//! Generate the internal `bitflags`-facing flags type. //! //! The code generated here is owned by `bitflags`, but still part of its public API. //! Changes to the types generated here need to be considered like any other public API change. /// Declare the `bitflags`-facing bitflags struct. /// /// This type is part of the `bitflags` crate's public API, but not part of the user's. #[macro_export(local_inner_macros)] #[doc(hidden)] macro_rules! __declare_internal_bitflags { ( $vis:vis struct $InternalBitFlags:ident: $T:ty ) => { // NOTE: The ABI of this type is _guaranteed_ to be the same as `T` // This is relied on by some external libraries like `bytemuck` to make // its `unsafe` trait impls sound. #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] #[repr(transparent)] $vis struct $InternalBitFlags($T); }; } /// Implement functions on the private (bitflags-facing) bitflags type. /// /// Methods and trait implementations can be freely added here without breaking end-users. /// If we want to expose new functionality to `#[derive]`, this is the place to do it. #[macro_export(local_inner_macros)] #[doc(hidden)] macro_rules! __impl_internal_bitflags { ( $InternalBitFlags:ident: $T:ty, $PublicBitFlags:ident { $( $(#[$inner:ident $($args:tt)*])* const $Flag:tt = $value:expr; )* } ) => { // NOTE: This impl is also used to prevent using bits types from non-primitive types // in the `bitflags` macro. If this approach is changed, this guard will need to be // retained somehow impl $crate::__private::PublicFlags for $PublicBitFlags { type Primitive = $T; type Internal = $InternalBitFlags; } impl $crate::__private::core::default::Default for $InternalBitFlags { #[inline] fn default() -> Self { $InternalBitFlags::empty() } } impl $crate::__private::core::fmt::Debug for $InternalBitFlags { fn fmt(&self, f: &mut $crate::__private::core::fmt::Formatter<'_>) -> $crate::__private::core::fmt::Result { if self.is_empty() { // If no flags are set then write an empty hex flag to avoid // writing an empty string. In some contexts, like serialization, // an empty string is preferable, but it may be unexpected in // others for a format not to produce any output. // // We can remove this `0x0` and remain compatible with `FromStr`, // because an empty string will still parse to an empty set of flags, // just like `0x0` does. $crate::__private::core::write!(f, "{:#x}", <$T as $crate::Bits>::EMPTY) } else { $crate::__private::core::fmt::Display::fmt(self, f) } } } impl $crate::__private::core::fmt::Display for $InternalBitFlags { fn fmt(&self, f: &mut $crate::__private::core::fmt::Formatter<'_>) -> $crate::__private::core::fmt::Result { $crate::parser::to_writer(&$PublicBitFlags(*self), f) } } impl $crate::__private::core::str::FromStr for $InternalBitFlags { type Err = $crate::parser::ParseError; fn from_str(s: &str) -> $crate::__private::core::result::Result { $crate::parser::from_str::<$PublicBitFlags>(s).map(|flags| flags.0) } } impl $crate::__private::core::convert::AsRef<$T> for $InternalBitFlags { fn as_ref(&self) -> &$T { &self.0 } } impl $crate::__private::core::convert::From<$T> for $InternalBitFlags { fn from(bits: $T) -> Self { Self::from_bits_retain(bits) } } // The internal flags type offers a similar API to the public one __impl_public_bitflags! { $InternalBitFlags: $T, $PublicBitFlags { $( $(#[$inner $($args)*])* const $Flag = $value; )* } } __impl_public_bitflags_ops! { $InternalBitFlags } __impl_public_bitflags_iter! { $InternalBitFlags: $T, $PublicBitFlags } impl $InternalBitFlags { /// Returns a mutable reference to the raw value of the flags currently stored. #[inline] pub fn bits_mut(&mut self) -> &mut $T { &mut self.0 } } }; }