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# Objective After #6547, `Query::for_each` has been capable of automatic vectorization on certain queries, which is seeing a notable (>50% CPU time improvements) for iteration. However, `Query::for_each` isn't idiomatic Rust, and lacks the flexibility of iterator combinators. Ideally, `Query::iter` and friends should be able to achieve the same results. However, this does seem to blocked upstream (rust-lang/rust#104914) by Rust's loop optimizations. ## Solution This is an intermediate solution and refactor. This moves the `Query::for_each` implementation onto the `Iterator::fold` implementation for `QueryIter` instead. This should result in the same automatic vectorization optimization on all `Iterator` functions that internally use fold, including `Iterator::for_each`, `Iterator::count`, etc. With this, it should close the gap between the two completely. Internally, this PR changes `Query::for_each` to use `query.iter().for_each(..)` instead of the duplicated implementation. Separately, the duplicate implementations of internal iteration (i.e. `Query::par_for_each`) now use portions of the current `Query::for_each` implementation factored out into their own functions. This also massively cleans up our internal fragmentation of internal iteration options, deduplicating the iteration code used in `for_each` and `par_iter().for_each()`. --- ## Changelog Changed: `Query::for_each`, `Query::for_each_mut`, `Query::for_each`, and `Query::for_each_mut` have been moved to `QueryIter`'s `Iterator::for_each` implementation, and still retains their performance improvements over normal iteration. These APIs are deprecated in 0.13 and will be removed in 0.14. --------- Co-authored-by: JoJoJet <21144246+JoJoJet@users.noreply.github.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> |
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README.md |
Compile fail tests for bevy_ecs
This crate is separate from bevy_ecs
and not part of the Bevy workspace in order to not fail crater
tests for Bevy. The tests assert on the exact compiler errors and can easily fail for new Rust versions due to updated compiler errors (e.g. changes in spans).
The CI
workflow executes these tests on the stable rust toolchain (see tools/ci).