vendor/eyre-0.6.12/src/kind.rs - toolchain/rustc - Git at Google

 #![allow(missing_debug_implementations, missing_docs)]
 // Tagged dispatch mechanism for resolving the behavior of `eyre!($expr)`.
 //
 // When eyre! is given a single expr argument to turn into eyre::Report, we
 // want the resulting Report to pick up the input's implementation of source()
 // and backtrace() if it has a std::error::Error impl, otherwise require nothing
 // more than Display and Debug.
 //
 // Expressed in terms of specialization, we want something like:
 //
 //     trait EyreNew {
 //         fn new(self) -> Report;
 //     }
 //
 //     impl<T> EyreNew for T
 //     where
 //         T: Display + Debug + Send + Sync + 'static,
 //     {
 //         default fn new(self) -> Report {
 //             /* no std error impl */
 //         }
 //     }
 //
 //     impl<T> EyreNew for T
 //     where
 //         T: std::error::Error + Send + Sync + 'static,
 //     {
 //         fn new(self) -> Report {
 //             /* use std error's source() and backtrace() */
 //         }
 //     }
 //
 // Since specialization is not stable yet, instead we rely on autoref behavior
 // of method resolution to perform tagged dispatch. Here we have two traits
 // AdhocKind and TraitKind that both have an eyre_kind() method. AdhocKind is
 // implemented whether or not the caller's type has a std error impl, while
 // TraitKind is implemented only when a std error impl does exist. The ambiguity
 // is resolved by AdhocKind requiring an extra autoref so that it has lower
 // precedence.
 //
 // The eyre! macro will set up the call in this form:
 //
 //     #[allow(unused_imports)]
 //     use $crate::private::{AdhocKind, TraitKind};
 //     let error = $msg;
 //     (&error).eyre_kind().new(error)

 use crate::Report;
 use core::fmt::{Debug, Display};

 use crate::StdError;

 pub struct Adhoc;

 pub trait AdhocKind: Sized {
     #[inline]
     fn eyre_kind(&self) -> Adhoc {
         Adhoc
     }
 }

 impl<T> AdhocKind for &T where T: ?Sized + Display + Debug + Send + Sync + 'static {}

 impl Adhoc {
     #[cfg_attr(track_caller, track_caller)]
     pub fn new<M>(self, message: M) -> Report
     where
         M: Display + Debug + Send + Sync + 'static,
     {
         Report::from_adhoc(message)
     }
 }

 pub struct Trait;

 pub trait TraitKind: Sized {
     #[inline]
     fn eyre_kind(&self) -> Trait {
         Trait
     }
 }

 impl<E> TraitKind for E where E: Into<Report> {}

 impl Trait {
     #[cfg_attr(track_caller, track_caller)]
     pub fn new<E>(self, error: E) -> Report
     where
         E: Into<Report>,
     {
         error.into()
     }
 }

 pub struct Boxed;

 pub trait BoxedKind: Sized {
     #[inline]
     fn eyre_kind(&self) -> Boxed {
         Boxed
     }
 }

 impl BoxedKind for Box<dyn StdError + Send + Sync> {}

 impl Boxed {
     #[cfg_attr(track_caller, track_caller)]
     pub fn new(self, error: Box<dyn StdError + Send + Sync>) -> Report {
         Report::from_boxed(error)
     }
 }
	#![allow(missing_debug_implementations, missing_docs)]
	// Tagged dispatch mechanism for resolving the behavior of `eyre!($expr)`.
	//
	// When eyre! is given a single expr argument to turn into eyre::Report, we
	// want the resulting Report to pick up the input's implementation of source()
	// and backtrace() if it has a std::error::Error impl, otherwise require nothing
	// more than Display and Debug.
	//
	// Expressed in terms of specialization, we want something like:
	//
	// trait EyreNew {
	// fn new(self) -> Report;
	// }
	//
	// impl<T> EyreNew for T
	// where
	// T: Display + Debug + Send + Sync + 'static,
	// {
	// default fn new(self) -> Report {
	// /* no std error impl */
	// }
	// }
	//
	// impl<T> EyreNew for T
	// where
	// T: std::error::Error + Send + Sync + 'static,
	// {
	// fn new(self) -> Report {
	// /* use std error's source() and backtrace() */
	// }
	// }
	//
	// Since specialization is not stable yet, instead we rely on autoref behavior
	// of method resolution to perform tagged dispatch. Here we have two traits
	// AdhocKind and TraitKind that both have an eyre_kind() method. AdhocKind is
	// implemented whether or not the caller's type has a std error impl, while
	// TraitKind is implemented only when a std error impl does exist. The ambiguity
	// is resolved by AdhocKind requiring an extra autoref so that it has lower
	// precedence.
	//
	// The eyre! macro will set up the call in this form:
	//
	// #[allow(unused_imports)]
	// use $crate::private::{AdhocKind, TraitKind};
	// let error = $msg;
	// (&error).eyre_kind().new(error)

	use crate::Report;
	use core::fmt::{Debug, Display};

	use crate::StdError;

	pub struct Adhoc;

	pub trait AdhocKind: Sized {
	#[inline]
	fn eyre_kind(&self) -> Adhoc {
	Adhoc
	}
	}

	impl<T> AdhocKind for &T where T: ?Sized + Display + Debug + Send + Sync + 'static {}

	impl Adhoc {
	#[cfg_attr(track_caller, track_caller)]
	pub fn new<M>(self, message: M) -> Report
	where
	M: Display + Debug + Send + Sync + 'static,
	{
	Report::from_adhoc(message)
	}
	}

	pub struct Trait;

	pub trait TraitKind: Sized {
	#[inline]
	fn eyre_kind(&self) -> Trait {
	Trait
	}
	}

	impl<E> TraitKind for E where E: Into<Report> {}

	impl Trait {
	#[cfg_attr(track_caller, track_caller)]
	pub fn new<E>(self, error: E) -> Report
	where
	E: Into<Report>,
	{
	error.into()
	}
	}

	pub struct Boxed;

	pub trait BoxedKind: Sized {
	#[inline]
	fn eyre_kind(&self) -> Boxed {
	Boxed
	}
	}

	impl BoxedKind for Box<dyn StdError + Send + Sync> {}

	impl Boxed {
	#[cfg_attr(track_caller, track_caller)]
	pub fn new(self, error: Box<dyn StdError + Send + Sync>) -> Report {
	Report::from_boxed(error)
	}
	}