_str<T: Deref<Target = CStr>>(_: T) {}
fn require_deref_os_str<T: Deref<Target = OsStr>>(_: T) {}
fn require_deref_path<T: Deref<Target = std::path::Path>>(_: T) {}
fn require_deref_str<T: Deref<Target = str>>(_: T) {}
fn require_deref_slice<T, U: Deref<Target = [T]>>(_: U) {}
fn require_impl_deref_c_str(_: impl Deref<Target = CStr>) {}
fn require_impl_deref_os_str(_: impl Deref<Target = OsStr>) {}
fn require_impl_deref_path(_: impl Deref<Target = std::path::Path>) {}
fn require_impl_deref_str(_: impl Deref<Target = str>) {}
fn require_impl_deref_slice<T>(_: impl Deref<Target = [T]>) {}
fn require_deref_str_slice<T: Deref<Target = str>, U, V: Deref<Target = [U]>>(_: T, _: V) {}
fn require_deref_slice_str<T, U: Deref<Target = [T]>, V: Deref<Target = str>>(_: U, _: V) {}
fn require_as_ref_c_str<T: AsRef<CStr>>(_: T) {}
fn require_as_ref_os_str<T: AsRef<OsStr>>(_: T) {}
fn require_as_ref_path<T: AsRef<std::path::Path>>(_: T) {}
fn require_as_ref_str<T: AsRef<str>>(_: T) {}
fn require_as_ref_slice<T, U: AsRef<[T]>>(_: U) {}
fn require_impl_as_ref_c_str(_: impl AsRef<CStr>) {}
fn require_impl_as_ref_os_str(_: impl AsRef<OsStr>) {}
fn require_impl_as_ref_path(_: impl AsRef<std::path::Path>) {}
fn require_impl_as_ref_str(_: impl AsRef<str>) {}
fn require_impl_as_ref_slice<T>(_: impl AsRef<[T]>) {}
fn require_as_ref_str_slice<T: AsRef<str>, U, V: AsRef<[U]>>(_: T, _: V) {}
fn require_as_ref_slice_str<T, U: AsRef<[T]>, V: AsRef<str>>(_: U, _: V) {}
// `check_files` is based on:
// https://github.com/breard-r/acmed/blob/1f0dcc32aadbc5e52de6d23b9703554c0f925113/acmed/src/storage.rs#L262
fn check_files(file_types: &[FileType]) -> bool {
for t in file_types {
let path = match get_file_path(t) {
Ok(p) => p,
Err(_) => {
return false;
},
};
if !path.is_file() {
return false;
}
}
true
}
fn get_file_path(_file_type: &FileType) -> Result<std::path::PathBuf, std::io::Error> {
Ok(std::path::PathBuf::new())
}
fn require_string(_: &String) {}
#[clippy::msrv = "1.35"]
fn _msrv_1_35() {
// `copied` was stabilized in 1.36, so clippy should use `cloned`.
let _ = &["x"][..].iter().cloned();
}
#[clippy::msrv = "1.36"]
fn _msrv_1_36() {
let _ = &["x"][..].iter().copied();
}
// https://github.com/rust-lang/rust-clippy/issues/8507
mod issue_8507 {
#![allow(dead_code)]
struct Opaque<P>(P);
pub trait Abstracted {}
impl<P> Abstracted for Opaque<P> {}
fn build<P>(p: P) -> Opaque<P>
where
P: AsRef<str>,
{
Opaque(p)
}
// Should not lint.
fn test_str(s: &str) -> Box<dyn Abstracted> {
Box::new(build(s.to_string()))
}
// Should not lint.
fn test_x(x: super::X) -> Box<dyn Abstracted> {
Box::new(build(x))
}
#[derive(Clone, Copy)]
struct Y(&'static str);
impl AsRef<str> for Y {
fn as_ref(&self) -> &str {
self.0
}
}
impl ToString for Y {
fn to_string(&self) -> String {
self.0.to_string()
}
}
// Should lint because Y is copy.
fn test_y(y: Y) -> Box<dyn Abstracted> {
Box::new(build(y))
}
}
// https://github.com/rust-lang/rust-clippy/issues/8759
mod issue_8759 {
#![allow(dead_code)]
#[derive(Default)]
struct View {}
impl std::borrow::ToOwned for View {
type Owned = View;
fn to_owned(&self) -> Self::Owned {
View {}
}
}
#[derive(Default)]
struct RenderWindow {
default_view: View,
}
impl RenderWindow {
fn default_view(&self) -> &View {
&self.default_view
}
fn set_view(&mut self, _view: &View) {}
}
fn main() {
let mut rw = RenderWindow::default();
rw.set_view(&rw.default_view().to_owned());
}
}
mod issue_8759_variant {
#![allow(dead_code)]
#[derive(Clone, Default)]
struct View {}
#[derive(Default)]
struct RenderWindow {
default_view: View,
}
impl RenderWindow {
fn default_view(&self) -> &View {
&self.default_view
}
fn set_view(&mut self, _view: &View) {}
}
fn main() {
let mut rw = RenderWindow::default();
rw.set_view(&rw.default_view().to_owned());
}
}
mod issue_9317 {
#![allow(dead_code)]
struct Bytes {}
impl ToString for Bytes {
fn to_string(&self) -> String {
"123".to_string()
}
}
impl AsRef<[u8]> for Bytes {
fn as_ref(&self) -> &[u8] {
&[1, 2, 3]
}
}
fn consume<C: AsRef<[u8]>>(c: C) {
let _ = c;
}
pub fn main() {
let b = Bytes {};
// Should not lint.
consume(b.to_string());
}
}
mod issue_9351 {
#![allow(dead_code)]
use std::ops::Deref;
use std::path::{Path, PathBuf};
fn require_deref_path<T: Deref<Target = std::path::Path>>(x: T) -> T {
x
}
fn generic_arg_used_elsewhere<T: AsRef<Path>>(_x: T, _y: T) {}
fn id<T: AsRef<str>>(x: T) -> T {
x
}
fn predicates_are_satisfied(_x: impl std::fmt::Write) {}
// Should lint
fn single_return() -> impl AsRef<str> {
id("abc")
}
// Should not lint
fn multiple_returns(b: bool) -> impl AsRef<str> {
if b {
return String::new();
}
id("abc".to_string())
}
struct S1(String);
// Should not lint
fn fields1() -> S1 {
S1(id("abc".to_string()))
}
struct S2 {
s: String,
}
// Should not lint
fn fields2() {
let mut s = S2 { s: "abc".into() };
s.s = id("abc".to_string());
}
pub fn main() {
let path = std::path::Path::new("x");
let path_buf = path.to_owned();
// Should not lint.
let _x: PathBuf = require_deref_path(path.to_owned());
generic_arg_used_elsewhere(path.to_owned(), path_buf);
predicates_are_satisfied(id("abc".to_string()));
}
}
mod issue_9504 {
#![allow(dead_code)]
async fn foo<S: AsRef<str>>(_: S) {}
async fn bar() {
foo(std::path::PathBuf::new().to_string_lossy().to_string()).await;
}
}
mod issue_9771a {
#![allow(dead_code)]
use std::marker::PhantomData;
pub struct Key<K: AsRef<[u8]>, V: ?Sized>(K, PhantomData<V>);
impl<K: AsRef<[u8]>, V: ?Sized> Key<K, V> {
pub fn new(key: K) -> Key<K, V> {
Key(key, PhantomData)
}
}
pub fn pkh(pkh: &[u8]) -> Key<Vec<u8>, String> {
Key::new([b"pkh-", pkh].concat().to_vec())
}
}
mod issue_9771b {
#![allow(dead_code)]
pub struct Key<K: AsRef<[u8]>>(K);
pub fn from(c: &[u8]) -> Key<Vec<u8>> {
let v = [c].concat();
Key(v.to_vec())
}
}
// This is a watered down version of the code in: https://github.com/oxigraph/rio
// The ICE is triggered by the call to `to_owned` on this line:
// https://github.com/oxigraph/rio/blob/66635b9ff8e5423e58932353fa40d6e64e4820f7/testsuite/src/parser_evaluator.rs#L116
mod issue_10021 {
#![allow(unused)]
pub struct Iri<T>(T);
impl<T: AsRef<str>> Iri<T> {
pub fn parse(iri: T) -> Result<Self, ()> {
unimplemented!()
}
}
pub fn parse_w3c_rdf_test_file(url: &str) -> Result<(), ()> {
let base_iri = Iri::parse(url.to_owned())?;
Ok(())
}
}
mod issue_10033 {
#![allow(dead_code)]
use std::fmt::Display;
use std::ops::Deref;
fn _main() {
let f = Foo;
// Not actually unnecessary - this calls `Foo`'s `Display` impl, not `str`'s (even though `Foo` does
// deref to `str`)
foo(&f.to_string());
}
fn foo(s: &str) {
println!("{}", s);
}
struct Foo;
impl Deref for Foo {
type Target = str;
fn deref(&self) -> &Self::Target {
"str"
}
}
impl Display for Foo {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Foo")
}
}
}