//@ check-pass //@ run-rustfix #![feature(rustc_attrs)] #![allow(unused)] use std::borrow::Borrow; use std::ops::Deref; struct PlainType(T); #[derive(Clone)] struct CloneType(T); fn check(mut encoded: &[u8]) { let _ = &mut encoded.clone(); //~^ WARN call to `.clone()` on a reference in this situation does nothing let _ = &encoded.clone(); //~^ WARN call to `.clone()` on a reference in this situation does nothing } fn main() { let non_clone_type_ref = &PlainType(1u32); let non_clone_type_ref_clone: &PlainType = non_clone_type_ref.clone(); //~^ WARN call to `.clone()` on a reference in this situation does nothing let clone_type_ref = &CloneType(1u32); let clone_type_ref_clone: CloneType = clone_type_ref.clone(); let non_deref_type = &PlainType(1u32); let non_deref_type_deref: &PlainType = non_deref_type.deref(); //~^ WARN call to `.deref()` on a reference in this situation does nothing let non_borrow_type = &PlainType(1u32); let non_borrow_type_borrow: &PlainType = non_borrow_type.borrow(); //~^ WARN call to `.borrow()` on a reference in this situation does nothing // Borrowing a &&T does not warn since it has collapsed the double reference let non_borrow_type = &&PlainType(1u32); let non_borrow_type_borrow: &PlainType = non_borrow_type.borrow(); } fn generic(non_clone_type: &PlainType) { non_clone_type.clone(); //~^ WARN call to `.clone()` on a reference in this situation does nothing } fn non_generic(non_clone_type: &PlainType) { non_clone_type.clone(); //~^ WARN call to `.clone()` on a reference in this situation does nothing } struct DiagnosticClone; impl Clone for DiagnosticClone { #[rustc_diagnostic_item = "other_clone"] fn clone(&self) -> Self { DiagnosticClone } } fn with_other_diagnostic_item(x: DiagnosticClone) { x.clone(); }