rust-best-practices
Provides a guide for writing idiomatic Rust code based on Apollo GraphQL, helping developers follow best practices and improve code quality.
npx skills add apollographql/skills --skill rust-best-practicesBefore / After Comparison
1 组Without following Rust best practices, developers might write code that, while functionally correct, isn't 'idiomatic'. This can lead to improper memory management, concurrency issues, or hard-to-understand lifetime errors, reducing code maintainability and performance.
Following Rust best practices based on Apollo GraphQL guides developers to write idiomatic, type-safe, and high-performance backend code. This not only enhances code robustness and readability but also fully leverages Rust's concurrency advantages, ensuring stable service operation.
Rust Best Practices
Apply these guidelines when writing or reviewing Rust code. Based on Apollo GraphQL's Rust Best Practices Handbook.
Best Practices Reference
Before reviewing, familiarize yourself with Apollo's Rust best practices. Read ALL relevant chapters in the same turn in parallel. Reference these files when providing feedback:
- Chapter 1 - Coding Styles and Idioms: Borrowing vs cloning, Copy trait, Option/Result handling, iterators, comments
- Chapter 2 - Clippy and Linting: Clippy configuration, important lints, workspace lint setup
- Chapter 3 - Performance Mindset: Profiling, avoiding redundant clones, stack vs heap, zero-cost abstractions
- Chapter 4 - Error Handling: Result vs panic, thiserror vs anyhow, error hierarchies
- Chapter 5 - Automated Testing: Test naming, one assertion per test, snapshot testing
- Chapter 6 - Generics and Dispatch: Static vs dynamic dispatch, trait objects
- Chapter 7 - Type State Pattern: Compile-time state safety, when to use it
- Chapter 8 - Comments vs Documentation: When to comment, doc comments, rustdoc
- Chapter 9 - Understanding Pointers: Thread safety, Send/Sync, pointer types
Quick Reference
Borrowing & Ownership
- Prefer
&Tover.clone()unless ownership transfer is required - Use
&stroverString,&[T]overVec<T>in function parameters - Small
Copytypes (≤24 bytes) can be passed by value - Use
Cow<'_, T>when ownership is ambiguous
Error Handling
- Return
Result<T, E>for fallible operations; avoidpanic!in production - Never use
unwrap()/expect()outside tests - Use
thiserrorfor library errors,anyhowfor binaries only - Prefer
?operator over match chains for error propagation
Performance
- Always benchmark with
--releaseflag - Run
cargo clippy -- -D clippy::perffor performance hints - Avoid cloning in loops; use
.iter()instead of.into_iter()for Copy types - Prefer iterators over manual loops; avoid intermediate
.collect()calls
Linting
Run regularly: cargo clippy --all-targets --all-features --locked -- -D warnings
Key lints to watch:
redundant_clone- unnecessary cloninglarge_enum_variant- oversized variants (consider boxing)needless_collect- premature collection
Use #[expect(clippy::lint)] over #[allow(...)] with justification comment.
Testing
- Name tests descriptively:
process_should_return_error_when_input_empty() - One assertion per test when possible
- Use doc tests (
///) for public API examples - Consider
cargo instafor snapshot testing generated output
Generics & Dispatch
- Prefer generics (static dispatch) for performance-critical code
- Use
dyn Traitonly when heterogeneous collections are needed - Box at API boundaries, not internally
Type State Pattern
Encode valid states in the type system to catch invalid operations at compile time:
struct Connection<State> { /* ... */ _state: PhantomData<State> }
struct Disconnected;
struct Connected;
impl Connection<Connected> {
fn send(&self, data: &[u8]) { /* only connected can send */ }
}
Documentation
//comments explain why (safety, workarounds, design rationale)///doc comments explain what and how for public APIs- Every
TODOneeds a linked issue:// TODO(#42): ... - Enable
#![deny(missing_docs)]for libraries
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