功能描述

Reviews Rust macro code for hygiene issues, fragment misuse, compile-time impact, and procedural macro patterns. Use when reviewing macro_rules! definitions,...

使用说明 (SKILL.md)

Macros Code Review

Name: Macros Code Review
Author: anderskev

Review Workflow

Check Cargo.toml -- Note Rust edition (2024 reserves gen keyword, affecting macro output), proc-macro crate dependencies (syn, quote, proc-macro2), and feature flags (e.g., syn with minimal features)
Check macro type -- Determine if reviewing declarative (macro_rules!), function-like proc macro, attribute macro, or derive macro
Check if a macro is needed -- If the transformation is type-based, generics are better. Macros are for structural/repetitive code generation that generics cannot express
Scan macro definitions -- Read full macro bodies including all match arms, not just the invocation site
Check each category -- Work through the checklist below, loading references as needed
Gates -- Complete Gates below before reporting; do not substitute informal “I verified.”

Gates (before reporting findings)

Complete in order. Do not emit findings until Gate 4 passes for each issue.

Gate 1 — Crate context (on disk)
PASS when: You opened the reviewed crate’s Cargo.toml (workspace member path if applicable) and recorded Rust edition, whether the crate is proc-macro = true, and relevant proc-macro dependencies or syn / quote feature flags.
Blocks rationalization: Edition 2024 findings (gen, unsafe extern, generated unsafe bodies) and syn “full” vs minimal flags require this — do not flag edition-specific macro output without matching edition from the file.

Gate 2 — Macro definitions read
PASS when: For every macro you critique, you read the full definition (all macro_rules! arms, or the proc-macro entry plus helpers you rely on), not only call sites or partial expansions.
Artifact: At least one path per macro to the defining .rs file(s) you used.

Gate 3 — Per-finding evidence
PASS when: Each planned issue has [FILE:LINE] from the current tree for the macro definition, attribute/derive site, or generated code location you are discussing (not from memory, docs-only, or another branch).

Gate 4 — Pre-report protocol
PASS when: You loaded and applied beagle-rust:review-verification-protocol, including Macro-Specific Verification for hygiene, fragment type, and proc-macro performance claims. Then add findings.

Output Format

Report findings as:

[FILE:LINE] ISSUE_TITLE
Severity: Critical | Major | Minor | Informational
Description of the issue and why it matters.

Quick Reference

Issue Type	Reference
Fragment types, repetition, hygiene, declarative patterns	references/declarative-macros.md
Proc macro types, syn/quote, spans, testing	references/procedural-macros.md

Review Checklist

Declarative Macros (`macro_rules!`)

Correct fragment types used (:expr vs :tt vs :ident -- wrong choice causes unexpected parsing)
Repetition separators match intended syntax (, vs ; vs none, * vs +)
Trailing comma/semicolon handled (add $(,)? or $(;)? at end of repetition)
Matchers ordered from most specific to least specific (first match wins)
No ambiguous expansions -- each metavariable appears in the correct repetition depth in the transcriber
Variables defined in the macro use macro-internal names (hygiene protects variables, not types/modules/functions)
Exported macros (#[macro_export]) use $crate:: for crate-internal paths, never crate:: or self::
Standard library paths use ::core:: and ::alloc:: (not ::std::) for no_std compatibility
compile_error! used for meaningful error messages on invalid input patterns
Macro placement respects textual scoping (defined before use) unless #[macro_export]

Procedural Macros

syn features minimized (don't enable full when derive suffices -- reduces compile time)
Spans propagated from input tokens to output tokens (errors point to user code, not macro internals)
Span::call_site() used for identifiers that should be visible to the caller
Span::mixed_site() used for identifiers private to the macro (matches macro_rules! hygiene)
Error reporting uses syn::Error with proper spans, not panic!
Multiple errors collected and reported together via syn::Error::combine
proc-macro2 used for testing (testable outside of compiler context)
Generated code volume is proportionate -- proc macros that emit large amounts of code bloat compile times

Derive Macros

Derivation is obvious -- a developer could guess what it does from the trait name alone
Helper attributes (#[serde(skip)] style) are documented
Trait implementation is correct for all variant shapes (unit, tuple, struct variants)
Generated impl blocks use fully qualified paths (::core::, $crate::)

Attribute Macros

Input item is preserved or intentionally transformed (not accidentally dropped)
Attribute arguments are validated with clear error messages
Test generation patterns (#[test_case] style) produce unique test names
Framework annotations document what code they generate

Edition 2024 Awareness

Macro output does not use gen as an identifier (reserved keyword -- use r#gen or rename)
Generated unsafe fn bodies use explicit unsafe {} blocks around unsafe ops
Generated extern blocks use unsafe extern

Generics vs Macros

Flag a macro when the same result is achievable with generics or trait bounds. Macros are appropriate when:

The generated code varies structurally (not just by type)
Repetitive trait impls for many concrete types
Test batteries with configuration variants
Compile-time computation that const fn cannot express

Severity Calibration

Critical (Block Merge)

Macro generates unsound unsafe code
Hygiene violation in macro that outputs unsafe blocks (caller's variables leak into unsafe context)
Proc macro panics instead of returning compile_error! (crashes the compiler)
Derive macro generates incorrect trait implementation (violates trait contract)

Major (Should Fix)

Exported macro uses crate:: or self:: instead of $crate:: (breaks for downstream users)
Exported macro uses ::std:: instead of ::core::/::alloc:: (breaks no_std users)
Wrong fragment type causing unexpected parsing (:expr where :tt needed, or vice versa)
Proc macro enables syn full features unnecessarily (compile time cost)
Missing span propagation (errors point to macro definition, not invocation)
No error handling in proc macro (panics on bad input instead of compile_error!)

Minor (Consider Fixing)

Missing trailing comma/semicolon tolerance in repetition patterns
Matcher arms not ordered most-specific-first
Macro used where generics would be clearer and equally expressive
Missing compile_error! fallback arm for invalid patterns
Helper attributes undocumented

Informational (Note Only)

Suggestions to split complex macro_rules! into a proc macro
Suggestions to reduce generated code volume
TT munching or push-down accumulation patterns that could be simplified

Valid Patterns (Do NOT Flag)

macro_rules! for test batteries -- Generating repetitive test modules from a list of types/configs
macro_rules! for trait impls -- Implementing a trait for many concrete types with identical bodies
TT munching -- Valid advanced pattern for recursive token processing
Push-down accumulation -- Valid pattern for building output incrementally across recursive calls
#[macro_export] with $crate -- Correct way to make macros usable outside the defining crate
Span::call_site() for generated functions -- Intentionally making generated items visible to callers
syn::Error::to_compile_error() -- Correct error reporting pattern in proc macros
trybuild tests for proc macros -- Standard compile-fail testing approach
Attribute macros on test functions -- Common pattern for test setup/teardown
compile_error! in impossible match arms -- Good practice for catching invalid macro input

安全使用建议

This skill appears to be a legitimate Rust macro review checklist and is low-risk as an instruction-only skill, but it has two practical mismatches you should address before installing or running it: (1) SKILL.md requires reading the target crate's Cargo.toml and source files and emitting [FILE:LINE] evidence, yet the skill metadata does not declare any required config paths or how the agent will access the repository — confirm the agent runtime will be allowed to read your repo and that exposing file:line output is acceptable; (2) the workflow mandates loading 'beagle-rust:review-verification-protocol' before reporting, but that protocol is not included or referenced in the package or install spec — ask the publisher where that protocol comes from and inspect it before trusting its use. If you plan to run this skill, run it in an environment where you control the repository access and logs, and verify any external protocol or helper is available locally or reviewed separately. If those two points are resolved (local file access and the verification protocol are explicit and trustworthy), the skill is coherent for its stated purpose.

功能分析

Type: OpenClaw Skill Name: macros-code-review Version: 1.0.1 The skill bundle is a specialized tool for performing technical code reviews of Rust macros. It contains detailed checklists and reference documentation (SKILL.md, declarative-macros.md, procedural-macros.md) focused on macro hygiene, fragment types, and procedural macro error handling. No indicators of data exfiltration, malicious execution, or harmful prompt injection were found; the instructions are strictly aligned with the stated purpose of improving Rust code quality.

能力评估

ℹ Purpose & Capability

Name/description align with the included instructions and reference docs: this is explicitly a Rust macro review checklist. The skill does not request unrelated credentials or binaries. However, the runtime workflow assumes access to the reviewed crate on disk (Cargo.toml, .rs files) and that the reviewer will produce [FILE:LINE] evidence — the skill metadata declares no required config paths or filesystem access. That is an inconsistency to be aware of (the skill implicitly requires repository file access).

⚠ Instruction Scope

SKILL.md instructs the agent to open the crate's Cargo.toml, read full macro definitions, record exact file:line locations for each finding, and — crucially — to 'load and apply beagle-rust:review-verification-protocol' before emitting findings. That protocol is not included in the bundle and no mechanism (install spec, dependency, or link) is declared to obtain it. The instructions therefore depend on external artifacts and on-disk files that are not declared, which can break reproducibility or hide where verification logic actually runs. The steps themselves do not request network exfiltration or secrets, but they grant broad discretion to read repository files and to defer to an external protocol.

✓ Install Mechanism

Instruction-only skill with no install spec and no code files with executable install steps. This minimizes the risk of arbitrary code being written or executed on install.

ℹ Credentials

No environment variables, credentials, or external endpoints are requested — appropriate for an offline code-review checklist. However, the instructions imply access to the filesystem (crate source tree) and to an external protocol, neither of which are declared in requires.env or config paths. Confirm how the agent will obtain file access and the missing protocol before running.

✓ Persistence & Privilege

The skill is not always-on and is user-invocable; it does not request persistent privileges or modify other skills. Autonomous invocation is allowed (platform default) but is not combined with high privileges or undisclosed credentials.

版本历史

v1.0.1

**Adds required verification gates before reporting macro review findings.** - Introduced a "Gates" section requiring four explicit evidence and verification steps before emitting findings. - The review workflow now mandates crate context, reading full macro definitions, per-finding file/line evidence, and protocol loading. - Informal or incomplete verification steps (e.g., “I verified”) are no longer sufficient. - Clarifies required artifacts (file/line evidence, file paths) and protocol adherence to strengthen review quality.

v1.0.0

Initial release of macros-code-review: - Provides review workflow and checklist for Rust macro code (declarative, procedural, derive, and attribute macros) - Covers macro hygiene, fragment types, compile-time impact, and procedural macro best practices - Defines output format and severity calibration for reporting issues - Includes edition 2024 awareness and when to prefer generics over macros - Lists valid macro patterns that should not be flagged during review

元数据

Slug macros-code-review

版本 1.0.1

许可证 MIT-0

累计安装 1

当前安装数 1

历史版本数 2

常见问题