Use when you have a written implementation plan to execute in a separate session with review checkpoints
rust-router
596
55
# Install this skill:
npx skills add actionbook/rust-skills --skill "rust-router"
Install specific skill from multi-skill repository
# Description
"CRITICAL: Use for ALL Rust questions including errors, design, and coding.
# SKILL.md
name: rust-router
description: "CRITICAL: Use for ALL Rust questions including errors, design, and coding.
HIGHEST PRIORITY for: 比较, 对比, compare, vs, versus, 区别, difference, 最佳实践, best practice,
tokio vs, async-std vs, 比较 tokio, 比较 async,
Triggers on: Rust, cargo, rustc, crate, Cargo.toml,
意图分析, 问题分析, 语义分析, analyze intent, question analysis,
compile error, borrow error, lifetime error, ownership error, type error, trait error,
value moved, cannot borrow, does not live long enough, mismatched types, not satisfied,
E0382, E0597, E0277, E0308, E0499, E0502, E0596,
async, await, Send, Sync, tokio, concurrency, error handling,
编译错误, compile error, 所有权, ownership, 借用, borrow, 生命周期, lifetime, 类型错误, type error,
异步, async, 并发, concurrency, 错误处理, error handling,
问题, problem, question, 怎么用, how to use, 如何, how to, 为什么, why,
什么是, what is, 帮我写, help me write, 实现, implement, 解释, explain"
globs: ["/Cargo.toml", "/*.rs"]
Rust Question Router
Version: 2.0.0 | Last Updated: 2025-01-22
v2.0: Context optimized - detailed examples moved to sub-files
Meta-Cognition Framework
Core Principle
Don't answer directly. Trace through the cognitive layers first.
Layer 3: Domain Constraints (WHY)
├── Business rules, regulatory requirements
├── domain-fintech, domain-web, domain-cli, etc.
└── "Why is it designed this way?"
Layer 2: Design Choices (WHAT)
├── Architecture patterns, DDD concepts
├── m09-m15 skills
└── "What pattern should I use?"
Layer 1: Language Mechanics (HOW)
├── Ownership, borrowing, lifetimes, traits
├── m01-m07 skills
└── "How do I implement this in Rust?"
Routing by Entry Point
| User Signal | Entry Layer | Direction | First Skill |
|---|---|---|---|
| E0xxx error | Layer 1 | Trace UP ↑ | m01-m07 |
| Compile error | Layer 1 | Trace UP ↑ | Error table below |
| "How to design..." | Layer 2 | Check L3, then DOWN ↓ | m09-domain |
| "Building [domain] app" | Layer 3 | Trace DOWN ↓ | domain-* |
| "Best practice..." | Layer 2 | Both directions | m09-m15 |
| Performance issue | Layer 1 → 2 | UP then DOWN | m10-performance |
CRITICAL: Dual-Skill Loading
When domain keywords are present, you MUST load BOTH skills:
| Domain Keywords | L1 Skill | L3 Skill |
|---|---|---|
| Web API, HTTP, axum, handler | m07-concurrency | domain-web |
| 交易, 支付, trading, payment | m01-ownership | domain-fintech |
| CLI, terminal, clap | m07-concurrency | domain-cli |
| kubernetes, grpc, microservice | m07-concurrency | domain-cloud-native |
| embedded, no_std, MCU | m02-resource | domain-embedded |
INSTRUCTIONS FOR CLAUDE
CRITICAL: Negotiation Protocol Trigger
BEFORE answering, check if negotiation is required:
| Query Contains | Action |
|---|---|
| "比较", "对比", "compare", "vs", "versus" | MUST use negotiation |
| "最佳实践", "best practice" | MUST use negotiation |
| Domain + error (e.g., "交易系统 E0382") | MUST use negotiation |
| Ambiguous scope (e.g., "tokio 性能") | SHOULD use negotiation |
When negotiation is required, include:
## Negotiation Analysis
**Query Type:** [Comparative | Cross-domain | Synthesis | Ambiguous]
**Negotiation:** Enabled
### Source: [Agent/Skill Name]
**Confidence:** HIGH | MEDIUM | LOW | UNCERTAIN
**Gaps:** [What's missing]
## Synthesized Answer
[Answer]
**Overall Confidence:** [Level]
**Disclosed Gaps:** [Gaps user should know]
详细协议见:
patterns/negotiation.md
Default Project Settings
When creating new Rust projects or Cargo.toml files, ALWAYS use:
[package]
edition = "2024" # ALWAYS use latest stable edition
rust-version = "1.85"
[lints.rust]
unsafe_code = "warn"
[lints.clippy]
all = "warn"
pedantic = "warn"
Layer 1 Skills (Language Mechanics)
| Pattern | Route To |
|---|---|
| move, borrow, lifetime, E0382, E0597 | m01-ownership |
| Box, Rc, Arc, RefCell, Cell | m02-resource |
| mut, interior mutability, E0499, E0502, E0596 | m03-mutability |
| generic, trait, inline, monomorphization | m04-zero-cost |
| type state, phantom, newtype | m05-type-driven |
| Result, Error, panic, ?, anyhow, thiserror | m06-error-handling |
| Send, Sync, thread, async, channel | m07-concurrency |
| unsafe, FFI, extern, raw pointer, transmute | unsafe-checker |
Layer 2 Skills (Design Choices)
| Pattern | Route To |
|---|---|
| domain model, business logic | m09-domain |
| performance, optimization, benchmark | m10-performance |
| integration, interop, bindings | m11-ecosystem |
| resource lifecycle, RAII, Drop | m12-lifecycle |
| domain error, recovery strategy | m13-domain-error |
| mental model, how to think | m14-mental-model |
| anti-pattern, common mistake, pitfall | m15-anti-pattern |
Layer 3 Skills (Domain Constraints)
| Domain Keywords | Route To |
|---|---|
| fintech, trading, decimal, currency | domain-fintech |
| ml, tensor, model, inference | domain-ml |
| kubernetes, docker, grpc, microservice | domain-cloud-native |
| embedded, sensor, mqtt, iot | domain-iot |
| web server, HTTP, REST, axum, actix | domain-web |
| CLI, command line, clap, terminal | domain-cli |
| no_std, microcontroller, firmware | domain-embedded |
Error Code Routing
| Error Code | Route To | Common Cause |
|---|---|---|
| E0382 | m01-ownership | Use of moved value |
| E0597 | m01-ownership | Lifetime too short |
| E0506 | m01-ownership | Cannot assign to borrowed |
| E0507 | m01-ownership | Cannot move out of borrowed |
| E0515 | m01-ownership | Return local reference |
| E0716 | m01-ownership | Temporary value dropped |
| E0106 | m01-ownership | Missing lifetime specifier |
| E0596 | m03-mutability | Cannot borrow as mutable |
| E0499 | m03-mutability | Multiple mutable borrows |
| E0502 | m03-mutability | Borrow conflict |
| E0277 | m04/m07 | Trait bound not satisfied |
| E0308 | m04-zero-cost | Type mismatch |
| E0599 | m04-zero-cost | No method found |
| E0038 | m04-zero-cost | Trait not object-safe |
| E0433 | m11-ecosystem | Cannot find crate/module |
Functional Routing Table
| Pattern | Route To | Action |
|---|---|---|
| latest version, what's new | rust-learner | Use agents |
| API, docs, documentation | docs-researcher | Use agent |
| code style, naming, clippy | coding-guidelines | Read skill |
| unsafe code, FFI | unsafe-checker | Read skill |
| code review | os-checker | See integrations/os-checker.md |
Priority Order
- Identify cognitive layer (L1/L2/L3)
- Load entry skill (m0x/m1x/domain)
- Trace through layers (UP or DOWN)
- Cross-reference skills as indicated in "Trace" sections
- Answer with reasoning chain
Keyword Conflict Resolution
| Keyword | Resolution |
|---|---|
unsafe |
unsafe-checker (more specific than m11) |
error |
m06 for general, m13 for domain-specific |
RAII |
m12 for design, m01 for implementation |
crate |
rust-learner for version, m11 for integration |
tokio |
tokio- for API, m07* for concepts |
Priority Hierarchy:
1. Error codes (E0xxx) → Direct lookup, highest priority
2. Negotiation triggers (compare, vs, best practice) → Enable negotiation
3. Domain keywords + error → Load BOTH domain + error skills
4. Specific crate keywords → Route to crate-specific skill if exists
5. General concept keywords → Route to meta-question skill
Sub-Files Reference
| File | Content |
|---|---|
patterns/negotiation.md |
Negotiation protocol details |
examples/workflow.md |
Workflow examples |
integrations/os-checker.md |
OS-Checker integration |
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Learn more about the SKILL.md standard and how to use these skills with your preferred AI coding agent.