Add assigning_clones lint

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Jakub Beránek 2024-01-01 18:51:45 +01:00
parent 346b094a11
commit 0656d28f6b
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6 changed files with 844 additions and 0 deletions

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@ -0,0 +1,312 @@
use clippy_utils::diagnostics::span_lint_and_then;
use clippy_utils::sugg::Sugg;
use clippy_utils::{is_trait_method, path_to_local};
use rustc_errors::Applicability;
use rustc_hir::{self as hir, Expr, ExprKind, Node};
use rustc_lint::{LateContext, LateLintPass};
use rustc_middle::ty;
use rustc_middle::ty::{Instance, Mutability};
use rustc_session::declare_lint_pass;
use rustc_span::def_id::DefId;
use rustc_span::symbol::sym;
declare_clippy_lint! {
/// ### What it does
/// Checks for code like `foo = bar.clone();`
///
/// ### Why is this bad?
/// Custom `Clone::clone_from()` or `ToOwned::clone_into` implementations allow the objects
/// to share resources and therefore avoid allocations.
///
/// ### Example
/// ```rust
/// struct Thing;
///
/// impl Clone for Thing {
/// fn clone(&self) -> Self { todo!() }
/// fn clone_from(&mut self, other: &Self) -> Self { todo!() }
/// }
///
/// pub fn assign_to_ref(a: &mut Thing, b: Thing) {
/// *a = b.clone();
/// }
/// ```
/// Use instead:
/// ```rust
/// struct Thing;
/// impl Clone for Thing {
/// fn clone(&self) -> Self { todo!() }
/// fn clone_from(&mut self, other: &Self) -> Self { todo!() }
/// }
///
/// pub fn assign_to_ref(a: &mut Thing, b: Thing) {
/// a.clone_from(&b);
/// }
/// ```
#[clippy::version = "1.77.0"]
pub ASSIGNING_CLONES,
perf,
"assigning the result of cloning may be inefficient"
}
declare_lint_pass!(AssigningClones => [ASSIGNING_CLONES]);
impl<'tcx> LateLintPass<'tcx> for AssigningClones {
fn check_expr(&mut self, cx: &LateContext<'tcx>, assign_expr: &'tcx hir::Expr<'_>) {
let ExprKind::Assign(lhs, rhs, _span) = assign_expr.kind else {
return;
};
let Some(call) = extract_call(cx, rhs) else {
return;
};
if is_ok_to_suggest(cx, lhs, &call) {
suggest(cx, assign_expr, lhs, call);
}
}
}
// Try to resolve the call to `Clone::clone` or `ToOwned::to_owned`.
fn extract_call<'tcx>(cx: &LateContext<'tcx>, expr: &'tcx Expr<'tcx>) -> Option<CallCandidate<'tcx>> {
let Some(fn_def_id) = clippy_utils::fn_def_id(cx, expr) else {
return None;
};
// Fast paths to only check method calls without arguments or function calls with a single argument
let (target, kind, resolved_method) = match expr.kind {
ExprKind::MethodCall(path, receiver, [], _span) => {
let args = cx.typeck_results().node_args(expr.hir_id);
let resolved_method = Instance::resolve(cx.tcx, cx.param_env, fn_def_id, args);
if is_trait_method(cx, expr, sym::Clone) && path.ident.name == sym::clone {
(TargetTrait::Clone, CallKind::MethodCall { receiver }, resolved_method)
} else if is_trait_method(cx, expr, sym::ToOwned) && path.ident.name == sym!(to_owned) {
(TargetTrait::ToOwned, CallKind::MethodCall { receiver }, resolved_method)
} else {
return None;
}
},
ExprKind::Call(function, args) if args.len() == 1 => {
let kind = cx.typeck_results().node_type(function.hir_id).kind();
let resolved_method = match kind {
ty::FnDef(_, args) => Instance::resolve(cx.tcx, cx.param_env, fn_def_id, args),
_ => return None,
};
if cx.tcx.is_diagnostic_item(sym::to_owned_method, fn_def_id) {
(
TargetTrait::ToOwned,
CallKind::FunctionCall { self_arg: &args[0] },
resolved_method,
)
} else if let Some(trait_did) = cx.tcx.trait_of_item(fn_def_id)
&& cx.tcx.is_diagnostic_item(sym::Clone, trait_did)
{
(
TargetTrait::Clone,
CallKind::FunctionCall { self_arg: &args[0] },
resolved_method,
)
} else {
return None;
}
},
_ => return None,
};
let Ok(Some(resolved_method)) = resolved_method else {
// If we could not resolve the method, don't apply the lint
return None;
};
Some(CallCandidate {
target,
kind,
method_def_id: resolved_method.def_id(),
})
}
// Return true if we find that the called method has a custom implementation and isn't derived or
// provided by default by the corresponding trait.
fn is_ok_to_suggest<'tcx>(cx: &LateContext<'tcx>, lhs: &Expr<'tcx>, call: &CallCandidate<'tcx>) -> bool {
// If the left-hand side is a local variable, it might be uninitialized at this point.
// In that case we do not want to suggest the lint.
if let Some(local) = path_to_local(lhs) {
// TODO: This check currently bails if the local variable has no initializer.
// That is overly conservative - the lint should fire even if there was no initializer,
// but the variable has been initialized before `lhs` was evaluated.
if let Some(Node::Local(local)) = cx.tcx.opt_hir_node(cx.tcx.hir().parent_id(local))
&& local.init.is_none()
{
return false;
}
}
let Some(impl_block) = cx.tcx.impl_of_method(call.method_def_id) else {
return false;
};
// If the method implementation comes from #[derive(Clone)], then don't suggest the lint.
// Automatically generated Clone impls do not override `clone_from`.
// See e.g. https://github.com/rust-lang/rust/pull/98445#issuecomment-1190681305 for more details.
if cx.tcx.is_builtin_derived(impl_block) {
return false;
}
// Find the function for which we want to check that it is implemented.
let provided_fn = match call.target {
TargetTrait::Clone => cx.tcx.get_diagnostic_item(sym::Clone).and_then(|clone| {
cx.tcx
.provided_trait_methods(clone)
.find(|item| item.name == sym::clone_from)
}),
TargetTrait::ToOwned => cx.tcx.get_diagnostic_item(sym::ToOwned).and_then(|to_owned| {
cx.tcx
.provided_trait_methods(to_owned)
.find(|item| item.name == sym!(clone_into))
}),
};
let Some(provided_fn) = provided_fn else {
return false;
};
// Now take a look if the impl block defines an implementation for the method that we're interested
// in. If not, then we're using a default implementation, which is not interesting, so we will
// not suggest the lint.
let implemented_fns = cx.tcx.impl_item_implementor_ids(impl_block);
implemented_fns.contains_key(&provided_fn.def_id)
}
fn suggest<'tcx>(
cx: &LateContext<'tcx>,
assign_expr: &hir::Expr<'tcx>,
lhs: &hir::Expr<'tcx>,
call: CallCandidate<'tcx>,
) {
span_lint_and_then(cx, ASSIGNING_CLONES, assign_expr.span, call.message(), |diag| {
let mut applicability = Applicability::MachineApplicable;
diag.span_suggestion(
assign_expr.span,
call.suggestion_msg(),
call.suggested_replacement(cx, lhs, &mut applicability),
applicability,
);
});
}
#[derive(Copy, Clone, Debug)]
enum CallKind<'tcx> {
MethodCall { receiver: &'tcx Expr<'tcx> },
FunctionCall { self_arg: &'tcx Expr<'tcx> },
}
#[derive(Copy, Clone, Debug)]
enum TargetTrait {
Clone,
ToOwned,
}
#[derive(Debug)]
struct CallCandidate<'tcx> {
target: TargetTrait,
kind: CallKind<'tcx>,
// DefId of the called method from an impl block that implements the target trait
method_def_id: DefId,
}
impl<'tcx> CallCandidate<'tcx> {
fn message(&self) -> &'static str {
match self.target {
TargetTrait::Clone => "assigning the result of `Clone::clone()` may be inefficient",
TargetTrait::ToOwned => "assigning the result of `ToOwned::to_owned()` may be inefficient",
}
}
fn suggestion_msg(&self) -> &'static str {
match self.target {
TargetTrait::Clone => "use `clone_from()`",
TargetTrait::ToOwned => "use `clone_into()`",
}
}
fn suggested_replacement(
&self,
cx: &LateContext<'tcx>,
lhs: &hir::Expr<'tcx>,
applicability: &mut Applicability,
) -> String {
match self.target {
TargetTrait::Clone => {
match self.kind {
CallKind::MethodCall { receiver } => {
let receiver_sugg = if let ExprKind::Unary(hir::UnOp::Deref, ref_expr) = lhs.kind {
// `*lhs = self_expr.clone();` -> `lhs.clone_from(self_expr)`
Sugg::hir_with_applicability(cx, ref_expr, "_", applicability)
} else {
// `lhs = self_expr.clone();` -> `lhs.clone_from(self_expr)`
Sugg::hir_with_applicability(cx, lhs, "_", applicability)
}
.maybe_par();
// Determine whether we need to reference the argument to clone_from().
let clone_receiver_type = cx.typeck_results().expr_ty(receiver);
let clone_receiver_adj_type = cx.typeck_results().expr_ty_adjusted(receiver);
let mut arg_sugg = Sugg::hir_with_applicability(cx, receiver, "_", applicability);
if clone_receiver_type != clone_receiver_adj_type {
// The receiver may have been a value type, so we need to add an `&` to
// be sure the argument to clone_from will be a reference.
arg_sugg = arg_sugg.addr();
};
format!("{receiver_sugg}.clone_from({arg_sugg})")
},
CallKind::FunctionCall { self_arg, .. } => {
let self_sugg = if let ExprKind::Unary(hir::UnOp::Deref, ref_expr) = lhs.kind {
// `*lhs = Clone::clone(self_expr);` -> `Clone::clone_from(lhs, self_expr)`
Sugg::hir_with_applicability(cx, ref_expr, "_", applicability)
} else {
// `lhs = Clone::clone(self_expr);` -> `Clone::clone_from(&mut lhs, self_expr)`
Sugg::hir_with_applicability(cx, lhs, "_", applicability).mut_addr()
};
// The RHS had to be exactly correct before the call, there is no auto-deref for function calls.
let rhs_sugg = Sugg::hir_with_applicability(cx, self_arg, "_", applicability);
// TODO: how to get rid of the full path? Modify the function call function's (q)path? Or
// auto-import it the trait?
format!("::std::clone::Clone::clone_from({self_sugg}, {rhs_sugg})")
},
}
},
TargetTrait::ToOwned => {
let rhs_sugg = if let ExprKind::Unary(hir::UnOp::Deref, ref_expr) = lhs.kind {
// `*lhs = rhs.to_owned()` -> `rhs.clone_into(lhs)`
// `*lhs = ToOwned::to_owned(rhs)` -> `ToOwned::clone_into(rhs, lhs)`
let sugg = Sugg::hir_with_applicability(cx, ref_expr, "_", applicability).maybe_par();
let inner_type = cx.typeck_results().expr_ty(ref_expr);
// If after unwrapping the dereference, the type is not a mutable reference, we add &mut to make it
// deref to a mutable reference.
if matches!(inner_type.kind(), ty::Ref(_, _, Mutability::Mut)) {
sugg
} else {
sugg.mut_addr()
}
} else {
// `lhs = rhs.to_owned()` -> `rhs.clone_into(&mut lhs)`
// `lhs = ToOwned::to_owned(rhs)` -> `ToOwned::clone_into(rhs, &mut lhs)`
Sugg::hir_with_applicability(cx, lhs, "_", applicability)
.maybe_par()
.mut_addr()
};
match self.kind {
CallKind::MethodCall { receiver } => {
let receiver_sugg = Sugg::hir_with_applicability(cx, receiver, "_", applicability);
format!("{receiver_sugg}.clone_into({rhs_sugg})")
},
CallKind::FunctionCall { self_arg, .. } => {
let self_sugg = Sugg::hir_with_applicability(cx, self_arg, "_", applicability);
format!("::std::borrow::ToOwned::clone_into({self_sugg}, {rhs_sugg})")
},
}
},
}
}
}

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@ -47,6 +47,7 @@
crate::asm_syntax::INLINE_ASM_X86_INTEL_SYNTAX_INFO,
crate::assertions_on_constants::ASSERTIONS_ON_CONSTANTS_INFO,
crate::assertions_on_result_states::ASSERTIONS_ON_RESULT_STATES_INFO,
crate::assigning_clones::ASSIGNING_CLONES_INFO,
crate::async_yields_async::ASYNC_YIELDS_ASYNC_INFO,
crate::attrs::ALLOW_ATTRIBUTES_WITHOUT_REASON_INFO,
crate::attrs::BLANKET_CLIPPY_RESTRICTION_LINTS_INFO,

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@ -80,6 +80,7 @@
mod asm_syntax;
mod assertions_on_constants;
mod assertions_on_result_states;
mod assigning_clones;
mod async_yields_async;
mod attrs;
mod await_holding_invalid;
@ -1118,6 +1119,7 @@ pub fn register_lints(store: &mut rustc_lint::LintStore, conf: &'static Conf) {
store.register_late_pass(move |_| Box::new(incompatible_msrv::IncompatibleMsrv::new(msrv())));
store.register_late_pass(|_| Box::new(to_string_trait_impl::ToStringTraitImpl));
store.register_early_pass(|| Box::new(multiple_bound_locations::MultipleBoundLocations));
store.register_late_pass(|_| Box::new(assigning_clones::AssigningClones));
// add lints here, do not remove this comment, it's used in `new_lint`
}

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@ -0,0 +1,211 @@
// run-rustfix
#![allow(unused)]
#![allow(clippy::redundant_clone)]
#![allow(clippy::ptr_arg)] // https://github.com/rust-lang/rust-clippy/issues/10612
#![allow(clippy::needless_late_init)]
#![allow(clippy::box_collection)]
#![warn(clippy::assigning_clones)]
use std::borrow::ToOwned;
use std::ops::{Add, Deref, DerefMut};
// Clone
pub struct HasCloneFrom;
impl Clone for HasCloneFrom {
fn clone(&self) -> Self {
Self
}
fn clone_from(&mut self, source: &Self) {
*self = HasCloneFrom;
}
}
fn clone_method_rhs_val(mut_thing: &mut HasCloneFrom, value_thing: HasCloneFrom) {
mut_thing.clone_from(&value_thing);
}
fn clone_method_rhs_ref(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
mut_thing.clone_from(ref_thing);
}
fn clone_method_lhs_val(mut mut_thing: HasCloneFrom, ref_thing: &HasCloneFrom) {
mut_thing.clone_from(ref_thing);
}
fn clone_function_lhs_mut_ref(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
::std::clone::Clone::clone_from(mut_thing, ref_thing);
}
fn clone_function_lhs_val(mut mut_thing: HasCloneFrom, ref_thing: &HasCloneFrom) {
::std::clone::Clone::clone_from(&mut mut_thing, ref_thing);
}
fn clone_function_through_trait(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
::std::clone::Clone::clone_from(mut_thing, ref_thing);
}
fn clone_function_through_type(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
::std::clone::Clone::clone_from(mut_thing, ref_thing);
}
fn clone_function_fully_qualified(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
::std::clone::Clone::clone_from(mut_thing, ref_thing);
}
fn clone_method_lhs_complex(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
// These parens should be kept as necessary for a receiver
(mut_thing + &mut HasCloneFrom).clone_from(ref_thing);
}
fn clone_method_rhs_complex(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
// These parens should be removed since they are not needed in a function argument
mut_thing.clone_from(ref_thing + ref_thing);
}
fn assign_to_init_mut_var(b: HasCloneFrom) -> HasCloneFrom {
let mut a = HasCloneFrom;
for _ in 1..10 {
a.clone_from(&b);
}
a
}
fn assign_to_late_init_mut_var(b: HasCloneFrom) {
let mut a;
a = HasCloneFrom;
a = b.clone();
}
fn assign_to_uninit_var(b: HasCloneFrom) {
let a;
a = b.clone();
}
fn assign_to_uninit_mut_var(b: HasCloneFrom) {
let mut a;
a = b.clone();
}
#[derive(Clone)]
pub struct HasDeriveClone;
fn ignore_derive_clone(a: &mut HasDeriveClone, b: &HasDeriveClone) {
// Should not be linted, since the Clone impl is derived
*a = b.clone();
}
pub struct HasCloneImpl;
impl Clone for HasCloneImpl {
fn clone(&self) -> Self {
Self
}
}
fn ignore_missing_clone_from(a: &mut HasCloneImpl, b: &HasCloneImpl) {
// Should not be linted, since the Clone impl doesn't override clone_from
*a = b.clone();
}
struct FakeClone;
impl FakeClone {
/// This looks just like `Clone::clone`
fn clone(&self) -> Self {
FakeClone
}
}
fn ignore_fake_clone() {
let mut a = FakeClone;
let b = FakeClone;
// Should not be linted, since the Clone impl doesn't come from std
a = b.clone();
}
fn ignore_generic_clone<T: Clone>(a: &mut T, b: &T) {
// Should not be linted, since we don't know the actual clone impl
*a = b.clone();
}
// ToOwned
fn owned_method_mut_ref(mut_string: &mut String, ref_str: &str) {
ref_str.clone_into(mut_string);
}
fn owned_method_val(mut mut_string: String, ref_str: &str) {
ref_str.clone_into(&mut mut_string);
}
struct HasDeref {
a: String
}
impl Deref for HasDeref {
type Target = String;
fn deref(&self) -> &Self::Target {
&self.a
}
}
impl DerefMut for HasDeref {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.a
}
}
fn owned_method_box(mut_box_string: &mut Box<String>, ref_str: &str) {
ref_str.clone_into(&mut (*mut_box_string));
}
fn owned_method_deref(mut_box_string: &mut HasDeref, ref_str: &str) {
ref_str.clone_into(&mut (*mut_box_string));
}
fn owned_function_mut_ref(mut_thing: &mut String, ref_str: &str) {
::std::borrow::ToOwned::clone_into(ref_str, mut_thing);
}
fn owned_function_val(mut mut_thing: String, ref_str: &str) {
::std::borrow::ToOwned::clone_into(ref_str, &mut mut_thing);
}
struct FakeToOwned;
impl FakeToOwned {
/// This looks just like `ToOwned::to_owned`
fn to_owned(&self) -> Self {
FakeToOwned
}
}
fn fake_to_owned() {
let mut a = FakeToOwned;
let b = FakeToOwned;
// Should not be linted, since the ToOwned impl doesn't come from std
a = b.to_owned();
}
fn main() {}
/// Trait implementation to allow producing a `Thing` with a low-precedence expression.
impl Add for HasCloneFrom {
type Output = Self;
fn add(self, _: HasCloneFrom) -> Self {
self
}
}
/// Trait implementation to allow producing a `&Thing` with a low-precedence expression.
impl<'a> Add for &'a HasCloneFrom {
type Output = Self;
fn add(self, _: &'a HasCloneFrom) -> Self {
self
}
}
/// Trait implementation to allow producing a `&mut Thing` with a low-precedence expression.
impl<'a> Add for &'a mut HasCloneFrom {
type Output = Self;
fn add(self, _: &'a mut HasCloneFrom) -> Self {
self
}
}

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@ -0,0 +1,211 @@
// run-rustfix
#![allow(unused)]
#![allow(clippy::redundant_clone)]
#![allow(clippy::ptr_arg)] // https://github.com/rust-lang/rust-clippy/issues/10612
#![allow(clippy::needless_late_init)]
#![allow(clippy::box_collection)]
#![warn(clippy::assigning_clones)]
use std::borrow::ToOwned;
use std::ops::{Add, Deref, DerefMut};
// Clone
pub struct HasCloneFrom;
impl Clone for HasCloneFrom {
fn clone(&self) -> Self {
Self
}
fn clone_from(&mut self, source: &Self) {
*self = HasCloneFrom;
}
}
fn clone_method_rhs_val(mut_thing: &mut HasCloneFrom, value_thing: HasCloneFrom) {
*mut_thing = value_thing.clone();
}
fn clone_method_rhs_ref(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
*mut_thing = ref_thing.clone();
}
fn clone_method_lhs_val(mut mut_thing: HasCloneFrom, ref_thing: &HasCloneFrom) {
mut_thing = ref_thing.clone();
}
fn clone_function_lhs_mut_ref(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
*mut_thing = Clone::clone(ref_thing);
}
fn clone_function_lhs_val(mut mut_thing: HasCloneFrom, ref_thing: &HasCloneFrom) {
mut_thing = Clone::clone(ref_thing);
}
fn clone_function_through_trait(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
*mut_thing = Clone::clone(ref_thing);
}
fn clone_function_through_type(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
*mut_thing = HasCloneFrom::clone(ref_thing);
}
fn clone_function_fully_qualified(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
*mut_thing = <HasCloneFrom as Clone>::clone(ref_thing);
}
fn clone_method_lhs_complex(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
// These parens should be kept as necessary for a receiver
*(mut_thing + &mut HasCloneFrom) = ref_thing.clone();
}
fn clone_method_rhs_complex(mut_thing: &mut HasCloneFrom, ref_thing: &HasCloneFrom) {
// These parens should be removed since they are not needed in a function argument
*mut_thing = (ref_thing + ref_thing).clone();
}
fn assign_to_init_mut_var(b: HasCloneFrom) -> HasCloneFrom {
let mut a = HasCloneFrom;
for _ in 1..10 {
a = b.clone();
}
a
}
fn assign_to_late_init_mut_var(b: HasCloneFrom) {
let mut a;
a = HasCloneFrom;
a = b.clone();
}
fn assign_to_uninit_var(b: HasCloneFrom) {
let a;
a = b.clone();
}
fn assign_to_uninit_mut_var(b: HasCloneFrom) {
let mut a;
a = b.clone();
}
#[derive(Clone)]
pub struct HasDeriveClone;
fn ignore_derive_clone(a: &mut HasDeriveClone, b: &HasDeriveClone) {
// Should not be linted, since the Clone impl is derived
*a = b.clone();
}
pub struct HasCloneImpl;
impl Clone for HasCloneImpl {
fn clone(&self) -> Self {
Self
}
}
fn ignore_missing_clone_from(a: &mut HasCloneImpl, b: &HasCloneImpl) {
// Should not be linted, since the Clone impl doesn't override clone_from
*a = b.clone();
}
struct FakeClone;
impl FakeClone {
/// This looks just like `Clone::clone`
fn clone(&self) -> Self {
FakeClone
}
}
fn ignore_fake_clone() {
let mut a = FakeClone;
let b = FakeClone;
// Should not be linted, since the Clone impl doesn't come from std
a = b.clone();
}
fn ignore_generic_clone<T: Clone>(a: &mut T, b: &T) {
// Should not be linted, since we don't know the actual clone impl
*a = b.clone();
}
// ToOwned
fn owned_method_mut_ref(mut_string: &mut String, ref_str: &str) {
*mut_string = ref_str.to_owned();
}
fn owned_method_val(mut mut_string: String, ref_str: &str) {
mut_string = ref_str.to_owned();
}
struct HasDeref {
a: String,
}
impl Deref for HasDeref {
type Target = String;
fn deref(&self) -> &Self::Target {
&self.a
}
}
impl DerefMut for HasDeref {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.a
}
}
fn owned_method_box(mut_box_string: &mut Box<String>, ref_str: &str) {
**mut_box_string = ref_str.to_owned();
}
fn owned_method_deref(mut_box_string: &mut HasDeref, ref_str: &str) {
**mut_box_string = ref_str.to_owned();
}
fn owned_function_mut_ref(mut_thing: &mut String, ref_str: &str) {
*mut_thing = ToOwned::to_owned(ref_str);
}
fn owned_function_val(mut mut_thing: String, ref_str: &str) {
mut_thing = ToOwned::to_owned(ref_str);
}
struct FakeToOwned;
impl FakeToOwned {
/// This looks just like `ToOwned::to_owned`
fn to_owned(&self) -> Self {
FakeToOwned
}
}
fn fake_to_owned() {
let mut a = FakeToOwned;
let b = FakeToOwned;
// Should not be linted, since the ToOwned impl doesn't come from std
a = b.to_owned();
}
fn main() {}
/// Trait implementation to allow producing a `Thing` with a low-precedence expression.
impl Add for HasCloneFrom {
type Output = Self;
fn add(self, _: HasCloneFrom) -> Self {
self
}
}
/// Trait implementation to allow producing a `&Thing` with a low-precedence expression.
impl<'a> Add for &'a HasCloneFrom {
type Output = Self;
fn add(self, _: &'a HasCloneFrom) -> Self {
self
}
}
/// Trait implementation to allow producing a `&mut Thing` with a low-precedence expression.
impl<'a> Add for &'a mut HasCloneFrom {
type Output = Self;
fn add(self, _: &'a mut HasCloneFrom) -> Self {
self
}
}

View File

@ -0,0 +1,107 @@
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:25:5
|
LL | *mut_thing = value_thing.clone();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `mut_thing.clone_from(&value_thing)`
|
= note: `-D clippy::assigning-clones` implied by `-D warnings`
= help: to override `-D warnings` add `#[allow(clippy::assigning_clones)]`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:29:5
|
LL | *mut_thing = ref_thing.clone();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `mut_thing.clone_from(ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:33:5
|
LL | mut_thing = ref_thing.clone();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `mut_thing.clone_from(ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:37:5
|
LL | *mut_thing = Clone::clone(ref_thing);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `::std::clone::Clone::clone_from(mut_thing, ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:41:5
|
LL | mut_thing = Clone::clone(ref_thing);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `::std::clone::Clone::clone_from(&mut mut_thing, ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:45:5
|
LL | *mut_thing = Clone::clone(ref_thing);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `::std::clone::Clone::clone_from(mut_thing, ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:49:5
|
LL | *mut_thing = HasCloneFrom::clone(ref_thing);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `::std::clone::Clone::clone_from(mut_thing, ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:53:5
|
LL | *mut_thing = <HasCloneFrom as Clone>::clone(ref_thing);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `::std::clone::Clone::clone_from(mut_thing, ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:58:5
|
LL | *(mut_thing + &mut HasCloneFrom) = ref_thing.clone();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `(mut_thing + &mut HasCloneFrom).clone_from(ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:63:5
|
LL | *mut_thing = (ref_thing + ref_thing).clone();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_from()`: `mut_thing.clone_from(ref_thing + ref_thing)`
error: assigning the result of `Clone::clone()` may be inefficient
--> $DIR/assigning_clones.rs:69:9
|
LL | a = b.clone();
| ^^^^^^^^^^^^^ help: use `clone_from()`: `a.clone_from(&b)`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:134:5
|
LL | *mut_string = ref_str.to_owned();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `ref_str.clone_into(mut_string)`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:138:5
|
LL | mut_string = ref_str.to_owned();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `ref_str.clone_into(&mut mut_string)`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:159:5
|
LL | **mut_box_string = ref_str.to_owned();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `ref_str.clone_into(&mut (*mut_box_string))`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:163:5
|
LL | **mut_box_string = ref_str.to_owned();
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `ref_str.clone_into(&mut (*mut_box_string))`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:167:5
|
LL | *mut_thing = ToOwned::to_owned(ref_str);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `::std::borrow::ToOwned::clone_into(ref_str, mut_thing)`
error: assigning the result of `ToOwned::to_owned()` may be inefficient
--> $DIR/assigning_clones.rs:171:5
|
LL | mut_thing = ToOwned::to_owned(ref_str);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ help: use `clone_into()`: `::std::borrow::ToOwned::clone_into(ref_str, &mut mut_thing)`
error: aborting due to 17 previous errors