MR
Mayur Rathi
@mayurrathi
⭐ 40.7k GitHub stars

Rust Async Patterns

Rust Async Patterns is an code AI skill with a core value of Master Rust async programming with Tokio, async traits, error handling, and concurrent patterns. It helps developers solve real-world problems in the code domain, boosting efficiency, automating repetitive tasks, and optimizing workflows.

Master Rust async programming with Tokio, async traits, error handling, and concurrent patterns. Use when building async Rust applications, implementing concurrent systems, or debugging async code.

Last verified on: 2026-07-07

Quick Facts

Category code
Works With Claude
Source sickn33/antigravity-awesome-skills
Stars ⭐ 40.7k
Last Verified 2026-07-07
Risk Level Low
mkdir -p ./skills/rust-async-patterns && curl -sfL https://raw.githubusercontent.com/sickn33/antigravity-awesome-skills/main/skills/rust-async-patterns/SKILL.md -o ./skills/rust-async-patterns/SKILL.md

Run in terminal / PowerShell. Requires curl (Unix) or PowerShell 5+ (Windows).

Skill Content

# Rust Async Patterns


Production patterns for async Rust programming with Tokio runtime, including tasks, channels, streams, and error handling.


Use this skill when


- Building async Rust applications

- Implementing concurrent network services

- Using Tokio for async I/O

- Handling async errors properly

- Debugging async code issues

- Optimizing async performance


Do not use this skill when


- The task is unrelated to rust async patterns

- You need a different domain or tool outside this scope


Instructions


- Clarify goals, constraints, and required inputs.

- Apply relevant best practices and validate outcomes.

- Provide actionable steps and verification.

- If detailed examples are required, open `resources/implementation-playbook.md`.


Resources


- `resources/implementation-playbook.md` for detailed patterns and examples.

🎯 Best For

  • Debugging engineers
  • QA teams
  • UI designers
  • Product designers
  • Claude users

💡 Use Cases

  • Tracing runtime errors in production logs
  • Identifying memory leaks
  • Generating component mockups
  • Creating design system tokens

📖 How to Use This Skill

  1. 1

    Install the Skill

    Copy the install command from the Terminal tab and run it. The SKILL.md file downloads to your local skills directory.

  2. 2

    Load into Your AI Assistant

    Open Claude and reference the skill. Paste the SKILL.md content or use the system prompt tab.

  3. 3

    Apply Rust Async Patterns to Your Work

    Open your project in the AI assistant and ask it to apply the skill. Start with a small module to verify the output quality.

  4. 4

    Review and Refine

    Review AI suggestions before committing. Run tests, check for regressions, and iterate on the skill output.

❓ Frequently Asked Questions

Can this debug production issues?

Yes, but always ensure you have proper logging and monitoring in place first.

Does this work with Figma?

Some design skills integrate with Figma plugins. Check the Works With section for supported tools.

Is Rust Async Patterns compatible with Cursor and VS Code?

Yes — this skill works with any AI coding assistant including Cursor, VS Code with Copilot, and JetBrains IDEs.

Do I need specific dependencies for Rust Async Patterns?

Check the install command and Works With section. Most code skills only require the AI assistant and your codebase.

How do I install Rust Async Patterns?

Copy the install command from the Terminal tab and run it. The skill downloads to ./skills/rust-async-patterns/SKILL.md, ready to use.

⚠️ Common Mistakes to Avoid

Debugging without context

Always provide the full error stack and surrounding code context for accurate debugging.

Skipping usability testing

AI-generated designs should be validated with real users before development.

Skipping validation

Always test AI-generated code changes, even for simple refactors.

Missing dependency updates

Check if the skill requires updated dependencies or new packages.

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