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subagents-orchestration-guide

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SKILL.md
--- frontmatter
name: subagents-orchestration-guide
description: This skill guides subagent coordination through implementation workflows. Automatically loaded when orchestrating multiple agents, managing workflow phases, determining autonomous execution mode, or when "orchestration", "workflow phases", "scale determination", "stop points", or "autonomous mode" are mentioned.

Subagents Orchestration Guide

Role: The Orchestrator

The orchestrator coordinates subagents like a conductor—directing the musicians without playing the instruments.

All investigation, analysis, and implementation work flows through specialized subagents.

Automatic Responses

TriggerAction
New taskInvoke requirement-analyzer
Flow in progressCheck scale determination table for next subagent
Phase completionDelegate to the appropriate subagent
Stop point reachedWait for user approval

First Action Rule

Every new task begins with requirement-analyzer.

Decision Flow When Receiving Tasks

mermaid
graph TD
    Start[Receive New Task] --> RA[Analyze requirements with requirement-analyzer]
    RA --> Scale[Scale assessment]
    Scale --> Flow[Execute flow based on scale]

During flow execution, determine next subagent according to scale determination table

Requirement Change Detection During Flow

During flow execution, if detecting the following in user response, stop flow and go to requirement-analyzer:

  • Mentions of new features/behaviors (additional operation methods, display on different screens, etc.)
  • Additions of constraints/conditions (data volume limits, permission controls, etc.)
  • Changes in technical requirements (processing methods, output format changes, etc.)

If any one applies → Restart from requirement-analyzer with integrated requirements

Available Subagents

The following subagents are available:

Implementation Support Agents

  1. quality-fixer: Self-contained processing for overall quality assurance and fixes until completion
  2. task-decomposer: Appropriate task decomposition of work plans
  3. task-executor: Individual task execution and structured response
  4. integration-test-reviewer: Review integration/E2E tests for skeleton compliance and quality

Document Creation Agents

  1. requirement-analyzer: Requirement analysis and work scale determination
  2. prd-creator: Product Requirements Document creation
  3. ux-designer: UX Requirement Documentation (UXRD) creation - UI/UX design, interaction patterns, accessibility specs (frontend)
  4. technical-designer: ADR/Design Doc creation for backend
  5. technical-designer-frontend: ADR/Design Doc creation for frontend (React, Next.js)
  6. work-planner: Work plan creation from Design Doc and test skeletons
  7. document-reviewer: Single document quality and rule compliance check
  8. design-sync: Design Doc consistency verification across multiple documents
  9. acceptance-test-generator: Generate integration and E2E test skeletons from Design Doc ACs
  10. expert-analyst: Parallel multi-perspective analysis from expert viewpoint (Security, API Design, Architecture, Performance, Data Modeling, Testability, Error Handling, UX Impact)
  11. codebase-scanner: Scans for dead code, orphan files, unused exports, and suspicious areas (read-only)
  12. cleanup-executor: Safely removes confirmed dead code with git backup and build verification

Orchestration Principles

Task Assignment with Responsibility Separation

Assign work based on each subagent's responsibilities:

What to delegate to task-executor:

  • Implementation work and test addition
  • Confirmation of added tests passing (existing tests are not covered)
  • Do not delegate quality assurance

What to delegate to quality-fixer:

  • Overall quality assurance (static analysis, style check, all test execution, etc.)
  • Complete execution of quality error fixes
  • Self-contained processing until fix completion
  • Final approved judgment (only after fixes are complete)

Constraints Between Subagents

Important: Subagents cannot directly call other subagents—all coordination flows through the orchestrator.

Orchestrator Never Writes Directly

All document and code operations MUST go through agents.

File Ownership by Agent

File PatternOwner Agent
docs/prd/*.mdprd-creator
docs/uxrd/*.mdux-designer
docs/adr/*.mdtechnical-designer(-frontend)
docs/design/*.mdtechnical-designer(-frontend)
docs/plans/*.md (work plans)work-planner
docs/plans/tasks/<plan-name>/*.mdtask-decomposer
src/**/*, tests/**/* (code)task-executor(-frontend)
Any file (quality fixes)quality-fixer(-frontend)

Rules:

  • Create/edit files only through the owner agent
  • For revisions after review: call owner agent with mode: update
  • When document-reviewer returns needs_revision: use revision_agent field to identify owner

Explicit Stop Points

Autonomous execution MUST stop and wait for user input at these points. Use AskUserQuestion tool to present confirmations and questions in a structured format.

PhaseStop PointUser Action Required
RequirementsAfter requirement-analyzer completesConfirm requirements / Answer questions
PRDAfter document-reviewer completes PRD reviewApprove PRD
UXRDAfter document-reviewer completes UXRD review (if frontend/UI work)Approve UXRD
ADRAfter document-reviewer completes ADR review (if ADR created)Approve ADR
DesignAfter design-sync completes consistency verificationApprove Design Doc
Work PlanAfter work-planner creates planBatch approval for implementation phase

After batch approval: Autonomous execution proceeds without stops until completion or escalation

Scale Determination and Document Requirements

ScaleFile CountPRDUXRDADRDesign DocWork Plan
Small1-2Update※1Not neededNot neededNot neededSimplified
Medium3-5Update※1Conditional※4Conditional※2RequiredRequired
Large6+Required※3Conditional※4Conditional※2RequiredRequired

※1: Update if PRD exists for the relevant feature ※2: When there are architecture changes, new technology introduction, or data flow changes ※3: New creation/update existing/reverse PRD (when no existing PRD) ※4: When frontend/UI work is involved - UX Requirement Documentation for interaction patterns, accessibility, visual specs

How to Call Subagents

Execution Method

Call subagents using the Task tool:

  • subagent_type: Agent name
  • description: Concise task description (3-5 words)
  • prompt: Specific instructions

Call Example (requirement-analyzer)

  • subagent_type: "requirement-analyzer"
  • description: "Requirement analysis"
  • prompt: "Requirements: [user requirements] Please perform requirement analysis and scale determination"

Call Example (task-executor)

  • subagent_type: "task-executor"
  • description: "Task execution"
  • prompt: "Task file: docs/plans/tasks/[plan-name]/task-01.md Please complete the implementation"

Structured Response Specification

Each subagent responds in JSON format. Key fields for orchestrator decisions:

  • requirement-analyzer: scale, confidence, fileCount, requiredDocuments (prd, uxrd, adr, designDoc, workPlan), scopeDependencies, questions
  • task-executor: status, filesModified, testsAdded, readyForQualityCheck
  • quality-fixer: status, checksPerformed, fixesApplied, approved
  • document-reviewer: status, decision, revision_agent, issues, approvalReady
  • design-sync: sync_status, total_conflicts, conflicts (severity, type, source_file, target_file)
  • integration-test-reviewer: status (approved/needs_revision/blocked), qualityIssues, requiredFixes, verdict
  • acceptance-test-generator: status, generatedFiles, budgetUsage
  • expert-analyst: aspect, expertName, codeInvestigation, concerns, options, recommendation, risks, interactionPoints
  • codebase-scanner: status, items (id, name, category, suspicionLevel, files, signals, evidence), scanMetrics
  • cleanup-executor: status, branchName, filesRemoved, importsUpdated, revertedItems, buildVerified, testsVerified

Handling Requirement Changes

Handling Requirement Changes in requirement-analyzer

requirement-analyzer follows the "completely self-contained" principle and processes requirement changes as new input.

How to Integrate Requirements

Important: To maximize accuracy, integrate requirements as complete sentences, including all contextual information communicated by the user.

yaml
Integration example:
  Initial: "I want to create user management functionality"
  Addition: "Permission management is also needed"
  Result: "I want to create user management functionality. Permission management is also needed.

          Initial requirement: I want to create user management functionality
          Additional requirement: Permission management is also needed"

Update Mode for Document Generation Agents

Document generation agents (work-planner, technical-designer, technical-designer-frontend, prd-creator, ux-designer) can update existing documents in update mode.

  • Initial creation: Create new document in create (default) mode
  • On requirement change: Edit existing document and add history in update mode

Criteria for timing when to call each agent:

  • work-planner: Request updates only before execution
  • technical-designer(-frontend): Request updates according to design changes → Execute document-reviewer for consistency check
  • prd-creator: Request updates according to requirement changes → Execute document-reviewer for consistency check
  • ux-designer: Request updates according to UX/UI requirement changes → Execute document-reviewer for consistency check
  • document-reviewer: Always execute before user approval after PRD/ADR/UXRD/Design Doc creation/update

Basic Flow for Work Planning

When receiving new features or change requests, start with requirement-analyzer. According to scale determination:

Large Scale (6+ Files)

  1. requirement-analyzer → Requirement analysis + Check existing PRD [Stop: Requirement confirmation/question handling]
  2. prd-creator → PRD creation (update if existing, new creation with thorough investigation if not)
  3. document-reviewer → PRD review [Stop: PRD Approval]
  4. ux-designer → UXRD creation (if frontend/UI work) → document-reviewer [Stop: UXRD Approval]
  5. technical-designer(-frontend) → ADR creation (if architecture changes, new technology, or data flow changes)
  6. document-reviewer → ADR review (if ADR created) [Stop: ADR Approval]
  7. [Optional] expert-analyst → Spawn 3-5 expert-analyst agents IN PARALLEL per expert-analysis-guide heuristics, synthesize results (skip if task is straightforward or pure bug fix)
  8. technical-designer(-frontend) → Design Doc creation (include expert analysis synthesis if performed)
  9. document-reviewer → Design Doc review
  10. design-sync → Design Doc consistency verification [Stop: Design Doc Approval]
  11. acceptance-test-generator → Integration and E2E test skeleton generation → Orchestrator: Verify generation, then pass information to work-planner (*1)
  12. work-planner → Work plan creation (including integration and E2E test information) [Stop: Batch approval for entire implementation phase]
  13. Start autonomous execution mode: task-decomposer → Execute all tasks → Completion report

Medium Scale (3-5 Files)

  1. requirement-analyzer → Requirement analysis [Stop: Requirement confirmation/question handling]
  2. [Optional] expert-analyst → Spawn 3-5 expert-analyst agents IN PARALLEL per expert-analysis-guide heuristics, synthesize results (skip if task is straightforward or pure bug fix)
  3. ux-designer → UXRD creation (if frontend/UI work) → document-reviewer [Stop: UXRD Approval]
  4. technical-designer(-frontend) → Design Doc creation (include expert analysis synthesis if performed)
  5. document-reviewer → Design Doc review
  6. design-sync → Design Doc consistency verification [Stop: Design Doc Approval]
  7. acceptance-test-generator → Integration and E2E test skeleton generation → Orchestrator: Verify generation, then pass information to work-planner (*1)
  8. work-planner → Work plan creation (including integration and E2E test information) [Stop: Batch approval for entire implementation phase]
  9. Start autonomous execution mode: task-decomposer → Execute all tasks → Completion report

Small Scale (1-2 Files)

  1. Create simplified plan [Stop: Batch approval for entire implementation phase]
  2. Start autonomous execution mode: Direct implementation → Completion report

Autonomous Execution Mode

Pre-Execution Environment Check

Principle: Verify subagents can complete their responsibilities

Required environments:

  • Commit capability (for per-task commit cycle)
  • Quality check tools (quality-fixer will detect and escalate if missing)
  • Test runner (task-executor will detect and escalate if missing)

If critical environment unavailable: Escalate with specific missing component before entering autonomous mode If detectable by subagent: Proceed (subagent will escalate with detailed context)

Authority Delegation

After environment check passes:

  • Batch approval for entire implementation phase delegates authority to subagents
  • task-executor: Implementation authority (can use Edit/Write)
  • quality-fixer: Fix authority (automatic quality error fixes)

Definition of Autonomous Execution Mode

After "batch approval for entire implementation phase" with work-planner, autonomously execute the following processes without human approval:

mermaid
graph TD
    START[Batch approval for entire implementation phase] --> AUTO[Start autonomous execution mode]
    AUTO --> TD[task-decomposer: Task decomposition]
    TD --> LOOP[Task execution loop]
    LOOP --> TE[task-executor: Implementation]
    TE --> ESCJUDGE{Escalation judgment}
    ESCJUDGE -->|escalation_needed/blocked| USERESC[Escalate to user]
    ESCJUDGE -->|testsAdded has int/e2e| ITR[integration-test-reviewer]
    ESCJUDGE -->|No issues| QF
    ITR -->|needs_revision| TE
    ITR -->|approved| QF
    QF[quality-fixer: Quality check and fixes] --> COMMIT[Orchestrator: Execute git commit]
    COMMIT --> CHECK{Any remaining tasks?}
    CHECK -->|Yes| LOOP
    CHECK -->|No| REPORT[Completion report]

    LOOP --> INTERRUPT{User input?}
    INTERRUPT -->|None| TE
    INTERRUPT -->|Yes| REQCHECK{Requirement change check}
    REQCHECK -->|No change| TE
    REQCHECK -->|Change| STOP[Stop autonomous execution]
    STOP --> RA[Re-analyze with requirement-analyzer]

Conditions for Stopping Autonomous Execution

Stop autonomous execution and escalate to user in the following cases:

  1. Escalation from subagent

    • When receiving response with status: "escalation_needed"
    • When receiving response with status: "blocked"
  2. When requirement change detected

    • Any match in requirement change detection checklist
    • Stop autonomous execution and re-analyze with integrated requirements in requirement-analyzer
  3. When work-planner update restriction is violated

    • Requirement changes after task-decomposer starts require overall redesign
    • Restart entire flow from requirement-analyzer
  4. When user explicitly stops

    • Direct stop instruction or interruption

Quantitative Auto-Stop Triggers

The following numeric thresholds MUST trigger immediate orchestrator action. These are non-negotiable safety boundaries:

Trigger ConditionRequired Action
5+ files changed in a single taskSTOP immediately. Create impact report listing all changed files and affected modules. Present to user before continuing.
Same error occurs 3 timesSTOP. Mandatory root cause analysis using 5 Whys technique. Do NOT attempt another fix without completing analysis.
3 files edited without TodoWrite updateForce TodoWrite status update. Cannot proceed with next Edit until TodoWrite reflects current progress.
2nd consecutive error fix attemptAuto re-execute rule-advisor. Previous approach has failed — reassess task essence and strategy before continuing.
5 cumulative Edit tool usesForce creation of impact report. Document: files changed, modules affected, tests impacted.
3 edits to the same fileSTOP. Consider whether refactoring is needed instead of incremental patches. Present refactoring proposal to user.

Auto-Stop Enforcement Rules

  1. Counters reset at the start of each new task
  2. Orchestrator MUST track edit counts per-file and cumulative
  3. Auto-stop triggers take priority over autonomous execution mode
  4. After any auto-stop, the orchestrator MUST present a status report before resuming
  5. User can explicitly override a stop with "continue" — but the stop MUST occur first

Error-Fixing Impulse Control Protocol

When an error is discovered during implementation, the orchestrator MUST follow this protocol instead of immediately attempting a fix:

Protocol Steps

  1. PAUSE — Do NOT attempt to fix the error immediately
  2. Re-execute rule-advisor — Reassess the task with the error context:
    yaml
    subagent_type: rule-advisor
    prompt: "Re-analyze task considering this error: [error details]. Determine if the original approach is still valid or if a different strategy is needed."
    
  3. Root Cause Analysis — Apply 5 Whys technique:
    code
    Error: [observed error]
    Why 1: [immediate cause]
    Why 2: [cause of Why 1]
    Why 3: [cause of Why 2]
    Why 4: [cause of Why 3]
    Why 5: [root cause]
    
  4. Present Action Plan — Show the user:
    • Root cause identified
    • Proposed fix approach
    • Estimated impact (files to change)
    • Risk assessment
  5. Fix ONLY after user approval — Execute the fix only when user confirms the action plan

When This Protocol Applies

  • Any error that occurs during task-executor execution
  • Build failures after code changes
  • Test failures that weren't expected
  • Quality-fixer reporting persistent issues

When This Protocol Does NOT Apply

  • Expected test failures during Red-Green-Refactor (TDD red phase)
  • Linting warnings that quality-fixer can auto-fix
  • Known/documented environment issues

Metacognitive TodoWrite Integration

When rule-advisor returns its analysis, the orchestrator MUST formalize the metacognitive outputs into TodoWrite entries for tracking:

Mapping Rule-Advisor Output → TodoWrite

Rule-Advisor Output FieldTodoWrite Usage
metaCognitiveGuidance.firstStepFirst TodoWrite task (highest priority, execute first)
metaCognitiveGuidance.taskEssenceCompletion criteria — record as the final verification task
warningPatternsCheckpoint tasks inserted between implementation steps
pastFailurePatterns.countermeasuresGuard tasks — verify these are not violated during execution

TodoWrite Structure After Rule-Advisor

code
1. [in_progress] {firstStep from rule-advisor}
2. [pending] Checkpoint: Verify {warningPattern[0]} not triggered
3. [pending] Implementation step 1
4. [pending] Checkpoint: Verify {warningPattern[1]} not triggered
5. [pending] Implementation step 2
...
N-1. [pending] Guard: Confirm {pastFailurePattern} countermeasures applied
N. [pending] Verify task essence: {taskEssence}

Rules

  1. Checkpoints are inserted between every 2-3 implementation steps
  2. Guard tasks reference specific pastFailurePatterns with their countermeasures
  3. The final task ALWAYS verifies taskEssence from rule-advisor
  4. If any checkpoint fails → trigger Error-Fixing Impulse Control Protocol
  5. TodoWrite updates MUST happen before and after each checkpoint evaluation

Commit Strategy Selection

Ask user at workflow start (after requirement-analyzer, before implementation):

StrategyWhen to CommitBest For
per-taskAfter each task completesAtomic commits, easy rollback, CI-friendly
per-phaseAfter each phase (Design, Implementation, etc.)Balanced granularity
per-featureSingle commit at feature completionClean history, squash-like
manualUser explicitly requestsFull control, interactive workflow

Default: per-task (recommended for autonomous mode)

Strategy affects:

  • When git commit is executed
  • How quality-fixer cycles are grouped
  • Commit message granularity

Task Management: 3-Step Cycle

Per-task cycle:

code
1. task-executor → Implementation
2. Escalation judgment/Follow-up → Check task-executor status
3. quality-fixer → Quality check and fixes
4. [Conditional] git commit → Based on commit strategy

Step 2 Execution Details:

  • status: escalation_needed or status: blocked → Escalate to user
  • testsAdded contains *.int.test.ts or *.e2e.test.ts → Execute integration-test-reviewer
    • If verdict is needs_revision → Return to task-executor with requiredFixes
    • If verdict is approved → Proceed to quality-fixer

Commit execution by strategy:

StrategyCommit Trigger
per-taskquality-fixer returns approved: true → Commit immediately
per-phaseAll tasks in phase complete + quality-fixer approved: true → Commit
per-featureAll phases complete + final quality-fixer approved: true → Single commit
manualUser says "commit" or "save progress" → Commit staged changes

Note: quality-fixer MUST still run after each task regardless of commit strategy

2-Stage TodoWrite Management

Stage 1: Phase Management (Orchestrator responsibility)

  • Register overall phases as TodoWrite items
  • Update status as each phase completes

Stage 2: Task Expansion (Subagent responsibility)

  • Each subagent registers detailed steps in TodoWrite at execution start
  • Update status on each step completion

Main Orchestrator Roles

  1. State Management: Grasp current phase, each subagent's state, and next action

  2. Information Bridging: Data conversion and transmission between subagents

    • Convert each subagent's output to next subagent's input format
    • Always pass deliverables from previous process to next agent
    • Extract necessary information from structured responses
    • Compose commit messages from changeSummary → Execute git commit with Bash
    • Explicitly integrate initial and additional requirements when requirements change

    *1 acceptance-test-generator → work-planner

    Purpose: Prepare information for work-planner to incorporate into work plan

    Orchestrator verification items:

    • Verify integration test file path retrieval and existence
    • Verify E2E test file path retrieval and existence

    Pass to work-planner:

    • Integration test file: [path] (create and execute simultaneously with each phase implementation)
    • E2E test file: [path] (execute only in final phase)

    On error: Escalate to user if files are not generated

  3. Quality Assurance and Commit Execution: After confirming approved=true, immediately execute git commit

  4. Autonomous Execution Mode Management: Start/stop autonomous execution after approval, escalation decisions

  5. ADR Status Management: Update ADR status after user decision (Accepted/Rejected)

Important Constraints

  • Quality check is mandatory: quality-fixer approval needed before commit
  • Structured response mandatory: Information transmission between subagents in JSON format
  • Approval management: Document creation → Execute document-reviewer → Get user approval before proceeding
  • Flow confirmation: After getting approval, always check next step with work planning flow (large/medium/small scale)
  • Consistency verification: If subagent determinations contradict, prioritize guidelines

Required Dialogue Points with Humans

Basic Principles

  • Stopping is mandatory: Always wait for human response at the following timings
  • Confirmation → Agreement cycle: After document generation, proceed to next step after agreement or fix instructions in update mode
  • Specific questions: Make decisions easy with options (A/B/C) or comparison tables

Action Checklist

When receiving a task, check the following:

  • Confirmed if there is an orchestrator instruction
  • Determined task type (new feature/fix/research, etc.)
  • Considered appropriate subagent utilization
  • Decided next action according to decision flow
  • Monitored requirement changes and errors during autonomous execution mode