#![warn(clippy::declare_interior_mutable_const)] use std::borrow::Cow; use std::cell::Cell; use std::fmt::Display; use std::sync::atomic::AtomicUsize; use std::sync::Once; const ATOMIC: AtomicUsize = AtomicUsize::new(5); //~ ERROR interior mutable const CELL: Cell = Cell::new(6); //~ ERROR interior mutable const ATOMIC_TUPLE: ([AtomicUsize; 1], Vec, u8) = ([ATOMIC], Vec::new(), 7); //~^ ERROR interior mutable macro_rules! declare_const { ($name:ident: $ty:ty = $e:expr) => { const $name: $ty = $e; }; } declare_const!(_ONCE: Once = Once::new()); //~ ERROR interior mutable // const ATOMIC_REF: &AtomicUsize = &AtomicUsize::new(7); // This will simply trigger E0492. const INTEGER: u8 = 8; const STRING: String = String::new(); const STR: &str = "012345"; const COW: Cow = Cow::Borrowed("abcdef"); //^ note: a const item of Cow is used in the `postgres` package. const NO_ANN: &dyn Display = &70; static STATIC_TUPLE: (AtomicUsize, String) = (ATOMIC, STRING); //^ there should be no lints on this line #[allow(clippy::declare_interior_mutable_const)] const ONCE_INIT: Once = Once::new(); // a constant whose type is a concrete type should be linted at the definition site. trait ConcreteTypes { const ATOMIC: AtomicUsize; //~ ERROR interior mutable const INTEGER: u64; const STRING: String; declare_const!(ANOTHER_ATOMIC: AtomicUsize = Self::ATOMIC); //~ ERROR interior mutable } impl ConcreteTypes for u64 { const ATOMIC: AtomicUsize = AtomicUsize::new(9); const INTEGER: u64 = 10; const STRING: String = String::new(); } // a helper trait used below trait ConstDefault { const DEFAULT: Self; } // a constant whose type is a generic type should be linted at the implementation site. trait GenericTypes { const TO_REMAIN_GENERIC: T; const TO_BE_CONCRETE: U; const HAVING_DEFAULT: T = Self::TO_REMAIN_GENERIC; declare_const!(IN_MACRO: T = Self::TO_REMAIN_GENERIC); } impl GenericTypes for u64 { const TO_REMAIN_GENERIC: T = T::DEFAULT; const TO_BE_CONCRETE: AtomicUsize = AtomicUsize::new(11); //~ ERROR interior mutable } // a helper type used below struct Wrapper(T); // a constant whose type is an associated type should be linted at the implementation site, too. trait AssocTypes { type ToBeFrozen; type ToBeUnfrozen; type ToBeGenericParam; const TO_BE_FROZEN: Self::ToBeFrozen; const TO_BE_UNFROZEN: Self::ToBeUnfrozen; const WRAPPED_TO_BE_UNFROZEN: Wrapper; // to ensure it can handle things when a generic type remains after normalization. const WRAPPED_TO_BE_GENERIC_PARAM: Wrapper; } impl AssocTypes for Vec { type ToBeFrozen = u16; type ToBeUnfrozen = AtomicUsize; type ToBeGenericParam = T; const TO_BE_FROZEN: Self::ToBeFrozen = 12; const TO_BE_UNFROZEN: Self::ToBeUnfrozen = AtomicUsize::new(13); //~ ERROR interior mutable const WRAPPED_TO_BE_UNFROZEN: Wrapper = Wrapper(AtomicUsize::new(14)); //~ ERROR interior mutable const WRAPPED_TO_BE_GENERIC_PARAM: Wrapper = Wrapper(T::DEFAULT); } // a helper trait used below trait AssocTypesHelper { type NotToBeBounded; type ToBeBounded; const NOT_TO_BE_BOUNDED: Self::NotToBeBounded; } // a constant whose type is an assoc type originated from a generic param bounded at the definition // site should be linted at there. trait AssocTypesFromGenericParam where T: AssocTypesHelper, { const NOT_BOUNDED: T::NotToBeBounded; const BOUNDED: T::ToBeBounded; //~ ERROR interior mutable } impl AssocTypesFromGenericParam for u64 where T: AssocTypesHelper, { // an associated type could remain unknown in a trait impl. const NOT_BOUNDED: T::NotToBeBounded = T::NOT_TO_BE_BOUNDED; const BOUNDED: T::ToBeBounded = AtomicUsize::new(15); } // a constant whose type is `Self` should be linted at the implementation site as well. // (`Option` requires `Sized` bound.) trait SelfType: Sized { const SELF: Self; // this was the one in the original issue (#5050). const WRAPPED_SELF: Option; } impl SelfType for u64 { const SELF: Self = 16; const WRAPPED_SELF: Option = Some(20); } impl SelfType for AtomicUsize { // this (interior mutable `Self` const) exists in `parking_lot`. // `const_trait_impl` will replace it in the future, hopefully. const SELF: Self = AtomicUsize::new(17); //~ ERROR interior mutable const WRAPPED_SELF: Option = Some(AtomicUsize::new(21)); //~ ERROR interior mutable } // Even though a constant contains a generic type, if it also have a interior mutable type, // it should be linted at the definition site. trait BothOfCellAndGeneric { // this is a false negative in the current implementation. const DIRECT: Cell; const INDIRECT: Cell<*const T>; //~ ERROR interior mutable } impl BothOfCellAndGeneric for u64 { const DIRECT: Cell = Cell::new(T::DEFAULT); const INDIRECT: Cell<*const T> = Cell::new(std::ptr::null()); } struct Local(T); // a constant in an inherent impl are essentially the same as a normal const item // except there can be a generic or associated type. impl Local where T: ConstDefault + AssocTypesHelper, { const ATOMIC: AtomicUsize = AtomicUsize::new(18); //~ ERROR interior mutable const COW: Cow<'static, str> = Cow::Borrowed("tuvwxy"); const GENERIC_TYPE: T = T::DEFAULT; const ASSOC_TYPE: T::NotToBeBounded = T::NOT_TO_BE_BOUNDED; const BOUNDED_ASSOC_TYPE: T::ToBeBounded = AtomicUsize::new(19); //~ ERROR interior mutable } fn main() {}