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Claude-skill-registry autonomous-phase-execution

Execute a single phase from roadmap to working code autonomously

install
source · Clone the upstream repo
git clone https://github.com/majiayu000/claude-skill-registry
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/autonomous-phase-execution" ~/.claude/skills/majiayu000-claude-skill-registry-autonomous-phase-execution && rm -rf "$T"
manifest: skills/data/autonomous-phase-execution/SKILL.md
source content

Autonomous Phase Execution

Execute one roadmap phase: think → plan → implement → handoff.

Input

Receives from main executor:

  • Phase goal (one sentence)
  • Success criteria (list of outcomes)
  • Project context (language, test command, lint command)
  • Previous phase handoff (YAML file path, or "none" for phase 0)

Process

Step 1: Think (Internal - Not Saved)

Evaluate 2-3 architecture approaches internally:

  • List components needed
  • Consider patterns (MVC, Repository, Factory, etc.)
  • Pick simplest that meets requirements
  • Decision time: 2 minutes max per choice

Use decision framework:

  • Prefer standard patterns over novel
  • Prefer simple over complex
  • Prefer loose coupling
  • Avoid over-engineering

Step 2: Plan (Internal - Not Saved)

Break phase into TDD task pairs:

  • Each task: one test file + one impl file
  • Sequence tasks logically (dependencies first)
  • Estimate: 2-5 minutes per task
  • Keep tasks focused (single responsibility)

Step 3: Implement

For each task in sequence:

  1. Write test

    • Create or update test file
    • Write test(s) for new functionality
    • Follow language conventions

  2. Verify RED

    • Run test command
    • Confirm test FAILS
    • If passes unexpectedly, fix test

  3. Write implementation

    • Create or update implementation file
    • Write minimal code to pass test
    • Follow language best practices

  4. Verify GREEN

    • Run test command
    • Confirm test PASSES
    • If fails, fix implementation

  5. Run quality gates

    • Compile: [language-specific build]
    • Lint: [language-specific lint]
    • All tests: [full test suite]
    • Verify: ALL pass

  6. Commit

    • Stage test and impl files

    • Commit with descriptive message:

      feat: [component/feature name]

- What: [what was built]
- How: [pattern/approach used]
- Integration: [dependencies]
- Testing: [what tests cover]

Step 4: Verify Success Criteria

After all tasks:

  • Check each success criterion from roadmap
  • Run integration tests if specified
  • Verify all quality gates pass

Step 5: Output Handoff

Create handoff document at 

docs/handoffs/phase-[N]-handoff.yml
:

built: [Component1, Component2]
api:
  - Component1.method(args)->return
  - Component2.method(args)->return
patterns: [MVC, Repository]

Include:

  • built
    : List of components/modules created (names only)
  • api
    : Key public interfaces (function signatures)
  • patterns
    : Architectural patterns used

Keep handoff minimal: 50-100 tokens.

Quality Gates (Non-Negotiable)

Before any commit, ALL must pass:

  • ✅ Code compiles (no errors)
  • ✅ Linter passes (zero issues)
  • ✅ All tests pass (zero failures)
  • ✅ No regressions (existing tests still pass)

If any gate fails:

  • Fix immediately
  • Re-run all gates
  • Never commit broken code

Language-Specific Commands

Python:

  • Test: 
    pytest tests/ -v
  • Lint: 
    ruff check . && mypy .
  • Build: N/A (interpreted)

Go:

  • Test: 
    go test ./... -race -cover
  • Lint: 
    golangci-lint run ./...
  • Build: 
    go build ./...

Rust:

  • Test: 
    cargo test
  • Lint: 
    cargo clippy --all-targets
  • Build: 
    cargo build

TypeScript:

  • Test: 
    npm test
  • Lint: 
    eslint . && tsc --noEmit
  • Build: 
    tsc

Java:

  • Test: 
    mvn test
    or 
    gradle test
  • Lint: 
    mvn checkstyle:check
  • Build: 
    mvn compile

Decision Framework

When choosing architecture/technology:

  1. Simplest solution that meets requirements
  2. Well-known patterns (MVC, Repository, Factory)
  3. Standard libraries over custom
  4. 2 minutes max per decision
  5. If unclear: pick most common approach

Avoid:

  • Over-engineering
  • Premature optimization
  • Novel architectures
  • Tight coupling
  • Magic behavior

Prefer:

  • Simple and clear
  • Easy to test
  • Standard patterns
  • Loose coupling
  • Explicit behavior

Error Handling

If quality gate fails after 3 fix attempts:

  • Document blocker
  • Report to main executor
  • Do not proceed to next task

If success criteria not met:

  • Document gap
  • Report to main executor
  • Do not output handoff

Output Summary

After completion, report:

  • Components created
  • Tests added (count and passing)
  • Commits created (count and SHAs)
  • Handoff location
  • Success criteria status
  • Quality gate results