Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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727 lines
23 KiB
727 lines
23 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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//! Items specific to `optional` fields. |
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#![allow(dead_code)] |
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#![allow(unused)] |
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use crate::__internal::Private; |
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use crate::{Mut, MutProxy, Proxied, ProxiedWithPresence, SettableValue, View, ViewProxy}; |
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use std::convert::{AsMut, AsRef}; |
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use std::fmt::{self, Debug}; |
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use std::panic; |
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use std::ptr; |
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/// A protobuf value from a field that may not be set. |
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/// |
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/// This can be pattern matched with `match` or `if let` to determine if the |
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/// field is set and access the field data. |
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/// |
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/// [`FieldEntry`], a specific type alias for `Optional`, provides much of the |
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/// functionality for this type. |
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/// |
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/// Two `Optional`s are equal if they match both presence and the field values. |
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#[derive(Debug, Clone, Copy, PartialEq, Eq)] |
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pub enum Optional<SetVal, UnsetVal = SetVal> { |
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/// The field is set; it is present in the serialized message. |
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/// |
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/// - For an `_opt()` accessor, this contains a `View<impl Proxied>`. |
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/// - For a `_mut()` accessor, this contains a [`PresentField`] that can be |
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/// used to access the current value, convert to [`Mut`], clear presence, |
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/// or set a new value. |
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Set(SetVal), |
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/// The field is unset; it is absent in the serialized message. |
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/// |
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/// - For an `_opt()` accessor, this contains a `View<impl Proxied>` with |
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/// the default value. |
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/// - For a `_mut()` accessor, this contains an [`AbsentField`] that can be |
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/// used to access the default or set a new value. |
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Unset(UnsetVal), |
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} |
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impl<T> Optional<T> { |
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/// Gets the field value, ignoring whether it was set or not. |
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pub fn into_inner(self) -> T { |
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match self { |
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Optional::Set(x) | Optional::Unset(x) => x, |
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} |
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} |
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/// Constructs an `Optional<T>` with a `T` value and presence bit. |
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pub fn new(val: T, is_set: bool) -> Self { |
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if is_set { Optional::Set(val) } else { Optional::Unset(val) } |
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} |
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} |
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impl<T, A> Optional<T, A> { |
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/// Converts into an `Option` of the set value, ignoring any unset value. |
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pub fn into_option(self) -> Option<T> { |
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if let Optional::Set(x) = self { Some(x) } else { None } |
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} |
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/// Returns if the field is set. |
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pub fn is_set(&self) -> bool { |
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matches!(self, Optional::Set(_)) |
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} |
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/// Returns if the field is unset. |
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pub fn is_unset(&self) -> bool { |
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matches!(self, Optional::Unset(_)) |
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} |
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} |
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impl<T> From<Optional<T>> for Option<T> { |
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fn from(x: Optional<T>) -> Option<T> { |
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x.into_option() |
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} |
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} |
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/// A mutable view into the value of an optional field, which may be set or |
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/// unset. |
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pub type FieldEntry<'a, T> = Optional<PresentField<'a, T>, AbsentField<'a, T>>; |
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/// Methods for `_mut()` accessors of optional types. |
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/// |
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/// The most common methods are [`set`] and [`or_default`]. |
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impl<'msg, T: ProxiedWithPresence + ?Sized + 'msg> FieldEntry<'msg, T> { |
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// is_set() is provided by `impl<T, A> Optional<T, A>` |
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/// Gets a mutator for this field. Sets to the default value if not set. |
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pub fn or_default(self) -> Mut<'msg, T> { |
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match self { |
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Optional::Set(x) => x.into_mut(), |
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Optional::Unset(x) => x.set_default().into_mut(), |
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} |
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} |
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/// Gets a mutator for this field. Sets to the given `val` if not set. |
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/// |
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/// If the field is already set, `val` is ignored. |
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pub fn or_set(self, val: impl SettableValue<T>) -> Mut<'msg, T> { |
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self.or_set_with(move || val) |
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} |
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/// Gets a mutator for this field. Sets using the given `val` function if |
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/// not set. |
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/// |
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/// If the field is already set, `val` is not invoked. |
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pub fn or_set_with<S>(self, val: impl FnOnce() -> S) -> Mut<'msg, T> |
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where |
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S: SettableValue<T>, |
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{ |
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match self { |
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Optional::Set(x) => x.into_mut(), |
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Optional::Unset(x) => x.set(val()).into_mut(), |
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} |
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} |
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/// Sets the value of this field to `val`. |
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/// |
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/// Equivalent to `self.or_default().set(val)`, but does not consume `self`. |
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/// |
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/// `set` has the same parameters as in [`MutProxy`], so making a field |
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/// `optional` will switch to using this method. This makes transitioning |
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/// from implicit to explicit presence easier. |
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pub fn set(&mut self, val: impl SettableValue<T>) { |
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transform_mut(self, |mut self_| match self_ { |
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Optional::Set(ref mut present) => { |
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present.set(val); |
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self_ |
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} |
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Optional::Unset(absent) => Optional::Set(absent.set(val)), |
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}) |
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} |
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/// Clears the field; `is_set()` will return `false`. |
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pub fn clear(&mut self) { |
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transform_mut(self, |self_| match self_ { |
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Optional::Set(present) => Optional::Unset(present.clear()), |
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absent => absent, |
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}) |
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} |
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/// Gets an immutable view of this field, using its default value if not |
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/// set. 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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/// |
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/// `get` has the same parameters as in [`MutProxy`], so making a field |
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/// `optional` will switch to using this method. This makes transitioning |
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/// from implicit to explicit presence easier. |
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pub fn get(&self) -> View<'_, T> { |
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self.as_view() |
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} |
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/// Converts to an immutable view of this optional field, preserving the |
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/// field's presence. |
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pub fn into_optional_view(self) -> Optional<View<'msg, T>> { |
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let is_set = self.is_set(); |
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Optional::new(self.into_view(), is_set) |
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} |
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/// Returns a field mutator if the field is set. |
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/// |
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/// Returns `None` if the field is not set. This does not affect `is_set()`. |
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/// |
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/// This returns `Option` and _not_ `Optional` since returning a defaulted |
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/// `Mut` would require mutating the presence of the field - for that |
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/// behavior, use `or_default()`. |
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pub fn try_into_mut(self) -> Option<Mut<'msg, T>> { |
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match self { |
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Optional::Set(x) => Some(x.into_mut()), |
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Optional::Unset(_) => None, |
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} |
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} |
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} |
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impl<'msg, T: ProxiedWithPresence + ?Sized + 'msg> ViewProxy<'msg> for FieldEntry<'msg, T> { |
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type Proxied = T; |
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fn as_view(&self) -> View<'_, T> { |
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match self { |
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Optional::Set(x) => x.as_view(), |
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Optional::Unset(x) => x.as_view(), |
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} |
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} |
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fn into_view<'shorter>(self) -> View<'shorter, T> |
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where |
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'msg: 'shorter, |
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{ |
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match self { |
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Optional::Set(x) => x.into_view(), |
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Optional::Unset(x) => x.into_view(), |
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} |
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} |
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} |
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// `MutProxy` not implemented for `FieldEntry` since the field may not be set, |
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// and `as_mut`/`into_mut` should not insert. |
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/// A field mutator capable of clearing that is statically known to point to a |
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/// set field. |
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pub struct PresentField<'msg, T> |
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where |
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T: ProxiedWithPresence + ?Sized + 'msg, |
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{ |
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pub(crate) inner: T::PresentMutData<'msg>, |
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} |
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impl<'msg, T: ProxiedWithPresence + ?Sized + 'msg> Debug for PresentField<'msg, T> { |
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { |
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self.inner.fmt(f) |
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} |
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} |
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impl<'msg, T: ProxiedWithPresence + ?Sized + 'msg> PresentField<'msg, T> { |
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#[doc(hidden)] |
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pub fn from_inner(_private: Private, inner: T::PresentMutData<'msg>) -> Self { |
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Self { inner } |
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} |
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/// Gets an immutable view of this present field. This is shorthand for |
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/// `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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pub fn get(&self) -> View<'_, T> { |
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self.as_view() |
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} |
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pub fn set(&mut self, val: impl SettableValue<T>) { |
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val.set_on(Private, self.as_mut()) |
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} |
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/// See [`FieldEntry::clear`]. |
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pub fn clear(mut self) -> AbsentField<'msg, T> { |
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AbsentField { inner: T::clear_present_field(self.inner) } |
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} |
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// This cannot provide `reborrow` - `clear` consumes after setting the field |
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// because it would violate a condition of `PresentField` - the field being set. |
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} |
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impl<'msg, T> ViewProxy<'msg> for PresentField<'msg, T> |
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where |
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T: ProxiedWithPresence + ?Sized + 'msg, |
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{ |
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type Proxied = T; |
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fn as_view(&self) -> View<'_, T> { |
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self.inner.as_view() |
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} |
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fn into_view<'shorter>(self) -> View<'shorter, T> |
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where |
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'msg: 'shorter, |
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{ |
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self.inner.into_view() |
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} |
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} |
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impl<'msg, T> MutProxy<'msg> for PresentField<'msg, T> |
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where |
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T: ProxiedWithPresence + ?Sized + 'msg, |
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{ |
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fn as_mut(&mut self) -> Mut<'_, T> { |
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self.inner.as_mut() |
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} |
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fn into_mut<'shorter>(self) -> Mut<'shorter, T> |
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where |
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'msg: 'shorter, |
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{ |
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self.inner.into_mut() |
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} |
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} |
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/// A field mutator capable of setting that is statically known to point to a |
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/// non-set field. |
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pub struct AbsentField<'a, T> |
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where |
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T: ProxiedWithPresence + ?Sized + 'a, |
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{ |
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pub(crate) inner: T::AbsentMutData<'a>, |
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} |
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impl<'msg, T: ProxiedWithPresence + ?Sized + 'msg> Debug for AbsentField<'msg, T> { |
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { |
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self.inner.fmt(f) |
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} |
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} |
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impl<'msg, T: ProxiedWithPresence + ?Sized> AbsentField<'msg, T> { |
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#[doc(hidden)] |
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pub fn from_inner(_private: Private, inner: T::AbsentMutData<'msg>) -> Self { |
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Self { inner } |
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} |
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/// Gets the default value for this unset field. |
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/// |
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/// This is the same value that the primitive accessor would provide, though |
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/// with the shorter lifetime of `as_view`. |
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pub fn default_value(&self) -> View<'_, T> { |
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self.as_view() |
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} |
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/// See [`FieldEntry::set`]. Note that this consumes and returns a |
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/// `PresentField`. |
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pub fn set(self, val: impl SettableValue<T>) -> PresentField<'msg, T> { |
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PresentField { inner: val.set_on_absent(Private, self.inner) } |
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} |
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/// Sets this absent field to its default value. |
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pub fn set_default(self) -> PresentField<'msg, T> { |
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PresentField { inner: T::set_absent_to_default(self.inner) } |
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} |
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// This cannot provide `reborrow` - `set` consumes after setting the field |
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// because it would violate a condition of `AbsentField` - the field being |
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// unset. |
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} |
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impl<'msg, T> ViewProxy<'msg> for AbsentField<'msg, T> |
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where |
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T: ProxiedWithPresence + ?Sized + 'msg, |
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{ |
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type Proxied = T; |
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fn as_view(&self) -> View<'_, T> { |
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self.inner.as_view() |
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} |
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fn into_view<'shorter>(self) -> View<'shorter, T> |
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where |
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'msg: 'shorter, |
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{ |
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self.inner.into_view() |
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} |
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} |
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/// Transforms a mutable reference in-place, treating it as if it were owned. |
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/// |
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/// The program will abort if `transform` panics. |
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/// |
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/// This is the same operation as provided by [`take_mut::take`]. |
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/// |
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/// [`take_mut::take`]: https://docs.rs/take_mut/latest/take_mut/fn.take.html |
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fn transform_mut<T>(mut_ref: &mut T, transform: impl FnOnce(T) -> T) { |
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#[cold] |
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#[inline(never)] |
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fn panicked_in_transform_mut() -> ! { |
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use std::io::Write as _; |
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let backtrace = std::backtrace::Backtrace::force_capture(); |
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let stderr = std::io::stderr(); |
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let mut stderr = stderr.lock(); |
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let _ = write!(&mut stderr, "BUG: A protobuf mutator panicked! Backtrace:\n{backtrace}\n"); |
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let _ = stderr.flush(); |
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std::process::abort() |
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} |
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// https://play.rust-lang.org/?edition=2021&gist=f3014e1f209013f0a38352e211f4a240 |
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// provides a sample test to confirm this operation is sound in Miri. |
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// SAFETY: |
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// - `old_t` is not dropped without also replacing `*mut_ref`, preventing a |
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// double-free. |
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// - If `transform` panics, the process aborts since `*mut_ref` has no possible |
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// valid value. |
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// - After `ptr::write`, a valid `T` is located at `*mut_ref` |
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unsafe { |
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let p: *mut T = mut_ref; |
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let old_t = p.read(); |
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let new_t = panic::catch_unwind(panic::AssertUnwindSafe(move || transform(old_t))) |
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.unwrap_or_else(|_| panicked_in_transform_mut()); |
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p.write(new_t); |
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} |
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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 std::borrow::Cow; |
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/// A sample message with custom presence bits, meant to mirror a C++ |
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/// message. |
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#[derive(Default, Debug)] |
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struct MyMessage { |
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/// has a default of `0` |
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a: i32, |
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/// has a default of `5` |
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b: i32, |
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/// Packed presence bitfield for `a` and `b` |
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presence: u8, |
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} |
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impl MyMessage { |
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fn a(&self) -> View<'_, VtableProxied> { |
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VtableProxiedView { val: get_a(self) } |
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} |
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fn a_opt(&self) -> Optional<View<'_, VtableProxied>> { |
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Optional::new(self.a(), has_a(self)) |
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} |
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fn a_mut(&mut self) -> FieldEntry<'_, VtableProxied> { |
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static A_VTABLE: ProxyVtable = |
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ProxyVtable { get: get_a, set: set_a, clear: clear_a, has: has_a }; |
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make_field_entry(self, &A_VTABLE) |
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} |
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fn b(&self) -> View<'_, VtableProxied> { |
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VtableProxiedView { val: get_b(self) } |
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} |
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fn b_opt(&self) -> Optional<View<'_, VtableProxied>> { |
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Optional::new(self.b(), has_b(self)) |
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} |
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fn b_mut(&mut self) -> FieldEntry<'_, VtableProxied> { |
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static B_VTABLE: ProxyVtable = |
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ProxyVtable { get: get_b, set: set_b, clear: clear_b, has: has_b }; |
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make_field_entry(self, &B_VTABLE) |
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} |
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} |
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fn make_field_entry<'a>( |
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msg: &'a mut MyMessage, |
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vtable: &'a ProxyVtable, |
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) -> FieldEntry<'a, VtableProxied> { |
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if (vtable.has)(&*msg) { |
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Optional::Set(PresentField::from_inner(Private, VtableProxiedMut { msg, vtable })) |
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} else { |
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Optional::Unset(AbsentField::from_inner(Private, VtableProxiedMut { msg, vtable })) |
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} |
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} |
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// Thunks used for the vtable. For a C++ message these would be defined in C++ |
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// and exported via a C API |
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const A_BIT: u8 = 0; |
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const B_BIT: u8 = 1; |
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fn get_a(msg: &MyMessage) -> i32 { |
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if has_a(msg) { msg.a } else { 0 } |
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} |
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fn get_b(msg: &MyMessage) -> i32 { |
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if has_b(msg) { msg.b } else { 5 } |
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} |
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fn set_a(msg: &mut MyMessage, val: i32) { |
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msg.presence |= (1 << A_BIT); |
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msg.a = val; |
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} |
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fn set_b(msg: &mut MyMessage, val: i32) { |
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msg.presence |= (1 << B_BIT); |
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msg.b = val; |
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} |
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fn clear_a(msg: &mut MyMessage) { |
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msg.presence &= !(1 << A_BIT); |
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} |
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fn clear_b(msg: &mut MyMessage) { |
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msg.presence &= !(1 << B_BIT); |
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} |
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fn has_a(msg: &MyMessage) -> bool { |
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msg.presence & (1 << A_BIT) != 0 |
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} |
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fn has_b(msg: &MyMessage) -> bool { |
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msg.presence & (1 << B_BIT) != 0 |
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} |
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#[derive(Debug)] |
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struct ProxyVtable { |
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get: fn(&MyMessage) -> i32, |
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set: fn(&mut MyMessage, val: i32), |
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clear: fn(&mut MyMessage), |
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has: fn(&MyMessage) -> bool, |
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} |
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/// A proxy for a `i32` that is accessed through methods on a vtable. |
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struct VtableProxied; |
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impl Proxied for VtableProxied { |
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type View<'a> = VtableProxiedView; |
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type Mut<'a> = VtableProxiedMut<'a>; |
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} |
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impl ProxiedWithPresence for VtableProxied { |
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// In this case, the `PresentMutData` and `AbsentMutData` are identical to the |
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// `Mut` in layout. Other types/runtimes could require otherwise, e.g. `Mut` |
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// could be defined to only have get/set functions in its vtable, and not |
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// has/clear. |
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type PresentMutData<'a> = VtableProxiedMut<'a>; |
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type AbsentMutData<'a> = VtableProxiedMut<'a>; |
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fn clear_present_field<'a>( |
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present_mutator: Self::PresentMutData<'a>, |
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) -> Self::AbsentMutData<'a> { |
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(present_mutator.vtable.clear)(&mut *present_mutator.msg); |
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present_mutator |
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} |
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fn set_absent_to_default<'a>( |
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absent_mutator: Self::AbsentMutData<'a>, |
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) -> Self::PresentMutData<'a> { |
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SettableValue::<VtableProxied>::set_on_absent( |
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absent_mutator.as_view().val(), |
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Private, |
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absent_mutator, |
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) |
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} |
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} |
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#[derive(Debug, Clone, Copy, PartialEq, Eq)] |
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struct VtableProxiedView { |
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val: i32, |
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} |
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impl VtableProxiedView { |
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fn val(&self) -> i32 { |
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self.val |
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} |
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fn read(msg: &MyMessage, vtable: &ProxyVtable) -> Self { |
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VtableProxiedView { val: (vtable.get)(msg) } |
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} |
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} |
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impl<'a> ViewProxy<'a> for VtableProxiedView { |
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type Proxied = VtableProxied; |
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fn as_view(&self) -> View<'a, VtableProxied> { |
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*self |
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} |
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|
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fn into_view<'shorter>(self) -> View<'shorter, VtableProxied> |
|
where |
|
'a: 'shorter, |
|
{ |
|
self |
|
} |
|
} |
|
|
|
#[derive(Debug)] |
|
struct VtableProxiedMut<'a> { |
|
msg: &'a mut MyMessage, |
|
vtable: &'a ProxyVtable, |
|
} |
|
|
|
impl<'a> ViewProxy<'a> for VtableProxiedMut<'a> { |
|
type Proxied = VtableProxied; |
|
|
|
fn as_view(&self) -> View<'_, VtableProxied> { |
|
VtableProxiedView::read(self.msg, self.vtable) |
|
} |
|
|
|
fn into_view<'shorter>(self) -> View<'shorter, VtableProxied> |
|
where |
|
'a: 'shorter, |
|
{ |
|
VtableProxiedView::read(self.msg, self.vtable) |
|
} |
|
} |
|
|
|
impl<'a> MutProxy<'a> for VtableProxiedMut<'a> { |
|
fn as_mut(&mut self) -> Mut<'_, VtableProxied> { |
|
VtableProxiedMut { msg: self.msg, vtable: self.vtable } |
|
} |
|
|
|
fn into_mut<'shorter>(self) -> Mut<'shorter, VtableProxied> |
|
where |
|
'a: 'shorter, |
|
{ |
|
self |
|
} |
|
} |
|
|
|
impl SettableValue<VtableProxied> for View<'_, VtableProxied> { |
|
fn set_on(self, _private: Private, mutator: Mut<VtableProxied>) { |
|
SettableValue::<VtableProxied>::set_on(self.val(), Private, mutator) |
|
} |
|
|
|
fn set_on_absent<'a>( |
|
self, |
|
_private: Private, |
|
absent_mutator: <VtableProxied as ProxiedWithPresence>::AbsentMutData<'a>, |
|
) -> <VtableProxied as ProxiedWithPresence>::PresentMutData<'a> { |
|
SettableValue::<VtableProxied>::set_on_absent(self.val(), Private, absent_mutator) |
|
} |
|
} |
|
|
|
impl SettableValue<VtableProxied> for i32 { |
|
fn set_on(self, _private: Private, mutator: Mut<VtableProxied>) { |
|
(mutator.vtable.set)(mutator.msg, self) |
|
} |
|
|
|
fn set_on_absent<'a>( |
|
self, |
|
_private: Private, |
|
absent_mutator: <VtableProxied as ProxiedWithPresence>::AbsentMutData<'a>, |
|
) -> <VtableProxied as ProxiedWithPresence>::PresentMutData<'a> { |
|
(absent_mutator.vtable.set)(absent_mutator.msg, self); |
|
absent_mutator |
|
} |
|
} |
|
|
|
#[test] |
|
fn test_field_entry() { |
|
let mut m1 = MyMessage::default(); |
|
let mut m2 = MyMessage::default(); |
|
|
|
let mut m1_a = m1.a_mut(); |
|
assert!(matches!(m1_a, Optional::Unset(_))); |
|
assert_eq!(m1_a.as_view().val(), 0); |
|
|
|
assert_eq!(m2.b().val(), 5); |
|
|
|
let mut m2_b = m2.b_mut(); |
|
assert!(m2_b.is_unset()); |
|
assert_eq!(m2_b.as_view().val(), 5); |
|
|
|
m2_b.set(10); |
|
assert!(m2_b.is_set()); |
|
assert!(matches!(m2_b, Optional::Set(_))); |
|
assert_eq!(m2_b.as_view().val(), 10); |
|
|
|
assert_eq!(m1_a.or_default().as_view().val(), 0); |
|
assert_eq!(m1.a_opt(), Optional::Set(VtableProxiedView { val: 0 })); |
|
m1.a_mut().clear(); |
|
|
|
assert_eq!(m1.a().val(), 0); |
|
assert_eq!(m1.b().val(), 5); |
|
assert_eq!(m2.a().val(), 0); |
|
assert_eq!(m2.b().val(), 10); |
|
} |
|
|
|
#[test] |
|
fn test_or_set() { |
|
let mut m1 = MyMessage::default(); |
|
let mut m2 = MyMessage::default(); |
|
|
|
assert_eq!(m1.a_mut().or_set(10).get().val(), 10); |
|
assert_eq!(m1.a_opt(), Optional::Set(VtableProxiedView { val: 10 })); |
|
assert_eq!(m1.a_mut().or_set(20).get().val(), 10); |
|
assert_eq!(m1.a_opt(), Optional::Set(VtableProxiedView { val: 10 })); |
|
|
|
assert_eq!(m2.a_mut().or_set_with(|| m1.a().val() + m1.b().val()).get().val(), 15); |
|
assert_eq!(m2.a_opt(), Optional::Set(VtableProxiedView { val: 15 })); |
|
assert_eq!(m2.a_mut().or_set_with(|| None::<i32>.unwrap()).get().val(), 15); |
|
assert_eq!(m2.a_opt(), Optional::Set(VtableProxiedView { val: 15 })); |
|
} |
|
|
|
#[test] |
|
fn test_into_optional_view() { |
|
let mut m1 = MyMessage::default(); |
|
assert_eq!(m1.a_mut().into_optional_view(), Optional::Unset(VtableProxiedView { val: 0 })); |
|
m1.a_mut().set(10); |
|
assert_eq!(m1.a_mut().into_optional_view(), Optional::Set(VtableProxiedView { val: 10 })); |
|
assert_eq!(m1.b_mut().into_optional_view(), Optional::Unset(VtableProxiedView { val: 5 })); |
|
} |
|
|
|
#[test] |
|
fn test_try_into_mut() { |
|
let mut m1 = MyMessage::default(); |
|
assert!(m1.a_mut().try_into_mut().is_none()); |
|
m1.a_mut().set(10); |
|
let mut a_mut = m1.a_mut().try_into_mut().expect("field to be set"); |
|
a_mut.set(20); |
|
assert_eq!(m1.a().val(), 20); |
|
} |
|
|
|
#[test] |
|
fn test_present_field() { |
|
let mut m = MyMessage::default(); |
|
m.a_mut().set(10); |
|
match m.a_mut() { |
|
Optional::Set(mut present) => { |
|
assert_eq!(present.as_view().val(), 10); |
|
present.set(20); |
|
assert_eq!(present.as_view().val(), 20); |
|
present.into_mut().set(30); |
|
} |
|
Optional::Unset(_) => unreachable!(), |
|
} |
|
assert_eq!(m.a_opt(), Optional::Set(VtableProxiedView { val: 30 })); |
|
m.b_mut().set(20); |
|
match m.b_mut() { |
|
Optional::Set(present) => present.clear(), |
|
Optional::Unset(_) => unreachable!(), |
|
}; |
|
assert_eq!(m.b_opt(), Optional::Unset(VtableProxiedView { val: 5 })); |
|
} |
|
|
|
#[test] |
|
fn test_absent_field() { |
|
let mut m = MyMessage::default(); |
|
match m.a_mut() { |
|
Optional::Set(_) => unreachable!(), |
|
Optional::Unset(absent) => { |
|
assert_eq!(absent.as_view().val(), 0); |
|
absent.set(20); |
|
} |
|
} |
|
assert_eq!(m.a_opt(), Optional::Set(VtableProxiedView { val: 20 })); |
|
match m.b_mut() { |
|
Optional::Set(_) => unreachable!(), |
|
Optional::Unset(absent) => { |
|
assert_eq!(absent.as_view().val(), 5); |
|
absent.set_default(); |
|
} |
|
} |
|
assert_eq!(m.b_opt(), Optional::Set(VtableProxiedView { val: 5 })); |
|
} |
|
}
|
|
|