--- name: nav-task-mode description: Unified workflow orchestration for substantial tasks. Auto-detects complexity, defers to matching skills, or provides phase-based execution. Solves workflow conflicts between skills, loop mode, and CLAUDE.md. allowed-tools: Read, Write, Edit, Bash, Grep, Glob, AskUserQuestion version: 1.0.0 --- # Navigator Task Mode Skill Unified workflow orchestration that coordinates between skills, loop mode, and direct execution based on task complexity and type. ## Why This Exists Navigator had three disconnected workflow systems: 1. **Skills** (frontend-component, etc.) - have mini-workflows (Step 1 → Step 7) 2. **Loop Mode** - separate phase system (INIT → COMPLETE) 3. **CLAUDE.md** - documents workflow nobody enforces **Result**: Conflicts when multiple systems try to run. **Solution**: Task Mode acts as a coordinator - detecting when skills should handle workflow vs when to provide standalone phase guidance. ## How It Works ``` User Request ↓ TASK MODE (this skill) ├─ Simple task? → Direct execution (no overhead) ├─ Skill matches? → Let skill run (it has workflow) └─ Substantial, no skill? → Task Mode phases ``` ## When to Invoke **Auto-invoke when**: - User starts substantial work (3+ steps expected) - No obvious skill match (not "create component", "add endpoint", etc.) - Request involves planning, refactoring, or multi-file changes - Loop mode is disabled but structured execution needed **DO NOT invoke if**: - Trivial task (typo fix, single line change) - Skill will clearly handle it (component creation, endpoint, migration, etc.) - User says "quick", "just do", "simple fix" - Already in Task Mode or Loop Mode ## Configuration Task Mode settings in `.agent/.nav-config.json`: ```json { "task_mode": { "enabled": true, "auto_detect": true, "defer_to_skills": true, "complexity_threshold": 0.5, "show_phase_indicator": true } } ``` **Options**: - `enabled`: Master switch for Task Mode - `auto_detect`: Auto-detect complexity (vs explicit invocation only) - `defer_to_skills`: Let matching skills handle their own workflow - `complexity_threshold`: Score (0-1) required to activate - `show_phase_indicator`: Show phase banners during execution ## Execution Steps ### Step 1: Analyze Request **Run complexity detection**: ```bash python3 functions/complexity_detector.py \ --request "{USER_REQUEST}" \ --context "{RECENT_CONTEXT}" ``` **Complexity signals**: - Multi-file changes expected (+0.3) - Planning language ("implement", "refactor", "add feature") (+0.2) - Vague requirements needing research (+0.2) - Cross-system changes (frontend+backend) (+0.3) - Testing requirements mentioned (+0.1) **Simple task signals**: - Single file mentioned (-0.3) - Fix/typo/update language (-0.2) - Specific location given (-0.2) - "Quick" or "simple" mentioned (-0.3) **Decision**: ``` IF complexity_score < threshold: → Direct execution (exit Task Mode) ``` ### Step 2: Check Skill Match **Run skill detection**: ```bash python3 functions/skill_detector.py \ --request "{USER_REQUEST}" \ --available-skills "{SKILLS_LIST}" ``` **Skill matching rules**: - "create component" → frontend-component - "add endpoint" → backend-endpoint - "database migration" → database-migration - "write test" → backend-test/frontend-test - etc. **Decision**: ``` IF matching_skill AND defer_to_skills: → Show: "Detected: {SKILL_NAME} skill will handle this" → Exit Task Mode (skill has workflow) ``` ### Step 3: Initialize Task Mode **If substantial task, no skill match**: **Display activation**: ``` ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ TASK MODE ACTIVATED ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Task: {TASK_SUMMARY} Complexity: {SCORE} (threshold: {THRESHOLD}) Skills matched: None (Task Mode will orchestrate) Phases: ○ RESEARCH - Understand requirements ○ PLAN - Create implementation strategy ○ IMPL - Execute changes ○ VERIFY - Test and validate ○ COMPLETE - Commit and document Starting RESEARCH phase... ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ``` ### Step 4: Execute Phases **RESEARCH Phase**: - Use Task agent for codebase exploration - Identify affected files - Find existing patterns - Document unknowns **Show phase transition**: ```bash python3 functions/phase_indicator.py \ --phase "RESEARCH" \ --status "complete" \ --next "PLAN" ``` ``` ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ PHASE: RESEARCH → PLAN ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Research completed: ✓ Found {N} related files ✓ Identified patterns in {LOCATION} ✓ Dependencies mapped Moving to PLAN phase... ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ``` **PLAN Phase**: - Create TodoWrite items - Identify order of changes - Document approach **IMPL Phase**: - Execute planned changes - Follow project patterns - Write tests as appropriate **VERIFY Phase**: - Run tests - Type check - Build validation - **Run nav-simplify** (if enabled) **COMPLETE Phase**: - Commit changes - Update documentation - Close tickets (if PM configured) - Suggest compact ### Step 5: Complete Task Mode **Display completion**: ``` ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ TASK MODE COMPLETE ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ Task: {TASK_SUMMARY} Phases: ✓ RESEARCH - {DURATION} ✓ PLAN - {DURATION} ✓ IMPL - {DURATION} ✓ VERIFY - {DURATION} ✓ COMPLETE Summary: - {FILES_CHANGED} files changed - {TESTS_ADDED} tests added - Committed: {COMMIT_SHA} ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━ ``` --- ## Predefined Functions ### functions/complexity_detector.py Analyzes request to determine complexity score. **Usage**: ```bash python3 functions/complexity_detector.py \ --request "Refactor the auth system to use JWT" \ --context "Working on user management" ``` **Returns**: ```json { "complexity_score": 0.7, "signals": { "multi_file": true, "planning_language": true, "cross_system": false }, "recommendation": "task_mode", "reason": "Refactoring task with multi-file scope" } ``` ### functions/skill_detector.py Checks if a skill should handle this request. **Usage**: ```bash python3 functions/skill_detector.py \ --request "Add a login component" \ --available-skills '["frontend-component", "backend-endpoint", "database-migration"]' ``` **Returns**: ```json { "matching_skill": "frontend-component", "confidence": 0.95, "triggers": ["create component", "add component"], "defer": true, "reason": "Request matches frontend-component skill triggers" } ``` ### functions/phase_indicator.py Generates phase transition displays. **Usage**: ```bash python3 functions/phase_indicator.py \ --phase "IMPL" \ --status "in_progress" \ --progress 60 \ --details '{"files_changed": 3, "tests_written": 2}' ``` **Returns**: Formatted phase indicator block. --- ## Integration with Navigator ### With Loop Mode Task Mode is **lighter weight** than Loop Mode: - Loop Mode: Strict iteration control, stagnation detection, EXIT_SIGNAL - Task Mode: Phase guidance, skill coordination, no strict gates **When to use which**: - Loop Mode: "Run until done", autonomous iteration - Task Mode: Substantial task, need structure but not strict iteration **Can coexist**: Loop Mode wraps Task Mode phases if both active. ### With Skills Task Mode **defers to skills** by default: - Skill has its own workflow (Steps 1-7) - Task Mode doesn't add overhead - Just shows "Skill X will handle this" **Override**: Set `defer_to_skills: false` to always use Task Mode phases. ### With nav-simplify Simplification runs during VERIFY phase: - After tests pass - Before committing - Respects simplification.enabled config ### With Autonomous Completion COMPLETE phase triggers autonomous protocol: - Commit changes - Archive documentation - Close tickets - Create markers --- ## Comparison Table | Aspect | Direct Execution | Task Mode | Loop Mode | |--------|------------------|-----------|-----------| | Complexity | Low | Medium-High | High | | Phase tracking | None | Visual phases | Strict phases | | Iteration control | None | None | EXIT_SIGNAL | | Skill coordination | None | Defers | Independent | | Best for | Quick fixes | Features | Autonomous work | --- ## Examples ### Example 1: Simple Fix (Direct Execution) ``` User: "Fix the typo in README" → Complexity: 0.1 (below threshold) → Direct execution (no Task Mode overhead) ``` ### Example 2: Component Creation (Skill Defers) ``` User: "Create a UserProfile component" → Complexity: 0.6 → Skill match: frontend-component (0.95 confidence) → Task Mode defers: "frontend-component skill will handle this" → Skill executes its own Step 1-7 workflow ``` ### Example 3: Refactoring (Task Mode Active) ``` User: "Refactor auth to use JWT instead of sessions" → Complexity: 0.8 → Skill match: None → Task Mode activates → RESEARCH: Explore current auth implementation → PLAN: Document JWT migration steps → IMPL: Execute changes across files → VERIFY: Run tests, simplify code → COMPLETE: Commit, document ``` ### Example 4: With Loop Mode ``` User: "Run until done: implement user roles" → Loop Mode activated (explicit trigger) → Task Mode phases guide each iteration: Iteration 1: RESEARCH phase Iteration 2: PLAN + IMPL phases Iteration 3: IMPL + VERIFY phases Iteration 4: COMPLETE + EXIT_SIGNAL ``` --- ## Error Handling **Config not found**: ``` Task Mode config not found in .nav-config.json. Using defaults: auto_detect=true, threshold=0.5 ``` **Skill detection fails**: - Fall back to Task Mode (conservative) - Log warning but continue **Phase detection ambiguous**: - Default to current or next logical phase - Show reasoning for user --- ## Success Criteria Task Mode succeeds when: - [ ] Simple tasks execute without overhead - [ ] Skills handle their matched requests - [ ] Substantial tasks get phase structure - [ ] No conflicts between systems - [ ] User sees clear progress indicators --- ## Verification Checklist After implementation: - [ ] "Add login component" → frontend-component runs (not Task Mode) - [ ] "Refactor auth system" → Task Mode runs (no matching skill) - [ ] "Fix typo" → Direct execution (not substantial) - [ ] Phase indicators show during Task Mode - [ ] Skills continue working unchanged - [ ] Loop Mode can wrap Task Mode phases --- **This skill provides unified workflow orchestration, resolving conflicts between Navigator's multiple workflow systems.**