//! Public macros for porvide.d for users to be able implement our `io::Write` trait. #[macro_export] /// Because we cannot provide a blanket implementation of [`std::io::Write`] for all implementers /// of this crate's `io::Write` trait, we provide this macro instead. /// /// This macro will implement `Write` given a `write` and `flush` fn, either by implementing the /// crate's native `io::Write` trait directly, or a more generic trait from `std` for users using /// that feature. In any case, this crate's `io::Write` feature will be implemented for the given /// type, even if indirectly. #[cfg(not(feature = "std"))] macro_rules! impl_write { ($ty: ty, $write_fn: expr, $flush_fn: expr $(, $bounded_ty: ident : $bounds: path),*) => { impl<$($bounded_ty: $bounds),*> $crate::io::Write for $ty { #[inline] fn write(&mut self, buf: &[u8]) -> $crate::io::Result { $write_fn(self, buf) } #[inline] fn flush(&mut self) -> $crate::io::Result<()> { $flush_fn(self) } } } } #[macro_export] /// Because we cannot provide a blanket implementation of [`std::io::Write`] for all implementers /// of this crate's `io::Write` trait, we provide this macro instead. /// /// This macro will implement `Write` given a `write` and `flush` fn, either by implementing the /// crate's native `io::Write` trait directly, or a more generic trait from `std` for users using /// that feature. In any case, this crate's `io::Write` feature will be implemented for the given /// type, even if indirectly. #[cfg(feature = "std")] macro_rules! impl_write { ($ty: ty, $write_fn: expr, $flush_fn: expr $(, $bounded_ty: ident : $bounds: path),*) => { impl<$($bounded_ty: $bounds),*> std::io::Write for $ty { #[inline] fn write(&mut self, buf: &[u8]) -> std::io::Result { $write_fn(self, buf) } #[inline] fn flush(&mut self) -> std::io::Result<()> { $flush_fn(self) } } } }