manual_async_fn: take input lifetimes into account
The anonymous future returned from an `async fn` captures all input lifetimes. This was not being taken into account. See https://github.com/rust-lang/rfcs/blob/master/text/2394-async_await.md#lifetime-capture-in-the-anonymous-future
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@ -4,8 +4,8 @@ use if_chain::if_chain;
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use rustc_errors::Applicability;
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use rustc_hir::intravisit::FnKind;
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use rustc_hir::{
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AsyncGeneratorKind, Block, Body, Expr, ExprKind, FnDecl, FnRetTy, GeneratorKind, GenericBound, HirId, IsAsync,
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ItemKind, TraitRef, Ty, TyKind, TypeBindingKind,
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AsyncGeneratorKind, Block, Body, Expr, ExprKind, FnDecl, FnRetTy, GeneratorKind, GenericArg, GenericBound, HirId,
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IsAsync, ItemKind, LifetimeName, TraitRef, Ty, TyKind, TypeBindingKind,
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};
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use rustc_lint::{LateContext, LateLintPass};
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use rustc_session::{declare_lint_pass, declare_tool_lint};
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@ -27,8 +27,6 @@ declare_clippy_lint! {
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/// ```
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/// Use instead:
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/// ```rust
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/// use std::future::Future;
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///
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/// async fn foo() -> i32 { 42 }
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/// ```
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pub MANUAL_ASYNC_FN,
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@ -53,8 +51,9 @@ impl<'tcx> LateLintPass<'tcx> for ManualAsyncFn {
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if let IsAsync::NotAsync = header.asyncness;
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// Check that this function returns `impl Future`
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if let FnRetTy::Return(ret_ty) = decl.output;
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if let Some(trait_ref) = future_trait_ref(cx, ret_ty);
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if let Some((trait_ref, output_lifetimes)) = future_trait_ref(cx, ret_ty);
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if let Some(output) = future_output_ty(trait_ref);
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if captures_all_lifetimes(decl.inputs, &output_lifetimes);
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// Check that the body of the function consists of one async block
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if let ExprKind::Block(block, _) = body.value.kind;
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if block.stmts.is_empty();
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@ -97,16 +96,35 @@ impl<'tcx> LateLintPass<'tcx> for ManualAsyncFn {
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}
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}
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fn future_trait_ref<'tcx>(cx: &LateContext<'tcx>, ty: &'tcx Ty<'tcx>) -> Option<&'tcx TraitRef<'tcx>> {
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fn future_trait_ref<'tcx>(
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cx: &LateContext<'tcx>,
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ty: &'tcx Ty<'tcx>,
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) -> Option<(&'tcx TraitRef<'tcx>, Vec<LifetimeName>)> {
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if_chain! {
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if let TyKind::OpaqueDef(item_id, _) = ty.kind;
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if let TyKind::OpaqueDef(item_id, bounds) = ty.kind;
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let item = cx.tcx.hir().item(item_id.id);
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if let ItemKind::OpaqueTy(opaque) = &item.kind;
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if opaque.bounds.len() == 1;
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if let GenericBound::Trait(poly, _) = &opaque.bounds[0];
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if poly.trait_ref.trait_def_id() == cx.tcx.lang_items().future_trait();
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if let Some(trait_ref) = opaque.bounds.iter().find_map(|bound| {
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if let GenericBound::Trait(poly, _) = bound {
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Some(&poly.trait_ref)
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} else {
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None
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}
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});
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if trait_ref.trait_def_id() == cx.tcx.lang_items().future_trait();
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then {
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return Some(&poly.trait_ref);
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let output_lifetimes = bounds
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.iter()
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.filter_map(|bound| {
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if let GenericArg::Lifetime(lt) = bound {
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Some(lt.name)
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} else {
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None
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}
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})
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.collect();
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return Some((trait_ref, output_lifetimes));
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}
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}
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@ -129,6 +147,29 @@ fn future_output_ty<'tcx>(trait_ref: &'tcx TraitRef<'tcx>) -> Option<&'tcx Ty<'t
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None
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}
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fn captures_all_lifetimes(inputs: &[Ty<'_>], output_lifetimes: &[LifetimeName]) -> bool {
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let input_lifetimes: Vec<LifetimeName> = inputs
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.iter()
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.filter_map(|ty| {
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if let TyKind::Rptr(lt, _) = ty.kind {
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Some(lt.name)
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} else {
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None
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}
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})
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.collect();
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// The lint should trigger in one of these cases:
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// - There are no input lifetimes
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// - There's only one output lifetime bound using `+ '_`
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// - All input lifetimes are explicitly bound to the output
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input_lifetimes.is_empty()
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|| (output_lifetimes.len() == 1 && matches!(output_lifetimes[0], LifetimeName::Underscore))
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|| input_lifetimes
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.iter()
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.all(|in_lt| output_lifetimes.iter().any(|out_lt| in_lt == out_lt))
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}
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fn desugared_async_block<'tcx>(cx: &LateContext<'tcx>, block: &'tcx Block<'tcx>) -> Option<&'tcx Body<'tcx>> {
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if_chain! {
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if let Some(block_expr) = block.expr;
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@ -47,6 +47,7 @@ async fn not_good(x: &Mutex<u32>) -> u32 {
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first + second + third
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}
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#[allow(clippy::manual_async_fn)]
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fn block_bad(x: &Mutex<u32>) -> impl std::future::Future<Output = u32> + '_ {
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async move {
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let guard = x.lock().unwrap();
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@ -46,13 +46,13 @@ LL | | };
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| |_____^
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error: this MutexGuard is held across an 'await' point. Consider using an async-aware Mutex type or ensuring the MutexGuard is dropped before calling await.
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--> $DIR/await_holding_lock.rs:52:13
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--> $DIR/await_holding_lock.rs:53:13
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LL | let guard = x.lock().unwrap();
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| ^^^^^
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note: these are all the await points this lock is held through
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--> $DIR/await_holding_lock.rs:52:9
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--> $DIR/await_holding_lock.rs:53:9
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LL | / let guard = x.lock().unwrap();
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LL | | baz().await
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@ -43,10 +43,6 @@ impl S {
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42
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}
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async fn meth_fut(&self) -> i32 { 42 }
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async fn empty_fut(&self) {}
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// should be ignored
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fn not_fut(&self) -> i32 {
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42
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@ -64,4 +60,40 @@ impl S {
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}
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}
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// Tests related to lifetime capture
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async fn elided(_: &i32) -> i32 { 42 }
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// should be ignored
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fn elided_not_bound(_: &i32) -> impl Future<Output = i32> {
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async { 42 }
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}
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async fn explicit<'a, 'b>(_: &'a i32, _: &'b i32) -> i32 { 42 }
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// should be ignored
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#[allow(clippy::needless_lifetimes)]
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fn explicit_not_bound<'a, 'b>(_: &'a i32, _: &'b i32) -> impl Future<Output = i32> {
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async { 42 }
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}
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// should be ignored
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mod issue_5765 {
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use std::future::Future;
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struct A;
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impl A {
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fn f(&self) -> impl Future<Output = ()> {
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async {}
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}
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}
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fn test() {
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let _future = {
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let a = A;
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a.f()
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};
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}
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}
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fn main() {}
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@ -51,14 +51,6 @@ impl S {
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}
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}
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fn meth_fut(&self) -> impl Future<Output = i32> {
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async { 42 }
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}
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fn empty_fut(&self) -> impl Future<Output = ()> {
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async {}
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}
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// should be ignored
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fn not_fut(&self) -> i32 {
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42
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@ -76,4 +68,44 @@ impl S {
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}
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}
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// Tests related to lifetime capture
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fn elided(_: &i32) -> impl Future<Output = i32> + '_ {
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async { 42 }
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}
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// should be ignored
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fn elided_not_bound(_: &i32) -> impl Future<Output = i32> {
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async { 42 }
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}
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fn explicit<'a, 'b>(_: &'a i32, _: &'b i32) -> impl Future<Output = i32> + 'a + 'b {
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async { 42 }
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}
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// should be ignored
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#[allow(clippy::needless_lifetimes)]
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fn explicit_not_bound<'a, 'b>(_: &'a i32, _: &'b i32) -> impl Future<Output = i32> {
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async { 42 }
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}
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// should be ignored
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mod issue_5765 {
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use std::future::Future;
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struct A;
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impl A {
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fn f(&self) -> impl Future<Output = ()> {
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async {}
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}
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}
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fn test() {
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let _future = {
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let a = A;
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a.f()
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};
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}
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}
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fn main() {}
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@ -65,34 +65,34 @@ LL | let c = 21;
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...
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error: this function can be simplified using the `async fn` syntax
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--> $DIR/manual_async_fn.rs:54:5
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--> $DIR/manual_async_fn.rs:73:1
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LL | fn meth_fut(&self) -> impl Future<Output = i32> {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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LL | fn elided(_: &i32) -> impl Future<Output = i32> + '_ {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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help: make the function `async` and return the output of the future directly
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LL | async fn meth_fut(&self) -> i32 {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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LL | async fn elided(_: &i32) -> i32 {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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help: move the body of the async block to the enclosing function
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LL | fn meth_fut(&self) -> impl Future<Output = i32> { 42 }
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| ^^^^^^
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LL | fn elided(_: &i32) -> impl Future<Output = i32> + '_ { 42 }
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| ^^^^^^
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error: this function can be simplified using the `async fn` syntax
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--> $DIR/manual_async_fn.rs:58:5
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--> $DIR/manual_async_fn.rs:82:1
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LL | fn empty_fut(&self) -> impl Future<Output = ()> {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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LL | fn explicit<'a, 'b>(_: &'a i32, _: &'b i32) -> impl Future<Output = i32> + 'a + 'b {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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help: make the function `async` and remove the return type
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help: make the function `async` and return the output of the future directly
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LL | async fn empty_fut(&self) {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^
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LL | async fn explicit<'a, 'b>(_: &'a i32, _: &'b i32) -> i32 {
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| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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help: move the body of the async block to the enclosing function
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LL | fn empty_fut(&self) -> impl Future<Output = ()> {}
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| ^^
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LL | fn explicit<'a, 'b>(_: &'a i32, _: &'b i32) -> impl Future<Output = i32> + 'a + 'b { 42 }
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| ^^^^^^
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error: aborting due to 6 previous errors
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