vendor/gix-object-0.42.3/src/traits.rs - toolchain/rustc - Git at Google

 use std::io::Write;

 use crate::Kind;

 /// Writing of objects to a `Write` implementation
 pub trait WriteTo {
     /// Write a representation of this instance to `out`.
     fn write_to(&self, out: &mut dyn std::io::Write) -> std::io::Result<()>;

     /// Returns the type of this object.
     fn kind(&self) -> Kind;

     /// Returns the size of this object's representation (the amount
     /// of data which would be written by [`write_to`](Self::write_to)).
     ///
     /// [`size`](Self::size)'s value has no bearing on the validity of
     /// the object, as such it's possible for [`size`](Self::size) to
     /// return a sensible value but [`write_to`](Self::write_to) to
     /// fail because the object was not actually valid in some way.
     fn size(&self) -> u64;

     /// Returns a loose object header based on the object's data
     fn loose_header(&self) -> smallvec::SmallVec<[u8; 28]> {
         crate::encode::loose_header(self.kind(), self.size())
     }
 }

 impl<T> WriteTo for &T
 where
     T: WriteTo,
 {
     fn write_to(&self, out: &mut dyn Write) -> std::io::Result<()> {
         <T as WriteTo>::write_to(self, out)
     }

     fn kind(&self) -> Kind {
         <T as WriteTo>::kind(self)
     }

     fn size(&self) -> u64 {
         <T as WriteTo>::size(self)
     }
 }

 mod find {
     use crate::find;

     /// Check if an object is present in an object store.
     pub trait Exists {
         /// Returns `true` if the object exists in the database.
         fn exists(&self, id: &gix_hash::oid) -> bool;
     }

     /// Find an object in the object store.
     ///
     /// ## Notes
     ///
     /// Find effectively needs [generic associated types][issue] to allow a trait for the returned object type.
     /// Until then, we will have to make due with explicit types and give them the potentially added features we want.
     ///
     /// [issue]: https://github.com/rust-lang/rust/issues/44265
     pub trait Find {
         /// Find an object matching `id` in the database while placing its raw, possibly encoded data into `buffer`.
         ///
         /// Returns `Some` object if it was present in the database, or the error that occurred during lookup or object
         /// retrieval.
         fn try_find<'a>(
             &self,
             id: &gix_hash::oid,
             buffer: &'a mut Vec<u8>,
         ) -> Result<Option<crate::Data<'a>>, find::Error>;
     }

     /// Find the header of an object in the object store.
     pub trait Header {
         /// Find the header of the object matching `id` in the database.
         ///
         /// Returns `Some` header if it was present, or the error that occurred during lookup.
         fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, find::Error>;
     }

     /// A combination of [`Find`] and [`Header`] traits to help with `dyn` trait objects.
     pub trait FindObjectOrHeader: Find + Header {}

     mod _impls {
         use std::{ops::Deref, rc::Rc, sync::Arc};

         use gix_hash::oid;

         use crate::Data;

         impl<T> crate::Exists for &T
         where
             T: crate::Exists,
         {
             fn exists(&self, id: &oid) -> bool {
                 (*self).exists(id)
             }
         }

         impl<T> crate::FindObjectOrHeader for T where T: crate::Find + crate::FindHeader {}

         impl<T> crate::Find for &T
         where
             T: crate::Find,
         {
             fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
                 (*self).try_find(id, buffer)
             }
         }

         impl<T> crate::FindHeader for &T
         where
             T: crate::FindHeader,
         {
             fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
                 (*self).try_header(id)
             }
         }

         impl<T> crate::Exists for Box<T>
         where
             T: crate::Exists,
         {
             fn exists(&self, id: &oid) -> bool {
                 self.deref().exists(id)
             }
         }

         impl<T> crate::Exists for Rc<T>
         where
             T: crate::Exists,
         {
             fn exists(&self, id: &oid) -> bool {
                 self.deref().exists(id)
             }
         }

         impl<T> crate::Find for Rc<T>
         where
             T: crate::Find,
         {
             fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
                 self.deref().try_find(id, buffer)
             }
         }

         impl<T> crate::FindHeader for Rc<T>
         where
             T: crate::FindHeader,
         {
             fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
                 self.deref().try_header(id)
             }
         }

         impl<T> crate::Find for Box<T>
         where
             T: crate::Find,
         {
             fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
                 self.deref().try_find(id, buffer)
             }
         }

         impl<T> crate::FindHeader for Box<T>
         where
             T: crate::FindHeader,
         {
             fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
                 self.deref().try_header(id)
             }
         }

         impl<T> crate::Exists for Arc<T>
         where
             T: crate::Exists,
         {
             fn exists(&self, id: &oid) -> bool {
                 self.deref().exists(id)
             }
         }

         impl<T> crate::Find for Arc<T>
         where
             T: crate::Find,
         {
             fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
                 self.deref().try_find(id, buffer)
             }
         }

         impl<T> crate::FindHeader for Arc<T>
         where
             T: crate::FindHeader,
         {
             fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
                 self.deref().try_header(id)
             }
         }
     }

     mod ext {
         use crate::{
             find, BlobRef, CommitRef, CommitRefIter, Kind, ObjectRef, TagRef, TagRefIter, TreeRef, TreeRefIter,
         };

         macro_rules! make_obj_lookup {
             ($method:ident, $object_variant:path, $object_kind:path, $object_type:ty) => {
                 /// Like [`find(…)`][Self::find()], but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error
                 /// while returning the desired object type.
                 fn $method<'a>(
                     &self,
                     id: &gix_hash::oid,
                     buffer: &'a mut Vec<u8>,
                 ) -> Result<$object_type, find::existing_object::Error> {
                     self.try_find(id, buffer)
                         .map_err(find::existing_object::Error::Find)?
                         .ok_or_else(|| find::existing_object::Error::NotFound {
                             oid: id.as_ref().to_owned(),
                         })
                         .and_then(|o| {
                             o.decode()
                                 .map_err(|err| find::existing_object::Error::Decode {
                                     source: err,
                                     oid: id.as_ref().to_owned(),
                                 })
                         })
                         .and_then(|o| match o {
                             $object_variant(o) => return Ok(o),
                             o => Err(find::existing_object::Error::ObjectKind {
                                 oid: id.as_ref().to_owned(),
                                 actual: o.kind(),
                                 expected: $object_kind,
                             }),
                         })
                 }
             };
         }

         macro_rules! make_iter_lookup {
             ($method:ident, $object_kind:path, $object_type:ty, $into_iter:tt) => {
                 /// Like [`find(…)`][Self::find()], but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error
                 /// while returning the desired iterator type.
                 fn $method<'a>(
                     &self,
                     id: &gix_hash::oid,
                     buffer: &'a mut Vec<u8>,
                 ) -> Result<$object_type, find::existing_iter::Error> {
                     self.try_find(id, buffer)
                         .map_err(find::existing_iter::Error::Find)?
                         .ok_or_else(|| find::existing_iter::Error::NotFound {
                             oid: id.as_ref().to_owned(),
                         })
                         .and_then(|o| {
                             o.$into_iter()
                                 .ok_or_else(|| find::existing_iter::Error::ObjectKind {
                                     oid: id.as_ref().to_owned(),
                                     actual: o.kind,
                                     expected: $object_kind,
                                 })
                         })
                 }
             };
         }

         /// An extension trait with convenience functions.
         pub trait HeaderExt: super::Header {
             /// Like [`try_header(…)`](super::Header::try_header()), but flattens the `Result<Option<_>>` into a single `Result` making a non-existing header an error.
             fn header(&self, id: &gix_hash::oid) -> Result<crate::Header, find::existing::Error> {
                 self.try_header(id)
                     .map_err(find::existing::Error::Find)?
                     .ok_or_else(|| find::existing::Error::NotFound { oid: id.to_owned() })
             }
         }

         /// An extension trait with convenience functions.
         pub trait FindExt: super::Find {
             /// Like [`try_find(…)`](super::Find::try_find()), but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error.
             fn find<'a>(
                 &self,
                 id: &gix_hash::oid,
                 buffer: &'a mut Vec<u8>,
             ) -> Result<crate::Data<'a>, find::existing::Error> {
                 self.try_find(id, buffer)
                     .map_err(find::existing::Error::Find)?
                     .ok_or_else(|| find::existing::Error::NotFound { oid: id.to_owned() })
             }

             make_obj_lookup!(find_commit, ObjectRef::Commit, Kind::Commit, CommitRef<'a>);
             make_obj_lookup!(find_tree, ObjectRef::Tree, Kind::Tree, TreeRef<'a>);
             make_obj_lookup!(find_tag, ObjectRef::Tag, Kind::Tag, TagRef<'a>);
             make_obj_lookup!(find_blob, ObjectRef::Blob, Kind::Blob, BlobRef<'a>);
             make_iter_lookup!(find_commit_iter, Kind::Commit, CommitRefIter<'a>, try_into_commit_iter);
             make_iter_lookup!(find_tree_iter, Kind::Tree, TreeRefIter<'a>, try_into_tree_iter);
             make_iter_lookup!(find_tag_iter, Kind::Tag, TagRefIter<'a>, try_into_tag_iter);
         }

         impl<T: super::Find + ?Sized> FindExt for T {}
     }
     pub use ext::{FindExt, HeaderExt};
 }
 pub use find::*;
	use std::io::Write;

	use crate::Kind;

	/// Writing of objects to a `Write` implementation
	pub trait WriteTo {
	/// Write a representation of this instance to `out`.
	fn write_to(&self, out: &mut dyn std::io::Write) -> std::io::Result<()>;

	/// Returns the type of this object.
	fn kind(&self) -> Kind;

	/// Returns the size of this object's representation (the amount
	/// of data which would be written by [`write_to`](Self::write_to)).
	///
	/// [`size`](Self::size)'s value has no bearing on the validity of
	/// the object, as such it's possible for [`size`](Self::size) to
	/// return a sensible value but [`write_to`](Self::write_to) to
	/// fail because the object was not actually valid in some way.
	fn size(&self) -> u64;

	/// Returns a loose object header based on the object's data
	fn loose_header(&self) -> smallvec::SmallVec<[u8; 28]> {
	crate::encode::loose_header(self.kind(), self.size())
	}
	}

	impl<T> WriteTo for &T
	where
	T: WriteTo,
	{
	fn write_to(&self, out: &mut dyn Write) -> std::io::Result<()> {
	<T as WriteTo>::write_to(self, out)
	}

	fn kind(&self) -> Kind {
	<T as WriteTo>::kind(self)
	}

	fn size(&self) -> u64 {
	<T as WriteTo>::size(self)
	}
	}

	mod find {
	use crate::find;

	/// Check if an object is present in an object store.
	pub trait Exists {
	/// Returns `true` if the object exists in the database.
	fn exists(&self, id: &gix_hash::oid) -> bool;
	}

	/// Find an object in the object store.
	///
	/// ## Notes
	///
	/// Find effectively needs [generic associated types][issue] to allow a trait for the returned object type.
	/// Until then, we will have to make due with explicit types and give them the potentially added features we want.
	///
	/// [issue]: https://github.com/rust-lang/rust/issues/44265
	pub trait Find {
	/// Find an object matching `id` in the database while placing its raw, possibly encoded data into `buffer`.
	///
	/// Returns `Some` object if it was present in the database, or the error that occurred during lookup or object
	/// retrieval.
	fn try_find<'a>(
	&self,
	id: &gix_hash::oid,
	buffer: &'a mut Vec<u8>,
	) -> Result<Option<crate::Data<'a>>, find::Error>;
	}

	/// Find the header of an object in the object store.
	pub trait Header {
	/// Find the header of the object matching `id` in the database.
	///
	/// Returns `Some` header if it was present, or the error that occurred during lookup.
	fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, find::Error>;
	}

	/// A combination of [`Find`] and [`Header`] traits to help with `dyn` trait objects.
	pub trait FindObjectOrHeader: Find + Header {}

	mod _impls {
	use std::{ops::Deref, rc::Rc, sync::Arc};

	use gix_hash::oid;

	use crate::Data;

	impl<T> crate::Exists for &T
	where
	T: crate::Exists,
	{
	fn exists(&self, id: &oid) -> bool {
	(*self).exists(id)
	}
	}

	impl<T> crate::FindObjectOrHeader for T where T: crate::Find + crate::FindHeader {}

	impl<T> crate::Find for &T
	where
	T: crate::Find,
	{
	fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
	(*self).try_find(id, buffer)
	}
	}

	impl<T> crate::FindHeader for &T
	where
	T: crate::FindHeader,
	{
	fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
	(*self).try_header(id)
	}
	}

	impl<T> crate::Exists for Box<T>
	where
	T: crate::Exists,
	{
	fn exists(&self, id: &oid) -> bool {
	self.deref().exists(id)
	}
	}

	impl<T> crate::Exists for Rc<T>
	where
	T: crate::Exists,
	{
	fn exists(&self, id: &oid) -> bool {
	self.deref().exists(id)
	}
	}

	impl<T> crate::Find for Rc<T>
	where
	T: crate::Find,
	{
	fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
	self.deref().try_find(id, buffer)
	}
	}

	impl<T> crate::FindHeader for Rc<T>
	where
	T: crate::FindHeader,
	{
	fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
	self.deref().try_header(id)
	}
	}

	impl<T> crate::Find for Box<T>
	where
	T: crate::Find,
	{
	fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
	self.deref().try_find(id, buffer)
	}
	}

	impl<T> crate::FindHeader for Box<T>
	where
	T: crate::FindHeader,
	{
	fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
	self.deref().try_header(id)
	}
	}

	impl<T> crate::Exists for Arc<T>
	where
	T: crate::Exists,
	{
	fn exists(&self, id: &oid) -> bool {
	self.deref().exists(id)
	}
	}

	impl<T> crate::Find for Arc<T>
	where
	T: crate::Find,
	{
	fn try_find<'a>(&self, id: &oid, buffer: &'a mut Vec<u8>) -> Result<Option<Data<'a>>, crate::find::Error> {
	self.deref().try_find(id, buffer)
	}
	}

	impl<T> crate::FindHeader for Arc<T>
	where
	T: crate::FindHeader,
	{
	fn try_header(&self, id: &gix_hash::oid) -> Result<Option<crate::Header>, crate::find::Error> {
	self.deref().try_header(id)
	}
	}
	}

	mod ext {
	use crate::{
	find, BlobRef, CommitRef, CommitRefIter, Kind, ObjectRef, TagRef, TagRefIter, TreeRef, TreeRefIter,
	};

	macro_rules! make_obj_lookup {
	($method:ident, $object_variant:path, $object_kind:path, $object_type:ty) => {
	/// Like [`find(…)`][Self::find()], but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error
	/// while returning the desired object type.
	fn $method<'a>(
	&self,
	id: &gix_hash::oid,
	buffer: &'a mut Vec<u8>,
	) -> Result<$object_type, find::existing_object::Error> {
	self.try_find(id, buffer)
	.map_err(find::existing_object::Error::Find)?
	.ok_or_else(\|\| find::existing_object::Error::NotFound {
	oid: id.as_ref().to_owned(),
	})
	.and_then(\|o\| {
	o.decode()
	.map_err(\|err\| find::existing_object::Error::Decode {
	source: err,
	oid: id.as_ref().to_owned(),
	})
	})
	.and_then(\|o\| match o {
	$object_variant(o) => return Ok(o),
	o => Err(find::existing_object::Error::ObjectKind {
	oid: id.as_ref().to_owned(),
	actual: o.kind(),
	expected: $object_kind,
	}),
	})
	}
	};
	}

	macro_rules! make_iter_lookup {
	($method:ident, $object_kind:path, $object_type:ty, $into_iter:tt) => {
	/// Like [`find(…)`][Self::find()], but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error
	/// while returning the desired iterator type.
	fn $method<'a>(
	&self,
	id: &gix_hash::oid,
	buffer: &'a mut Vec<u8>,
	) -> Result<$object_type, find::existing_iter::Error> {
	self.try_find(id, buffer)
	.map_err(find::existing_iter::Error::Find)?
	.ok_or_else(\|\| find::existing_iter::Error::NotFound {
	oid: id.as_ref().to_owned(),
	})
	.and_then(\|o\| {
	o.$into_iter()
	.ok_or_else(\|\| find::existing_iter::Error::ObjectKind {
	oid: id.as_ref().to_owned(),
	actual: o.kind,
	expected: $object_kind,
	})
	})
	}
	};
	}

	/// An extension trait with convenience functions.
	pub trait HeaderExt: super::Header {
	/// Like [`try_header(…)`](super::Header::try_header()), but flattens the `Result<Option<_>>` into a single `Result` making a non-existing header an error.
	fn header(&self, id: &gix_hash::oid) -> Result<crate::Header, find::existing::Error> {
	self.try_header(id)
	.map_err(find::existing::Error::Find)?
	.ok_or_else(\|\| find::existing::Error::NotFound { oid: id.to_owned() })
	}
	}

	/// An extension trait with convenience functions.
	pub trait FindExt: super::Find {
	/// Like [`try_find(…)`](super::Find::try_find()), but flattens the `Result<Option<_>>` into a single `Result` making a non-existing object an error.
	fn find<'a>(
	&self,
	id: &gix_hash::oid,
	buffer: &'a mut Vec<u8>,
	) -> Result<crate::Data<'a>, find::existing::Error> {
	self.try_find(id, buffer)
	.map_err(find::existing::Error::Find)?
	.ok_or_else(\|\| find::existing::Error::NotFound { oid: id.to_owned() })
	}

	make_obj_lookup!(find_commit, ObjectRef::Commit, Kind::Commit, CommitRef<'a>);
	make_obj_lookup!(find_tree, ObjectRef::Tree, Kind::Tree, TreeRef<'a>);
	make_obj_lookup!(find_tag, ObjectRef::Tag, Kind::Tag, TagRef<'a>);
	make_obj_lookup!(find_blob, ObjectRef::Blob, Kind::Blob, BlobRef<'a>);
	make_iter_lookup!(find_commit_iter, Kind::Commit, CommitRefIter<'a>, try_into_commit_iter);
	make_iter_lookup!(find_tree_iter, Kind::Tree, TreeRefIter<'a>, try_into_tree_iter);
	make_iter_lookup!(find_tag_iter, Kind::Tag, TagRefIter<'a>, try_into_tag_iter);
	}

	impl<T: super::Find + ?Sized> FindExt for T {}
	}
	pub use ext::{FindExt, HeaderExt};
	}
	pub use find::*;