Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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441 lines
16 KiB
441 lines
16 KiB
// Protocol Buffers - Google's data interchange format |
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// Copyright 2023 Google LLC. All rights reserved. |
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// |
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// Use of this source code is governed by a BSD-style |
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// license that can be found in the LICENSE file or at |
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// https://developers.google.com/open-source/licenses/bsd |
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//! Operating on borrowed data owned by a message is a central concept in |
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//! Protobuf (and Rust in general). The way this is normally accomplished in |
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//! Rust is to pass around references and operate on those. Unfortunately, |
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//! references come with two major drawbacks: |
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//! |
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//! * We must store the value somewhere in the memory to create a reference to |
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//! it. The value must be readable by a single load. However for Protobuf |
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//! fields it happens that the actual memory representation of a value differs |
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//! from what users expect and it is an implementation detail that can change |
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//! as more optimizations are implemented. For example, rarely accessed |
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//! `int64` fields can be represented in a packed format with 32 bits for the |
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//! value in the common case. Or, a single logical value can be spread across |
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//! multiple memory locations. For example, presence information for all the |
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//! fields in a protobuf message is centralized in a bitset. |
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//! * We cannot store extra data on the reference that might be necessary for |
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//! correctly manipulating it (and custom-metadata DSTs do not exist yet in |
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//! Rust). Concretely, messages, string, bytes, and repeated fields in UPB |
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//! need to carry around an arena parameter separate from the data pointer to |
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//! enable mutation (for example adding an element to a repeated field) or |
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//! potentially to enable optimizations (for example referencing a string |
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//! value using a Cord-like type instead of copying it if the source and |
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//! target messages are on the same arena already). Mutable references to |
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//! messages have one additional drawback: Rust allows users to |
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//! indiscriminately run a bytewise swap() on mutable references, which could |
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//! result in pointers to the wrong arena winding up on a message. For |
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//! example, imagine swapping a submessage across two root messages allocated |
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//! on distinct arenas A and B; after the swap, the message allocated in A may |
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//! contain pointers from B by way of the submessage, because the swap does |
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//! not know to fix up those pointers as needed. The C++ API uses |
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//! message-owned arenas, and this ends up resembling self-referential types, |
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//! which need `Pin` in order to be sound. However, `Pin` has much stronger |
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//! guarantees than we need to uphold. |
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//! |
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//! These drawbacks put the "idiomatic Rust" goal in conflict with the |
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//! "performance", "evolvability", and "safety" goals. Given the project design |
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//! priorities we decided to not use plain Rust references. Instead, we |
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//! implemented the concept of "proxy" types. Proxy types are a reference-like |
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//! indirection between the user and the internal memory representation. |
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use crate::__internal::Private; |
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use std::fmt::Debug; |
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/// A type that can be accessed through a reference-like proxy. |
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/// |
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/// An instance of a `Proxied` can be accessed immutably via `Proxied::View`. |
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/// |
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/// All Protobuf field types implement `Proxied`. |
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pub trait Proxied { |
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/// The proxy type that provides shared access to a `T`, like a `&'msg T`. |
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/// |
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/// Most code should use the type alias [`View`]. |
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type View<'msg>: ViewProxy<'msg, Proxied = Self> + Copy + Send |
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where |
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Self: 'msg; |
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} |
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/// A type that can be be accessed through a reference-like proxy. |
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/// |
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/// An instance of a `MutProxied` can be accessed mutably via `MutProxied::Mut` |
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/// and immutably via `MutProxied::View`. |
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/// |
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/// `MutProxied` is implemented by message, map and repeated field types. |
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pub trait MutProxied: Proxied { |
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/// The proxy type that provides exclusive mutable access to a `T`, like a |
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/// `&'msg mut T`. |
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/// |
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/// Most code should use the type alias [`Mut`]. |
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type Mut<'msg>: MutProxy<'msg, Proxied = Self> |
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where |
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Self: 'msg; |
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} |
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/// A proxy type that provides shared access to a `T`, like a `&'msg T`. |
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/// |
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/// This is more concise than fully spelling the associated type. |
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#[allow(dead_code)] |
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pub type View<'msg, T> = <T as Proxied>::View<'msg>; |
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/// A proxy type that provides exclusive mutable access to a `T`, like a |
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/// `&'msg mut T`. |
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/// |
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/// This is more concise than fully spelling the associated type. |
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#[allow(dead_code)] |
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pub type Mut<'msg, T> = <T as MutProxied>::Mut<'msg>; |
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/// Declares conversion operations common to all views. |
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/// |
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/// This trait is intentionally made non-object-safe to prevent a potential |
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/// future incompatible change. |
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pub trait ViewProxy<'msg>: 'msg + Sync + Unpin + Sized + Debug { |
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type Proxied: 'msg + Proxied + ?Sized; |
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/// Converts a borrow into a `View` with the lifetime of that borrow. |
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/// |
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/// In non-generic code we don't need to use `as_view` because the proxy |
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/// types are covariant over `'msg`. However, generic code conservatively |
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/// treats `'msg` as [invariant], therefore we need to call |
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/// `as_view` to explicitly perform the operation that in concrete code |
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/// coercion would perform implicitly. |
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/// |
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/// For example, the call to `.as_view()` in the following snippet |
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/// wouldn't be necessary in concrete code: |
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/// ``` |
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/// fn reborrow<'a, 'b, T>(x: &'b View<'a, T>) -> View<'b, T> |
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/// where 'a: 'b, T: Proxied |
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/// { |
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/// x.as_view() |
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/// } |
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/// ``` |
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/// |
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/// [invariant]: https://doc.rust-lang.org/nomicon/subtyping.html#variance |
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fn as_view(&self) -> View<'_, Self::Proxied>; |
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/// Converts into a `View` with a potentially shorter lifetime. |
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/// |
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/// In non-generic code we don't need to use `into_view` because the proxy |
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/// types are covariant over `'msg`. However, generic code conservatively |
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/// treats `'msg` as [invariant], therefore we need to call |
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/// `into_view` to explicitly perform the operation that in concrete |
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/// code coercion would perform implicitly. |
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/// |
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/// ``` |
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/// fn reborrow_generic_view_into_view<'a, 'b, T>( |
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/// x: View<'a, T>, |
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/// y: View<'b, T>, |
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/// ) -> [View<'b, T>; 2] |
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/// where |
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/// T: MutProxied, |
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/// 'a: 'b, |
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/// { |
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/// // `[x, y]` fails to compile because `'a` is not the same as `'b` and the `View` |
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/// // lifetime parameter is (conservatively) invariant. |
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/// // `[x.as_view(), y]` fails because that borrow cannot outlive `'b`. |
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/// [x.into_view(), y] |
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/// } |
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/// ``` |
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/// |
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/// [invariant]: https://doc.rust-lang.org/nomicon/subtyping.html#variance |
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fn into_view<'shorter>(self) -> View<'shorter, Self::Proxied> |
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where |
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'msg: 'shorter; |
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} |
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/// Declares operations common to all mutators. |
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/// |
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/// This trait is intentionally made non-object-safe to prevent a potential |
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/// future incompatible change. |
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pub trait MutProxy<'msg>: ViewProxy<'msg> |
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where |
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Self::Proxied: MutProxied, |
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{ |
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/// Gets an immutable view of this field. This is shorthand for `as_view`. |
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/// |
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/// This provides a shorter lifetime than `into_view` but can also be called |
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/// multiple times - if the result of `get` is not living long enough |
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/// for your use, use that instead. |
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fn get(&self) -> View<'_, Self::Proxied> { |
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self.as_view() |
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} |
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/// Converts a borrow into a `Mut` with the lifetime of that borrow. |
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/// |
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/// This function enables calling multiple methods consuming `self`, for |
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/// example: |
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/// |
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/// ```ignore |
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/// let mut sub: Mut<SubMsg> = msg.submsg_mut(); |
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/// sub.as_mut().field_x_mut().set(10); // field_x_mut is fn(self) |
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/// sub.field_y_mut().set(20); // `sub` is now consumed |
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/// ``` |
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/// |
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/// `as_mut` is also useful in generic code to explicitly perform the |
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/// operation that in concrete code coercion would perform implicitly. |
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fn as_mut(&mut self) -> Mut<'_, Self::Proxied>; |
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/// Converts into a `Mut` with a potentially shorter lifetime. |
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/// |
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/// In non-generic code we don't need to use `into_mut` because the proxy |
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/// types are covariant over `'msg`. However, generic code conservatively |
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/// treats `'msg` as [invariant], therefore we need to call |
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/// `into_mut` to explicitly perform the operation that in concrete code |
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/// coercion would perform implicitly. |
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/// |
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/// ``` |
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/// fn reborrow_generic_mut_into_mut<'a, 'b, T>(x: Mut<'a, T>, y: Mut<'b, T>) -> [Mut<'b, T>; 2] |
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/// where |
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/// T: Proxied, |
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/// 'a: 'b, |
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/// { |
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/// // `[x, y]` fails to compile because `'a` is not the same as `'b` and the `Mut` |
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/// // lifetime parameter is (conservatively) invariant. |
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/// // `[x.as_mut(), y]` fails because that borrow cannot outlive `'b`. |
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/// [x.into_mut(), y] |
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/// } |
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/// ``` |
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/// |
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/// [invariant]: https://doc.rust-lang.org/nomicon/subtyping.html#variance |
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fn into_mut<'shorter>(self) -> Mut<'shorter, Self::Proxied> |
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where |
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'msg: 'shorter; |
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} |
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/// A value to `Proxied`-value conversion that consumes the input value. |
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/// |
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/// All setter functions accept types that implement `IntoProxied`. The purpose |
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/// of `IntoProxied` is to allow setting arbitrary values on Protobuf fields |
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/// with the minimal number of copies. |
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/// |
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/// This trait must not be implemented on types outside the Protobuf codegen and |
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/// runtime. We expect it to change in backwards incompatible ways in the |
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/// future. |
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pub trait IntoProxied<T: Proxied> { |
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fn into_proxied(self, _private: Private) -> T; |
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} |
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#[cfg(test)] |
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mod tests { |
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use super::*; |
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use googletest::prelude::*; |
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#[derive(Debug, Default, PartialEq)] |
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struct MyProxied { |
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val: String, |
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} |
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impl MyProxied { |
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fn as_view(&self) -> View<'_, Self> { |
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MyProxiedView { my_proxied_ref: self } |
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} |
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fn as_mut(&mut self) -> Mut<'_, Self> { |
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MyProxiedMut { my_proxied_ref: self } |
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} |
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} |
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impl Proxied for MyProxied { |
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type View<'msg> = MyProxiedView<'msg>; |
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} |
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impl MutProxied for MyProxied { |
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type Mut<'msg> = MyProxiedMut<'msg>; |
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} |
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#[derive(Debug, Clone, Copy)] |
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struct MyProxiedView<'msg> { |
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my_proxied_ref: &'msg MyProxied, |
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} |
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impl MyProxiedView<'_> { |
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fn val(&self) -> &str { |
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&self.my_proxied_ref.val |
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} |
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} |
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impl<'msg> ViewProxy<'msg> for MyProxiedView<'msg> { |
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type Proxied = MyProxied; |
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fn as_view(&self) -> View<'msg, MyProxied> { |
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*self |
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} |
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fn into_view<'shorter>(self) -> View<'shorter, MyProxied> |
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where |
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'msg: 'shorter, |
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{ |
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self |
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} |
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} |
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#[derive(Debug)] |
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struct MyProxiedMut<'msg> { |
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my_proxied_ref: &'msg mut MyProxied, |
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} |
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impl<'msg> ViewProxy<'msg> for MyProxiedMut<'msg> { |
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type Proxied = MyProxied; |
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fn as_view(&self) -> View<'_, MyProxied> { |
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MyProxiedView { my_proxied_ref: self.my_proxied_ref } |
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} |
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fn into_view<'shorter>(self) -> View<'shorter, MyProxied> |
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where |
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'msg: 'shorter, |
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{ |
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MyProxiedView { my_proxied_ref: self.my_proxied_ref } |
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} |
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} |
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impl<'msg> MutProxy<'msg> for MyProxiedMut<'msg> { |
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fn as_mut(&mut self) -> Mut<'_, MyProxied> { |
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MyProxiedMut { my_proxied_ref: self.my_proxied_ref } |
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} |
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fn into_mut<'shorter>(self) -> Mut<'shorter, MyProxied> |
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where |
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'msg: 'shorter, |
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{ |
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self |
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} |
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} |
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#[test] |
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fn test_as_view() { |
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let my_proxied = MyProxied { val: "Hello World".to_string() }; |
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let my_view = my_proxied.as_view(); |
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assert_that!(my_view.val(), eq(&my_proxied.val)); |
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} |
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fn reborrow_mut_into_view<'msg>(x: Mut<'msg, MyProxied>) -> View<'msg, MyProxied> { |
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// x.as_view() fails to compile with: |
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// `ERROR: attempt to return function-local borrowed content` |
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x.into_view() // OK: we return the same lifetime as we got in. |
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} |
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#[test] |
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fn test_mut_into_view() { |
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let mut my_proxied = MyProxied { val: "Hello World".to_string() }; |
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reborrow_mut_into_view(my_proxied.as_mut()); |
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} |
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fn require_unified_lifetimes<'msg>(_x: Mut<'msg, MyProxied>, _y: View<'msg, MyProxied>) {} |
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#[test] |
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fn test_require_unified_lifetimes() { |
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let mut my_proxied = MyProxied { val: "Hello1".to_string() }; |
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let my_mut = my_proxied.as_mut(); |
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{ |
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let other_proxied = MyProxied { val: "Hello2".to_string() }; |
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let other_view = other_proxied.as_view(); |
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require_unified_lifetimes(my_mut, other_view); |
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} |
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} |
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fn reborrow_generic_as_view<'a, 'b, T>( |
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x: &'b mut Mut<'a, T>, |
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y: &'b View<'a, T>, |
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) -> [View<'b, T>; 2] |
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where |
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T: MutProxied, |
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'a: 'b, |
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{ |
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// `[x, y]` fails to compile because `'a` is not the same as `'b` and the `View` |
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// lifetime parameter is (conservatively) invariant. |
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[x.as_view(), y.as_view()] |
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} |
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#[test] |
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fn test_reborrow_generic_as_view() { |
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let mut my_proxied = MyProxied { val: "Hello1".to_string() }; |
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let mut my_mut = my_proxied.as_mut(); |
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let my_ref = &mut my_mut; |
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{ |
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let other_proxied = MyProxied { val: "Hello2".to_string() }; |
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let other_view = other_proxied.as_view(); |
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reborrow_generic_as_view::<MyProxied>(my_ref, &other_view); |
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} |
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} |
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fn reborrow_generic_view_into_view<'a, 'b, T>( |
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x: View<'a, T>, |
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y: View<'b, T>, |
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) -> [View<'b, T>; 2] |
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where |
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T: Proxied, |
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'a: 'b, |
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{ |
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// `[x, y]` fails to compile because `'a` is not the same as `'b` and the `View` |
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// lifetime parameter is (conservatively) invariant. |
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// `[x.as_view(), y]` fails because that borrow cannot outlive `'b`. |
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[x.into_view(), y] |
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} |
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#[test] |
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fn test_reborrow_generic_into_view() { |
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let my_proxied = MyProxied { val: "Hello1".to_string() }; |
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let my_view = my_proxied.as_view(); |
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{ |
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let other_proxied = MyProxied { val: "Hello2".to_string() }; |
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let other_view = other_proxied.as_view(); |
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reborrow_generic_view_into_view::<MyProxied>(my_view, other_view); |
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} |
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} |
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fn reborrow_generic_mut_into_view<'a, 'b, T>(x: Mut<'a, T>, y: View<'b, T>) -> [View<'b, T>; 2] |
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where |
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T: MutProxied, |
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'a: 'b, |
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{ |
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[x.into_view(), y] |
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} |
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#[test] |
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fn test_reborrow_generic_mut_into_view() { |
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let mut my_proxied = MyProxied { val: "Hello1".to_string() }; |
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let my_mut = my_proxied.as_mut(); |
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{ |
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let other_proxied = MyProxied { val: "Hello2".to_string() }; |
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let other_view = other_proxied.as_view(); |
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reborrow_generic_mut_into_view::<MyProxied>(my_mut, other_view); |
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} |
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} |
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fn reborrow_generic_mut_into_mut<'a, 'b, T>(x: Mut<'a, T>, y: Mut<'b, T>) -> [Mut<'b, T>; 2] |
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where |
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T: MutProxied, |
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'a: 'b, |
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{ |
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// `[x, y]` fails to compile because `'a` is not the same as `'b` and the `Mut` |
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// lifetime parameter is (conservatively) invariant. |
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// `[x.as_mut(), y]` fails because that borrow cannot outlive `'b`. |
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[x.into_mut(), y] |
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} |
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#[test] |
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fn test_reborrow_generic_mut_into_mut() { |
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let mut my_proxied = MyProxied { val: "Hello1".to_string() }; |
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let my_mut = my_proxied.as_mut(); |
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{ |
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let mut other_proxied = MyProxied { val: "Hello2".to_string() }; |
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let other_mut = other_proxied.as_mut(); |
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// No need to reborrow, even though lifetime of &other_view is different |
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// than the lifetiem of my_ref. Rust references are covariant over their |
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// lifetime. |
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reborrow_generic_mut_into_mut::<MyProxied>(my_mut, other_mut); |
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} |
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} |
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}
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