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feat: Implement workflow phases for test generation and execution

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- Added Phase 1: Session Start to detect input mode and create test workflow session.
- Added Phase 2: Test Context Gather to gather test context via coverage analysis or codebase scan.
- Added Phase 3: Test Concept Enhanced to analyze test requirements using Gemini and generate multi-layered test requirements.
- Added Phase 4: Test Task Generate to create test-specific tasks based on analysis results.
- Added Phase 5: Test Cycle Execute to manage iterative test execution and fix cycles with adaptive strategies.
- Introduced BottomPanel component for terminal dashboard with Queue and Inspector tabs.
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---
name: tdd-plan
description: TDD workflow planning with Red-Green-Refactor task chain generation, test-first development structure, and cycle tracking
argument-hint: "\"feature description\"|file.md"
allowed-tools: Skill(*), TodoWrite(*), Read(*), Bash(*)
---
# TDD Workflow Plan Command (/workflow:tdd-plan)
## Coordinator Role
**This command is a pure orchestrator**: Executes 6 slash commands in sequence, parse outputs, pass context, and ensure complete TDD workflow creation with Red-Green-Refactor task generation.
**CLI Tool Selection**: CLI tool usage is determined semantically from user's task description. Include "use Codex/Gemini/Qwen" in your request for CLI execution.
**Task Attachment Model**:
- Skill execute **expands workflow** by attaching sub-tasks to current TodoWrite
- When executing a sub-command (e.g., `/workflow:tools:test-context-gather`), its internal tasks are attached to the orchestrator's TodoWrite
- Orchestrator **executes these attached tasks** sequentially
- After completion, attached tasks are **collapsed** back to high-level phase summary
- This is **task expansion**, not external delegation
**Auto-Continue Mechanism**:
- TodoList tracks current phase status and dynamically manages task attachment/collapse
- When each phase finishes executing, automatically execute next pending phase
- All phases run autonomously without user interaction
- **⚠️ CONTINUOUS EXECUTION** - Do not stop until all phases complete
## Core Rules
1. **Start Immediately**: First action is TodoWrite initialization, second action is execute Phase 1
2. **No Preliminary Analysis**: Do not read files before Phase 1
3. **Parse Every Output**: Extract required data for next phase
4. **Auto-Continue via TodoList**: Check TodoList status to execute next pending phase automatically
5. **Track Progress**: Update TodoWrite dynamically with task attachment/collapse pattern
6. **TDD Context**: All descriptions include "TDD:" prefix
7. **Task Attachment Model**: Skill execute **attaches** sub-tasks to current workflow. Orchestrator **executes** these attached tasks itself, then **collapses** them after completion
8. **⚠️ CRITICAL: DO NOT STOP**: Continuous multi-phase workflow. After executing all attached tasks, immediately collapse them and execute next phase
## TDD Compliance Requirements
### The Iron Law
```
NO PRODUCTION CODE WITHOUT A FAILING TEST FIRST
```
**Enforcement Method**:
- Phase 5: `implementation` includes test-first steps (Red → Green → Refactor)
- Green phase: Includes test-fix-cycle configuration (max 3 iterations)
- Auto-revert: Triggered when max iterations reached without passing tests
**Verification**: Phase 6 validates Red-Green-Refactor structure in all generated tasks
### TDD Compliance Checkpoint
| Checkpoint | Validation Phase | Evidence Required |
|------------|------------------|-------------------|
| Test-first structure | Phase 5 | `implementation` has 3 steps |
| Red phase exists | Phase 6 | Step 1: `tdd_phase: "red"` |
| Green phase with test-fix | Phase 6 | Step 2: `tdd_phase: "green"` + test-fix-cycle |
| Refactor phase exists | Phase 6 | Step 3: `tdd_phase: "refactor"` |
### Core TDD Principles (from ref skills)
**Red Flags - STOP and Reassess**:
- Code written before test
- Test passes immediately (no Red phase witnessed)
- Cannot explain why test should fail
- "Just this once" rationalization
- "Tests after achieve same goals" thinking
**Why Order Matters**:
- Tests written after code pass immediately → proves nothing
- Test-first forces edge case discovery before implementation
- Tests-after verify what was built, not what's required
## 6-Phase Execution (with Conflict Resolution)
### Phase 1: Session Discovery
**Step 1.1: Execute** - Session discovery and initialization
```javascript
Skill(skill="workflow:session:start", args="--type tdd --auto \"TDD: [structured-description]\"")
```
**TDD Structured Format**:
```
TDD: [Feature Name]
GOAL: [Objective]
SCOPE: [Included/excluded]
CONTEXT: [Background]
TEST_FOCUS: [Test scenarios]
```
**Parse**: Extract sessionId
**TodoWrite**: Mark phase 1 completed, phase 2 in_progress
**After Phase 1**: Return to user showing Phase 1 results, then auto-continue to Phase 2
---
### Phase 2: Context Gathering
**Step 2.1: Execute** - Context gathering and analysis
```javascript
Skill(skill="workflow:tools:context-gather", args="--session [sessionId] \"TDD: [structured-description]\"")
```
**Use Same Structured Description**: Pass the same structured format from Phase 1
**Input**: `sessionId` from Phase 1
**Parse Output**:
- Extract: context-package.json path (store as `contextPath`)
- Typical pattern: `.workflow/active/[sessionId]/.process/context-package.json`
**Validation**:
- Context package path extracted
- File exists and is valid JSON
**TodoWrite**: Mark phase 2 completed, phase 3 in_progress
**After Phase 2**: Return to user showing Phase 2 results, then auto-continue to Phase 3
---
### Phase 3: Test Coverage Analysis
**Step 3.1: Execute** - Test coverage analysis and framework detection
```javascript
Skill(skill="workflow:tools:test-context-gather", args="--session [sessionId]")
```
**Purpose**: Analyze existing codebase for:
- Existing test patterns and conventions
- Current test coverage
- Related components and integration points
- Test framework detection
**Parse**: Extract testContextPath (`.workflow/active/[sessionId]/.process/test-context-package.json`)
<!-- TodoWrite: When test-context-gather executed, INSERT 3 test-context-gather tasks -->
**TodoWrite Update (Phase 3 Skill executed - tasks attached)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "in_progress", "activeForm": "Executing test coverage analysis"},
{"content": " → Detect test framework and conventions", "status": "in_progress", "activeForm": "Detecting test framework"},
{"content": " → Analyze existing test coverage", "status": "pending", "activeForm": "Analyzing test coverage"},
{"content": " → Identify coverage gaps", "status": "pending", "activeForm": "Identifying coverage gaps"},
{"content": "Phase 5: TDD Task Generation", "status": "pending", "activeForm": "Executing TDD task generation"},
{"content": "Phase 6: TDD Structure Validation", "status": "pending", "activeForm": "Validating TDD structure"}
]
```
**Note**: Skill execute **attaches** test-context-gather's 3 tasks. Orchestrator **executes** these tasks.
**Next Action**: Tasks attached → **Execute Phase 3.1-3.3** sequentially
<!-- TodoWrite: After Phase 3 tasks complete, REMOVE Phase 3.1-3.3, restore to orchestrator view -->
**TodoWrite Update (Phase 3 completed - tasks collapsed)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "completed", "activeForm": "Executing test coverage analysis"},
{"content": "Phase 5: TDD Task Generation", "status": "pending", "activeForm": "Executing TDD task generation"},
{"content": "Phase 6: TDD Structure Validation", "status": "pending", "activeForm": "Validating TDD structure"}
]
```
**Note**: Phase 3 tasks completed and collapsed to summary.
**After Phase 3**: Return to user showing test coverage results, then auto-continue to Phase 4/5 (depending on conflict_risk)
---
### Phase 4: Conflict Resolution (Optional - auto-triggered by conflict risk)
**Trigger**: Only execute when context-package.json indicates conflict_risk is "medium" or "high"
**Step 4.1: Execute** - Conflict detection and resolution
```javascript
Skill(skill="workflow:tools:conflict-resolution", args="--session [sessionId] --context [contextPath]")
```
**Input**:
- sessionId from Phase 1
- contextPath from Phase 2
- conflict_risk from context-package.json
**Parse Output**:
- Extract: Execution status (success/skipped/failed)
- Verify: conflict-resolution.json file path (if executed)
**Validation**:
- File `.workflow/active/[sessionId]/.process/conflict-resolution.json` exists (if executed)
**Skip Behavior**:
- If conflict_risk is "none" or "low", skip directly to Phase 5
- Display: "No significant conflicts detected, proceeding to TDD task generation"
<!-- TodoWrite: If conflict_risk ≥ medium, INSERT 3 conflict-resolution tasks when executed -->
**TodoWrite Update (Phase 4 Skill executed - tasks attached, if conflict_risk ≥ medium)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "completed", "activeForm": "Executing test coverage analysis"},
{"content": "Phase 4: Conflict Resolution", "status": "in_progress", "activeForm": "Executing conflict resolution"},
{"content": " → Detect conflicts with CLI analysis", "status": "in_progress", "activeForm": "Detecting conflicts"},
{"content": " → Log and analyze detected conflicts", "status": "pending", "activeForm": "Analyzing conflicts"},
{"content": " → Apply resolution strategies", "status": "pending", "activeForm": "Applying resolution strategies"},
{"content": "Phase 5: TDD Task Generation", "status": "pending", "activeForm": "Executing TDD task generation"},
{"content": "Phase 6: TDD Structure Validation", "status": "pending", "activeForm": "Validating TDD structure"}
]
```
**Note**: Skill execute **attaches** conflict-resolution's 3 tasks. Orchestrator **executes** these tasks.
**Next Action**: Tasks attached → **Execute Phase 4.1-4.3** sequentially
<!-- TodoWrite: After Phase 4 tasks complete, REMOVE Phase 4.1-4.3, restore to orchestrator view -->
**TodoWrite Update (Phase 4 completed - tasks collapsed)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "completed", "activeForm": "Executing test coverage analysis"},
{"content": "Phase 4: Conflict Resolution", "status": "completed", "activeForm": "Executing conflict resolution"},
{"content": "Phase 5: TDD Task Generation", "status": "pending", "activeForm": "Executing TDD task generation"},
{"content": "Phase 6: TDD Structure Validation", "status": "pending", "activeForm": "Validating TDD structure"}
]
```
**Note**: Phase 4 tasks completed and collapsed to summary.
**After Phase 4**: Return to user showing conflict resolution results (if executed) and selected strategies, then auto-continue to Phase 5
**Memory State Check**:
- Evaluate current context window usage and memory state
- If memory usage is high (>110K tokens or approaching context limits):
**Step 4.5: Execute** - Memory compaction
```javascript
Skill(skill="compact")
```
- This optimizes memory before proceeding to Phase 5
- Memory compaction is particularly important after analysis phase which may generate extensive documentation
- Ensures optimal performance and prevents context overflow
---
### Phase 5: TDD Task Generation
**Step 5.1: Execute** - TDD task generation via action-planning-agent with Phase 0 user configuration
```javascript
Skill(skill="workflow:tools:task-generate-tdd", args="--session [sessionId]")
```
**Note**: Phase 0 now includes:
- Supplementary materials collection (file paths or inline content)
- Execution method preference (Agent/Hybrid/CLI)
- CLI tool preference (Codex/Gemini/Qwen/Auto)
- These preferences are passed to agent for task generation
**Parse**: Extract feature count, task count (not chain count - tasks now contain internal TDD cycles), CLI execution IDs assigned
**Validate**:
- plan.json exists (structured plan overview with `_metadata.plan_type: "tdd"`)
- IMPL_PLAN.md exists (unified plan with TDD Implementation Tasks section)
- IMPL-*.json files exist (one per feature, or container + subtasks for complex features)
- TODO_LIST.md exists with internal TDD phase indicators
- Each IMPL task includes:
- `meta.tdd_workflow: true`
- `cli_execution.id: {session_id}-{task_id}`
- `cli_execution: { "strategy": "new|resume|fork|merge_fork", ... }`
- `implementation` with exactly 3 steps (red/green/refactor)
- Green phase includes test-fix-cycle configuration
- `focus_paths`: absolute or clear relative paths (enhanced with exploration critical_files)
- `pre_analysis`: includes exploration integration_points analysis
- IMPL_PLAN.md contains workflow_type: "tdd" in frontmatter
- User configuration applied:
- If executionMethod == "cli" or "hybrid": command field added to steps
- CLI tool preference reflected in execution guidance
- Task count ≤18 (compliance with hard limit)
**Red Flag Detection** (Non-Blocking Warnings):
- Task count >18: `⚠️ Task count exceeds hard limit - request re-scope`
- Missing cli_execution.id: `⚠️ Task lacks CLI execution ID for resume support`
- Missing test-fix-cycle: `⚠️ Green phase lacks auto-revert configuration`
- Generic task names: `⚠️ Vague task names suggest unclear TDD cycles`
- Missing focus_paths: `⚠️ Task lacks clear file scope for implementation`
**Action**: Log warnings to `.workflow/active/[sessionId]/.process/tdd-warnings.log` (non-blocking)
<!-- TodoWrite: When task-generate-tdd executed, INSERT 3 task-generate-tdd tasks -->
**TodoWrite Update (Phase 5 Skill executed - tasks attached)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "completed", "activeForm": "Executing test coverage analysis"},
{"content": "Phase 5: TDD Task Generation", "status": "in_progress", "activeForm": "Executing TDD task generation"},
{"content": " → Discovery - analyze TDD requirements", "status": "in_progress", "activeForm": "Analyzing TDD requirements"},
{"content": " → Planning - design Red-Green-Refactor cycles", "status": "pending", "activeForm": "Designing TDD cycles"},
{"content": " → Output - generate IMPL tasks with internal TDD phases", "status": "pending", "activeForm": "Generating TDD tasks"},
{"content": "Phase 6: TDD Structure Validation", "status": "pending", "activeForm": "Validating TDD structure"}
]
```
**Note**: Skill execute **attaches** task-generate-tdd's 3 tasks. Orchestrator **executes** these tasks. Each generated IMPL task will contain internal Red-Green-Refactor cycle.
**Next Action**: Tasks attached → **Execute Phase 5.1-5.3** sequentially
<!-- TodoWrite: After Phase 5 tasks complete, REMOVE Phase 5.1-5.3, restore to orchestrator view -->
**TodoWrite Update (Phase 5 completed - tasks collapsed)**:
```json
[
{"content": "Phase 1: Session Discovery", "status": "completed", "activeForm": "Executing session discovery"},
{"content": "Phase 2: Context Gathering", "status": "completed", "activeForm": "Executing context gathering"},
{"content": "Phase 3: Test Coverage Analysis", "status": "completed", "activeForm": "Executing test coverage analysis"},
{"content": "Phase 5: TDD Task Generation", "status": "completed", "activeForm": "Executing TDD task generation"},
{"content": "Phase 6: TDD Structure Validation", "status": "in_progress", "activeForm": "Validating TDD structure"}
]
```
**Note**: Phase 5 tasks completed and collapsed to summary. Each generated IMPL task contains complete Red-Green-Refactor cycle internally.
### Phase 6: TDD Structure Validation & Action Plan Verification (RECOMMENDED)
**Internal validation first, then recommend external verification**
**Internal Validation**:
1. Each task contains complete TDD workflow (Red-Green-Refactor internally)
2. Task structure validation:
- `meta.tdd_workflow: true` in all IMPL tasks
- `cli_execution.id` present (format: {session_id}-{task_id})
- `cli_execution` strategy assigned (new/resume/fork/merge_fork)
- `implementation` has exactly 3 steps
- Each step has correct `tdd_phase`: "red", "green", "refactor"
- `focus_paths` are absolute or clear relative paths
- `pre_analysis` includes exploration integration analysis
3. Dependency validation:
- Sequential features: IMPL-N depends_on ["IMPL-(N-1)"] if needed
- Complex features: IMPL-N.M depends_on ["IMPL-N.(M-1)"] for subtasks
- CLI execution strategies correctly assigned based on dependency graph
4. Agent assignment: All IMPL tasks use @code-developer
5. Test-fix cycle: Green phase step includes test-fix-cycle logic with max_iterations
6. Task count: Total tasks ≤18 (simple + subtasks hard limit)
7. User configuration:
- Execution method choice reflected in task structure
- CLI tool preference documented in implementation guidance (if CLI selected)
**Red Flag Checklist** (from TDD best practices):
- [ ] No tasks skip Red phase (`tdd_phase: "red"` exists in step 1)
- [ ] Test files referenced in Red phase (explicit paths, not placeholders)
- [ ] Green phase has test-fix-cycle with `max_iterations` configured
- [ ] Refactor phase has clear completion criteria
**Non-Compliance Warning Format**:
```
⚠️ TDD Red Flag: [issue description]
Task: [IMPL-N]
Recommendation: [action to fix]
```
**Evidence Gathering** (Before Completion Claims):
```bash
# Verify session artifacts exist
ls -la .workflow/active/[sessionId]/{IMPL_PLAN.md,TODO_LIST.md}
ls -la .workflow/active/[sessionId]/.task/IMPL-*.json
# Count generated artifacts
echo "IMPL tasks: $(ls .workflow/active/[sessionId]/.task/IMPL-*.json 2>/dev/null | wc -l)"
# Sample task structure verification (first task)
jq '{id, tdd: .meta.tdd_workflow, cli_id: .cli_execution.id, phases: [.implementation[].tdd_phase]}' \
"$(ls .workflow/active/[sessionId]/.task/IMPL-*.json | head -1)"
```
**Evidence Required Before Summary**:
| Evidence Type | Verification Method | Pass Criteria |
|---------------|---------------------|---------------|
| File existence | `ls -la` artifacts | All files present |
| Task count | Count IMPL-*.json | Count matches claims (≤18) |
| TDD structure | jq sample extraction | Shows red/green/refactor + cli_execution.id |
| CLI execution IDs | jq extraction | All tasks have cli_execution.id assigned |
| Warning log | Check tdd-warnings.log | Logged (may be empty) |
**Return Summary**:
```
TDD Planning complete for session: [sessionId]
Features analyzed: [N]
Total tasks: [M] (1 task per simple feature + subtasks for complex features)
Task breakdown:
- Simple features: [K] tasks (IMPL-1 to IMPL-K)
- Complex features: [L] features with [P] subtasks
- Total task count: [M] (within 18-task hard limit)
Structure:
- IMPL-1: {Feature 1 Name} (Internal: Red → Green → Refactor)
- IMPL-2: {Feature 2 Name} (Internal: Red → Green → Refactor)
- IMPL-3: {Complex Feature} (Container)
- IMPL-3.1: {Sub-feature A} (Internal: Red → Green → Refactor)
- IMPL-3.2: {Sub-feature B} (Internal: Red → Green → Refactor)
[...]
Plans generated:
- Unified Implementation Plan: .workflow/active/[sessionId]/IMPL_PLAN.md
(includes TDD Implementation Tasks section with workflow_type: "tdd")
- Task List: .workflow/active/[sessionId]/TODO_LIST.md
(with internal TDD phase indicators and CLI execution strategies)
- Task JSONs: .workflow/active/[sessionId]/.task/IMPL-*.json
(with cli_execution.id and execution strategies for resume support)
TDD Configuration:
- Each task contains complete Red-Green-Refactor cycle
- Green phase includes test-fix cycle (max 3 iterations)
- Auto-revert on max iterations reached
- CLI execution strategies: new/resume/fork/merge_fork based on dependency graph
User Configuration Applied:
- Execution Method: [agent|hybrid|cli]
- CLI Tool Preference: [codex|gemini|qwen|auto]
- Supplementary Materials: [included|none]
- Task generation follows cli-tools-usage.md guidelines
⚠️ ACTION REQUIRED: Before execution, ensure you understand WHY each Red phase test is expected to fail.
This is crucial for valid TDD - if you don't know why the test fails, you can't verify it tests the right thing.
Recommended Next Steps:
1. /workflow:plan-verify --session [sessionId] # Verify TDD plan quality and dependencies
2. /workflow:execute --session [sessionId] # Start TDD execution with CLI strategies
3. /workflow:tdd-verify [sessionId] # Post-execution TDD compliance check
Quality Gate: Consider running /workflow:plan-verify to validate TDD task structure, dependencies, and CLI execution strategies
```
## TodoWrite Pattern
**Core Concept**: Dynamic task attachment and collapse for TDD workflow with test coverage analysis and Red-Green-Refactor cycle generation.
### Key Principles
1. **Task Attachment** (when Skill executed):
- Sub-command's internal tasks are **attached** to orchestrator's TodoWrite
- Example: `/workflow:tools:test-context-gather` attaches 3 sub-tasks (Phase 3.1, 3.2, 3.3)
- First attached task marked as `in_progress`, others as `pending`
- Orchestrator **executes** these attached tasks sequentially
2. **Task Collapse** (after sub-tasks complete):
- Remove detailed sub-tasks from TodoWrite
- **Collapse** to high-level phase summary
- Example: Phase 3.1-3.3 collapse to "Execute test coverage analysis: completed"
- Maintains clean orchestrator-level view
3. **Continuous Execution**:
- After collapse, automatically proceed to next pending phase
- No user intervention required between phases
- TodoWrite dynamically reflects current execution state
**Lifecycle Summary**: Initial pending tasks → Phase executed (tasks ATTACHED) → Sub-tasks executed sequentially → Phase completed (tasks COLLAPSED to summary) → Next phase begins (conditional Phase 4 if conflict_risk ≥ medium) → Repeat until all phases complete.
### TDD-Specific Features
- **Phase 3**: Test coverage analysis detects existing patterns and gaps
- **Phase 5**: Generated IMPL tasks contain internal Red-Green-Refactor cycles
- **Conditional Phase 4**: Conflict resolution only if conflict_risk ≥ medium
**Note**: See individual Phase descriptions (Phase 3, 4, 5) for detailed TodoWrite Update examples with full JSON structures.
## Execution Flow Diagram
```
TDD Workflow Orchestrator
├─ Phase 1: Session Discovery
│ └─ /workflow:session:start --auto
│ └─ Returns: sessionId
├─ Phase 2: Context Gathering
│ └─ /workflow:tools:context-gather
│ └─ Returns: context-package.json path
├─ Phase 3: Test Coverage Analysis ← ATTACHED (3 tasks)
│ └─ /workflow:tools:test-context-gather
│ ├─ Phase 3.1: Detect test framework
│ ├─ Phase 3.2: Analyze existing test coverage
│ └─ Phase 3.3: Identify coverage gaps
│ └─ Returns: test-context-package.json ← COLLAPSED
├─ Phase 4: Conflict Resolution (conditional)
│ IF conflict_risk ≥ medium:
│ └─ /workflow:tools:conflict-resolution ← ATTACHED (3 tasks)
│ ├─ Phase 4.1: Detect conflicts with CLI
│ ├─ Phase 4.2: Log and analyze detected conflicts
│ └─ Phase 4.3: Apply resolution strategies
│ └─ Returns: conflict-resolution.json ← COLLAPSED
│ ELSE:
│ └─ Skip to Phase 5
├─ Phase 5: TDD Task Generation ← ATTACHED (3 tasks)
│ └─ /workflow:tools:task-generate-tdd
│ ├─ Phase 5.1: Discovery - analyze TDD requirements
│ ├─ Phase 5.2: Planning - design Red-Green-Refactor cycles
│ └─ Phase 5.3: Output - generate IMPL tasks with internal TDD phases
│ └─ Returns: IMPL-*.json, IMPL_PLAN.md ← COLLAPSED
│ (Each IMPL task contains internal Red-Green-Refactor cycle)
└─ Phase 6: TDD Structure Validation
└─ Internal validation + summary returned
└─ Recommend: /workflow:plan-verify
Key Points:
• ← ATTACHED: Skill attaches sub-tasks to orchestrator TodoWrite
• ← COLLAPSED: Sub-tasks executed and collapsed to phase summary
• TDD-specific: Each generated IMPL task contains complete Red-Green-Refactor cycle
```
## Input Processing
Convert user input to TDD-structured format:
**Simple text** → Add TDD context
**Detailed text** → Extract components with TEST_FOCUS
**File/Issue** → Read and structure with TDD
## Error Handling
- **Parsing failure**: Retry once, then report
- **Validation failure**: Report missing/invalid data
- **Command failure**: Keep phase in_progress, report error
- **TDD validation failure**: Report incomplete chains or wrong dependencies
### TDD Warning Patterns
| Pattern | Warning Message | Recommended Action |
|---------|----------------|-------------------|
| Task count >10 | High task count detected | Consider splitting into multiple sessions |
| Missing test-fix-cycle | Green phase lacks auto-revert | Add `max_iterations: 3` to task config |
| Red phase missing test path | Test file path not specified | Add explicit test file paths |
| Generic task names | Vague names like "Add feature" | Use specific behavior descriptions |
| No refactor criteria | Refactor phase lacks completion criteria | Define clear refactor scope |
### Non-Blocking Warning Policy
**All warnings are advisory** - they do not halt execution:
1. Warnings logged to `.process/tdd-warnings.log`
2. Summary displayed in Phase 6 output
3. User decides whether to address before `/workflow:execute`
### Error Handling Quick Reference
| Error Type | Detection | Recovery Action |
|------------|-----------|-----------------|
| Parsing failure | Empty/malformed output | Retry once, then report |
| Missing context-package | File read error | Re-run `/workflow:tools:context-gather` |
| Invalid task JSON | jq parse error | Report malformed file path |
| Task count exceeds 18 | Count validation ≥19 | Request re-scope, split into multiple sessions |
| Missing cli_execution.id | All tasks lack ID | Regenerate tasks with phase 0 user config |
| Test-context missing | File not found | Re-run `/workflow:tools:test-context-gather` |
| Phase timeout | No response | Retry phase, check CLI connectivity |
| CLI tool not available | Tool not in cli-tools.json | Fall back to alternative preferred tool |
## Related Commands
**Prerequisite Commands**:
- None - TDD planning is self-contained (can optionally run brainstorm commands before)
**Called by This Command** (6 phases):
- `/workflow:session:start` - Phase 1: Create or discover TDD workflow session
- `/workflow:tools:context-gather` - Phase 2: Gather project context and analyze codebase
- `/workflow:tools:test-context-gather` - Phase 3: Analyze existing test patterns and coverage
- `/workflow:tools:conflict-resolution` - Phase 4: Detect and resolve conflicts (auto-triggered if conflict_risk ≥ medium)
- `/compact` - Phase 4: Memory optimization (if context approaching limits)
- `/workflow:tools:task-generate-tdd` - Phase 5: Generate TDD tasks (CLI tool usage determined semantically)
**Follow-up Commands**:
- `/workflow:plan-verify` - Recommended: Verify TDD plan quality and structure before execution
- `/workflow:status` - Review TDD task breakdown
- `/workflow:execute` - Begin TDD implementation
- `/workflow:tdd-verify` - Post-execution: Verify TDD compliance and generate quality report
## Next Steps Decision Table
| Situation | Recommended Command | Purpose |
|-----------|---------------------|---------|
| First time planning | `/workflow:plan-verify` | Validate task structure before execution |
| Warnings in tdd-warnings.log | Review log, refine tasks | Address Red Flags before proceeding |
| High task count warning | Consider `/workflow:session:start` | Split into focused sub-sessions |
| Ready to implement | `/workflow:execute` | Begin TDD Red-Green-Refactor cycles |
| After implementation | `/workflow:tdd-verify` | Generate TDD compliance report |
| Need to review tasks | `/workflow:status --session [id]` | Inspect current task breakdown |
| Plan needs changes | `/task:replan` | Update task JSON with new requirements |
### TDD Workflow State Transitions
```
/workflow:tdd-plan
[Planning Complete] ──→ /workflow:plan-verify (recommended)
[Verified/Ready] ─────→ /workflow:execute
[Implementation] ─────→ /workflow:tdd-verify (post-execution)
[Quality Report] ─────→ Done or iterate
```

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@@ -1,585 +0,0 @@
---
name: tdd-verify
description: Verify TDD workflow compliance against Red-Green-Refactor cycles. Generates quality report with coverage analysis and quality gate recommendation. Orchestrates sub-commands for comprehensive validation.
argument-hint: "[optional: --session WFS-session-id]"
allowed-tools: Skill(*), TodoWrite(*), Read(*), Write(*), Bash(*), Glob(*)
---
# TDD Verification Command (/workflow:tdd-verify)
## Goal
Verify TDD workflow execution quality by validating Red-Green-Refactor cycle compliance, test coverage completeness, and task chain structure integrity. This command orchestrates multiple analysis phases and generates a comprehensive compliance report with quality gate recommendation.
**Output**: A structured Markdown report saved to `.workflow/active/WFS-{session}/TDD_COMPLIANCE_REPORT.md` containing:
- Executive summary with compliance score and quality gate recommendation
- Task chain validation (TEST → IMPL → REFACTOR structure)
- Test coverage metrics (line, branch, function)
- Red-Green-Refactor cycle verification
- Best practices adherence assessment
- Actionable improvement recommendations
## Operating Constraints
**ORCHESTRATOR MODE**:
- This command coordinates multiple sub-commands (`/workflow:tools:tdd-coverage-analysis`, `ccw cli`)
- MAY write output files: TDD_COMPLIANCE_REPORT.md (primary report), .process/*.json (intermediate artifacts)
- MUST NOT modify source task files or implementation code
- MUST NOT create or delete tasks in the workflow
**Quality Gate Authority**: The compliance report provides a binding recommendation (BLOCK_MERGE / REQUIRE_FIXES / PROCEED_WITH_CAVEATS / APPROVED) based on objective compliance criteria.
## Coordinator Role
**This command is a pure orchestrator**: Execute 4 phases to verify TDD workflow compliance, test coverage, and Red-Green-Refactor cycle execution.
## Core Responsibilities
- Verify TDD task chain structure (TEST → IMPL → REFACTOR)
- Analyze test coverage metrics
- Validate TDD cycle execution quality
- Generate compliance report with quality gate recommendation
## Execution Process
```
Input Parsing:
└─ Decision (session argument):
├─ --session provided → Use provided session
└─ No session → Auto-detect active session
Phase 1: Session Discovery & Validation
├─ Detect or validate session directory
├─ Check required artifacts exist (.task/*.json, .summaries/*)
└─ ERROR if invalid or incomplete
Phase 2: Task Chain Structure Validation
├─ Load all task JSONs from .task/
├─ Validate TDD structure: TEST-N.M → IMPL-N.M → REFACTOR-N.M
├─ Verify dependencies (depends_on)
├─ Validate meta fields (tdd_phase, agent)
└─ Extract chain validation data
Phase 3: Coverage & Cycle Analysis
├─ Call: /workflow:tools:tdd-coverage-analysis
├─ Parse: test-results.json, coverage-report.json, tdd-cycle-report.md
└─ Extract coverage metrics and TDD cycle verification
Phase 4: Compliance Report Generation
├─ Aggregate findings from Phases 1-3
├─ Calculate compliance score (0-100)
├─ Determine quality gate recommendation
├─ Generate TDD_COMPLIANCE_REPORT.md
└─ Display summary to user
```
## 4-Phase Execution
### Phase 1: Session Discovery & Validation
**Step 1.1: Detect Session**
```bash
IF --session parameter provided:
session_id = provided session
ELSE:
# Auto-detect active session
active_sessions = bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null)
IF active_sessions is empty:
ERROR: "No active workflow session found. Use --session <session-id>"
EXIT
ELSE IF active_sessions has multiple entries:
# Use most recently modified session
session_id = bash(ls -td .workflow/active/WFS-*/ 2>/dev/null | head -1 | xargs basename)
ELSE:
session_id = basename(active_sessions[0])
# Derive paths
session_dir = .workflow/active/WFS-{session_id}
task_dir = session_dir/.task
summaries_dir = session_dir/.summaries
process_dir = session_dir/.process
```
**Step 1.2: Validate Required Artifacts**
```bash
# Check task files exist
task_files = Glob(task_dir/*.json)
IF task_files.count == 0:
ERROR: "No task JSON files found. Run /workflow:tdd-plan first"
EXIT
# Check summaries exist (optional but recommended for full analysis)
summaries_exist = EXISTS(summaries_dir)
IF NOT summaries_exist:
WARNING: "No .summaries/ directory found. Some analysis may be limited."
```
**Output**: session_id, session_dir, task_files list
---
### Phase 2: Task Chain Structure Validation
**Step 2.1: Load and Parse Task JSONs**
```bash
# Single-pass JSON extraction using jq
validation_data = bash("""
# Load all tasks and extract structured data
cd '{session_dir}/.task'
# Extract all task IDs
task_ids=$(jq -r '.id' *.json 2>/dev/null | sort)
# Extract dependencies for IMPL tasks
impl_deps=$(jq -r 'select(.id | startswith("IMPL")) | .id + ":" + (.context.depends_on[]? // "none")' *.json 2>/dev/null)
# Extract dependencies for REFACTOR tasks
refactor_deps=$(jq -r 'select(.id | startswith("REFACTOR")) | .id + ":" + (.context.depends_on[]? // "none")' *.json 2>/dev/null)
# Extract meta fields
meta_tdd=$(jq -r '.id + ":" + (.meta.tdd_phase // "missing")' *.json 2>/dev/null)
meta_agent=$(jq -r '.id + ":" + (.meta.agent // "missing")' *.json 2>/dev/null)
# Output as JSON
jq -n --arg ids "$task_ids" \\
--arg impl "$impl_deps" \\
--arg refactor "$refactor_deps" \\
--arg tdd "$meta_tdd" \\
--arg agent "$meta_agent" \\
'{ids: $ids, impl_deps: $impl, refactor_deps: $refactor, tdd: $tdd, agent: $agent}'
""")
```
**Step 2.2: Validate TDD Chain Structure**
```
Parse validation_data JSON and validate:
For each feature N (extracted from task IDs):
1. TEST-N.M exists?
2. IMPL-N.M exists?
3. REFACTOR-N.M exists? (optional but recommended)
4. IMPL-N.M.context.depends_on contains TEST-N.M?
5. REFACTOR-N.M.context.depends_on contains IMPL-N.M?
6. TEST-N.M.meta.tdd_phase == "red"?
7. TEST-N.M.meta.agent == "@code-review-test-agent"?
8. IMPL-N.M.meta.tdd_phase == "green"?
9. IMPL-N.M.meta.agent == "@code-developer"?
10. REFACTOR-N.M.meta.tdd_phase == "refactor"?
Calculate:
- chain_completeness_score = (complete_chains / total_chains) * 100
- dependency_accuracy = (correct_deps / total_deps) * 100
- meta_field_accuracy = (correct_meta / total_meta) * 100
```
**Output**: chain_validation_report (JSON structure with validation results)
---
### Phase 3: Coverage & Cycle Analysis
**Step 3.1: Call Coverage Analysis Sub-command**
```bash
Skill(skill="workflow:tools:tdd-coverage-analysis", args="--session {session_id}")
```
**Step 3.2: Parse Output Files**
```bash
# Check required outputs exist
IF NOT EXISTS(process_dir/test-results.json):
WARNING: "test-results.json not found. Coverage analysis incomplete."
coverage_data = null
ELSE:
coverage_data = Read(process_dir/test-results.json)
IF NOT EXISTS(process_dir/coverage-report.json):
WARNING: "coverage-report.json not found. Coverage metrics incomplete."
metrics = null
ELSE:
metrics = Read(process_dir/coverage-report.json)
IF NOT EXISTS(process_dir/tdd-cycle-report.md):
WARNING: "tdd-cycle-report.md not found. Cycle validation incomplete."
cycle_data = null
ELSE:
cycle_data = Read(process_dir/tdd-cycle-report.md)
```
**Step 3.3: Extract Coverage Metrics**
```
If coverage_data exists:
- line_coverage_percent
- branch_coverage_percent
- function_coverage_percent
- uncovered_files (list)
- uncovered_lines (map: file -> line ranges)
If cycle_data exists:
- red_phase_compliance (tests failed initially?)
- green_phase_compliance (tests pass after impl?)
- refactor_phase_compliance (tests stay green during refactor?)
- minimal_implementation_score (was impl minimal?)
```
**Output**: coverage_analysis, cycle_analysis
---
### Phase 4: Compliance Report Generation
**Step 4.1: Calculate Compliance Score**
```
Base Score: 100 points
Deductions:
Chain Structure:
- Missing TEST task: -30 points per feature
- Missing IMPL task: -30 points per feature
- Missing REFACTOR task: -10 points per feature
- Wrong dependency: -15 points per error
- Wrong agent: -5 points per error
- Wrong tdd_phase: -5 points per error
TDD Cycle Compliance:
- Test didn't fail initially: -10 points per feature
- Tests didn't pass after IMPL: -20 points per feature
- Tests broke during REFACTOR: -15 points per feature
- Over-engineered IMPL: -10 points per feature
Coverage Quality:
- Line coverage < 80%: -5 points
- Branch coverage < 70%: -5 points
- Function coverage < 80%: -5 points
- Critical paths uncovered: -10 points
Final Score: Max(0, Base Score - Total Deductions)
```
**Step 4.2: Determine Quality Gate**
```
IF score >= 90 AND no_critical_violations:
recommendation = "APPROVED"
ELSE IF score >= 70 AND critical_violations == 0:
recommendation = "PROCEED_WITH_CAVEATS"
ELSE IF score >= 50:
recommendation = "REQUIRE_FIXES"
ELSE:
recommendation = "BLOCK_MERGE"
```
**Step 4.3: Generate Report**
```bash
report_content = Generate markdown report (see structure below)
report_path = "{session_dir}/TDD_COMPLIANCE_REPORT.md"
Write(report_path, report_content)
```
**Step 4.4: Display Summary to User**
```bash
echo "=== TDD Verification Complete ==="
echo "Session: {session_id}"
echo "Report: {report_path}"
echo ""
echo "Quality Gate: {recommendation}"
echo "Compliance Score: {score}/100"
echo ""
echo "Chain Validation: {chain_completeness_score}%"
echo "Line Coverage: {line_coverage}%"
echo "Branch Coverage: {branch_coverage}%"
echo ""
echo "Next: Review full report for detailed findings"
```
## TodoWrite Pattern (Optional)
**Note**: As an orchestrator command, TodoWrite tracking is optional and primarily useful for long-running verification processes. For most cases, the 4-phase execution is fast enough that progress tracking adds noise without value.
```javascript
// Only use TodoWrite for complex multi-session verification
// Skip for single-session verification
```
## Validation Logic
### Chain Validation Algorithm
```
1. Load all task JSONs from .workflow/active/{sessionId}/.task/
2. Extract task IDs and group by feature number
3. For each feature:
- Check TEST-N.M exists
- Check IMPL-N.M exists
- Check REFACTOR-N.M exists (optional but recommended)
- Verify IMPL-N.M depends_on TEST-N.M
- Verify REFACTOR-N.M depends_on IMPL-N.M
- Verify meta.tdd_phase values
- Verify meta.agent assignments
4. Calculate chain completeness score
5. Report incomplete or invalid chains
```
### Quality Gate Criteria
| Recommendation | Score Range | Critical Violations | Action |
|----------------|-------------|---------------------|--------|
| **APPROVED** | ≥90 | 0 | Safe to merge |
| **PROCEED_WITH_CAVEATS** | ≥70 | 0 | Can proceed, address minor issues |
| **REQUIRE_FIXES** | ≥50 | Any | Must fix before merge |
| **BLOCK_MERGE** | <50 | Any | Block merge until resolved |
**Critical Violations**:
- Missing TEST or IMPL task for any feature
- Tests didn't fail initially (Red phase violation)
- Tests didn't pass after IMPL (Green phase violation)
- Tests broke during REFACTOR (Refactor phase violation)
## Output Files
```
.workflow/active/WFS-{session-id}/
├── TDD_COMPLIANCE_REPORT.md # Comprehensive compliance report ⭐
└── .process/
├── test-results.json # From tdd-coverage-analysis
├── coverage-report.json # From tdd-coverage-analysis
└── tdd-cycle-report.md # From tdd-coverage-analysis
```
## Error Handling
### Session Discovery Errors
| Error | Cause | Resolution |
|-------|-------|------------|
| No active session | No WFS-* directories | Provide --session explicitly |
| Multiple active sessions | Multiple WFS-* directories | Provide --session explicitly |
| Session not found | Invalid session-id | Check available sessions |
### Validation Errors
| Error | Cause | Resolution |
|-------|-------|------------|
| Task files missing | Incomplete planning | Run /workflow:tdd-plan first |
| Invalid JSON | Corrupted task files | Regenerate tasks |
| Missing summaries | Tasks not executed | Execute tasks before verify |
### Analysis Errors
| Error | Cause | Resolution |
|-------|-------|------------|
| Coverage tool missing | No test framework | Configure testing first |
| Tests fail to run | Code errors | Fix errors before verify |
| Sub-command fails | tdd-coverage-analysis error | Check sub-command logs |
## Integration & Usage
### Command Chain
- **Called After**: `/workflow:execute` (when TDD tasks completed)
- **Calls**: `/workflow:tools:tdd-coverage-analysis`
- **Related**: `/workflow:tdd-plan`, `/workflow:status`
### Basic Usage
```bash
# Auto-detect active session
/workflow:tdd-verify
# Specify session
/workflow:tdd-verify --session WFS-auth
```
### When to Use
- After completing all TDD tasks in a workflow
- Before merging TDD workflow branch
- For TDD process quality assessment
- To identify missing TDD steps
## TDD Compliance Report Structure
```markdown
# TDD Compliance Report - {Session ID}
**Generated**: {timestamp}
**Session**: WFS-{sessionId}
**Workflow Type**: TDD
---
## Executive Summary
### Quality Gate Decision
| Metric | Value | Status |
|--------|-------|--------|
| Compliance Score | {score}/100 | {status_emoji} |
| Chain Completeness | {percentage}% | {status} |
| Line Coverage | {percentage}% | {status} |
| Branch Coverage | {percentage}% | {status} |
| Function Coverage | {percentage}% | {status} |
### Recommendation
**{RECOMMENDATION}**
**Decision Rationale**:
{brief explanation based on score and violations}
**Quality Gate Criteria**:
- **APPROVED**: Score ≥90, no critical violations
- **PROCEED_WITH_CAVEATS**: Score ≥70, no critical violations
- **REQUIRE_FIXES**: Score ≥50 or critical violations exist
- **BLOCK_MERGE**: Score <50
---
## Chain Analysis
### Feature 1: {Feature Name}
**Status**: ✅ Complete
**Chain**: TEST-1.1 → IMPL-1.1 → REFACTOR-1.1
| Phase | Task | Status | Details |
|-------|------|--------|---------|
| Red | TEST-1.1 | ✅ Pass | Test created and failed with clear message |
| Green | IMPL-1.1 | ✅ Pass | Minimal implementation made test pass |
| Refactor | REFACTOR-1.1 | ✅ Pass | Code improved, tests remained green |
### Feature 2: {Feature Name}
**Status**: ⚠️ Incomplete
**Chain**: TEST-2.1 → IMPL-2.1 (Missing REFACTOR-2.1)
| Phase | Task | Status | Details |
|-------|------|--------|---------|
| Red | TEST-2.1 | ✅ Pass | Test created and failed |
| Green | IMPL-2.1 | ⚠️ Warning | Implementation seems over-engineered |
| Refactor | REFACTOR-2.1 | ❌ Missing | Task not completed |
**Issues**:
- REFACTOR-2.1 task not completed (-10 points)
- IMPL-2.1 implementation exceeded minimal scope (-10 points)
### Chain Validation Summary
| Metric | Value |
|--------|-------|
| Total Features | {count} |
| Complete Chains | {count} ({percent}%) |
| Incomplete Chains | {count} |
| Missing TEST | {count} |
| Missing IMPL | {count} |
| Missing REFACTOR | {count} |
| Dependency Errors | {count} |
| Meta Field Errors | {count} |
---
## Test Coverage Analysis
### Coverage Metrics
| Metric | Coverage | Target | Status |
|--------|----------|--------|--------|
| Line Coverage | {percentage}% | ≥80% | {status} |
| Branch Coverage | {percentage}% | ≥70% | {status} |
| Function Coverage | {percentage}% | ≥80% | {status} |
### Coverage Gaps
| File | Lines | Issue | Priority |
|------|-------|-------|----------|
| src/auth/service.ts | 45-52 | Uncovered error handling | HIGH |
| src/utils/parser.ts | 78-85 | Uncovered edge case | MEDIUM |
---
## TDD Cycle Validation
### Red Phase (Write Failing Test)
- {N}/{total} features had failing tests initially ({percent}%)
- ✅ Compliant features: {list}
- ❌ Non-compliant features: {list}
**Violations**:
- Feature 3: No evidence of initial test failure (-10 points)
### Green Phase (Make Test Pass)
- {N}/{total} implementations made tests pass ({percent}%)
- ✅ Compliant features: {list}
- ❌ Non-compliant features: {list}
**Violations**:
- Feature 2: Implementation over-engineered (-10 points)
### Refactor Phase (Improve Quality)
- {N}/{total} features completed refactoring ({percent}%)
- ✅ Compliant features: {list}
- ❌ Non-compliant features: {list}
**Violations**:
- Feature 2, 4: Refactoring step skipped (-20 points total)
---
## Best Practices Assessment
### Strengths
- Clear test descriptions
- Good test coverage
- Consistent naming conventions
- Well-structured code
### Areas for Improvement
- Some implementations over-engineered in Green phase
- Missing refactoring steps
- Test failure messages could be more descriptive
---
## Detailed Findings by Severity
### Critical Issues ({count})
{List of critical issues with impact and remediation}
### High Priority Issues ({count})
{List of high priority issues with impact and remediation}
### Medium Priority Issues ({count})
{List of medium priority issues with impact and remediation}
### Low Priority Issues ({count})
{List of low priority issues with impact and remediation}
---
## Recommendations
### Required Fixes (Before Merge)
1. Complete missing REFACTOR tasks (Features 2, 4)
2. Verify initial test failures for Feature 3
3. Fix tests that broke during refactoring
### Recommended Improvements
1. Simplify over-engineered implementations
2. Add edge case tests for Features 1, 3
3. Improve test failure message clarity
4. Increase branch coverage to >85%
### Optional Enhancements
1. Add more descriptive test names
2. Consider parameterized tests for similar scenarios
3. Document TDD process learnings
---
## Metrics Summary
| Metric | Value |
|--------|-------|
| Total Features | {count} |
| Complete Chains | {count} ({percent}%) |
| Compliance Score | {score}/100 |
| Critical Issues | {count} |
| High Issues | {count} |
| Medium Issues | {count} |
| Low Issues | {count} |
| Line Coverage | {percent}% |
| Branch Coverage | {percent}% |
| Function Coverage | {percent}% |
---
**Report End**
```

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---
name: test-cycle-execute
description: Execute test-fix workflow with dynamic task generation and iterative fix cycles until test pass rate >= 95% or max iterations reached. Uses @cli-planning-agent for failure analysis and task generation.
argument-hint: "[--resume-session=\"session-id\"] [--max-iterations=N]"
allowed-tools: Skill(*), TodoWrite(*), Read(*), Bash(*), Task(*)
---
# Workflow Test-Cycle-Execute Command
## Quick Start
```bash
# Execute test-fix workflow (auto-discovers active session)
/workflow:test-cycle-execute
# Resume interrupted session
/workflow:test-cycle-execute --resume-session="WFS-test-user-auth"
# Custom iteration limit (default: 10)
/workflow:test-cycle-execute --max-iterations=15
```
**Quality Gate**: Test pass rate >= 95% (criticality-aware) or 100%
**Max Iterations**: 10 (default, adjustable)
**CLI Tools**: Gemini → Qwen → Codex (fallback chain)
## What & Why
### Core Concept
Dynamic test-fix orchestrator with **adaptive task generation** based on runtime analysis.
**vs Standard Execute**:
- **Standard**: Pre-defined tasks → Execute sequentially → Done
- **Test-Cycle**: Initial tasks → **Test → Analyze failures → Generate fix tasks → Fix → Re-test** → Repeat until pass
### Value Proposition
1. **Automatic Problem Solving**: No manual intervention needed until 95% pass rate
2. **Intelligent Adaptation**: Strategy adjusts based on progress (conservative → aggressive → surgical)
3. **Fast Feedback**: Progressive testing runs only affected tests (70-90% faster)
### Orchestrator Boundary (CRITICAL)
- **ONLY command** handling test failures - always delegate here
- Manages: iteration loop, strategy selection, pass rate validation
- Delegates: CLI analysis to @cli-planning-agent, execution to @test-fix-agent
## How It Works
### Execution Flow
```
1. Discovery
└─ Load session, tasks, iteration state
2. Main Loop (for each task):
├─ Execute → Test → Calculate pass_rate
├─ Decision:
│ ├─ 100% → SUCCESS: Next task
│ ├─ 95-99% + low criticality → PARTIAL SUCCESS: Approve with note
│ └─ <95% or critical failures → Fix Loop ↓
└─ Fix Loop:
├─ Detect: stuck tests, regression, progress trend
├─ Select strategy: conservative/aggressive/surgical
├─ Generate fix task via @cli-planning-agent (IMPL-fix-N.json)
├─ Execute fix via @test-fix-agent
└─ Re-test → Back to step 2
3. Completion
└─ Final validation → Generate summary → Auto-complete session
```
### Agent Roles
| Agent | Responsibility |
|-------|---------------|
| **Orchestrator** | Loop control, strategy selection, pass rate calculation, threshold decisions |
| **@cli-planning-agent** | CLI analysis (Gemini/Qwen/Codex), root cause extraction, task generation, affected test detection |
| **@test-fix-agent** | Test execution, code fixes, criticality assignment, result reporting |
## Enhanced Features
### 1. Intelligent Strategy Engine
**Auto-selects optimal strategy based on iteration context:**
| Strategy | Trigger | Behavior |
|----------|---------|----------|
| **Conservative** | Iteration 1-2 (default) | Single targeted fix, full validation |
| **Aggressive** | Pass rate >80% + similar failures | Batch fix related issues |
| **Surgical** | Regression detected (pass rate drops >10%) | Minimal changes, rollback focus |
**Selection Logic** (in orchestrator):
```javascript
if (iteration <= 2) return "conservative";
if (passRate > 80 && failurePattern.similarity > 0.7) return "aggressive";
if (regressionDetected) return "surgical";
return "conservative";
```
**Integration**: Strategy passed to @cli-planning-agent in prompt for tailored analysis.
### 2. Progressive Testing
**Runs affected tests during iterations, full suite only for final validation.**
**How It Works**:
1. @cli-planning-agent analyzes fix_strategy.modification_points
2. Maps modified files to test files (via imports + integration patterns)
3. Returns `affected_tests[]` in task JSON
4. @test-fix-agent runs: `npm test -- ${affected_tests.join(' ')}`
5. Final validation: `npm test` (full suite)
**Benefits**: 70-90% iteration speed improvement, instant feedback on fix effectiveness.
## Core Responsibilities
### Orchestrator
- Session discovery, task queue management
- Pass rate calculation: `(passed / total) * 100` from test-results.json
- Criticality assessment (high/medium/low)
- Strategy selection based on context
- **Runtime Calculations** (from iteration-state.json):
- Current iteration: `iterations.length + 1`
- Stuck tests: Tests appearing in `failed_tests` for 3+ consecutive iterations
- Regression: Compare consecutive `pass_rate` values (>10% drop)
- Max iterations: Read from `task.meta.max_iterations`
- Iteration control (max 10, default)
- CLI tool fallback chain: Gemini → Qwen → Codex
- TodoWrite progress tracking
- Session auto-complete (pass rate >= 95%)
### @cli-planning-agent
- Execute CLI analysis with bug diagnosis template
- Parse output for root causes and fix strategy
- Generate IMPL-fix-N.json task definition
- Detect affected tests for progressive testing
- Save: analysis.md, cli-output.txt
### @test-fix-agent
- Execute tests, save results to test-results.json
- Apply fixes from task.context.fix_strategy
- Assign criticality to failures
- Update task status
## Reference
### CLI Tool Configuration
**Fallback Chain**: Gemini → Qwen → Codex
**Template**: `~/.ccw/workflows/cli-templates/prompts/analysis/01-diagnose-bug-root-cause.txt`
**Timeout**: 40min (2400000ms)
**Tool Details**:
1. **Gemini** (primary): `gemini-2.5-pro`
2. **Qwen** (fallback): `coder-model`
3. **Codex** (fallback): `gpt-5.1-codex`
**When to Fallback**: HTTP 429, timeout, analysis quality degraded
### Session File Structure
```
.workflow/active/WFS-test-{session}/
├── workflow-session.json # Session metadata
├── IMPL_PLAN.md, TODO_LIST.md
├── .task/
│ ├── IMPL-{001,002}.json # Initial tasks
│ └── IMPL-fix-{N}.json # Generated fix tasks
├── .process/
│ ├── iteration-state.json # Current iteration + strategy + stuck tests
│ ├── test-results.json # Latest results (pass_rate, criticality)
│ ├── test-output.log # Full test output
│ ├── fix-history.json # All fix attempts
│ ├── iteration-{N}-analysis.md # CLI analysis report
│ └── iteration-{N}-cli-output.txt
└── .summaries/iteration-summaries/
```
### Iteration State JSON
**Purpose**: Persisted state machine for iteration loop - enables Resume and historical analysis.
```json
{
"current_task": "IMPL-002",
"selected_strategy": "aggressive",
"next_action": "execute_fix_task",
"iterations": [
{
"iteration": 1,
"pass_rate": 70,
"strategy": "conservative",
"failed_tests": ["test_auth_flow", "test_user_permissions"]
},
{
"iteration": 2,
"pass_rate": 82,
"strategy": "conservative",
"failed_tests": ["test_user_permissions", "test_token_expiry"]
},
{
"iteration": 3,
"pass_rate": 89,
"strategy": "aggressive",
"failed_tests": ["test_auth_edge_case"]
}
]
}
```
**Field Descriptions**:
- `current_task`: Pointer to active task (essential for Resume)
- `selected_strategy`: Current iteration strategy (runtime state)
- `next_action`: State machine next step (`execute_fix_task` | `retest` | `complete`)
- `iterations[]`: Historical log of all iterations (source of truth for trends)
### Agent Invocation Template
**@cli-planning-agent** (failure analysis):
```javascript
Task(
subagent_type="cli-planning-agent",
run_in_background=false,
description=`Analyze test failures (iteration ${N}) - ${strategy} strategy`,
prompt=`
## Task Objective
Analyze test failures and generate fix task JSON for iteration ${N}
## Strategy
${selectedStrategy} - ${strategyDescription}
## MANDATORY FIRST STEPS
1. Read test results: ${session.test_results_path}
2. Read test output: ${session.test_output_path}
3. Read iteration state: ${session.iteration_state_path}
## Context Metadata (Orchestrator-Calculated)
- Session ID: ${sessionId} (from file path)
- Current Iteration: ${N} (= iterations.length + 1)
- Max Iterations: ${maxIterations} (from task.meta.max_iterations)
- Current Pass Rate: ${passRate}%
- Selected Strategy: ${selectedStrategy} (from iteration-state.json)
- Stuck Tests: ${stuckTests} (calculated from iterations[].failed_tests history)
## CLI Configuration
- Tool Priority: gemini & codex
- Template: 01-diagnose-bug-root-cause.txt
- Timeout: 2400000ms
## Expected Deliverables
1. Task JSON: ${session.task_dir}/IMPL-fix-${N}.json
- Must include: fix_strategy.test_execution.affected_tests[]
- Must include: fix_strategy.confidence_score
2. Analysis report: ${session.process_dir}/iteration-${N}-analysis.md
3. CLI output: ${session.process_dir}/iteration-${N}-cli-output.txt
## Strategy-Specific Requirements
- Conservative: Single targeted fix, high confidence required
- Aggressive: Batch fix similar failures, pattern-based approach
- Surgical: Minimal changes, focus on rollback safety
## Success Criteria
- Concrete fix strategy with modification points (file:function:lines)
- Affected tests list for progressive testing
- Root cause analysis (not just symptoms)
`
)
```
**@test-fix-agent** (execution):
```javascript
Task(
subagent_type="test-fix-agent",
run_in_background=false,
description=`Execute ${task.meta.type}: ${task.title}`,
prompt=`
## Task Objective
${taskTypeObjective[task.meta.type]}
## MANDATORY FIRST STEPS
1. Read task JSON: ${session.task_json_path}
2. Read iteration state: ${session.iteration_state_path}
3. ${taskTypeSpecificReads[task.meta.type]}
## CRITICAL: Syntax Check Priority
**Before any code modification or test execution:**
- Run project syntax checker (TypeScript: tsc --noEmit, ESLint, etc.)
- Verify zero syntax errors before proceeding
- If syntax errors found: Fix immediately before other work
- Syntax validation is MANDATORY gate - no exceptions
## Session Paths
- Workflow Dir: ${session.workflow_dir}
- Task JSON: ${session.task_json_path}
- Test Results Output: ${session.test_results_path}
- Test Output Log: ${session.test_output_path}
- Iteration State: ${session.iteration_state_path}
## Task Type: ${task.meta.type}
${taskTypeGuidance[task.meta.type]}
## Expected Deliverables
${taskTypeDeliverables[task.meta.type]}
## Success Criteria
- ${taskTypeSuccessCriteria[task.meta.type]}
- Update task status in task JSON
- Save all outputs to specified paths
- Report completion to orchestrator
`
)
// Task Type Configurations
const taskTypeObjective = {
"test-gen": "Generate comprehensive tests based on requirements",
"test-fix": "Execute test suite and report results with criticality assessment",
"test-fix-iteration": "Apply fixes from strategy and validate with tests"
};
const taskTypeSpecificReads = {
"test-gen": "Read test context: ${session.test_context_path}",
"test-fix": "Read previous results (if exists): ${session.test_results_path}",
"test-fix-iteration": "Read fix strategy: ${session.analysis_path}, fix history: ${session.fix_history_path}"
};
const taskTypeGuidance = {
"test-gen": `
- Review task.context.requirements for test scenarios
- Analyze codebase to understand implementation
- Generate tests covering: happy paths, edge cases, error handling
- Follow existing test patterns and framework conventions
`,
"test-fix": `
- Run test command from task.context or project config
- Capture: pass/fail counts, error messages, stack traces
- Assess criticality for each failure:
* high: core functionality broken, security issues
* medium: feature degradation, data integrity issues
* low: edge cases, flaky tests, env-specific issues
- Save structured results to test-results.json
`,
"test-fix-iteration": `
- Load fix_strategy from task.context.fix_strategy
- Identify modification_points: ${task.context.fix_strategy.modification_points}
- Apply surgical fixes (minimal changes)
- Test execution mode: ${task.context.fix_strategy.test_execution.mode}
* affected_only: Run ${task.context.fix_strategy.test_execution.affected_tests}
* full_suite: Run complete test suite
- If failures persist: Document in test-results.json, DO NOT analyze (orchestrator handles)
`
};
const taskTypeDeliverables = {
"test-gen": "- Test files in target directories\n - Test coverage report\n - Summary in .summaries/",
"test-fix": "- test-results.json (pass_rate, criticality, failures)\n - test-output.log (full test output)\n - Summary in .summaries/",
"test-fix-iteration": "- Modified source files\n - test-results.json (updated pass_rate)\n - test-output.log\n - Summary in .summaries/"
};
const taskTypeSuccessCriteria = {
"test-gen": "All test files created, executable without errors, coverage documented",
"test-fix": "Test results saved with accurate pass_rate and criticality, all failures documented",
"test-fix-iteration": "Fixes applied per strategy, tests executed, results reported (pass/fail to orchestrator)"
};
```
### Completion Conditions
**Full Success**:
- All tasks completed
- Pass rate === 100%
- Action: Auto-complete session
**Partial Success**:
- All tasks completed
- Pass rate >= 95% and < 100%
- All failures are "low" criticality
- Action: Auto-approve with review note
**Failure**:
- Max iterations (10) reached without 95% pass rate
- Pass rate < 95% after max iterations
- Action: Generate failure report, mark blocked, return to user
### Error Handling
| Scenario | Action |
|----------|--------|
| Test execution error | Log, retry with error context |
| CLI analysis failure | Fallback: Gemini → Qwen → Codex → manual |
| Agent execution error | Save state, retry with simplified context |
| Max iterations reached | Generate failure report, mark blocked |
| Regression detected | Rollback last fix, switch to surgical strategy |
| Stuck tests detected | Continue with alternative strategy, document in failure report |
**CLI Fallback Triggers** (Gemini → Qwen → Codex → manual):
Fallback is triggered when any of these conditions occur:
1. **Invalid Output**:
- CLI tool fails to generate valid `IMPL-fix-N.json` (JSON parse error)
- Missing required fields: `fix_strategy.modification_points` or `fix_strategy.affected_tests`
2. **Low Confidence**:
- `fix_strategy.confidence_score < 0.4` (indicates uncertain analysis)
3. **Technical Failures**:
- HTTP 429 (rate limit) or 5xx errors
- Timeout (exceeds 2400000ms / 40min)
- Connection errors
4. **Quality Degradation**:
- Analysis report < 100 words (too brief, likely incomplete)
- No concrete modification points provided (only general suggestions)
- Same root cause identified 3+ consecutive times (stuck analysis)
**Fallback Sequence**:
- Try primary tool (Gemini)
- If trigger detected → Try fallback (Qwen)
- If trigger detected again → Try final fallback (Codex)
- If all fail → Mark as degraded, use basic pattern matching from fix-history.json, notify user
### TodoWrite Structure
```javascript
TodoWrite({
todos: [
{
content: "Execute IMPL-001: Generate tests [code-developer]",
status: "completed",
activeForm: "Executing test generation"
},
{
content: "Execute IMPL-002: Test & Fix Cycle [ITERATION]",
status: "in_progress",
activeForm: "Running test-fix iteration cycle"
},
{
content: " → Iteration 1: Initial test (pass: 70%, conservative)",
status: "completed",
activeForm: "Running initial tests"
},
{
content: " → Iteration 2: Fix validation (pass: 82%, conservative)",
status: "completed",
activeForm: "Fixing validation issues"
},
{
content: " → Iteration 3: Batch fix auth (pass: 89%, aggressive)",
status: "in_progress",
activeForm: "Fixing authentication issues"
}
]
});
```
**Update Rules**:
- Add iteration item with: strategy, pass rate
- Mark completed after each iteration
- Update parent task when all complete
## Commit Strategy
**Automatic Commits** (orchestrator-managed):
The orchestrator automatically creates git commits at key checkpoints to enable safe rollback:
1. **After Successful Iteration** (pass rate increased):
```bash
git add .
git commit -m "test-cycle: iteration ${N} - ${strategy} strategy (pass: ${oldRate}% → ${newRate}%)"
```
2. **Before Rollback** (regression detected):
```bash
# Current state preserved, then:
git revert HEAD
git commit -m "test-cycle: rollback iteration ${N} - regression detected (pass: ${newRate}% < ${oldRate}%)"
```
**Commit Content**:
- Modified source files from fix application
- Updated test-results.json, iteration-state.json
- Excludes: temporary files, logs
**Benefits**:
- **Rollback Safety**: Each iteration is a revert point
- **Progress Tracking**: Git history shows iteration evolution
- **Audit Trail**: Clear record of which strategy/iteration caused issues
- **Resume Capability**: Can resume from any checkpoint
**Note**: Final session completion creates additional commit with full summary.
## Post-Completion Expansion
完成后询问用户是否扩展为issue(test/enhance/refactor/doc),选中项调用 `/issue:new "{summary} - {dimension}"`
## Best Practices
1. **Default Settings Work**: 10 iterations sufficient for most cases
2. **Automatic Commits**: Orchestrator commits after each successful iteration - no manual intervention needed
3. **Trust Strategy Engine**: Auto-selection based on proven heuristics
4. **Monitor Logs**: Check `.process/iteration-N-analysis.md` for CLI analysis insights
5. **Progressive Testing**: Saves 70-90% iteration time automatically

477
.claude/commands/workflow/test-fix-gen.md
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@@ -1,477 +0,0 @@
---
name: test-fix-gen
description: Create test-fix workflow session with progressive test layers (L0-L3), AI code validation, and test task generation
argument-hint: "(source-session-id | \"feature description\" | /path/to/file.md)"
allowed-tools: Skill(*), TodoWrite(*), Read(*), Bash(*)
group: workflow
---
# Workflow Test-Fix Generation Command (/workflow:test-fix-gen)
## Coordinator Role
**This command is a pure orchestrator**: Execute 5 slash commands in sequence, parse their outputs, pass context between them, and ensure complete execution through **automatic continuation**.
**Execution Model - Auto-Continue Workflow**:
This workflow runs **fully autonomously** once triggered. Phase 3 (test analysis) and Phase 4 (task generation) are delegated to specialized agents.
1. **User triggers**: `/workflow:test-fix-gen "task"` or `/workflow:test-fix-gen WFS-source-session`
2. **Phase 1 executes** → Test session created → Auto-continues
3. **Phase 2 executes** → Context gathering → Auto-continues
4. **Phase 3 executes** → Test generation analysis (Gemini) → Auto-continues
5. **Phase 4 executes** → Task generation (test-task-generate) → Reports final summary
**Task Attachment Model**:
- Skill execute **expands workflow** by attaching sub-tasks to current TodoWrite
- When a sub-command is executed, its internal tasks are attached to the orchestrator's TodoWrite
- Orchestrator **executes these attached tasks** sequentially
- After completion, attached tasks are **collapsed** back to high-level phase summary
- This is **task expansion**, not external delegation
**Auto-Continue Mechanism**:
- TodoList tracks current phase status and dynamically manages task attachment/collapse
- When each phase finishes executing, automatically execute next pending phase
- All phases run autonomously without user interaction
- **⚠️ CONTINUOUS EXECUTION** - Do not stop until all phases complete
## Core Rules
1. **Start Immediately**: First action is TodoWrite initialization, second action is Phase 1 command execution
2. **No Preliminary Analysis**: Do not read files, analyze structure, or gather context before Phase 1
3. **Parse Every Output**: Extract required data from each command output for next phase
4. **Auto-Continue via TodoList**: Check TodoList status to execute next pending phase automatically
5. **Track Progress**: Update TodoWrite dynamically with task attachment/collapse pattern
6. **Task Attachment Model**: Skill execute **attaches** sub-tasks to current workflow. Orchestrator **executes** these attached tasks itself, then **collapses** them after completion
7. **⚠️ CRITICAL: DO NOT STOP**: Continuous multi-phase workflow. After executing all attached tasks, immediately collapse them and execute next phase
---
## Test Strategy Overview
This workflow generates tests using **Progressive Test Layers (L0-L3)**:
| Layer | Name | Focus |
|-------|------|-------|
| **L0** | Static Analysis | Compilation, imports, types, AI code issues |
| **L1** | Unit Tests | Function/class behavior (happy/negative/edge cases) |
| **L2** | Integration Tests | Component interactions, API contracts, failure modes |
| **L3** | E2E Tests | User journeys, critical paths (optional) |
**Key Features**:
- **AI Code Issue Detection** - Validates against common AI-generated code problems (hallucinated imports, placeholder code, mock leakage, etc.)
- **Project Type Detection** - Applies appropriate test templates (React, Node API, CLI, Library, etc.)
- **Quality Gates** - IMPL-001.3 (code validation) and IMPL-001.5 (test quality) ensure high standards
**Detailed specifications**: See `/workflow:tools:test-task-generate` for complete L0-L3 requirements and quality thresholds.
---
## Execution Process
```
Input Parsing:
├─ Detect input type: Session ID (WFS-*) | Description | File path
└─ Set MODE: session | prompt
Phase 1: Create Test Session
└─ /workflow:session:start --type test --new "structured-description"
└─ Output: testSessionId (WFS-test-xxx)
Phase 2: Gather Test Context
├─ MODE=session → /workflow:tools:test-context-gather --session testSessionId
└─ MODE=prompt → /workflow:tools:context-gather --session testSessionId "description"
└─ Output: contextPath (context-package.json)
Phase 3: Test Generation Analysis
└─ /workflow:tools:test-concept-enhanced --session testSessionId --context contextPath
└─ Output: TEST_ANALYSIS_RESULTS.md (L0-L3 requirements)
Phase 4: Generate Test Tasks
└─ /workflow:tools:test-task-generate --session testSessionId
└─ Output: IMPL_PLAN.md, IMPL-*.json (4+ tasks), TODO_LIST.md
Phase 5: Return Summary
└─ Summary with next steps → /workflow:test-cycle-execute
```
---
## 5-Phase Execution
### Phase 1: Create Test Session
**Step 1.0: Detect Input Mode**
```
// Automatic mode detection based on input pattern
if (input.startsWith("WFS-")) {
MODE = "session"
// Load source session to preserve original task description
Read(".workflow/active/[sourceSessionId]/workflow-session.json")
} else {
MODE = "prompt"
}
```
**Step 1.1: Execute** - Create test workflow session
```
// Session Mode - preserve original task description
Skill(skill="workflow:session:start", args="--type test --new \"Test validation for [sourceSessionId]: [originalTaskDescription]\"")
// Prompt Mode - use user's description directly
Skill(skill="workflow:session:start", args="--type test --new \"Test generation for: [description]\"")
```
**Parse Output**:
- Extract: `SESSION_ID: WFS-test-[slug]` (store as `testSessionId`)
**Validation**:
- Session Mode: Source session `.workflow/active/[sourceSessionId]/` exists with completed IMPL tasks
- Both Modes: New test session directory created with metadata
**TodoWrite**: Mark phase 1 completed, phase 2 in_progress
---
### Phase 2: Gather Test Context
**Step 2.1: Execute** - Gather context based on mode
```
// Session Mode - gather from source session
Skill(skill="workflow:tools:test-context-gather", args="--session [testSessionId]")
// Prompt Mode - gather from codebase
Skill(skill="workflow:tools:context-gather", args="--session [testSessionId] \"[task_description]\"")
```
**Input**: `testSessionId` from Phase 1
**Parse Output**:
- Extract: context package path (store as `contextPath`)
- Pattern: `.workflow/active/[testSessionId]/.process/[test-]context-package.json`
**Validation**:
- Context package file exists and is valid JSON
- Contains coverage analysis (session mode) or codebase analysis (prompt mode)
- Test framework detected
**TodoWrite Update (tasks attached)**:
```json
[
{"content": "Phase 1: Create Test Session", "status": "completed"},
{"content": "Phase 2: Gather Test Context", "status": "in_progress"},
{"content": " → Load source/codebase context", "status": "in_progress"},
{"content": " → Analyze test coverage", "status": "pending"},
{"content": " → Generate context package", "status": "pending"},
{"content": "Phase 3: Test Generation Analysis", "status": "pending"},
{"content": "Phase 4: Generate Test Tasks", "status": "pending"},
{"content": "Phase 5: Return Summary", "status": "pending"}
]
```
**TodoWrite Update (tasks collapsed)**:
```json
[
{"content": "Phase 1: Create Test Session", "status": "completed"},
{"content": "Phase 2: Gather Test Context", "status": "completed"},
{"content": "Phase 3: Test Generation Analysis", "status": "pending"},
{"content": "Phase 4: Generate Test Tasks", "status": "pending"},
{"content": "Phase 5: Return Summary", "status": "pending"}
]
```
---
### Phase 3: Test Generation Analysis
**Step 3.1: Execute** - Analyze test requirements with Gemini
```
Skill(skill="workflow:tools:test-concept-enhanced", args="--session [testSessionId] --context [contextPath]")
```
**Input**:
- `testSessionId` from Phase 1
- `contextPath` from Phase 2
**Expected Behavior**:
- Use Gemini to analyze coverage gaps
- Detect project type and apply appropriate test templates
- Generate **multi-layered test requirements** (L0-L3)
- Scan for AI code issues
- Generate `TEST_ANALYSIS_RESULTS.md`
**Output**: `.workflow/[testSessionId]/.process/TEST_ANALYSIS_RESULTS.md`
**Validation** - TEST_ANALYSIS_RESULTS.md must include:
- Project Type Detection (with confidence)
- Coverage Assessment (current vs target)
- Test Framework & Conventions
- Multi-Layered Test Plan (L0-L3)
- AI Issue Scan Results
- Test Requirements by File (with layer annotations)
- Quality Assurance Criteria
- Success Criteria
**Note**: Detailed specifications for project types, L0-L3 layers, and AI issue detection are defined in `/workflow:tools:test-concept-enhanced`.
---
### Phase 4: Generate Test Tasks
**Step 4.1: Execute** - Generate test planning documents
```
Skill(skill="workflow:tools:test-task-generate", args="--session [testSessionId]")
```
**Input**: `testSessionId` from Phase 1
**Note**: test-task-generate invokes action-planning-agent to generate test-specific IMPL_PLAN.md and task JSONs based on TEST_ANALYSIS_RESULTS.md.
**Expected Output** (minimum 4 tasks):
| Task | Type | Agent | Purpose |
|------|------|-------|---------|
| IMPL-001 | test-gen | @code-developer | Test understanding & generation (L1-L3) |
| IMPL-001.3 | code-validation | @test-fix-agent | Code validation gate (L0 + AI issues) |
| IMPL-001.5 | test-quality-review | @test-fix-agent | Test quality gate |
| IMPL-002 | test-fix | @test-fix-agent | Test execution & fix cycle |
**Validation**:
- `.workflow/active/[testSessionId]/.task/IMPL-001.json` exists
- `.workflow/active/[testSessionId]/.task/IMPL-001.3-validation.json` exists
- `.workflow/active/[testSessionId]/.task/IMPL-001.5-review.json` exists
- `.workflow/active/[testSessionId]/.task/IMPL-002.json` exists
- `.workflow/active/[testSessionId]/IMPL_PLAN.md` exists
- `.workflow/active/[testSessionId]/TODO_LIST.md` exists
**TodoWrite Update (agent task attached)**:
```json
[
{"content": "Phase 1: Create Test Session", "status": "completed"},
{"content": "Phase 2: Gather Test Context", "status": "completed"},
{"content": "Phase 3: Test Generation Analysis", "status": "completed"},
{"content": "Phase 4: Generate Test Tasks", "status": "in_progress"},
{"content": "Phase 5: Return Summary", "status": "pending"}
]
```
---
### Phase 5: Return Summary
**Return to User**:
```
Test-fix workflow created successfully!
Input: [original input]
Mode: [Session|Prompt]
Test Session: [testSessionId]
Tasks Created:
- IMPL-001: Test Understanding & Generation (@code-developer)
- IMPL-001.3: Code Validation Gate - AI Error Detection (@test-fix-agent)
- IMPL-001.5: Test Quality Gate - Static Analysis & Coverage (@test-fix-agent)
- IMPL-002: Test Execution & Fix Cycle (@test-fix-agent)
Quality Thresholds:
- Code Validation: Zero CRITICAL issues, zero compilation errors
- Minimum Coverage: 80% line, 70% branch
- Static Analysis: Zero critical anti-patterns
- Max Fix Iterations: 5
Review artifacts:
- Test plan: .workflow/[testSessionId]/IMPL_PLAN.md
- Task list: .workflow/[testSessionId]/TODO_LIST.md
- Analysis: .workflow/[testSessionId]/.process/TEST_ANALYSIS_RESULTS.md
CRITICAL - Next Step:
/workflow:test-cycle-execute --session [testSessionId]
```
---
## Data Flow
```
User Input (session ID | description | file path)
[Detect Mode: session | prompt]
Phase 1: session:start --type test --new "description"
↓ Output: testSessionId
Phase 2: test-context-gather | context-gather
↓ Input: testSessionId
↓ Output: contextPath (context-package.json)
Phase 3: test-concept-enhanced
↓ Input: testSessionId + contextPath
↓ Output: TEST_ANALYSIS_RESULTS.md (L0-L3 requirements + AI issues)
Phase 4: test-task-generate
↓ Input: testSessionId + TEST_ANALYSIS_RESULTS.md
↓ Output: IMPL_PLAN.md, IMPL-*.json (4+), TODO_LIST.md
Phase 5: Return summary to user
Next: /workflow:test-cycle-execute
```
---
## Execution Flow Diagram
```
User triggers: /workflow:test-fix-gen "Test user authentication"
[Input Detection] → MODE: prompt
[TodoWrite Init] 5 orchestrator-level tasks
Phase 1: Create Test Session
→ /workflow:session:start --type test
→ testSessionId extracted (WFS-test-user-auth)
Phase 2: Gather Test Context (Skill executed)
→ ATTACH 3 sub-tasks: ← ATTACHED
- → Load codebase context
- → Analyze test coverage
- → Generate context package
→ Execute sub-tasks sequentially
→ COLLAPSE tasks ← COLLAPSED
→ contextPath extracted
Phase 3: Test Generation Analysis (Skill executed)
→ ATTACH 3 sub-tasks: ← ATTACHED
- → Analyze coverage gaps with Gemini
- → Detect AI code issues (L0.5)
- → Generate L0-L3 test requirements
→ Execute sub-tasks sequentially
→ COLLAPSE tasks ← COLLAPSED
→ TEST_ANALYSIS_RESULTS.md created
Phase 4: Generate Test Tasks (Skill executed)
→ Single agent task (test-task-generate → action-planning-agent)
→ Agent autonomously generates:
- IMPL-001.json (test generation)
- IMPL-001.3-validation.json (code validation)
- IMPL-001.5-review.json (test quality)
- IMPL-002.json (test execution)
- IMPL_PLAN.md
- TODO_LIST.md
Phase 5: Return Summary
→ Display summary with next steps
→ Command ends
Task Pipeline (for execution):
┌──────────────┐ ┌─────────────────┐ ┌─────────────────┐ ┌──────────────┐
│ IMPL-001 │───→│ IMPL-001.3 │───→│ IMPL-001.5 │───→│ IMPL-002 │
│ Test Gen │ │ Code Validate │ │ Quality Gate │ │ Test & Fix │
│ L1-L3 │ │ L0 + AI Issues │ │ Coverage 80%+ │ │ Max 5 iter │
│@code-developer│ │ @test-fix-agent │ │ @test-fix-agent │ │@test-fix-agent│
└──────────────┘ └─────────────────┘ └─────────────────┘ └──────────────┘
```
---
## Output Artifacts
### Directory Structure
```
.workflow/active/WFS-test-[session]/
├── workflow-session.json # Session metadata
├── IMPL_PLAN.md # Test generation and execution strategy
├── TODO_LIST.md # Task checklist
├── .task/
│ ├── IMPL-001.json # Test understanding & generation
│ ├── IMPL-001.3-validation.json # Code validation gate
│ ├── IMPL-001.5-review.json # Test quality gate
│ ├── IMPL-002.json # Test execution & fix cycle
│ └── IMPL-*.json # Additional tasks (if applicable)
└── .process/
├── [test-]context-package.json # Context and coverage analysis
└── TEST_ANALYSIS_RESULTS.md # Test requirements and strategy (L0-L3)
```
### Session Metadata
**File**: `workflow-session.json`
| Mode | Fields |
|------|--------|
| **Session** | `type: "test"`, `source_session_id: "[sourceId]"` |
| **Prompt** | `type: "test"` (no source_session_id) |
---
## Error Handling
| Phase | Error Condition | Action |
|-------|----------------|--------|
| 1 | Source session not found (session mode) | Return error with session ID |
| 1 | No completed IMPL tasks (session mode) | Return error, source incomplete |
| 2 | Context gathering failed | Return error, check source artifacts |
| 3 | Gemini analysis failed | Return error, check context package |
| 4 | Task generation failed | Retry once, then return error |
---
## Coordinator Checklist
- Detect input type (session ID / description / file path)
- Initialize TodoWrite before any command
- Execute Phase 1 immediately with structured description
- Parse test session ID from Phase 1 output, store in memory
- Execute Phase 2 with appropriate context-gather command based on mode
- Parse context path from Phase 2 output, store in memory
- Execute Phase 3 test-concept-enhanced with session and context
- Verify TEST_ANALYSIS_RESULTS.md created with L0-L3 requirements
- Execute Phase 4 test-task-generate with session ID
- Verify all Phase 4 outputs (4 task JSONs, IMPL_PLAN.md, TODO_LIST.md)
- Return summary with next step: `/workflow:test-cycle-execute`
- Update TodoWrite after each phase
---
## Usage Examples
```bash
# Session Mode - test validation for completed implementation
/workflow:test-fix-gen WFS-user-auth-v2
# Prompt Mode - text description
/workflow:test-fix-gen "Test the user authentication API endpoints in src/auth/api.ts"
# Prompt Mode - file reference
/workflow:test-fix-gen ./docs/api-requirements.md
# With CLI tool preference (semantic detection)
/workflow:test-fix-gen "Test user registration, use Codex for automated fixes"
```
---
## Related Commands
**Prerequisite Commands**:
- `/workflow:plan` or `/workflow:execute` - Complete implementation (Session Mode)
- None for Prompt Mode
**Called by This Command** (5 phases):
- `/workflow:session:start` - Phase 1: Create test workflow session
- `/workflow:tools:test-context-gather` - Phase 2 (Session Mode): Analyze test coverage
- `/workflow:tools:context-gather` - Phase 2 (Prompt Mode): Analyze codebase
- `/workflow:tools:test-concept-enhanced` - Phase 3: Generate test requirements with Gemini
- `/workflow:tools:test-task-generate` - Phase 4: Generate test task JSONs via action-planning-agent
**Follow-up Commands**:
- `/workflow:status` - Review generated tasks
- `/workflow:test-cycle-execute` - Execute test workflow (REQUIRED next step)
- `/workflow:execute` - Alternative: Standard task execution