// Protocol Buffers - Google's data interchange format // Copyright 2023 Google LLC. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd use std::fmt::{self, Debug}; use std::iter; use std::iter::FusedIterator; /// Repeated scalar fields are implemented around the runtime-specific /// `RepeatedField` struct. `RepeatedField` stores an opaque pointer to the /// runtime-specific representation of a repeated scalar (`upb_Array*` on upb, /// and `RepeatedField*` on cpp). use std::marker::PhantomData; use crate::{ AsMut, AsView, IntoMut, IntoProxied, IntoView, Mut, MutProxied, MutProxy, Proxied, Proxy, View, ViewProxy, __internal::Private, __runtime::{InnerRepeated, InnerRepeatedMut, RawRepeatedField}, }; /// Views the elements in a `repeated` field of `T`. #[repr(transparent)] pub struct RepeatedView<'msg, T> { // This does not need to carry an arena in upb, so it can be just the raw repeated field raw: RawRepeatedField, _phantom: PhantomData<&'msg T>, } impl<'msg, T> Copy for RepeatedView<'msg, T> {} impl<'msg, T> Clone for RepeatedView<'msg, T> { fn clone(&self) -> Self { *self } } unsafe impl<'msg, T> Sync for RepeatedView<'msg, T> {} unsafe impl<'msg, T> Send for RepeatedView<'msg, T> {} impl<'msg, T> Debug for RepeatedView<'msg, T> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("RepeatedView").field("raw", &self.raw).finish() } } /// Mutates the elements in a `repeated` field of `T`. pub struct RepeatedMut<'msg, T> { pub(crate) inner: InnerRepeatedMut<'msg>, _phantom: PhantomData<&'msg mut T>, } unsafe impl<'msg, T> Sync for RepeatedMut<'msg, T> {} impl<'msg, T> Debug for RepeatedMut<'msg, T> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("RepeatedMut").field("raw", &self.inner.raw).finish() } } #[doc(hidden)] impl<'msg, T> RepeatedView<'msg, T> { #[doc(hidden)] #[inline] pub fn as_raw(&self, _private: Private) -> RawRepeatedField { self.raw } /// # Safety /// - `inner` must be valid to read from for `'msg` #[doc(hidden)] #[inline] pub unsafe fn from_raw(_private: Private, raw: RawRepeatedField) -> Self { Self { raw, _phantom: PhantomData } } } impl<'msg, T> RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg, { /// Gets the length of the repeated field. #[inline] pub fn len(&self) -> usize { T::repeated_len(*self) } /// Returns true if the repeated field has no values. #[inline] pub fn is_empty(&self) -> bool { self.len() == 0 } /// Gets the value at `index`. /// /// Returns `None` if `index > len`. #[inline] pub fn get(self, index: usize) -> Option> { if index >= self.len() { return None; } // SAFETY: `index` has been checked to be in-bounds Some(unsafe { self.get_unchecked(index) }) } /// Gets the value at `index` without bounds-checking. /// /// # Safety /// Undefined behavior if `index >= len` #[inline] pub unsafe fn get_unchecked(self, index: usize) -> View<'msg, T> { // SAFETY: in-bounds as promised unsafe { T::repeated_get_unchecked(self, index) } } /// Iterates over the values in the repeated field. pub fn iter(self) -> RepeatedIter<'msg, T> { self.into_iter() } } #[doc(hidden)] impl<'msg, T> RepeatedMut<'msg, T> { /// # Safety /// - `inner` must be valid to read and write from for `'msg` /// - There must be no aliasing references or mutations on the same /// underlying object. #[doc(hidden)] #[inline] pub unsafe fn from_inner(_private: Private, inner: InnerRepeatedMut<'msg>) -> Self { Self { inner, _phantom: PhantomData } } #[doc(hidden)] #[inline] pub fn as_raw(&mut self, _private: Private) -> RawRepeatedField { self.inner.raw } } impl<'msg, T> RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg, { /// Gets the length of the repeated field. #[inline] pub fn len(&self) -> usize { self.as_view().len() } /// Returns true if the repeated field has no values. #[inline] pub fn is_empty(&self) -> bool { self.len() == 0 } /// Gets the value at `index`. /// /// Returns `None` if `index > len`. #[inline] pub fn get(&self, index: usize) -> Option> { self.as_view().get(index) } /// Gets the value at `index` without bounds-checking. /// /// # Safety /// Undefined behavior if `index >= len` #[inline] pub unsafe fn get_unchecked(&self, index: usize) -> View { // SAFETY: in-bounds as promised unsafe { self.as_view().get_unchecked(index) } } /// Appends `val` to the end of the repeated field. #[inline] pub fn push(&mut self, val: impl IntoProxied) { T::repeated_push(self.as_mut(), val); } /// Sets the value at `index` to the value `val`. /// /// # Panics /// Panics if `index >= len` #[inline] pub fn set(&mut self, index: usize, val: impl IntoProxied) { let len = self.len(); if index >= len { panic!("index {index} >= repeated len {len}"); } unsafe { self.set_unchecked(index, val) } } /// Sets the value at `index` to the value `val`. /// /// # Safety /// Undefined behavior if `index >= len` #[inline] pub unsafe fn set_unchecked(&mut self, index: usize, val: impl IntoProxied) { unsafe { T::repeated_set_unchecked(self.as_mut(), index, val) } } /// Iterates over the values in the repeated field. pub fn iter(&self) -> RepeatedIter { self.as_view().into_iter() } /// Copies from the `src` repeated field into this one. /// /// Also provided by [`MutProxy::set`]. pub fn copy_from(&mut self, src: RepeatedView<'_, T>) { T::repeated_copy_from(src, self.as_mut()) } /// Clears the repeated field. pub fn clear(&mut self) { T::repeated_clear(self.as_mut()) } } impl Repeated where T: ProxiedInRepeated, { pub fn as_view(&self) -> View> { RepeatedView { raw: self.inner.raw(), _phantom: PhantomData } } #[doc(hidden)] pub fn inner(&self, _private: Private) -> &InnerRepeated { &self.inner } } impl IntoProxied> for Repeated where T: ProxiedInRepeated, { fn into_proxied(self, _private: Private) -> Repeated { self } } impl<'msg, T> IntoProxied> for RepeatedView<'msg, T> where T: 'msg + ProxiedInRepeated, { fn into_proxied(self, _private: Private) -> Repeated { let mut repeated: Repeated = Repeated::new(); T::repeated_copy_from(self, repeated.as_mut()); repeated } } impl<'msg, T> IntoProxied> for RepeatedMut<'msg, T> where T: 'msg + ProxiedInRepeated, { fn into_proxied(self, _private: Private) -> Repeated { IntoProxied::into_proxied(self.as_view(), _private) } } impl<'msg, T, I, U> IntoProxied> for I where I: Iterator, T: 'msg + ProxiedInRepeated, U: IntoProxied, { fn into_proxied(self, _private: Private) -> Repeated { let mut repeated: Repeated = Repeated::new(); repeated.as_mut().extend(self); repeated } } /// Types that can appear in a `Repeated`. /// /// This trait is implemented by generated code to communicate how the proxied /// type can be manipulated for a repeated field. /// /// Scalars and messages implement `ProxiedInRepeated`. /// /// # Safety /// - It must be sound to call `*_unchecked*(x)` with an `index` less than /// `repeated_len(x)`. pub unsafe trait ProxiedInRepeated: Proxied { /// Constructs a new owned `Repeated` field. #[doc(hidden)] fn repeated_new(_private: Private) -> Repeated; /// Frees the repeated field in-place, for use in `Drop`. /// /// # Safety /// - After `repeated_free`, no other methods on the input are safe to call. #[doc(hidden)] unsafe fn repeated_free(_private: Private, _repeated: &mut Repeated); /// Gets the length of the repeated field. fn repeated_len(repeated: View>) -> usize; /// Appends a new element to the end of the repeated field. fn repeated_push(repeated: Mut>, val: impl IntoProxied); /// Clears the repeated field of elements. fn repeated_clear(repeated: Mut>); /// # Safety /// `index` must be less than `Self::repeated_len(repeated)` unsafe fn repeated_get_unchecked(repeated: View>, index: usize) -> View; /// # Safety /// `index` must be less than `Self::repeated_len(repeated)` unsafe fn repeated_set_unchecked( repeated: Mut>, index: usize, val: impl IntoProxied, ); /// Copies the values in the `src` repeated field into `dest`. fn repeated_copy_from(src: View>, dest: Mut>); /// Ensures that the repeated field has enough space allocated to insert at /// least `additional` values without an allocation. fn repeated_reserve(repeated: Mut>, additional: usize); } /// An iterator over the values inside of a [`View>`](RepeatedView). pub struct RepeatedIter<'msg, T> { view: RepeatedView<'msg, T>, current_index: usize, } impl<'msg, T> Debug for RepeatedIter<'msg, T> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("RepeatedIter") .field("view", &self.view) .field("current_index", &self.current_index) .finish() } } /// A `repeated` field of `T`, used as the owned target for `Proxied`. /// /// Users will generally write [`View>`](RepeatedView) or /// [`Mut>`](RepeatedMut) to access the repeated elements pub struct Repeated { pub(crate) inner: InnerRepeated, _phantom: PhantomData, } // SAFETY: `Repeated` is Sync because it does not implement interior mutability. unsafe impl Sync for Repeated {} // SAFETY: `Repeated` is Send because it's not bound to a specific thread e.g. // it does not use thread-local data or similar. unsafe impl Send for Repeated {} impl Repeated { pub fn new() -> Self { T::repeated_new(Private) } pub fn from_inner(_private: Private, inner: InnerRepeated) -> Self { Self { inner, _phantom: PhantomData } } pub(crate) fn as_mut(&mut self) -> RepeatedMut<'_, T> { RepeatedMut { inner: self.inner.as_mut(), _phantom: PhantomData } } } impl Default for Repeated { fn default() -> Self { Repeated::new() } } impl Drop for Repeated { fn drop(&mut self) { // SAFETY: only called once unsafe { T::repeated_free(Private, self) } } } impl Proxied for Repeated where T: ProxiedInRepeated, { type View<'msg> = RepeatedView<'msg, T> where Repeated: 'msg; } impl AsView for Repeated where T: ProxiedInRepeated, { type Proxied = Self; fn as_view(&self) -> RepeatedView<'_, T> { self.as_view() } } impl MutProxied for Repeated where T: ProxiedInRepeated, { type Mut<'msg> = RepeatedMut<'msg, T> where Repeated: 'msg; } impl AsMut for Repeated where T: ProxiedInRepeated, { type MutProxied = Self; fn as_mut(&mut self) -> RepeatedMut<'_, T> { self.as_mut() } } impl<'msg, T> Proxy<'msg> for RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg {} impl<'msg, T> AsView for RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg, { type Proxied = Repeated; #[inline] fn as_view(&self) -> View<'msg, Self::Proxied> { *self } } impl<'msg, T> IntoView<'msg> for RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg, { #[inline] fn into_view<'shorter>(self) -> View<'shorter, Self::Proxied> where 'msg: 'shorter, { RepeatedView { raw: self.raw, _phantom: PhantomData } } } impl<'msg, T> ViewProxy<'msg> for RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg {} impl<'msg, T> Proxy<'msg> for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg {} impl<'msg, T> AsView for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg, { type Proxied = Repeated; #[inline] fn as_view(&self) -> RepeatedView<'_, T> { RepeatedView { raw: self.inner.raw, _phantom: PhantomData } } } impl<'msg, T> IntoView<'msg> for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg, { #[inline] fn into_view<'shorter>(self) -> RepeatedView<'shorter, T> where 'msg: 'shorter, { RepeatedView { raw: self.inner.raw, _phantom: PhantomData } } } impl<'msg, T> AsMut for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg, { type MutProxied = Repeated; #[inline] fn as_mut(&mut self) -> RepeatedMut<'_, T> { RepeatedMut { inner: self.inner, _phantom: PhantomData } } } impl<'msg, T> IntoMut<'msg> for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg, { #[inline] fn into_mut<'shorter>(self) -> RepeatedMut<'shorter, T> where 'msg: 'shorter, { RepeatedMut { inner: self.inner, _phantom: PhantomData } } } impl<'msg, T> MutProxy<'msg> for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'msg {} impl<'msg, T> iter::Iterator for RepeatedIter<'msg, T> where T: ProxiedInRepeated + 'msg, { type Item = View<'msg, T>; #[inline] fn next(&mut self) -> Option { let val = self.view.get(self.current_index); if val.is_some() { self.current_index += 1; } val } fn size_hint(&self) -> (usize, Option) { let len = self.len(); (len, Some(len)) } } impl<'msg, T: ProxiedInRepeated> ExactSizeIterator for RepeatedIter<'msg, T> { fn len(&self) -> usize { self.view.len() - self.current_index } } // TODO: impl DoubleEndedIterator impl<'msg, T: ProxiedInRepeated> FusedIterator for RepeatedIter<'msg, T> {} impl<'msg, T> iter::IntoIterator for RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg, { type Item = View<'msg, T>; type IntoIter = RepeatedIter<'msg, T>; fn into_iter(self) -> Self::IntoIter { RepeatedIter { view: self, current_index: 0 } } } impl<'msg, T> iter::IntoIterator for &'_ RepeatedView<'msg, T> where T: ProxiedInRepeated + 'msg, { type Item = View<'msg, T>; type IntoIter = RepeatedIter<'msg, T>; fn into_iter(self) -> Self::IntoIter { RepeatedIter { view: *self, current_index: 0 } } } impl<'borrow, T> iter::IntoIterator for &'borrow RepeatedMut<'_, T> where T: ProxiedInRepeated + 'borrow, { type Item = View<'borrow, T>; type IntoIter = RepeatedIter<'borrow, T>; fn into_iter(self) -> Self::IntoIter { RepeatedIter { view: self.as_view(), current_index: 0 } } } impl<'msg, 'view, T, ViewT> Extend for RepeatedMut<'msg, T> where T: ProxiedInRepeated + 'view, ViewT: IntoProxied, { fn extend>(&mut self, iter: I) { let iter = iter.into_iter(); T::repeated_reserve(self.as_mut(), iter.size_hint().0); for item in iter { self.push(item); } } } #[cfg(test)] mod tests { use super::*; use googletest::prelude::*; #[googletest::test] fn test_primitive_repeated() { macro_rules! primitive_repeated_tests { ($($t:ty => [$($vals:expr),* $(,)?]),* $(,)?) => { $({ // Constructs a new, owned, `Repeated`, only used for tests. let mut r = Repeated::<$t>::new(); let mut r = r.as_mut(); assert_that!(r.len(), eq(0)); assert!(r.iter().next().is_none(), "starts with empty iter"); assert!(r.iter().next().is_none(), "starts with empty mut iter"); assert!(r.is_empty(), "starts is_empty"); let mut expected_len = 0usize; $( let val: View<$t> = $vals; r.push(val); assert_that!(r.get(expected_len), eq(Some(val))); expected_len += 1; assert_that!(r.len(), eq(expected_len)); )* assert_that!(r, elements_are![$(eq($vals)),*]); r.set(0, <$t as Default>::default()); assert_that!(r.get(0).expect("elem 0"), eq(<$t as Default>::default())); r.clear(); assert!(r.is_empty(), "is_empty after clear"); assert!(r.iter().next().is_none(), "iter empty after clear"); assert!(r.into_iter().next().is_none(), "mut iter empty after clear"); })* } } primitive_repeated_tests!( u32 => [1,2,3], i32 => [1,2], f64 => [10.0, 0.1234f64], bool => [false, true, true, false], ); } #[googletest::test] fn test_repeated_extend() { let mut r = Repeated::::new(); r.as_mut().extend([0; 0]); assert_that!(r.as_mut().len(), eq(0)); r.as_mut().extend([0, 1]); assert_that!(r.as_mut(), elements_are![eq(0), eq(1)]); let mut x = Repeated::::new(); x.as_mut().extend([2, 3]); r.as_mut().extend(&x.as_mut()); assert_that!(r.as_mut(), elements_are![eq(0), eq(1), eq(2), eq(3)]); } #[googletest::test] fn test_repeated_iter_into_proxied() { let r: Repeated = [0, 1, 2, 3].into_iter().into_proxied(Private); assert_that!(r.as_view(), elements_are![eq(0), eq(1), eq(2), eq(3)]); } }