Fix unnecessary_to_owned
false positive
Fixes #9351. Note that this commit reworks that fix for #9317. The change is to check that the type implements `AsRef<str>` before regarding `to_string` as an equivalent of `to_owned`. This was suggested by Jarcho in the #9317 issue comments. The benefit of this is that it moves some complexity out of `check_other_call_arg` and simplifies the module as a whole.
This commit is contained in:
parent
99ab5fe53a
commit
750a2d57bd
@ -1,21 +1,25 @@
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use super::implicit_clone::is_clone_like;
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use super::unnecessary_iter_cloned::{self, is_into_iter};
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use crate::rustc_middle::ty::Subst;
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use clippy_utils::diagnostics::span_lint_and_sugg;
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use clippy_utils::source::snippet_opt;
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use clippy_utils::ty::{
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get_associated_type, get_iterator_item_ty, implements_trait, is_copy, is_type_diagnostic_item, peel_mid_ty_refs,
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};
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use clippy_utils::{fn_def_id, get_parent_expr, is_diag_item_method, is_diag_trait_item};
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use clippy_utils::ty::{get_associated_type, get_iterator_item_ty, implements_trait, is_copy, peel_mid_ty_refs};
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use clippy_utils::visitors::find_all_ret_expressions;
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use clippy_utils::{fn_def_id, get_parent_expr, is_diag_item_method, is_diag_trait_item, return_ty};
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use clippy_utils::{meets_msrv, msrvs};
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use rustc_errors::Applicability;
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use rustc_hir::{def_id::DefId, BorrowKind, Expr, ExprKind};
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use rustc_hir::{def_id::DefId, BorrowKind, Expr, ExprKind, ItemKind, Node};
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use rustc_infer::infer::TyCtxtInferExt;
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use rustc_lint::LateContext;
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use rustc_middle::mir::Mutability;
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use rustc_middle::ty::adjustment::{Adjust, Adjustment, OverloadedDeref};
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use rustc_middle::ty::subst::{GenericArg, GenericArgKind, SubstsRef};
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use rustc_middle::ty::{self, PredicateKind, ProjectionPredicate, TraitPredicate, Ty};
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use rustc_middle::ty::EarlyBinder;
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use rustc_middle::ty::{self, ParamTy, PredicateKind, ProjectionPredicate, TraitPredicate, Ty};
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use rustc_semver::RustcVersion;
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use rustc_span::{sym, Symbol};
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use rustc_trait_selection::traits::{query::evaluate_obligation::InferCtxtExt as _, Obligation, ObligationCause};
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use rustc_typeck::check::{FnCtxt, Inherited};
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use std::cmp::max;
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use super::UNNECESSARY_TO_OWNED;
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@ -33,7 +37,7 @@ pub fn check<'tcx>(
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then {
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if is_cloned_or_copied(cx, method_name, method_def_id) {
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unnecessary_iter_cloned::check(cx, expr, method_name, receiver);
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} else if is_to_owned_like(cx, method_name, method_def_id) {
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} else if is_to_owned_like(cx, expr, method_name, method_def_id) {
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// At this point, we know the call is of a `to_owned`-like function. The functions
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// `check_addr_of_expr` and `check_call_arg` determine whether the call is unnecessary
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// based on its context, that is, whether it is a referent in an `AddrOf` expression, an
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@ -245,12 +249,12 @@ fn check_other_call_arg<'tcx>(
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) -> bool {
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if_chain! {
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if let Some((maybe_call, maybe_arg)) = skip_addr_of_ancestors(cx, expr);
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if let Some((callee_def_id, call_substs, call_args)) = get_callee_substs_and_args(cx, maybe_call);
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if let Some((callee_def_id, _, call_args)) = get_callee_substs_and_args(cx, maybe_call);
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let fn_sig = cx.tcx.fn_sig(callee_def_id).skip_binder();
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if let Some(i) = call_args.iter().position(|arg| arg.hir_id == maybe_arg.hir_id);
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if let Some(input) = fn_sig.inputs().get(i);
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let (input, n_refs) = peel_mid_ty_refs(*input);
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if let (trait_predicates, projection_predicates) = get_input_traits_and_projections(cx, callee_def_id, input);
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if let (trait_predicates, _) = get_input_traits_and_projections(cx, callee_def_id, input);
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if let Some(sized_def_id) = cx.tcx.lang_items().sized_trait();
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if let [trait_predicate] = trait_predicates
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.iter()
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@ -258,52 +262,13 @@ fn check_other_call_arg<'tcx>(
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.collect::<Vec<_>>()[..];
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if let Some(deref_trait_id) = cx.tcx.get_diagnostic_item(sym::Deref);
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if let Some(as_ref_trait_id) = cx.tcx.get_diagnostic_item(sym::AsRef);
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if trait_predicate.def_id() == deref_trait_id || trait_predicate.def_id() == as_ref_trait_id;
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let receiver_ty = cx.typeck_results().expr_ty(receiver);
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// If the callee has type parameters, they could appear in `projection_predicate.ty` or the
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// types of `trait_predicate.trait_ref.substs`.
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if if trait_predicate.def_id() == deref_trait_id {
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if let [projection_predicate] = projection_predicates[..] {
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let normalized_ty =
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cx.tcx
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.subst_and_normalize_erasing_regions(call_substs, cx.param_env, projection_predicate.term);
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implements_trait(cx, receiver_ty, deref_trait_id, &[])
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&& get_associated_type(cx, receiver_ty, deref_trait_id, "Target")
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.map_or(false, |ty| ty::Term::Ty(ty) == normalized_ty)
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} else {
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false
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}
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} else if trait_predicate.def_id() == as_ref_trait_id {
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let composed_substs = compose_substs(
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cx,
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&trait_predicate.trait_ref.substs.iter().skip(1).collect::<Vec<_>>()[..],
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call_substs,
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);
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// if `expr` is a `String` and generic target is [u8], skip
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// (https://github.com/rust-lang/rust-clippy/issues/9317).
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if let [subst] = composed_substs[..]
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&& let GenericArgKind::Type(arg_ty) = subst.unpack()
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&& arg_ty.is_slice()
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&& let inner_ty = arg_ty.builtin_index().unwrap()
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&& let ty::Uint(ty::UintTy::U8) = inner_ty.kind()
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&& let self_ty = cx.typeck_results().expr_ty(expr).peel_refs()
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&& is_type_diagnostic_item(cx, self_ty, sym::String) {
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false
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} else {
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implements_trait(cx, receiver_ty, as_ref_trait_id, &composed_substs)
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}
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} else {
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false
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};
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if can_change_type(cx, maybe_arg, receiver_ty);
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// We can't add an `&` when the trait is `Deref` because `Target = &T` won't match
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// `Target = T`.
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if n_refs > 0 || is_copy(cx, receiver_ty) || trait_predicate.def_id() != deref_trait_id;
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let n_refs = max(n_refs, if is_copy(cx, receiver_ty) { 0 } else { 1 });
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// If the trait is `AsRef` and the input type variable `T` occurs in the output type, then
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// `T` must not be instantiated with a reference
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// (https://github.com/rust-lang/rust-clippy/issues/8507).
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if (n_refs == 0 && !receiver_ty.is_ref())
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|| trait_predicate.def_id() != as_ref_trait_id
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|| !fn_sig.output().contains(input);
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if let Some(receiver_snippet) = snippet_opt(cx, receiver.span);
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then {
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span_lint_and_sugg(
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@ -389,22 +354,102 @@ fn get_input_traits_and_projections<'tcx>(
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(trait_predicates, projection_predicates)
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}
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/// Composes two substitutions by applying the latter to the types of the former.
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fn compose_substs<'tcx>(
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cx: &LateContext<'tcx>,
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left: &[GenericArg<'tcx>],
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right: SubstsRef<'tcx>,
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) -> Vec<GenericArg<'tcx>> {
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left.iter()
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.map(|arg| {
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if let GenericArgKind::Type(arg_ty) = arg.unpack() {
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let normalized_ty = cx.tcx.subst_and_normalize_erasing_regions(right, cx.param_env, arg_ty);
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GenericArg::from(normalized_ty)
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} else {
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*arg
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fn can_change_type<'a>(cx: &LateContext<'a>, mut expr: &'a Expr<'a>, mut ty: Ty<'a>) -> bool {
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for (_, node) in cx.tcx.hir().parent_iter(expr.hir_id) {
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match node {
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Node::Stmt(_) => return true,
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Node::Block(..) => continue,
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Node::Item(item) => {
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if let ItemKind::Fn(_, _, body_id) = &item.kind
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&& let output_ty = return_ty(cx, item.hir_id())
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&& let local_def_id = cx.tcx.hir().local_def_id(item.hir_id())
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&& Inherited::build(cx.tcx, local_def_id).enter(|inherited| {
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let fn_ctxt = FnCtxt::new(&inherited, cx.param_env, item.hir_id());
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fn_ctxt.can_coerce(ty, output_ty)
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}) {
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if has_lifetime(output_ty) && has_lifetime(ty) {
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return false;
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}
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})
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.collect()
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let body = cx.tcx.hir().body(*body_id);
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let body_expr = &body.value;
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let mut count = 0;
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return find_all_ret_expressions(cx, body_expr, |_| { count += 1; count <= 1 });
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}
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}
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Node::Expr(parent_expr) => {
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if let Some((callee_def_id, call_substs, call_args)) = get_callee_substs_and_args(cx, parent_expr) {
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let fn_sig = cx.tcx.fn_sig(callee_def_id).skip_binder();
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if let Some(arg_index) = call_args.iter().position(|arg| arg.hir_id == expr.hir_id)
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&& let Some(param_ty) = fn_sig.inputs().get(arg_index)
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&& let ty::Param(ParamTy { index: param_index , ..}) = param_ty.kind()
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{
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if fn_sig
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.inputs()
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.iter()
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.enumerate()
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.filter(|(i, _)| *i != arg_index)
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.any(|(_, ty)| ty.contains(*param_ty))
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{
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return false;
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}
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let mut trait_predicates = cx.tcx.param_env(callee_def_id)
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.caller_bounds().iter().filter(|predicate| {
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if let PredicateKind::Trait(trait_predicate) = predicate.kind().skip_binder()
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&& trait_predicate.trait_ref.self_ty() == *param_ty {
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true
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} else {
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false
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}
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});
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let new_subst = cx.tcx.mk_substs(
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call_substs.iter()
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.enumerate()
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.map(|(i, t)|
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if i == (*param_index as usize) {
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GenericArg::from(ty)
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} else {
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t
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}));
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if trait_predicates.any(|predicate| {
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let predicate = EarlyBinder(predicate).subst(cx.tcx, new_subst);
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let obligation = Obligation::new(ObligationCause::dummy(), cx.param_env, predicate);
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!cx.tcx
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.infer_ctxt()
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.enter(|infcx| infcx.predicate_must_hold_modulo_regions(&obligation))
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}) {
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return false;
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}
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let output_ty = fn_sig.output();
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if output_ty.contains(*param_ty) {
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if let Ok(new_ty) = cx.tcx.try_subst_and_normalize_erasing_regions(
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new_subst, cx.param_env, output_ty) {
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expr = parent_expr;
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ty = new_ty;
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continue;
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}
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return false;
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}
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return true;
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}
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} else if let ExprKind::Block(..) = parent_expr.kind {
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continue;
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}
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return false;
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},
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_ => return false,
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}
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}
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false
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}
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fn has_lifetime(ty: Ty<'_>) -> bool {
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ty.walk().any(|t| matches!(t.unpack(), GenericArgKind::Lifetime(_)))
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}
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/// Returns true if the named method is `Iterator::cloned` or `Iterator::copied`.
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@ -415,10 +460,10 @@ fn is_cloned_or_copied(cx: &LateContext<'_>, method_name: Symbol, method_def_id:
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/// Returns true if the named method can be used to convert the receiver to its "owned"
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/// representation.
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fn is_to_owned_like(cx: &LateContext<'_>, method_name: Symbol, method_def_id: DefId) -> bool {
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fn is_to_owned_like<'a>(cx: &LateContext<'a>, call_expr: &Expr<'a>, method_name: Symbol, method_def_id: DefId) -> bool {
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is_clone_like(cx, method_name.as_str(), method_def_id)
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|| is_cow_into_owned(cx, method_name, method_def_id)
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|| is_to_string(cx, method_name, method_def_id)
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|| is_to_string_on_string_like(cx, call_expr, method_name, method_def_id)
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}
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/// Returns true if the named method is `Cow::into_owned`.
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@ -426,7 +471,27 @@ fn is_cow_into_owned(cx: &LateContext<'_>, method_name: Symbol, method_def_id: D
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method_name.as_str() == "into_owned" && is_diag_item_method(cx, method_def_id, sym::Cow)
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}
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/// Returns true if the named method is `ToString::to_string`.
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fn is_to_string(cx: &LateContext<'_>, method_name: Symbol, method_def_id: DefId) -> bool {
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method_name == sym::to_string && is_diag_trait_item(cx, method_def_id, sym::ToString)
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/// Returns true if the named method is `ToString::to_string` and it's called on a type that
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/// is string-like i.e. implements `AsRef<str>` or `Deref<str>`.
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fn is_to_string_on_string_like<'a>(
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cx: &LateContext<'_>,
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call_expr: &'a Expr<'a>,
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method_name: Symbol,
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method_def_id: DefId,
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) -> bool {
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if method_name != sym::to_string || !is_diag_trait_item(cx, method_def_id, sym::ToString) {
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return false;
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}
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if let Some(substs) = cx.typeck_results().node_substs_opt(call_expr.hir_id)
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&& let [generic_arg] = substs.as_slice()
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&& let GenericArgKind::Type(ty) = generic_arg.unpack()
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&& let Some(deref_trait_id) = cx.tcx.get_diagnostic_item(sym::Deref)
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&& let Some(as_ref_trait_id) = cx.tcx.get_diagnostic_item(sym::AsRef)
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&& (implements_trait(cx, ty, deref_trait_id, &[cx.tcx.types.str_.into()]) ||
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implements_trait(cx, ty, as_ref_trait_id, &[cx.tcx.types.str_.into()])) {
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true
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} else {
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false
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}
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}
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@ -357,3 +357,63 @@ mod issue_9317 {
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consume(b.to_string());
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}
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}
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mod issue_9351 {
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#![allow(dead_code)]
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use std::ops::Deref;
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use std::path::{Path, PathBuf};
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fn require_deref_path<T: Deref<Target = std::path::Path>>(x: T) -> T {
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x
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}
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fn generic_arg_used_elsewhere<T: AsRef<Path>>(_x: T, _y: T) {}
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fn id<T: AsRef<str>>(x: T) -> T {
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x
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}
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fn predicates_are_satisfied(_x: impl std::fmt::Write) {}
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// Should lint
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fn single_return() -> impl AsRef<str> {
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id("abc")
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}
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// Should not lint
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fn multiple_returns(b: bool) -> impl AsRef<str> {
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if b {
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return String::new();
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}
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id("abc".to_string())
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}
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struct S1(String);
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// Should not lint
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fn fields1() -> S1 {
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S1(id("abc".to_string()))
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}
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struct S2 {
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s: String,
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}
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// Should not lint
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fn fields2() {
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let mut s = S2 { s: "abc".into() };
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s.s = id("abc".to_string());
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}
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pub fn main() {
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let path = std::path::Path::new("x");
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let path_buf = path.to_owned();
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// Should not lint.
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let _x: PathBuf = require_deref_path(path.to_owned());
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generic_arg_used_elsewhere(path.to_owned(), path_buf);
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predicates_are_satisfied(id("abc".to_string()));
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}
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}
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|
@ -357,3 +357,63 @@ pub fn main() {
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consume(b.to_string());
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}
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}
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mod issue_9351 {
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#![allow(dead_code)]
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use std::ops::Deref;
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use std::path::{Path, PathBuf};
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fn require_deref_path<T: Deref<Target = std::path::Path>>(x: T) -> T {
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x
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}
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fn generic_arg_used_elsewhere<T: AsRef<Path>>(_x: T, _y: T) {}
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fn id<T: AsRef<str>>(x: T) -> T {
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x
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}
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fn predicates_are_satisfied(_x: impl std::fmt::Write) {}
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// Should lint
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fn single_return() -> impl AsRef<str> {
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id("abc".to_string())
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}
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// Should not lint
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fn multiple_returns(b: bool) -> impl AsRef<str> {
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if b {
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return String::new();
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}
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id("abc".to_string())
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}
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struct S1(String);
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// Should not lint
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fn fields1() -> S1 {
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S1(id("abc".to_string()))
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}
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struct S2 {
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s: String,
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}
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// Should not lint
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fn fields2() {
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let mut s = S2 { s: "abc".into() };
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s.s = id("abc".to_string());
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}
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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()));
|
||||
}
|
||||
}
|
||||
|
@ -509,5 +509,11 @@ error: unnecessary use of `to_string`
|
||||
LL | Box::new(build(y.to_string()))
|
||||
| ^^^^^^^^^^^^^ help: use: `y`
|
||||
|
||||
error: aborting due to 78 previous errors
|
||||
error: unnecessary use of `to_string`
|
||||
--> $DIR/unnecessary_to_owned.rs:381:12
|
||||
|
|
||||
LL | id("abc".to_string())
|
||||
| ^^^^^^^^^^^^^^^^^ help: use: `"abc"`
|
||||
|
||||
error: aborting due to 79 previous errors
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user