This skill should be used when moving from design to implementation. Triggers on "let's build", "implement this", "looks good let's code", "ready to implement". Presents options for parallel agent competition (cookoff), single subagent, or local implementation. Each agent creates own plan from shared design for genuine variation.
/plugin marketplace add 2389-research/claude-plugins/plugin install test-kitchen@2389-research-marketplaceThis skill inherits all available tools. When active, it can use any tool Claude has access to.
Same design, multiple cooks compete. Each implementation team creates their own plan from the shared design, then implements it. Natural variation emerges from independent planning decisions.
Part of Test Kitchen Development:
omakase-off - Chef's choice exploration (different approaches/designs)cookoff - Same design, multiple cooks compete (each creates own plan + implements)Key insight: Don't share a pre-made implementation plan. Each agent generates their own plan from the design doc, ensuring genuine variation.
docs/plans/<feature>/
design.md # Input: from brainstorming
cookoff/
impl-1/
plan.md # Agent 1's implementation plan
impl-2/
plan.md # Agent 2's implementation plan
impl-3/
plan.md # Agent 3's implementation plan
result.md # Cookoff results and winner
| Reference | Primary (if installed) | Fallback |
|---|---|---|
writing-plans | superpowers:writing-plans | Each agent writes their own implementation plan |
executing-plans | superpowers:executing-plans | Execute plan tasks sequentially with verification |
parallel-agents | superpowers:dispatching-parallel-agents | Dispatch multiple Task tools in single message |
git-worktrees | superpowers:using-git-worktrees | git worktree add .worktrees/<name> -b <branch> |
tdd | superpowers:test-driven-development | RED-GREEN-REFACTOR cycle |
verification | superpowers:verification-before-completion | Run command, read output, THEN claim status |
fresh-eyes | fresh-eyes-review:skills (2389) | 2-5 min review for security, logic, edge cases |
judge | test-kitchen:judge | Scoring framework with checklists (MUST invoke at Phase 4) |
code-review | superpowers:requesting-code-review | Dispatch code-reviewer subagent |
scenario-testing | scenario-testing:skills (2389) | .scratch/ E2E scripts, real dependencies |
finish-branch | superpowers:finishing-a-development-branch | Verify tests, present options, cleanup |
Trigger when user wants to implement a design:
Important: Cookoff works from a design doc, not a detailed implementation plan. Each agent creates their own implementation plan.
Cookoff triggers at a SITUATION, not a specific skill's output.
The situation: Design is complete, implementation is about to start.
Signals that design phase just completed:
When you detect this transition, ALWAYS offer cookoff:
Before we start implementation, how would you like to proceed?
1. Cookoff (recommended) - N parallel agents, each creates own plan, pick best
→ Complexity: [assess from design]
→ Best for: medium-high complexity features
2. Single implementation - One agent/session implements
3. Direct coding - Start coding without detailed plan
This applies regardless of:
The key insight: We're not injecting into another skill's menu. We're recognizing a SITUATION (design→implementation) and ensuring cookoff is offered at that moment.
Present choices when user wants to implement:
How would you like to implement this design?
1. Single subagent - One agent plans and implements
2. Cookoff - N parallel agents, each creates own plan, pick best
→ Complexity: [assess from design]
→ Recommendation: N implementations
3. Local - Plan and implement here in this session
Which approach?
Routing:
Read design doc and assess:
Map to implementation count:
| Complexity | Scope | Risk signals | Implementations |
|---|---|---|---|
| Low | Small feature | None | 2 |
| Medium | Medium feature | Some | 3 |
| High | Large feature | Several | 4 |
| Very high | Major system | Critical areas | 5 |
Setup directories:
mkdir -p docs/plans/<feature>/cookoff/impl-{1,2,3}
Announce:
Complexity assessment: medium feature, touches auth
Spawning 3 parallel implementations
Each will create their own implementation plan from the design.
Setup worktrees:
.worktrees/cookoff-impl-1/
.worktrees/cookoff-impl-2/
.worktrees/cookoff-impl-3/
Branches:
<feature>/cookoff/impl-1
<feature>/cookoff/impl-2
<feature>/cookoff/impl-3
CRITICAL: Dispatch ALL agents in a SINGLE message
Use parallel-agents pattern. Send ONE message with multiple Task tool calls:
<single message>
Task(impl-1, run_in_background: true)
Task(impl-2, run_in_background: true)
Task(impl-3, run_in_background: true)
</single message>
Do NOT send separate messages for each agent.
Subagent prompt (each gets same instructions with their impl number):
You are implementation team N of M in a cookoff competition.
Other teams are implementing the same design in parallel.
Each team creates their own implementation plan - your approach may differ from others.
**Your working directory:** /path/to/.worktrees/cookoff-impl-N
**Design doc:** docs/plans/<feature>/design.md
**Your plan location:** docs/plans/<feature>/cookoff/impl-N/plan.md
**Your workflow:**
1. Read the design doc thoroughly
2. Use writing-plans skill to create YOUR implementation plan
- Save to: docs/plans/<feature>/cookoff/impl-N/plan.md
- Make your own architectural decisions
- Don't try to guess what other teams will do
3. Use executing-plans skill to implement your plan
4. Follow TDD for each task
5. Use verification before claiming done
**Report when done:**
- Plan created: yes/no
- All tasks completed: yes/no
- Test results (npm test output)
- Files changed count
- Any issues encountered
Your goal: best possible implementation. Good luck!
Monitor progress:
Cookoff status (design: auth-system):
- impl-1: planning... → implementing 5/8 tasks
- impl-2: planning... → implementing 3/8 tasks
- impl-3: planning... → implementing 6/8 tasks
Step 1: Gate check
Step 2: Check for identical implementations
Before fresh-eyes, diff the implementations:
diff -r .worktrees/cookoff-impl-1/src .worktrees/cookoff-impl-2/src
If implementations are >95% identical, note this - the planning step didn't create enough variation. Still proceed but flag in results.
Step 3: Fresh-eyes on survivors
Starting fresh-eyes review of impl-1 (N files)...
Checking: security, logic errors, edge cases
Fresh-eyes complete: 1 minor issue
CRITICAL: Invoke test-kitchen:judge now.
The judge skill contains the full scoring framework with checklists. Invoking it fresh ensures the scoring format is followed exactly.
Invoke: test-kitchen:judge
Context to provide:
- Implementations to judge: impl-1, impl-2, impl-3 (or however many)
- Worktree locations: .worktrees/cookoff-impl-N/
- Test results from each implementation
- Fresh-eyes findings from Step 3
- Feasibility flags identified
The judge skill will:
Do not summarize or abbreviate the scoring. The judge skill output should be the full worksheet.
Cookoff-specific context: In cookoff, all implementations target the same design, so Fitness should be similar. A Fitness gap (Δ≥2) indicates one implementation deviated from or misunderstood the design - not a different approach choice.
Verification on winner:
Running final verification on winner (impl-2):
- npm test: 22/22 passing ✓
- npm run build: exit 0 ✓
- Design adherence: all requirements met ✓
Verification complete. Winner confirmed.
Winner: Use finish-branch
Losers: Cleanup
git worktree remove .worktrees/cookoff-impl-1
git worktree remove .worktrees/cookoff-impl-3
git branch -D <feature>/cookoff/impl-1
git branch -D <feature>/cookoff/impl-3
# Keep winner's worktree until merged
Write result.md:
# Cookoff Results: <feature>
## Design
docs/plans/<feature>/design.md
## Implementations
| Impl | Plan Approach | Tests | Fresh-Eyes | Lines | Result |
|------|---------------|-------|------------|-------|--------|
| impl-1 | Component-first | 24/24 | 1 minor | 680 | eliminated |
| impl-2 | Data-layer-first | 22/22 | 0 issues | 720 | WINNER |
| impl-3 | TDD-strict | 26/26 | 2 minor | 590 | eliminated |
## Plans Generated
- impl-1: docs/plans/<feature>/cookoff/impl-1/plan.md
- impl-2: docs/plans/<feature>/cookoff/impl-2/plan.md
- impl-3: docs/plans/<feature>/cookoff/impl-3/plan.md
## Winner Selection
Reason: Clean fresh-eyes review, solid data-layer-first architecture
## Cleanup
Worktrees removed: 2
Branches deleted: <feature>/cookoff/impl-1, <feature>/cookoff/impl-3
Winner branch: <feature>/cookoff/impl-2
Save to: docs/plans/<feature>/cookoff/result.md
| Dependency | Phase | Usage |
|---|---|---|
writing-plans | 3 | Each subagent creates their own implementation plan |
executing-plans | 3 | Each subagent implements their plan |
parallel-agents | 3 | Dispatch ALL subagents in SINGLE message |
git-worktrees | 3 | Create worktree per implementation |
tdd | 3 | Subagents follow RED-GREEN-REFACTOR |
verification | 3, 5 | Before claiming done; before declaring winner |
code-review | 3 | Review each impl after completion |
fresh-eyes | 4 | Quality review → judge input |
judge | 4 | INVOKE for scoring framework (loads fresh, ensures format compliance) |
scenario-testing | 4 | Validate if scenarios defined |
finish-branch | 5 | Handle winner, cleanup losers |
Sharing a pre-made implementation plan
Dispatching agents in separate messages
Not using writing-plans + executing-plans
Skipping fresh-eyes
Not checking for identical implementations
Forgetting cleanup
User: "Let's build this" (after brainstorming produced design.md)
Claude: I'm using cookoff.
How would you like to implement this design?
1. Single subagent - One agent plans and implements
2. Cookoff - 3 parallel agents, each creates own plan, pick best
→ Complexity: medium feature, touches auth
→ Recommendation: 3 implementations
3. Local - Plan and implement here
User: "2"
Claude: Spawning 3 parallel implementations...
Each will create their own implementation plan from the design.
[Phase 3: Create worktrees, dispatch ALL 3 agents in single message]
[Each agent: reads design → writes plan → implements]
Cookoff status:
- impl-1: planning → implementing 6/8 tasks
- impl-2: planning → implementing 4/7 tasks
- impl-3: planning → implementing 5/9 tasks
[All 3 complete]
[Phase 4: Diff check - implementations are different ✓]
[Fresh-eyes on all 3]
| Impl | Plan Approach | Tests | Fresh-Eyes |
|------|---------------|-------|------------|
| impl-1 | Component-first | 24/24 | 1 minor |
| impl-2 | Data-layer-first | 22/22 | 0 issues |
| impl-3 | TDD-strict | 26/26 | 2 minor |
Recommendation: impl-2 (cleanest)
User: "2"
[Phase 5: Verify winner, cleanup losers]
Winner: impl-2 ready to merge
Cleanup: 2 worktrees removed
Plans preserved: docs/plans/<feature>/cookoff/
Master authentication and authorization patterns including JWT, OAuth2, session management, and RBAC to build secure, scalable access control systems. Use when implementing auth systems, securing APIs, or debugging security issues.