chore(release): v6.3.9 - Issue System Consistency

- Unified four-layer architecture (Schema/Agent/Command/Implementation) - Upgraded to Rich Plan model with lifecycle fields - Added multi-solution generation support - Consolidated schemas (deleted redundant issue-task-jsonl-schema, solutions-jsonl-schema) - Fixed field naming consistency (acceptance, lifecycle_status, priority mapping) - Added search tool fallback chain to issue-plan-agent 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
fix(plan): Update delivery criteria terminology to acceptance.criteria
2026-02-06 01:54:11 +08:00 · 2025-12-27 23:57:30 +08:00 · 2025-12-27 23:54:00 +08:00 · 2025-12-27 23:51:30 +08:00 · 2025-12-27 23:43:40 +08:00 · 2025-12-27 23:00:17 +08:00
576 changed files with 182863 additions and 17424 deletions
--- a/.claude/CLAUDE.md
+++ b/.claude/CLAUDE.md
@@ -0,0 +1,33 @@
+# Claude Instructions
+
+- **CLI Tools Usage**: @~/.claude/workflows/cli-tools-usage.md
+- **Coding Philosophy**: @~/.claude/workflows/coding-philosophy.md
+- **Context Requirements**: @~/.claude/workflows/context-tools-ace.md
+- **File Modification**: @~/.claude/workflows/file-modification.md
+- **CLI Endpoints Config**: @.claude/cli-tools.json
+
+## CLI Endpoints
+
+**Strictly follow the @.claude/cli-tools.json configuration**
+
+Available CLI endpoints are dynamically defined by the config file:
+- Built-in tools and their enable/disable status
+- Custom API endpoints registered via the Dashboard
+- Managed through the CCW Dashboard Status page
+
+## Tool Execution
+
+### Agent Calls
+- **Always use `run_in_background: false`** for Task tool agent calls: `Task({ subagent_type: "xxx", prompt: "...", run_in_background: false })` to ensure synchronous execution and immediate result visibility
+- **TaskOutput usage**: Only use `TaskOutput({ task_id: "xxx", block: false })` + sleep loop to poll completion status. NEVER read intermediate output during agent/CLI execution - wait for final result only
+
+### CLI Tool Calls (ccw cli)
+- **Always use `run_in_background: true`** for Bash tool when calling ccw cli:
+  ```
+  Bash({ command: "ccw cli -p '...' --tool gemini", run_in_background: true })
+  ```
+- **After CLI call**: If no other tasks, stop immediately - let CLI execute in background, do NOT poll with TaskOutput
+
+## Code Diagnostics
+
+- **Prefer `mcp__ide__getDiagnostics`** for code error checking over shell-based TypeScript compilation
--- a/.claude/active_memory_config.json
+++ b/.claude/active_memory_config.json
@@ -0,0 +1,4 @@
+{
+  "interval": "manual",
+  "tool": "gemini"
+}
--- a/.claude/agents/action-planning-agent.md
+++ b/.claude/agents/action-planning-agent.md
@@ -203,7 +203,13 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
  "id": "IMPL-N",
  "title": "Descriptive task name",
  "status": "pending|active|completed|blocked",
-  "context_package_path": ".workflow/active/WFS-{session}/.process/context-package.json"
+  "context_package_path": ".workflow/active/WFS-{session}/.process/context-package.json",
+  "cli_execution_id": "WFS-{session}-IMPL-N",
+  "cli_execution": {
+    "strategy": "new|resume|fork|merge_fork",
+    "resume_from": "parent-cli-id",
+    "merge_from": ["id1", "id2"]
+  }
 }
 ```

@@ -216,6 +222,50 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
 - `title`: Descriptive task name summarizing the work
 - `status`: Task state - `pending` (not started), `active` (in progress), `completed` (done), `blocked` (waiting on dependencies)
 - `context_package_path`: Path to smart context package containing project structure, dependencies, and brainstorming artifacts catalog
+- `cli_execution_id`: Unique CLI conversation ID (format: `{session_id}-{task_id}`)
+- `cli_execution`: CLI execution strategy based on task dependencies
+  - `strategy`: Execution pattern (`new`, `resume`, `fork`, `merge_fork`)
+  - `resume_from`: Parent task's cli_execution_id (for resume/fork)
+  - `merge_from`: Array of parent cli_execution_ids (for merge_fork)
+
+**CLI Execution Strategy Rules** (MANDATORY - apply to all tasks):
+
+| Dependency Pattern | Strategy | CLI Command Pattern |
+|--------------------|----------|---------------------|
+| No `depends_on` | `new` | `--id {cli_execution_id}` |
+| 1 parent, parent has 1 child | `resume` | `--resume {resume_from}` |
+| 1 parent, parent has N children | `fork` | `--resume {resume_from} --id {cli_execution_id}` |
+| N parents | `merge_fork` | `--resume {merge_from.join(',')} --id {cli_execution_id}` |
+
+**Strategy Selection Algorithm**:
+```javascript
+function computeCliStrategy(task, allTasks) {
+  const deps = task.context?.depends_on || []
+  const childCount = allTasks.filter(t =>
+    t.context?.depends_on?.includes(task.id)
+  ).length
+
+  if (deps.length === 0) {
+    return { strategy: "new" }
+  } else if (deps.length === 1) {
+    const parentTask = allTasks.find(t => t.id === deps[0])
+    const parentChildCount = allTasks.filter(t =>
+      t.context?.depends_on?.includes(deps[0])
+    ).length
+
+    if (parentChildCount === 1) {
+      return { strategy: "resume", resume_from: parentTask.cli_execution_id }
+    } else {
+      return { strategy: "fork", resume_from: parentTask.cli_execution_id }
+    }
+  } else {
+    const mergeFrom = deps.map(depId =>
+      allTasks.find(t => t.id === depId).cli_execution_id
+    )
+    return { strategy: "merge_fork", merge_from: mergeFrom }
+  }
+}
+```

 #### Meta Object

@@ -225,7 +275,13 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
    "type": "feature|bugfix|refactor|test-gen|test-fix|docs",
    "agent": "@code-developer|@action-planning-agent|@test-fix-agent|@universal-executor",
    "execution_group": "parallel-abc123|null",
-    "module": "frontend|backend|shared|null"
+    "module": "frontend|backend|shared|null",
+    "execution_config": {
+      "method": "agent|hybrid|cli",
+      "cli_tool": "codex|gemini|qwen|auto",
+      "enable_resume": true,
+      "previous_cli_id": "string|null"
+    }
  }
 }
 ```
@@ -235,6 +291,11 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
 - `agent`: Assigned agent for execution
 - `execution_group`: Parallelization group ID (tasks with same ID can run concurrently) or `null` for sequential tasks
 - `module`: Module identifier for multi-module projects (e.g., `frontend`, `backend`, `shared`) or `null` for single-module
+- `execution_config`: CLI execution settings (from userConfig in task-generate-agent)
+  - `method`: Execution method - `agent` (direct), `hybrid` (agent + CLI), `cli` (CLI only)
+  - `cli_tool`: Preferred CLI tool - `codex`, `gemini`, `qwen`, or `auto`
+  - `enable_resume`: Whether to use `--resume` for CLI continuity (default: true)
+  - `previous_cli_id`: Previous task's CLI execution ID for resume (populated at runtime)

 **Test Task Extensions** (for type="test-gen" or type="test-fix"):

@@ -409,14 +470,14 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
  // Pattern: Gemini CLI deep analysis
  {
    "step": "gemini_analyze_[aspect]",
-    "command": "bash(cd [path] && gemini -p 'PURPOSE: [goal]\\nTASK: [tasks]\\nMODE: analysis\\nCONTEXT: @[paths]\\nEXPECTED: [output]\\nRULES: $(cat [template]) | [constraints] | analysis=READ-ONLY')",
+    "command": "ccw cli -p 'PURPOSE: [goal]\\nTASK: [tasks]\\nMODE: analysis\\nCONTEXT: @[paths]\\nEXPECTED: [output]\\nRULES: $(cat [template]) | [constraints] | analysis=READ-ONLY' --tool gemini --mode analysis --cd [path]",
    "output_to": "analysis_result"
  },

  // Pattern: Qwen CLI analysis (fallback/alternative)
  {
    "step": "qwen_analyze_[aspect]",
-    "command": "bash(cd [path] && qwen -p '[similar to gemini pattern]')",
+    "command": "ccw cli -p '[similar to gemini pattern]' --tool qwen --mode analysis --cd [path]",
    "output_to": "analysis_result"
  },

@@ -457,7 +518,7 @@ The examples above demonstrate **patterns**, not fixed requirements. Agent MUST:
 4. **Command Composition Patterns**:
   - **Single command**: `bash([simple_search])`
   - **Multiple commands**: `["bash([cmd1])", "bash([cmd2])"]`
-   - **CLI analysis**: `bash(cd [path] && gemini -p '[prompt]')`
+   - **CLI analysis**: `ccw cli -p '[prompt]' --tool gemini --mode analysis --cd [path]`
   - **MCP integration**: `mcp__[tool]__[function]([params])`

 **Key Principle**: Examples show **structure patterns**, not specific implementations. Agent must create task-appropriate steps dynamically.
@@ -479,11 +540,12 @@ The `implementation_approach` supports **two execution modes** based on the pres
   - Specified command executes the step directly
   - Leverages specialized CLI tools (codex/gemini/qwen) for complex reasoning
   - **Use for**: Large-scale features, complex refactoring, or when user explicitly requests CLI tool usage
-   - **Required fields**: Same as default mode **PLUS** `command`
-   - **Command patterns**:
-     - `bash(codex -C [path] --full-auto exec '[prompt]' --skip-git-repo-check -s danger-full-access)`
-     - `bash(codex --full-auto exec '[task]' resume --last --skip-git-repo-check -s danger-full-access)` (multi-step)
-     - `bash(cd [path] && gemini -p '[prompt]' --approval-mode yolo)` (write mode)
+   - **Required fields**: Same as default mode **PLUS** `command`, `resume_from` (optional)
+   - **Command patterns** (with resume support):
+     - `ccw cli -p '[prompt]' --tool codex --mode write --cd [path]`
+     - `ccw cli -p '[prompt]' --resume ${previousCliId} --tool codex --mode write` (resume from previous)
+     - `ccw cli -p '[prompt]' --tool gemini --mode write --cd [path]` (write mode)
+   - **Resume mechanism**: When step depends on previous CLI execution, include `--resume` with previous execution ID

 **Semantic CLI Tool Selection**:

@@ -500,12 +562,12 @@ Agent determines CLI tool usage per-step based on user semantics and task nature
 **Task-Based Selection** (when no explicit user preference):
 - **Implementation/coding**: Codex preferred for autonomous development
 - **Analysis/exploration**: Gemini preferred for large context analysis
- **Documentation**: Gemini/Qwen with write mode (`--approval-mode yolo`)
+- **Documentation**: Gemini/Qwen with write mode (`--mode write`)
 - **Testing**: Depends on complexity - simple=agent, complex=Codex

 **Default Behavior**: Agent always executes the workflow. CLI commands are embedded in `implementation_approach` steps:
 - Agent orchestrates task execution
- When step has `command` field, agent executes it via Bash
+- When step has `command` field, agent executes it via CCW CLI
 - When step has no `command` field, agent implements directly
 - This maintains agent control while leveraging CLI tool power

@@ -559,11 +621,26 @@ Agent determines CLI tool usage per-step based on user semantics and task nature
    "step": 3,
    "title": "Execute implementation using CLI tool",
    "description": "Use Codex/Gemini for complex autonomous execution",
-    "command": "bash(codex -C [path] --full-auto exec '[prompt]' --skip-git-repo-check -s danger-full-access)",
+    "command": "ccw cli -p '[prompt]' --tool codex --mode write --cd [path]",
    "modification_points": ["[Same as default mode]"],
    "logic_flow": ["[Same as default mode]"],
    "depends_on": [1, 2],
-    "output": "cli_implementation"
+    "output": "cli_implementation",
+    "cli_output_id": "step3_cli_id"  // Store execution ID for resume
+  },
+
+  // === CLI MODE with Resume: Continue from previous CLI execution ===
+  {
+    "step": 4,
+    "title": "Continue implementation with context",
+    "description": "Resume from previous step with accumulated context",
+    "command": "ccw cli -p '[continuation prompt]' --resume ${step3_cli_id} --tool codex --mode write",
+    "resume_from": "step3_cli_id",  // Reference previous step's CLI ID
+    "modification_points": ["[Continue from step 3]"],
+    "logic_flow": ["[Build on previous output]"],
+    "depends_on": [3],
+    "output": "continued_implementation",
+    "cli_output_id": "step4_cli_id"
  }
 ]
 ```
@@ -759,6 +836,8 @@ Use `analysis_results.complexity` or task count to determine structure:
 - Use provided context package: Extract all information from structured context
 - Respect memory-first rule: Use provided content (already loaded from memory/file)
 - Follow 6-field schema: All task JSONs must have id, title, status, context_package_path, meta, context, flow_control
+- **Assign CLI execution IDs**: Every task MUST have `cli_execution_id` (format: `{session_id}-{task_id}`)
+- **Compute CLI execution strategy**: Based on `depends_on`, set `cli_execution.strategy` (new/resume/fork/merge_fork)
 - Map artifacts: Use artifacts_inventory to populate task.context.artifacts array
 - Add MCP integration: Include MCP tool steps in flow_control.pre_analysis when capabilities available
 - Validate task count: Maximum 12 tasks hard limit, request re-scope if exceeded
--- a/.claude/agents/cli-execution-agent.md
+++ b/.claude/agents/cli-execution-agent.md
@@ -100,7 +100,7 @@ CONTEXT: @**/*
 # Specific patterns
 CONTEXT: @CLAUDE.md @src/**/* @*.ts

-# Cross-directory (requires --include-directories)
+# Cross-directory (requires --includeDirs)
 CONTEXT: @**/* @../shared/**/* @../types/**/*
 ```

@@ -134,7 +134,7 @@ RULES: $(cat {selected_template}) | {constraints}
 ```
 analyze|plan → gemini (qwen fallback) + mode=analysis
 execute (simple|medium) → gemini (qwen fallback) + mode=write
-execute (complex) → codex + mode=auto
+execute (complex) → codex + mode=write
 discuss → multi (gemini + codex parallel)
 ```

@@ -144,43 +144,40 @@ discuss → multi (gemini + codex parallel)
 - Codex: `gpt-5` (default), `gpt5-codex` (large context)
 - **Position**: `-m` after prompt, before flags

-### Command Templates
+### Command Templates (CCW Unified CLI)

 **Gemini/Qwen (Analysis)**:
 ```bash
-cd {dir} && gemini -p "
+ccw cli -p "
 PURPOSE: {goal}
 TASK: {task}
 MODE: analysis
 CONTEXT: @**/*
 EXPECTED: {output}
 RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/pattern.txt)
-" -m gemini-2.5-pro
+" --tool gemini --mode analysis --cd {dir}

-# Qwen fallback: Replace 'gemini' with 'qwen'
+# Qwen fallback: Replace '--tool gemini' with '--tool qwen'
 ```

 **Gemini/Qwen (Write)**:
 ```bash
-cd {dir} && gemini -p "..." --approval-mode yolo
+ccw cli -p "..." --tool gemini --mode write --cd {dir}
 ```

-**Codex (Auto)**:
+**Codex (Write)**:
 ```bash
-codex -C {dir} --full-auto exec "..." --skip-git-repo-check -s danger-full-access
-
-# Resume: Add 'resume --last' after prompt
-codex --full-auto exec "..." resume --last --skip-git-repo-check -s danger-full-access
+ccw cli -p "..." --tool codex --mode write --cd {dir}
 ```

 **Cross-Directory** (Gemini/Qwen):
 ```bash
-cd src/auth && gemini -p "CONTEXT: @**/* @../shared/**/*" --include-directories ../shared
+ccw cli -p "CONTEXT: @**/* @../shared/**/*" --tool gemini --mode analysis --cd src/auth --includeDirs ../shared
 ```

 **Directory Scope**:
 - `@` only references current directory + subdirectories
- External dirs: MUST use `--include-directories` + explicit CONTEXT reference
+- External dirs: MUST use `--includeDirs` + explicit CONTEXT reference

 **Timeout**: Simple 20min | Medium 40min | Complex 60min (Codex ×1.5)

--- a/.claude/agents/cli-explore-agent.md
+++ b/.claude/agents/cli-explore-agent.md
@@ -78,14 +78,14 @@ rg "^import .* from " -n | head -30
 ### Gemini Semantic Analysis (deep-scan, dependency-map)

 ```bash
-cd {dir} && gemini -p "
+ccw cli -p "
 PURPOSE: {from prompt}
 TASK: {from prompt}
 MODE: analysis
 CONTEXT: @**/*
 EXPECTED: {from prompt}
 RULES: {from prompt, if template specified} | analysis=READ-ONLY
-"
+" --tool gemini --mode analysis --cd {dir} 
 ```

 **Fallback Chain**: Gemini → Qwen → Codex → Bash-only
--- a/.claude/agents/cli-lite-planning-agent.md
+++ b/.claude/agents/cli-lite-planning-agent.md
@@ -1,140 +1,117 @@
 ---
 name: cli-lite-planning-agent
 description: |
-  Specialized agent for executing CLI planning tools (Gemini/Qwen) to generate detailed implementation plans. Used by lite-plan workflow for Medium/High complexity tasks.
+  Generic planning agent for lite-plan and lite-fix workflows. Generates structured plan JSON based on provided schema reference.

  Core capabilities:
-  - Task decomposition (1-10 tasks with IDs: T1, T2...)
-  - Dependency analysis (depends_on references)
-  - Flow control (parallel/sequential phases)
-  - Multi-angle exploration context integration
+  - Schema-driven output (plan-json-schema or fix-plan-json-schema)
+  - Task decomposition with dependency analysis
+  - CLI execution ID assignment for fork/merge strategies
+  - Multi-angle context integration (explorations or diagnoses)
 color: cyan
 ---

-You are a specialized execution agent that bridges CLI planning tools (Gemini/Qwen) with lite-plan workflow. You execute CLI commands for task breakdown, parse structured results, and generate planObject for downstream execution.
+You are a generic planning agent that generates structured plan JSON for lite workflows. Output format is determined by the schema reference provided in the prompt. You execute CLI planning tools (Gemini/Qwen), parse results, and generate planObject conforming to the specified schema.

-## Output Schema
-
-**Reference**: `~/.claude/workflows/cli-templates/schemas/plan-json-schema.json`
-
-**planObject Structure**:
-```javascript
-{
-  summary: string,              // 2-3 sentence overview
-  approach: string,             // High-level strategy
-  tasks: [TaskObject],          // 1-10 structured tasks
-  flow_control: {               // Execution phases
-    execution_order: [{ phase, tasks, type }],
-    exit_conditions: { success, failure }
-  },
-  focus_paths: string[],        // Affected files (aggregated)
-  estimated_time: string,
-  recommended_execution: "Agent" | "Codex",
-  complexity: "Low" | "Medium" | "High",
-  _metadata: { timestamp, source, planning_mode, exploration_angles, duration_seconds }
-}
-```
-
-**TaskObject Structure**:
-```javascript
-{
-  id: string,                   // T1, T2, T3...
-  title: string,                // Action verb + target
-  file: string,                 // Target file path
-  action: string,               // Create|Update|Implement|Refactor|Add|Delete|Configure|Test|Fix
-  description: string,          // What to implement (1-2 sentences)
-  modification_points: [{       // Precise changes (optional)
-    file: string,
-    target: string,             // function:lineRange
-    change: string
-  }],
-  implementation: string[],     // 2-7 actionable steps
-  reference: {                  // Pattern guidance (optional)
-    pattern: string,
-    files: string[],
-    examples: string
-  },
-  acceptance: string[],         // 1-4 quantified criteria
-  depends_on: string[]          // Task IDs: ["T1", "T2"]
-}
-```

 ## Input Context

 ```javascript
 {
-  task_description: string,
-  explorationsContext: { [angle]: ExplorationResult } | null,
-  explorationAngles: string[],
+  // Required
+  task_description: string,           // Task or bug description
+  schema_path: string,                // Schema reference path (plan-json-schema or fix-plan-json-schema)
+  session: { id, folder, artifacts },
+
+  // Context (one of these based on workflow)
+  explorationsContext: { [angle]: ExplorationResult } | null,  // From lite-plan
+  diagnosesContext: { [angle]: DiagnosisResult } | null,       // From lite-fix
+  contextAngles: string[],            // Exploration or diagnosis angles
+
+  // Optional
  clarificationContext: { [question]: answer } | null,
-  complexity: "Low" | "Medium" | "High",
-  cli_config: { tool, template, timeout, fallback },
-  session: { id, folder, artifacts }
+  complexity: "Low" | "Medium" | "High",  // For lite-plan
+  severity: "Low" | "Medium" | "High" | "Critical",  // For lite-fix
+  cli_config: { tool, template, timeout, fallback }
 }
 ```

+## Schema-Driven Output
+
+**CRITICAL**: Read the schema reference first to determine output structure:
+- `plan-json-schema.json` → Implementation plan with `approach`, `complexity`
+- `fix-plan-json-schema.json` → Fix plan with `root_cause`, `severity`, `risk_level`
+
+```javascript
+// Step 1: Always read schema first
+const schema = Bash(`cat ${schema_path}`)
+
+// Step 2: Generate plan conforming to schema
+const planObject = generatePlanFromSchema(schema, context)
+```
+
 ## Execution Flow

 ```
-Phase 1: CLI Execution
-├─ Aggregate multi-angle exploration findings
+Phase 1: Schema & Context Loading
+├─ Read schema reference (plan-json-schema or fix-plan-json-schema)
+├─ Aggregate multi-angle context (explorations or diagnoses)
+└─ Determine output structure from schema
+
+Phase 2: CLI Execution
 ├─ Construct CLI command with planning template
 ├─ Execute Gemini (fallback: Qwen → degraded mode)
 └─ Timeout: 60 minutes

-Phase 2: Parsing & Enhancement
-├─ Parse CLI output sections (Summary, Approach, Tasks, Flow Control)
+Phase 3: Parsing & Enhancement
+├─ Parse CLI output sections
 ├─ Validate and enhance task objects
-└─ Infer missing fields from exploration context
+└─ Infer missing fields from context

-Phase 3: planObject Generation
-├─ Build planObject from parsed results
-├─ Generate flow_control from depends_on if not provided
-├─ Aggregate focus_paths from all tasks
-└─ Return to orchestrator (lite-plan)
+Phase 4: planObject Generation
+├─ Build planObject conforming to schema
+├─ Assign CLI execution IDs and strategies
+├─ Generate flow_control from depends_on
+└─ Return to orchestrator
 ```

 ## CLI Command Template

 ```bash
-cd {project_root} && {cli_tool} -p "
-PURPOSE: Generate implementation plan for {complexity} task
+ccw cli -p "
+PURPOSE: Generate plan for {task_description}
 TASK:
-• Analyze: {task_description}
-• Break down into 1-10 tasks with: id, title, file, action, description, modification_points, implementation, reference, acceptance, depends_on
-• Identify parallel vs sequential execution phases
+• Analyze task/bug description and context
+• Break down into tasks following schema structure
+• Identify dependencies and execution phases
 MODE: analysis
-CONTEXT: @**/* | Memory: {exploration_summary}
+CONTEXT: @**/* | Memory: {context_summary}
 EXPECTED:
-## Implementation Summary
+## Summary
 [overview]

-## High-Level Approach
-[strategy]
-
 ## Task Breakdown
-### T1: [Title]
-**File**: [path]
+### T1: [Title] (or FIX1 for fix-plan)
+**Scope**: [module/feature path]
 **Action**: [type]
 **Description**: [what]
 **Modification Points**: - [file]: [target] - [change]
 **Implementation**: 1. [step]
-**Reference**: - Pattern: [name] - Files: [paths] - Examples: [guidance]
-**Acceptance**: - [quantified criterion]
+**Acceptance/Verification**: - [quantified criterion]
 **Depends On**: []

 ## Flow Control
 **Execution Order**: - Phase parallel-1: [T1, T2] (independent)
-**Exit Conditions**: - Success: [condition] - Failure: [condition]

 ## Time Estimate
 **Total**: [time]

 RULES: $(cat ~/.claude/workflows/cli-templates/prompts/planning/02-breakdown-task-steps.txt) |
- Acceptance must be quantified (counts, method names, metrics)
- Dependencies use task IDs (T1, T2)
+- Follow schema structure from {schema_path}
+- Acceptance/verification must be quantified
+- Dependencies use task IDs
 - analysis=READ-ONLY
-"
+" --tool {cli_tool} --mode analysis --cd {project_root}
 ```

 ## Core Functions
@@ -279,6 +256,51 @@ function inferFile(task, ctx) {
 }
 ```

+### CLI Execution ID Assignment (MANDATORY)
+
+```javascript
+function assignCliExecutionIds(tasks, sessionId) {
+  const taskMap = new Map(tasks.map(t => [t.id, t]))
+  const childCount = new Map()
+
+  // Count children for each task
+  tasks.forEach(task => {
+    (task.depends_on || []).forEach(depId => {
+      childCount.set(depId, (childCount.get(depId) || 0) + 1)
+    })
+  })
+
+  tasks.forEach(task => {
+    task.cli_execution_id = `${sessionId}-${task.id}`
+    const deps = task.depends_on || []
+
+    if (deps.length === 0) {
+      task.cli_execution = { strategy: "new" }
+    } else if (deps.length === 1) {
+      const parent = taskMap.get(deps[0])
+      const parentChildCount = childCount.get(deps[0]) || 0
+      task.cli_execution = parentChildCount === 1
+        ? { strategy: "resume", resume_from: parent.cli_execution_id }
+        : { strategy: "fork", resume_from: parent.cli_execution_id }
+    } else {
+      task.cli_execution = {
+        strategy: "merge_fork",
+        merge_from: deps.map(depId => taskMap.get(depId).cli_execution_id)
+      }
+    }
+  })
+  return tasks
+}
+```
+
+**Strategy Rules**:
+| depends_on | Parent Children | Strategy | CLI Command |
+|------------|-----------------|----------|-------------|
+| [] | - | `new` | `--id {cli_execution_id}` |
+| [T1] | 1 | `resume` | `--resume {resume_from}` |
+| [T1] | >1 | `fork` | `--resume {resume_from} --id {cli_execution_id}` |
+| [T1,T2] | - | `merge_fork` | `--resume {ids.join(',')} --id {cli_execution_id}` |
+
 ### Flow Control Inference

 ```javascript
@@ -303,21 +325,44 @@ function inferFlowControl(tasks) {
 ### planObject Generation

 ```javascript
-function generatePlanObject(parsed, enrichedContext, input) {
+function generatePlanObject(parsed, enrichedContext, input, schemaType) {
  const tasks = validateAndEnhanceTasks(parsed.raw_tasks, enrichedContext)
+  assignCliExecutionIds(tasks, input.session.id)  // MANDATORY: Assign CLI execution IDs
  const flow_control = parsed.flow_control?.execution_order?.length > 0 ? parsed.flow_control : inferFlowControl(tasks)
-  const focus_paths = [...new Set(tasks.flatMap(t => [t.file, ...t.modification_points.map(m => m.file)]).filter(Boolean))]
+  const focus_paths = [...new Set(tasks.flatMap(t => [t.file || t.scope, ...t.modification_points.map(m => m.file)]).filter(Boolean))]

-  return {
-    summary: parsed.summary || `Implementation plan for: ${input.task_description.slice(0, 100)}`,
-    approach: parsed.approach || "Step-by-step implementation",
+  // Base fields (common to both schemas)
+  const base = {
+    summary: parsed.summary || `Plan for: ${input.task_description.slice(0, 100)}`,
    tasks,
    flow_control,
    focus_paths,
    estimated_time: parsed.time_estimate || `${tasks.length * 30} minutes`,
-    recommended_execution: input.complexity === "Low" ? "Agent" : "Codex",
-    complexity: input.complexity,
-    _metadata: { timestamp: new Date().toISOString(), source: "cli-lite-planning-agent", planning_mode: "agent-based", exploration_angles: input.explorationAngles || [], duration_seconds: Math.round((Date.now() - startTime) / 1000) }
+    recommended_execution: (input.complexity === "Low" || input.severity === "Low") ? "Agent" : "Codex",
+    _metadata: {
+      timestamp: new Date().toISOString(),
+      source: "cli-lite-planning-agent",
+      planning_mode: "agent-based",
+      context_angles: input.contextAngles || [],
+      duration_seconds: Math.round((Date.now() - startTime) / 1000)
+    }
+  }
+
+  // Schema-specific fields
+  if (schemaType === 'fix-plan') {
+    return {
+      ...base,
+      root_cause: parsed.root_cause || "Root cause from diagnosis",
+      strategy: parsed.strategy || "comprehensive_fix",
+      severity: input.severity || "Medium",
+      risk_level: parsed.risk_level || "medium"
+    }
+  } else {
+    return {
+      ...base,
+      approach: parsed.approach || "Step-by-step implementation",
+      complexity: input.complexity || "Medium"
+    }
  }
 }
 ```
@@ -383,9 +428,12 @@ function validateTask(task) {
 ## Key Reminders

 **ALWAYS**:
- Generate task IDs (T1, T2, T3...)
+- **Read schema first** to determine output structure
+- Generate task IDs (T1/T2 for plan, FIX1/FIX2 for fix-plan)
 - Include depends_on (even if empty [])
- Quantify acceptance criteria
+- **Assign cli_execution_id** (`{sessionId}-{taskId}`)
+- **Compute cli_execution strategy** based on depends_on
+- Quantify acceptance/verification criteria
 - Generate flow_control from dependencies
 - Handle CLI errors with fallback chain

@@ -394,3 +442,5 @@ function validateTask(task) {
 - Use vague acceptance criteria
 - Create circular dependencies
 - Skip task validation
+- **Skip CLI execution ID assignment**
+- **Ignore schema structure**
--- a/.claude/agents/cli-planning-agent.md
+++ b/.claude/agents/cli-planning-agent.md
@@ -107,7 +107,7 @@ Phase 3: Task JSON Generation

 **Template-Based Command Construction with Test Layer Awareness**:
 ```bash
-cd {project_root} && {cli_tool} -p "
+ccw cli -p "
 PURPOSE: Analyze {test_type} test failures and generate fix strategy for iteration {iteration}
 TASK:
 • Review {failed_tests.length} {test_type} test failures: [{test_names}]
@@ -134,7 +134,7 @@ RULES: $(cat ~/.claude/workflows/cli-templates/prompts/{template}) |
 - Consider previous iteration failures
 - Validate fix doesn't introduce new vulnerabilities
 - analysis=READ-ONLY
-" {timeout_flag}
+" --tool {cli_tool} --mode analysis --cd {project_root} --timeout {timeout_value}
 ```

 **Layer-Specific Guidance Injection**:
@@ -527,9 +527,9 @@ See: `.process/iteration-{iteration}-cli-output.txt`
 1. **Detect test_type**: "integration" → Apply integration-specific diagnosis
 2. **Execute CLI**:
   ```bash
-   gemini -p "PURPOSE: Analyze integration test failure...
+   ccw cli -p "PURPOSE: Analyze integration test failure...
   TASK: Examine component interactions, data flow, interface contracts...
-   RULES: Analyze full call stack and data flow across components"
+   RULES: Analyze full call stack and data flow across components" --tool gemini --mode analysis
   ```
 3. **Parse Output**: Extract RCA, 修复建议, 验证建议 sections
 4. **Generate Task JSON** (IMPL-fix-1.json):
--- a/.claude/agents/code-developer.md
+++ b/.claude/agents/code-developer.md
@@ -34,10 +34,11 @@ You are a code execution specialist focused on implementing high-quality, produc
 - **context-package.json** (when available in workflow tasks)

 **Context Package** :
-`context-package.json` provides artifact paths - extract dynamically using `jq`:
+`context-package.json` provides artifact paths - read using Read tool or ccw session:
 ```bash
-# Get role analysis paths from context package
-jq -r '.brainstorm_artifacts.role_analyses[].files[].path' context-package.json
+# Get context package content from session using Read tool
+Read(.workflow/active/${SESSION_ID}/.process/context-package.json)
+# Returns parsed JSON with brainstorm_artifacts, focus_paths, etc.
 ```

 **Pre-Analysis: Smart Tech Stack Loading**:
@@ -121,9 +122,9 @@ When task JSON contains `flow_control.implementation_approach` array:
   - If `command` field present, execute it; otherwise use agent capabilities

 **CLI Command Execution (CLI Execute Mode)**:
-When step contains `command` field with Codex CLI, execute via Bash tool. For Codex resume:
- First task (`depends_on: []`): `codex -C [path] --full-auto exec "..." --skip-git-repo-check -s danger-full-access`
- Subsequent tasks (has `depends_on`): Add `resume --last` flag to maintain session context
+When step contains `command` field with Codex CLI, execute via CCW CLI. For Codex resume:
+- First task (`depends_on: []`): `ccw cli -p "..." --tool codex --mode write --cd [path]`
+- Subsequent tasks (has `depends_on`): Use CCW CLI with resume context to maintain session

 **Test-Driven Development**:
 - Write tests first (red → green → refactor)
--- a/.claude/agents/conceptual-planning-agent.md
+++ b/.claude/agents/conceptual-planning-agent.md
@@ -109,7 +109,7 @@ This agent processes **simplified inline [FLOW_CONTROL]** format from brainstorm

 3. **load_session_metadata**
   - Action: Load session metadata
-   - Command: bash(cat .workflow/WFS-{session}/workflow-session.json)
+   - Command: Read(.workflow/active/WFS-{session}/workflow-session.json)
   - Output: session_metadata
 ```

@@ -155,7 +155,7 @@ When called, you receive:
 - **User Context**: Specific requirements, constraints, and expectations from user discussion
 - **Output Location**: Directory path for generated analysis files
 - **Role Hint** (optional): Suggested role or role selection guidance
- **context-package.json** (CCW Workflow): Artifact paths catalog - extract using `jq -r '.brainstorm_artifacts.role_analyses[].files[].path'`
+- **context-package.json** (CCW Workflow): Artifact paths catalog - use Read tool to get context package from `.workflow/active/{session}/.process/context-package.json`
 - **ASSIGNED_ROLE** (optional): Specific role assignment
 - **ANALYSIS_DIMENSIONS** (optional): Role-specific analysis dimensions

--- a/.claude/agents/context-search-agent.md
+++ b/.claude/agents/context-search-agent.md
@@ -44,19 +44,19 @@ You are a context discovery specialist focused on gathering relevant project inf
 **Use**: Unfamiliar APIs/libraries/patterns

 ### 3. Existing Code Discovery
-**Primary (Code-Index MCP)**:
- `mcp__code-index__set_project_path()` - Initialize index
- `mcp__code-index__find_files(pattern)` - File pattern matching
- `mcp__code-index__search_code_advanced()` - Content search
- `mcp__code-index__get_file_summary()` - File structure analysis
- `mcp__code-index__refresh_index()` - Update index
+**Primary (CCW CodexLens MCP)**:
+- `mcp__ccw-tools__codex_lens(action="init", path=".")` - Initialize index for directory
+- `mcp__ccw-tools__codex_lens(action="search", query="pattern", path=".")` - Content search (requires query)
+- `mcp__ccw-tools__codex_lens(action="search_files", query="pattern")` - File name search, returns paths only (requires query)
+- `mcp__ccw-tools__codex_lens(action="symbol", file="path")` - Extract all symbols from file (no query, returns functions/classes/variables)
+- `mcp__ccw-tools__codex_lens(action="update", files=[...])` - Update index for specific files

 **Fallback (CLI)**:
 - `rg` (ripgrep) - Fast content search
 - `find` - File discovery
 - `Grep` - Pattern matching

-**Priority**: Code-Index MCP > ripgrep > find > grep
+**Priority**: CodexLens MCP > ripgrep > find > grep

 ## Simplified Execution Process (3 Phases)

@@ -77,9 +77,8 @@ if (file_exists(contextPackagePath)) {

 **1.2 Foundation Setup**:
 ```javascript
-// 1. Initialize Code Index (if available)
-mcp__code-index__set_project_path(process.cwd())
-mcp__code-index__refresh_index()
+// 1. Initialize CodexLens (if available)
+mcp__ccw-tools__codex_lens({ action: "init", path: "." })

 // 2. Project Structure
 bash(ccw tool exec get_modules_by_depth '{}')
@@ -212,18 +211,18 @@ mcp__exa__web_search_exa({

 **Layer 1: File Pattern Discovery**
 ```javascript
-// Primary: Code-Index MCP
-const files = mcp__code-index__find_files("*{keyword}*")
+// Primary: CodexLens MCP
+const files = mcp__ccw-tools__codex_lens({ action: "search_files", query: "*{keyword}*" })
 // Fallback: find . -iname "*{keyword}*" -type f
 ```

 **Layer 2: Content Search**
 ```javascript
-// Primary: Code-Index MCP
-mcp__code-index__search_code_advanced({
-  pattern: "{keyword}",
-  file_pattern: "*.ts",
-  output_mode: "files_with_matches"
+// Primary: CodexLens MCP
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "{keyword}",
+  path: "."
 })
 // Fallback: rg "{keyword}" -t ts --files-with-matches
 ```
@@ -231,11 +230,10 @@ mcp__code-index__search_code_advanced({
 **Layer 3: Semantic Patterns**
 ```javascript
 // Find definitions (class, interface, function)
-mcp__code-index__search_code_advanced({
-  pattern: "^(export )?(class|interface|type|function) .*{keyword}",
-  regex: true,
-  output_mode: "content",
-  context_lines: 2
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "^(export )?(class|interface|type|function) .*{keyword}",
+  path: "."
 })
 ```

@@ -243,21 +241,22 @@ mcp__code-index__search_code_advanced({
 ```javascript
 // Get file summaries for imports/exports
 for (const file of discovered_files) {
-  const summary = mcp__code-index__get_file_summary(file)
-  // summary: {imports, functions, classes, line_count}
+  const summary = mcp__ccw-tools__codex_lens({ action: "symbol", file: file })
+  // summary: {symbols: [{name, type, line}]}
 }
 ```

 **Layer 5: Config & Tests**
 ```javascript
 // Config files
-mcp__code-index__find_files("*.config.*")
-mcp__code-index__find_files("package.json")
+mcp__ccw-tools__codex_lens({ action: "search_files", query: "*.config.*" })
+mcp__ccw-tools__codex_lens({ action: "search_files", query: "package.json" })

 // Tests
-mcp__code-index__search_code_advanced({
-  pattern: "(describe|it|test).*{keyword}",
-  file_pattern: "*.{test,spec}.*"
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "(describe|it|test).*{keyword}",
+  path: "."
 })
 ```

@@ -560,14 +559,14 @@ Output: .workflow/session/{session}/.process/context-package.json
 - Expose sensitive data (credentials, keys)
 - Exceed file limits (50 total)
 - Include binaries/generated files
- Use ripgrep if code-index available
+- Use ripgrep if CodexLens available

 **ALWAYS**:
- Initialize code-index in Phase 0
+- Initialize CodexLens in Phase 0
 - Execute get_modules_by_depth.sh
 - Load CLAUDE.md/README.md (unless in memory)
 - Execute all 3 discovery tracks
- Use code-index MCP as primary
+- Use CodexLens MCP as primary
 - Fallback to ripgrep only when needed
 - Use Exa for unfamiliar APIs
 - Apply multi-factor scoring
--- a/.claude/agents/doc-generator.md
+++ b/.claude/agents/doc-generator.md
@@ -61,9 +61,9 @@ The agent supports **two execution modes** based on task JSON's `meta.cli_execut

   **Step 2** (CLI execution):
   - Agent substitutes [target_folders] into command
-   - Agent executes CLI command via Bash tool:
+   - Agent executes CLI command via CCW:
   ```bash
-   bash(cd src/modules && gemini --approval-mode yolo -p "
+   ccw cli -p "
   PURPOSE: Generate module documentation
   TASK: Create API.md and README.md for each module
   MODE: write
@@ -71,7 +71,7 @@ The agent supports **two execution modes** based on task JSON's `meta.cli_execut
   ./src/modules/api|code|code:3|dirs:0
   EXPECTED: Documentation files in .workflow/docs/my_project/src/modules/
   RULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt) | Mirror source structure
-   ")
+   " --tool gemini --mode write --cd src/modules
   ```

 4. **CLI Execution** (Gemini CLI):
@@ -216,7 +216,7 @@ Before completion, verify:
 {
  "step": "analyze_module_structure",
  "action": "Deep analysis of module structure and API",
-  "command": "bash(cd src/auth && gemini \"PURPOSE: Document module comprehensively\nTASK: Extract module purpose, architecture, public API, dependencies\nMODE: analysis\nCONTEXT: @**/* System: [system_context]\nEXPECTED: Complete module analysis for documentation\nRULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt)\")",
+  "command": "ccw cli -p \"PURPOSE: Document module comprehensively\nTASK: Extract module purpose, architecture, public API, dependencies\nMODE: analysis\nCONTEXT: @**/* System: [system_context]\nEXPECTED: Complete module analysis for documentation\nRULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt)\" --tool gemini --mode analysis --cd src/auth",
  "output_to": "module_analysis",
  "on_error": "fail"
 }
--- a/.claude/agents/issue-plan-agent.md
+++ b/.claude/agents/issue-plan-agent.md
@@ -0,0 +1,270 @@
+---
+name: issue-plan-agent
+description: |
+  Closed-loop issue planning agent combining ACE exploration and solution generation.
+  Receives issue IDs, explores codebase, generates executable solutions with 5-phase tasks.
+
+  Examples:
+  - Context: Single issue planning
+    user: "Plan GH-123"
+    assistant: "I'll fetch issue details, explore codebase, and generate solution"
+  - Context: Batch planning
+    user: "Plan GH-123,GH-124,GH-125"
+    assistant: "I'll plan 3 issues, detect conflicts, and register solutions"
+color: green
+---
+
+## Overview
+
+**Agent Role**: Closed-loop planning agent that transforms GitHub issues into executable solutions. Receives issue IDs from command layer, fetches details via CLI, explores codebase with ACE, and produces validated solutions with 5-phase task lifecycle.
+
+**Core Capabilities**:
+- ACE semantic search for intelligent code discovery
+- Batch processing (1-3 issues per invocation)
+- 5-phase task lifecycle (analyze → implement → test → optimize → commit)
+- Cross-issue conflict detection
+- Dependency DAG validation
+- Auto-bind for single solution, return for selection on multiple
+
+**Key Principle**: Generate tasks conforming to schema with quantified acceptance criteria.
+
+---
+
+## 1. Input & Execution
+
+### 1.1 Input Context
+
+```javascript
+{
+  issue_ids: string[],    // Issue IDs only (e.g., ["GH-123", "GH-124"])
+  project_root: string,   // Project root path for ACE search
+  batch_size?: number,    // Max issues per batch (default: 3)
+}
+```
+
+**Note**: Agent receives IDs only. Fetch details via `ccw issue status <id> --json`.
+
+### 1.2 Execution Flow
+
+```
+Phase 1: Issue Understanding (5%)
+    ↓ Fetch details, extract requirements, determine complexity
+Phase 2: ACE Exploration (30%)
+    ↓ Semantic search, pattern discovery, dependency mapping
+Phase 3: Solution Planning (50%)
+    ↓ Task decomposition, 5-phase lifecycle, acceptance criteria
+Phase 4: Validation & Output (15%)
+    ↓ DAG validation, conflict detection, solution registration
+```
+
+#### Phase 1: Issue Understanding
+
+**Step 1**: Fetch issue details via CLI
+```bash
+ccw issue status <issue-id> --json
+```
+
+**Step 2**: Analyze and classify
+```javascript
+function analyzeIssue(issue) {
+  return {
+    issue_id: issue.id,
+    requirements: extractRequirements(issue.description),
+    scope: inferScope(issue.title, issue.description),
+    complexity: determineComplexity(issue),  // Low | Medium | High
+    lifecycle: issue.lifecycle_requirements  // User preferences for test/commit
+  }
+}
+```
+
+**Step 3**: Apply lifecycle requirements to tasks
+- `lifecycle.test_strategy` → Configure `test.unit`, `test.commands`
+- `lifecycle.commit_strategy` → Configure `commit.type`, `commit.scope`
+- `lifecycle.regression_scope` → Configure `regression` array
+
+**Complexity Rules**:
+| Complexity | Files | Tasks |
+|------------|-------|-------|
+| Low | 1-2 | 1-3 |
+| Medium | 3-5 | 3-6 |
+| High | 6+ | 5-10 |
+
+#### Phase 2: ACE Exploration
+
+**Primary**: ACE semantic search
+```javascript
+mcp__ace-tool__search_context({
+  project_root_path: project_root,
+  query: `Find code related to: ${issue.title}. Keywords: ${extractKeywords(issue)}`
+})
+```
+
+**Exploration Checklist**:
+- [ ] Identify relevant files (direct matches)
+- [ ] Find related patterns (similar implementations)
+- [ ] Map integration points
+- [ ] Discover dependencies
+- [ ] Locate test patterns
+
+**Fallback Chain**: ACE → smart_search → Grep → rg → Glob
+
+| Tool | When to Use |
+|------|-------------|
+| `mcp__ace-tool__search_context` | Semantic search (primary) |
+| `mcp__ccw-tools__smart_search` | Symbol/pattern search |
+| `Grep` | Exact regex matching |
+| `rg` / `grep` | CLI fallback |
+| `Glob` | File path discovery |
+
+#### Phase 3: Solution Planning
+
+**Multi-Solution Generation**:
+
+Generate multiple candidate solutions when:
+- Issue complexity is HIGH
+- Multiple valid implementation approaches exist
+- Trade-offs between approaches (performance vs simplicity, etc.)
+
+| Condition | Solutions |
+|-----------|-----------|
+| Low complexity, single approach | 1 solution, auto-bind |
+| Medium complexity, clear path | 1-2 solutions |
+| High complexity, multiple approaches | 2-3 solutions, user selection |
+
+**Solution Evaluation** (for each candidate):
+```javascript
+{
+  analysis: {
+    risk: "low|medium|high",      // Implementation risk
+    impact: "low|medium|high",    // Scope of changes
+    complexity: "low|medium|high" // Technical complexity
+  },
+  score: 0.0-1.0  // Overall quality score (higher = recommended)
+}
+```
+
+**Selection Flow**:
+1. Generate all candidate solutions
+2. Evaluate and score each
+3. Single solution → auto-bind
+4. Multiple solutions → return `pending_selection` for user choice
+
+**Task Decomposition** following schema:
+```javascript
+function decomposeTasks(issue, exploration) {
+  return groups.map(group => ({
+    id: `T${taskId++}`,                    // Pattern: ^T[0-9]+$
+    title: group.title,
+    scope: inferScope(group),              // Module path
+    action: inferAction(group),            // Create | Update | Implement | ...
+    description: group.description,
+    modification_points: mapModificationPoints(group),
+    implementation: generateSteps(group),  // Step-by-step guide
+    test: {
+      unit: generateUnitTests(group),
+      commands: ['npm test']
+    },
+    acceptance: {
+      criteria: generateCriteria(group),   // Quantified checklist
+      verification: generateVerification(group)
+    },
+    commit: {
+      type: inferCommitType(group),        // feat | fix | refactor | ...
+      scope: inferScope(group),
+      message_template: generateCommitMsg(group)
+    },
+    depends_on: inferDependencies(group, tasks),
+    executor: inferExecutor(group),
+    priority: calculatePriority(group)     // 1-5 (1=highest)
+  }))
+}
+```
+
+#### Phase 4: Validation & Output
+
+**Validation**:
+- DAG validation (no circular dependencies)
+- Task validation (all 5 phases present)
+- Conflict detection (cross-issue file modifications)
+
+**Solution Registration**:
+```bash
+# Write solution and register via CLI
+ccw issue bind <issue-id> --solution /tmp/sol.json
+```
+
+---
+
+## 2. Output Requirements
+
+### 2.1 Generate Files (Primary)
+
+**Solution file per issue**:
+```
+.workflow/issues/solutions/{issue-id}.jsonl
+```
+
+Each line is a solution JSON containing tasks. Schema: `cat .claude/workflows/cli-templates/schemas/solution-schema.json`
+
+### 2.2 Binding
+
+| Scenario | Action |
+|----------|--------|
+| Single solution | `ccw issue bind <id> --solution <file>` (auto) |
+| Multiple solutions | Register only, return for selection |
+
+### 2.3 Return Summary
+
+```json
+{
+  "bound": [{ "issue_id": "...", "solution_id": "...", "task_count": N }],
+  "pending_selection": [{ "issue_id": "...", "solutions": [{ "id": "SOL-001", "description": "...", "task_count": N }] }],
+  "conflicts": [{ "file": "...", "issues": [...] }]
+}
+```
+
+---
+
+## 3. Quality Standards
+
+### 3.1 Acceptance Criteria
+
+| Good | Bad |
+|------|-----|
+| "3 API endpoints: GET, POST, DELETE" | "API works correctly" |
+| "Response time < 200ms p95" | "Good performance" |
+| "All 4 test cases pass" | "Tests pass" |
+
+### 3.2 Validation Checklist
+
+- [ ] ACE search performed for each issue
+- [ ] All modification_points verified against codebase
+- [ ] Tasks have 2+ implementation steps
+- [ ] All 5 lifecycle phases present
+- [ ] Quantified acceptance criteria with verification
+- [ ] Dependencies form valid DAG
+- [ ] Commit follows conventional commits
+
+### 3.3 Guidelines
+
+**ALWAYS**:
+1. Read schema first: `cat .claude/workflows/cli-templates/schemas/solution-schema.json`
+2. Use ACE semantic search as PRIMARY exploration tool
+3. Fetch issue details via `ccw issue status <id> --json`
+4. Quantify acceptance.criteria with testable conditions
+5. Validate DAG before output
+6. Evaluate each solution with `analysis` and `score`
+7. Single solution → auto-bind; Multiple → return `pending_selection`
+8. For HIGH complexity: generate 2-3 candidate solutions
+
+**NEVER**:
+1. Execute implementation (return plan only)
+2. Use vague criteria ("works correctly", "good performance")
+3. Create circular dependencies
+4. Generate more than 10 tasks per issue
+5. Bind when multiple solutions exist
+
+**OUTPUT**:
+1. Register solutions via `ccw issue bind <id> --solution <file>`
+2. Return JSON with `bound`, `pending_selection`, `conflicts`
+3. Solutions written to `.workflow/issues/solutions/{issue-id}.jsonl`
--- a/.claude/agents/issue-queue-agent.md
+++ b/.claude/agents/issue-queue-agent.md
@@ -0,0 +1,227 @@
+---
+name: issue-queue-agent
+description: |
+  Task ordering agent for queue formation with dependency analysis and conflict resolution.
+  Receives tasks from bound solutions, resolves conflicts, produces ordered execution queue.
+
+  Examples:
+  - Context: Single issue queue
+    user: "Order tasks for GH-123"
+    assistant: "I'll analyze dependencies and generate execution queue"
+  - Context: Multi-issue queue with conflicts
+    user: "Order tasks for GH-123, GH-124"
+    assistant: "I'll detect conflicts, resolve ordering, and assign groups"
+color: orange
+---
+
+## Overview
+
+**Agent Role**: Queue formation agent that transforms tasks from bound solutions into an ordered execution queue. Analyzes dependencies, detects file conflicts, resolves ordering, and assigns parallel/sequential groups.
+
+**Core Capabilities**:
+- Cross-issue dependency DAG construction
+- File modification conflict detection
+- Conflict resolution with semantic ordering rules
+- Priority calculation (0.0-1.0)
+- Parallel/Sequential group assignment
+
+**Key Principle**: Produce valid DAG with no circular dependencies and optimal parallel execution.
+
+---
+
+## 1. Input & Execution
+
+### 1.1 Input Context
+
+```javascript
+{
+  tasks: [{
+    key: string,           // e.g., "GH-123:TASK-001"
+    issue_id: string,      // e.g., "GH-123"
+    solution_id: string,   // e.g., "SOL-001"
+    task_id: string,       // e.g., "TASK-001"
+    type: string,          // feature | bug | refactor | test | chore | docs
+    file_context: string[],
+    depends_on: string[]   // composite keys, e.g., ["GH-123:TASK-001"]
+  }],
+  project_root?: string,
+  rebuild?: boolean
+}
+```
+
+**Note**: Agent generates unique `item_id` (pattern: `T-{N}`) for queue output.
+
+### 1.2 Execution Flow
+
+```
+Phase 1: Dependency Analysis (20%)
+    ↓ Parse depends_on, build DAG, detect cycles
+Phase 2: Conflict Detection (30%)
+    ↓ Identify file conflicts across issues
+Phase 3: Conflict Resolution (25%)
+    ↓ Apply ordering rules, update DAG
+Phase 4: Ordering & Grouping (25%)
+    ↓ Topological sort, assign groups
+```
+
+---
+
+## 2. Processing Logic
+
+### 2.1 Dependency Graph
+
+```javascript
+function buildDependencyGraph(tasks) {
+  const graph = new Map()
+  const fileModifications = new Map()
+
+  for (const item of tasks) {
+    graph.set(item.key, { ...item, inDegree: 0, outEdges: [] })
+
+    for (const file of item.file_context || []) {
+      if (!fileModifications.has(file)) fileModifications.set(file, [])
+      fileModifications.get(file).push(item.key)
+    }
+  }
+
+  // Add dependency edges
+  for (const [key, node] of graph) {
+    for (const depKey of node.depends_on || []) {
+      if (graph.has(depKey)) {
+        graph.get(depKey).outEdges.push(key)
+        node.inDegree++
+      }
+    }
+  }
+
+  return { graph, fileModifications }
+}
+```
+
+### 2.2 Conflict Detection
+
+Conflict when multiple tasks modify same file:
+```javascript
+function detectConflicts(fileModifications, graph) {
+  return [...fileModifications.entries()]
+    .filter(([_, tasks]) => tasks.length > 1)
+    .map(([file, tasks]) => ({
+      type: 'file_conflict',
+      file,
+      tasks,
+      resolved: false
+    }))
+}
+```
+
+### 2.3 Resolution Rules
+
+| Priority | Rule | Example |
+|----------|------|---------|
+| 1 | Create before Update | T1:Create → T2:Update |
+| 2 | Foundation before integration | config/ → src/ |
+| 3 | Types before implementation | types/ → components/ |
+| 4 | Core before tests | src/ → __tests__/ |
+| 5 | Delete last | T1:Update → T2:Delete |
+
+### 2.4 Semantic Priority
+
+**Base Priority Mapping** (task.priority 1-5 → base score):
+| task.priority | Base Score | Meaning |
+|---------------|------------|---------|
+| 1 | 0.8 | Highest |
+| 2 | 0.65 | High |
+| 3 | 0.5 | Medium |
+| 4 | 0.35 | Low |
+| 5 | 0.2 | Lowest |
+
+**Action-based Boost** (applied to base score):
+| Factor | Boost |
+|--------|-------|
+| Create action | +0.2 |
+| Configure action | +0.15 |
+| Implement action | +0.1 |
+| Fix action | +0.05 |
+| Foundation scope | +0.1 |
+| Types scope | +0.05 |
+| Refactor action | -0.05 |
+| Test action | -0.1 |
+| Delete action | -0.15 |
+
+**Formula**: `semantic_priority = clamp(baseScore + sum(boosts), 0.0, 1.0)`
+
+### 2.5 Group Assignment
+
+- **Parallel (P*)**: Tasks with no dependencies or conflicts between them
+- **Sequential (S*)**: Tasks that must run in order due to dependencies or conflicts
+
+---
+
+## 3. Output Requirements
+
+### 3.1 Generate Files (Primary)
+
+**Queue files**:
+```
+.workflow/issues/queues/{queue-id}.json   # Full queue with tasks, conflicts, groups
+.workflow/issues/queues/index.json        # Update with new queue entry
+```
+
+Queue ID format: `QUE-YYYYMMDD-HHMMSS` (UTC timestamp)
+
+Schema: `cat .claude/workflows/cli-templates/schemas/queue-schema.json`
+
+### 3.2 Return Summary
+
+```json
+{
+  "queue_id": "QUE-20251227-143000",
+  "total_tasks": N,
+  "execution_groups": [{ "id": "P1", "type": "parallel", "count": N }],
+  "conflicts_resolved": N,
+  "issues_queued": ["GH-123", "GH-124"]
+}
+```
+
+---
+
+## 4. Quality Standards
+
+### 4.1 Validation Checklist
+
+- [ ] No circular dependencies
+- [ ] All conflicts resolved
+- [ ] Dependencies ordered correctly
+- [ ] Parallel groups have no conflicts
+- [ ] Semantic priority calculated
+
+### 4.2 Error Handling
+
+| Scenario | Action |
+|----------|--------|
+| Circular dependency | Abort, report cycles |
+| Resolution creates cycle | Flag for manual resolution |
+| Missing task reference | Skip and warn |
+| Empty task list | Return empty queue |
+
+### 4.3 Guidelines
+
+**ALWAYS**:
+1. Build dependency graph before ordering
+2. Detect cycles before and after resolution
+3. Apply resolution rules consistently
+4. Calculate semantic priority for all tasks
+5. Include rationale for conflict resolutions
+6. Validate ordering before output
+
+**NEVER**:
+1. Execute tasks (ordering only)
+2. Ignore circular dependencies
+3. Skip conflict detection
+4. Output invalid DAG
+5. Merge conflicting tasks in parallel group
+
+**OUTPUT**:
+1. Write `.workflow/issues/queues/{queue-id}.json`
+2. Update `.workflow/issues/queues/index.json`
+3. Return summary with `queue_id`, `total_tasks`, `execution_groups`, `conflicts_resolved`, `issues_queued`
--- a/.claude/agents/test-context-search-agent.md
+++ b/.claude/agents/test-context-search-agent.md
@@ -36,10 +36,10 @@ You are a test context discovery specialist focused on gathering test coverage i
 **Use**: Phase 1 source context loading

 ### 2. Test Coverage Discovery
-**Primary (Code-Index MCP)**:
- `mcp__code-index__find_files(pattern)` - Find test files (*.test.*, *.spec.*)
- `mcp__code-index__search_code_advanced()` - Search test patterns
- `mcp__code-index__get_file_summary()` - Analyze test structure
+**Primary (CCW CodexLens MCP)**:
+- `mcp__ccw-tools__codex_lens(action="search_files", query="*.test.*")` - Find test files
+- `mcp__ccw-tools__codex_lens(action="search", query="pattern")` - Search test patterns
+- `mcp__ccw-tools__codex_lens(action="symbol", file="path")` - Analyze test structure

 **Fallback (CLI)**:
 - `rg` (ripgrep) - Fast test pattern search
@@ -120,9 +120,10 @@ for (const summary_path of summaries) {

 **2.1 Existing Test Discovery**:
 ```javascript
-// Method 1: Code-Index MCP (preferred)
-const test_files = mcp__code-index__find_files({
-  patterns: ["*.test.*", "*.spec.*", "*test_*.py", "*_test.go"]
+// Method 1: CodexLens MCP (preferred)
+const test_files = mcp__ccw-tools__codex_lens({
+  action: "search_files",
+  query: "*.test.* OR *.spec.* OR test_*.py OR *_test.go"
 });

 // Method 2: Fallback CLI
--- a/.claude/agents/test-fix-agent.md
+++ b/.claude/agents/test-fix-agent.md
@@ -83,17 +83,18 @@ When task JSON contains implementation_approach array:
  - L1 (Unit): `*.test.*`, `*.spec.*` in `__tests__/`, `tests/unit/`
  - L2 (Integration): `tests/integration/`, `*.integration.test.*`
  - L3 (E2E): `tests/e2e/`, `*.e2e.test.*`, `cypress/`, `playwright/`
- **context-package.json** (CCW Workflow): Extract artifact paths using `jq -r '.brainstorm_artifacts.role_analyses[].files[].path'`
+- **context-package.json** (CCW Workflow): Use Read tool to get context package from `.workflow/active/{session}/.process/context-package.json`
 - Identify test commands from project configuration

 ```bash
 # Detect test framework and multi-layered commands
 if [ -f "package.json" ]; then
-    # Extract layer-specific test commands
-    LINT_CMD=$(cat package.json | jq -r '.scripts.lint // "eslint ."')
-    UNIT_CMD=$(cat package.json | jq -r '.scripts["test:unit"] // .scripts.test')
-    INTEGRATION_CMD=$(cat package.json | jq -r '.scripts["test:integration"] // ""')
-    E2E_CMD=$(cat package.json | jq -r '.scripts["test:e2e"] // ""')
+    # Extract layer-specific test commands using Read tool or jq
+    PKG_JSON=$(cat package.json)
+    LINT_CMD=$(echo "$PKG_JSON" | jq -r '.scripts.lint // "eslint ."')
+    UNIT_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:unit"] // .scripts.test')
+    INTEGRATION_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:integration"] // ""')
+    E2E_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:e2e"] // ""')
 elif [ -f "pytest.ini" ] || [ -f "setup.py" ]; then
    LINT_CMD="ruff check . || flake8 ."
    UNIT_CMD="pytest tests/unit/"
--- a/.claude/cli-tools.json
+++ b/.claude/cli-tools.json
@@ -0,0 +1,47 @@
+{
+  "version": "1.0.0",
+  "tools": {
+    "gemini": {
+      "enabled": true,
+      "isBuiltin": true,
+      "command": "gemini",
+      "description": "Google AI for code analysis"
+    },
+    "qwen": {
+      "enabled": true,
+      "isBuiltin": true,
+      "command": "qwen",
+      "description": "Alibaba AI assistant"
+    },
+    "codex": {
+      "enabled": true,
+      "isBuiltin": true,
+      "command": "codex",
+      "description": "OpenAI code generation"
+    },
+    "claude": {
+      "enabled": true,
+      "isBuiltin": true,
+      "command": "claude",
+      "description": "Anthropic AI assistant"
+    }
+  },
+  "customEndpoints": [],
+  "defaultTool": "gemini",
+  "settings": {
+    "promptFormat": "plain",
+    "smartContext": {
+      "enabled": false,
+      "maxFiles": 10
+    },
+    "nativeResume": true,
+    "recursiveQuery": true,
+    "cache": {
+      "injectionMode": "auto",
+      "defaultPrefix": "",
+      "defaultSuffix": ""
+    },
+    "codeIndexMcp": "ace"
+  },
+  "$schema": "./cli-tools.schema.json"
+}
--- a/.claude/commands/issue/execute.md
+++ b/.claude/commands/issue/execute.md
@@ -0,0 +1,462 @@
+---
+name: execute
+description: Execute queue with codex using endpoint-driven task fetching (single task per codex instance)
+argument-hint: "[--parallel <n>] [--executor codex|gemini]"
+allowed-tools: TodoWrite(*), Bash(*), Read(*), AskUserQuestion(*)
+---
+
+# Issue Execute Command (/issue:execute)
+
+## Overview
+
+Execution orchestrator that coordinates codex instances. Each task is executed by an independent codex instance that fetches its task via CLI endpoint. **Codex does NOT read task files** - it calls `ccw issue next` to get task data dynamically.
+
+**Core design:**
+- Single task per codex instance (not loop mode)
+- Endpoint-driven: `ccw issue next` → execute → `ccw issue complete`
+- No file reading in codex
+- Orchestrator manages parallelism
+
+## Storage Structure (Queue History)
+
+```
+.workflow/issues/
+├── issues.jsonl              # All issues (one per line)
+├── queues/                   # Queue history directory
+│   ├── index.json            # Queue index (active + history)
+│   └── {queue-id}.json       # Individual queue files
+└── solutions/
+    ├── {issue-id}.jsonl      # Solutions for issue
+    └── ...
+```
+
+## Usage
+
+```bash
+/issue:execute [FLAGS]
+
+# Examples
+/issue:execute                    # Execute all ready tasks
+/issue:execute --parallel 3       # Execute up to 3 tasks in parallel
+/issue:execute --executor codex   # Force codex executor
+
+# Flags
+--parallel <n>        Max parallel codex instances (default: 1)
+--executor <type>     Force executor: codex|gemini|agent
+--dry-run             Show what would execute without running
+```
+
+## Execution Process
+
+```
+Phase 1: Queue Loading
+   ├─ Load queue.json
+   ├─ Count pending/ready tasks
+   └─ Initialize TodoWrite tracking
+
+Phase 2: Ready Task Detection
+   ├─ Find tasks with satisfied dependencies
+   ├─ Group by execution_group (parallel batches)
+   └─ Determine execution order
+
+Phase 3: Codex Coordination
+   ├─ For each ready task:
+   │   ├─ Launch independent codex instance
+   │   ├─ Codex calls: ccw issue next
+   │   ├─ Codex receives task data (NOT file)
+   │   ├─ Codex executes task
+   │   ├─ Codex calls: ccw issue complete <queue-id>
+   │   └─ Update TodoWrite
+   └─ Parallel execution based on --parallel flag
+
+Phase 4: Completion
+   ├─ Generate execution summary
+   ├─ Update issue statuses in issues.jsonl
+   └─ Display results
+```
+
+## Implementation
+
+### Phase 1: Queue Loading
+
+```javascript
+// Load active queue via CLI endpoint
+const queueJson = Bash(`ccw issue status --json 2>/dev/null || echo '{}'`);
+const queue = JSON.parse(queueJson);
+
+if (!queue.id || queue.tasks?.length === 0) {
+  console.log('No active queue found. Run /issue:queue first.');
+  return;
+}
+
+// Count by status
+const pending = queue.tasks.filter(q => q.status === 'pending');
+const executing = queue.tasks.filter(q => q.status === 'executing');
+const completed = queue.tasks.filter(q => q.status === 'completed');
+
+console.log(`
+## Execution Queue Status
+
+- Pending: ${pending.length}
+- Executing: ${executing.length}
+- Completed: ${completed.length}
+- Total: ${queue.tasks.length}
+`);
+
+if (pending.length === 0 && executing.length === 0) {
+  console.log('All tasks completed!');
+  return;
+}
+```
+
+### Phase 2: Ready Task Detection
+
+```javascript
+// Find ready tasks (dependencies satisfied)
+function getReadyTasks() {
+  const completedIds = new Set(
+    queue.tasks.filter(q => q.status === 'completed').map(q => q.item_id)
+  );
+
+  return queue.tasks.filter(item => {
+    if (item.status !== 'pending') return false;
+    return item.depends_on.every(depId => completedIds.has(depId));
+  });
+}
+
+const readyTasks = getReadyTasks();
+
+if (readyTasks.length === 0) {
+  if (executing.length > 0) {
+    console.log('Tasks are currently executing. Wait for completion.');
+  } else {
+    console.log('No ready tasks. Check for blocked dependencies.');
+  }
+  return;
+}
+
+console.log(`Found ${readyTasks.length} ready tasks`);
+
+// Sort by execution order
+readyTasks.sort((a, b) => a.execution_order - b.execution_order);
+
+// Initialize TodoWrite
+TodoWrite({
+  todos: readyTasks.slice(0, parallelLimit).map(t => ({
+    content: `[${t.item_id}] ${t.issue_id}:${t.task_id}`,
+    status: 'pending',
+    activeForm: `Executing ${t.item_id}`
+  }))
+});
+```
+
+### Phase 3: Codex Coordination (Single Task Mode - Full Lifecycle)
+
+```javascript
+// Execute tasks - single codex instance per task with full lifecycle
+async function executeTask(queueItem) {
+  const codexPrompt = `
+## Single Task Execution - CLOSED-LOOP LIFECYCLE
+
+You are executing ONE task from the issue queue. Each task has 5 phases that MUST ALL complete successfully.
+
+### Step 1: Fetch Task
+Run this command to get your task:
+\`\`\`bash
+ccw issue next
+\`\`\`
+
+This returns JSON with full lifecycle definition:
+- task.implementation: Implementation steps
+- task.test: Test requirements and commands
+- task.regression: Regression check commands
+- task.acceptance: Acceptance criteria and verification
+- task.commit: Commit specification
+
+### Step 2: Execute Full Lifecycle
+
+**Phase 1: IMPLEMENT**
+1. Follow task.implementation steps in order
+2. Modify files specified in modification_points
+3. Use context.relevant_files for reference
+4. Use context.patterns for code style
+
+**Phase 2: TEST**
+1. Run test commands from task.test.commands
+2. Ensure all unit tests pass (task.test.unit)
+3. Run integration tests if specified (task.test.integration)
+4. Verify coverage meets task.test.coverage_target if specified
+5. If tests fail → fix code and re-run, do NOT proceed until tests pass
+
+**Phase 3: REGRESSION**
+1. Run all commands in task.regression
+2. Ensure no existing tests are broken
+3. If regression fails → fix and re-run
+
+**Phase 4: ACCEPTANCE**
+1. Verify each criterion in task.acceptance.criteria
+2. Execute verification steps in task.acceptance.verification
+3. Complete any manual_checks if specified
+4. All criteria MUST pass before proceeding
+
+**Phase 5: COMMIT**
+1. Stage all modified files
+2. Use task.commit.message_template as commit message
+3. Commit with: git commit -m "$(cat <<'EOF'\n<message>\nEOF\n)"
+4. If commit_strategy is 'per-task', commit now
+5. If commit_strategy is 'atomic' or 'squash', stage but don't commit
+
+### Step 3: Report Completion
+When ALL phases complete successfully:
+\`\`\`bash
+ccw issue complete <item_id> --result '{
+  "files_modified": ["path1", "path2"],
+  "tests_passed": true,
+  "regression_passed": true,
+  "acceptance_passed": true,
+  "committed": true,
+  "commit_hash": "<hash>",
+  "summary": "What was done"
+}'
+\`\`\`
+
+If any phase fails and cannot be fixed:
+\`\`\`bash
+ccw issue fail <item_id> --reason "Phase X failed: <details>"
+\`\`\`
+
+### Rules
+- NEVER skip any lifecycle phase
+- Tests MUST pass before proceeding to acceptance
+- Regression MUST pass before commit
+- ALL acceptance criteria MUST be verified
+- Report accurate lifecycle status in result
+
+### Start Now
+Begin by running: ccw issue next
+`;
+
+  // Execute codex
+  const executor = queueItem.assigned_executor || flags.executor || 'codex';
+
+  if (executor === 'codex') {
+    Bash(
+      `ccw cli -p "${escapePrompt(codexPrompt)}" --tool codex --mode write --id exec-${queueItem.item_id}`,
+      timeout=3600000  // 1 hour timeout
+    );
+  } else if (executor === 'gemini') {
+    Bash(
+      `ccw cli -p "${escapePrompt(codexPrompt)}" --tool gemini --mode write --id exec-${queueItem.item_id}`,
+      timeout=1800000  // 30 min timeout
+    );
+  } else {
+    // Agent execution
+    Task(
+      subagent_type="code-developer",
+      run_in_background=false,
+      description=`Execute ${queueItem.item_id}`,
+      prompt=codexPrompt
+    );
+  }
+}
+
+// Execute with parallelism
+const parallelLimit = flags.parallel || 1;
+
+for (let i = 0; i < readyTasks.length; i += parallelLimit) {
+  const batch = readyTasks.slice(i, i + parallelLimit);
+
+  console.log(`\n### Executing Batch ${Math.floor(i / parallelLimit) + 1}`);
+  console.log(batch.map(t => `- ${t.item_id}: ${t.issue_id}:${t.task_id}`).join('\n'));
+
+  if (parallelLimit === 1) {
+    // Sequential execution
+    for (const task of batch) {
+      updateTodo(task.item_id, 'in_progress');
+      await executeTask(task);
+      updateTodo(task.item_id, 'completed');
+    }
+  } else {
+    // Parallel execution - launch all at once
+    const executions = batch.map(task => {
+      updateTodo(task.item_id, 'in_progress');
+      return executeTask(task);
+    });
+    await Promise.all(executions);
+    batch.forEach(task => updateTodo(task.item_id, 'completed'));
+  }
+
+  // Refresh ready tasks after batch
+  const newReady = getReadyTasks();
+  if (newReady.length > 0) {
+    console.log(`${newReady.length} more tasks now ready`);
+  }
+}
+```
+
+### Codex Task Fetch Response
+
+When codex calls `ccw issue next`, it receives:
+
+```json
+{
+  "item_id": "T-1",
+  "issue_id": "GH-123",
+  "solution_id": "SOL-001",
+  "task": {
+    "id": "T1",
+    "title": "Create auth middleware",
+    "scope": "src/middleware/",
+    "action": "Create",
+    "description": "Create JWT validation middleware",
+    "modification_points": [
+      { "file": "src/middleware/auth.ts", "target": "new file", "change": "Create middleware" }
+    ],
+    "implementation": [
+      "Create auth.ts file in src/middleware/",
+      "Implement JWT token validation using jsonwebtoken",
+      "Add error handling for invalid/expired tokens",
+      "Export middleware function"
+    ],
+    "acceptance": [
+      "Middleware validates JWT tokens successfully",
+      "Returns 401 for invalid or missing tokens",
+      "Passes token payload to request context"
+    ]
+  },
+  "context": {
+    "relevant_files": ["src/config/auth.ts", "src/types/auth.d.ts"],
+    "patterns": "Follow existing middleware pattern in src/middleware/logger.ts"
+  },
+  "execution_hints": {
+    "executor": "codex",
+    "estimated_minutes": 30
+  }
+}
+```
+
+### Phase 4: Completion Summary
+
+```javascript
+// Reload queue for final status via CLI
+const finalQueueJson = Bash(`ccw issue status --json 2>/dev/null || echo '{}'`);
+const finalQueue = JSON.parse(finalQueueJson);
+
+// Use queue._metadata for summary (already calculated by CLI)
+const summary = finalQueue._metadata || {
+  completed_count: 0,
+  failed_count: 0,
+  pending_count: 0,
+  total_tasks: 0
+};
+
+console.log(`
+## Execution Complete
+
+**Completed**: ${summary.completed_count}/${summary.total_tasks}
+**Failed**: ${summary.failed_count}
+**Pending**: ${summary.pending_count}
+
+### Task Results
+${(finalQueue.tasks || []).map(q => {
+  const icon = q.status === 'completed' ? '✓' :
+               q.status === 'failed' ? '✗' :
+               q.status === 'executing' ? '⟳' : '○';
+  return `${icon} ${q.item_id} [${q.issue_id}:${q.task_id}] - ${q.status}`;
+}).join('\n')}
+`);
+
+// Issue status updates are handled by ccw issue complete/fail endpoints
+// No need to manually update issues.jsonl here
+
+if (summary.pending_count > 0) {
+  console.log(`
+### Continue Execution
+Run \`/issue:execute\` again to execute remaining tasks.
+`);
+}
+```
+
+## Dry Run Mode
+
+```javascript
+if (flags.dryRun) {
+  console.log(`
+## Dry Run - Would Execute
+
+${readyTasks.map((t, i) => `
+${i + 1}. ${t.item_id}
+   Issue: ${t.issue_id}
+   Task: ${t.task_id}
+   Executor: ${t.assigned_executor}
+   Group: ${t.execution_group}
+`).join('')}
+
+No changes made. Remove --dry-run to execute.
+`);
+  return;
+}
+```
+
+## Error Handling
+
+| Error | Resolution |
+|-------|------------|
+| Queue not found | Display message, suggest /issue:queue |
+| No ready tasks | Check dependencies, show blocked tasks |
+| Codex timeout | Mark as failed, allow retry |
+| ccw issue next empty | All tasks done or blocked |
+| Task execution failure | Marked via ccw issue fail, use `ccw issue retry` to reset |
+
+## Troubleshooting
+
+### Interrupted Tasks
+
+If execution was interrupted (crashed/stopped), `ccw issue next` will automatically resume:
+
+```bash
+# Automatically returns the executing task for resumption
+ccw issue next
+```
+
+Tasks in `executing` status are prioritized and returned first, no manual reset needed.
+
+### Failed Tasks
+
+If a task failed and you want to retry:
+
+```bash
+# Reset all failed tasks to pending
+ccw issue retry
+
+# Reset failed tasks for specific issue
+ccw issue retry <issue-id>
+```
+
+## Endpoint Contract
+
+### `ccw issue next`
+- Returns next ready task as JSON
+- Marks task as 'executing'
+- Returns `{ status: 'empty' }` when no tasks
+
+### `ccw issue complete <item-id>`
+- Marks task as 'completed'
+- Updates queue.json
+- Checks if issue is fully complete
+
+### `ccw issue fail <item-id>`
+- Marks task as 'failed'
+- Records failure reason
+- Allows retry via /issue:execute
+
+### `ccw issue retry [issue-id]`
+- Resets failed tasks to 'pending'
+- Allows re-execution via `ccw issue next`
+
+## Related Commands
+
+- `/issue:plan` - Plan issues with solutions
+- `/issue:queue` - Form execution queue
+- `ccw issue queue list` - View queue status
+- `ccw issue retry` - Retry failed tasks
--- a/.claude/commands/issue/manage.md
+++ b/.claude/commands/issue/manage.md
@@ -0,0 +1,113 @@
+---
+name: manage
+description: Interactive issue management (CRUD) via ccw cli endpoints with menu-driven interface
+argument-hint: "[issue-id] [--action list|view|edit|delete|bulk]"
+allowed-tools: TodoWrite(*), Bash(*), Read(*), Write(*), AskUserQuestion(*), Task(*)
+---
+
+# Issue Manage Command (/issue:manage)
+
+## Overview
+
+Interactive menu-driven interface for issue management using `ccw issue` CLI endpoints:
+- **List**: Browse and filter issues
+- **View**: Detailed issue inspection
+- **Edit**: Modify issue fields
+- **Delete**: Remove issues
+- **Bulk**: Batch operations on multiple issues
+
+## CLI Endpoints Reference
+
+```bash
+# Core endpoints (ccw issue)
+ccw issue list                      # List all issues
+ccw issue list <id> --json          # Get issue details
+ccw issue status <id>               # Detailed status
+ccw issue init <id> --title "..."   # Create issue
+ccw issue task <id> --title "..."   # Add task
+ccw issue bind <id> <solution-id>   # Bind solution
+
+# Queue management
+ccw issue queue                     # List current queue
+ccw issue queue add <id>            # Add to queue
+ccw issue queue list                # Queue history
+ccw issue queue switch <queue-id>   # Switch queue
+ccw issue queue archive             # Archive queue
+ccw issue queue delete <queue-id>   # Delete queue
+ccw issue next                      # Get next task
+ccw issue done <queue-id>           # Mark completed
+ccw issue complete <item-id>        # (legacy alias for done)
+```
+
+## Usage
+
+```bash
+# Interactive mode (menu-driven)
+/issue:manage
+
+# Direct to specific issue
+/issue:manage GH-123
+
+# Direct action
+/issue:manage --action list
+/issue:manage GH-123 --action edit
+```
+
+## Implementation
+
+This command delegates to the `issue-manage` skill for detailed implementation.
+
+### Entry Point
+
+```javascript
+const issueId = parseIssueId(userInput);
+const action = flags.action;
+
+// Show main menu if no action specified
+if (!action) {
+  await showMainMenu(issueId);
+} else {
+  await executeAction(action, issueId);
+}
+```
+
+### Main Menu Flow
+
+1. **Dashboard**: Fetch issues summary via `ccw issue list --json`
+2. **Menu**: Present action options via AskUserQuestion
+3. **Route**: Execute selected action (List/View/Edit/Delete/Bulk)
+4. **Loop**: Return to menu after each action
+
+### Available Actions
+
+| Action | Description | CLI Command |
+|--------|-------------|-------------|
+| List | Browse with filters | `ccw issue list --json` |
+| View | Detail view | `ccw issue status <id> --json` |
+| Edit | Modify fields | Update `issues.jsonl` |
+| Delete | Remove issue | Clean up all related files |
+| Bulk | Batch operations | Multi-select + batch update |
+
+## Data Files
+
+| File | Purpose |
+|------|---------|
+| `.workflow/issues/issues.jsonl` | Issue records |
+| `.workflow/issues/solutions/<id>.jsonl` | Solutions per issue |
+| `.workflow/issues/queue.json` | Execution queue |
+
+## Error Handling
+
+| Error | Resolution |
+|-------|------------|
+| No issues found | Suggest creating with /issue:new |
+| Issue not found | Show available issues, ask for correction |
+| Invalid selection | Show error, re-prompt |
+| Write failure | Check permissions, show error |
+
+## Related Commands
+
+- `/issue:new` - Create structured issue
+- `/issue:plan` - Plan solution for issue
+- `/issue:queue` - Form execution queue
+- `/issue:execute` - Execute queued tasks
--- a/.claude/commands/issue/new.md
+++ b/.claude/commands/issue/new.md
@@ -0,0 +1,451 @@
+---
+name: new
+description: Create structured issue from GitHub URL or text description, extracting key elements into issues.jsonl
+argument-hint: "<github-url | text-description> [--priority 1-5] [--labels label1,label2]"
+allowed-tools: TodoWrite(*), Bash(*), Read(*), Write(*), WebFetch(*), AskUserQuestion(*)
+---
+
+# Issue New Command (/issue:new)
+
+## Overview
+
+Creates a new structured issue from either:
+1. **GitHub Issue URL** - Fetches and parses issue content via `gh` CLI
+2. **Text Description** - Parses natural language into structured fields
+
+Outputs a well-formed issue entry to `.workflow/issues/issues.jsonl`.
+
+## Issue Structure (Closed-Loop)
+
+```typescript
+interface Issue {
+  id: string;                    // GH-123 or ISS-YYYYMMDD-HHMMSS
+  title: string;                 // Issue title (clear, concise)
+  status: 'registered';          // Initial status
+  priority: number;              // 1 (critical) to 5 (low)
+  context: string;               // Problem description
+  source: 'github' | 'text';     // Input source type
+  source_url?: string;           // GitHub URL if applicable
+  labels?: string[];             // Categorization labels
+
+  // Structured extraction
+  problem_statement: string;     // What is the problem?
+  expected_behavior?: string;    // What should happen?
+  actual_behavior?: string;      // What actually happens?
+  affected_components?: string[];// Files/modules affected
+  reproduction_steps?: string[]; // Steps to reproduce
+
+  // Closed-loop requirements (guide plan generation)
+  lifecycle_requirements: {
+    test_strategy: 'unit' | 'integration' | 'e2e' | 'manual' | 'auto';
+    regression_scope: 'affected' | 'related' | 'full';  // Which tests to run
+    acceptance_type: 'automated' | 'manual' | 'both';   // How to verify
+    commit_strategy: 'per-task' | 'squash' | 'atomic';  // Commit granularity
+  };
+
+  // Metadata
+  bound_solution_id: null;
+  solution_count: 0;
+  created_at: string;
+  updated_at: string;
+}
+```
+
+## Lifecycle Requirements
+
+The `lifecycle_requirements` field guides downstream commands (`/issue:plan`, `/issue:execute`):
+
+| Field | Options | Purpose |
+|-------|---------|---------|
+| `test_strategy` | `unit`, `integration`, `e2e`, `manual`, `auto` | Which test types to generate |
+| `regression_scope` | `affected`, `related`, `full` | Which tests to run for regression |
+| `acceptance_type` | `automated`, `manual`, `both` | How to verify completion |
+| `commit_strategy` | `per-task`, `squash`, `atomic` | Commit granularity |
+
+> **Note**: Task structure (SolutionTask) is defined in `/issue:plan` - see `.claude/commands/issue/plan.md`
+
+## Usage
+
+```bash
+# From GitHub URL
+/issue:new https://github.com/owner/repo/issues/123
+
+# From text description
+/issue:new "Login fails when password contains special characters. Expected: successful login. Actual: 500 error. Affects src/auth/*"
+
+# With options
+/issue:new <url-or-text> --priority 2 --labels "bug,auth"
+```
+
+## Implementation
+
+### Phase 1: Input Detection
+
+```javascript
+const input = userInput.trim();
+const flags = parseFlags(userInput);  // --priority, --labels
+
+// Detect input type
+const isGitHubUrl = input.match(/github\.com\/[\w-]+\/[\w-]+\/issues\/\d+/);
+const isGitHubShort = input.match(/^#(\d+)$/);  // #123 format
+
+let issueData = {};
+
+if (isGitHubUrl || isGitHubShort) {
+  // GitHub issue - fetch via gh CLI
+  issueData = await fetchGitHubIssue(input);
+} else {
+  // Text description - parse structure
+  issueData = await parseTextDescription(input);
+}
+```
+
+### Phase 2: GitHub Issue Fetching
+
+```javascript
+async function fetchGitHubIssue(urlOrNumber) {
+  let issueRef;
+  
+  if (urlOrNumber.startsWith('http')) {
+    // Extract owner/repo/number from URL
+    const match = urlOrNumber.match(/github\.com\/([\w-]+)\/([\w-]+)\/issues\/(\d+)/);
+    if (!match) throw new Error('Invalid GitHub URL');
+    issueRef = `${match[1]}/${match[2]}#${match[3]}`;
+  } else {
+    // #123 format - use current repo
+    issueRef = urlOrNumber.replace('#', '');
+  }
+  
+  // Fetch via gh CLI
+  const result = Bash(`gh issue view ${issueRef} --json number,title,body,labels,state,url`);
+  const ghIssue = JSON.parse(result);
+  
+  // Parse body for structure
+  const parsed = parseIssueBody(ghIssue.body);
+  
+  return {
+    id: `GH-${ghIssue.number}`,
+    title: ghIssue.title,
+    source: 'github',
+    source_url: ghIssue.url,
+    labels: ghIssue.labels.map(l => l.name),
+    context: ghIssue.body,
+    ...parsed
+  };
+}
+
+function parseIssueBody(body) {
+  // Extract structured sections from markdown body
+  const sections = {};
+  
+  // Problem/Description
+  const problemMatch = body.match(/##?\s*(problem|description|issue)[:\s]*([\s\S]*?)(?=##|$)/i);
+  if (problemMatch) sections.problem_statement = problemMatch[2].trim();
+  
+  // Expected behavior
+  const expectedMatch = body.match(/##?\s*(expected|should)[:\s]*([\s\S]*?)(?=##|$)/i);
+  if (expectedMatch) sections.expected_behavior = expectedMatch[2].trim();
+  
+  // Actual behavior
+  const actualMatch = body.match(/##?\s*(actual|current)[:\s]*([\s\S]*?)(?=##|$)/i);
+  if (actualMatch) sections.actual_behavior = actualMatch[2].trim();
+  
+  // Steps to reproduce
+  const stepsMatch = body.match(/##?\s*(steps|reproduce)[:\s]*([\s\S]*?)(?=##|$)/i);
+  if (stepsMatch) {
+    const stepsText = stepsMatch[2].trim();
+    sections.reproduction_steps = stepsText
+      .split('\n')
+      .filter(line => line.match(/^\s*[\d\-\*]/))
+      .map(line => line.replace(/^\s*[\d\.\-\*]\s*/, '').trim());
+  }
+  
+  // Affected components (from file references)
+  const fileMatches = body.match(/`[^`]*\.(ts|js|tsx|jsx|py|go|rs)[^`]*`/g);
+  if (fileMatches) {
+    sections.affected_components = [...new Set(fileMatches.map(f => f.replace(/`/g, '')))];
+  }
+  
+  // Fallback: use entire body as problem statement
+  if (!sections.problem_statement) {
+    sections.problem_statement = body.substring(0, 500);
+  }
+  
+  return sections;
+}
+```
+
+### Phase 3: Text Description Parsing
+
+```javascript
+async function parseTextDescription(text) {
+  // Generate unique ID
+  const id = `ISS-${new Date().toISOString().replace(/[-:T]/g, '').slice(0, 14)}`;
+  
+  // Extract structured elements using patterns
+  const result = {
+    id,
+    source: 'text',
+    title: '',
+    problem_statement: '',
+    expected_behavior: null,
+    actual_behavior: null,
+    affected_components: [],
+    reproduction_steps: []
+  };
+  
+  // Pattern: "Title. Description. Expected: X. Actual: Y. Affects: files"
+  const sentences = text.split(/\.(?=\s|$)/);
+  
+  // First sentence as title
+  result.title = sentences[0]?.trim() || 'Untitled Issue';
+  
+  // Look for keywords
+  for (const sentence of sentences) {
+    const s = sentence.trim();
+    
+    if (s.match(/^expected:?\s*/i)) {
+      result.expected_behavior = s.replace(/^expected:?\s*/i, '');
+    } else if (s.match(/^actual:?\s*/i)) {
+      result.actual_behavior = s.replace(/^actual:?\s*/i, '');
+    } else if (s.match(/^affects?:?\s*/i)) {
+      const components = s.replace(/^affects?:?\s*/i, '').split(/[,\s]+/);
+      result.affected_components = components.filter(c => c.includes('/') || c.includes('.'));
+    } else if (s.match(/^steps?:?\s*/i)) {
+      result.reproduction_steps = s.replace(/^steps?:?\s*/i, '').split(/[,;]/);
+    } else if (!result.problem_statement && s.length > 10) {
+      result.problem_statement = s;
+    }
+  }
+  
+  // Fallback problem statement
+  if (!result.problem_statement) {
+    result.problem_statement = text.substring(0, 300);
+  }
+  
+  return result;
+}
+```
+
+### Phase 4: Lifecycle Configuration
+
+```javascript
+// Ask for lifecycle requirements (or use smart defaults)
+const lifecycleAnswer = AskUserQuestion({
+  questions: [
+    {
+      question: 'Test strategy for this issue?',
+      header: 'Test',
+      multiSelect: false,
+      options: [
+        { label: 'auto', description: 'Auto-detect based on affected files (Recommended)' },
+        { label: 'unit', description: 'Unit tests only' },
+        { label: 'integration', description: 'Integration tests' },
+        { label: 'e2e', description: 'End-to-end tests' },
+        { label: 'manual', description: 'Manual testing only' }
+      ]
+    },
+    {
+      question: 'Regression scope?',
+      header: 'Regression',
+      multiSelect: false,
+      options: [
+        { label: 'affected', description: 'Only affected module tests (Recommended)' },
+        { label: 'related', description: 'Affected + dependent modules' },
+        { label: 'full', description: 'Full test suite' }
+      ]
+    },
+    {
+      question: 'Commit strategy?',
+      header: 'Commit',
+      multiSelect: false,
+      options: [
+        { label: 'per-task', description: 'One commit per task (Recommended)' },
+        { label: 'atomic', description: 'Single commit for entire issue' },
+        { label: 'squash', description: 'Squash at the end' }
+      ]
+    }
+  ]
+});
+
+const lifecycle = {
+  test_strategy: lifecycleAnswer.test || 'auto',
+  regression_scope: lifecycleAnswer.regression || 'affected',
+  acceptance_type: 'automated',
+  commit_strategy: lifecycleAnswer.commit || 'per-task'
+};
+
+issueData.lifecycle_requirements = lifecycle;
+```
+
+### Phase 5: User Confirmation
+
+```javascript
+// Show parsed data and ask for confirmation
+console.log(`
+## Parsed Issue
+
+**ID**: ${issueData.id}
+**Title**: ${issueData.title}
+**Source**: ${issueData.source}${issueData.source_url ? ` (${issueData.source_url})` : ''}
+
+### Problem Statement
+${issueData.problem_statement}
+
+${issueData.expected_behavior ? `### Expected Behavior\n${issueData.expected_behavior}\n` : ''}
+${issueData.actual_behavior ? `### Actual Behavior\n${issueData.actual_behavior}\n` : ''}
+${issueData.affected_components?.length ? `### Affected Components\n${issueData.affected_components.map(c => `- ${c}`).join('\n')}\n` : ''}
+${issueData.reproduction_steps?.length ? `### Reproduction Steps\n${issueData.reproduction_steps.map((s, i) => `${i+1}. ${s}`).join('\n')}\n` : ''}
+
+### Lifecycle Configuration
+- **Test Strategy**: ${lifecycle.test_strategy}
+- **Regression Scope**: ${lifecycle.regression_scope}
+- **Commit Strategy**: ${lifecycle.commit_strategy}
+`);
+
+// Ask user to confirm or edit
+const answer = AskUserQuestion({
+  questions: [{
+    question: 'Create this issue?',
+    header: 'Confirm',
+    multiSelect: false,
+    options: [
+      { label: 'Create', description: 'Save issue to issues.jsonl' },
+      { label: 'Edit Title', description: 'Modify the issue title' },
+      { label: 'Edit Priority', description: 'Change priority (1-5)' },
+      { label: 'Cancel', description: 'Discard and exit' }
+    ]
+  }]
+});
+
+if (answer.includes('Cancel')) {
+  console.log('Issue creation cancelled.');
+  return;
+}
+
+if (answer.includes('Edit Title')) {
+  const titleAnswer = AskUserQuestion({
+    questions: [{
+      question: 'Enter new title:',
+      header: 'Title',
+      multiSelect: false,
+      options: [
+        { label: issueData.title.substring(0, 40), description: 'Keep current' }
+      ]
+    }]
+  });
+  // Handle custom input via "Other"
+  if (titleAnswer.customText) {
+    issueData.title = titleAnswer.customText;
+  }
+}
+```
+
+### Phase 6: Write to JSONL
+
+```javascript
+// Construct final issue object
+const priority = flags.priority ? parseInt(flags.priority) : 3;
+const labels = flags.labels ? flags.labels.split(',').map(l => l.trim()) : [];
+
+const newIssue = {
+  id: issueData.id,
+  title: issueData.title,
+  status: 'registered',
+  priority,
+  context: issueData.problem_statement,
+  source: issueData.source,
+  source_url: issueData.source_url || null,
+  labels: [...(issueData.labels || []), ...labels],
+
+  // Structured fields
+  problem_statement: issueData.problem_statement,
+  expected_behavior: issueData.expected_behavior || null,
+  actual_behavior: issueData.actual_behavior || null,
+  affected_components: issueData.affected_components || [],
+  reproduction_steps: issueData.reproduction_steps || [],
+
+  // Closed-loop lifecycle requirements
+  lifecycle_requirements: issueData.lifecycle_requirements || {
+    test_strategy: 'auto',
+    regression_scope: 'affected',
+    acceptance_type: 'automated',
+    commit_strategy: 'per-task'
+  },
+
+  // Metadata
+  bound_solution_id: null,
+  solution_count: 0,
+  created_at: new Date().toISOString(),
+  updated_at: new Date().toISOString()
+};
+
+// Ensure directory exists
+Bash('mkdir -p .workflow/issues');
+
+// Append to issues.jsonl
+const issuesPath = '.workflow/issues/issues.jsonl';
+Bash(`echo '${JSON.stringify(newIssue)}' >> "${issuesPath}"`);
+
+console.log(`
+## Issue Created
+
+**ID**: ${newIssue.id}
+**Title**: ${newIssue.title}
+**Priority**: ${newIssue.priority}
+**Labels**: ${newIssue.labels.join(', ') || 'none'}
+**Source**: ${newIssue.source}
+
+### Next Steps
+1. Plan solution: \`/issue:plan ${newIssue.id}\`
+2. View details: \`ccw issue status ${newIssue.id}\`
+3. Manage issues: \`/issue:manage\`
+`);
+```
+
+## Examples
+
+### GitHub Issue
+
+```bash
+/issue:new https://github.com/myorg/myrepo/issues/42 --priority 2
+
+# Output:
+## Issue Created
+**ID**: GH-42
+**Title**: Fix memory leak in WebSocket handler
+**Priority**: 2
+**Labels**: bug, performance
+**Source**: github (https://github.com/myorg/myrepo/issues/42)
+```
+
+### Text Description
+
+```bash
+/issue:new "API rate limiting not working. Expected: 429 after 100 requests. Actual: No limit. Affects src/middleware/rate-limit.ts"
+
+# Output:
+## Issue Created
+**ID**: ISS-20251227-142530
+**Title**: API rate limiting not working
+**Priority**: 3
+**Labels**: none
+**Source**: text
+```
+
+## Error Handling
+
+| Error | Resolution |
+|-------|------------|
+| Invalid GitHub URL | Show format hint, ask for correction |
+| gh CLI not available | Fall back to WebFetch for public issues |
+| Empty description | Prompt user for required fields |
+| Duplicate issue ID | Auto-increment or suggest merge |
+| Parse failure | Show raw input, ask for manual structuring |
+
+## Related Commands
+
+- `/issue:plan` - Plan solution for issue
+- `/issue:manage` - Interactive issue management
+- `ccw issue list` - List all issues
+- `ccw issue status <id>` - View issue details
--- a/.claude/commands/issue/plan.md
+++ b/.claude/commands/issue/plan.md
@@ -0,0 +1,304 @@
+---
+name: plan
+description: Batch plan issue resolution using issue-plan-agent (explore + plan closed-loop)
+argument-hint: "--all-pending <issue-id>[,<issue-id>,...] [--batch-size 3] "
+allowed-tools: TodoWrite(*), Task(*), SlashCommand(*), AskUserQuestion(*), Bash(*), Read(*), Write(*)
+---
+
+# Issue Plan Command (/issue:plan)
+
+## Overview
+
+Unified planning command using **issue-plan-agent** that combines exploration and planning into a single closed-loop workflow.
+
+## Output Requirements
+
+**Generate Files:**
+1. `.workflow/issues/solutions/{issue-id}.jsonl` - Solution with tasks for each issue
+
+**Return Summary:**
+```json
+{
+  "bound": [{ "issue_id": "...", "solution_id": "...", "task_count": N }],
+  "pending_selection": [{ "issue_id": "...", "solutions": [...] }],
+  "conflicts": [{ "file": "...", "issues": [...] }]
+}
+```
+
+**Completion Criteria:**
+- [ ] Solution file generated for each issue
+- [ ] Single solution → auto-bound via `ccw issue bind`
+- [ ] Multiple solutions → returned for user selection
+- [ ] Tasks conform to schema: `cat .claude/workflows/cli-templates/schemas/solution-schema.json`
+- [ ] Each task has quantified `acceptance.criteria`
+
+## Core Capabilities
+
+- **Closed-loop agent**: issue-plan-agent combines explore + plan
+- Batch processing: 1 agent processes 1-3 issues
+- ACE semantic search integrated into planning
+- Solution with executable tasks and delivery criteria
+- Automatic solution registration and binding
+
+## Storage Structure (Flat JSONL)
+
+```
+.workflow/issues/
+├── issues.jsonl              # All issues (one per line)
+├── queue.json                # Execution queue
+└── solutions/
+    ├── {issue-id}.jsonl      # Solutions for issue (one per line)
+    └── ...
+```
+
+## Usage
+
+```bash
+/issue:plan <issue-id>[,<issue-id>,...] [FLAGS]
+
+# Examples
+/issue:plan GH-123                    # Single issue
+/issue:plan GH-123,GH-124,GH-125      # Batch (up to 3)
+/issue:plan --all-pending             # All pending issues
+
+# Flags
+--batch-size <n>      Max issues per agent batch (default: 3)
+```
+
+## Execution Process
+
+```
+Phase 1: Issue Loading
+   ├─ Parse input (single, comma-separated, or --all-pending)
+   ├─ Fetch issue metadata (ID, title, tags)
+   ├─ Validate issues exist (create if needed)
+   └─ Group by similarity (shared tags or title keywords, max 3 per batch)
+
+Phase 2: Unified Explore + Plan (issue-plan-agent)
+   ├─ Launch issue-plan-agent per batch
+   ├─ Agent performs:
+   │   ├─ ACE semantic search for each issue
+   │   ├─ Codebase exploration (files, patterns, dependencies)
+   │   ├─ Solution generation with task breakdown
+   │   └─ Conflict detection across issues
+   └─ Output: solution JSON per issue
+
+Phase 3: Solution Registration & Binding
+   ├─ Append solutions to solutions/{issue-id}.jsonl
+   ├─ Single solution per issue → auto-bind
+   ├─ Multiple candidates → AskUserQuestion to select
+   └─ Update issues.jsonl with bound_solution_id
+
+Phase 4: Summary
+   ├─ Display bound solutions
+   ├─ Show task counts per issue
+   └─ Display next steps (/issue:queue)
+```
+
+## Implementation
+
+### Phase 1: Issue Loading (ID + Title + Tags)
+
+```javascript
+const batchSize = flags.batchSize || 3;
+let issues = [];  // {id, title, tags}
+
+if (flags.allPending) {
+  // Get pending issues with metadata via CLI (JSON output)
+  const result = Bash(`ccw issue list --status pending,registered --json`).trim();
+  const parsed = result ? JSON.parse(result) : [];
+  issues = parsed.map(i => ({ id: i.id, title: i.title || '', tags: i.tags || [] }));
+
+  if (issues.length === 0) {
+    console.log('No pending issues found.');
+    return;
+  }
+  console.log(`Found ${issues.length} pending issues`);
+} else {
+  // Parse comma-separated issue IDs, fetch metadata
+  const ids = userInput.includes(',')
+    ? userInput.split(',').map(s => s.trim())
+    : [userInput.trim()];
+
+  for (const id of ids) {
+    Bash(`ccw issue init ${id} --title "Issue ${id}" 2>/dev/null || true`);
+    const info = Bash(`ccw issue status ${id} --json`).trim();
+    const parsed = info ? JSON.parse(info) : {};
+    issues.push({ id, title: parsed.title || '', tags: parsed.tags || [] });
+  }
+}
+
+// Intelligent grouping by similarity (tags → title keywords)
+function groupBySimilarity(issues, maxSize) {
+  const batches = [];
+  const used = new Set();
+
+  for (const issue of issues) {
+    if (used.has(issue.id)) continue;
+
+    const batch = [issue];
+    used.add(issue.id);
+    const issueTags = new Set(issue.tags);
+    const issueWords = new Set(issue.title.toLowerCase().split(/\s+/));
+
+    // Find similar issues
+    for (const other of issues) {
+      if (used.has(other.id) || batch.length >= maxSize) continue;
+
+      // Similarity: shared tags or shared title keywords
+      const sharedTags = other.tags.filter(t => issueTags.has(t)).length;
+      const otherWords = other.title.toLowerCase().split(/\s+/);
+      const sharedWords = otherWords.filter(w => issueWords.has(w) && w.length > 3).length;
+
+      if (sharedTags > 0 || sharedWords >= 2) {
+        batch.push(other);
+        used.add(other.id);
+      }
+    }
+    batches.push(batch);
+  }
+  return batches;
+}
+
+const batches = groupBySimilarity(issues, batchSize);
+console.log(`Processing ${issues.length} issues in ${batches.length} batch(es) (grouped by similarity)`);
+
+TodoWrite({
+  todos: batches.map((_, i) => ({
+    content: `Plan batch ${i+1}`,
+    status: 'pending',
+    activeForm: `Planning batch ${i+1}`
+  }))
+});
+```
+
+### Phase 2: Unified Explore + Plan (issue-plan-agent)
+
+```javascript
+Bash(`mkdir -p .workflow/issues/solutions`);
+const pendingSelections = [];  // Collect multi-solution issues for user selection
+
+for (const [batchIndex, batch] of batches.entries()) {
+  updateTodo(`Plan batch ${batchIndex + 1}`, 'in_progress');
+
+  // Build issue list with metadata for agent context
+  const issueList = batch.map(i => `- ${i.id}: ${i.title}${i.tags.length ? ` [${i.tags.join(', ')}]` : ''}`).join('\n');
+
+  // Build minimal prompt - agent handles exploration, planning, and binding
+  const issuePrompt = `
+## Plan Issues
+
+**Issues** (grouped by similarity):
+${issueList}
+
+**Project Root**: ${process.cwd()}
+
+### Steps
+1. Fetch: \`ccw issue status <id> --json\`
+2. Explore (ACE) → Plan solution
+3. Register & bind: \`ccw issue bind <id> --solution <file>\`
+
+### Generate Files
+\`.workflow/issues/solutions/{issue-id}.jsonl\` - Solution with tasks (schema: cat .claude/workflows/cli-templates/schemas/solution-schema.json)
+
+### Binding Rules
+- **Single solution**: Auto-bind via \`ccw issue bind <id> --solution <file>\`
+- **Multiple solutions**: Register only, return for user selection
+
+### Return Summary
+\`\`\`json
+{
+  "bound": [{ "issue_id": "...", "solution_id": "...", "task_count": N }],
+  "pending_selection": [{ "issue_id": "...", "solutions": [{ "id": "...", "description": "...", "task_count": N }] }],
+  "conflicts": [{ "file": "...", "issues": [...] }]
+}
+\`\`\`
+`;
+
+  // Launch issue-plan-agent - agent writes solutions directly
+  const batchIds = batch.map(i => i.id);
+  const result = Task(
+    subagent_type="issue-plan-agent",
+    run_in_background=false,
+    description=`Explore & plan ${batch.length} issues: ${batchIds.join(', ')}`,
+    prompt=issuePrompt
+  );
+
+  // Parse summary from agent
+  const summary = JSON.parse(result);
+
+  // Display auto-bound solutions
+  for (const item of summary.bound || []) {
+    console.log(`✓ ${item.issue_id}: ${item.solution_id} (${item.task_count} tasks)`);
+  }
+
+  // Collect pending selections for Phase 3
+  pendingSelections.push(...(summary.pending_selection || []));
+
+  // Show conflicts
+  if (summary.conflicts?.length > 0) {
+    console.log(`⚠ Conflicts: ${summary.conflicts.map(c => c.file).join(', ')}`);
+  }
+
+  updateTodo(`Plan batch ${batchIndex + 1}`, 'completed');
+}
+```
+
+### Phase 3: Multi-Solution Selection
+
+```javascript
+// Only handle issues where agent generated multiple solutions
+if (pendingSelections.length > 0) {
+  const answer = AskUserQuestion({
+    questions: pendingSelections.map(({ issue_id, solutions }) => ({
+      question: `Select solution for ${issue_id}:`,
+      header: issue_id,
+      multiSelect: false,
+      options: solutions.map(s => ({
+        label: `${s.id} (${s.task_count} tasks)`,
+        description: s.description
+      }))
+    }))
+  });
+
+  // Bind user-selected solutions
+  for (const { issue_id } of pendingSelections) {
+    const selectedId = extractSelectedSolutionId(answer, issue_id);
+    if (selectedId) {
+      Bash(`ccw issue bind ${issue_id} ${selectedId}`);
+      console.log(`✓ ${issue_id}: ${selectedId} bound`);
+    }
+  }
+}
+```
+
+### Phase 4: Summary
+
+```javascript
+// Count planned issues via CLI
+const plannedIds = Bash(`ccw issue list --status planned --ids`).trim();
+const plannedCount = plannedIds ? plannedIds.split('\n').length : 0;
+
+console.log(`
+## Done: ${issues.length} issues → ${plannedCount} planned
+
+Next: \`/issue:queue\` → \`/issue:execute\`
+`);
+```
+
+## Error Handling
+
+| Error | Resolution |
+|-------|------------|
+| Issue not found | Auto-create in issues.jsonl |
+| ACE search fails | Agent falls back to ripgrep |
+| No solutions generated | Display error, suggest manual planning |
+| User cancels selection | Skip issue, continue with others |
+| File conflicts | Agent detects and suggests resolution order |
+
+## Related Commands
+
+- `/issue:queue` - Form execution queue from bound solutions
+- `/issue:execute` - Execute queue with codex
+- `ccw issue list` - List all issues
+- `ccw issue status` - View issue and solution details
--- a/.claude/commands/issue/queue.md
+++ b/.claude/commands/issue/queue.md
@@ -0,0 +1,294 @@
+---
+name: queue
+description: Form execution queue from bound solutions using issue-queue-agent
+argument-hint: "[--rebuild] [--issue <id>]"
+allowed-tools: TodoWrite(*), Task(*), Bash(*), Read(*), Write(*)
+---
+
+# Issue Queue Command (/issue:queue)
+
+## Overview
+
+Queue formation command using **issue-queue-agent** that analyzes all bound solutions, resolves conflicts, and creates an ordered execution queue.
+
+## Output Requirements
+
+**Generate Files:**
+1. `.workflow/issues/queues/{queue-id}.json` - Full queue with tasks, conflicts, groups
+2. `.workflow/issues/queues/index.json` - Update with new queue entry
+
+**Return Summary:**
+```json
+{
+  "queue_id": "QUE-20251227-143000",
+  "total_tasks": N,
+  "execution_groups": [{ "id": "P1", "type": "parallel", "count": N }],
+  "conflicts_resolved": N,
+  "issues_queued": ["GH-123", "GH-124"]
+}
+```
+
+**Completion Criteria:**
+- [ ] Queue JSON generated with valid DAG (no cycles)
+- [ ] All file conflicts resolved with rationale
+- [ ] Semantic priority calculated for all tasks
+- [ ] Execution groups assigned (parallel P* / sequential S*)
+- [ ] Issue statuses updated to `queued` via `ccw issue update`
+
+## Core Capabilities
+
+- **Agent-driven**: issue-queue-agent handles all ordering logic
+- Dependency DAG construction and cycle detection
+- File conflict detection and resolution
+- Semantic priority calculation (0.0-1.0)
+- Parallel/Sequential group assignment
+
+## Storage Structure (Queue History)
+
+```
+.workflow/issues/
+├── issues.jsonl              # All issues (one per line)
+├── queues/                   # Queue history directory
+│   ├── index.json            # Queue index (active + history)
+│   ├── {queue-id}.json       # Individual queue files
+│   └── ...
+└── solutions/
+    ├── {issue-id}.jsonl      # Solutions for issue
+    └── ...
+```
+
+### Queue Index Schema
+
+```json
+{
+  "active_queue_id": "QUE-20251227-143000",
+  "queues": [
+    {
+      "id": "QUE-20251227-143000",
+      "status": "active",
+      "issue_ids": ["GH-123", "GH-124"],
+      "total_tasks": 8,
+      "completed_tasks": 3,
+      "created_at": "2025-12-27T14:30:00Z"
+    },
+    {
+      "id": "QUE-20251226-100000",
+      "status": "completed",
+      "issue_ids": ["GH-120"],
+      "total_tasks": 5,
+      "completed_tasks": 5,
+      "created_at": "2025-12-26T10:00:00Z",
+      "completed_at": "2025-12-26T12:30:00Z"
+    }
+  ]
+}
+```
+
+## Usage
+
+```bash
+/issue:queue [FLAGS]
+
+# Examples
+/issue:queue                      # Form NEW queue from all bound solutions
+/issue:queue --issue GH-123       # Form queue for specific issue only
+/issue:queue --append GH-124      # Append to active queue
+/issue:queue --list               # List all queues (history)
+/issue:queue --switch QUE-xxx     # Switch active queue
+/issue:queue --archive            # Archive completed active queue
+
+# Flags
+--issue <id>          Form queue for specific issue only
+--append <id>         Append issue to active queue (don't create new)
+
+# CLI subcommands (ccw issue queue ...)
+ccw issue queue list                  List all queues with status
+ccw issue queue switch <queue-id>     Switch active queue
+ccw issue queue archive               Archive current queue
+ccw issue queue delete <queue-id>     Delete queue from history
+```
+
+## Execution Process
+
+```
+Phase 1: Solution Loading
+   ├─ Load issues.jsonl
+   ├─ Filter issues with bound_solution_id
+   ├─ Read solutions/{issue-id}.jsonl for each issue
+   ├─ Find bound solution by ID
+   └─ Extract tasks from bound solutions
+
+Phase 2-4: Agent-Driven Queue Formation (issue-queue-agent)
+   ├─ Launch issue-queue-agent with all tasks
+   ├─ Agent performs:
+   │   ├─ Build dependency DAG from depends_on
+   │   ├─ Detect circular dependencies
+   │   ├─ Identify file modification conflicts
+   │   ├─ Resolve conflicts using ordering rules
+   │   ├─ Calculate semantic priority (0.0-1.0)
+   │   └─ Assign execution groups (parallel/sequential)
+   └─ Output: queue JSON with ordered tasks
+
+Phase 5: Queue Output
+   ├─ Write queue.json
+   ├─ Update issue statuses in issues.jsonl
+   └─ Display queue summary
+```
+
+## Implementation
+
+### Phase 1: Solution Loading
+
+```javascript
+// Load issues.jsonl
+const issuesPath = '.workflow/issues/issues.jsonl';
+const allIssues = Bash(`cat "${issuesPath}" 2>/dev/null || echo ''`)
+  .split('\n')
+  .filter(line => line.trim())
+  .map(line => JSON.parse(line));
+
+// Filter issues with bound solutions
+const plannedIssues = allIssues.filter(i =>
+  i.status === 'planned' && i.bound_solution_id
+);
+
+if (plannedIssues.length === 0) {
+  console.log('No issues with bound solutions found.');
+  console.log('Run /issue:plan first to create and bind solutions.');
+  return;
+}
+
+// Load all tasks from bound solutions
+const allTasks = [];
+for (const issue of plannedIssues) {
+  const solPath = `.workflow/issues/solutions/${issue.id}.jsonl`;
+  const solutions = Bash(`cat "${solPath}" 2>/dev/null || echo ''`)
+    .split('\n')
+    .filter(line => line.trim())
+    .map(line => JSON.parse(line));
+
+  // Find bound solution
+  const boundSol = solutions.find(s => s.id === issue.bound_solution_id);
+
+  if (!boundSol) {
+    console.log(`⚠ Bound solution ${issue.bound_solution_id} not found for ${issue.id}`);
+    continue;
+  }
+
+  for (const task of boundSol.tasks || []) {
+    allTasks.push({
+      issue_id: issue.id,
+      solution_id: issue.bound_solution_id,
+      task,
+      exploration_context: boundSol.exploration_context
+    });
+  }
+}
+
+console.log(`Loaded ${allTasks.length} tasks from ${plannedIssues.length} issues`);
+```
+
+### Phase 2-4: Agent-Driven Queue Formation
+
+```javascript
+// Build minimal prompt - agent reads schema and handles ordering
+const agentPrompt = `
+## Order Tasks
+
+**Tasks**: ${allTasks.length} from ${plannedIssues.length} issues
+**Project Root**: ${process.cwd()}
+
+### Input
+\`\`\`json
+${JSON.stringify(allTasks.map(t => ({
+  key: \`\${t.issue_id}:\${t.task.id}\`,
+  type: t.task.type,
+  file_context: t.task.file_context,
+  depends_on: t.task.depends_on
+})), null, 2)}
+\`\`\`
+
+### Steps
+1. Parse tasks: Extract task keys, types, file contexts, dependencies
+2. Build DAG: Construct dependency graph from depends_on references
+3. Detect cycles: Verify no circular dependencies exist (abort if found)
+4. Detect conflicts: Identify file modification conflicts across issues
+5. Resolve conflicts: Apply ordering rules (Create→Update→Delete, config→src→tests)
+6. Calculate priority: Compute semantic priority (0.0-1.0) for each task
+7. Assign groups: Assign parallel (P*) or sequential (S*) execution groups
+8. Generate queue: Write queue JSON with ordered tasks
+9. Update index: Update queues/index.json with new queue entry
+
+### Rules
+- **DAG Validity**: Output must be valid DAG with no circular dependencies
+- **Conflict Resolution**: All file conflicts must be resolved with rationale
+- **Ordering Priority**:
+  1. Create before Update (files must exist before modification)
+  2. Foundation before integration (config/ → src/)
+  3. Types before implementation (types/ → components/)
+  4. Core before tests (src/ → __tests__/)
+  5. Delete last (preserve dependencies until no longer needed)
+- **Parallel Safety**: Tasks in same parallel group must have no file conflicts
+- **Queue ID Format**: \`QUE-YYYYMMDD-HHMMSS\` (UTC timestamp)
+
+### Generate Files
+1. \`.workflow/issues/queues/\${queueId}.json\` - Full queue (schema: cat .claude/workflows/cli-templates/schemas/queue-schema.json)
+2. \`.workflow/issues/queues/index.json\` - Update with new entry
+
+### Return Summary
+\`\`\`json
+{
+  "queue_id": "QUE-YYYYMMDD-HHMMSS",
+  "total_tasks": N,
+  "execution_groups": [{ "id": "P1", "type": "parallel", "count": N }],
+  "conflicts_resolved": N,
+  "issues_queued": ["GH-123"]
+}
+\`\`\`
+`;
+
+const result = Task(
+  subagent_type="issue-queue-agent",
+  run_in_background=false,
+  description=`Order ${allTasks.length} tasks`,
+  prompt=agentPrompt
+);
+
+const summary = JSON.parse(result);
+```
+
+### Phase 5: Summary & Status Update
+
+```javascript
+// Agent already generated queue files, use summary
+console.log(`
+## Queue Formed: ${summary.queue_id}
+
+**Tasks**: ${summary.total_tasks}
+**Issues**: ${summary.issues_queued.join(', ')}
+**Groups**: ${summary.execution_groups.map(g => `${g.id}(${g.count})`).join(', ')}
+**Conflicts Resolved**: ${summary.conflicts_resolved}
+
+Next: \`/issue:execute\`
+`);
+
+// Update issue statuses via CLI
+for (const issueId of summary.issues_queued) {
+  Bash(`ccw issue update ${issueId} --status queued`);
+}
+```
+
+## Error Handling
+
+| Error | Resolution |
+|-------|------------|
+| No bound solutions | Display message, suggest /issue:plan |
+| Circular dependency | List cycles, abort queue formation |
+| Unresolved conflicts | Agent resolves using ordering rules |
+| Invalid task reference | Skip and warn |
+
+## Related Commands
+
+- `/issue:plan` - Plan issues and bind solutions
+- `/issue:execute` - Execute queue with codex
+- `ccw issue queue list` - View current queue
--- a/.claude/commands/memory/compact.md
+++ b/.claude/commands/memory/compact.md
@@ -0,0 +1,383 @@
+---
+name: compact
+description: Compact current session memory into structured text for session recovery, extracting objective/plan/files/decisions/constraints/state, and save via MCP core_memory tool
+argument-hint: "[optional: session description]"
+allowed-tools: mcp__ccw-tools__core_memory(*), Read(*)
+examples:
+  - /memory:compact
+  - /memory:compact "completed core-memory module"
+---
+
+# Memory Compact Command (/memory:compact)
+
+## 1. Overview
+
+The `memory:compact` command **compresses current session working memory** into structured text optimized for **session recovery**, extracts critical information, and saves it to persistent storage via MCP `core_memory` tool.
+
+**Core Philosophy**:
+- **Session Recovery First**: Capture everything needed to resume work seamlessly
+- **Minimize Re-exploration**: Include file paths, decisions, and state to avoid redundant analysis
+- **Preserve Train of Thought**: Keep notes and hypotheses for complex debugging
+- **Actionable State**: Record last action result and known issues
+
+## 2. Parameters
+
+- `"session description"` (Optional): Session description to supplement objective
+  - Example: "completed core-memory module"
+  - Example: "debugging JWT refresh - suspected memory leak"
+
+## 3. Structured Output Format
+
+```markdown
+## Session ID
+[WFS-ID if workflow session active, otherwise (none)]
+
+## Project Root
+[Absolute path to project root, e.g., D:\Claude_dms3]
+
+## Objective
+[High-level goal - the "North Star" of this session]
+
+## Execution Plan
+[CRITICAL: Embed the LATEST plan in its COMPLETE and DETAILED form]
+
+### Source: [workflow | todo | user-stated | inferred]
+
+<details>
+<summary>Full Execution Plan (Click to expand)</summary>
+
+[PRESERVE COMPLETE PLAN VERBATIM - DO NOT SUMMARIZE]
+- ALL phases, tasks, subtasks
+- ALL file paths (absolute)
+- ALL dependencies and prerequisites
+- ALL acceptance criteria
+- ALL status markers ([x] done, [ ] pending)
+- ALL notes and context
+
+Example:
+## Phase 1: Setup
+- [x] Initialize project structure
+  - Created D:\Claude_dms3\src\core\index.ts
+  - Added dependencies: lodash, zod
+- [ ] Configure TypeScript
+  - Update tsconfig.json for strict mode
+
+## Phase 2: Implementation
+- [ ] Implement core API
+  - Target: D:\Claude_dms3\src\api\handler.ts
+  - Dependencies: Phase 1 complete
+  - Acceptance: All tests pass
+
+</details>
+
+## Working Files (Modified)
+[Absolute paths to actively modified files]
+- D:\Claude_dms3\src\file1.ts (role: main implementation)
+- D:\Claude_dms3\tests\file1.test.ts (role: unit tests)
+
+## Reference Files (Read-Only)
+[Absolute paths to context files - NOT modified but essential for understanding]
+- D:\Claude_dms3\.claude\CLAUDE.md (role: project instructions)
+- D:\Claude_dms3\src\types\index.ts (role: type definitions)
+- D:\Claude_dms3\package.json (role: dependencies)
+
+## Last Action
+[Last significant action and its result/status]
+
+## Decisions
+- [Decision]: [Reasoning]
+- [Decision]: [Reasoning]
+
+## Constraints
+- [User-specified limitation or preference]
+
+## Dependencies
+- [Added/changed packages or environment requirements]
+
+## Known Issues
+- [Deferred bug or edge case]
+
+## Changes Made
+- [Completed modification]
+
+## Pending
+- [Next step] or (none)
+
+## Notes
+[Unstructured thoughts, hypotheses, debugging trails]
+```
+
+## 4. Field Definitions
+
+| Field | Purpose | Recovery Value |
+|-------|---------|----------------|
+| **Session ID** | Workflow session identifier (WFS-*) | Links memory to specific stateful task execution |
+| **Project Root** | Absolute path to project directory | Enables correct path resolution in new sessions |
+| **Objective** | Ultimate goal of the session | Prevents losing track of broader feature |
+| **Execution Plan** | Complete plan from any source (verbatim) | Preserves full planning context, avoids re-planning |
+| **Working Files** | Actively modified files (absolute paths) | Immediately identifies where work was happening |
+| **Reference Files** | Read-only context files (absolute paths) | Eliminates re-exploration for critical context |
+| **Last Action** | Final tool output/status | Immediate state awareness (success/failure) |
+| **Decisions** | Architectural choices + reasoning | Prevents re-litigating settled decisions |
+| **Constraints** | User-imposed limitations | Maintains personalized coding style |
+| **Dependencies** | Package/environment changes | Prevents missing dependency errors |
+| **Known Issues** | Deferred bugs/edge cases | Ensures issues aren't forgotten |
+| **Changes Made** | Completed modifications | Clear record of what was done |
+| **Pending** | Next steps | Immediate action items |
+| **Notes** | Hypotheses, debugging trails | Preserves "train of thought" |
+
+## 5. Execution Flow
+
+### Step 1: Analyze Current Session
+
+Extract the following from conversation history:
+
+```javascript
+const sessionAnalysis = {
+  sessionId: "",       // WFS-* if workflow session active, null otherwise
+  projectRoot: "",     // Absolute path: D:\Claude_dms3
+  objective: "",       // High-level goal (1-2 sentences)
+  executionPlan: {
+    source: "workflow" | "todo" | "user-stated" | "inferred",
+    content: ""        // Full plan content - ALWAYS preserve COMPLETE and DETAILED form
+  },
+  workingFiles: [],    // {absolutePath, role} - modified files
+  referenceFiles: [],  // {absolutePath, role} - read-only context files
+  lastAction: "",      // Last significant action + result
+  decisions: [],       // {decision, reasoning}
+  constraints: [],     // User-specified limitations
+  dependencies: [],    // Added/changed packages
+  knownIssues: [],     // Deferred bugs
+  changesMade: [],     // Completed modifications
+  pending: [],         // Next steps
+  notes: ""            // Unstructured thoughts
+}
+```
+
+### Step 2: Generate Structured Text
+
+```javascript
+// Helper: Generate execution plan section
+const generateExecutionPlan = (plan) => {
+  const sourceLabels = {
+    'workflow': 'workflow (IMPL_PLAN.md)',
+    'todo': 'todo (TodoWrite)',
+    'user-stated': 'user-stated',
+    'inferred': 'inferred'
+  };
+
+  // CRITICAL: Preserve complete plan content verbatim - DO NOT summarize
+  return `### Source: ${sourceLabels[plan.source] || plan.source}
+
+<details>
+<summary>Full Execution Plan (Click to expand)</summary>
+
+${plan.content}
+
+</details>`;
+};
+
+const structuredText = `## Session ID
+${sessionAnalysis.sessionId || '(none)'}
+
+## Project Root
+${sessionAnalysis.projectRoot}
+
+## Objective
+${sessionAnalysis.objective}
+
+## Execution Plan
+${generateExecutionPlan(sessionAnalysis.executionPlan)}
+
+## Working Files (Modified)
+${sessionAnalysis.workingFiles.map(f => `- ${f.absolutePath} (role: ${f.role})`).join('\n') || '(none)'}
+
+## Reference Files (Read-Only)
+${sessionAnalysis.referenceFiles.map(f => `- ${f.absolutePath} (role: ${f.role})`).join('\n') || '(none)'}
+
+## Last Action
+${sessionAnalysis.lastAction}
+
+## Decisions
+${sessionAnalysis.decisions.map(d => `- ${d.decision}: ${d.reasoning}`).join('\n') || '(none)'}
+
+## Constraints
+${sessionAnalysis.constraints.map(c => `- ${c}`).join('\n') || '(none)'}
+
+## Dependencies
+${sessionAnalysis.dependencies.map(d => `- ${d}`).join('\n') || '(none)'}
+
+## Known Issues
+${sessionAnalysis.knownIssues.map(i => `- ${i}`).join('\n') || '(none)'}
+
+## Changes Made
+${sessionAnalysis.changesMade.map(c => `- ${c}`).join('\n') || '(none)'}
+
+## Pending
+${sessionAnalysis.pending.length > 0
+  ? sessionAnalysis.pending.map(p => `- ${p}`).join('\n')
+  : '(none)'}
+
+## Notes
+${sessionAnalysis.notes || '(none)'}`
+```
+
+### Step 3: Import to Core Memory via MCP
+
+Use the MCP `core_memory` tool to save the structured text:
+
+```javascript
+mcp__ccw-tools__core_memory({
+  operation: "import",
+  text: structuredText
+})
+```
+
+Or via CLI (pipe structured text to import):
+
+```bash
+# Write structured text to temp file, then import
+echo "$structuredText" | ccw core-memory import
+
+# Or from a file
+ccw core-memory import --file /path/to/session-memory.md
+```
+
+**Response Format**:
+```json
+{
+  "operation": "import",
+  "id": "CMEM-YYYYMMDD-HHMMSS",
+  "message": "Created memory: CMEM-YYYYMMDD-HHMMSS"
+}
+```
+
+### Step 4: Report Recovery ID
+
+After successful import, **clearly display the Recovery ID** to the user:
+
+```
+╔════════════════════════════════════════════════════════════════════════════╗
+║  ✓ Session Memory Saved                                                    ║
+║                                                                            ║
+║  Recovery ID: CMEM-YYYYMMDD-HHMMSS                                         ║
+║                                                                            ║
+║  To restore: "Please import memory <ID>"                                   ║
+║  (MCP: core_memory export | CLI: ccw core-memory export --id <ID>)         ║
+╚════════════════════════════════════════════════════════════════════════════╝
+```
+
+## 6. Quality Checklist
+
+Before generating:
+- [ ] Session ID captured if workflow session active (WFS-*)
+- [ ] Project Root is absolute path (e.g., D:\Claude_dms3)
+- [ ] Objective clearly states the "North Star" goal
+- [ ] Execution Plan: COMPLETE plan preserved VERBATIM (no summarization)
+- [ ] Plan Source: Clearly identified (workflow | todo | user-stated | inferred)
+- [ ] Plan Details: ALL phases, tasks, file paths, dependencies, status markers included
+- [ ] All file paths are ABSOLUTE (not relative)
+- [ ] Working Files: 3-8 modified files with roles
+- [ ] Reference Files: Key context files (CLAUDE.md, types, configs)
+- [ ] Last Action captures final state (success/failure)
+- [ ] Decisions include reasoning, not just choices
+- [ ] Known Issues separates deferred from forgotten bugs
+- [ ] Notes preserve debugging hypotheses if any
+
+## 7. Path Resolution Rules
+
+### Project Root Detection
+1. Check current working directory from environment
+2. Look for project markers: `.git/`, `package.json`, `.claude/`
+3. Use the topmost directory containing these markers
+
+### Absolute Path Conversion
+```javascript
+// Convert relative to absolute
+const toAbsolutePath = (relativePath, projectRoot) => {
+  if (path.isAbsolute(relativePath)) return relativePath;
+  return path.join(projectRoot, relativePath);
+};
+
+// Example: "src/api/auth.ts" → "D:\Claude_dms3\src\api\auth.ts"
+```
+
+### Reference File Categories
+| Category | Examples | Priority |
+|----------|----------|----------|
+| Project Config | `.claude/CLAUDE.md`, `package.json`, `tsconfig.json` | High |
+| Type Definitions | `src/types/*.ts`, `*.d.ts` | High |
+| Related Modules | Parent/sibling modules with shared interfaces | Medium |
+| Test Files | Corresponding test files for modified code | Medium |
+| Documentation | `README.md`, `ARCHITECTURE.md` | Low |
+
+## 8. Plan Detection (Priority Order)
+
+### Priority 1: Workflow Session (IMPL_PLAN.md)
+```javascript
+// Check for active workflow session
+const manifest = await mcp__ccw-tools__session_manager({
+  operation: "list",
+  location: "active"
+});
+
+if (manifest.sessions?.length > 0) {
+  const session = manifest.sessions[0];
+  const plan = await mcp__ccw-tools__session_manager({
+    operation: "read",
+    session_id: session.id,
+    content_type: "plan"
+  });
+  sessionAnalysis.sessionId = session.id;
+  sessionAnalysis.executionPlan.source = "workflow";
+  sessionAnalysis.executionPlan.content = plan.content;
+}
+```
+
+### Priority 2: TodoWrite (Current Session Todos)
+```javascript
+// Extract from conversation - look for TodoWrite tool calls
+// Preserve COMPLETE todo list with all details
+const todos = extractTodosFromConversation();
+if (todos.length > 0) {
+  sessionAnalysis.executionPlan.source = "todo";
+  // Format todos with full context - preserve status markers
+  sessionAnalysis.executionPlan.content = todos.map(t =>
+    `- [${t.status === 'completed' ? 'x' : t.status === 'in_progress' ? '>' : ' '}] ${t.content}`
+  ).join('\n');
+}
+```
+
+### Priority 3: User-Stated Plan
+```javascript
+// Look for explicit plan statements in user messages:
+// - "Here's my plan: 1. ... 2. ... 3. ..."
+// - "I want to: first..., then..., finally..."
+// - Numbered or bulleted lists describing steps
+const userPlan = extractUserStatedPlan();
+if (userPlan) {
+  sessionAnalysis.executionPlan.source = "user-stated";
+  sessionAnalysis.executionPlan.content = userPlan;
+}
+```
+
+### Priority 4: Inferred Plan
+```javascript
+// If no explicit plan, infer from:
+// - Task description and breakdown discussion
+// - Sequence of actions taken
+// - Outstanding work mentioned
+const inferredPlan = inferPlanFromDiscussion();
+if (inferredPlan) {
+  sessionAnalysis.executionPlan.source = "inferred";
+  sessionAnalysis.executionPlan.content = inferredPlan;
+}
+```
+
+## 9. Notes
+
+- **Timing**: Execute at task completion or before context switch
+- **Frequency**: Once per independent task or milestone
+- **Recovery**: New session can immediately continue with full context
+- **Knowledge Graph**: Entity relationships auto-extracted for visualization
+- **Absolute Paths**: Critical for cross-session recovery on different machines
--- a/.claude/commands/memory/docs.md
+++ b/.claude/commands/memory/docs.md
@@ -235,12 +235,12 @@ api_id=$((group_count + 3))
 | Mode | cli_execute | Placement | CLI MODE | Approval Flag | Agent Role |
 |------|-------------|-----------|----------|---------------|------------|
 | **Agent** | false | pre_analysis | analysis | (none) | Generate docs in implementation_approach |
-| **CLI** | true | implementation_approach | write | --approval-mode yolo | Execute CLI commands, validate output |
+| **CLI** | true | implementation_approach | write | --mode write | Execute CLI commands, validate output |

 **Command Patterns**:
- Gemini/Qwen: `cd dir && gemini -p "..."`
- CLI Mode: `cd dir && gemini --approval-mode yolo -p "..."`
- Codex: `codex -C dir --full-auto exec "..." --skip-git-repo-check -s danger-full-access`
+- Gemini/Qwen: `ccw cli -p "..." --tool gemini --mode analysis --cd dir`
+- CLI Mode: `ccw cli -p "..." --tool gemini --mode write --cd dir`
+- Codex: `ccw cli -p "..." --tool codex --mode write --cd dir`

 **Generation Process**:
 1. Read configuration values (tool, cli_execute, mode) from workflow-session.json
@@ -331,7 +331,7 @@ api_id=$((group_count + 3))
 {
  "step": 2,
  "title": "Batch generate documentation via CLI",
-  "command": "bash(dirs=$(jq -r '.groups.assignments[] | select(.group_id == \"${group_number}\") | .directories[]' ${session_dir}/.process/doc-planning-data.json); for dir in $dirs; do cd \"$dir\" && gemini --approval-mode yolo -p \"PURPOSE: Generate module docs\\nTASK: Create documentation\\nMODE: write\\nCONTEXT: @**/* [phase2_context]\\nEXPECTED: API.md and README.md\\nRULES: Mirror structure\" || echo \"Failed: $dir\"; cd -; done)",
+  "command": "ccw cli -p 'PURPOSE: Generate module docs\\nTASK: Create documentation\\nMODE: write\\nCONTEXT: @**/* [phase2_context]\\nEXPECTED: API.md and README.md\\nRULES: Mirror structure' --tool gemini --mode write --cd ${dirs_from_group}",
  "depends_on": [1],
  "output": "generated_docs"
 }
@@ -363,7 +363,7 @@ api_id=$((group_count + 3))
      },
      {
        "step": "analyze_project",
-        "command": "bash(gemini \"PURPOSE: Analyze project structure\\nTASK: Extract overview from modules\\nMODE: analysis\\nCONTEXT: [all_module_docs]\\nEXPECTED: Project outline\")",
+        "command": "bash(ccw cli -p \"PURPOSE: Analyze project structure\\nTASK: Extract overview from modules\\nMODE: analysis\\nCONTEXT: [all_module_docs]\\nEXPECTED: Project outline\" --tool gemini --mode analysis)",
        "output_to": "project_outline"
      }
    ],
@@ -403,7 +403,7 @@ api_id=$((group_count + 3))
    "pre_analysis": [
      {"step": "load_existing_docs", "command": "bash(cat .workflow/docs/${project_name}/{ARCHITECTURE,EXAMPLES}.md 2>/dev/null || echo 'No existing docs')", "output_to": "existing_arch_examples"},
      {"step": "load_all_docs", "command": "bash(cat .workflow/docs/${project_name}/README.md && find .workflow/docs/${project_name} -type f -name '*.md' ! -path '*/README.md' ! -path '*/ARCHITECTURE.md' ! -path '*/EXAMPLES.md' ! -path '*/api/*' | xargs cat)", "output_to": "all_docs"},
-      {"step": "analyze_architecture", "command": "bash(gemini \"PURPOSE: Analyze system architecture\\nTASK: Synthesize architectural overview and examples\\nMODE: analysis\\nCONTEXT: [all_docs]\\nEXPECTED: Architecture + Examples outline\")", "output_to": "arch_examples_outline"}
+      {"step": "analyze_architecture", "command": "bash(ccw cli -p \"PURPOSE: Analyze system architecture\\nTASK: Synthesize architectural overview and examples\\nMODE: analysis\\nCONTEXT: [all_docs]\\nEXPECTED: Architecture + Examples outline\" --tool gemini --mode analysis)", "output_to": "arch_examples_outline"}
    ],
    "implementation_approach": [
      {
@@ -440,7 +440,7 @@ api_id=$((group_count + 3))
    "pre_analysis": [
      {"step": "discover_api", "command": "bash(rg 'router\\.| @(Get|Post)' -g '*.{ts,js}')", "output_to": "endpoint_discovery"},
      {"step": "load_existing_api", "command": "bash(cat .workflow/docs/${project_name}/api/README.md 2>/dev/null || echo 'No existing API docs')", "output_to": "existing_api_docs"},
-      {"step": "analyze_api", "command": "bash(gemini \"PURPOSE: Document HTTP API\\nTASK: Analyze endpoints\\nMODE: analysis\\nCONTEXT: @src/api/**/* [endpoint_discovery]\\nEXPECTED: API outline\")", "output_to": "api_outline"}
+      {"step": "analyze_api", "command": "bash(ccw cli -p \"PURPOSE: Document HTTP API\\nTASK: Analyze endpoints\\nMODE: analysis\\nCONTEXT: @src/api/**/* [endpoint_discovery]\\nEXPECTED: API outline\" --tool gemini --mode analysis)", "output_to": "api_outline"}
    ],
    "implementation_approach": [
      {
@@ -601,7 +601,7 @@ api_id=$((group_count + 3))
 | Mode | CLI Placement | CLI MODE | Approval Flag | Agent Role |
 |------|---------------|----------|---------------|------------|
 | **Agent (default)** | pre_analysis | analysis | (none) | Generates documentation content |
-| **CLI (--cli-execute)** | implementation_approach | write | --approval-mode yolo | Executes CLI commands, validates output |
+| **CLI (--cli-execute)** | implementation_approach | write | --mode write | Executes CLI commands, validates output |

 **Execution Flow**:
 - **Phase 2**: Unified analysis once, results in `.process/`
--- a/.claude/commands/memory/load.md
+++ b/.claude/commands/memory/load.md
@@ -5,7 +5,7 @@ argument-hint: "[--tool gemini|qwen] \"task context description\""
 allowed-tools: Task(*), Bash(*)
 examples:
  - /memory:load "在当前前端基础上开发用户认证功能"
-  - /memory:load --tool qwen -p "重构支付模块API"
+  - /memory:load --tool qwen "重构支付模块API"
 ---

 # Memory Load Command (/memory:load)
@@ -39,7 +39,7 @@ The command fully delegates to **universal-executor agent**, which autonomously:
 1. **Analyzes Project Structure**: Executes `get_modules_by_depth.sh` to understand architecture
 2. **Loads Documentation**: Reads CLAUDE.md, README.md and other key docs
 3. **Extracts Keywords**: Derives core keywords from task description
-4. **Discovers Files**: Uses MCP code-index or rg/find to locate relevant files
+4. **Discovers Files**: Uses CodexLens MCP or rg/find to locate relevant files
 5. **CLI Deep Analysis**: Executes Gemini/Qwen CLI for deep context analysis
 6. **Generates Content Package**: Returns structured JSON core content package

@@ -136,7 +136,7 @@ Task(
 Execute Gemini/Qwen CLI for deep analysis (saves main thread tokens):

 \`\`\`bash
-cd . && ${tool} -p "
+ccw cli -p "
 PURPOSE: Extract project core context for task: ${task_description}
 TASK: Analyze project architecture, tech stack, key patterns, relevant files
 MODE: analysis
@@ -147,7 +147,7 @@ RULES:
 - Identify key architecture patterns and technical constraints
 - Extract integration points and development standards
 - Output concise, structured format
-"
+" --tool ${tool} --mode analysis
 \`\`\`

 ### Step 4: Generate Core Content Package
@@ -212,7 +212,7 @@ Before returning:
 ### Example 2: Using Qwen Tool

 ```bash
-/memory:load --tool qwen -p "重构支付模块API"
+/memory:load --tool qwen "重构支付模块API"
 ```

 Agent uses Qwen CLI for analysis, returns same structured package.
--- a/.claude/commands/memory/tech-research-rules.md
+++ b/.claude/commands/memory/tech-research-rules.md
@@ -0,0 +1,310 @@
+---
+name: tech-research-rules
+description: "3-phase orchestrator: extract tech stack → Exa research → generate path-conditional rules (auto-loaded by Claude Code)"
+argument-hint: "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]"
+allowed-tools: SlashCommand(*), TodoWrite(*), Bash(*), Read(*), Write(*), Task(*)
+---
+
+# Tech Stack Rules Generator
+
+## Overview
+
+**Purpose**: Generate multi-layered, path-conditional rules that Claude Code automatically loads based on file context.
+
+**Output Structure**:
+```
+.claude/rules/tech/{tech-stack}/
+├── core.md           # paths: **/*.{ext} - Core principles
+├── patterns.md       # paths: src/**/*.{ext} - Implementation patterns
+├── testing.md        # paths: **/*.{test,spec}.{ext} - Testing rules
+├── config.md         # paths: *.config.* - Configuration rules
+├── api.md            # paths: **/api/**/* - API rules (backend only)
+├── components.md     # paths: **/components/**/* - Component rules (frontend only)
+└── metadata.json     # Generation metadata
+```
+
+**Templates Location**: `~/.claude/workflows/cli-templates/prompts/rules/`
+
+---
+
+## Core Rules
+
+1. **Start Immediately**: First action is TodoWrite initialization
+2. **Path-Conditional Output**: Every rule file includes `paths` frontmatter
+3. **Template-Driven**: Agent reads templates before generating content
+4. **Agent Produces Files**: Agent writes all rule files directly
+5. **No Manual Loading**: Rules auto-activate when Claude works with matching files
+
+---
+
+## 3-Phase Execution
+
+### Phase 1: Prepare Context & Detect Tech Stack
+
+**Goal**: Detect input mode, extract tech stack info, determine file extensions
+
+**Input Mode Detection**:
+```bash
+input="$1"
+
+if [[ "$input" == WFS-* ]]; then
+  MODE="session"
+  SESSION_ID="$input"
+  # Read workflow-session.json to extract tech stack
+else
+  MODE="direct"
+  TECH_STACK_NAME="$input"
+fi
+```
+
+**Tech Stack Analysis**:
+```javascript
+// Decompose composite tech stacks
+// "typescript-react-nextjs" → ["typescript", "react", "nextjs"]
+
+const TECH_EXTENSIONS = {
+  "typescript": "{ts,tsx}",
+  "javascript": "{js,jsx}",
+  "python": "py",
+  "rust": "rs",
+  "go": "go",
+  "java": "java",
+  "csharp": "cs",
+  "ruby": "rb",
+  "php": "php"
+};
+
+const FRAMEWORK_TYPE = {
+  "react": "frontend",
+  "vue": "frontend",
+  "angular": "frontend",
+  "nextjs": "fullstack",
+  "nuxt": "fullstack",
+  "fastapi": "backend",
+  "express": "backend",
+  "django": "backend",
+  "rails": "backend"
+};
+```
+
+**Check Existing Rules**:
+```bash
+normalized_name=$(echo "$TECH_STACK_NAME" | tr '[:upper:]' '[:lower:]' | tr ' ' '-')
+rules_dir=".claude/rules/tech/${normalized_name}"
+existing_count=$(find "${rules_dir}" -name "*.md" 2>/dev/null | wc -l || echo 0)
+```
+
+**Skip Decision**:
+- If `existing_count > 0` AND no `--regenerate` → `SKIP_GENERATION = true`
+- If `--regenerate` → Delete existing and regenerate
+
+**Output Variables**:
+- `TECH_STACK_NAME`: Normalized name
+- `PRIMARY_LANG`: Primary language
+- `FILE_EXT`: File extension pattern
+- `FRAMEWORK_TYPE`: frontend | backend | fullstack | library
+- `COMPONENTS`: Array of tech components
+- `SKIP_GENERATION`: Boolean
+
+**TodoWrite**: Mark phase 1 completed
+
+---
+
+### Phase 2: Agent Produces Path-Conditional Rules
+
+**Skip Condition**: Skipped if `SKIP_GENERATION = true`
+
+**Goal**: Delegate to agent for Exa research and rule file generation
+
+**Template Files**:
+```
+~/.claude/workflows/cli-templates/prompts/rules/
+├── tech-rules-agent-prompt.txt  # Agent instructions
+├── rule-core.txt                # Core principles template
+├── rule-patterns.txt            # Implementation patterns template
+├── rule-testing.txt             # Testing rules template
+├── rule-config.txt              # Configuration rules template
+├── rule-api.txt                 # API rules template (backend)
+└── rule-components.txt          # Component rules template (frontend)
+```
+
+**Agent Task**:
+
+```javascript
+Task({
+  subagent_type: "general-purpose",
+  description: `Generate tech stack rules: ${TECH_STACK_NAME}`,
+  prompt: `
+You are generating path-conditional rules for Claude Code.
+
+## Context
+- Tech Stack: ${TECH_STACK_NAME}
+- Primary Language: ${PRIMARY_LANG}
+- File Extensions: ${FILE_EXT}
+- Framework Type: ${FRAMEWORK_TYPE}
+- Components: ${JSON.stringify(COMPONENTS)}
+- Output Directory: .claude/rules/tech/${TECH_STACK_NAME}/
+
+## Instructions
+
+Read the agent prompt template for detailed instructions:
+$(cat ~/.claude/workflows/cli-templates/prompts/rules/tech-rules-agent-prompt.txt)
+
+## Execution Steps
+
+1. Execute Exa research queries (see agent prompt)
+2. Read each rule template
+3. Generate rule files following template structure
+4. Write files to output directory
+5. Write metadata.json
+6. Report completion
+
+## Variable Substitutions
+
+Replace in templates:
+- {TECH_STACK_NAME} → ${TECH_STACK_NAME}
+- {PRIMARY_LANG} → ${PRIMARY_LANG}
+- {FILE_EXT} → ${FILE_EXT}
+- {FRAMEWORK_TYPE} → ${FRAMEWORK_TYPE}
+`
+})
+```
+
+**Completion Criteria**:
+- 4-6 rule files written with proper `paths` frontmatter
+- metadata.json written
+- Agent reports files created
+
+**TodoWrite**: Mark phase 2 completed
+
+---
+
+### Phase 3: Verify & Report
+
+**Goal**: Verify generated files and provide usage summary
+
+**Steps**:
+
+1. **Verify Files**:
+   ```bash
+   find ".claude/rules/tech/${TECH_STACK_NAME}" -name "*.md" -type f
+   ```
+
+2. **Validate Frontmatter**:
+   ```bash
+   head -5 ".claude/rules/tech/${TECH_STACK_NAME}/core.md"
+   ```
+
+3. **Read Metadata**:
+   ```javascript
+   Read(`.claude/rules/tech/${TECH_STACK_NAME}/metadata.json`)
+   ```
+
+4. **Generate Summary Report**:
+   ```
+   Tech Stack Rules Generated
+
+   Tech Stack: {TECH_STACK_NAME}
+   Location: .claude/rules/tech/{TECH_STACK_NAME}/
+
+   Files Created:
+   ├── core.md         → paths: **/*.{ext}
+   ├── patterns.md     → paths: src/**/*.{ext}
+   ├── testing.md      → paths: **/*.{test,spec}.{ext}
+   ├── config.md       → paths: *.config.*
+   ├── api.md          → paths: **/api/**/* (if backend)
+   └── components.md   → paths: **/components/**/* (if frontend)
+
+   Auto-Loading:
+   - Rules apply automatically when editing matching files
+   - No manual loading required
+
+   Example Activation:
+   - Edit src/components/Button.tsx → core.md + patterns.md + components.md
+   - Edit tests/api.test.ts → core.md + testing.md
+   - Edit package.json → config.md
+   ```
+
+**TodoWrite**: Mark phase 3 completed
+
+---
+
+## Path Pattern Reference
+
+| Pattern | Matches |
+|---------|---------|
+| `**/*.ts` | All .ts files |
+| `src/**/*` | All files under src/ |
+| `*.config.*` | Config files in root |
+| `**/*.{ts,tsx}` | .ts and .tsx files |
+
+| Tech Stack | Core Pattern | Test Pattern |
+|------------|--------------|--------------|
+| TypeScript | `**/*.{ts,tsx}` | `**/*.{test,spec}.{ts,tsx}` |
+| Python | `**/*.py` | `**/test_*.py, **/*_test.py` |
+| Rust | `**/*.rs` | `**/tests/**/*.rs` |
+| Go | `**/*.go` | `**/*_test.go` |
+
+---
+
+## Parameters
+
+```bash
+/memory:tech-research [session-id | "tech-stack-name"] [--regenerate]
+```
+
+**Arguments**:
+- **session-id**: `WFS-*` format - Extract from workflow session
+- **tech-stack-name**: Direct input - `"typescript"`, `"typescript-react"`
+- **--regenerate**: Force regenerate existing rules
+
+---
+
+## Examples
+
+### Single Language
+
+```bash
+/memory:tech-research "typescript"
+```
+
+**Output**: `.claude/rules/tech/typescript/` with 4 rule files
+
+### Frontend Stack
+
+```bash
+/memory:tech-research "typescript-react"
+```
+
+**Output**: `.claude/rules/tech/typescript-react/` with 5 rule files (includes components.md)
+
+### Backend Stack
+
+```bash
+/memory:tech-research "python-fastapi"
+```
+
+**Output**: `.claude/rules/tech/python-fastapi/` with 5 rule files (includes api.md)
+
+### From Session
+
+```bash
+/memory:tech-research WFS-user-auth-20251104
+```
+
+**Workflow**: Extract tech stack from session → Generate rules
+
+---
+
+## Comparison: Rules vs SKILL
+
+| Aspect | SKILL Memory | Rules |
+|--------|--------------|-------|
+| Loading | Manual: `Skill("tech")` | Automatic by path |
+| Scope | All files when loaded | Only matching files |
+| Granularity | Monolithic packages | Per-file-type |
+| Context | Full package | Only relevant rules |
+
+**When to Use**:
+- **Rules**: Tech stack conventions per file type
+- **SKILL**: Reference docs, APIs, examples for manual lookup
--- a/.claude/commands/memory/tech-research.md
+++ b/.claude/commands/memory/tech-research.md
@@ -1,477 +0,0 @@
---
-name: tech-research
-description: 3-phase orchestrator: extract tech stack from session/name → delegate to agent for Exa research and module generation → generate SKILL.md index (skips phase 2 if exists)
-argument-hint: "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]"
-allowed-tools: SlashCommand(*), TodoWrite(*), Bash(*), Read(*), Write(*), Task(*)
---
-
-# Tech Stack Research SKILL Generator
-
-## Overview
-
-**Pure Orchestrator with Agent Delegation**: Prepares context paths and delegates ALL work to agent. Agent produces files directly.
-
-**Auto-Continue Workflow**: Runs fully autonomously once triggered. Each phase completes and automatically triggers the next phase.
-
-**Execution Paths**:
- **Full Path**: All 3 phases (no existing SKILL OR `--regenerate` specified)
- **Skip Path**: Phase 1 → Phase 3 (existing SKILL found AND no `--regenerate` flag)
- **Phase 3 Always Executes**: SKILL index is always generated or updated
-
-**Agent Responsibility**:
- Agent does ALL the work: context reading, Exa research, content synthesis, file writing
- Orchestrator only provides context paths and waits for completion
-
-## Core Rules
-
-1. **Start Immediately**: First action is TodoWrite initialization, second action is Phase 1 execution
-2. **Context Path Delegation**: Pass session directory or tech stack name to agent, let agent do discovery
-3. **Agent Produces Files**: Agent directly writes all module files, orchestrator does NOT parse agent output
-4. **Auto-Continue**: After completing each phase, update TodoWrite and immediately execute next phase
-5. **No User Prompts**: Never ask user questions or wait for input between phases
-6. **Track Progress**: Update TodoWrite after EVERY phase completion before starting next phase
-7. **Lightweight Index**: Phase 3 only generates SKILL.md index by reading existing files
-
---
-
-## 3-Phase Execution
-
-### Phase 1: Prepare Context Paths
-
-**Goal**: Detect input mode, prepare context paths for agent, check existing SKILL
-
-**Input Mode Detection**:
-```bash
-# Get input parameter
-input="$1"
-
-# Detect mode
-if [[ "$input" == WFS-* ]]; then
-  MODE="session"
-  SESSION_ID="$input"
-  CONTEXT_PATH=".workflow/${SESSION_ID}"
-else
-  MODE="direct"
-  TECH_STACK_NAME="$input"
-  CONTEXT_PATH="$input"  # Pass tech stack name as context
-fi
-```
-
-**Check Existing SKILL**:
-```bash
-# For session mode, peek at session to get tech stack name
-if [[ "$MODE" == "session" ]]; then
-  bash(test -f ".workflow/${SESSION_ID}/workflow-session.json")
-  Read(.workflow/${SESSION_ID}/workflow-session.json)
-  # Extract tech_stack_name (minimal extraction)
-fi
-
-# Normalize and check
-normalized_name=$(echo "$TECH_STACK_NAME" | tr '[:upper:]' '[:lower:]' | tr ' ' '-')
-bash(test -d ".claude/skills/${normalized_name}" && echo "exists" || echo "not_exists")
-bash(find ".claude/skills/${normalized_name}" -name "*.md" 2>/dev/null | wc -l || echo 0)
-```
-
-**Skip Decision**:
-```javascript
-if (existing_files > 0 && !regenerate_flag) {
-  SKIP_GENERATION = true
-  message = "Tech stack SKILL already exists, skipping Phase 2. Use --regenerate to force regeneration."
-} else if (regenerate_flag) {
-  bash(rm -rf ".claude/skills/${normalized_name}")
-  SKIP_GENERATION = false
-  message = "Regenerating tech stack SKILL from scratch."
-} else {
-  SKIP_GENERATION = false
-  message = "No existing SKILL found, generating new tech stack documentation."
-}
-```
-
-**Output Variables**:
- `MODE`: `session` or `direct`
- `SESSION_ID`: Session ID (if session mode)
- `CONTEXT_PATH`: Path to session directory OR tech stack name
- `TECH_STACK_NAME`: Extracted or provided tech stack name
- `SKIP_GENERATION`: Boolean - whether to skip Phase 2
-
-**TodoWrite**:
- If skipping: Mark phase 1 completed, phase 2 completed, phase 3 in_progress
- If not skipping: Mark phase 1 completed, phase 2 in_progress
-
---
-
-### Phase 2: Agent Produces All Files
-
-**Skip Condition**: Skipped if `SKIP_GENERATION = true`
-
-**Goal**: Delegate EVERYTHING to agent - context reading, Exa research, content synthesis, and file writing
-
-**Agent Task Specification**:
-
-```
-Task(
-  subagent_type: "general-purpose",
-  description: "Generate tech stack SKILL: {CONTEXT_PATH}",
-  prompt: "
-Generate a complete tech stack SKILL package with Exa research.
-
-**Context Provided**:
- Mode: {MODE}
- Context Path: {CONTEXT_PATH}
-
-**Templates Available**:
- Module Format: ~/.claude/workflows/cli-templates/prompts/tech/tech-module-format.txt
- SKILL Index: ~/.claude/workflows/cli-templates/prompts/tech/tech-skill-index.txt
-
-**Your Responsibilities**:
-
-1. **Extract Tech Stack Information**:
-
-   IF MODE == 'session':
-     - Read `.workflow/active/{session_id}/workflow-session.json`
-     - Read `.workflow/active/{session_id}/.process/context-package.json`
-     - Extract tech_stack: {language, frameworks, libraries}
-     - Build tech stack name: \"{language}-{framework1}-{framework2}\"
-     - Example: \"typescript-react-nextjs\"
-
-   IF MODE == 'direct':
-     - Tech stack name = CONTEXT_PATH
-     - Parse composite: split by '-' delimiter
-     - Example: \"typescript-react-nextjs\" → [\"typescript\", \"react\", \"nextjs\"]
-
-2. **Execute Exa Research** (4-6 parallel queries):
-
-   Base Queries (always execute):
-   - mcp__exa__get_code_context_exa(query: \"{tech} core principles best practices 2025\", tokensNum: 8000)
-   - mcp__exa__get_code_context_exa(query: \"{tech} common patterns architecture examples\", tokensNum: 7000)
-   - mcp__exa__web_search_exa(query: \"{tech} configuration setup tooling 2025\", numResults: 5)
-   - mcp__exa__get_code_context_exa(query: \"{tech} testing strategies\", tokensNum: 5000)
-
-   Component Queries (if composite):
-   - For each additional component:
-     mcp__exa__get_code_context_exa(query: \"{main_tech} {component} integration\", tokensNum: 5000)
-
-3. **Read Module Format Template**:
-
-   Read template for structure guidance:
-   ```bash
-   Read(~/.claude/workflows/cli-templates/prompts/tech/tech-module-format.txt)
-   ```
-
-4. **Synthesize Content into 6 Modules**:
-
-   Follow template structure from tech-module-format.txt:
-   - **principles.md** - Core concepts, philosophies (~3K tokens)
-   - **patterns.md** - Implementation patterns with code examples (~5K tokens)
-   - **practices.md** - Best practices, anti-patterns, pitfalls (~4K tokens)
-   - **testing.md** - Testing strategies, frameworks (~3K tokens)
-   - **config.md** - Setup, configuration, tooling (~3K tokens)
-   - **frameworks.md** - Framework integration (only if composite, ~4K tokens)
-
-   Each module follows template format:
-   - Frontmatter (YAML)
-   - Main sections with clear headings
-   - Code examples from Exa research
-   - Best practices sections
-   - References to Exa sources
-
-5. **Write Files Directly**:
-
-   ```javascript
-   // Create directory
-   bash(mkdir -p \".claude/skills/{tech_stack_name}\")
-
-   // Write each module file using Write tool
-   Write({ file_path: \".claude/skills/{tech_stack_name}/principles.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/patterns.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/practices.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/testing.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/config.md\", content: ... })
-   // Write frameworks.md only if composite
-
-   // Write metadata.json
-   Write({
-     file_path: \".claude/skills/{tech_stack_name}/metadata.json\",
-     content: JSON.stringify({
-       tech_stack_name,
-       components,
-       is_composite,
-       generated_at: timestamp,
-       source: \"exa-research\",
-       research_summary: { total_queries, total_sources }
-     })
-   })
-   ```
-
-6. **Report Completion**:
-
-   Provide summary:
-   - Tech stack name
-   - Files created (count)
-   - Exa queries executed
-   - Sources consulted
-
-**CRITICAL**:
- MUST read external template files before generating content (step 3 for modules, step 4 for index)
- You have FULL autonomy - read files, execute Exa, synthesize content, write files
- Do NOT return JSON or structured data - produce actual .md files
- Handle errors gracefully (Exa failures, missing files, template read failures)
- If tech stack cannot be determined, ask orchestrator to clarify
-  "
-)
-```
-
-**Completion Criteria**:
- Agent task executed successfully
- 5-6 modular files written to `.claude/skills/{tech_stack_name}/`
- metadata.json written
- Agent reports completion
-
-**TodoWrite**: Mark phase 2 completed, phase 3 in_progress
-
---
-
-### Phase 3: Generate SKILL.md Index
-
-**Note**: This phase **ALWAYS executes** - generates or updates the SKILL index.
-
-**Goal**: Read generated module files and create SKILL.md index with loading recommendations
-
-**Steps**:
-
-1. **Verify Generated Files**:
-   ```bash
-   bash(find ".claude/skills/${TECH_STACK_NAME}" -name "*.md" -type f | sort)
-   ```
-
-2. **Read metadata.json**:
-   ```javascript
-   Read(.claude/skills/${TECH_STACK_NAME}/metadata.json)
-   // Extract: tech_stack_name, components, is_composite, research_summary
-   ```
-
-3. **Read Module Headers** (optional, first 20 lines):
-   ```javascript
-   Read(.claude/skills/${TECH_STACK_NAME}/principles.md, limit: 20)
-   // Repeat for other modules
-   ```
-
-4. **Read SKILL Index Template**:
-
-   ```javascript
-   Read(~/.claude/workflows/cli-templates/prompts/tech/tech-skill-index.txt)
-   ```
-
-5. **Generate SKILL.md Index**:
-
-   Follow template from tech-skill-index.txt with variable substitutions:
-   - `{TECH_STACK_NAME}`: From metadata.json
-   - `{MAIN_TECH}`: Primary technology
-   - `{ISO_TIMESTAMP}`: Current timestamp
-   - `{QUERY_COUNT}`: From research_summary
-   - `{SOURCE_COUNT}`: From research_summary
-   - Conditional sections for composite tech stacks
-
-   Template provides structure for:
-   - Frontmatter with metadata
-   - Overview and tech stack description
-   - Module organization (Core/Practical/Config sections)
-   - Loading recommendations (Quick/Implementation/Complete)
-   - Usage guidelines and auto-trigger keywords
-   - Research metadata and version history
-
-6. **Write SKILL.md**:
-   ```javascript
-   Write({
-     file_path: `.claude/skills/${TECH_STACK_NAME}/SKILL.md`,
-     content: generatedIndexMarkdown
-   })
-   ```
-
-**Completion Criteria**:
- SKILL.md index written
- All module files verified
- Loading recommendations included
-
-**TodoWrite**: Mark phase 3 completed
-
-**Final Report**:
-```
-Tech Stack SKILL Package Complete
-
-Tech Stack: {TECH_STACK_NAME}
-Location: .claude/skills/{TECH_STACK_NAME}/
-
-Files: SKILL.md + 5-6 modules + metadata.json
-Exa Research: {queries} queries, {sources} sources
-
-Usage: Skill(command: "{TECH_STACK_NAME}")
-```
-
---
-
-## Implementation Details
-
-### TodoWrite Patterns
-
-**Initialization** (Before Phase 1):
-```javascript
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "in_progress", "activeForm": "Preparing context paths"},
-  {"content": "Agent produces all module files", "status": "pending", "activeForm": "Agent producing files"},
-  {"content": "Generate SKILL.md index", "status": "pending", "activeForm": "Generating SKILL index"}
-]})
-```
-
-**Full Path** (SKIP_GENERATION = false):
-```javascript
-// After Phase 1
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "in_progress", ...},
-  {"content": "Generate SKILL.md index", "status": "pending", ...}
-]})
-
-// After Phase 2
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},
-  {"content": "Generate SKILL.md index", "status": "in_progress", ...}
-]})
-
-// After Phase 3
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},
-  {"content": "Generate SKILL.md index", "status": "completed", ...}
-]})
-```
-
-**Skip Path** (SKIP_GENERATION = true):
-```javascript
-// After Phase 1 (skip Phase 2)
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},  // Skipped
-  {"content": "Generate SKILL.md index", "status": "in_progress", ...}
-]})
-```
-
-### Execution Flow
-
-**Full Path**:
-```
-User → TodoWrite Init → Phase 1 (prepare) → Phase 2 (agent writes files) → Phase 3 (write index) → Report
-```
-
-**Skip Path**:
-```
-User → TodoWrite Init → Phase 1 (detect existing) → Phase 3 (update index) → Report
-```
-
-### Error Handling
-
-**Phase 1 Errors**:
- Invalid session ID: Report error, verify session exists
- Missing context-package: Warn, fall back to direct mode
- No tech stack detected: Ask user to specify tech stack name
-
-**Phase 2 Errors (Agent)**:
- Agent task fails: Retry once, report if fails again
- Exa API failures: Agent handles internally with retries
- Incomplete results: Warn user, proceed with partial data if minimum sections available
-
-**Phase 3 Errors**:
- Write failures: Report which files failed
- Missing files: Note in SKILL.md, suggest regeneration
-
---
-
-## Parameters
-
-```bash
-/memory:tech-research [session-id | "tech-stack-name"] [--regenerate] [--tool <gemini|qwen>]
-```
-
-**Arguments**:
- **session-id | tech-stack-name**: Input source (auto-detected by WFS- prefix)
-  - Session mode: `WFS-user-auth-v2` - Extract tech stack from workflow
-  - Direct mode: `"typescript"`, `"typescript-react-nextjs"` - User specifies
- **--regenerate**: Force regenerate existing SKILL (deletes and recreates)
- **--tool**: Reserved for future CLI integration (default: gemini)
-
---
-
-## Examples
-
-**Generated File Structure** (for all examples):
-```
-.claude/skills/{tech-stack}/
-├── SKILL.md           # Index (Phase 3)
-├── principles.md      # Agent (Phase 2)
-├── patterns.md        # Agent
-├── practices.md       # Agent
-├── testing.md         # Agent
-├── config.md          # Agent
-├── frameworks.md      # Agent (if composite)
-└── metadata.json      # Agent
-```
-
-### Direct Mode - Single Stack
-
-```bash
-/memory:tech-research "typescript"
-```
-
-**Workflow**:
-1. Phase 1: Detects direct mode, checks existing SKILL
-2. Phase 2: Agent executes 4 Exa queries, writes 5 modules
-3. Phase 3: Generates SKILL.md index
-
-### Direct Mode - Composite Stack
-
-```bash
-/memory:tech-research "typescript-react-nextjs"
-```
-
-**Workflow**:
-1. Phase 1: Decomposes into ["typescript", "react", "nextjs"]
-2. Phase 2: Agent executes 6 Exa queries (4 base + 2 components), writes 6 modules (adds frameworks.md)
-3. Phase 3: Generates SKILL.md index with framework integration
-
-### Session Mode - Extract from Workflow
-
-```bash
-/memory:tech-research WFS-user-auth-20251104
-```
-
-**Workflow**:
-1. Phase 1: Reads session, extracts tech stack: `python-fastapi-sqlalchemy`
-2. Phase 2: Agent researches Python + FastAPI + SQLAlchemy, writes 6 modules
-3. Phase 3: Generates SKILL.md index
-
-### Regenerate Existing
-
-```bash
-/memory:tech-research "react" --regenerate
-```
-
-**Workflow**:
-1. Phase 1: Deletes existing SKILL due to --regenerate
-2. Phase 2: Agent executes fresh Exa research (latest 2025 practices)
-3. Phase 3: Generates updated SKILL.md
-
-### Skip Path - Fast Update
-
-```bash
-/memory:tech-research "python"
-```
-
-**Scenario**: SKILL already exists with 7 files
-
-**Workflow**:
-1. Phase 1: Detects existing SKILL, sets SKIP_GENERATION = true
-2. Phase 2: **SKIPPED**
-3. Phase 3: Updates SKILL.md index only (5-10x faster)
-
-
--- a/.claude/commands/memory/workflow-skill-memory.md
+++ b/.claude/commands/memory/workflow-skill-memory.md
@@ -187,7 +187,7 @@ Objectives:

 3. Use Gemini for aggregation (optional):
   Command pattern:
-   cd .workflow/.archives/{session_id} && gemini -p "
+   ccw cli -p "
   PURPOSE: Extract lessons and conflicts from workflow session
   TASK:
   • Analyze IMPL_PLAN and lessons from manifest
@@ -198,7 +198,7 @@ Objectives:
   CONTEXT: @IMPL_PLAN.md @workflow-session.json
   EXPECTED: Structured lessons and conflicts in JSON format
   RULES: Template reference from skill-aggregation.txt
-   "
+   " --tool gemini --mode analysis --cd .workflow/.archives/{session_id}

 3.5. **Generate SKILL.md Description** (CRITICAL for auto-loading):

@@ -334,7 +334,7 @@ Objectives:
   - Sort sessions by date

 2. Use Gemini for final aggregation:
-   gemini -p "
+   ccw cli -p "
   PURPOSE: Aggregate lessons and conflicts from all workflow sessions
   TASK:
   • Group successes by functional domain
@@ -345,7 +345,7 @@ Objectives:
   CONTEXT: [Provide aggregated JSON data]
   EXPECTED: Final aggregated structure for SKILL documents
   RULES: Template reference from skill-aggregation.txt
-   "
+   " --tool gemini --mode analysis

 3. Read templates for formatting (same 4 templates as single mode)

--- a/.claude/commands/workflow/brainstorm/api-designer.md
+++ b/.claude/commands/workflow/brainstorm/api-designer.md
@@ -81,6 +81,7 @@ ELSE:
 **Framework-Based Analysis** (when guidance-specification.md exists):
 ```bash
 Task(subagent_type="conceptual-planning-agent",
+     run_in_background=false,
     prompt="Generate API designer analysis addressing topic framework

     ## Framework Integration Required
@@ -136,6 +137,7 @@ Task(subagent_type="conceptual-planning-agent",
 # For existing analysis updates
 IF update_mode = "incremental":
    Task(subagent_type="conceptual-planning-agent",
+         run_in_background=false,
         prompt="Update existing API designer analysis

         ## Current Analysis Context
--- a/.claude/commands/workflow/brainstorm/artifacts.md
+++ b/.claude/commands/workflow/brainstorm/artifacts.md
@@ -128,6 +128,7 @@ for (let i = 0; i < allQuestions.length; i += BATCH_SIZE) {
 ```javascript
 Task(
  subagent_type="context-search-agent",
+  run_in_background=false,
  description="Gather project context for brainstorm",
  prompt=`
 Execute context-search-agent in BRAINSTORM MODE (Phase 1-2 only).
--- a/.claude/commands/workflow/brainstorm/system-architect.md
+++ b/.claude/commands/workflow/brainstorm/system-architect.md
@@ -81,6 +81,7 @@ ELSE:
 **Framework-Based Analysis** (when guidance-specification.md exists):
 ```bash
 Task(subagent_type="conceptual-planning-agent",
+     run_in_background=false,
     prompt="Generate system architect analysis addressing topic framework

     ## Framework Integration Required
@@ -136,6 +137,7 @@ Task(subagent_type="conceptual-planning-agent",
 # For existing analysis updates
 IF update_mode = "incremental":
    Task(subagent_type="conceptual-planning-agent",
+         run_in_background=false,
         prompt="Update existing system architect analysis

         ## Current Analysis Context
--- a/.claude/commands/workflow/clean.md
+++ b/.claude/commands/workflow/clean.md
@@ -0,0 +1,516 @@
+---
+name: clean
+description: Intelligent code cleanup with mainline detection, stale artifact discovery, and safe execution
+argument-hint: "[--dry-run] [\"focus area\"]"
+allowed-tools: TodoWrite(*), Task(*), AskUserQuestion(*), Read(*), Glob(*), Bash(*), Write(*)
+---
+
+# Clean Command (/workflow:clean)
+
+## Overview
+
+Intelligent cleanup command that explores the codebase to identify the development mainline, discovers artifacts that have drifted from it, and safely removes stale sessions, abandoned documents, and dead code.
+
+**Core capabilities:**
+- Mainline detection: Identify active development branches and core modules
+- Drift analysis: Find sessions, documents, and code that deviate from mainline
+- Intelligent discovery: cli-explore-agent based artifact scanning
+- Safe execution: Confirmation-based cleanup with dry-run preview
+
+## Usage
+
+```bash
+/workflow:clean                          # Full intelligent cleanup (explore → analyze → confirm → execute)
+/workflow:clean --dry-run                # Explore and analyze only, no execution
+/workflow:clean "auth module"            # Focus cleanup on specific area
+```
+
+## Execution Process
+
+```
+Phase 1: Mainline Detection
+   ├─ Analyze git history for development trends
+   ├─ Identify core modules (high commit frequency)
+   ├─ Map active vs stale branches
+   └─ Build mainline profile
+
+Phase 2: Drift Discovery (cli-explore-agent)
+   ├─ Scan workflow sessions for orphaned artifacts
+   ├─ Identify documents drifted from mainline
+   ├─ Detect dead code and unused exports
+   └─ Generate cleanup manifest
+
+Phase 3: Confirmation
+   ├─ Display cleanup summary by category
+   ├─ Show impact analysis (files, size, risk)
+   └─ AskUserQuestion: Select categories to clean
+
+Phase 4: Execution (unless --dry-run)
+   ├─ Execute cleanup by category
+   ├─ Update manifests and indexes
+   └─ Report results
+```
+
+## Implementation
+
+### Phase 1: Mainline Detection
+
+**Session Setup**:
+```javascript
+const getUtc8ISOString = () => new Date(Date.now() + 8 * 60 * 60 * 1000).toISOString()
+
+const dateStr = getUtc8ISOString().substring(0, 10)
+const sessionId = `clean-${dateStr}`
+const sessionFolder = `.workflow/.clean/${sessionId}`
+
+Bash(`mkdir -p ${sessionFolder}`)
+```
+
+**Step 1.1: Git History Analysis**
+```bash
+# Get commit frequency by directory (last 30 days)
+bash(git log --since="30 days ago" --name-only --pretty=format: | grep -v "^$" | cut -d/ -f1-2 | sort | uniq -c | sort -rn | head -20)
+
+# Get recent active branches
+bash(git for-each-ref --sort=-committerdate refs/heads/ --format='%(refname:short) %(committerdate:relative)' | head -10)
+
+# Get files with most recent changes
+bash(git log --since="7 days ago" --name-only --pretty=format: | grep -v "^$" | sort | uniq -c | sort -rn | head -30)
+```
+
+**Step 1.2: Build Mainline Profile**
+```javascript
+const mainlineProfile = {
+  coreModules: [],        // High-frequency directories
+  activeFiles: [],        // Recently modified files
+  activeBranches: [],     // Branches with recent commits
+  staleThreshold: {
+    sessions: 7,          // Days
+    branches: 30,
+    documents: 14
+  },
+  timestamp: getUtc8ISOString()
+}
+
+// Parse git log output to identify core modules
+// Modules with >5 commits in last 30 days = core
+// Modules with 0 commits in last 30 days = potentially stale
+
+Write(`${sessionFolder}/mainline-profile.json`, JSON.stringify(mainlineProfile, null, 2))
+```
+
+---
+
+### Phase 2: Drift Discovery
+
+**Launch cli-explore-agent for intelligent artifact scanning**:
+
+```javascript
+Task(
+  subagent_type="cli-explore-agent",
+  run_in_background=false,
+  description="Discover stale artifacts",
+  prompt=`
+## Task Objective
+Discover artifacts that have drifted from the development mainline. Identify stale sessions, abandoned documents, and dead code for cleanup.
+
+## Context
+- **Session Folder**: ${sessionFolder}
+- **Mainline Profile**: ${sessionFolder}/mainline-profile.json
+- **Focus Area**: ${focusArea || "全项目"}
+
+## Discovery Categories
+
+### Category 1: Stale Workflow Sessions
+Scan and analyze workflow session directories:
+
+**Locations to scan**:
+- .workflow/active/WFS-* (active sessions)
+- .workflow/archives/WFS-* (archived sessions)
+- .workflow/.lite-plan/* (lite-plan sessions)
+- .workflow/.debug/DBG-* (debug sessions)
+
+**Staleness criteria**:
+- Active sessions: No modification >7 days + no related git commits
+- Archives: >30 days old + no feature references in project.json
+- Lite-plan: >7 days old + plan.json not executed
+- Debug: >3 days old + issue not in recent commits
+
+**Analysis steps**:
+1. List all session directories with modification times
+2. Cross-reference with git log (are session topics in recent commits?)
+3. Check manifest.json for orphan entries
+4. Identify sessions with .archiving marker (interrupted)
+
+### Category 2: Drifted Documents
+Scan documentation that no longer aligns with code:
+
+**Locations to scan**:
+- .claude/rules/tech/* (generated tech rules)
+- .workflow/.scratchpad/* (temporary notes)
+- **/CLAUDE.md (module documentation)
+- **/README.md (outdated descriptions)
+
+**Drift criteria**:
+- Tech rules: Referenced files no longer exist
+- Scratchpad: Any file (always temporary)
+- Module docs: Describe functions/classes that were removed
+- READMEs: Reference deleted directories
+
+**Analysis steps**:
+1. Parse document content for file/function references
+2. Verify referenced entities still exist in codebase
+3. Flag documents with >30% broken references
+
+### Category 3: Dead Code
+Identify code that is no longer used:
+
+**Scan patterns**:
+- Unused exports (exported but never imported)
+- Orphan files (not imported anywhere)
+- Commented-out code blocks (>10 lines)
+- TODO/FIXME comments >90 days old
+
+**Analysis steps**:
+1. Build import graph using rg/grep
+2. Identify exports with no importers
+3. Find files not in import graph
+4. Scan for large comment blocks
+
+## Output Format
+
+Write to: ${sessionFolder}/cleanup-manifest.json
+
+\`\`\`json
+{
+  "generated_at": "ISO timestamp",
+  "mainline_summary": {
+    "core_modules": ["src/core", "src/api"],
+    "active_branches": ["main", "feature/auth"],
+    "health_score": 0.85
+  },
+  "discoveries": {
+    "stale_sessions": [
+      {
+        "path": ".workflow/active/WFS-old-feature",
+        "type": "active",
+        "age_days": 15,
+        "reason": "No related commits in 15 days",
+        "size_kb": 1024,
+        "risk": "low"
+      }
+    ],
+    "drifted_documents": [
+      {
+        "path": ".claude/rules/tech/deprecated-lib",
+        "type": "tech_rules",
+        "broken_references": 5,
+        "total_references": 6,
+        "drift_percentage": 83,
+        "reason": "Referenced library removed",
+        "risk": "low"
+      }
+    ],
+    "dead_code": [
+      {
+        "path": "src/utils/legacy.ts",
+        "type": "orphan_file",
+        "reason": "Not imported by any file",
+        "last_modified": "2025-10-01",
+        "risk": "medium"
+      }
+    ]
+  },
+  "summary": {
+    "total_items": 12,
+    "total_size_mb": 45.2,
+    "by_category": {
+      "stale_sessions": 5,
+      "drifted_documents": 4,
+      "dead_code": 3
+    },
+    "by_risk": {
+      "low": 8,
+      "medium": 3,
+      "high": 1
+    }
+  }
+}
+\`\`\`
+
+## Execution Commands
+
+\`\`\`bash
+# Session directories
+find .workflow -type d -name "WFS-*" -o -name "DBG-*" 2>/dev/null
+
+# Check modification times (Linux/Mac)
+stat -c "%Y %n" .workflow/active/WFS-* 2>/dev/null
+
+# Check modification times (Windows PowerShell via bash)
+powershell -Command "Get-ChildItem '.workflow/active/WFS-*' | ForEach-Object { Write-Output \"$($_.LastWriteTime) $($_.FullName)\" }"
+
+# Find orphan exports (TypeScript)
+rg "export (const|function|class|interface|type)" --type ts -l
+
+# Find imports
+rg "import.*from" --type ts
+
+# Find large comment blocks
+rg "^\\s*/\\*" -A 10 --type ts
+
+# Find old TODOs
+rg "TODO|FIXME" --type ts -n
+\`\`\`
+
+## Success Criteria
+- [ ] All session directories scanned with age calculation
+- [ ] Documents cross-referenced with existing code
+- [ ] Dead code detection via import graph analysis
+- [ ] cleanup-manifest.json written with complete data
+- [ ] Each item has risk level and cleanup reason
+`
+)
+```
+
+---
+
+### Phase 3: Confirmation
+
+**Step 3.1: Display Summary**
+```javascript
+const manifest = JSON.parse(Read(`${sessionFolder}/cleanup-manifest.json`))
+
+console.log(`
+## Cleanup Discovery Report
+
+**Mainline Health**: ${Math.round(manifest.mainline_summary.health_score * 100)}%
+**Core Modules**: ${manifest.mainline_summary.core_modules.join(', ')}
+
+### Summary
+| Category | Count | Size | Risk |
+|----------|-------|------|------|
+| Stale Sessions | ${manifest.summary.by_category.stale_sessions} | - | ${getRiskSummary('sessions')} |
+| Drifted Documents | ${manifest.summary.by_category.drifted_documents} | - | ${getRiskSummary('documents')} |
+| Dead Code | ${manifest.summary.by_category.dead_code} | - | ${getRiskSummary('code')} |
+
+**Total**: ${manifest.summary.total_items} items, ~${manifest.summary.total_size_mb} MB
+
+### Stale Sessions
+${manifest.discoveries.stale_sessions.map(s =>
+  `- ${s.path} (${s.age_days}d, ${s.risk}): ${s.reason}`
+).join('\n')}
+
+### Drifted Documents
+${manifest.discoveries.drifted_documents.map(d =>
+  `- ${d.path} (${d.drift_percentage}% broken, ${d.risk}): ${d.reason}`
+).join('\n')}
+
+### Dead Code
+${manifest.discoveries.dead_code.map(c =>
+  `- ${c.path} (${c.type}, ${c.risk}): ${c.reason}`
+).join('\n')}
+`)
+```
+
+**Step 3.2: Dry-Run Exit**
+```javascript
+if (flags.includes('--dry-run')) {
+  console.log(`
+---
+**Dry-run mode**: No changes made.
+Manifest saved to: ${sessionFolder}/cleanup-manifest.json
+
+To execute cleanup: /workflow:clean
+`)
+  return
+}
+```
+
+**Step 3.3: User Confirmation**
+```javascript
+AskUserQuestion({
+  questions: [
+    {
+      question: "Which categories to clean?",
+      header: "Categories",
+      multiSelect: true,
+      options: [
+        {
+          label: "Sessions",
+          description: `${manifest.summary.by_category.stale_sessions} stale workflow sessions`
+        },
+        {
+          label: "Documents",
+          description: `${manifest.summary.by_category.drifted_documents} drifted documents`
+        },
+        {
+          label: "Dead Code",
+          description: `${manifest.summary.by_category.dead_code} unused code files`
+        }
+      ]
+    },
+    {
+      question: "Risk level to include?",
+      header: "Risk",
+      multiSelect: false,
+      options: [
+        { label: "Low only", description: "Safest - only obviously stale items" },
+        { label: "Low + Medium", description: "Recommended - includes likely unused items" },
+        { label: "All", description: "Aggressive - includes high-risk items" }
+      ]
+    }
+  ]
+})
+```
+
+---
+
+### Phase 4: Execution
+
+**Step 4.1: Filter Items by Selection**
+```javascript
+const selectedCategories = userSelection.categories  // ['Sessions', 'Documents', ...]
+const riskLevel = userSelection.risk                 // 'Low only', 'Low + Medium', 'All'
+
+const riskFilter = {
+  'Low only': ['low'],
+  'Low + Medium': ['low', 'medium'],
+  'All': ['low', 'medium', 'high']
+}[riskLevel]
+
+const itemsToClean = []
+
+if (selectedCategories.includes('Sessions')) {
+  itemsToClean.push(...manifest.discoveries.stale_sessions.filter(s => riskFilter.includes(s.risk)))
+}
+if (selectedCategories.includes('Documents')) {
+  itemsToClean.push(...manifest.discoveries.drifted_documents.filter(d => riskFilter.includes(d.risk)))
+}
+if (selectedCategories.includes('Dead Code')) {
+  itemsToClean.push(...manifest.discoveries.dead_code.filter(c => riskFilter.includes(c.risk)))
+}
+
+TodoWrite({
+  todos: itemsToClean.map(item => ({
+    content: `Clean: ${item.path}`,
+    status: "pending",
+    activeForm: `Cleaning ${item.path}`
+  }))
+})
+```
+
+**Step 4.2: Execute Cleanup**
+```javascript
+const results = { deleted: [], failed: [], skipped: [] }
+
+for (const item of itemsToClean) {
+  TodoWrite({ todos: [...] })  // Mark current as in_progress
+
+  try {
+    if (item.type === 'orphan_file' || item.type === 'dead_export') {
+      // Dead code: Delete file or remove export
+      Bash({ command: `rm -rf "${item.path}"` })
+    } else {
+      // Sessions and documents: Delete directory/file
+      Bash({ command: `rm -rf "${item.path}"` })
+    }
+
+    results.deleted.push(item.path)
+    TodoWrite({ todos: [...] })  // Mark as completed
+  } catch (error) {
+    results.failed.push({ path: item.path, error: error.message })
+  }
+}
+```
+
+**Step 4.3: Update Manifests**
+```javascript
+// Update archives manifest if sessions were deleted
+if (selectedCategories.includes('Sessions')) {
+  const archiveManifestPath = '.workflow/archives/manifest.json'
+  if (fileExists(archiveManifestPath)) {
+    const archiveManifest = JSON.parse(Read(archiveManifestPath))
+    const deletedSessionIds = results.deleted
+      .filter(p => p.includes('WFS-'))
+      .map(p => p.split('/').pop())
+
+    const updatedManifest = archiveManifest.filter(entry =>
+      !deletedSessionIds.includes(entry.session_id)
+    )
+
+    Write(archiveManifestPath, JSON.stringify(updatedManifest, null, 2))
+  }
+}
+
+// Update project.json if features referenced deleted sessions
+const projectPath = '.workflow/project.json'
+if (fileExists(projectPath)) {
+  const project = JSON.parse(Read(projectPath))
+  const deletedPaths = new Set(results.deleted)
+
+  project.features = project.features.filter(f =>
+    !deletedPaths.has(f.traceability?.archive_path)
+  )
+
+  project.statistics.total_features = project.features.length
+  project.statistics.last_updated = getUtc8ISOString()
+
+  Write(projectPath, JSON.stringify(project, null, 2))
+}
+```
+
+**Step 4.4: Report Results**
+```javascript
+console.log(`
+## Cleanup Complete
+
+**Deleted**: ${results.deleted.length} items
+**Failed**: ${results.failed.length} items
+**Skipped**: ${results.skipped.length} items
+
+### Deleted Items
+${results.deleted.map(p => `- ${p}`).join('\n')}
+
+${results.failed.length > 0 ? `
+### Failed Items
+${results.failed.map(f => `- ${f.path}: ${f.error}`).join('\n')}
+` : ''}
+
+Cleanup manifest archived to: ${sessionFolder}/cleanup-manifest.json
+`)
+```
+
+---
+
+## Session Folder Structure
+
+```
+.workflow/.clean/{YYYY-MM-DD}/
+├── mainline-profile.json     # Git history analysis
+└── cleanup-manifest.json     # Discovery results
+```
+
+## Risk Level Definitions
+
+| Risk | Description | Examples |
+|------|-------------|----------|
+| **Low** | Safe to delete, no dependencies | Empty sessions, scratchpad files, 100% broken docs |
+| **Medium** | Likely unused, verify before delete | Orphan files, old archives, partially broken docs |
+| **High** | May have hidden dependencies | Files with some imports, recent modifications |
+
+## Error Handling
+
+| Situation | Action |
+|-----------|--------|
+| No git repository | Skip mainline detection, use file timestamps only |
+| Session in use (.archiving) | Skip with warning |
+| Permission denied | Report error, continue with others |
+| Manifest parse error | Regenerate from filesystem scan |
+| Empty discovery | Report "codebase is clean" |
+
+## Related Commands
+
+- `/workflow:session:complete` - Properly archive active sessions
+- `/memory:compact` - Save session memory before cleanup
+- `/workflow:status` - View current workflow state
--- a/.claude/commands/workflow/debug.md
+++ b/.claude/commands/workflow/debug.md
@@ -0,0 +1,321 @@
+---
+name: debug
+description: Interactive hypothesis-driven debugging with NDJSON logging, iterative until resolved
+argument-hint: "\"bug description or error message\""
+allowed-tools: TodoWrite(*), Task(*), AskUserQuestion(*), Read(*), Grep(*), Glob(*), Bash(*), Edit(*), Write(*)
+---
+
+# Workflow Debug Command (/workflow:debug)
+
+## Overview
+
+Evidence-based interactive debugging command. Systematically identifies root causes through hypothesis-driven logging and iterative verification.
+
+**Core workflow**: Explore → Add Logging → Reproduce → Analyze Log → Fix → Verify
+
+## Usage
+
+```bash
+/workflow:debug <BUG_DESCRIPTION>
+
+# Arguments
+<bug-description>          Bug description, error message, or stack trace (required)
+```
+
+## Execution Process
+
+```
+Session Detection:
+   ├─ Check if debug session exists for this bug
+   ├─ EXISTS + debug.log has content → Analyze mode
+   └─ NOT_FOUND or empty log → Explore mode
+
+Explore Mode:
+   ├─ Locate error source in codebase
+   ├─ Generate testable hypotheses (dynamic count)
+   ├─ Add NDJSON logging instrumentation
+   └─ Output: Hypothesis list + await user reproduction
+
+Analyze Mode:
+   ├─ Parse debug.log, validate each hypothesis
+   └─ Decision:
+       ├─ Confirmed → Fix root cause
+       ├─ Inconclusive → Add more logging, iterate
+       └─ All rejected → Generate new hypotheses
+
+Fix & Cleanup:
+   ├─ Apply fix based on confirmed hypothesis
+   ├─ User verifies
+   ├─ Remove debug instrumentation
+   └─ If not fixed → Return to Analyze mode
+```
+
+## Implementation
+
+### Session Setup & Mode Detection
+
+```javascript
+const getUtc8ISOString = () => new Date(Date.now() + 8 * 60 * 60 * 1000).toISOString()
+
+const bugSlug = bug_description.toLowerCase().replace(/[^a-z0-9]+/g, '-').substring(0, 30)
+const dateStr = getUtc8ISOString().substring(0, 10)
+
+const sessionId = `DBG-${bugSlug}-${dateStr}`
+const sessionFolder = `.workflow/.debug/${sessionId}`
+const debugLogPath = `${sessionFolder}/debug.log`
+
+// Auto-detect mode
+const sessionExists = fs.existsSync(sessionFolder)
+const logHasContent = sessionExists && fs.existsSync(debugLogPath) && fs.statSync(debugLogPath).size > 0
+
+const mode = logHasContent ? 'analyze' : 'explore'
+
+if (!sessionExists) {
+  bash(`mkdir -p ${sessionFolder}`)
+}
+```
+
+---
+
+### Explore Mode
+
+**Step 1.1: Locate Error Source**
+
+```javascript
+// Extract keywords from bug description
+const keywords = extractErrorKeywords(bug_description)
+// e.g., ['Stack Length', '未找到', 'registered 0']
+
+// Search codebase for error locations
+for (const keyword of keywords) {
+  Grep({ pattern: keyword, path: ".", output_mode: "content", "-C": 3 })
+}
+
+// Identify affected files and functions
+const affectedLocations = [...]  // from search results
+```
+
+**Step 1.2: Generate Hypotheses (Dynamic)**
+
+```javascript
+// Hypothesis categories based on error pattern
+const HYPOTHESIS_PATTERNS = {
+  "not found|missing|undefined|未找到": "data_mismatch",
+  "0|empty|zero|registered 0": "logic_error",
+  "timeout|connection|sync": "integration_issue",
+  "type|format|parse": "type_mismatch"
+}
+
+// Generate hypotheses based on actual issue (NOT fixed count)
+function generateHypotheses(bugDescription, affectedLocations) {
+  const hypotheses = []
+
+  // Analyze bug and create targeted hypotheses
+  // Each hypothesis has:
+  // - id: H1, H2, ... (dynamic count)
+  // - description: What might be wrong
+  // - testable_condition: What to log
+  // - logging_point: Where to add instrumentation
+
+  return hypotheses  // Could be 1, 3, 5, or more
+}
+
+const hypotheses = generateHypotheses(bug_description, affectedLocations)
+```
+
+**Step 1.3: Add NDJSON Instrumentation**
+
+For each hypothesis, add logging at the relevant location:
+
+**Python template**:
+```python
+# region debug [H{n}]
+try:
+    import json, time
+    _dbg = {
+        "sid": "{sessionId}",
+        "hid": "H{n}",
+        "loc": "{file}:{line}",
+        "msg": "{testable_condition}",
+        "data": {
+            # Capture relevant values here
+        },
+        "ts": int(time.time() * 1000)
+    }
+    with open(r"{debugLogPath}", "a", encoding="utf-8") as _f:
+        _f.write(json.dumps(_dbg, ensure_ascii=False) + "\n")
+except: pass
+# endregion
+```
+
+**JavaScript/TypeScript template**:
+```javascript
+// region debug [H{n}]
+try {
+  require('fs').appendFileSync("{debugLogPath}", JSON.stringify({
+    sid: "{sessionId}",
+    hid: "H{n}",
+    loc: "{file}:{line}",
+    msg: "{testable_condition}",
+    data: { /* Capture relevant values */ },
+    ts: Date.now()
+  }) + "\n");
+} catch(_) {}
+// endregion
+```
+
+**Output to user**:
+```
+## Hypotheses Generated
+
+Based on error "{bug_description}", generated {n} hypotheses:
+
+{hypotheses.map(h => `
+### ${h.id}: ${h.description}
+- Logging at: ${h.logging_point}
+- Testing: ${h.testable_condition}
+`).join('')}
+
+**Debug log**: ${debugLogPath}
+
+**Next**: Run reproduction steps, then come back for analysis.
+```
+
+---
+
+### Analyze Mode
+
+```javascript
+// Parse NDJSON log
+const entries = Read(debugLogPath).split('\n')
+  .filter(l => l.trim())
+  .map(l => JSON.parse(l))
+
+// Group by hypothesis
+const byHypothesis = groupBy(entries, 'hid')
+
+// Validate each hypothesis
+for (const [hid, logs] of Object.entries(byHypothesis)) {
+  const hypothesis = hypotheses.find(h => h.id === hid)
+  const latestLog = logs[logs.length - 1]
+
+  // Check if evidence confirms or rejects hypothesis
+  const verdict = evaluateEvidence(hypothesis, latestLog.data)
+  // Returns: 'confirmed' | 'rejected' | 'inconclusive'
+}
+```
+
+**Output**:
+```
+## Evidence Analysis
+
+Analyzed ${entries.length} log entries.
+
+${results.map(r => `
+### ${r.id}: ${r.description}
+- **Status**: ${r.verdict}
+- **Evidence**: ${JSON.stringify(r.evidence)}
+- **Reason**: ${r.reason}
+`).join('')}
+
+${confirmedHypothesis ? `
+## Root Cause Identified
+
+**${confirmedHypothesis.id}**: ${confirmedHypothesis.description}
+
+Ready to fix.
+` : `
+## Need More Evidence
+
+Add more logging or refine hypotheses.
+`}
+```
+
+---
+
+### Fix & Cleanup
+
+```javascript
+// Apply fix based on confirmed hypothesis
+// ... Edit affected files
+
+// After user verifies fix works:
+
+// Remove debug instrumentation (search for region markers)
+const instrumentedFiles = Grep({
+  pattern: "# region debug|// region debug",
+  output_mode: "files_with_matches"
+})
+
+for (const file of instrumentedFiles) {
+  // Remove content between region markers
+  removeDebugRegions(file)
+}
+
+console.log(`
+## Debug Complete
+
+- Root cause: ${confirmedHypothesis.description}
+- Fix applied to: ${modifiedFiles.join(', ')}
+- Debug instrumentation removed
+`)
+```
+
+---
+
+## Debug Log Format (NDJSON)
+
+Each line is a JSON object:
+
+```json
+{"sid":"DBG-xxx-2025-12-18","hid":"H1","loc":"file.py:func:42","msg":"Check dict keys","data":{"keys":["a","b"],"target":"c","found":false},"ts":1734567890123}
+```
+
+| Field | Description |
+|-------|-------------|
+| `sid` | Session ID |
+| `hid` | Hypothesis ID (H1, H2, ...) |
+| `loc` | Code location |
+| `msg` | What's being tested |
+| `data` | Captured values |
+| `ts` | Timestamp (ms) |
+
+## Session Folder
+
+```
+.workflow/.debug/DBG-{slug}-{date}/
+├── debug.log          # NDJSON log (main artifact)
+└── resolution.md      # Summary after fix (optional)
+```
+
+## Iteration Flow
+
+```
+First Call (/workflow:debug "error"):
+   ├─ No session exists → Explore mode
+   ├─ Extract error keywords, search codebase
+   ├─ Generate hypotheses, add logging
+   └─ Await user reproduction
+
+After Reproduction (/workflow:debug "error"):
+   ├─ Session exists + debug.log has content → Analyze mode
+   ├─ Parse log, evaluate hypotheses
+   └─ Decision:
+       ├─ Confirmed → Fix → User verify
+       │   ├─ Fixed → Cleanup → Done
+       │   └─ Not fixed → Add logging → Iterate
+       ├─ Inconclusive → Add logging → Iterate
+       └─ All rejected → New hypotheses → Iterate
+
+Output:
+   └─ .workflow/.debug/DBG-{slug}-{date}/debug.log
+```
+
+## Error Handling
+
+| Situation | Action |
+|-----------|--------|
+| Empty debug.log | Verify reproduction triggered the code path |
+| All hypotheses rejected | Generate new hypotheses with broader scope |
+| Fix doesn't work | Iterate with more granular logging |
+| >5 iterations | Escalate to `/workflow:lite-fix` with evidence |
--- a/.claude/commands/workflow/docs/analyze.md
+++ b/.claude/commands/workflow/docs/analyze.md
--- a/.claude/commands/workflow/docs/copyright.md
+++ b/.claude/commands/workflow/docs/copyright.md
--- a/.claude/commands/workflow/execute.md
+++ b/.claude/commands/workflow/execute.md
@@ -56,6 +56,7 @@ Phase 2: Planning Document Validation
   └─ Validate .task/ contains IMPL-*.json files

 Phase 3: TodoWrite Generation
+   ├─ Update session status to "active" (Step 0)
   ├─ Parse TODO_LIST.md for task statuses
   ├─ Generate TodoWrite for entire workflow
   └─ Prepare session context paths
@@ -80,6 +81,7 @@ Phase 5: Completion
 Resume Mode (--resume-session):
   ├─ Skip Phase 1 & Phase 2
   └─ Entry Point: Phase 3 (TodoWrite Generation)
+      ├─ Update session status to "active" (if not already)
      └─ Continue: Phase 4 → Phase 5
 ```

@@ -179,6 +181,16 @@ bash(cat .workflow/active/${sessionId}/workflow-session.json)
 ### Phase 3: TodoWrite Generation
 **Applies to**: Both normal and resume modes (resume mode entry point)

+**Step 0: Update Session Status to Active**
+Before generating TodoWrite, update session status from "planning" to "active":
+```bash
+# Update session status (idempotent - safe to run if already active)
+jq '.status = "active" | .execution_started_at = (.execution_started_at // now | todate)' \
+  .workflow/active/${sessionId}/workflow-session.json > tmp.json && \
+  mv tmp.json .workflow/active/${sessionId}/workflow-session.json
+```
+This ensures the dashboard shows the session as "ACTIVE" during execution.
+
 **Process**:
 1. **Create TodoWrite List**: Generate task list from TODO_LIST.md (not from task JSONs)
   - Parse TODO_LIST.md to extract all tasks with current statuses
@@ -380,6 +392,7 @@ TodoWrite({

 ```bash
 Task(subagent_type="{meta.agent}",
+     run_in_background=false,
     prompt="Execute task: {task.title}

     {[FLOW_CONTROL]}
@@ -397,7 +410,6 @@ Task(subagent_type="{meta.agent}",
     1. Read complete task JSON: {session.task_json_path}
     2. Load context package: {session.context_package_path}

-     Follow complete execution guidelines in @.claude/agents/{meta.agent}.md

     **Session Paths**:
     - Workflow Dir: {session.workflow_dir}
--- a/.claude/commands/workflow/init.md
+++ b/.claude/commands/workflow/init.md
@@ -86,6 +86,7 @@ bash(cp .workflow/project.json .workflow/project.json.backup)
 ```javascript
 Task(
  subagent_type="cli-explore-agent",
+  run_in_background=false,
  description="Deep project analysis",
  prompt=`
 Analyze project for workflow initialization and generate .workflow/project.json.
--- a/.claude/commands/workflow/lite-execute.md
+++ b/.claude/commands/workflow/lite-execute.md
@@ -258,6 +258,33 @@ TodoWrite({

 ### Step 3: Launch Execution

+**Executor Resolution** (任务级 executor 优先于全局设置):
+```javascript
+// 获取任务的 executor（优先使用 executorAssignments，fallback 到全局 executionMethod）
+function getTaskExecutor(task) {
+  const assignments = executionContext?.executorAssignments || {}
+  if (assignments[task.id]) {
+    return assignments[task.id].executor  // 'gemini' | 'codex' | 'agent'
+  }
+  // Fallback: 全局 executionMethod 映射
+  const method = executionContext?.executionMethod || 'Auto'
+  if (method === 'Agent') return 'agent'
+  if (method === 'Codex') return 'codex'
+  // Auto: 根据复杂度
+  return planObject.complexity === 'Low' ? 'agent' : 'codex'
+}
+
+// 按 executor 分组任务
+function groupTasksByExecutor(tasks) {
+  const groups = { gemini: [], codex: [], agent: [] }
+  tasks.forEach(task => {
+    const executor = getTaskExecutor(task)
+    groups[executor].push(task)
+  })
+  return groups
+}
+```
+
 **Execution Flow**: Parallel batches concurrently → Sequential batches in order
 ```javascript
 const parallel = executionCalls.filter(c => c.executionType === "parallel")
@@ -283,8 +310,9 @@ for (const call of sequential) {
 **Option A: Agent Execution**

 When to use:
- `executionMethod = "Agent"`
- `executionMethod = "Auto" AND complexity = "Low"`
+- `getTaskExecutor(task) === "agent"`
+- 或 `executionMethod = "Agent"` (全局 fallback)
+- 或 `executionMethod = "Auto" AND complexity = "Low"` (全局 fallback)

 **Task Formatting Principle**: Each task is a self-contained checklist. The agent only needs to know what THIS task requires, not its position or relation to other tasks.

@@ -333,6 +361,7 @@ Complete each task according to its "Done when" checklist.

 Task(
  subagent_type="code-developer",
+  run_in_background=false,
  description=batch.taskSummary,
  prompt=formatBatchPrompt({
    tasks: batch.tasks,
@@ -399,8 +428,9 @@ function extractRelatedFiles(tasks) {
 **Option B: CLI Execution (Codex)**

 When to use:
- `executionMethod = "Codex"`
- `executionMethod = "Auto" AND complexity = "Medium" or "High"`
+- `getTaskExecutor(task) === "codex"`
+- 或 `executionMethod = "Codex"` (全局 fallback)
+- 或 `executionMethod = "Auto" AND complexity = "Medium/High"` (全局 fallback)

 **Task Formatting Principle**: Same as Agent - each task is a self-contained checklist. No task numbering or position awareness.

@@ -473,10 +503,10 @@ Detailed plan: ${executionContext.session.artifacts.plan}`)
  return prompt
 }

-codex --full-auto exec "${buildCLIPrompt(batch)}" --skip-git-repo-check -s danger-full-access
+ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write
 ```

-**Execution with tracking**:
+**Execution with fixed IDs** (predictable ID pattern):
 ```javascript
 // Launch CLI in foreground (NOT background)
 // Timeout based on complexity: Low=40min, Medium=60min, High=100min
@@ -486,15 +516,57 @@ const timeoutByComplexity = {
  "High": 6000000    // 100 minutes
 }

+// Generate fixed execution ID: ${sessionId}-${groupId}
+// This enables predictable ID lookup without relying on resume context chains
+const sessionId = executionContext?.session?.id || 'standalone'
+const fixedExecutionId = `${sessionId}-${batch.groupId}`  // e.g., "implement-auth-2025-12-13-P1"
+
+// Check if resuming from previous failed execution
+const previousCliId = batch.resumeFromCliId || null
+
+// Build command with fixed ID (and optional resume for continuation)
+const cli_command = previousCliId
+  ? `ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write --id ${fixedExecutionId} --resume ${previousCliId}`
+  : `ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write --id ${fixedExecutionId}`
+
 bash_result = Bash(
  command=cli_command,
  timeout=timeoutByComplexity[planObject.complexity] || 3600000
 )

+// Execution ID is now predictable: ${fixedExecutionId}
+// Can also extract from output: "ID: implement-auth-2025-12-13-P1"
+const cliExecutionId = fixedExecutionId
+
 // Update TodoWrite when execution completes
 ```

-**Result Collection**: After completion, analyze output and collect result following `executionResult` structure
+**Resume on Failure** (with fixed ID):
+```javascript
+// If execution failed or timed out, offer resume option
+if (bash_result.status === 'failed' || bash_result.status === 'timeout') {
+  console.log(`
+⚠️ Execution incomplete. Resume available:
+   Fixed ID: ${fixedExecutionId}
+   Lookup: ccw cli detail ${fixedExecutionId}
+   Resume: ccw cli -p "Continue tasks" --resume ${fixedExecutionId} --tool codex --mode write --id ${fixedExecutionId}-retry
+`)
+
+  // Store for potential retry in same session
+  batch.resumeFromCliId = fixedExecutionId
+}
+```
+
+**Result Collection**: After completion, analyze output and collect result following `executionResult` structure (include `cliExecutionId` for resume capability)
+
+**Option C: CLI Execution (Gemini)**
+
+When to use: `getTaskExecutor(task) === "gemini"` (分析类任务)
+
+```bash
+# 使用与 Option B 相同的 formatBatchPrompt，切换 tool 和 mode
+ccw cli -p "${formatBatchPrompt(batch)}" --tool gemini --mode analysis --id ${sessionId}-${batch.groupId}
+```

 ### Step 4: Progress Tracking

@@ -541,15 +613,30 @@ RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/02-review-code-q
 # - Report findings directly

 # Method 2: Gemini Review (recommended)
-gemini -p "[Shared Prompt Template with artifacts]"
+ccw cli -p "[Shared Prompt Template with artifacts]" --tool gemini --mode analysis
 # CONTEXT includes: @**/* @${plan.json} [@${exploration.json}]

 # Method 3: Qwen Review (alternative)
-qwen -p "[Shared Prompt Template with artifacts]"
+ccw cli -p "[Shared Prompt Template with artifacts]" --tool qwen --mode analysis
 # Same prompt as Gemini, different execution engine

 # Method 4: Codex Review (autonomous)
-codex --full-auto exec "[Verify plan acceptance criteria at ${plan.json}]" --skip-git-repo-check -s danger-full-access
+ccw cli -p "[Verify plan acceptance criteria at ${plan.json}]" --tool codex --mode write
+```
+
+**Multi-Round Review with Fixed IDs**:
+```javascript
+// Generate fixed review ID
+const reviewId = `${sessionId}-review`
+
+// First review pass with fixed ID
+const reviewResult = Bash(`ccw cli -p "[Review prompt]" --tool gemini --mode analysis --id ${reviewId}`)
+
+// If issues found, continue review dialog with fixed ID chain
+if (hasUnresolvedIssues(reviewResult)) {
+  // Resume with follow-up questions
+  Bash(`ccw cli -p "Clarify the security concerns you mentioned" --resume ${reviewId} --tool gemini --mode analysis --id ${reviewId}-followup`)
+}
 ```

 **Implementation Note**: Replace `[Shared Prompt Template with artifacts]` placeholder with actual template content, substituting:
@@ -623,8 +710,10 @@ console.log(`✓ Development index: [${category}] ${entry.title}`)
 | Empty file | File exists but no content | Error: "File is empty: {path}. Provide task description." |
 | Invalid Enhanced Task JSON | JSON missing required fields | Warning: "Missing required fields. Treating as plain text." |
 | Malformed JSON | JSON parsing fails | Treat as plain text (expected for non-JSON files) |
-| Execution failure | Agent/Codex crashes | Display error, save partial progress, suggest retry |
+| Execution failure | Agent/Codex crashes | Display error, use fixed ID `${sessionId}-${groupId}` for resume: `ccw cli -p "Continue" --resume <fixed-id> --id <fixed-id>-retry` |
+| Execution timeout | CLI exceeded timeout | Use fixed ID for resume with extended timeout |
 | Codex unavailable | Codex not installed | Show installation instructions, offer Agent execution |
+| Fixed ID not found | Custom ID lookup failed | Check `ccw cli history`, verify date directories |

 ## Data Structures

@@ -646,10 +735,15 @@ Passed from lite-plan via global variable:
  explorationAngles: string[],             // List of exploration angles
  explorationManifest: {...} | null,       // Exploration manifest
  clarificationContext: {...} | null,
-  executionMethod: "Agent" | "Codex" | "Auto",
+  executionMethod: "Agent" | "Codex" | "Auto",  // 全局默认
  codeReviewTool: "Skip" | "Gemini Review" | "Agent Review" | string,
  originalUserInput: string,

+  // 任务级 executor 分配（优先于 executionMethod）
+  executorAssignments: {
+    [taskId]: { executor: "gemini" | "codex" | "agent", reason: string }
+  },
+
  // Session artifacts location (saved by lite-plan)
  session: {
    id: string,                        // Session identifier: {taskSlug}-{shortTimestamp}
@@ -679,8 +773,20 @@ Collected after each execution call completes:
  tasksSummary: string,                // Brief description of tasks handled
  completionSummary: string,           // What was completed
  keyOutputs: string,                  // Files created/modified, key changes
-  notes: string                        // Important context for next execution
+  notes: string,                       // Important context for next execution
+  fixedCliId: string | null            // Fixed CLI execution ID (e.g., "implement-auth-2025-12-13-P1")
 }
 ```

 Appended to `previousExecutionResults` array for context continuity in multi-execution scenarios.
+
+**Fixed ID Pattern**: `${sessionId}-${groupId}` enables predictable lookup without auto-generated timestamps.
+
+**Resume Usage**: If `status` is "partial" or "failed", use `fixedCliId` to resume:
+```bash
+# Lookup previous execution
+ccw cli detail ${fixedCliId}
+
+# Resume with new fixed ID for retry
+ccw cli -p "Continue from where we left off" --resume ${fixedCliId} --tool codex --mode write --id ${fixedCliId}-retry
+```
--- a/.claude/commands/workflow/lite-fix.md
+++ b/.claude/commands/workflow/lite-fix.md
@@ -164,6 +164,7 @@ Launching ${selectedAngles.length} parallel diagnoses...
 const diagnosisTasks = selectedAngles.map((angle, index) =>
  Task(
    subagent_type="cli-explore-agent",
+    run_in_background=false,
    description=`Diagnose: ${angle}`,
    prompt=`
 ## Task Objective
@@ -400,6 +401,7 @@ Write(`${sessionFolder}/fix-plan.json`, JSON.stringify(fixPlan, null, 2))
 ```javascript
 Task(
  subagent_type="cli-lite-planning-agent",
+  run_in_background=false,
  description="Generate detailed fix plan",
  prompt=`
 Generate fix plan and write fix-plan.json.
--- a/.claude/commands/workflow/lite-plan.md
+++ b/.claude/commands/workflow/lite-plan.md
@@ -15,7 +15,7 @@ Intelligent lightweight planning command with dynamic workflow adaptation based
 - Intelligent task analysis with automatic exploration detection
 - Dynamic code exploration (cli-explore-agent) when codebase understanding needed
 - Interactive clarification after exploration to gather missing information
- Adaptive planning strategy (direct Claude vs cli-lite-planning-agent) based on complexity
+- Adaptive planning: Low complexity → Direct Claude; Medium/High → cli-lite-planning-agent
 - Two-step confirmation: plan display → multi-dimensional input collection
 - Execution dispatch with complete context handoff to lite-execute

@@ -38,7 +38,7 @@ Phase 1: Task Analysis & Exploration
   ├─ Parse input (description or .md file)
   ├─ intelligent complexity assessment (Low/Medium/High)
   ├─ Exploration decision (auto-detect or --explore flag)
-   ├─ ⚠️ Context protection: If file reading ≥50k chars → force cli-explore-agent
+   ├─ Context protection: If file reading ≥50k chars → force cli-explore-agent
   └─ Decision:
      ├─ needsExploration=true → Launch parallel cli-explore-agents (1-4 based on complexity)
      └─ needsExploration=false → Skip to Phase 2/3
@@ -140,11 +140,17 @@ function selectAngles(taskDescription, count) {

 const selectedAngles = selectAngles(task_description, complexity === 'High' ? 4 : (complexity === 'Medium' ? 3 : 1))

+// Planning strategy determination
+const planningStrategy = complexity === 'Low'
+  ? 'Direct Claude Planning'
+  : 'cli-lite-planning-agent'
+
 console.log(`
 ## Exploration Plan

 Task Complexity: ${complexity}
 Selected Angles: ${selectedAngles.join(', ')}
+Planning Strategy: ${planningStrategy}

 Launching ${selectedAngles.length} parallel explorations...
 `)
@@ -152,11 +158,16 @@ Launching ${selectedAngles.length} parallel explorations...

 **Launch Parallel Explorations** - Orchestrator assigns angle to each agent:

+**⚠️ CRITICAL - NO BACKGROUND EXECUTION**:
+- **MUST NOT use `run_in_background: true`** - exploration results are REQUIRED before planning
+
+
 ```javascript
 // Launch agents with pre-assigned angles
 const explorationTasks = selectedAngles.map((angle, index) =>
  Task(
    subagent_type="cli-explore-agent",
+    run_in_background=false,  // ⚠️ MANDATORY: Must wait for results
    description=`Explore: ${angle}`,
    prompt=`
 ## Task Objective
@@ -304,14 +315,11 @@ explorations.forEach(exp => {
  }
 })

-// Deduplicate exact same questions only
-const seen = new Set()
-const dedupedClarifications = allClarifications.filter(c => {
-  const key = c.question.toLowerCase()
-  if (seen.has(key)) return false
-  seen.add(key)
-  return true
-})
+// Intelligent deduplication: analyze allClarifications by intent
+// - Identify questions with similar intent across different angles
+// - Merge similar questions: combine options, consolidate context
+// - Produce dedupedClarifications with unique intents only
+const dedupedClarifications = intelligentMerge(allClarifications)

 // Multi-round clarification: batch questions (max 4 per round)
 if (dedupedClarifications.length > 0) {
@@ -351,12 +359,34 @@ if (dedupedClarifications.length > 0) {

 **IMPORTANT**: Phase 3 is **planning only** - NO code execution. All execution happens in Phase 5 via lite-execute.

+**Executor Assignment** (Claude 智能分配，plan 生成后执行):
+
+```javascript
+// 分配规则（优先级从高到低）：
+// 1. 用户明确指定："用 gemini 分析..." → gemini, "codex 实现..." → codex
+// 2. 默认 → agent
+
+const executorAssignments = {}  // { taskId: { executor: 'gemini'|'codex'|'agent', reason: string } }
+plan.tasks.forEach(task => {
+  // Claude 根据上述规则语义分析，为每个 task 分配 executor
+  executorAssignments[task.id] = { executor: '...', reason: '...' }
+})
+```
+
 **Low Complexity** - Direct planning by Claude:
 ```javascript
 // Step 1: Read schema
 const schema = Bash(`cat ~/.claude/workflows/cli-templates/schemas/plan-json-schema.json`)

-// Step 2: Generate plan following schema (Claude directly, no agent)
+// Step 2: ⚠️ MANDATORY - Read and review ALL exploration files
+const manifest = JSON.parse(Read(`${sessionFolder}/explorations-manifest.json`))
+manifest.explorations.forEach(exp => {
+  const explorationData = Read(exp.path)
+  console.log(`\n### Exploration: ${exp.angle}\n${explorationData}`)
+})
+
+// Step 3: Generate plan following schema (Claude directly, no agent)
+// ⚠️ Plan MUST incorporate insights from exploration files read in Step 2
 const plan = {
  summary: "...",
  approach: "...",
@@ -367,10 +397,10 @@ const plan = {
  _metadata: { timestamp: getUtc8ISOString(), source: "direct-planning", planning_mode: "direct" }
 }

-// Step 3: Write plan to session folder
+// Step 4: Write plan to session folder
 Write(`${sessionFolder}/plan.json`, JSON.stringify(plan, null, 2))

-// Step 4: MUST continue to Phase 4 (Confirmation) - DO NOT execute code here
+// Step 5: MUST continue to Phase 4 (Confirmation) - DO NOT execute code here
 ```

 **Medium/High Complexity** - Invoke cli-lite-planning-agent:
@@ -378,6 +408,7 @@ Write(`${sessionFolder}/plan.json`, JSON.stringify(plan, null, 2))
 ```javascript
 Task(
  subagent_type="cli-lite-planning-agent",
+  run_in_background=false,
  description="Generate detailed implementation plan",
  prompt=`
 Generate implementation plan and write plan.json.
@@ -407,23 +438,9 @@ ${JSON.stringify(clarificationContext) || "None"}
 ${complexity}

 ## Requirements
-Generate plan.json with:
- summary: 2-3 sentence overview
- approach: High-level implementation strategy (incorporating insights from all exploration angles)
- tasks: 2-7 structured tasks (**IMPORTANT: group by feature/module, NOT by file**)
-  - **Task Granularity Principle**: Each task = one complete feature unit or module
-  - title: action verb + target module/feature (e.g., "Implement auth token refresh")
-  - scope: module path (src/auth/) or feature name, prefer module-level over single file
-  - action, description
-  - modification_points: ALL files to modify for this feature (group related changes)
-  - implementation (3-7 steps covering all modification_points)
-  - reference (pattern, files, examples)
-  - acceptance (2-4 criteria for the entire feature)
-  - depends_on: task IDs this task depends on (use sparingly, only for true dependencies)
- estimated_time, recommended_execution, complexity
- _metadata:
-  - timestamp, source, planning_mode
-  - exploration_angles: ${JSON.stringify(manifest.explorations.map(e => e.angle))}
+Generate plan.json following the schema obtained above. Key constraints:
+- tasks: 2-7 structured tasks (**group by feature/module, NOT by file**)
+- _metadata.exploration_angles: ${JSON.stringify(manifest.explorations.map(e => e.angle))}

 ## Task Grouping Rules
 1. **Group by feature**: All changes for one feature = one task (even if 3-5 files)
@@ -435,10 +452,10 @@ Generate plan.json with:
 7. **Prefer parallel**: Most tasks should be independent (no depends_on)

 ## Execution
-1. Read ALL exploration files for comprehensive context
+1. Read schema file (cat command above)
 2. Execute CLI planning using Gemini (Qwen fallback)
-3. Synthesize findings from multiple exploration angles
-4. Parse output and structure plan
+3. Read ALL exploration files for comprehensive context
+4. Synthesize findings and generate plan following schema
 5. Write JSON: Write('${sessionFolder}/plan.json', jsonContent)
 6. Return brief completion summary
 `
@@ -535,9 +552,13 @@ executionContext = {
  explorationAngles: manifest.explorations.map(e => e.angle),
  explorationManifest: manifest,
  clarificationContext: clarificationContext || null,
-  executionMethod: userSelection.execution_method,
+  executionMethod: userSelection.execution_method,  // 全局默认，可被 executorAssignments 覆盖
  codeReviewTool: userSelection.code_review_tool,
  originalUserInput: task_description,
+
+  // 任务级 executor 分配（优先于全局 executionMethod）
+  executorAssignments: executorAssignments,  // { taskId: { executor, reason } }
+
  session: {
    id: sessionId,
    folder: sessionFolder,
--- a/.claude/commands/workflow/plan.md
+++ b/.claude/commands/workflow/plan.md
@@ -61,7 +61,7 @@ Phase 2: Context Gathering
      ├─ Tasks attached: Analyze structure → Identify integration → Generate package
      └─ Output: contextPath + conflict_risk

-Phase 3: Conflict Resolution (conditional)
+Phase 3: Conflict Resolution 
   └─ Decision (conflict_risk check):
      ├─ conflict_risk ≥ medium → Execute /workflow:tools:conflict-resolution
      │   ├─ Tasks attached: Detect conflicts → Present to user → Apply strategies
@@ -168,7 +168,7 @@ SlashCommand(command="/workflow:tools:context-gather --session [sessionId] \"[st

 ---

-### Phase 3: Conflict Resolution (Optional - auto-triggered by conflict risk)
+### Phase 3: Conflict Resolution

 **Trigger**: Only execute when context-package.json indicates conflict_risk is "medium" or "high"

@@ -185,10 +185,10 @@ SlashCommand(command="/workflow:tools:conflict-resolution --session [sessionId]

 **Parse Output**:
 - Extract: Execution status (success/skipped/failed)
- Verify: CONFLICT_RESOLUTION.md file path (if executed)
+- Verify: conflict-resolution.json file path (if executed)

 **Validation**:
- File `.workflow/active/[sessionId]/.process/CONFLICT_RESOLUTION.md` exists (if executed)
+- File `.workflow/active/[sessionId]/.process/conflict-resolution.json` exists (if executed)

 **Skip Behavior**:
 - If conflict_risk is "none" or "low", skip directly to Phase 3.5
@@ -497,7 +497,7 @@ Return summary to user
 - Parse context path from Phase 2 output, store in memory
 - **Extract conflict_risk from context-package.json**: Determine Phase 3 execution
 - **If conflict_risk ≥ medium**: Launch Phase 3 conflict-resolution with sessionId and contextPath
- Wait for Phase 3 to finish executing (if executed), verify CONFLICT_RESOLUTION.md created
+- Wait for Phase 3 to finish executing (if executed), verify conflict-resolution.json created
 - **If conflict_risk is none/low**: Skip Phase 3, proceed directly to Phase 4
 - **Build Phase 4 command**: `/workflow:tools:task-generate-agent --session [sessionId]`
 - Pass session ID to Phase 4 command
--- a/.claude/commands/workflow/review-module-cycle.md
+++ b/.claude/commands/workflow/review-module-cycle.md
@@ -391,6 +391,7 @@ done
 ```javascript
 Task(
  subagent_type="cli-explore-agent",
+  run_in_background=false,
  description=`Execute ${dimension} review analysis via Deep Scan`,
  prompt=`
    ## Task Objective
@@ -476,6 +477,7 @@ Task(
 ```javascript
 Task(
  subagent_type="cli-explore-agent",
+  run_in_background=false,
  description=`Deep-dive analysis for critical finding: ${findingTitle} via Dependency Map + Deep Scan`,
  prompt=`
    ## Task Objective
--- a/.claude/commands/workflow/review-session-cycle.md
+++ b/.claude/commands/workflow/review-session-cycle.md
@@ -401,6 +401,7 @@ git log --since="${sessionCreatedAt}" --name-only --pretty=format: | sort -u
 ```javascript
 Task(
  subagent_type="cli-explore-agent",
+  run_in_background=false,
  description=`Execute ${dimension} review analysis via Deep Scan`,
  prompt=`
    ## Task Objective
@@ -487,6 +488,7 @@ Task(
 ```javascript
 Task(
  subagent_type="cli-explore-agent",
+  run_in_background=false,
  description=`Deep-dive analysis for critical finding: ${findingTitle} via Dependency Map + Deep Scan`,
  prompt=`
    ## Task Objective
--- a/.claude/commands/workflow/review.md
+++ b/.claude/commands/workflow/review.md
@@ -112,11 +112,15 @@ After bash validation, the model takes control to:

 1. **Load Context**: Read completed task summaries and changed files
   ```bash
-   # Load implementation summaries
-   cat .workflow/active/${sessionId}/.summaries/IMPL-*.md
+   # Load implementation summaries (iterate through .summaries/ directory)
+   for summary in .workflow/active/${sessionId}/.summaries/*.md; do
+     cat "$summary"
+   done

   # Load test results (if available)
-   cat .workflow/active/${sessionId}/.summaries/TEST-FIX-*.md 2>/dev/null
+   for test_summary in .workflow/active/${sessionId}/.summaries/TEST-FIX-*.md 2>/dev/null; do
+     cat "$test_summary"
+   done

   # Get changed files
   git log --since="$(cat .workflow/active/${sessionId}/workflow-session.json | jq -r .created_at)" --name-only --pretty=format: | sort -u
@@ -132,51 +136,53 @@ After bash validation, the model takes control to:
     ```
   - Use Gemini for security analysis:
     ```bash
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Security audit of completed implementation
     TASK: Review code for security vulnerabilities, insecure patterns, auth/authz issues
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Security findings report with severity levels
     RULES: Focus on OWASP Top 10, authentication, authorization, data validation, injection risks
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```

   **Architecture Review** (`--type=architecture`):
   - Use Qwen for architecture analysis:
     ```bash
-     cd .workflow/active/${sessionId} && qwen -p "
+     ccw cli -p "
     PURPOSE: Architecture compliance review
     TASK: Evaluate adherence to architectural patterns, identify technical debt, review design decisions
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Architecture assessment with recommendations
     RULES: Check for patterns, separation of concerns, modularity, scalability
-     " --approval-mode yolo
+     " --tool qwen --mode write --cd .workflow/active/${sessionId}
     ```

   **Quality Review** (`--type=quality`):
   - Use Gemini for code quality:
     ```bash
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Code quality and best practices review
     TASK: Assess code readability, maintainability, adherence to best practices
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Quality assessment with improvement suggestions
     RULES: Check for code smells, duplication, complexity, naming conventions
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```

   **Action Items Review** (`--type=action-items`):
   - Verify all requirements and acceptance criteria met:
     ```bash
     # Load task requirements and acceptance criteria
-     find .workflow/active/${sessionId}/.task -name "IMPL-*.json" -exec jq -r '
-       "Task: " + .id + "\n" +
-       "Requirements: " + (.context.requirements | join(", ")) + "\n" +
-       "Acceptance: " + (.context.acceptance | join(", "))
-     ' {} \;
+     for task_file in .workflow/active/${sessionId}/.task/*.json; do
+       cat "$task_file" | jq -r '
+         "Task: " + .id + "\n" +
+         "Requirements: " + (.context.requirements | join(", ")) + "\n" +
+         "Acceptance: " + (.context.acceptance | join(", "))
+       '
+     done

     # Check implementation summaries against requirements
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Verify all requirements and acceptance criteria are met
     TASK: Cross-check implementation summaries against original requirements
     CONTEXT: @.task/IMPL-*.json,.summaries/IMPL-*.md,../.. @../../CLAUDE.md
@@ -190,7 +196,7 @@ After bash validation, the model takes control to:
     - Verify all acceptance criteria are met
     - Flag any incomplete or missing action items
     - Assess deployment readiness
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```


--- a/.claude/commands/workflow/session/complete.md
+++ b/.claude/commands/workflow/session/complete.md
@@ -8,493 +8,146 @@ examples:

 # Complete Workflow Session (/workflow:session:complete)

-## Overview
-Mark the currently active workflow session as complete, analyze it for lessons learned, move it to the archive directory, and remove the active flag marker.
+Mark the currently active workflow session as complete, archive it, and update manifests.

-## Usage
-```bash
-/workflow:session:complete           # Complete current active session
-/workflow:session:complete --detailed # Show detailed completion summary
-```
-
-## Implementation Flow
-
-### Phase 1: Pre-Archival Preparation (Transactional Setup)
-
-**Purpose**: Find active session, create archiving marker to prevent concurrent operations. Session remains in active location for agent processing.
-
-#### Step 1.1: Find Active Session and Get Name
-```bash
-# Find active session directory
-bash(find .workflow/active/ -name "WFS-*" -type d | head -1)
-
-# Extract session name from directory path
-bash(basename .workflow/active/WFS-session-name)
-```
-**Output**: Session name `WFS-session-name`
-
-#### Step 1.2: Check for Existing Archiving Marker (Resume Detection)
-```bash
-# Check if session is already being archived
-bash(test -f .workflow/active/WFS-session-name/.archiving && echo "RESUMING" || echo "NEW")
-```
-
-**If RESUMING**:
- Previous archival attempt was interrupted
- Skip to Phase 2 to resume agent analysis
-
-**If NEW**:
- Continue to Step 1.3
-
-#### Step 1.3: Create Archiving Marker
-```bash
-# Mark session as "archiving in progress"
-bash(touch .workflow/active/WFS-session-name/.archiving)
-```
-**Purpose**:
- Prevents concurrent operations on this session
- Enables recovery if archival fails
- Session remains in `.workflow/active/` for agent analysis
-
-**Result**: Session still at `.workflow/active/WFS-session-name/` with `.archiving` marker
-
-### Phase 2: Agent Analysis (In-Place Processing)
-
-**Purpose**: Agent analyzes session WHILE STILL IN ACTIVE LOCATION. Generates metadata but does NOT move files or update manifest.
-
-#### Agent Invocation
-
-Invoke `universal-executor` agent to analyze session and prepare archive metadata.
-
-**Agent Task**:
-```
-Task(
-  subagent_type="universal-executor",
-  description="Analyze session for archival",
-  prompt=`
-Analyze workflow session for archival preparation. Session is STILL in active location.
-
-## Context
- Session: .workflow/active/WFS-session-name/
- Status: Marked as archiving (.archiving marker present)
- Location: Active sessions directory (NOT archived yet)
-
-## Tasks
-
-1. **Extract session data** from workflow-session.json
-   - session_id, description/topic, started_at, completed_at, status
-   - If status != "completed", update it with timestamp
-
-2. **Count files**: tasks (.task/*.json) and summaries (.summaries/*.md)
-
-3. **Extract review data** (if .review/ exists):
-   - Count dimension results: .review/dimensions/*.json
-   - Count deep-dive results: .review/iterations/*.json
-   - Extract findings summary from dimension JSONs (total, critical, high, medium, low)
-   - Check fix results if .review/fixes/ exists (fixed_count, failed_count)
-   - Build review_metrics: {dimensions_analyzed, total_findings, severity_distribution, fix_success_rate}
-
-4. **Generate lessons**: Use gemini with ~/.claude/workflows/cli-templates/prompts/archive/analysis-simple.txt
-   - Return: {successes, challenges, watch_patterns}
-   - If review data exists, include review-specific lessons (common issue patterns, effective fixes)
-
-5. **Build archive entry**:
-   - Calculate: duration_hours, success_rate, tags (3-5 keywords)
-   - Construct complete JSON with session_id, description, archived_at, metrics, tags, lessons
-   - Include archive_path: ".workflow/archives/WFS-session-name" (future location)
-   - If review data exists, include review_metrics in metrics object
-
-6. **Extract feature metadata** (for Phase 4):
-   - Parse IMPL_PLAN.md for title (first # heading)
-   - Extract description (first paragraph, max 200 chars)
-   - Generate feature tags (3-5 keywords from content)
-
-7. **Return result**: Complete metadata package for atomic commit
-   {
-     "status": "success",
-     "session_id": "WFS-session-name",
-     "archive_entry": {
-       "session_id": "...",
-       "description": "...",
-       "archived_at": "...",
-       "archive_path": ".workflow/archives/WFS-session-name",
-       "metrics": {
-         "duration_hours": 2.5,
-         "tasks_completed": 5,
-         "summaries_generated": 3,
-         "review_metrics": {                    // Optional, only if .review/ exists
-           "dimensions_analyzed": 4,
-           "total_findings": 15,
-           "severity_distribution": {"critical": 1, "high": 3, "medium": 8, "low": 3},
-           "fix_success_rate": 0.87             // Optional, only if .review/fixes/ exists
-         }
-       },
-       "tags": [...],
-       "lessons": {...}
-     },
-     "feature_metadata": {
-       "title": "...",
-       "description": "...",
-       "tags": [...]
-     }
-   }
-
-## Important Constraints
- DO NOT move or delete any files
- DO NOT update manifest.json yet
- Session remains in .workflow/active/ during analysis
- Return complete metadata package for orchestrator to commit atomically
-
-## Error Handling
- On failure: return {"status": "error", "task": "...", "message": "..."}
- Do NOT modify any files on error
-  `
-)
-```
-
-**Expected Output**:
- Agent returns complete metadata package
- Session remains in `.workflow/active/` with `.archiving` marker
- No files moved or manifests updated yet
-
-### Phase 3: Atomic Commit (Transactional File Operations)
-
-**Purpose**: Atomically commit all changes. Only execute if Phase 2 succeeds.
-
-#### Step 3.1: Create Archive Directory
-```bash
-bash(mkdir -p .workflow/archives/)
-```
-
-#### Step 3.2: Move Session to Archive
-```bash
-bash(mv .workflow/active/WFS-session-name .workflow/archives/WFS-session-name)
-```
-**Result**: Session now at `.workflow/archives/WFS-session-name/`
-
-#### Step 3.3: Update Manifest
-```bash
-# Read current manifest (or create empty array if not exists)
-bash(test -f .workflow/archives/manifest.json && cat .workflow/archives/manifest.json || echo "[]")
-```
-
-**JSON Update Logic**:
-```javascript
-// Read agent result from Phase 2
-const agentResult = JSON.parse(agentOutput);
-const archiveEntry = agentResult.archive_entry;
-
-// Read existing manifest
-let manifest = [];
-try {
-  const manifestContent = Read('.workflow/archives/manifest.json');
-  manifest = JSON.parse(manifestContent);
-} catch {
-  manifest = []; // Initialize if not exists
-}
-
-// Append new entry
-manifest.push(archiveEntry);
-
-// Write back
-Write('.workflow/archives/manifest.json', JSON.stringify(manifest, null, 2));
-```
-
-#### Step 3.4: Remove Archiving Marker
-```bash
-bash(rm .workflow/archives/WFS-session-name/.archiving)
-```
-**Result**: Clean archived session without temporary markers
-
-**Output Confirmation**:
-```
-✓ Session "${sessionId}" archived successfully
-  Location: .workflow/archives/WFS-session-name/
-  Lessons: ${archiveEntry.lessons.successes.length} successes, ${archiveEntry.lessons.challenges.length} challenges
-  Manifest: Updated with ${manifest.length} total sessions
-  ${reviewMetrics ? `Review: ${reviewMetrics.total_findings} findings across ${reviewMetrics.dimensions_analyzed} dimensions, ${Math.round(reviewMetrics.fix_success_rate * 100)}% fixed` : ''}
-```
-
-### Phase 4: Update Project Feature Registry
-
-**Purpose**: Record completed session as a project feature in `.workflow/project.json`.
-
-**Execution**: Uses feature metadata from Phase 2 agent result to update project registry.
-
-#### Step 4.1: Check Project State Exists
-```bash
-bash(test -f .workflow/project.json && echo "EXISTS" || echo "SKIP")
-```
-
-**If SKIP**: Output warning and skip Phase 4
-```
-WARNING: No project.json found. Run /workflow:session:start to initialize.
-```
-
-#### Step 4.2: Extract Feature Information from Agent Result
-
-**Data Processing** (Uses Phase 2 agent output):
-```javascript
-// Extract feature metadata from agent result
-const agentResult = JSON.parse(agentOutput);
-const featureMeta = agentResult.feature_metadata;
-
-// Data already prepared by agent:
-const title = featureMeta.title;
-const description = featureMeta.description;
-const tags = featureMeta.tags;
-
-// Create feature ID (lowercase slug)
-const featureId = title.toLowerCase().replace(/[^a-z0-9]+/g, '-').substring(0, 50);
-```
-
-#### Step 4.3: Update project.json
+## Pre-defined Commands

 ```bash
-# Read current project state
-bash(cat .workflow/project.json)
+# Phase 1: Find active session
+SESSION_PATH=$(find .workflow/active/ -maxdepth 1 -name "WFS-*" -type d | head -1)
+SESSION_ID=$(basename "$SESSION_PATH")
+
+# Phase 3: Move to archive
+mkdir -p .workflow/archives/
+mv .workflow/active/$SESSION_ID .workflow/archives/$SESSION_ID
+
+# Cleanup marker
+rm -f .workflow/archives/$SESSION_ID/.archiving
 ```

-**JSON Update Logic**:
-```javascript
-// Read existing project.json (created by /workflow:init)
-// Note: overview field is managed by /workflow:init, not modified here
-const projectMeta = JSON.parse(Read('.workflow/project.json'));
-const currentTimestamp = new Date().toISOString();
-const currentDate = currentTimestamp.split('T')[0]; // YYYY-MM-DD
+## Key Files to Read

-// Extract tags from IMPL_PLAN.md (simple keyword extraction)
-const tags = extractTags(planContent); // e.g., ["auth", "security"]
+**For manifest.json generation**, read ONLY these files:

-// Build feature object with complete metadata
-const newFeature = {
-  id: featureId,
-  title: title,
-  description: description,
-  status: "completed",
-  tags: tags,
-  timeline: {
-    created_at: currentTimestamp,
-    implemented_at: currentDate,
-    updated_at: currentTimestamp
-  },
-  traceability: {
-    session_id: sessionId,
-    archive_path: archivePath, // e.g., ".workflow/archives/WFS-auth-system"
-    commit_hash: getLatestCommitHash() || "" // Optional: git rev-parse HEAD
-  },
-  docs: [],      // Placeholder for future doc links
-  relations: []  // Placeholder for feature dependencies
-};
+| File | Extract |
+|------|---------|
+| `$SESSION_PATH/workflow-session.json` | session_id, description, started_at, status |
+| `$SESSION_PATH/IMPL_PLAN.md` | title (first # heading), description (first paragraph) |
+| `$SESSION_PATH/.tasks/*.json` | count files |
+| `$SESSION_PATH/.summaries/*.md` | count files |
+| `$SESSION_PATH/.review/dimensions/*.json` | count + findings summary (optional) |

-// Add new feature to array
-projectMeta.features.push(newFeature);
+## Execution Flow

-// Update statistics
-projectMeta.statistics.total_features = projectMeta.features.length;
-projectMeta.statistics.total_sessions += 1;
-projectMeta.statistics.last_updated = currentTimestamp;
+### Phase 1: Find Session (2 commands)

-// Write back
-Write('.workflow/project.json', JSON.stringify(projectMeta, null, 2));
+```bash
+# 1. Find and extract session
+SESSION_PATH=$(find .workflow/active/ -maxdepth 1 -name "WFS-*" -type d | head -1)
+SESSION_ID=$(basename "$SESSION_PATH")
+
+# 2. Check/create archiving marker
+test -f "$SESSION_PATH/.archiving" && echo "RESUMING" || touch "$SESSION_PATH/.archiving"
 ```

-**Helper Functions**:
-```javascript
-// Extract tags from IMPL_PLAN.md content
-function extractTags(planContent) {
-  const tags = [];
+**Output**: `SESSION_ID` = e.g., `WFS-auth-feature`

-  // Look for common keywords
-  const keywords = {
-    'auth': /authentication|login|oauth|jwt/i,
-    'security': /security|encrypt|hash|token/i,
-    'api': /api|endpoint|rest|graphql/i,
-    'ui': /component|page|interface|frontend/i,
-    'database': /database|schema|migration|sql/i,
-    'test': /test|testing|spec|coverage/i
-  };
+### Phase 2: Generate Manifest Entry (Read-only)

-  for (const [tag, pattern] of Object.entries(keywords)) {
-    if (pattern.test(planContent)) {
-      tags.push(tag);
+Read the key files above, then build this structure:
+
+```json
+{
+  "session_id": "<from workflow-session.json>",
+  "description": "<from workflow-session.json>",
+  "archived_at": "<current ISO timestamp>",
+  "archive_path": ".workflow/archives/<SESSION_ID>",
+  "metrics": {
+    "duration_hours": "<(completed_at - started_at) / 3600000>",
+    "tasks_completed": "<count .tasks/*.json>",
+    "summaries_generated": "<count .summaries/*.md>",
+    "review_metrics": {
+      "dimensions_analyzed": "<count .review/dimensions/*.json>",
+      "total_findings": "<sum from dimension JSONs>"
    }
-  }
-
-  return tags.slice(0, 5); // Max 5 tags
-}
-
-// Get latest git commit hash (optional)
-function getLatestCommitHash() {
-  try {
-    const result = Bash({
-      command: "git rev-parse --short HEAD 2>/dev/null",
-      description: "Get latest commit hash"
-    });
-    return result.trim();
-  } catch {
-    return "";
+  },
+  "tags": ["<3-5 keywords from IMPL_PLAN.md>"],
+  "lessons": {
+    "successes": ["<key wins>"],
+    "challenges": ["<difficulties>"],
+    "watch_patterns": ["<patterns to monitor>"]
  }
 }
 ```

-#### Step 4.4: Output Confirmation
+**Lessons Generation**: Use gemini with `~/.claude/workflows/cli-templates/prompts/archive/analysis-simple.txt`

-```
-✓ Feature "${title}" added to project registry
-  ID: ${featureId}
-  Session: ${sessionId}
-  Location: .workflow/project.json
+### Phase 3: Atomic Commit (4 commands)
+
+```bash
+# 1. Create archive directory
+mkdir -p .workflow/archives/
+
+# 2. Move session
+mv .workflow/active/$SESSION_ID .workflow/archives/$SESSION_ID
+
+# 3. Update manifest.json (Read → Append → Write)
+# Read: .workflow/archives/manifest.json (or [])
+# Append: archive_entry from Phase 2
+# Write: updated JSON
+
+# 4. Remove marker
+rm -f .workflow/archives/$SESSION_ID/.archiving
 ```

-**Error Handling**:
- If project.json malformed: Output error, skip update
- If feature_metadata missing from agent result: Skip Phase 4
- If extraction fails: Use minimal defaults
+**Output**:
+```
+✓ Session "$SESSION_ID" archived successfully
+  Location: .workflow/archives/$SESSION_ID/
+  Manifest: Updated with N total sessions
+```

-**Phase 4 Total Commands**: 1 bash read + JSON manipulation
+### Phase 4: Update project.json (Optional)
+
+**Skip if**: `.workflow/project.json` doesn't exist
+
+```bash
+# Check
+test -f .workflow/project.json || echo "SKIP"
+```
+
+**If exists**, add feature entry:
+
+```json
+{
+  "id": "<slugified title>",
+  "title": "<from IMPL_PLAN.md>",
+  "status": "completed",
+  "tags": ["<from Phase 2>"],
+  "timeline": { "implemented_at": "<date>" },
+  "traceability": { "session_id": "<SESSION_ID>", "archive_path": "<path>" }
+}
+```
+
+**Output**:
+```
+✓ Feature added to project registry
+```

 ## Error Recovery

-### If Agent Fails (Phase 2)
+| Phase | Symptom | Recovery |
+|-------|---------|----------|
+| 1 | No active session | `No active session found` |
+| 2 | Analysis fails | Remove marker: `rm $SESSION_PATH/.archiving`, retry |
+| 3 | Move fails | Session safe in active/, fix issue, retry |
+| 3 | Manifest fails | Session in archives/, manually add entry, remove marker |

-**Symptoms**:
- Agent returns `{"status": "error", ...}`
- Agent crashes or times out
- Analysis incomplete
+## Quick Reference

-**Recovery Steps**:
-```bash
-# Session still in .workflow/active/WFS-session-name
-# Remove archiving marker
-bash(rm .workflow/active/WFS-session-name/.archiving)
 ```
-
-**User Notification**:
+Phase 1: find session → create .archiving marker
+Phase 2: read key files → build manifest entry (no writes)
+Phase 3: mkdir → mv → update manifest.json → rm marker
+Phase 4: update project.json features array (optional)
 ```
-ERROR: Session archival failed during analysis phase
-Reason: [error message from agent]
-Session remains active in: .workflow/active/WFS-session-name
-
-Recovery:
-1. Fix any issues identified in error message
-2. Retry: /workflow:session:complete
-
-Session state: SAFE (no changes committed)
-```
-
-### If Move Fails (Phase 3)
-
-**Symptoms**:
- `mv` command fails
- Permission denied
- Disk full
-
-**Recovery Steps**:
-```bash
-# Archiving marker still present
-# Session still in .workflow/active/ (move failed)
-# No manifest updated yet
-```
-
-**User Notification**:
-```
-ERROR: Session archival failed during move operation
-Reason: [mv error message]
-Session remains in: .workflow/active/WFS-session-name
-
-Recovery:
-1. Fix filesystem issues (permissions, disk space)
-2. Retry: /workflow:session:complete
-   - System will detect .archiving marker
-   - Will resume from Phase 2 (agent analysis)
-
-Session state: SAFE (analysis complete, ready to retry move)
-```
-
-### If Manifest Update Fails (Phase 3)
-
-**Symptoms**:
- JSON parsing error
- Write permission denied
- Session moved but manifest not updated
-
-**Recovery Steps**:
-```bash
-# Session moved to .workflow/archives/WFS-session-name
-# Manifest NOT updated
-# Archiving marker still present in archived location
-```
-
-**User Notification**:
-```
-ERROR: Session archived but manifest update failed
-Reason: [error message]
-Session location: .workflow/archives/WFS-session-name
-
-Recovery:
-1. Fix manifest.json issues (syntax, permissions)
-2. Manual manifest update:
-   - Add archive entry from agent output
-   - Remove .archiving marker: rm .workflow/archives/WFS-session-name/.archiving
-
-Session state: PARTIALLY COMPLETE (session archived, manifest needs update)
-```
-
-## Workflow Execution Strategy
-
-### Transactional Four-Phase Approach
-
-**Phase 1: Pre-Archival Preparation** (Marker creation)
- Find active session and extract name
- Check for existing `.archiving` marker (resume detection)
- Create `.archiving` marker if new
- **No data processing** - just state tracking
- **Total**: 2-3 bash commands (find + marker check/create)
-
-**Phase 2: Agent Analysis** (Read-only data processing)
- Extract all session data from active location
- Count tasks and summaries
- Extract review data if .review/ exists (dimension results, findings, fix results)
- Generate lessons learned analysis (including review-specific lessons if applicable)
- Extract feature metadata from IMPL_PLAN.md
- Build complete archive + feature metadata package (with review_metrics if applicable)
- **No file modifications** - pure analysis
- **Total**: 1 agent invocation
-
-**Phase 3: Atomic Commit** (Transactional file operations)
- Create archive directory
- Move session to archive location
- Update manifest.json with archive entry
- Remove `.archiving` marker
- **All-or-nothing**: Either all succeed or session remains in safe state
- **Total**: 4 bash commands + JSON manipulation
-
-**Phase 4: Project Registry Update** (Optional feature tracking)
- Check project.json exists
- Use feature metadata from Phase 2 agent result
- Build feature object with complete traceability
- Update project statistics
- **Independent**: Can fail without affecting archival
- **Total**: 1 bash read + JSON manipulation
-
-### Transactional Guarantees
-
-**State Consistency**:
- Session NEVER in inconsistent state
- `.archiving` marker enables safe resume
- Agent failure leaves session in recoverable state
- Move/manifest operations grouped in Phase 3
-
-**Failure Isolation**:
- Phase 1 failure: No changes made
- Phase 2 failure: Session still active, can retry
- Phase 3 failure: Clear error state, manual recovery documented
- Phase 4 failure: Does not affect archival success
-
-**Resume Capability**:
- Detect interrupted archival via `.archiving` marker
- Resume from Phase 2 (skip marker creation)
- Idempotent operations (safe to retry)
-
-
--- a/.claude/commands/workflow/tdd-plan.md
+++ b/.claude/commands/workflow/tdd-plan.md
@@ -164,10 +164,10 @@ SlashCommand(command="/workflow:tools:conflict-resolution --session [sessionId]

 **Parse Output**:
 - Extract: Execution status (success/skipped/failed)
- Verify: CONFLICT_RESOLUTION.md file path (if executed)
+- Verify: conflict-resolution.json file path (if executed)

 **Validation**:
- File `.workflow/active/[sessionId]/.process/CONFLICT_RESOLUTION.md` exists (if executed)
+- 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
@@ -402,7 +402,7 @@ TDD Workflow Orchestrator
 │     ├─ Phase 4.1: Detect conflicts with CLI
 │     ├─ Phase 4.2: Present conflicts to user
 │     └─ Phase 4.3: Apply resolution strategies
-│     └─ Returns: CONFLICT_RESOLUTION.md              ← COLLAPSED
+│     └─ Returns: conflict-resolution.json            ← COLLAPSED
 │  ELSE:
 │  └─ Skip to Phase 5
 │
--- a/.claude/commands/workflow/tdd-verify.md
+++ b/.claude/commands/workflow/tdd-verify.md
@@ -77,18 +77,32 @@ find .workflow/active/ -name "WFS-*" -type d | head -1 | sed 's/.*\///'

 ```bash
 # Load all task JSONs
-find .workflow/active/{sessionId}/.task/ -name '*.json'
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file"
+done

 # Extract task IDs
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.id' {} \;
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.id'
+done

-# Check dependencies
-find .workflow/active/{sessionId}/.task/ -name 'IMPL-*.json' -exec jq -r '.context.depends_on[]?' {} \;
-find .workflow/active/{sessionId}/.task/ -name 'REFACTOR-*.json' -exec jq -r '.context.depends_on[]?' {} \;
+# Check dependencies - read tasks and filter for IMPL/REFACTOR
+for task_file in .workflow/active/{sessionId}/.task/IMPL-*.json; do
+  cat "$task_file" | jq -r '.context.depends_on[]?'
+done
+
+for task_file in .workflow/active/{sessionId}/.task/REFACTOR-*.json; do
+  cat "$task_file" | jq -r '.context.depends_on[]?'
+done

 # Check meta fields
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.tdd_phase' {} \;
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.agent' {} \;
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.meta.tdd_phase'
+done
+
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.meta.agent'
+done
 ```

 **Validation**:
@@ -127,7 +141,7 @@ find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.agent
 **Gemini analysis for comprehensive TDD compliance report**

 ```bash
-cd project-root && gemini -p "
+ccw cli -p "
 PURPOSE: Generate TDD compliance report
 TASK: Analyze TDD workflow execution and generate quality report
 CONTEXT: @{.workflow/active/{sessionId}/.task/*.json,.workflow/active/{sessionId}/.summaries/*,.workflow/active/{sessionId}/.process/tdd-cycle-report.md}
@@ -139,7 +153,7 @@ EXPECTED:
 - Red-Green-Refactor cycle validation
 - Best practices adherence assessment
 RULES: Focus on TDD best practices and workflow adherence. Be specific about violations and improvements.
-" > .workflow/active/{sessionId}/TDD_COMPLIANCE_REPORT.md
+" --tool gemini --mode analysis --cd project-root > .workflow/active/{sessionId}/TDD_COMPLIANCE_REPORT.md
 ```

 **Output**: TDD_COMPLIANCE_REPORT.md
--- a/.claude/commands/workflow/test-cycle-execute.md
+++ b/.claude/commands/workflow/test-cycle-execute.md
@@ -221,6 +221,7 @@ return "conservative";
 ```javascript
 Task(
  subagent_type="cli-planning-agent",
+  run_in_background=false,
  description=`Analyze test failures (iteration ${N}) - ${strategy} strategy`,
  prompt=`
    ## Task Objective
@@ -271,6 +272,7 @@ Task(
 ```javascript
 Task(
  subagent_type="test-fix-agent",
+  run_in_background=false,
  description=`Execute ${task.meta.type}: ${task.title}`,
  prompt=`
    ## Task Objective
--- a/.claude/commands/workflow/tools/conflict-resolution.md
+++ b/.claude/commands/workflow/tools/conflict-resolution.md
@@ -108,7 +108,7 @@ Phase 4: Apply Modifications

 **Agent Delegation**:
 ```javascript
-Task(subagent_type="cli-execution-agent", prompt=`
+Task(subagent_type="cli-execution-agent", run_in_background=false, prompt=`
  ## Context
  - Session: {session_id}
  - Risk: {conflict_risk}
@@ -124,6 +124,9 @@ Task(subagent_type="cli-execution-agent", prompt=`

  ## Analysis Steps

+  ### 0. Load Output Schema (MANDATORY)
+  Execute: cat ~/.claude/workflows/cli-templates/schemas/conflict-resolution-schema.json
+
  ### 1. Load Context
  - Read existing files from conflict_detection.existing_files
  - Load plan from .workflow/active/{session_id}/.process/context-package.json
@@ -133,7 +136,7 @@ Task(subagent_type="cli-execution-agent", prompt=`
  ### 2. Execute CLI Analysis (Enhanced with Exploration + Scenario Uniqueness)

  Primary (Gemini):
-  cd {project_root} && gemini -p "
+  ccw cli -p "
  PURPOSE: Detect conflicts between plan and codebase, using exploration insights
  TASK:
  • **Review pre-identified conflict_indicators from exploration results**
@@ -152,7 +155,7 @@ Task(subagent_type="cli-execution-agent", prompt=`
    - ModuleOverlap conflicts with overlap_analysis
    - Targeted clarification questions
  RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/02-analyze-code-patterns.txt) | Focus on breaking changes, migration needs, and functional overlaps | Prioritize exploration-identified conflicts | analysis=READ-ONLY
-  "
+  " --tool gemini --mode analysis --cd {project_root}

  Fallback: Qwen (same prompt) → Claude (manual analysis)

@@ -169,125 +172,16 @@ Task(subagent_type="cli-execution-agent", prompt=`

  ### 4. Return Structured Conflict Data

-  ⚠️ DO NOT generate CONFLICT_RESOLUTION.md file
+  ⚠️ Output to conflict-resolution.json (generated in Phase 4)

-  Return JSON format for programmatic processing:
+  **Schema Reference**: Execute \`cat ~/.claude/workflows/cli-templates/schemas/conflict-resolution-schema.json\` to get full schema

-  \`\`\`json
-  {
-    "conflicts": [
-      {
-        "id": "CON-001",
-        "brief": "一行中文冲突摘要",
-        "severity": "Critical|High|Medium",
-        "category": "Architecture|API|Data|Dependency|ModuleOverlap",
-        "affected_files": [
-          ".workflow/active/{session}/.brainstorm/guidance-specification.md",
-          ".workflow/active/{session}/.brainstorm/system-architect/analysis.md"
-        ],
-        "description": "详细描述冲突 - 什么不兼容",
-        "impact": {
-          "scope": "影响的模块/组件",
-          "compatibility": "Yes|No|Partial",
-          "migration_required": true|false,
-          "estimated_effort": "人天估计"
-        },
-        "overlap_analysis": {
-          "// NOTE": "仅当 category=ModuleOverlap 时需要此字段",
-          "new_module": {
-            "name": "新模块名称",
-            "scenarios": ["场景1", "场景2", "场景3"],
-            "responsibilities": "职责描述"
-          },
-          "existing_modules": [
-            {
-              "file": "src/existing/module.ts",
-              "name": "现有模块名称",
-              "scenarios": ["场景A", "场景B"],
-              "overlap_scenarios": ["重叠场景1", "重叠场景2"],
-              "responsibilities": "现有模块职责"
-            }
-          ]
-        },
-        "strategies": [
-          {
-            "name": "策略名称（中文）",
-            "approach": "实现方法简述",
-            "complexity": "Low|Medium|High",
-            "risk": "Low|Medium|High",
-            "effort": "时间估计",
-            "pros": ["优点1", "优点2"],
-            "cons": ["缺点1", "缺点2"],
-            "clarification_needed": [
-              "// NOTE: 仅当需要用户进一步澄清时需要此字段（尤其是 ModuleOverlap）",
-              "新模块的核心职责边界是什么？",
-              "如何与现有模块 X 协作？",
-              "哪些场景应该由新模块处理？"
-            ],
-            "modifications": [
-              {
-                "file": ".workflow/active/{session}/.brainstorm/guidance-specification.md",
-                "section": "## 2. System Architect Decisions",
-                "change_type": "update",
-                "old_content": "原始内容片段（用于定位）",
-                "new_content": "修改后的内容",
-                "rationale": "为什么这样改"
-              },
-              {
-                "file": ".workflow/active/{session}/.brainstorm/system-architect/analysis.md",
-                "section": "## Design Decisions",
-                "change_type": "update",
-                "old_content": "原始内容片段",
-                "new_content": "修改后的内容",
-                "rationale": "修改理由"
-              }
-            ]
-          },
-          {
-            "name": "策略2名称",
-            "approach": "...",
-            "complexity": "Medium",
-            "risk": "Low",
-            "effort": "1-2天",
-            "pros": ["优点"],
-            "cons": ["缺点"],
-            "modifications": [...]
-          }
-        ],
-        "recommended": 0,
-        "modification_suggestions": [
-          "建议1：具体的修改方向或注意事项",
-          "建议2：可能需要考虑的边界情况",
-          "建议3：相关的最佳实践或模式"
-        ]
-      }
-    ],
-    "summary": {
-      "total": 2,
-      "critical": 1,
-      "high": 1,
-      "medium": 0
-    }
-  }
-  \`\`\`
-
-  ⚠️ CRITICAL Requirements for modifications field:
-  - old_content: Must be exact text from target file (20-100 chars for unique match)
-  - new_content: Complete replacement text (maintains formatting)
-  - change_type: "update" (replace), "add" (insert), "remove" (delete)
-  - file: Full path relative to project root
-  - section: Markdown heading for context (helps locate position)
+  Return JSON following the schema above. Key requirements:
  - Minimum 2 strategies per conflict, max 4
-  - All text in Chinese for user-facing fields (brief, name, pros, cons)
-  - modification_suggestions: 2-5 actionable suggestions for custom handling (Chinese)
-
-  Quality Standards:
-  - Each strategy must have actionable modifications
-  - old_content must be precise enough for Edit tool matching
-  - new_content preserves markdown formatting and structure
-  - Recommended strategy (index) based on lowest complexity + risk
-  - modification_suggestions must be specific, actionable, and context-aware
-  - Each suggestion should address a specific aspect (compatibility, migration, testing, etc.)
+  - All text in Chinese for user-facing fields (brief, name, pros, cons, modification_suggestions)
+  - modifications.old_content: 20-100 chars for unique Edit tool matching
+  - modifications.new_content: preserves markdown formatting
+  - modification_suggestions: 2-5 actionable suggestions for custom handling
 `)
 ```

@@ -312,143 +206,85 @@ Task(subagent_type="cli-execution-agent", prompt=`
 8. Return execution log path
 ```

-### Phase 3: Iterative User Interaction with Clarification Loop
+### Phase 3: User Interaction Loop

-**Execution Flow**:
-```
-FOR each conflict (逐个处理，无数量限制):
-  clarified = false
-  round = 0
-  userClarifications = []
+```javascript
+FOR each conflict:
+  round = 0, clarified = false, userClarifications = []

-  WHILE (!clarified && round < 10):
-    round++
+  WHILE (!clarified && round++ < 10):
+    // 1. Display conflict info (text output for context)
+    displayConflictSummary(conflict)  // id, brief, severity, overlap_analysis if ModuleOverlap

-    // 1. Display conflict (包含所有关键字段)
-    - category, id, brief, severity, description
-    - IF ModuleOverlap: 展示 overlap_analysis
-      * new_module: {name, scenarios, responsibilities}
-      * existing_modules[]: {file, name, scenarios, overlap_scenarios, responsibilities}
+    // 2. Strategy selection via AskUserQuestion
+    AskUserQuestion({
+      questions: [{
+        question: formatStrategiesForDisplay(conflict.strategies),
+        header: "策略选择",
+        multiSelect: false,
+        options: [
+          ...conflict.strategies.map((s, i) => ({
+            label: `${s.name}${i === conflict.recommended ? ' (推荐)' : ''}`,
+            description: `${s.complexity}复杂度 | ${s.risk}风险${s.clarification_needed?.length ? ' | ⚠️需澄清' : ''}`
+          })),
+          { label: "自定义修改", description: `建议: ${conflict.modification_suggestions?.slice(0,2).join('; ')}` }
+        ]
+      }]
+    })

-    // 2. Display strategies (2-4个策略 + 自定义选项)
-    - FOR each strategy: {name, approach, complexity, risk, effort, pros, cons}
-      * IF clarification_needed: 展示待澄清问题列表
-    - 自定义选项: {suggestions: modification_suggestions[]}
+    // 3. Handle selection
+    if (userChoice === "自定义修改") {
+      customConflicts.push({ id, brief, category, suggestions, overlap_analysis })
+      break
+    }

-    // 3. User selects strategy
-    userChoice = readInput()
+    selectedStrategy = findStrategyByName(userChoice)

-    IF userChoice == "自定义":
-      customConflicts.push({id, brief, category, suggestions, overlap_analysis})
-      clarified = true
-      BREAK
+    // 4. Clarification (if needed) - batched max 4 per call
+    if (selectedStrategy.clarification_needed?.length > 0) {
+      for (batch of chunk(selectedStrategy.clarification_needed, 4)) {
+        AskUserQuestion({
+          questions: batch.map((q, i) => ({
+            question: q, header: `澄清${i+1}`, multiSelect: false,
+            options: [{ label: "详细说明", description: "提供答案" }]
+          }))
+        })
+        userClarifications.push(...collectAnswers(batch))
+      }

-    selectedStrategy = strategies[userChoice]
-
-    // 4. Clarification loop
-    IF selectedStrategy.clarification_needed.length > 0:
-      // 收集澄清答案
-      FOR each question:
-        answer = readInput()
-        userClarifications.push({question, answer})
-
-      // Agent 重新分析
-      reanalysisResult = Task(cli-execution-agent, prompt={
-        冲突信息: {id, brief, category, 策略}
-        用户澄清: userClarifications[]
-        场景分析: overlap_analysis (if ModuleOverlap)
-
-        输出: {
-          uniqueness_confirmed: bool,
-          rationale: string,
-          updated_strategy: {name, approach, complexity, risk, effort, modifications[]},
-          remaining_questions: [] (如果仍有歧义)
-        }
+      // 5. Agent re-analysis
+      reanalysisResult = Task({
+        subagent_type: "cli-execution-agent",
+        run_in_background: false,
+        prompt: `Conflict: ${conflict.id}, Strategy: ${selectedStrategy.name}
+User Clarifications: ${JSON.stringify(userClarifications)}
+Output: { uniqueness_confirmed, rationale, updated_strategy, remaining_questions }`
      })

-      IF reanalysisResult.uniqueness_confirmed:
-        selectedStrategy = updated_strategy
-        selectedStrategy.clarifications = userClarifications
+      if (reanalysisResult.uniqueness_confirmed) {
+        selectedStrategy = { ...reanalysisResult.updated_strategy, clarifications: userClarifications }
        clarified = true
-      ELSE:
-        // 更新澄清问题，继续下一轮
-        selectedStrategy.clarification_needed = remaining_questions
-    ELSE:
+      } else {
+        selectedStrategy.clarification_needed = reanalysisResult.remaining_questions
+      }
+    } else {
      clarified = true
+    }

-    resolvedConflicts.push({conflict, strategy: selectedStrategy})
+    if (clarified) resolvedConflicts.push({ conflict, strategy: selectedStrategy })
  END WHILE
 END FOR

-// Build output
 selectedStrategies = resolvedConflicts.map(r => ({
-  conflict_id, strategy, clarifications[]
+  conflict_id: r.conflict.id, strategy: r.strategy, clarifications: r.strategy.clarifications || []
 }))
 ```

-**Key Data Structures**:
-
-```javascript
-// Custom conflict tracking
-customConflicts[] = {
-  id, brief, category,
-  suggestions: modification_suggestions[],
-  overlap_analysis: { new_module{}, existing_modules[] }  // ModuleOverlap only
-}
-
-// Agent re-analysis prompt output
-{
-  uniqueness_confirmed: bool,
-  rationale: string,
-  updated_strategy: {
-    name, approach, complexity, risk, effort,
-    modifications: [{file, section, change_type, old_content, new_content, rationale}]
-  },
-  remaining_questions: string[]
-}
-```
-
-**Text Output Example** (展示关键字段):
-
-```markdown
-============================================================
-冲突 1/3 - 第 1 轮
-============================================================
-【ModuleOverlap】CON-001: 新增用户认证服务与现有模块功能重叠
-严重程度: High | 描述: 计划中的 UserAuthService 与现有 AuthManager 场景重叠
-
--- 场景重叠分析 ---
-新模块: UserAuthService | 场景: 登录, Token验证, 权限, MFA
-现有模块: AuthManager (src/auth/AuthManager.ts) | 重叠: 登录, Token验证
-
--- 解决策略 ---
-1) 合并 (Low复杂度 | Low风险 | 2-3天)
-   ⚠️ 需澄清: AuthManager是否能承担MFA？
-
-2) 拆分边界 (Medium复杂度 | Medium风险 | 4-5天)
-   ⚠️ 需澄清: 基础/高级认证边界? Token验证归谁?
-
-3) 自定义修改
-   建议: 评估扩展性; 策略模式分离; 定义接口边界
-
-请选择 (1-3): > 2
-
--- 澄清问答 (第1轮) ---
-Q: 基础/高级认证边界?
-A: 基础=密码登录+token验证, 高级=MFA+OAuth+SSO
-
-Q: Token验证归谁?
-A: 统一由 AuthManager 负责
-
-🔄 重新分析...
-✅ 唯一性已确认 | 理由: 边界清晰 - AuthManager(基础+token), UserAuthService(MFA+OAuth+SSO)
-
-============================================================
-冲突 2/3 - 第 1 轮 [下一个冲突]
-============================================================
-```
-
-**Loop Characteristics**: 逐个处理 | 无限轮次(max 10) | 动态问题生成 | Agent重新分析判断唯一性 | ModuleOverlap场景边界澄清
+**Key Points**:
+- AskUserQuestion: max 4 questions/call, batch if more
+- Strategy options: 2-4 strategies + "自定义修改"
+- Clarification loop: max 10 rounds, agent判断 uniqueness_confirmed
+- Custom conflicts: 记录 overlap_analysis 供后续手动处理

 ### Phase 4: Apply Modifications

@@ -467,14 +303,30 @@ selectedStrategies.forEach(item => {

 console.log(`\n正在应用 ${modifications.length} 个修改...`);

-// 2. Apply each modification using Edit tool
+// 2. Apply each modification using Edit tool (with fallback to context-package.json)
 const appliedModifications = [];
 const failedModifications = [];
+const fallbackConstraints = [];  // For files that don't exist

 modifications.forEach((mod, idx) => {
  try {
    console.log(`[${idx + 1}/${modifications.length}] 修改 ${mod.file}...`);

+    // Check if target file exists (brainstorm files may not exist in lite workflow)
+    if (!file_exists(mod.file)) {
+      console.log(`  ⚠️ 文件不存在，写入 context-package.json 作为约束`);
+      fallbackConstraints.push({
+        source: "conflict-resolution",
+        conflict_id: mod.conflict_id,
+        target_file: mod.file,
+        section: mod.section,
+        change_type: mod.change_type,
+        content: mod.new_content,
+        rationale: mod.rationale
+      });
+      return;  // Skip to next modification
+    }
+
    if (mod.change_type === "update") {
      Edit({
        file_path: mod.file,
@@ -502,14 +354,45 @@ modifications.forEach((mod, idx) => {
  }
 });

-// 3. Update context-package.json with resolution details
+// 2b. Generate conflict-resolution.json output file
+const resolutionOutput = {
+  session_id: sessionId,
+  resolved_at: new Date().toISOString(),
+  summary: {
+    total_conflicts: conflicts.length,
+    resolved_with_strategy: selectedStrategies.length,
+    custom_handling: customConflicts.length,
+    fallback_constraints: fallbackConstraints.length
+  },
+  resolved_conflicts: selectedStrategies.map(s => ({
+    conflict_id: s.conflict_id,
+    strategy_name: s.strategy.name,
+    strategy_approach: s.strategy.approach,
+    clarifications: s.clarifications || [],
+    modifications_applied: s.strategy.modifications?.filter(m =>
+      appliedModifications.some(am => am.conflict_id === s.conflict_id)
+    ) || []
+  })),
+  custom_conflicts: customConflicts.map(c => ({
+    id: c.id,
+    brief: c.brief,
+    category: c.category,
+    suggestions: c.suggestions,
+    overlap_analysis: c.overlap_analysis || null
+  })),
+  planning_constraints: fallbackConstraints,  // Constraints for files that don't exist
+  failed_modifications: failedModifications
+};
+
+const resolutionPath = `.workflow/active/${sessionId}/.process/conflict-resolution.json`;
+Write(resolutionPath, JSON.stringify(resolutionOutput, null, 2));
+console.log(`\n📄 冲突解决结果已保存: ${resolutionPath}`);
+
+// 3. Update context-package.json with resolution details (reference to JSON file)
 const contextPackage = JSON.parse(Read(contextPath));
 contextPackage.conflict_detection.conflict_risk = "resolved";
-contextPackage.conflict_detection.resolved_conflicts = selectedStrategies.map(s => ({
-  conflict_id: s.conflict_id,
-  strategy_name: s.strategy.name,
-  clarifications: s.clarifications
-}));
+contextPackage.conflict_detection.resolution_file = resolutionPath;  // Reference to detailed JSON
+contextPackage.conflict_detection.resolved_conflicts = selectedStrategies.map(s => s.conflict_id);
 contextPackage.conflict_detection.custom_conflicts = customConflicts.map(c => c.id);
 contextPackage.conflict_detection.resolved_at = new Date().toISOString();
 Write(contextPath, JSON.stringify(contextPackage, null, 2));
@@ -582,12 +465,50 @@ return {
 ✓ Agent log saved to .workflow/active/{session_id}/.chat/
 ```

-## Output Format: Agent JSON Response
+## Output Format
+
+### Primary Output: conflict-resolution.json
+
+**Path**: `.workflow/active/{session_id}/.process/conflict-resolution.json`
+
+**Schema**:
+```json
+{
+  "session_id": "WFS-xxx",
+  "resolved_at": "ISO timestamp",
+  "summary": {
+    "total_conflicts": 3,
+    "resolved_with_strategy": 2,
+    "custom_handling": 1,
+    "fallback_constraints": 0
+  },
+  "resolved_conflicts": [
+    {
+      "conflict_id": "CON-001",
+      "strategy_name": "策略名称",
+      "strategy_approach": "实现方法",
+      "clarifications": [],
+      "modifications_applied": []
+    }
+  ],
+  "custom_conflicts": [
+    {
+      "id": "CON-002",
+      "brief": "冲突摘要",
+      "category": "ModuleOverlap",
+      "suggestions": ["建议1", "建议2"],
+      "overlap_analysis": null
+    }
+  ],
+  "planning_constraints": [],
+  "failed_modifications": []
+}
+```
+
+### Secondary: Agent JSON Response (stdout)

 **Focus**: Structured conflict data with actionable modifications for programmatic processing.

-**Format**: JSON to stdout (NO file generation)
-
 **Structure**: Defined in Phase 2, Step 4 (agent prompt)

 ### Key Requirements
@@ -635,11 +556,12 @@ If Edit tool fails mid-application:
 - Requires: `conflict_risk ≥ medium`

 **Output**:
- Modified files:
+- Generated file:
+  - `.workflow/active/{session_id}/.process/conflict-resolution.json` (primary output)
+- Modified files (if exist):
  - `.workflow/active/{session_id}/.brainstorm/guidance-specification.md`
  - `.workflow/active/{session_id}/.brainstorm/{role}/analysis.md`
-  - `.workflow/active/{session_id}/.process/context-package.json` (conflict_risk → resolved)
- NO report file generation
+  - `.workflow/active/{session_id}/.process/context-package.json` (conflict_risk → resolved, resolution_file reference)

 **User Interaction**:
 - **Iterative conflict processing**: One conflict at a time, not in batches
@@ -667,7 +589,7 @@ If Edit tool fails mid-application:
 ✓ guidance-specification.md updated with resolved conflicts
 ✓ Role analyses (*.md) updated with resolved conflicts
 ✓ context-package.json marked as "resolved" with clarification records
-✓ No CONFLICT_RESOLUTION.md file generated
+✓ conflict-resolution.json generated with full resolution details
 ✓ Modification summary includes:
  - Total conflicts
  - Resolved with strategy (count)
--- a/.claude/commands/workflow/tools/context-gather.md
+++ b/.claude/commands/workflow/tools/context-gather.md
@@ -15,7 +15,6 @@ allowed-tools: Task(*), Read(*), Glob(*)

 Orchestrator command that invokes `context-search-agent` to gather comprehensive project context for implementation planning. Generates standardized `context-package.json` with codebase analysis, dependencies, and conflict detection.

-**Agent**: `context-search-agent` (`.claude/agents/context-search-agent.md`)

 ## Core Philosophy

@@ -121,6 +120,7 @@ const sessionFolder = `.workflow/active/${session_id}/.process`;
 const explorationTasks = selectedAngles.map((angle, index) =>
  Task(
    subagent_type="cli-explore-agent",
+    run_in_background=false,
    description=`Explore: ${angle}`,
    prompt=`
 ## Task Objective
@@ -215,6 +215,7 @@ Write(`${sessionFolder}/explorations-manifest.json`, JSON.stringify(explorationM
 ```javascript
 Task(
  subagent_type="context-search-agent",
+  run_in_background=false,
  description="Gather comprehensive context for plan",
  prompt=`
 ## Execution Mode
@@ -237,7 +238,7 @@ Execute complete context-search-agent workflow for implementation planning:
 ### Phase 1: Initialization & Pre-Analysis
 1. **Project State Loading**: Read and parse `.workflow/project.json`. Use its `overview` section as the foundational `project_context`. This is your primary source for architecture, tech stack, and key components. If file doesn't exist, proceed with fresh analysis.
 2. **Detection**: Check for existing context-package (early exit if valid)
-3. **Foundation**: Initialize code-index, get project structure, load docs
+3. **Foundation**: Initialize CodexLens, get project structure, load docs
 4. **Analysis**: Extract keywords, determine scope, classify complexity based on task description and project state

 ### Phase 2: Multi-Source Context Discovery
@@ -429,6 +430,5 @@ if (historicalConflicts.length > 0 && currentRisk === "low") {

 - **Detection-first**: Always check for existing package before invoking agent
 - **Project.json integration**: Agent reads `.workflow/project.json` as primary source for project context, avoiding redundant analysis
- **Agent autonomy**: Agent handles all discovery logic per `.claude/agents/context-search-agent.md`
 - **No redundancy**: This command is a thin orchestrator, all logic in agent
 - **Plan-specific**: Use this for implementation planning; brainstorm mode uses direct agent call
--- a/.claude/commands/workflow/tools/task-generate-agent.md
+++ b/.claude/commands/workflow/tools/task-generate-agent.md
@@ -28,6 +28,12 @@ Input Parsing:
   ├─ Parse flags: --session
   └─ Validation: session_id REQUIRED

+Phase 0: User Configuration (Interactive)
+   ├─ Question 1: Supplementary materials/guidelines?
+   ├─ Question 2: Execution method preference (Agent/CLI/Hybrid)
+   ├─ Question 3: CLI tool preference (if CLI selected)
+   └─ Store: userConfig for agent prompt
+
 Phase 1: Context Preparation & Module Detection (Command)
   ├─ Assemble session paths (metadata, context package, output dirs)
   ├─ Provide metadata (session_id, execution_mode, mcp_capabilities)
@@ -57,6 +63,82 @@ Phase 3: Integration (+1 Coordinator, Multi-Module Only)

 ## Document Generation Lifecycle

+### Phase 0: User Configuration (Interactive)
+
+**Purpose**: Collect user preferences before task generation to ensure generated tasks match execution expectations.
+
+**User Questions**:
+```javascript
+AskUserQuestion({
+  questions: [
+    {
+      question: "Do you have supplementary materials or guidelines to include?",
+      header: "Materials",
+      multiSelect: false,
+      options: [
+        { label: "No additional materials", description: "Use existing context only" },
+        { label: "Provide file paths", description: "I'll specify paths to include" },
+        { label: "Provide inline content", description: "I'll paste content directly" }
+      ]
+    },
+    {
+      question: "Select execution method for generated tasks:",
+      header: "Execution",
+      multiSelect: false,
+      options: [
+        { label: "Agent (Recommended)", description: "Claude agent executes tasks directly" },
+        { label: "Hybrid", description: "Agent orchestrates, calls CLI for complex steps" },
+        { label: "CLI Only", description: "All execution via CLI tools (codex/gemini/qwen)" }
+      ]
+    },
+    {
+      question: "If using CLI, which tool do you prefer?",
+      header: "CLI Tool",
+      multiSelect: false,
+      options: [
+        { label: "Codex (Recommended)", description: "Best for implementation tasks" },
+        { label: "Gemini", description: "Best for analysis and large context" },
+        { label: "Qwen", description: "Alternative analysis tool" },
+        { label: "Auto", description: "Let agent decide per-task" }
+      ]
+    }
+  ]
+})
+```
+
+**Handle Materials Response**:
+```javascript
+if (userConfig.materials === "Provide file paths") {
+  // Follow-up question for file paths
+  const pathsResponse = AskUserQuestion({
+    questions: [{
+      question: "Enter file paths to include (comma-separated or one per line):",
+      header: "Paths",
+      multiSelect: false,
+      options: [
+        { label: "Enter paths", description: "Provide paths in text input" }
+      ]
+    }]
+  })
+  userConfig.supplementaryPaths = parseUserPaths(pathsResponse)
+}
+```
+
+**Build userConfig**:
+```javascript
+const userConfig = {
+  supplementaryMaterials: {
+    type: "none|paths|inline",
+    content: [...],  // Parsed paths or inline content
+  },
+  executionMethod: "agent|hybrid|cli",
+  preferredCliTool: "codex|gemini|qwen|auto",
+  enableResume: true  // Always enable resume for CLI executions
+}
+```
+
+**Pass to Agent**: Include `userConfig` in agent prompt for Phase 2A/2B.
+
 ### Phase 1: Context Preparation & Module Detection (Command Responsibility)

 **Command prepares session paths, metadata, and detects module structure.**
@@ -89,6 +171,14 @@ Phase 3: Integration (+1 Coordinator, Multi-Module Only)
 3. **Auto Module Detection** (determines single vs parallel mode):
   ```javascript
   function autoDetectModules(contextPackage, projectRoot) {
+     // === Complexity Gate: Only parallelize for High complexity ===
+     const complexity = contextPackage.metadata?.complexity || 'Medium';
+     if (complexity !== 'High') {
+       // Force single agent mode for Low/Medium complexity
+       // This maximizes agent context reuse for related tasks
+       return [{ name: 'main', prefix: '', paths: ['.'] }];
+     }
+
     // Priority 1: Explicit frontend/backend separation
     if (exists('src/frontend') && exists('src/backend')) {
       return [
@@ -112,8 +202,9 @@ Phase 3: Integration (+1 Coordinator, Multi-Module Only)
   ```

 **Decision Logic**:
+- `complexity !== 'High'` → Force Phase 2A (Single Agent, maximize context reuse)
 - `modules.length == 1` → Phase 2A (Single Agent, original flow)
- `modules.length >= 2` → Phase 2B + Phase 3 (N+1 Parallel)
+- `modules.length >= 2 && complexity == 'High'` → Phase 2B + Phase 3 (N+1 Parallel)

 **Note**: CLI tool usage is now determined semantically by action-planning-agent based on user's task description, not by flags.

@@ -127,6 +218,7 @@ Phase 3: Integration (+1 Coordinator, Multi-Module Only)
 ```javascript
 Task(
  subagent_type="action-planning-agent",
+  run_in_background=false,
  description="Generate planning documents (IMPL_PLAN.md, task JSONs, TODO_LIST.md)",
  prompt=`
 ## TASK OBJECTIVE
@@ -150,10 +242,21 @@ Output:
 Session ID: {session-id}
 MCP Capabilities: {exa_code, exa_web, code_index}

+## USER CONFIGURATION (from Phase 0)
+Execution Method: ${userConfig.executionMethod}  // agent|hybrid|cli
+Preferred CLI Tool: ${userConfig.preferredCliTool}  // codex|gemini|qwen|auto
+Supplementary Materials: ${userConfig.supplementaryMaterials}
+
 ## CLI TOOL SELECTION
-Determine CLI tool usage per-step based on user's task description:
- If user specifies "use Codex/Gemini/Qwen for X" → Add command field to relevant steps
- Default: Agent execution (no command field) unless user explicitly requests CLI
+Based on userConfig.executionMethod:
+- "agent": No command field in implementation_approach steps
+- "hybrid": Add command field to complex steps only (agent handles simple steps)
+- "cli": Add command field to ALL implementation_approach steps
+
+CLI Resume Support (MANDATORY for all CLI commands):
+- Use --resume parameter to continue from previous task execution
+- Read previous task's cliExecutionId from session state
+- Format: ccw cli -p "[prompt]" --resume ${previousCliId} --tool ${tool} --mode write

 ## EXPLORATION CONTEXT (from context-package.exploration_results)
 - Load exploration_results from context-package.json
@@ -163,6 +266,13 @@ Determine CLI tool usage per-step based on user's task description:
 - Use aggregated_insights.all_integration_points for precise modification locations
 - Use conflict_indicators for risk-aware task sequencing

+## CONFLICT RESOLUTION CONTEXT (if exists)
+- Check context-package.conflict_detection.resolution_file for conflict-resolution.json path
+- If exists, load .process/conflict-resolution.json:
+  - Apply planning_constraints as task constraints (for brainstorm-less workflows)
+  - Reference resolved_conflicts for implementation approach alignment
+  - Handle custom_conflicts with explicit task notes
+
 ## EXPECTED DELIVERABLES
 1. Task JSON Files (.task/IMPL-*.json)
   - 6-field schema (id, title, status, context_package_path, meta, context, flow_control)
@@ -170,6 +280,7 @@ Determine CLI tool usage per-step based on user's task description:
   - Artifacts integration from context package
   - **focus_paths enhanced with exploration critical_files**
   - Flow control with pre_analysis steps (include exploration integration_points analysis)
+   - **CLI Execution IDs and strategies (MANDATORY)**

 2. Implementation Plan (IMPL_PLAN.md)
   - Context analysis and artifact references
@@ -181,6 +292,27 @@ Determine CLI tool usage per-step based on user's task description:
   - Links to task JSONs and summaries
   - Matches task JSON hierarchy

+## CLI EXECUTION ID REQUIREMENTS (MANDATORY)
+Each task JSON MUST include:
+- **cli_execution_id**: Unique ID for CLI execution (format: `{session_id}-{task_id}`)
+- **cli_execution**: Strategy object based on depends_on:
+  - No deps → `{ "strategy": "new" }`
+  - 1 dep (single child) → `{ "strategy": "resume", "resume_from": "parent-cli-id" }`
+  - 1 dep (multiple children) → `{ "strategy": "fork", "resume_from": "parent-cli-id" }`
+  - N deps → `{ "strategy": "merge_fork", "merge_from": ["id1", "id2", ...] }`
+
+**CLI Execution Strategy Rules**:
+1. **new**: Task has no dependencies - starts fresh CLI conversation
+2. **resume**: Task has 1 parent AND that parent has only this child - continues same conversation
+3. **fork**: Task has 1 parent BUT parent has multiple children - creates new branch with parent context
+4. **merge_fork**: Task has multiple parents - merges all parent contexts into new conversation
+
+**Execution Command Patterns**:
+- new: `ccw cli -p "[prompt]" --tool [tool] --mode write --id [cli_execution_id]`
+- resume: `ccw cli -p "[prompt]" --resume [resume_from] --tool [tool] --mode write`
+- fork: `ccw cli -p "[prompt]" --resume [resume_from] --id [cli_execution_id] --tool [tool] --mode write`
+- merge_fork: `ccw cli -p "[prompt]" --resume [merge_from.join(',')] --id [cli_execution_id] --tool [tool] --mode write`
+
 ## QUALITY STANDARDS
 Hard Constraints:
  - Task count <= 18 (hard limit - request re-scope if exceeded)
@@ -203,7 +335,9 @@ Hard Constraints:

 **Condition**: `modules.length >= 2` (multi-module detected)

-**Purpose**: Launch N action-planning-agents simultaneously, one per module, for parallel task generation.
+**Purpose**: Launch N action-planning-agents simultaneously, one per module, for parallel task JSON generation.
+
+**Note**: Phase 2B agents generate Task JSONs ONLY. IMPL_PLAN.md and TODO_LIST.md are generated by Phase 3 Coordinator.

 **Parallel Agent Invocation**:
 ```javascript
@@ -211,27 +345,123 @@ Hard Constraints:
 const planningTasks = modules.map(module =>
  Task(
    subagent_type="action-planning-agent",
-    description=`Plan ${module.name} module`,
+    run_in_background=false,
+    description=`Generate ${module.name} module task JSONs`,
    prompt=`
-## SCOPE
+## TASK OBJECTIVE
+Generate task JSON files for ${module.name} module within workflow session
+
+IMPORTANT: This is PLANNING ONLY - generate task JSONs, NOT implementing code.
+IMPORTANT: Generate Task JSONs ONLY. IMPL_PLAN.md and TODO_LIST.md by Phase 3 Coordinator.
+
+CRITICAL: Follow the progressive loading strategy defined in agent specification (load analysis.md files incrementally due to file size)
+
+## MODULE SCOPE
 - Module: ${module.name} (${module.type})
 - Focus Paths: ${module.paths.join(', ')}
 - Task ID Prefix: IMPL-${module.prefix}
- Task Limit: ≤9 tasks
- Other Modules: ${otherModules.join(', ')}
- Cross-module deps format: "CROSS::{module}::{pattern}"
+- Task Limit: ≤9 tasks (hard limit for this module)
+- Other Modules: ${otherModules.join(', ')} (reference only, do NOT generate tasks for them)

 ## SESSION PATHS
 Input:
+  - Session Metadata: .workflow/active/{session-id}/workflow-session.json
  - Context Package: .workflow/active/{session-id}/.process/context-package.json
+
 Output:
  - Task Dir: .workflow/active/{session-id}/.task/

-## INSTRUCTIONS
- Generate tasks ONLY for ${module.name} module
- Use task ID format: IMPL-${module.prefix}1, IMPL-${module.prefix}2, ...
- For cross-module dependencies, use: depends_on: ["CROSS::B::api-endpoint"]
- Maximum 9 tasks per module
+## CONTEXT METADATA
+Session ID: {session-id}
+MCP Capabilities: {exa_code, exa_web, code_index}
+
+## USER CONFIGURATION (from Phase 0)
+Execution Method: ${userConfig.executionMethod}  // agent|hybrid|cli
+Preferred CLI Tool: ${userConfig.preferredCliTool}  // codex|gemini|qwen|auto
+Supplementary Materials: ${userConfig.supplementaryMaterials}
+
+## CLI TOOL SELECTION
+Based on userConfig.executionMethod:
+- "agent": No command field in implementation_approach steps
+- "hybrid": Add command field to complex steps only (agent handles simple steps)
+- "cli": Add command field to ALL implementation_approach steps
+
+CLI Resume Support (MANDATORY for all CLI commands):
+- Use --resume parameter to continue from previous task execution
+- Read previous task's cliExecutionId from session state
+- Format: ccw cli -p "[prompt]" --resume ${previousCliId} --tool ${tool} --mode write
+
+## EXPLORATION CONTEXT (from context-package.exploration_results)
+- Load exploration_results from context-package.json
+- Filter for ${module.name} module: Use aggregated_insights.critical_files matching ${module.paths.join(', ')}
+- Apply module-relevant constraints from aggregated_insights.constraints
+- Reference aggregated_insights.all_patterns applicable to ${module.name}
+- Use aggregated_insights.all_integration_points for precise modification locations within module scope
+- Use conflict_indicators for risk-aware task sequencing
+
+## CONFLICT RESOLUTION CONTEXT (if exists)
+- Check context-package.conflict_detection.resolution_file for conflict-resolution.json path
+- If exists, load .process/conflict-resolution.json:
+  - Apply planning_constraints relevant to ${module.name} as task constraints
+  - Reference resolved_conflicts affecting ${module.name} for implementation approach alignment
+  - Handle custom_conflicts with explicit task notes
+
+## CROSS-MODULE DEPENDENCIES
+- For dependencies ON other modules: Use placeholder depends_on: ["CROSS::{module}::{pattern}"]
+- Example: depends_on: ["CROSS::B::api-endpoint"] (this module depends on B's api-endpoint task)
+- Phase 3 Coordinator resolves to actual task IDs
+- For dependencies FROM other modules: Document in task context as "provides_for" annotation
+
+## EXPECTED DELIVERABLES
+Task JSON Files (.task/IMPL-${module.prefix}*.json):
+  - 6-field schema (id, title, status, context_package_path, meta, context, flow_control)
+  - Task ID format: IMPL-${module.prefix}1, IMPL-${module.prefix}2, ...
+  - Quantified requirements with explicit counts
+  - Artifacts integration from context package (filtered for ${module.name})
+  - **focus_paths enhanced with exploration critical_files (module-scoped)**
+  - Flow control with pre_analysis steps (include exploration integration_points analysis)
+  - **CLI Execution IDs and strategies (MANDATORY)**
+  - Focus ONLY on ${module.name} module scope
+
+## CLI EXECUTION ID REQUIREMENTS (MANDATORY)
+Each task JSON MUST include:
+- **cli_execution_id**: Unique ID for CLI execution (format: `{session_id}-IMPL-${module.prefix}{seq}`)
+- **cli_execution**: Strategy object based on depends_on:
+  - No deps → `{ "strategy": "new" }`
+  - 1 dep (single child) → `{ "strategy": "resume", "resume_from": "parent-cli-id" }`
+  - 1 dep (multiple children) → `{ "strategy": "fork", "resume_from": "parent-cli-id" }`
+  - N deps → `{ "strategy": "merge_fork", "merge_from": ["id1", "id2", ...] }`
+  - Cross-module dep → `{ "strategy": "cross_module_fork", "resume_from": "CROSS::{module}::{pattern}" }`
+
+**CLI Execution Strategy Rules**:
+1. **new**: Task has no dependencies - starts fresh CLI conversation
+2. **resume**: Task has 1 parent AND that parent has only this child - continues same conversation
+3. **fork**: Task has 1 parent BUT parent has multiple children - creates new branch with parent context
+4. **merge_fork**: Task has multiple parents - merges all parent contexts into new conversation
+5. **cross_module_fork**: Task depends on task from another module - Phase 3 resolves placeholder
+
+**Execution Command Patterns**:
+- new: `ccw cli -p "[prompt]" --tool [tool] --mode write --id [cli_execution_id]`
+- resume: `ccw cli -p "[prompt]" --resume [resume_from] --tool [tool] --mode write`
+- fork: `ccw cli -p "[prompt]" --resume [resume_from] --id [cli_execution_id] --tool [tool] --mode write`
+- merge_fork: `ccw cli -p "[prompt]" --resume [merge_from.join(',')] --id [cli_execution_id] --tool [tool] --mode write`
+- cross_module_fork: (Phase 3 resolves placeholder, then uses fork pattern)
+
+## QUALITY STANDARDS
+Hard Constraints:
+  - Task count <= 9 for this module (hard limit - coordinate with Phase 3 if exceeded)
+  - All requirements quantified (explicit counts and enumerated lists)
+  - Acceptance criteria measurable (include verification commands)
+  - Artifact references mapped from context package (module-scoped filter)
+  - Focus paths use absolute paths or clear relative paths from project root
+  - Cross-module dependencies use CROSS:: placeholder format
+
+## SUCCESS CRITERIA
+- Task JSONs saved to .task/ with IMPL-${module.prefix}* naming
+- All task JSONs include cli_execution_id and cli_execution strategy
+- Cross-module dependencies use CROSS:: placeholder format consistently
+- Focus paths scoped to ${module.paths.join(', ')} only
+- Return: task count, task IDs, dependency summary (internal + cross-module)
    `
  )
 );
@@ -255,37 +485,79 @@ await Promise.all(planningTasks);
 - Prefix: A, B, C... (assigned by detection order)
 - Sequence: 1, 2, 3... (per-module increment)

-### Phase 3: Integration (+1 Coordinator, Multi-Module Only)
+### Phase 3: Integration (+1 Coordinator Agent, Multi-Module Only)

 **Condition**: Only executed when `modules.length >= 2`

-**Purpose**: Collect all module tasks, resolve cross-module dependencies, generate unified documents.
+**Purpose**: Collect all module tasks, resolve cross-module dependencies, generate unified IMPL_PLAN.md and TODO_LIST.md documents.

-**Integration Logic**:
+**Coordinator Agent Invocation**:
 ```javascript
-// 1. Collect all module task JSONs
-const allTasks = glob('.task/IMPL-*.json').map(loadJson);
+// Wait for all Phase 2B agents to complete
+const moduleResults = await Promise.all(planningTasks);

-// 2. Resolve cross-module dependencies
-for (const task of allTasks) {
-  if (task.depends_on) {
-    task.depends_on = task.depends_on.map(dep => {
-      if (dep.startsWith('CROSS::')) {
-        // CROSS::B::api-endpoint → find matching IMPL-B* task
-        const [, targetModule, pattern] = dep.match(/CROSS::(\w+)::(.+)/);
-        return findTaskByModuleAndPattern(allTasks, targetModule, pattern);
-      }
-      return dep;
-    });
-  }
-}
+// Launch +1 Coordinator Agent
+Task(
+  subagent_type="action-planning-agent",
+  run_in_background=false,
+  description="Integrate module tasks and generate unified documents",
+  prompt=`
+## TASK OBJECTIVE
+Integrate all module task JSONs, resolve cross-module dependencies, and generate unified IMPL_PLAN.md and TODO_LIST.md

-// 3. Generate unified IMPL_PLAN.md (grouped by module)
-generateIMPL_PLAN(allTasks, modules);
+IMPORTANT: This is INTEGRATION ONLY - consolidate existing task JSONs, NOT creating new tasks.

-// 4. Generate TODO_LIST.md (hierarchical structure)
-generateTODO_LIST(allTasks, modules);
+## SESSION PATHS
+Input:
+  - Session Metadata: .workflow/active/{session-id}/workflow-session.json
+  - Context Package: .workflow/active/{session-id}/.process/context-package.json
+  - Task JSONs: .workflow/active/{session-id}/.task/IMPL-*.json (from Phase 2B)
+Output:
+  - Updated Task JSONs: .workflow/active/{session-id}/.task/IMPL-*.json (resolved dependencies)
+  - IMPL_PLAN: .workflow/active/{session-id}/IMPL_PLAN.md
+  - TODO_LIST: .workflow/active/{session-id}/TODO_LIST.md
+
+## CONTEXT METADATA
+Session ID: {session-id}
+Modules: ${modules.map(m => m.name + '(' + m.prefix + ')').join(', ')}
+Module Count: ${modules.length}
+
+## INTEGRATION STEPS
+1. Collect all .task/IMPL-*.json, group by module prefix
+2. Resolve CROSS:: dependencies → actual task IDs, update task JSONs
+3. Generate IMPL_PLAN.md (multi-module format per agent specification)
+4. Generate TODO_LIST.md (hierarchical format per agent specification)
+
+## CROSS-MODULE DEPENDENCY RESOLUTION
+- Pattern: CROSS::{module}::{pattern} → IMPL-{module}* matching title/context
+- Example: CROSS::B::api-endpoint → IMPL-B1 (if B1 title contains "api-endpoint")
+- Log unresolved as warnings
+
+## EXPECTED DELIVERABLES
+1. Updated Task JSONs with resolved dependency IDs
+2. IMPL_PLAN.md - multi-module format with cross-dependency section
+3. TODO_LIST.md - hierarchical by module with cross-dependency section
+
+## SUCCESS CRITERIA
+- No CROSS:: placeholders remaining in task JSONs
+- IMPL_PLAN.md and TODO_LIST.md generated with multi-module structure
+- Return: task count, per-module breakdown, resolved dependency count
+  `
+)
 ```

-**Note**: IMPL_PLAN.md and TODO_LIST.md structure definitions are in `action-planning-agent.md`.
+**Dependency Resolution Algorithm**:
+```javascript
+function resolveCrossModuleDependency(placeholder, allTasks) {
+  const [, targetModule, pattern] = placeholder.match(/CROSS::(\w+)::(.+)/);
+  const candidates = allTasks.filter(t =>
+    t.id.startsWith(`IMPL-${targetModule}`) &&
+    (t.title.toLowerCase().includes(pattern.toLowerCase()) ||
+     t.context?.description?.toLowerCase().includes(pattern.toLowerCase()))
+  );
+  return candidates.length > 0
+    ? candidates.sort((a, b) => a.id.localeCompare(b.id))[0].id
+    : placeholder; // Keep for manual resolution
+}
+```

--- a/.claude/commands/workflow/tools/task-generate-tdd.md
+++ b/.claude/commands/workflow/tools/task-generate-tdd.md
@@ -113,7 +113,7 @@ Phase 2: Agent Execution (Document Generation)
    // Existing test patterns and coverage analysis
  },
  "mcp_capabilities": {
-    "code_index": true,
+    "codex_lens": true,
    "exa_code": true,
    "exa_web": true
  }
@@ -152,9 +152,14 @@ Phase 2: Agent Execution (Document Generation)
   roleAnalysisPaths.forEach(path => Read(path));
   ```

-5. **Load Conflict Resolution** (from context-package.json, if exists)
+5. **Load Conflict Resolution** (from conflict-resolution.json, if exists)
   ```javascript
-   if (contextPackage.brainstorm_artifacts.conflict_resolution?.exists) {
+   // Check for new conflict-resolution.json format
+   if (contextPackage.conflict_detection?.resolution_file) {
+     Read(contextPackage.conflict_detection.resolution_file)  // .process/conflict-resolution.json
+   }
+   // Fallback: legacy brainstorm_artifacts path
+   else if (contextPackage.brainstorm_artifacts?.conflict_resolution?.exists) {
     Read(contextPackage.brainstorm_artifacts.conflict_resolution.path)
   }
   ```
@@ -189,6 +194,7 @@ const templatePath = hasCliExecuteFlag
 ```javascript
 Task(
  subagent_type="action-planning-agent",
+  run_in_background=false,
  description="Generate TDD task JSON and implementation plan",
  prompt=`
 ## Execution Context
@@ -223,7 +229,7 @@ If conflict_risk was medium/high, modifications have been applied to:
 - **guidance-specification.md**: Design decisions updated to resolve conflicts
 - **Role analyses (*.md)**: Recommendations adjusted for compatibility
 - **context-package.json**: Marked as "resolved" with conflict IDs
- NO separate CONFLICT_RESOLUTION.md file (conflicts resolved in-place)
+- Conflict resolution results stored in conflict-resolution.json

 ### MCP Analysis Results (Optional)
 **Code Structure**: {mcp_code_index_results}
@@ -233,15 +239,6 @@ If conflict_risk was medium/high, modifications have been applied to:

 **Agent Configuration Reference**: All TDD task generation rules, quantification requirements, Red-Green-Refactor cycle structure, quality standards, and execution details are defined in action-planning-agent.

-Refer to: @.claude/agents/action-planning-agent.md for:
- TDD Task Decomposition Standards
- Red-Green-Refactor Cycle Requirements
- Quantification Requirements (MANDATORY)
- 5-Field Task JSON Schema
- IMPL_PLAN.md Structure (TDD variant)
- TODO_LIST.md Format
- TDD Execution Flow & Quality Validation
-
 ### TDD-Specific Requirements Summary

 #### Task Structure Philosophy
@@ -333,7 +330,7 @@ Generate all three documents and report completion status:
 - TDD cycles configured: N cycles with quantified test cases
 - Artifacts integrated: synthesis-spec, guidance-specification, N role analyses
 - Test context integrated: existing patterns and coverage
- MCP enhancements: code-index, exa-research
+- MCP enhancements: CodexLens, exa-research
 - Session ready for TDD execution: /workflow:execute
 `
 )
@@ -373,10 +370,12 @@ const agentContext = {
    .flatMap(role => role.files)
    .map(file => Read(file.path)),

-  // Load conflict resolution if exists (from context package)
-  conflict_resolution: brainstorm_artifacts.conflict_resolution?.exists
-    ? Read(brainstorm_artifacts.conflict_resolution.path)
-    : null,
+  // Load conflict resolution if exists (prefer new JSON format)
+  conflict_resolution: context_package.conflict_detection?.resolution_file
+    ? Read(context_package.conflict_detection.resolution_file)  // .process/conflict-resolution.json
+    : (brainstorm_artifacts?.conflict_resolution?.exists
+        ? Read(brainstorm_artifacts.conflict_resolution.path)
+        : null),

  // Optional MCP enhancements
  mcp_analysis: executeMcpDiscovery()
@@ -408,7 +407,7 @@ This section provides quick reference for TDD task JSON structure. For complete
 │   ├── IMPL-3.2.json                # Complex feature subtask (if needed)
 │   └── ...
 └── .process/
-    ├── CONFLICT_RESOLUTION.md       # Conflict resolution strategies (if conflict_risk ≥ medium)
+    ├── conflict-resolution.json     # Conflict resolution results (if conflict_risk ≥ medium)
    ├── test-context-package.json    # Test coverage analysis
    ├── context-package.json         # Input from context-gather
    ├── context_package_path         # Path to smart context package
--- a/.claude/commands/workflow/tools/test-concept-enhanced.md
+++ b/.claude/commands/workflow/tools/test-concept-enhanced.md
@@ -76,6 +76,7 @@ Phase 3: Output Validation (Command)
 ```javascript
 Task(
  subagent_type="cli-execution-agent",
+  run_in_background=false,
  description="Analyze test coverage gaps and generate test strategy",
  prompt=`
 ## TASK OBJECTIVE
@@ -89,7 +90,7 @@ Template: ~/.claude/workflows/cli-templates/prompts/test/test-concept-analysis.t

 ## EXECUTION STEPS
 1. Execute Gemini analysis:
-   cd .workflow/active/{test_session_id}/.process && gemini -p "$(cat ~/.claude/workflows/cli-templates/prompts/test/test-concept-analysis.txt)" --approval-mode yolo
+   ccw cli -p "$(cat ~/.claude/workflows/cli-templates/prompts/test/test-concept-analysis.txt)" --tool gemini --mode write --cd .workflow/active/{test_session_id}/.process

 2. Generate TEST_ANALYSIS_RESULTS.md:
   Synthesize gemini-test-analysis.md into standardized format for task generation
--- a/.claude/commands/workflow/tools/test-context-gather.md
+++ b/.claude/commands/workflow/tools/test-context-gather.md
@@ -14,7 +14,7 @@ allowed-tools: Task(*), Read(*), Glob(*)

 Orchestrator command that invokes `test-context-search-agent` to gather comprehensive test coverage context for test generation workflows. Generates standardized `test-context-package.json` with coverage analysis, framework detection, and source implementation context.

-**Agent**: `test-context-search-agent` (`.claude/agents/test-context-search-agent.md`)
+

 ## Core Philosophy

@@ -86,9 +86,9 @@ if (file_exists(testContextPath)) {
 ```javascript
 Task(
  subagent_type="test-context-search-agent",
+  run_in_background=false,
  description="Gather test coverage context",
  prompt=`
-You are executing as test-context-search-agent (.claude/agents/test-context-search-agent.md).

 ## Execution Mode
 **PLAN MODE** (Comprehensive) - Full Phase 1-3 execution
@@ -228,7 +228,7 @@ Refer to `test-context-search-agent.md` Phase 3.2 for complete `test-context-pac
 ## Notes

 - **Detection-first**: Always check for existing test-context-package before invoking agent
- **Agent autonomy**: Agent handles all coverage analysis logic per `.claude/agents/test-context-search-agent.md`
+
 - **No redundancy**: This command is a thin orchestrator, all logic in agent
 - **Framework agnostic**: Supports Jest, Mocha, pytest, RSpec, Go testing, etc.
 - **Coverage focus**: Primary goal is identifying implementation files without tests
--- a/.claude/commands/workflow/tools/test-task-generate.md
+++ b/.claude/commands/workflow/tools/test-task-generate.md
@@ -94,6 +94,7 @@ Phase 2: Test Document Generation (Agent)
 ```javascript
 Task(
  subagent_type="action-planning-agent",
+  run_in_background=false,
  description="Generate test planning documents (IMPL_PLAN.md, task JSONs, TODO_LIST.md)",
  prompt=`
 ## TASK OBJECTIVE
@@ -106,8 +107,6 @@ CRITICAL:
 - Follow the progressive loading strategy defined in your agent specification (load context incrementally from memory-first approach)

 ## AGENT CONFIGURATION REFERENCE
-All test task generation rules, schemas, and quality standards are defined in your agent specification:
-@.claude/agents/action-planning-agent.md

 Refer to your specification for:
 - Test Task JSON Schema (6-field structure with test-specific metadata)
--- a/.claude/commands/workflow/ui-design/import-from-code.md
+++ b/.claude/commands/workflow/ui-design/import-from-code.md
@@ -161,6 +161,7 @@ echo "[Phase 1] Starting parallel agent analysis (3 agents)"

 ```javascript
 Task(subagent_type="ui-design-agent",
+     run_in_background=false,
     prompt="[STYLE_TOKENS_EXTRACTION]
  Extract visual design tokens from code files using code import extraction pattern.

@@ -180,14 +181,14 @@ Task(subagent_type="ui-design-agent",
  - Pattern: rg → Extract values → Compare → If different → Read full context with comments → Record conflict
  - Alternative (if many files): Execute CLI analysis for comprehensive report:
    \`\`\`bash
-    cd ${source} && gemini -p \"
+    ccw cli -p \"
    PURPOSE: Detect color token conflicts across all CSS/SCSS/JS files
    TASK: • Scan all files for color definitions • Identify conflicting values • Extract semantic comments
    MODE: analysis
    CONTEXT: @**/*.css @**/*.scss @**/*.js @**/*.ts
    EXPECTED: JSON report listing conflicts with file:line, values, semantic context
    RULES: Focus on core tokens | Report ALL variants | analysis=READ-ONLY
-    \"
+    \" --tool gemini --mode analysis --cd ${source}
    \`\`\`

  **Step 1: Load file list**
@@ -276,6 +277,7 @@ Task(subagent_type="ui-design-agent",

 ```javascript
 Task(subagent_type="ui-design-agent",
+     run_in_background=false,
     prompt="[ANIMATION_TOKEN_GENERATION_TASK]
  Extract animation tokens from code files using code import extraction pattern.

@@ -295,14 +297,14 @@ Task(subagent_type="ui-design-agent",
  - Pattern: rg → Identify animation types → Map framework usage → Prioritize extraction targets
  - Alternative (if complex framework mix): Execute CLI analysis for comprehensive report:
    \`\`\`bash
-    cd ${source} && gemini -p \"
+    ccw cli -p \"
    PURPOSE: Detect animation frameworks and patterns
    TASK: • Identify frameworks • Map animation patterns • Categorize by complexity
    MODE: analysis
    CONTEXT: @**/*.css @**/*.scss @**/*.js @**/*.ts
    EXPECTED: JSON report listing frameworks, animation types, file locations
    RULES: Focus on framework consistency | Map all animations | analysis=READ-ONLY
-    \"
+    \" --tool gemini --mode analysis --cd ${source}
    \`\`\`

  **Step 1: Load file list**
@@ -355,6 +357,7 @@ Task(subagent_type="ui-design-agent",

 ```javascript
 Task(subagent_type="ui-design-agent",
+     run_in_background=false,
     prompt="[LAYOUT_TEMPLATE_GENERATION_TASK]
  Extract layout patterns from code files using code import extraction pattern.

@@ -374,14 +377,14 @@ Task(subagent_type="ui-design-agent",
  - Pattern: rg → Count occurrences → Classify by frequency → Prioritize universal components
  - Alternative (if large codebase): Execute CLI analysis for comprehensive categorization:
    \`\`\`bash
-    cd ${source} && gemini -p \"
+    ccw cli -p \"
    PURPOSE: Classify components as universal vs specialized
    TASK: • Identify UI components • Classify reusability • Map layout systems
    MODE: analysis
    CONTEXT: @**/*.css @**/*.scss @**/*.js @**/*.ts @**/*.html
    EXPECTED: JSON report categorizing components, layout patterns, naming conventions
    RULES: Focus on component reusability | Identify layout systems | analysis=READ-ONLY
-    \"
+    \" --tool gemini --mode analysis --cd ${source}
    \`\`\`

  **Step 1: Load file list**
--- a/.claude/scripts/classify-folders.sh
+++ b/.claude/scripts/classify-folders.sh
@@ -1,39 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec classify_folders '{"path":".","outputFormat":"json"}'
-# This file will be removed in a future version.
-
-# Classify folders by type for documentation generation
-# Usage: get_modules_by_depth.sh | classify-folders.sh
-# Output: folder_path|folder_type|code:N|dirs:N
-
-while IFS='|' read -r depth_info path_info files_info types_info claude_info; do
-  # Extract folder path from format "path:./src/modules"
-  folder_path=$(echo "$path_info" | cut -d':' -f2-)
-
-  # Skip if path extraction failed
-  [[ -z "$folder_path" || ! -d "$folder_path" ]] && continue
-
-  # Count code files (maxdepth 1)
-  code_files=$(find "$folder_path" -maxdepth 1 -type f \
-    \( -name "*.ts" -o -name "*.tsx" -o -name "*.js" -o -name "*.jsx" \
-       -o -name "*.py" -o -name "*.go" -o -name "*.java" -o -name "*.rs" \
-       -o -name "*.c" -o -name "*.cpp" -o -name "*.cs" \) \
-    2>/dev/null | wc -l)
-
-  # Count subdirectories
-  subfolders=$(find "$folder_path" -maxdepth 1 -type d \
-    -not -path "$folder_path" 2>/dev/null | wc -l)
-
-  # Determine folder type
-  if [[ $code_files -gt 0 ]]; then
-    folder_type="code"  # API.md + README.md
-  elif [[ $subfolders -gt 0 ]]; then
-    folder_type="navigation"  # README.md only
-  else
-    folder_type="skip"  # Empty or no relevant content
-  fi
-
-  # Output classification result
-  echo "${folder_path}|${folder_type}|code:${code_files}|dirs:${subfolders}"
-done
--- a/.claude/scripts/convert_tokens_to_css.sh
+++ b/.claude/scripts/convert_tokens_to_css.sh
@@ -1,229 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec convert_tokens_to_css '{"inputPath":"design-tokens.json","outputPath":"tokens.css"}'
-# This file will be removed in a future version.
-
-# Convert design-tokens.json to tokens.css with Google Fonts import and global font rules
-# Usage: cat design-tokens.json | ./convert_tokens_to_css.sh > tokens.css
-# Or: ./convert_tokens_to_css.sh < design-tokens.json > tokens.css
-
-# Read JSON from stdin
-json_input=$(cat)
-
-# Extract metadata for header comment
-style_name=$(echo "$json_input" | jq -r '.meta.name // "Unknown Style"' 2>/dev/null || echo "Design Tokens")
-
-# Generate header
-cat <<EOF
-/* ========================================
-   Design Tokens: ${style_name}
-   Auto-generated from design-tokens.json
-   ======================================== */
-
-EOF
-
-# ========================================
-# Google Fonts Import Generation
-# ========================================
-# Extract font families and generate Google Fonts import URL
-fonts=$(echo "$json_input" | jq -r '
-  .typography.font_family | to_entries[] | .value
-' 2>/dev/null | sed "s/'//g" | cut -d',' -f1 | sort -u)
-
-# Build Google Fonts URL
-google_fonts_url="https://fonts.googleapis.com/css2?"
-font_params=""
-
-while IFS= read -r font; do
-  # Skip system fonts and empty lines
-  if [[ -z "$font" ]] || [[ "$font" =~ ^(system-ui|sans-serif|serif|monospace|cursive|fantasy)$ ]]; then
-    continue
-  fi
-
-  # Special handling for common web fonts with weights
-  case "$font" in
-    "Comic Neue")
-      font_params+="family=Comic+Neue:wght@300;400;700&"
-      ;;
-    "Patrick Hand"|"Caveat"|"Dancing Script"|"Architects Daughter"|"Indie Flower"|"Shadows Into Light"|"Permanent Marker")
-      # URL-encode font name and add common weights
-      encoded_font=$(echo "$font" | sed 's/ /+/g')
-      font_params+="family=${encoded_font}:wght@400;700&"
-      ;;
-    "Segoe Print"|"Bradley Hand"|"Chilanka")
-      # These are system fonts, skip
-      ;;
-    *)
-      # Generic font: add with default weights
-      encoded_font=$(echo "$font" | sed 's/ /+/g')
-      font_params+="family=${encoded_font}:wght@400;500;600;700&"
-      ;;
-  esac
-done <<< "$fonts"
-
-# Generate @import if we have fonts
-if [[ -n "$font_params" ]]; then
-  # Remove trailing &
-  font_params="${font_params%&}"
-  echo "/* Import Web Fonts */"
-  echo "@import url('${google_fonts_url}${font_params}&display=swap');"
-  echo ""
-fi
-
-# ========================================
-# CSS Custom Properties Generation
-# ========================================
-echo ":root {"
-
-# Colors - Brand
-echo "  /* Colors - Brand */"
-echo "$json_input" | jq -r '
-  .colors.brand | to_entries[] |
-  "  --color-brand-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Colors - Surface
-echo "  /* Colors - Surface */"
-echo "$json_input" | jq -r '
-  .colors.surface | to_entries[] |
-  "  --color-surface-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Colors - Semantic
-echo "  /* Colors - Semantic */"
-echo "$json_input" | jq -r '
-  .colors.semantic | to_entries[] |
-  "  --color-semantic-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Colors - Text
-echo "  /* Colors - Text */"
-echo "$json_input" | jq -r '
-  .colors.text | to_entries[] |
-  "  --color-text-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Colors - Border
-echo "  /* Colors - Border */"
-echo "$json_input" | jq -r '
-  .colors.border | to_entries[] |
-  "  --color-border-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Typography - Font Family
-echo "  /* Typography - Font Family */"
-echo "$json_input" | jq -r '
-  .typography.font_family | to_entries[] |
-  "  --font-family-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Typography - Font Size
-echo "  /* Typography - Font Size */"
-echo "$json_input" | jq -r '
-  .typography.font_size | to_entries[] |
-  "  --font-size-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Typography - Font Weight
-echo "  /* Typography - Font Weight */"
-echo "$json_input" | jq -r '
-  .typography.font_weight | to_entries[] |
-  "  --font-weight-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Typography - Line Height
-echo "  /* Typography - Line Height */"
-echo "$json_input" | jq -r '
-  .typography.line_height | to_entries[] |
-  "  --line-height-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Typography - Letter Spacing
-echo "  /* Typography - Letter Spacing */"
-echo "$json_input" | jq -r '
-  .typography.letter_spacing | to_entries[] |
-  "  --letter-spacing-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Spacing
-echo "  /* Spacing */"
-echo "$json_input" | jq -r '
-  .spacing | to_entries[] |
-  "  --spacing-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Border Radius
-echo "  /* Border Radius */"
-echo "$json_input" | jq -r '
-  .border_radius | to_entries[] |
-  "  --border-radius-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Shadows
-echo "  /* Shadows */"
-echo "$json_input" | jq -r '
-  .shadows | to_entries[] |
-  "  --shadow-\(.key): \(.value);"
-' 2>/dev/null
-
-echo ""
-
-# Breakpoints
-echo "  /* Breakpoints */"
-echo "$json_input" | jq -r '
-  .breakpoints | to_entries[] |
-  "  --breakpoint-\(.key): \(.value);"
-' 2>/dev/null
-
-echo "}"
-echo ""
-
-# ========================================
-# Global Font Application
-# ========================================
-echo "/* ========================================"
-echo "   Global Font Application"
-echo "   ======================================== */"
-echo ""
-echo "body {"
-echo "  font-family: var(--font-family-body);"
-echo "  font-size: var(--font-size-base);"
-echo "  line-height: var(--line-height-normal);"
-echo "  color: var(--color-text-primary);"
-echo "  background-color: var(--color-surface-background);"
-echo "}"
-echo ""
-echo "h1, h2, h3, h4, h5, h6, legend {"
-echo "  font-family: var(--font-family-heading);"
-echo "}"
-echo ""
-echo "/* Reset default margins for better control */"
-echo "* {"
-echo "  margin: 0;"
-echo "  padding: 0;"
-echo "  box-sizing: border-box;"
-echo "}"
--- a/.claude/scripts/detect_changed_modules.sh
+++ b/.claude/scripts/detect_changed_modules.sh
@@ -1,161 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec detect_changed_modules '{"baseBranch":"main","format":"list"}'
-# This file will be removed in a future version.
-
-# Detect modules affected by git changes or recent modifications
-# Usage: detect_changed_modules.sh [format]
-#   format: list|grouped|paths (default: paths)
-#
-# Features:
-# - Respects .gitignore patterns (current directory or git root)
-# - Detects git changes (staged, unstaged, or last commit)
-# - Falls back to recently modified files (last 24 hours)
-
-# Build exclusion filters from .gitignore
-build_exclusion_filters() {
-    local filters=""
-
-    # Common system/cache directories to exclude
-    local system_excludes=(
-        ".git" "__pycache__" "node_modules" ".venv" "venv" "env"
-        "dist" "build" ".cache" ".pytest_cache" ".mypy_cache"
-        "coverage" ".nyc_output" "logs" "tmp" "temp"
-    )
-
-    for exclude in "${system_excludes[@]}"; do
-        filters+=" -not -path '*/$exclude' -not -path '*/$exclude/*'"
-    done
-
-    # Find and parse .gitignore (current dir first, then git root)
-    local gitignore_file=""
-
-    # Check current directory first
-    if [ -f ".gitignore" ]; then
-        gitignore_file=".gitignore"
-    else
-        # Try to find git root and check for .gitignore there
-        local git_root=$(git rev-parse --show-toplevel 2>/dev/null)
-        if [ -n "$git_root" ] && [ -f "$git_root/.gitignore" ]; then
-            gitignore_file="$git_root/.gitignore"
-        fi
-    fi
-
-    # Parse .gitignore if found
-    if [ -n "$gitignore_file" ]; then
-        while IFS= read -r line; do
-            # Skip empty lines and comments
-            [[ -z "$line" || "$line" =~ ^[[:space:]]*# ]] && continue
-
-            # Remove trailing slash and whitespace
-            line=$(echo "$line" | sed 's|/$||' | xargs)
-
-            # Skip wildcards patterns (too complex for simple find)
-            [[ "$line" =~ \* ]] && continue
-
-            # Add to filters
-            filters+=" -not -path '*/$line' -not -path '*/$line/*'"
-        done < "$gitignore_file"
-    fi
-
-    echo "$filters"
-}
-
-detect_changed_modules() {
-    local format="${1:-paths}"
-    local changed_files=""
-    local affected_dirs=""
-    local exclusion_filters=$(build_exclusion_filters)
-
-    # Step 1: Try to get git changes (staged + unstaged)
-    if git rev-parse --git-dir > /dev/null 2>&1; then
-        changed_files=$(git diff --name-only HEAD 2>/dev/null; git diff --name-only --cached 2>/dev/null)
-
-        # If no changes in working directory, check last commit
-        if [ -z "$changed_files" ]; then
-            changed_files=$(git diff --name-only HEAD~1 HEAD 2>/dev/null)
-        fi
-    fi
-
-    # Step 2: If no git changes, find recently modified source files (last 24 hours)
-    # Apply exclusion filters from .gitignore
-    if [ -z "$changed_files" ]; then
-        changed_files=$(eval "find . -type f \( \
-            -name '*.md' -o \
-            -name '*.js' -o -name '*.ts' -o -name '*.jsx' -o -name '*.tsx' -o \
-            -name '*.py' -o -name '*.go' -o -name '*.rs' -o \
-            -name '*.java' -o -name '*.cpp' -o -name '*.c' -o -name '*.h' -o \
-            -name '*.sh' -o -name '*.ps1' -o \
-            -name '*.json' -o -name '*.yaml' -o -name '*.yml' \
-        \) $exclusion_filters -mtime -1 2>/dev/null")
-    fi
-    
-    # Step 3: Extract unique parent directories
-    if [ -n "$changed_files" ]; then
-        affected_dirs=$(echo "$changed_files" | \
-            sed 's|/[^/]*$||' | \
-            grep -v '^\.$' | \
-            sort -u)
-        
-        # Add current directory if files are in root
-        if echo "$changed_files" | grep -q '^[^/]*$'; then
-            affected_dirs=$(echo -e ".\n$affected_dirs" | sort -u)
-        fi
-    fi
-    
-    # Step 4: Output in requested format
-    case "$format" in
-        "list")
-            if [ -n "$affected_dirs" ]; then
-                echo "$affected_dirs" | while read dir; do
-                    if [ -d "$dir" ]; then
-                        local file_count=$(find "$dir" -maxdepth 1 -type f 2>/dev/null | wc -l)
-                        local depth=$(echo "$dir" | tr -cd '/' | wc -c)
-                        if [ "$dir" = "." ]; then depth=0; fi
-                        
-                        local types=$(find "$dir" -maxdepth 1 -type f -name "*.*" 2>/dev/null | \
-                                    grep -E '\.[^/]*$' | sed 's/.*\.//' | sort -u | tr '\n' ',' | sed 's/,$//')
-                        local has_claude="no"
-                        [ -f "$dir/CLAUDE.md" ] && has_claude="yes"
-                        echo "depth:$depth|path:$dir|files:$file_count|types:[$types]|has_claude:$has_claude|status:changed"
-                    fi
-                done
-            fi
-            ;;
-            
-        "grouped")
-            if [ -n "$affected_dirs" ]; then
-                echo "📊 Affected modules by changes:"
-                # Group by depth
-                echo "$affected_dirs" | while read dir; do
-                    if [ -d "$dir" ]; then
-                        local depth=$(echo "$dir" | tr -cd '/' | wc -c)
-                        if [ "$dir" = "." ]; then depth=0; fi
-                        local claude_indicator=""
-                        [ -f "$dir/CLAUDE.md" ] && claude_indicator=" [✓]"
-                        echo "$depth:$dir$claude_indicator"
-                    fi
-                done | sort -n | awk -F: '
-                    {
-                        if ($1 != prev_depth) {
-                            if (prev_depth != "") print ""
-                            print "  📁 Depth " $1 ":"
-                            prev_depth = $1
-                        }
-                        print "    - " $2 " (changed)"
-                    }'
-            else
-                echo "📊 No recent changes detected"
-            fi
-            ;;
-            
-        "paths"|*)
-            echo "$affected_dirs"
-            ;;
-    esac
-}
-
-# Execute function if script is run directly
-if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
-    detect_changed_modules "$@"
-fi
--- a/.claude/scripts/discover-design-files.sh
+++ b/.claude/scripts/discover-design-files.sh
@@ -1,87 +0,0 @@
-#!/usr/bin/env bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec discover_design_files '{"sourceDir":".","outputPath":"output.json"}'
-# This file will be removed in a future version.
-
-# discover-design-files.sh - Discover design-related files and output JSON
-# Usage: discover-design-files.sh <source_dir> <output_json>
-
-set -euo pipefail
-
-source_dir="${1:-.}"
-output_json="${2:-discovered-files.json}"
-
-# Function to find and format files as JSON array
-find_files() {
-  local pattern="$1"
-  local files
-  files=$(eval "find \"$source_dir\" -type f $pattern \
-    ! -path \"*/node_modules/*\" \
-    ! -path \"*/dist/*\" \
-    ! -path \"*/.git/*\" \
-    ! -path \"*/build/*\" \
-    ! -path \"*/coverage/*\" \
-    2>/dev/null | sort || true")
-
-  local count
-  if [ -z "$files" ]; then
-    count=0
-  else
-    count=$(echo "$files" | grep -c . || echo 0)
-  fi
-  local json_files=""
-
-  if [ "$count" -gt 0 ]; then
-    json_files=$(echo "$files" | awk '{printf "\"%s\"%s\n", $0, (NR<'$count'?",":"")}' | tr '\n' ' ')
-  fi
-
-  echo "$count|$json_files"
-}
-
-# Discover CSS/SCSS files
-css_result=$(find_files '\( -name "*.css" -o -name "*.scss" \)')
-css_count=${css_result%%|*}
-css_files=${css_result#*|}
-
-# Discover JS/TS files (all framework files)
-js_result=$(find_files '\( -name "*.js" -o -name "*.ts" -o -name "*.jsx" -o -name "*.tsx" -o -name "*.mjs" -o -name "*.cjs" -o -name "*.vue" -o -name "*.svelte" \)')
-js_count=${js_result%%|*}
-js_files=${js_result#*|}
-
-# Discover HTML files
-html_result=$(find_files '-name "*.html"')
-html_count=${html_result%%|*}
-html_files=${html_result#*|}
-
-# Calculate total
-total_count=$((css_count + js_count + html_count))
-
-# Generate JSON
-cat > "$output_json" << EOF
-{
-  "discovery_time": "$(date -u +%Y-%m-%dT%H:%M:%SZ)",
-  "source_directory": "$(cd "$source_dir" && pwd)",
-  "file_types": {
-    "css": {
-      "count": $css_count,
-      "files": [${css_files}]
-    },
-    "js": {
-      "count": $js_count,
-      "files": [${js_files}]
-    },
-    "html": {
-      "count": $html_count,
-      "files": [${html_files}]
-    }
-  },
-  "total_files": $total_count
-}
-EOF
-
-# Ensure file is fully written and synchronized to disk
-# This prevents race conditions when the file is immediately read by another process
-sync "$output_json" 2>/dev/null || sync  # Sync specific file, fallback to full sync
-sleep 0.1  # Additional safety: 100ms delay for filesystem metadata update
-
-echo "Discovered: CSS=$css_count, JS=$js_count, HTML=$html_count (Total: $total_count)" >&2
--- a/.claude/scripts/extract-animations.js
+++ b/.claude/scripts/extract-animations.js
@@ -1,243 +0,0 @@
-/**
- * Animation & Transition Extraction Script
- *
- * Extracts CSS animations, transitions, and transform patterns from a live web page.
- * This script runs in the browser context via Chrome DevTools Protocol.
- *
- * @returns {Object} Structured animation data
- */
-(() => {
-  const extractionTimestamp = new Date().toISOString();
-  const currentUrl = window.location.href;
-
-  /**
-   * Parse transition shorthand or individual properties
-   */
-  function parseTransition(element, computedStyle) {
-    const transition = computedStyle.transition || computedStyle.webkitTransition;
-
-    if (!transition || transition === 'none' || transition === 'all 0s ease 0s') {
-      return null;
-    }
-
-    // Parse shorthand: "property duration easing delay"
-    const transitions = [];
-    const parts = transition.split(/,\s*/);
-
-    parts.forEach(part => {
-      const match = part.match(/^(\S+)\s+([\d.]+m?s)\s+(\S+)(?:\s+([\d.]+m?s))?/);
-      if (match) {
-        transitions.push({
-          property: match[1],
-          duration: match[2],
-          easing: match[3],
-          delay: match[4] || '0s'
-        });
-      }
-    });
-
-    return transitions.length > 0 ? transitions : null;
-  }
-
-  /**
-   * Extract animation name and properties
-   */
-  function parseAnimation(element, computedStyle) {
-    const animationName = computedStyle.animationName || computedStyle.webkitAnimationName;
-
-    if (!animationName || animationName === 'none') {
-      return null;
-    }
-
-    return {
-      name: animationName,
-      duration: computedStyle.animationDuration || computedStyle.webkitAnimationDuration,
-      easing: computedStyle.animationTimingFunction || computedStyle.webkitAnimationTimingFunction,
-      delay: computedStyle.animationDelay || computedStyle.webkitAnimationDelay || '0s',
-      iterationCount: computedStyle.animationIterationCount || computedStyle.webkitAnimationIterationCount || '1',
-      direction: computedStyle.animationDirection || computedStyle.webkitAnimationDirection || 'normal',
-      fillMode: computedStyle.animationFillMode || computedStyle.webkitAnimationFillMode || 'none'
-    };
-  }
-
-  /**
-   * Extract transform value
-   */
-  function parseTransform(computedStyle) {
-    const transform = computedStyle.transform || computedStyle.webkitTransform;
-
-    if (!transform || transform === 'none') {
-      return null;
-    }
-
-    return transform;
-  }
-
-  /**
-   * Get element selector (simplified for readability)
-   */
-  function getSelector(element) {
-    if (element.id) {
-      return `#${element.id}`;
-    }
-
-    if (element.className && typeof element.className === 'string') {
-      const classes = element.className.trim().split(/\s+/).slice(0, 2).join('.');
-      if (classes) {
-        return `.${classes}`;
-      }
-    }
-
-    return element.tagName.toLowerCase();
-  }
-
-  /**
-   * Extract all stylesheets and find @keyframes rules
-   */
-  function extractKeyframes() {
-    const keyframes = {};
-
-    try {
-      // Iterate through all stylesheets
-      Array.from(document.styleSheets).forEach(sheet => {
-        try {
-          // Skip external stylesheets due to CORS
-          if (sheet.href && !sheet.href.startsWith(window.location.origin)) {
-            return;
-          }
-
-          Array.from(sheet.cssRules || sheet.rules || []).forEach(rule => {
-            // Check for @keyframes rules
-            if (rule.type === CSSRule.KEYFRAMES_RULE || rule.type === CSSRule.WEBKIT_KEYFRAMES_RULE) {
-              const name = rule.name;
-              const frames = {};
-
-              Array.from(rule.cssRules || []).forEach(keyframe => {
-                const key = keyframe.keyText; // e.g., "0%", "50%", "100%"
-                frames[key] = keyframe.style.cssText;
-              });
-
-              keyframes[name] = frames;
-            }
-          });
-        } catch (e) {
-          // Skip stylesheets that can't be accessed (CORS)
-          console.warn('Cannot access stylesheet:', sheet.href, e.message);
-        }
-      });
-    } catch (e) {
-      console.error('Error extracting keyframes:', e);
-    }
-
-    return keyframes;
-  }
-
-  /**
-   * Scan visible elements for animations and transitions
-   */
-  function scanElements() {
-    const elements = document.querySelectorAll('*');
-    const transitionData = [];
-    const animationData = [];
-    const transformData = [];
-
-    const uniqueTransitions = new Set();
-    const uniqueAnimations = new Set();
-    const uniqueEasings = new Set();
-    const uniqueDurations = new Set();
-
-    elements.forEach(element => {
-      // Skip invisible elements
-      const rect = element.getBoundingClientRect();
-      if (rect.width === 0 && rect.height === 0) {
-        return;
-      }
-
-      const computedStyle = window.getComputedStyle(element);
-
-      // Extract transitions
-      const transitions = parseTransition(element, computedStyle);
-      if (transitions) {
-        const selector = getSelector(element);
-        transitions.forEach(t => {
-          const key = `${t.property}-${t.duration}-${t.easing}`;
-          if (!uniqueTransitions.has(key)) {
-            uniqueTransitions.add(key);
-            transitionData.push({
-              selector,
-              ...t
-            });
-            uniqueEasings.add(t.easing);
-            uniqueDurations.add(t.duration);
-          }
-        });
-      }
-
-      // Extract animations
-      const animation = parseAnimation(element, computedStyle);
-      if (animation) {
-        const selector = getSelector(element);
-        const key = `${animation.name}-${animation.duration}`;
-        if (!uniqueAnimations.has(key)) {
-          uniqueAnimations.add(key);
-          animationData.push({
-            selector,
-            ...animation
-          });
-          uniqueEasings.add(animation.easing);
-          uniqueDurations.add(animation.duration);
-        }
-      }
-
-      // Extract transforms (on hover/active, we only get current state)
-      const transform = parseTransform(computedStyle);
-      if (transform) {
-        const selector = getSelector(element);
-        transformData.push({
-          selector,
-          transform
-        });
-      }
-    });
-
-    return {
-      transitions: transitionData,
-      animations: animationData,
-      transforms: transformData,
-      uniqueEasings: Array.from(uniqueEasings),
-      uniqueDurations: Array.from(uniqueDurations)
-    };
-  }
-
-  /**
-   * Main extraction function
-   */
-  function extractAnimations() {
-    const elementData = scanElements();
-    const keyframes = extractKeyframes();
-
-    return {
-      metadata: {
-        timestamp: extractionTimestamp,
-        url: currentUrl,
-        method: 'chrome-devtools',
-        version: '1.0.0'
-      },
-      transitions: elementData.transitions,
-      animations: elementData.animations,
-      transforms: elementData.transforms,
-      keyframes: keyframes,
-      summary: {
-        total_transitions: elementData.transitions.length,
-        total_animations: elementData.animations.length,
-        total_transforms: elementData.transforms.length,
-        total_keyframes: Object.keys(keyframes).length,
-        unique_easings: elementData.uniqueEasings,
-        unique_durations: elementData.uniqueDurations
-      }
-    };
-  }
-
-  // Execute extraction
-  return extractAnimations();
-})();
--- a/.claude/scripts/extract-computed-styles.js
+++ b/.claude/scripts/extract-computed-styles.js
@@ -1,118 +0,0 @@
-/**
- * Extract Computed Styles from DOM
- *
- * This script extracts real CSS computed styles from a webpage's DOM
- * to provide accurate design tokens for UI replication.
- *
- * Usage: Execute this function via Chrome DevTools evaluate_script
- */
-
-(() => {
-  /**
-   * Extract unique values from a set and sort them
-   */
-  const uniqueSorted = (set) => {
-    return Array.from(set)
-      .filter(v => v && v !== 'none' && v !== '0px' && v !== 'rgba(0, 0, 0, 0)')
-      .sort();
-  };
-
-  /**
-   * Parse rgb/rgba to OKLCH format (placeholder - returns original for now)
-   */
-  const toOKLCH = (color) => {
-    // TODO: Implement actual RGB to OKLCH conversion
-    // For now, return the original color with a note
-    return `${color} /* TODO: Convert to OKLCH */`;
-  };
-
-  /**
-   * Extract only key styles from an element
-   */
-  const extractKeyStyles = (element) => {
-    const s = window.getComputedStyle(element);
-    return {
-      color: s.color,
-      bg: s.backgroundColor,
-      borderRadius: s.borderRadius,
-      boxShadow: s.boxShadow,
-      fontSize: s.fontSize,
-      fontWeight: s.fontWeight,
-      padding: s.padding,
-      margin: s.margin
-    };
-  };
-
-  /**
-   * Main extraction function - extract all critical design tokens
-   */
-  const extractDesignTokens = () => {
-    // Include all key UI elements
-    const selectors = [
-      'button', '.btn', '[role="button"]',
-      'input', 'textarea', 'select',
-      'h1', 'h2', 'h3', 'h4', 'h5', 'h6',
-      '.card', 'article', 'section',
-      'a', 'p', 'nav', 'header', 'footer'
-    ];
-
-    // Collect all design tokens
-    const tokens = {
-      colors: new Set(),
-      borderRadii: new Set(),
-      shadows: new Set(),
-      fontSizes: new Set(),
-      fontWeights: new Set(),
-      spacing: new Set()
-    };
-
-    // Extract from all elements
-    selectors.forEach(selector => {
-      try {
-        const elements = document.querySelectorAll(selector);
-        elements.forEach(element => {
-          const s = extractKeyStyles(element);
-
-          // Collect all tokens (no limits)
-          if (s.color && s.color !== 'rgba(0, 0, 0, 0)') tokens.colors.add(s.color);
-          if (s.bg && s.bg !== 'rgba(0, 0, 0, 0)') tokens.colors.add(s.bg);
-          if (s.borderRadius && s.borderRadius !== '0px') tokens.borderRadii.add(s.borderRadius);
-          if (s.boxShadow && s.boxShadow !== 'none') tokens.shadows.add(s.boxShadow);
-          if (s.fontSize) tokens.fontSizes.add(s.fontSize);
-          if (s.fontWeight) tokens.fontWeights.add(s.fontWeight);
-
-          // Extract all spacing values
-          [s.padding, s.margin].forEach(val => {
-            if (val && val !== '0px') {
-              val.split(' ').forEach(v => {
-                if (v && v !== '0px') tokens.spacing.add(v);
-              });
-            }
-          });
-        });
-      } catch (e) {
-        console.warn(`Error: ${selector}`, e);
-      }
-    });
-
-    // Return all tokens (no element details to save context)
-    return {
-      metadata: {
-        extractedAt: new Date().toISOString(),
-        url: window.location.href,
-        method: 'computed-styles'
-      },
-      tokens: {
-        colors: uniqueSorted(tokens.colors),
-        borderRadii: uniqueSorted(tokens.borderRadii),  // ALL radius values
-        shadows: uniqueSorted(tokens.shadows),          // ALL shadows
-        fontSizes: uniqueSorted(tokens.fontSizes),
-        fontWeights: uniqueSorted(tokens.fontWeights),
-        spacing: uniqueSorted(tokens.spacing)
-      }
-    };
-  };
-
-  // Execute and return results
-  return extractDesignTokens();
-})();
--- a/.claude/scripts/extract-layout-structure.js
+++ b/.claude/scripts/extract-layout-structure.js
@@ -1,411 +0,0 @@
-/**
- * Extract Layout Structure from DOM - Enhanced Version
- *
- * Extracts real layout information from DOM to provide accurate
- * structural data for UI replication.
- *
- * Features:
- * - Framework detection (Nuxt.js, Next.js, React, Vue, Angular)
- * - Multi-strategy container detection (strict → relaxed → class-based → framework-specific)
- * - Intelligent main content detection with common class names support
- * - Supports modern SPA frameworks
- * - Detects non-semantic main containers (.main, .content, etc.)
- * - Progressive exploration: Auto-discovers missing selectors when standard patterns fail
- * - Suggests new class names to add to script based on actual page structure
- *
- * Progressive Exploration:
- * When fewer than 3 main containers are found, the script automatically:
- * 1. Analyzes all large visible containers (≥500×300px)
- * 2. Extracts class name patterns (main/content/wrapper/container/page/etc.)
- * 3. Suggests new selectors to add to the script
- * 4. Returns exploration data in result.exploration
- *
- * Usage: Execute via Chrome DevTools evaluate_script
- * Version: 2.2.0
- */
-
-(() => {
-  /**
-   * Get element's bounding box relative to viewport
-   */
-  const getBounds = (element) => {
-    const rect = element.getBoundingClientRect();
-    return {
-      x: Math.round(rect.x),
-      y: Math.round(rect.y),
-      width: Math.round(rect.width),
-      height: Math.round(rect.height)
-    };
-  };
-
-  /**
-   * Extract layout properties from an element
-   */
-  const extractLayoutProps = (element) => {
-    const s = window.getComputedStyle(element);
-
-    return {
-      // Core layout
-      display: s.display,
-      position: s.position,
-
-      // Flexbox
-      flexDirection: s.flexDirection,
-      justifyContent: s.justifyContent,
-      alignItems: s.alignItems,
-      flexWrap: s.flexWrap,
-      gap: s.gap,
-
-      // Grid
-      gridTemplateColumns: s.gridTemplateColumns,
-      gridTemplateRows: s.gridTemplateRows,
-      gridAutoFlow: s.gridAutoFlow,
-
-      // Dimensions
-      width: s.width,
-      height: s.height,
-      maxWidth: s.maxWidth,
-      minWidth: s.minWidth,
-
-      // Spacing
-      padding: s.padding,
-      margin: s.margin
-    };
-  };
-
-  /**
-   * Identify layout pattern for an element
-   */
-  const identifyPattern = (props) => {
-    const { display, flexDirection, gridTemplateColumns } = props;
-
-    if (display === 'flex' || display === 'inline-flex') {
-      if (flexDirection === 'column') return 'flex-column';
-      if (flexDirection === 'row') return 'flex-row';
-      return 'flex';
-    }
-
-    if (display === 'grid') {
-      const cols = gridTemplateColumns;
-      if (cols && cols !== 'none') {
-        const colCount = cols.split(' ').length;
-        return `grid-${colCount}col`;
-      }
-      return 'grid';
-    }
-
-    if (display === 'block') return 'block';
-
-    return display;
-  };
-
-  /**
-   * Detect frontend framework
-   */
-  const detectFramework = () => {
-    if (document.querySelector('#__nuxt')) return { name: 'Nuxt.js', version: 'unknown' };
-    if (document.querySelector('#__next')) return { name: 'Next.js', version: 'unknown' };
-    if (document.querySelector('[data-reactroot]')) return { name: 'React', version: 'unknown' };
-    if (document.querySelector('[ng-version]')) return { name: 'Angular', version: 'unknown' };
-    if (window.Vue) return { name: 'Vue.js', version: window.Vue.version || 'unknown' };
-    return { name: 'Unknown', version: 'unknown' };
-  };
-
-  /**
-   * Build layout tree recursively
-   */
-  const buildLayoutTree = (element, depth = 0, maxDepth = 3) => {
-    if (depth > maxDepth) return null;
-
-    const props = extractLayoutProps(element);
-    const bounds = getBounds(element);
-    const pattern = identifyPattern(props);
-
-    // Get semantic role
-    const tagName = element.tagName.toLowerCase();
-    const classes = Array.from(element.classList).slice(0, 3); // Max 3 classes
-    const role = element.getAttribute('role');
-
-    // Build node
-    const node = {
-      tag: tagName,
-      classes: classes,
-      role: role,
-      pattern: pattern,
-      bounds: bounds,
-      layout: {
-        display: props.display,
-        position: props.position
-      }
-    };
-
-    // Add flex/grid specific properties
-    if (props.display === 'flex' || props.display === 'inline-flex') {
-      node.layout.flexDirection = props.flexDirection;
-      node.layout.justifyContent = props.justifyContent;
-      node.layout.alignItems = props.alignItems;
-      node.layout.gap = props.gap;
-    }
-
-    if (props.display === 'grid') {
-      node.layout.gridTemplateColumns = props.gridTemplateColumns;
-      node.layout.gridTemplateRows = props.gridTemplateRows;
-      node.layout.gap = props.gap;
-    }
-
-    // Process children for container elements
-    if (props.display === 'flex' || props.display === 'grid' || props.display === 'block') {
-      const children = Array.from(element.children);
-      if (children.length > 0 && children.length < 50) { // Limit to 50 children
-        node.children = children
-          .map(child => buildLayoutTree(child, depth + 1, maxDepth))
-          .filter(child => child !== null);
-      }
-    }
-
-    return node;
-  };
-
-  /**
-   * Find main layout containers with multi-strategy approach
-   */
-  const findMainContainers = () => {
-    const containers = [];
-    const found = new Set();
-
-    // Strategy 1: Strict selectors (body direct children)
-    const strictSelectors = [
-      'body > header',
-      'body > nav',
-      'body > main',
-      'body > footer'
-    ];
-
-    // Strategy 2: Relaxed selectors (any level)
-    const relaxedSelectors = [
-      'header',
-      'nav',
-      'main',
-      'footer',
-      '[role="banner"]',
-      '[role="navigation"]',
-      '[role="main"]',
-      '[role="contentinfo"]'
-    ];
-
-    // Strategy 3: Common class-based main content selectors
-    const commonClassSelectors = [
-      '.main',
-      '.content',
-      '.main-content',
-      '.page-content',
-      '.container.main',
-      '.wrapper > .main',
-      'div[class*="main-wrapper"]',
-      'div[class*="content-wrapper"]'
-    ];
-
-    // Strategy 4: Framework-specific selectors
-    const frameworkSelectors = [
-      '#__nuxt header', '#__nuxt .main', '#__nuxt main', '#__nuxt footer',
-      '#__next header', '#__next .main', '#__next main', '#__next footer',
-      '#app header', '#app .main', '#app main', '#app footer',
-      '[data-app] header', '[data-app] .main', '[data-app] main', '[data-app] footer'
-    ];
-
-    // Try all strategies
-    const allSelectors = [...strictSelectors, ...relaxedSelectors, ...commonClassSelectors, ...frameworkSelectors];
-
-    allSelectors.forEach(selector => {
-      try {
-        const elements = document.querySelectorAll(selector);
-        elements.forEach(element => {
-          // Avoid duplicates and invisible elements
-          if (!found.has(element) && element.offsetParent !== null) {
-            found.add(element);
-            const tree = buildLayoutTree(element, 0, 3);
-            if (tree && tree.bounds.width > 0 && tree.bounds.height > 0) {
-              containers.push(tree);
-            }
-          }
-        });
-      } catch (e) {
-        console.warn(`Selector failed: ${selector}`, e);
-      }
-    });
-
-    // Fallback: If no containers found, use body's direct children
-    if (containers.length === 0) {
-      Array.from(document.body.children).forEach(child => {
-        if (child.offsetParent !== null && !found.has(child)) {
-          const tree = buildLayoutTree(child, 0, 2);
-          if (tree && tree.bounds.width > 100 && tree.bounds.height > 100) {
-            containers.push(tree);
-          }
-        }
-      });
-    }
-
-    return containers;
-  };
-
-  /**
-   * Progressive exploration: Discover main containers when standard selectors fail
-   * Analyzes large visible containers and suggests class name patterns
-   */
-  const exploreMainContainers = () => {
-    const candidates = [];
-    const minWidth = 500;
-    const minHeight = 300;
-
-    // Find all large visible divs
-    const allDivs = document.querySelectorAll('div');
-    allDivs.forEach(div => {
-      const rect = div.getBoundingClientRect();
-      const style = window.getComputedStyle(div);
-
-      // Filter: large size, visible, not header/footer
-      if (rect.width >= minWidth &&
-          rect.height >= minHeight &&
-          div.offsetParent !== null &&
-          !div.closest('header') &&
-          !div.closest('footer')) {
-
-        const classes = Array.from(div.classList);
-        const area = rect.width * rect.height;
-
-        candidates.push({
-          element: div,
-          classes: classes,
-          area: area,
-          bounds: {
-            width: Math.round(rect.width),
-            height: Math.round(rect.height)
-          },
-          display: style.display,
-          depth: getElementDepth(div)
-        });
-      }
-    });
-
-    // Sort by area (largest first) and take top candidates
-    candidates.sort((a, b) => b.area - a.area);
-
-    // Extract unique class patterns from top candidates
-    const classPatterns = new Set();
-    candidates.slice(0, 20).forEach(c => {
-      c.classes.forEach(cls => {
-        // Identify potential main content class patterns
-        if (cls.match(/main|content|container|wrapper|page|body|layout|app/i)) {
-          classPatterns.add(cls);
-        }
-      });
-    });
-
-    return {
-      candidates: candidates.slice(0, 10).map(c => ({
-        classes: c.classes,
-        bounds: c.bounds,
-        display: c.display,
-        depth: c.depth
-      })),
-      suggestedSelectors: Array.from(classPatterns).map(cls => `.${cls}`)
-    };
-  };
-
-  /**
-   * Get element depth in DOM tree
-   */
-  const getElementDepth = (element) => {
-    let depth = 0;
-    let current = element;
-    while (current.parentElement) {
-      depth++;
-      current = current.parentElement;
-    }
-    return depth;
-  };
-
-  /**
-   * Analyze layout patterns
-   */
-  const analyzePatterns = (containers) => {
-    const patterns = {
-      flexColumn: 0,
-      flexRow: 0,
-      grid: 0,
-      sticky: 0,
-      fixed: 0
-    };
-
-    const analyze = (node) => {
-      if (!node) return;
-
-      if (node.pattern === 'flex-column') patterns.flexColumn++;
-      if (node.pattern === 'flex-row') patterns.flexRow++;
-      if (node.pattern && node.pattern.startsWith('grid')) patterns.grid++;
-      if (node.layout.position === 'sticky') patterns.sticky++;
-      if (node.layout.position === 'fixed') patterns.fixed++;
-
-      if (node.children) {
-        node.children.forEach(analyze);
-      }
-    };
-
-    containers.forEach(analyze);
-    return patterns;
-  };
-
-  /**
-   * Main extraction function with progressive exploration
-   */
-  const extractLayout = () => {
-    const framework = detectFramework();
-    const containers = findMainContainers();
-    const patterns = analyzePatterns(containers);
-
-    // Progressive exploration: if too few containers found, explore and suggest
-    let exploration = null;
-    const minExpectedContainers = 3; // At least header, main, footer
-
-    if (containers.length < minExpectedContainers) {
-      exploration = exploreMainContainers();
-
-      // Add warning message
-      exploration.warning = `Only ${containers.length} containers found. Consider adding these selectors to the script:`;
-      exploration.recommendation = exploration.suggestedSelectors.join(', ');
-    }
-
-    const result = {
-      metadata: {
-        extractedAt: new Date().toISOString(),
-        url: window.location.href,
-        framework: framework,
-        method: 'layout-structure-enhanced',
-        version: '2.2.0'
-      },
-      statistics: {
-        totalContainers: containers.length,
-        patterns: patterns
-      },
-      structure: containers
-    };
-
-    // Add exploration results if triggered
-    if (exploration) {
-      result.exploration = {
-        triggered: true,
-        reason: 'Insufficient containers found with standard selectors',
-        discoveredCandidates: exploration.candidates,
-        suggestedSelectors: exploration.suggestedSelectors,
-        warning: exploration.warning,
-        recommendation: exploration.recommendation
-      };
-    }
-
-    return result;
-  };
-
-  // Execute and return results
-  return extractLayout();
-})();
--- a/.claude/scripts/generate_module_docs.sh
+++ b/.claude/scripts/generate_module_docs.sh
@@ -1,717 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec generate_module_docs '{"path":".","strategy":"single-layer","tool":"gemini"}'
-# This file will be removed in a future version.
-
-# Generate documentation for modules and projects with multiple strategies
-# Usage: generate_module_docs.sh <strategy> <source_path> <project_name> [tool] [model]
-#   strategy: full|single|project-readme|project-architecture|http-api
-#   source_path: Path to the source module directory (or project root for project-level docs)
-#   project_name: Project name for output path (e.g., "myproject")
-#   tool: gemini|qwen|codex (default: gemini)
-#   model: Model name (optional, uses tool defaults)
-#
-# Default Models:
-#   gemini: gemini-2.5-flash
-#   qwen: coder-model
-#   codex: gpt5-codex
-#
-# Module-Level Strategies:
-#   full: Full documentation generation
-#     - Read: All files in current and subdirectories (@**/*)
-#     - Generate: API.md + README.md for each directory containing code files
-#     - Use: Deep directories (Layer 3), comprehensive documentation
-#
-#   single: Single-layer documentation
-#     - Read: Current directory code + child API.md/README.md files
-#     - Generate: API.md + README.md only in current directory
-#     - Use: Upper layers (Layer 1-2), incremental updates
-#
-# Project-Level Strategies:
-#   project-readme: Project overview documentation
-#     - Read: All module API.md and README.md files
-#     - Generate: README.md (project root)
-#     - Use: After all module docs are generated
-#
-#   project-architecture: System design documentation
-#     - Read: All module docs + project README
-#     - Generate: ARCHITECTURE.md + EXAMPLES.md
-#     - Use: After project README is generated
-#
-#   http-api: HTTP API documentation
-#     - Read: API route files + existing docs
-#     - Generate: api/README.md
-#     - Use: For projects with HTTP APIs
-#
-# Output Structure:
-#   Module docs: .workflow/docs/{project_name}/{source_path}/API.md
-#   Module docs: .workflow/docs/{project_name}/{source_path}/README.md
-#   Project docs: .workflow/docs/{project_name}/README.md
-#   Project docs: .workflow/docs/{project_name}/ARCHITECTURE.md
-#   Project docs: .workflow/docs/{project_name}/EXAMPLES.md
-#   API docs: .workflow/docs/{project_name}/api/README.md
-#
-# Features:
-#   - Path mirroring: source structure → docs structure
-#   - Template-driven generation
-#   - Respects .gitignore patterns
-#   - Detects code vs navigation folders
-#   - Tool fallback support
-
-# Build exclusion filters from .gitignore
-build_exclusion_filters() {
-    local filters=""
-
-    # Common system/cache directories to exclude
-    local system_excludes=(
-        ".git" "__pycache__" "node_modules" ".venv" "venv" "env"
-        "dist" "build" ".cache" ".pytest_cache" ".mypy_cache"
-        "coverage" ".nyc_output" "logs" "tmp" "temp" ".workflow"
-    )
-
-    for exclude in "${system_excludes[@]}"; do
-        filters+=" -not -path '*/$exclude' -not -path '*/$exclude/*'"
-    done
-
-    # Find and parse .gitignore (current dir first, then git root)
-    local gitignore_file=""
-
-    # Check current directory first
-    if [ -f ".gitignore" ]; then
-        gitignore_file=".gitignore"
-    else
-        # Try to find git root and check for .gitignore there
-        local git_root=$(git rev-parse --show-toplevel 2>/dev/null)
-        if [ -n "$git_root" ] && [ -f "$git_root/.gitignore" ]; then
-            gitignore_file="$git_root/.gitignore"
-        fi
-    fi
-
-    # Parse .gitignore if found
-    if [ -n "$gitignore_file" ]; then
-        while IFS= read -r line; do
-            # Skip empty lines and comments
-            [[ -z "$line" || "$line" =~ ^[[:space:]]*# ]] && continue
-
-            # Remove trailing slash and whitespace
-            line=$(echo "$line" | sed 's|/$||' | xargs)
-
-            # Skip wildcards patterns (too complex for simple find)
-            [[ "$line" =~ \* ]] && continue
-
-            # Add to filters
-            filters+=" -not -path '*/$line' -not -path '*/$line/*'"
-        done < "$gitignore_file"
-    fi
-
-    echo "$filters"
-}
-
-# Detect folder type (code vs navigation)
-detect_folder_type() {
-    local target_path="$1"
-    local exclusion_filters="$2"
-
-    # Count code files (primary indicators)
-    local code_count=$(eval "find \"$target_path\" -maxdepth 1 -type f \\( -name '*.ts' -o -name '*.tsx' -o -name '*.js' -o -name '*.jsx' -o -name '*.py' -o -name '*.sh' -o -name '*.go' -o -name '*.rs' \\) $exclusion_filters 2>/dev/null" | wc -l)
-
-    if [ $code_count -gt 0 ]; then
-        echo "code"
-    else
-        echo "navigation"
-    fi
-}
-
-# Scan directory structure and generate structured information
-scan_directory_structure() {
-    local target_path="$1"
-    local strategy="$2"
-
-    if [ ! -d "$target_path" ]; then
-        echo "Directory not found: $target_path"
-        return 1
-    fi
-
-    local exclusion_filters=$(build_exclusion_filters)
-    local structure_info=""
-
-    # Get basic directory info
-    local dir_name=$(basename "$target_path")
-    local total_files=$(eval "find \"$target_path\" -type f $exclusion_filters 2>/dev/null" | wc -l)
-    local total_dirs=$(eval "find \"$target_path\" -type d $exclusion_filters 2>/dev/null" | wc -l)
-    local folder_type=$(detect_folder_type "$target_path" "$exclusion_filters")
-
-    structure_info+="Directory: $dir_name\n"
-    structure_info+="Total files: $total_files\n"
-    structure_info+="Total directories: $total_dirs\n"
-    structure_info+="Folder type: $folder_type\n\n"
-
-    if [ "$strategy" = "full" ]; then
-        # For full: show all subdirectories with file counts
-        structure_info+="Subdirectories with files:\n"
-        while IFS= read -r dir; do
-            if [ -n "$dir" ] && [ "$dir" != "$target_path" ]; then
-                local rel_path=${dir#$target_path/}
-                local file_count=$(eval "find \"$dir\" -maxdepth 1 -type f $exclusion_filters 2>/dev/null" | wc -l)
-                if [ $file_count -gt 0 ]; then
-                    local subdir_type=$(detect_folder_type "$dir" "$exclusion_filters")
-                    structure_info+="  - $rel_path/ ($file_count files, type: $subdir_type)\n"
-                fi
-            fi
-        done < <(eval "find \"$target_path\" -type d $exclusion_filters 2>/dev/null")
-    else
-        # For single: show direct children only
-        structure_info+="Direct subdirectories:\n"
-        while IFS= read -r dir; do
-            if [ -n "$dir" ]; then
-                local dir_name=$(basename "$dir")
-                local file_count=$(eval "find \"$dir\" -maxdepth 1 -type f $exclusion_filters 2>/dev/null" | wc -l)
-                local has_api=$([ -f "$dir/API.md" ] && echo " [has API.md]" || echo "")
-                local has_readme=$([ -f "$dir/README.md" ] && echo " [has README.md]" || echo "")
-                structure_info+="  - $dir_name/ ($file_count files)$has_api$has_readme\n"
-            fi
-        done < <(eval "find \"$target_path\" -maxdepth 1 -type d $exclusion_filters 2>/dev/null" | grep -v "^$target_path$")
-    fi
-
-    # Show main file types in current directory
-    structure_info+="\nCurrent directory files:\n"
-    local code_files=$(eval "find \"$target_path\" -maxdepth 1 -type f \\( -name '*.ts' -o -name '*.tsx' -o -name '*.js' -o -name '*.jsx' -o -name '*.py' -o -name '*.sh' -o -name '*.go' -o -name '*.rs' \\) $exclusion_filters 2>/dev/null" | wc -l)
-    local config_files=$(eval "find \"$target_path\" -maxdepth 1 -type f \\( -name '*.json' -o -name '*.yaml' -o -name '*.yml' -o -name '*.toml' \\) $exclusion_filters 2>/dev/null" | wc -l)
-    local doc_files=$(eval "find \"$target_path\" -maxdepth 1 -type f -name '*.md' $exclusion_filters 2>/dev/null" | wc -l)
-
-    structure_info+="  - Code files: $code_files\n"
-    structure_info+="  - Config files: $config_files\n"
-    structure_info+="  - Documentation: $doc_files\n"
-
-    printf "%b" "$structure_info"
-}
-
-# Calculate output path based on source path and project name
-calculate_output_path() {
-    local source_path="$1"
-    local project_name="$2"
-    local project_root="$3"
-
-    # Get absolute path of source (normalize to Unix-style path)
-    local abs_source=$(cd "$source_path" && pwd)
-
-    # Normalize project root to same format
-    local norm_project_root=$(cd "$project_root" && pwd)
-
-    # Calculate relative path from project root
-    local rel_path="${abs_source#$norm_project_root}"
-
-    # Remove leading slash if present
-    rel_path="${rel_path#/}"
-
-    # If source is project root, use project name directly
-    if [ "$abs_source" = "$norm_project_root" ] || [ -z "$rel_path" ]; then
-        echo "$norm_project_root/.workflow/docs/$project_name"
-    else
-        echo "$norm_project_root/.workflow/docs/$project_name/$rel_path"
-    fi
-}
-
-generate_module_docs() {
-    local strategy="$1"
-    local source_path="$2"
-    local project_name="$3"
-    local tool="${4:-gemini}"
-    local model="$5"
-
-    # Validate parameters
-    if [ -z "$strategy" ] || [ -z "$source_path" ] || [ -z "$project_name" ]; then
-        echo "❌ Error: Strategy, source path, and project name are required"
-        echo "Usage: generate_module_docs.sh <strategy> <source_path> <project_name> [tool] [model]"
-        echo "Module strategies: full, single"
-        echo "Project strategies: project-readme, project-architecture, http-api"
-        return 1
-    fi
-
-    # Validate strategy
-    local valid_strategies=("full" "single" "project-readme" "project-architecture" "http-api")
-    local strategy_valid=false
-    for valid_strategy in "${valid_strategies[@]}"; do
-        if [ "$strategy" = "$valid_strategy" ]; then
-            strategy_valid=true
-            break
-        fi
-    done
-
-    if [ "$strategy_valid" = false ]; then
-        echo "❌ Error: Invalid strategy '$strategy'"
-        echo "Valid module strategies: full, single"
-        echo "Valid project strategies: project-readme, project-architecture, http-api"
-        return 1
-    fi
-
-    if [ ! -d "$source_path" ]; then
-        echo "❌ Error: Source directory '$source_path' does not exist"
-        return 1
-    fi
-
-    # Set default models if not specified
-    if [ -z "$model" ]; then
-        case "$tool" in
-            gemini)
-                model="gemini-2.5-flash"
-                ;;
-            qwen)
-                model="coder-model"
-                ;;
-            codex)
-                model="gpt5-codex"
-                ;;
-            *)
-                model=""
-                ;;
-        esac
-    fi
-
-    # Build exclusion filters
-    local exclusion_filters=$(build_exclusion_filters)
-
-    # Get project root
-    local project_root=$(git rev-parse --show-toplevel 2>/dev/null || pwd)
-
-    # Determine if this is a project-level strategy
-    local is_project_level=false
-    if [[ "$strategy" =~ ^project- ]] || [ "$strategy" = "http-api" ]; then
-        is_project_level=true
-    fi
-
-    # Calculate output path
-    local output_path
-    if [ "$is_project_level" = true ]; then
-        # Project-level docs go to project root
-        if [ "$strategy" = "http-api" ]; then
-            output_path="$project_root/.workflow/docs/$project_name/api"
-        else
-            output_path="$project_root/.workflow/docs/$project_name"
-        fi
-    else
-        output_path=$(calculate_output_path "$source_path" "$project_name" "$project_root")
-    fi
-
-    # Create output directory
-    mkdir -p "$output_path"
-
-    # Detect folder type (only for module-level strategies)
-    local folder_type=""
-    if [ "$is_project_level" = false ]; then
-        folder_type=$(detect_folder_type "$source_path" "$exclusion_filters")
-    fi
-
-    # Load templates based on strategy
-    local api_template=""
-    local readme_template=""
-    local template_content=""
-
-    if [ "$is_project_level" = true ]; then
-        # Project-level templates
-        case "$strategy" in
-            project-readme)
-                local proj_readme_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/project-readme.txt"
-                if [ -f "$proj_readme_path" ]; then
-                    template_content=$(cat "$proj_readme_path")
-                    echo "   📋 Loaded Project README template: $(wc -l < "$proj_readme_path") lines"
-                fi
-                ;;
-            project-architecture)
-                local arch_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/project-architecture.txt"
-                local examples_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/project-examples.txt"
-                if [ -f "$arch_path" ]; then
-                    template_content=$(cat "$arch_path")
-                    echo "   📋 Loaded Architecture template: $(wc -l < "$arch_path") lines"
-                fi
-                if [ -f "$examples_path" ]; then
-                    template_content="$template_content
-
-EXAMPLES TEMPLATE:
-$(cat "$examples_path")"
-                    echo "   📋 Loaded Examples template: $(wc -l < "$examples_path") lines"
-                fi
-                ;;
-            http-api)
-                local api_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/api.txt"
-                if [ -f "$api_path" ]; then
-                    template_content=$(cat "$api_path")
-                    echo "   📋 Loaded HTTP API template: $(wc -l < "$api_path") lines"
-                fi
-                ;;
-        esac
-    else
-        # Module-level templates
-        local api_template_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/api.txt"
-        local readme_template_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/module-readme.txt"
-        local nav_template_path="$HOME/.claude/workflows/cli-templates/prompts/documentation/folder-navigation.txt"
-
-        if [ "$folder_type" = "code" ]; then
-            if [ -f "$api_template_path" ]; then
-                api_template=$(cat "$api_template_path")
-                echo "   📋 Loaded API template: $(wc -l < "$api_template_path") lines"
-            fi
-            if [ -f "$readme_template_path" ]; then
-                readme_template=$(cat "$readme_template_path")
-                echo "   📋 Loaded README template: $(wc -l < "$readme_template_path") lines"
-            fi
-        else
-            # Navigation folder uses navigation template
-            if [ -f "$nav_template_path" ]; then
-                readme_template=$(cat "$nav_template_path")
-                echo "   📋 Loaded Navigation template: $(wc -l < "$nav_template_path") lines"
-            fi
-        fi
-    fi
-
-    # Scan directory structure (only for module-level strategies)
-    local structure_info=""
-    if [ "$is_project_level" = false ]; then
-        echo "   🔍 Scanning directory structure..."
-        structure_info=$(scan_directory_structure "$source_path" "$strategy")
-    fi
-
-    # Prepare logging info
-    local module_name=$(basename "$source_path")
-
-    echo "⚡ Generating docs: $source_path → $output_path"
-    echo "   Strategy: $strategy | Tool: $tool | Model: $model | Type: $folder_type"
-    echo "   Output: $output_path"
-
-    # Build strategy-specific prompt
-    local final_prompt=""
-
-    # Project-level strategies
-    if [ "$strategy" = "project-readme" ]; then
-        final_prompt="PURPOSE: Generate comprehensive project overview documentation
-
-PROJECT: $project_name
-OUTPUT: Current directory (file will be moved to final location)
-
-Read: @.workflow/docs/$project_name/**/*.md
-
-Context: All module documentation files from the project
-
-Generate ONE documentation file in current directory:
- README.md - Project root documentation
-
-Template:
-$template_content
-
-Instructions:
- Create README.md in CURRENT DIRECTORY
- Synthesize information from all module docs
- Include project overview, getting started, and navigation
- Create clear module navigation with links
- Follow template structure exactly"
-
-    elif [ "$strategy" = "project-architecture" ]; then
-        final_prompt="PURPOSE: Generate system design and usage examples documentation
-
-PROJECT: $project_name
-OUTPUT: Current directory (files will be moved to final location)
-
-Read: @.workflow/docs/$project_name/**/*.md
-
-Context: All project documentation including module docs and project README
-
-Generate TWO documentation files in current directory:
-1. ARCHITECTURE.md - System architecture and design patterns
-2. EXAMPLES.md - End-to-end usage examples
-
-Template:
-$template_content
-
-Instructions:
- Create both ARCHITECTURE.md and EXAMPLES.md in CURRENT DIRECTORY
- Synthesize architectural patterns from module documentation
- Document system structure, module relationships, and design decisions
- Provide practical code examples and usage scenarios
- Follow template structure for both files"
-
-    elif [ "$strategy" = "http-api" ]; then
-        final_prompt="PURPOSE: Generate HTTP API reference documentation
-
-PROJECT: $project_name
-OUTPUT: Current directory (file will be moved to final location)
-
-Read: @**/*.{ts,js,py,go,rs} @.workflow/docs/$project_name/**/*.md
-
-Context: API route files and existing documentation
-
-Generate ONE documentation file in current directory:
- README.md - HTTP API documentation (in api/ subdirectory)
-
-Template:
-$template_content
-
-Instructions:
- Create README.md in CURRENT DIRECTORY
- Document all HTTP endpoints (routes, methods, parameters, responses)
- Include authentication requirements and error codes
- Provide request/response examples
- Follow template structure (Part B: HTTP API documentation)"
-
-    # Module-level strategies
-    elif [ "$strategy" = "full" ]; then
-        # Full strategy: read all files, generate for each directory
-        if [ "$folder_type" = "code" ]; then
-            final_prompt="PURPOSE: Generate comprehensive API and module documentation
-
-Directory Structure Analysis:
-$structure_info
-
-SOURCE: $source_path
-OUTPUT: Current directory (files will be moved to final location)
-
-Read: @**/*
-
-Generate TWO documentation files in current directory:
-1. API.md - Code API documentation (functions, classes, interfaces)
-   Template:
-$api_template
-
-2. README.md - Module overview documentation
-   Template:
-$readme_template
-
-Instructions:
- Generate both API.md and README.md in CURRENT DIRECTORY
- If subdirectories contain code files, generate their docs too (recursive)
- Work bottom-up: deepest directories first
- Follow template structure exactly
- Use structure analysis for context"
-        else
-            # Navigation folder - README only
-            final_prompt="PURPOSE: Generate navigation documentation for folder structure
-
-Directory Structure Analysis:
-$structure_info
-
-SOURCE: $source_path
-OUTPUT: Current directory (file will be moved to final location)
-
-Read: @**/*
-
-Generate ONE documentation file in current directory:
- README.md - Navigation and folder overview
-
-Template:
-$readme_template
-
-Instructions:
- Create README.md in CURRENT DIRECTORY
- Focus on folder structure and navigation
- Link to subdirectory documentation
- Use structure analysis for context"
-        fi
-    else
-        # Single strategy: read current + child docs only
-        if [ "$folder_type" = "code" ]; then
-            final_prompt="PURPOSE: Generate API and module documentation for current directory
-
-Directory Structure Analysis:
-$structure_info
-
-SOURCE: $source_path
-OUTPUT: Current directory (files will be moved to final location)
-
-Read: @*/API.md @*/README.md @*.ts @*.tsx @*.js @*.jsx @*.py @*.sh @*.go @*.rs @*.md @*.json @*.yaml @*.yml
-
-Generate TWO documentation files in current directory:
-1. API.md - Code API documentation
-   Template:
-$api_template
-
-2. README.md - Module overview
-   Template:
-$readme_template
-
-Instructions:
- Generate both API.md and README.md in CURRENT DIRECTORY
- Reference child documentation, do not duplicate
- Follow template structure
- Use structure analysis for current directory context"
-        else
-            # Navigation folder - README only
-            final_prompt="PURPOSE: Generate navigation documentation
-
-Directory Structure Analysis:
-$structure_info
-
-SOURCE: $source_path
-OUTPUT: Current directory (file will be moved to final location)
-
-Read: @*/API.md @*/README.md @*.md
-
-Generate ONE documentation file in current directory:
- README.md - Navigation and overview
-
-Template:
-$readme_template
-
-Instructions:
- Create README.md in CURRENT DIRECTORY
- Link to child documentation
- Use structure analysis for navigation context"
-        fi
-    fi
-
-    # Execute documentation generation
-    local start_time=$(date +%s)
-    echo "   🔄 Starting documentation generation..."
-
-    if cd "$source_path" 2>/dev/null; then
-        local tool_result=0
-
-        # Store current output path for CLI context
-        export DOC_OUTPUT_PATH="$output_path"
-
-        # Record git HEAD before CLI execution (to detect unwanted auto-commits)
-        local git_head_before=""
-        if git rev-parse --git-dir >/dev/null 2>&1; then
-            git_head_before=$(git rev-parse HEAD 2>/dev/null)
-        fi
-
-        # Execute with selected tool
-        case "$tool" in
-            qwen)
-                if [ "$model" = "coder-model" ]; then
-                    qwen -p "$final_prompt" --yolo 2>&1
-                else
-                    qwen -p "$final_prompt" -m "$model" --yolo 2>&1
-                fi
-                tool_result=$?
-                ;;
-            codex)
-                codex --full-auto exec "$final_prompt" -m "$model" --skip-git-repo-check -s danger-full-access 2>&1
-                tool_result=$?
-                ;;
-            gemini)
-                gemini -p "$final_prompt" -m "$model" --yolo 2>&1
-                tool_result=$?
-                ;;
-            *)
-                echo "   ⚠️  Unknown tool: $tool, defaulting to gemini"
-                gemini -p "$final_prompt" -m "$model" --yolo 2>&1
-                tool_result=$?
-                ;;
-        esac
-
-        # Move generated files to output directory
-        local docs_created=0
-        local moved_files=""
-
-        if [ $tool_result -eq 0 ]; then
-            if [ "$is_project_level" = true ]; then
-                # Project-level documentation files
-                case "$strategy" in
-                    project-readme)
-                        if [ -f "README.md" ]; then
-                            mv "README.md" "$output_path/README.md" 2>/dev/null && {
-                                docs_created=$((docs_created + 1))
-                                moved_files+="README.md "
-                            }
-                        fi
-                        ;;
-                    project-architecture)
-                        if [ -f "ARCHITECTURE.md" ]; then
-                            mv "ARCHITECTURE.md" "$output_path/ARCHITECTURE.md" 2>/dev/null && {
-                                docs_created=$((docs_created + 1))
-                                moved_files+="ARCHITECTURE.md "
-                            }
-                        fi
-                        if [ -f "EXAMPLES.md" ]; then
-                            mv "EXAMPLES.md" "$output_path/EXAMPLES.md" 2>/dev/null && {
-                                docs_created=$((docs_created + 1))
-                                moved_files+="EXAMPLES.md "
-                            }
-                        fi
-                        ;;
-                    http-api)
-                        if [ -f "README.md" ]; then
-                            mv "README.md" "$output_path/README.md" 2>/dev/null && {
-                                docs_created=$((docs_created + 1))
-                                moved_files+="api/README.md "
-                            }
-                        fi
-                        ;;
-                esac
-            else
-                # Module-level documentation files
-                # Check and move API.md if it exists
-                if [ "$folder_type" = "code" ] && [ -f "API.md" ]; then
-                    mv "API.md" "$output_path/API.md" 2>/dev/null && {
-                        docs_created=$((docs_created + 1))
-                        moved_files+="API.md "
-                    }
-                fi
-
-                # Check and move README.md if it exists
-                if [ -f "README.md" ]; then
-                    mv "README.md" "$output_path/README.md" 2>/dev/null && {
-                        docs_created=$((docs_created + 1))
-                        moved_files+="README.md "
-                    }
-                fi
-            fi
-        fi
-
-        # Check if CLI tool auto-committed (and revert if needed)
-        if [ -n "$git_head_before" ]; then
-            local git_head_after=$(git rev-parse HEAD 2>/dev/null)
-            if [ "$git_head_before" != "$git_head_after" ]; then
-                echo "   ⚠️  Detected unwanted auto-commit by CLI tool, reverting..."
-                git reset --soft "$git_head_before" 2>/dev/null
-                echo "   ✅ Auto-commit reverted (files remain staged)"
-            fi
-        fi
-
-        if [ $docs_created -gt 0 ]; then
-            local end_time=$(date +%s)
-            local duration=$((end_time - start_time))
-            echo "   ✅ Generated $docs_created doc(s) in ${duration}s: $moved_files"
-            cd - > /dev/null
-            return 0
-        else
-            echo "   ❌ Documentation generation failed for $source_path"
-            cd - > /dev/null
-            return 1
-        fi
-    else
-        echo "   ❌ Cannot access directory: $source_path"
-        return 1
-    fi
-}
-
-# Execute function if script is run directly
-if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
-    # Show help if no arguments or help requested
-    if [ $# -eq 0 ] || [ "$1" = "-h" ] || [ "$1" = "--help" ]; then
-        echo "Usage: generate_module_docs.sh <strategy> <source_path> <project_name> [tool] [model]"
-        echo ""
-        echo "Module-Level Strategies:"
-        echo "  full                   - Generate docs for all subdirectories with code"
-        echo "  single                 - Generate docs only for current directory"
-        echo ""
-        echo "Project-Level Strategies:"
-        echo "  project-readme         - Generate project root README.md"
-        echo "  project-architecture   - Generate ARCHITECTURE.md + EXAMPLES.md"
-        echo "  http-api               - Generate HTTP API documentation (api/README.md)"
-        echo ""
-        echo "Tools: gemini (default), qwen, codex"
-        echo "Models: Use tool defaults if not specified"
-        echo ""
-        echo "Module Examples:"
-        echo "  ./generate_module_docs.sh full ./src/auth myproject"
-        echo "  ./generate_module_docs.sh single ./components myproject gemini"
-        echo ""
-        echo "Project Examples:"
-        echo "  ./generate_module_docs.sh project-readme . myproject"
-        echo "  ./generate_module_docs.sh project-architecture . myproject qwen"
-        echo "  ./generate_module_docs.sh http-api . myproject"
-        exit 0
-    fi
-
-    generate_module_docs "$@"
-fi
--- a/.claude/scripts/get_modules_by_depth.sh
+++ b/.claude/scripts/get_modules_by_depth.sh
@@ -1,170 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec get_modules_by_depth '{"format":"list","path":"."}' OR ccw tool exec get_modules_by_depth '{}'
-# This file will be removed in a future version.
-
-# Get modules organized by directory depth (deepest first)
-# Usage: get_modules_by_depth.sh [format]
-#   format: list|grouped|json (default: list)
-
-# Parse .gitignore patterns and build exclusion filters
-build_exclusion_filters() {
-    local filters=""
-    
-    # Always exclude these system/cache directories and common web dev packages
-    local system_excludes=(
-        # Version control and IDE
-        ".git" ".gitignore" ".gitmodules" ".gitattributes"
-        ".svn" ".hg" ".bzr"
-        ".history" ".vscode" ".idea" ".vs" ".vscode-test"
-        ".sublime-text" ".atom"
-
-        # Python
-        "__pycache__" ".pytest_cache" ".mypy_cache" ".tox"
-        ".coverage" "htmlcov" ".nox" ".venv" "venv" "env"
-        ".egg-info" "*.egg-info" ".eggs" ".wheel"
-        "site-packages" ".python-version" ".pyc"
-
-        # Node.js/JavaScript
-        "node_modules" ".npm" ".yarn" ".pnpm" "yarn-error.log"
-        ".nyc_output" "coverage" ".next" ".nuxt"
-        ".cache" ".parcel-cache" ".vite" "dist" "build"
-        ".turbo" ".vercel" ".netlify"
-
-        # Package managers
-        ".pnpm-store" "pnpm-lock.yaml" "yarn.lock" "package-lock.json"
-        ".bundle" "vendor/bundle" "Gemfile.lock"
-        ".gradle" "gradle" "gradlew" "gradlew.bat"
-        ".mvn" "target" ".m2"
-
-        # Build/compile outputs
-        "dist" "build" "out" "output" "_site" "public"
-        ".output" ".generated" "generated" "gen"
-        "bin" "obj" "Debug" "Release"
-
-        # Testing
-        ".pytest_cache" ".coverage" "htmlcov" "test-results"
-        ".nyc_output" "junit.xml" "test_results"
-        "cypress/screenshots" "cypress/videos"
-        "playwright-report" ".playwright"
-
-        # Logs and temp files
-        "logs" "*.log" "log" "tmp" "temp" ".tmp" ".temp"
-        ".env" ".env.local" ".env.*.local"
-        ".DS_Store" "Thumbs.db" "*.tmp" "*.swp" "*.swo"
-
-        # Documentation build outputs
-        "_book" "_site" "docs/_build" "site" "gh-pages"
-        ".docusaurus" ".vuepress" ".gitbook"
-
-        # Database files
-        "*.sqlite" "*.sqlite3" "*.db" "data.db"
-
-        # OS and editor files
-        ".DS_Store" "Thumbs.db" "desktop.ini"
-        "*.stackdump" "*.core"
-
-        # Cloud and deployment
-        ".serverless" ".terraform" "terraform.tfstate"
-        ".aws" ".azure" ".gcp"
-
-        # Mobile development
-        ".gradle" "build" ".expo" ".metro"
-        "android/app/build" "ios/build" "DerivedData"
-
-        # Game development
-        "Library" "Temp" "ProjectSettings"
-        "Logs" "MemoryCaptures" "UserSettings"
-    )
-    
-    for exclude in "${system_excludes[@]}"; do
-        filters+=" -not -path '*/$exclude' -not -path '*/$exclude/*'"
-    done
-    
-    # Parse .gitignore if it exists
-    if [ -f ".gitignore" ]; then
-        while IFS= read -r line; do
-            # Skip empty lines and comments
-            [[ -z "$line" || "$line" =~ ^[[:space:]]*# ]] && continue
-            
-            # Remove trailing slash and whitespace
-            line=$(echo "$line" | sed 's|/$||' | xargs)
-            
-            # Add to filters
-            filters+=" -not -path '*/$line' -not -path '*/$line/*'"
-        done < .gitignore
-    fi
-    
-    echo "$filters"
-}
-
-get_modules_by_depth() {
-    local format="${1:-list}"
-    local exclusion_filters=$(build_exclusion_filters)
-    local max_depth=$(eval "find . -type d $exclusion_filters 2>/dev/null" | awk -F/ '{print NF-1}' | sort -n | tail -1)
-    
-    case "$format" in
-        "grouped")
-            echo "📊 Modules by depth (deepest first):"
-            for depth in $(seq $max_depth -1 0); do
-                local dirs=$(eval "find . -mindepth $depth -maxdepth $depth -type d $exclusion_filters 2>/dev/null" | \
-                           while read dir; do
-                               if [ $(find "$dir" -maxdepth 1 -type f 2>/dev/null | wc -l) -gt 0 ]; then
-                                   local claude_indicator=""
-                                   [ -f "$dir/CLAUDE.md" ] && claude_indicator=" [✓]"
-                                   echo "$dir$claude_indicator"
-                               fi
-                           done)
-                if [ -n "$dirs" ]; then
-                    echo "  📁 Depth $depth:"
-                    echo "$dirs" | sed 's/^/    - /'
-                fi
-            done
-            ;;
-            
-        "json")
-            echo "{"
-            echo "  \"max_depth\": $max_depth,"
-            echo "  \"modules\": {"
-            for depth in $(seq $max_depth -1 0); do
-                local dirs=$(eval "find . -mindepth $depth -maxdepth $depth -type d $exclusion_filters 2>/dev/null" | \
-                           while read dir; do
-                               if [ $(find "$dir" -maxdepth 1 -type f 2>/dev/null | wc -l) -gt 0 ]; then
-                                   local has_claude="false"
-                                   [ -f "$dir/CLAUDE.md" ] && has_claude="true"
-                                   echo "{\"path\":\"$dir\",\"has_claude\":$has_claude}"
-                               fi
-                           done | tr '\n' ',')
-                if [ -n "$dirs" ]; then
-                    dirs=${dirs%,}  # Remove trailing comma
-                    echo "    \"$depth\": [$dirs]"
-                    [ $depth -gt 0 ] && echo ","
-                fi
-            done
-            echo "  }"
-            echo "}"
-            ;;
-            
-        "list"|*)
-            # Simple list format (deepest first)
-            for depth in $(seq $max_depth -1 0); do
-                eval "find . -mindepth $depth -maxdepth $depth -type d $exclusion_filters 2>/dev/null" | \
-                while read dir; do
-                    if [ $(find "$dir" -maxdepth 1 -type f 2>/dev/null | wc -l) -gt 0 ]; then
-                        local file_count=$(find "$dir" -maxdepth 1 -type f 2>/dev/null | wc -l)
-                        local types=$(find "$dir" -maxdepth 1 -type f -name "*.*" 2>/dev/null | \
-                                    grep -E '\.[^/]*$' | sed 's/.*\.//' | sort -u | tr '\n' ',' | sed 's/,$//')
-                        local has_claude="no"
-                        [ -f "$dir/CLAUDE.md" ] && has_claude="yes"
-                        echo "depth:$depth|path:$dir|files:$file_count|types:[$types]|has_claude:$has_claude"
-                    fi
-                done
-            done
-            ;;
-    esac
-}
-
-# Execute function if script is run directly
-if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
-    get_modules_by_depth "$@"
-fi
--- a/.claude/scripts/ui-generate-preview.sh
+++ b/.claude/scripts/ui-generate-preview.sh
@@ -1,395 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec ui_generate_preview '{"designPath":"design-run-1","outputDir":"preview"}'
-# This file will be removed in a future version.
-
-#
-# UI Generate Preview v2.0 - Template-Based Preview Generation
-# Purpose: Generate compare.html and index.html using template substitution
-# Template: ~/.claude/workflows/_template-compare-matrix.html
-#
-# Usage: ui-generate-preview.sh <prototypes_dir> [--template <path>]
-#
-
-set -e
-
-# Color output
-RED='\033[0;31m'
-GREEN='\033[0;32m'
-YELLOW='\033[1;33m'
-NC='\033[0m' # No Color
-
-# Default template path
-TEMPLATE_PATH="$HOME/.claude/workflows/_template-compare-matrix.html"
-
-# Parse arguments
-prototypes_dir="${1:-.}"
-shift || true
-
-while [[ $# -gt 0 ]]; do
-    case $1 in
-        --template)
-            TEMPLATE_PATH="$2"
-            shift 2
-            ;;
-        *)
-            echo -e "${RED}Unknown option: $1${NC}"
-            exit 1
-            ;;
-    esac
-done
-
-if [[ ! -d "$prototypes_dir" ]]; then
-    echo -e "${RED}Error: Directory not found: $prototypes_dir${NC}"
-    exit 1
-fi
-
-cd "$prototypes_dir" || exit 1
-
-echo -e "${GREEN}📊 Auto-detecting matrix dimensions...${NC}"
-
-# Auto-detect styles, layouts, targets from file patterns
-# Pattern: {target}-style-{s}-layout-{l}.html
-styles=$(find . -maxdepth 1 -name "*-style-*-layout-*.html" | \
-         sed 's/.*-style-\([0-9]\+\)-.*/\1/' | sort -un)
-layouts=$(find . -maxdepth 1 -name "*-style-*-layout-*.html" | \
-          sed 's/.*-layout-\([0-9]\+\)\.html/\1/' | sort -un)
-targets=$(find . -maxdepth 1 -name "*-style-*-layout-*.html" | \
-          sed 's/\.\///; s/-style-.*//' | sort -u)
-
-S=$(echo "$styles" | wc -l)
-L=$(echo "$layouts" | wc -l)
-T=$(echo "$targets" | wc -l)
-
-echo -e "   Detected: ${GREEN}${S}${NC} styles × ${GREEN}${L}${NC} layouts × ${GREEN}${T}${NC} targets"
-
-if [[ $S -eq 0 ]] || [[ $L -eq 0 ]] || [[ $T -eq 0 ]]; then
-    echo -e "${RED}Error: No prototype files found matching pattern {target}-style-{s}-layout-{l}.html${NC}"
-    exit 1
-fi
-
-# ============================================================================
-# Generate compare.html from template
-# ============================================================================
-
-echo -e "${YELLOW}🎨 Generating compare.html from template...${NC}"
-
-if [[ ! -f "$TEMPLATE_PATH" ]]; then
-    echo -e "${RED}Error: Template not found: $TEMPLATE_PATH${NC}"
-    exit 1
-fi
-
-# Build pages/targets JSON array
-PAGES_JSON="["
-first=true
-for target in $targets; do
-    if [[ "$first" == true ]]; then
-        first=false
-    else
-        PAGES_JSON+=", "
-    fi
-    PAGES_JSON+="\"$target\""
-done
-PAGES_JSON+="]"
-
-# Generate metadata
-RUN_ID="run-$(date +%Y%m%d-%H%M%S)"
-SESSION_ID="standalone"
-TIMESTAMP=$(date -u +%Y-%m-%dT%H:%M:%SZ 2>/dev/null || date -u +"%Y-%m-%d")
-
-# Replace placeholders in template
-cat "$TEMPLATE_PATH" | \
-    sed "s|{{run_id}}|${RUN_ID}|g" | \
-    sed "s|{{session_id}}|${SESSION_ID}|g" | \
-    sed "s|{{timestamp}}|${TIMESTAMP}|g" | \
-    sed "s|{{style_variants}}|${S}|g" | \
-    sed "s|{{layout_variants}}|${L}|g" | \
-    sed "s|{{pages_json}}|${PAGES_JSON}|g" \
-    > compare.html
-
-echo -e "${GREEN}   ✓ Generated compare.html from template${NC}"
-
-# ============================================================================
-# Generate index.html
-# ============================================================================
-
-echo -e "${YELLOW}📋 Generating index.html...${NC}"
-
-cat > index.html << 'EOF'
-<!DOCTYPE html>
-<html lang="en">
-<head>
-    <meta charset="UTF-8">
-    <meta name="viewport" content="width=device-width, initial-scale=1.0">
-    <title>UI Prototypes Index</title>
-    <style>
-        * { margin: 0; padding: 0; box-sizing: border-box; }
-        body {
-            font-family: -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, sans-serif;
-            max-width: 1200px;
-            margin: 0 auto;
-            padding: 40px 20px;
-            background: #f5f5f5;
-        }
-        h1 { margin-bottom: 10px; color: #333; }
-        .subtitle { color: #666; margin-bottom: 30px; }
-        .cta {
-            background: linear-gradient(135deg, #667eea 0%, #764ba2 100%);
-            color: white;
-            padding: 20px;
-            border-radius: 8px;
-            margin-bottom: 30px;
-            box-shadow: 0 4px 6px rgba(0,0,0,0.1);
-        }
-        .cta h2 { margin-bottom: 10px; }
-        .cta a {
-            display: inline-block;
-            background: white;
-            color: #667eea;
-            padding: 10px 20px;
-            border-radius: 6px;
-            text-decoration: none;
-            font-weight: 600;
-            margin-top: 10px;
-        }
-        .cta a:hover { background: #f8f9fa; }
-        .style-section {
-            background: white;
-            padding: 20px;
-            border-radius: 8px;
-            margin-bottom: 20px;
-            box-shadow: 0 2px 4px rgba(0,0,0,0.1);
-        }
-        .style-section h2 {
-            color: #495057;
-            margin-bottom: 15px;
-            padding-bottom: 10px;
-            border-bottom: 2px solid #e9ecef;
-        }
-        .target-group {
-            margin-bottom: 20px;
-        }
-        .target-group h3 {
-            color: #6c757d;
-            font-size: 16px;
-            margin-bottom: 10px;
-        }
-        .link-grid {
-            display: grid;
-            grid-template-columns: repeat(auto-fill, minmax(200px, 1fr));
-            gap: 10px;
-        }
-        .prototype-link {
-            padding: 12px 16px;
-            background: #f8f9fa;
-            border: 1px solid #dee2e6;
-            border-radius: 6px;
-            text-decoration: none;
-            color: #495057;
-            display: flex;
-            justify-content: space-between;
-            align-items: center;
-            transition: all 0.2s;
-        }
-        .prototype-link:hover {
-            background: #e9ecef;
-            border-color: #667eea;
-            transform: translateX(2px);
-        }
-        .prototype-link .label { font-weight: 500; }
-        .prototype-link .icon { color: #667eea; }
-    </style>
-</head>
-<body>
-    <h1>🎨 UI Prototypes Index</h1>
-    <p class="subtitle">Generated __S__×__L__×__T__ = __TOTAL__ prototypes</p>
-
-    <div class="cta">
-        <h2>📊 Interactive Comparison</h2>
-        <p>View all styles and layouts side-by-side in an interactive matrix</p>
-        <a href="compare.html">Open Matrix View →</a>
-    </div>
-
-    <h2>📂 All Prototypes</h2>
-__CONTENT__
-</body>
-</html>
-EOF
-
-# Build content HTML
-CONTENT=""
-for style in $styles; do
-    CONTENT+="<div class='style-section'>"$'\n'
-    CONTENT+="<h2>Style ${style}</h2>"$'\n'
-
-    for target in $targets; do
-        target_capitalized="$(echo ${target:0:1} | tr '[:lower:]' '[:upper:]')${target:1}"
-        CONTENT+="<div class='target-group'>"$'\n'
-        CONTENT+="<h3>${target_capitalized}</h3>"$'\n'
-        CONTENT+="<div class='link-grid'>"$'\n'
-
-        for layout in $layouts; do
-            html_file="${target}-style-${style}-layout-${layout}.html"
-            if [[ -f "$html_file" ]]; then
-                CONTENT+="<a href='${html_file}' class='prototype-link' target='_blank'>"$'\n'
-                CONTENT+="<span class='label'>Layout ${layout}</span>"$'\n'
-                CONTENT+="<span class='icon'>↗</span>"$'\n'
-                CONTENT+="</a>"$'\n'
-            fi
-        done
-
-        CONTENT+="</div></div>"$'\n'
-    done
-
-    CONTENT+="</div>"$'\n'
-done
-
-# Calculate total
-TOTAL_PROTOTYPES=$((S * L * T))
-
-# Replace placeholders (using a temp file for complex replacement)
-{
-    echo "$CONTENT" > /tmp/content_tmp.txt
-    sed "s|__S__|${S}|g" index.html | \
-        sed "s|__L__|${L}|g" | \
-        sed "s|__T__|${T}|g" | \
-        sed "s|__TOTAL__|${TOTAL_PROTOTYPES}|g" | \
-        sed -e "/__CONTENT__/r /tmp/content_tmp.txt" -e "/__CONTENT__/d" > /tmp/index_tmp.html
-    mv /tmp/index_tmp.html index.html
-    rm -f /tmp/content_tmp.txt
-}
-
-echo -e "${GREEN}   ✓ Generated index.html${NC}"
-
-# ============================================================================
-# Generate PREVIEW.md
-# ============================================================================
-
-echo -e "${YELLOW}📝 Generating PREVIEW.md...${NC}"
-
-cat > PREVIEW.md << EOF
-# UI Prototypes Preview Guide
-
-Generated: $(date +"%Y-%m-%d %H:%M:%S")
-
-## 📊 Matrix Dimensions
-
- **Styles**: ${S}
- **Layouts**: ${L}
- **Targets**: ${T}
- **Total Prototypes**: $((S*L*T))
-
-## 🌐 How to View
-
-### Option 1: Interactive Matrix (Recommended)
-
-Open \`compare.html\` in your browser to see all prototypes in an interactive matrix view.
-
-**Features**:
- Side-by-side comparison of all styles and layouts
- Switch between targets using the dropdown
- Adjust grid columns for better viewing
- Direct links to full-page views
- Selection system with export to JSON
- Fullscreen mode for detailed inspection
-
-### Option 2: Simple Index
-
-Open \`index.html\` for a simple list of all prototypes with direct links.
-
-### Option 3: Direct File Access
-
-Each prototype can be opened directly:
- Pattern: \`{target}-style-{s}-layout-{l}.html\`
- Example: \`dashboard-style-1-layout-1.html\`
-
-## 📁 File Structure
-
-\`\`\`
-prototypes/
-├── compare.html           # Interactive matrix view
-├── index.html             # Simple navigation index
-├── PREVIEW.md             # This file
-EOF
-
-for style in $styles; do
-    for target in $targets; do
-        for layout in $layouts; do
-            echo "├── ${target}-style-${style}-layout-${layout}.html" >> PREVIEW.md
-            echo "├── ${target}-style-${style}-layout-${layout}.css" >> PREVIEW.md
-        done
-    done
-done
-
-cat >> PREVIEW.md << 'EOF2'
-```
-
-## 🎨 Style Variants
-
-EOF2
-
-for style in $styles; do
-    cat >> PREVIEW.md << EOF3
-### Style ${style}
-
-EOF3
-    style_guide="../style-extraction/style-${style}/style-guide.md"
-    if [[ -f "$style_guide" ]]; then
-        head -n 10 "$style_guide" | tail -n +2 >> PREVIEW.md 2>/dev/null || echo "Design philosophy and tokens" >> PREVIEW.md
-    else
-        echo "Design system ${style}" >> PREVIEW.md
-    fi
-    echo "" >> PREVIEW.md
-done
-
-cat >> PREVIEW.md << 'EOF4'
-
-## 🎯 Targets
-
-EOF4
-
-for target in $targets; do
-    target_capitalized="$(echo ${target:0:1} | tr '[:lower:]' '[:upper:]')${target:1}"
-    echo "- **${target_capitalized}**: ${L} layouts × ${S} styles = $((L*S)) variations" >> PREVIEW.md
-done
-
-cat >> PREVIEW.md << 'EOF5'
-
-## 💡 Tips
-
-1. **Comparison**: Use compare.html to see how different styles affect the same layout
-2. **Navigation**: Use index.html for quick access to specific prototypes
-3. **Selection**: Mark favorites in compare.html using star icons
-4. **Export**: Download selection JSON for implementation planning
-5. **Inspection**: Open browser DevTools to inspect HTML structure and CSS
-6. **Sharing**: All files are standalone - can be shared or deployed directly
-
-## 📝 Next Steps
-
-1. Review prototypes in compare.html
-2. Select preferred style × layout combinations
-3. Export selections as JSON
-4. Provide feedback for refinement
-5. Use selected designs for implementation
-
---
-
-Generated by /workflow:ui-design:generate-v2 (Style-Centric Architecture)
-EOF5
-
-echo -e "${GREEN}   ✓ Generated PREVIEW.md${NC}"
-
-# ============================================================================
-# Completion Summary
-# ============================================================================
-
-echo ""
-echo -e "${GREEN}✅ Preview generation complete!${NC}"
-echo -e "   Files created: compare.html, index.html, PREVIEW.md"
-echo -e "   Matrix: ${S} styles × ${L} layouts × ${T} targets = $((S*L*T)) prototypes"
-echo ""
-echo -e "${YELLOW}🌐 Next Steps:${NC}"
-echo -e "   1. Open compare.html for interactive matrix view"
-echo -e "   2. Open index.html for simple navigation"
-echo -e "   3. Read PREVIEW.md for detailed usage guide"
-echo ""
--- a/.claude/scripts/ui-instantiate-prototypes.sh
+++ b/.claude/scripts/ui-instantiate-prototypes.sh
@@ -1,815 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec ui_instantiate_prototypes '{"designPath":"design-run-1","outputDir":"output"}'
-# This file will be removed in a future version.
-
-
-# UI Prototype Instantiation Script with Preview Generation (v3.0 - Auto-detect)
-# Purpose: Generate S × L × P final prototypes from templates + interactive preview files
-# Usage:
-#   Simple: ui-instantiate-prototypes.sh <prototypes_dir>
-#   Full:   ui-instantiate-prototypes.sh <base_path> <pages> <style_variants> <layout_variants> [options]
-
-# Use safer error handling
-set -o pipefail
-
-# ============================================================================
-# Helper Functions
-# ============================================================================
-
-log_info() {
-    echo "$1"
-}
-
-log_success() {
-    echo "✅ $1"
-}
-
-log_error() {
-    echo "❌ $1"
-}
-
-log_warning() {
-    echo "⚠️  $1"
-}
-
-# Auto-detect pages from templates directory
-auto_detect_pages() {
-    local templates_dir="$1/_templates"
-
-    if [ ! -d "$templates_dir" ]; then
-        log_error "Templates directory not found: $templates_dir"
-        return 1
-    fi
-
-    # Find unique page names from template files (e.g., login-layout-1.html -> login)
-    local pages=$(find "$templates_dir" -name "*-layout-*.html" -type f | \
-                  sed 's|.*/||' | \
-                  sed 's|-layout-[0-9]*\.html||' | \
-                  sort -u | \
-                  tr '\n' ',' | \
-                  sed 's/,$//')
-
-    echo "$pages"
-}
-
-# Auto-detect style variants count
-auto_detect_style_variants() {
-    local base_path="$1"
-    local style_dir="$base_path/../style-extraction"
-
-    if [ ! -d "$style_dir" ]; then
-        log_warning "Style consolidation directory not found: $style_dir"
-        echo "3"  # Default
-        return
-    fi
-
-    # Count style-* directories
-    local count=$(find "$style_dir" -maxdepth 1 -type d -name "style-*" | wc -l)
-
-    if [ "$count" -eq 0 ]; then
-        echo "3"  # Default
-    else
-        echo "$count"
-    fi
-}
-
-# Auto-detect layout variants count
-auto_detect_layout_variants() {
-    local templates_dir="$1/_templates"
-
-    if [ ! -d "$templates_dir" ]; then
-        echo "3"  # Default
-        return
-    fi
-
-    # Find the first page and count its layouts
-    local first_page=$(find "$templates_dir" -name "*-layout-1.html" -type f | head -1 | sed 's|.*/||' | sed 's|-layout-1\.html||')
-
-    if [ -z "$first_page" ]; then
-        echo "3"  # Default
-        return
-    fi
-
-    # Count layout files for this page
-    local count=$(find "$templates_dir" -name "${first_page}-layout-*.html" -type f | wc -l)
-
-    if [ "$count" -eq 0 ]; then
-        echo "3"  # Default
-    else
-        echo "$count"
-    fi
-}
-
-# ============================================================================
-# Parse Arguments
-# ============================================================================
-
-show_usage() {
-    cat <<'EOF'
-Usage:
-  Simple (auto-detect): ui-instantiate-prototypes.sh <prototypes_dir> [options]
-  Full:                 ui-instantiate-prototypes.sh <base_path> <pages> <style_variants> <layout_variants> [options]
-
-Simple Mode (Recommended):
-  prototypes_dir    Path to prototypes directory (auto-detects everything)
-
-Full Mode:
-  base_path         Base path to prototypes directory
-  pages             Comma-separated list of pages/components
-  style_variants    Number of style variants (1-5)
-  layout_variants   Number of layout variants (1-5)
-
-Options:
-  --run-id <id>         Run ID (default: auto-generated)
-  --session-id <id>     Session ID (default: standalone)
-  --mode <page|component>  Exploration mode (default: page)
-  --template <path>     Path to compare.html template (default: ~/.claude/workflows/_template-compare-matrix.html)
-  --no-preview          Skip preview file generation
-  --help                Show this help message
-
-Examples:
-  # Simple usage (auto-detect everything)
-  ui-instantiate-prototypes.sh .workflow/design-run-*/prototypes
-
-  # With options
-  ui-instantiate-prototypes.sh .workflow/design-run-*/prototypes --session-id WFS-auth
-
-  # Full manual mode
-  ui-instantiate-prototypes.sh .workflow/design-run-*/prototypes "login,dashboard" 3 3 --session-id WFS-auth
-EOF
-}
-
-# Default values
-BASE_PATH=""
-PAGES=""
-STYLE_VARIANTS=""
-LAYOUT_VARIANTS=""
-RUN_ID="run-$(date +%Y%m%d-%H%M%S)"
-SESSION_ID="standalone"
-MODE="page"
-TEMPLATE_PATH="$HOME/.claude/workflows/_template-compare-matrix.html"
-GENERATE_PREVIEW=true
-AUTO_DETECT=false
-
-# Parse arguments
-if [ $# -lt 1 ]; then
-    log_error "Missing required arguments"
-    show_usage
-    exit 1
-fi
-
-# Check if using simple mode (only 1 positional arg before options)
-if [ $# -eq 1 ] || [[ "$2" == --* ]]; then
-    # Simple mode - auto-detect
-    AUTO_DETECT=true
-    BASE_PATH="$1"
-    shift 1
-else
-    # Full mode - manual parameters
-    if [ $# -lt 4 ]; then
-        log_error "Full mode requires 4 positional arguments"
-        show_usage
-        exit 1
-    fi
-
-    BASE_PATH="$1"
-    PAGES="$2"
-    STYLE_VARIANTS="$3"
-    LAYOUT_VARIANTS="$4"
-    shift 4
-fi
-
-# Parse optional arguments
-while [[ $# -gt 0 ]]; do
-    case $1 in
-        --run-id)
-            RUN_ID="$2"
-            shift 2
-            ;;
-        --session-id)
-            SESSION_ID="$2"
-            shift 2
-            ;;
-        --mode)
-            MODE="$2"
-            shift 2
-            ;;
-        --template)
-            TEMPLATE_PATH="$2"
-            shift 2
-            ;;
-        --no-preview)
-            GENERATE_PREVIEW=false
-            shift
-            ;;
-        --help)
-            show_usage
-            exit 0
-            ;;
-        *)
-            log_error "Unknown option: $1"
-            show_usage
-            exit 1
-            ;;
-    esac
-done
-
-# ============================================================================
-# Auto-detection (if enabled)
-# ============================================================================
-
-if [ "$AUTO_DETECT" = true ]; then
-    log_info "🔍 Auto-detecting configuration from directory..."
-
-    # Detect pages
-    PAGES=$(auto_detect_pages "$BASE_PATH")
-    if [ -z "$PAGES" ]; then
-        log_error "Could not auto-detect pages from templates"
-        exit 1
-    fi
-    log_info "   Pages: $PAGES"
-
-    # Detect style variants
-    STYLE_VARIANTS=$(auto_detect_style_variants "$BASE_PATH")
-    log_info "   Style variants: $STYLE_VARIANTS"
-
-    # Detect layout variants
-    LAYOUT_VARIANTS=$(auto_detect_layout_variants "$BASE_PATH")
-    log_info "   Layout variants: $LAYOUT_VARIANTS"
-
-    echo ""
-fi
-
-# ============================================================================
-# Validation
-# ============================================================================
-
-# Validate base path
-if [ ! -d "$BASE_PATH" ]; then
-    log_error "Base path not found: $BASE_PATH"
-    exit 1
-fi
-
-# Validate style and layout variants
-if [ "$STYLE_VARIANTS" -lt 1 ] || [ "$STYLE_VARIANTS" -gt 5 ]; then
-    log_error "Style variants must be between 1 and 5 (got: $STYLE_VARIANTS)"
-    exit 1
-fi
-
-if [ "$LAYOUT_VARIANTS" -lt 1 ] || [ "$LAYOUT_VARIANTS" -gt 5 ]; then
-    log_error "Layout variants must be between 1 and 5 (got: $LAYOUT_VARIANTS)"
-    exit 1
-fi
-
-# Validate STYLE_VARIANTS against actual style directories
-if [ "$STYLE_VARIANTS" -gt 0 ]; then
-    style_dir="$BASE_PATH/../style-extraction"
-
-    if [ ! -d "$style_dir" ]; then
-        log_error "Style consolidation directory not found: $style_dir"
-        log_info "Run /workflow:ui-design:consolidate first"
-        exit 1
-    fi
-
-    actual_styles=$(find "$style_dir" -maxdepth 1 -type d -name "style-*" 2>/dev/null | wc -l)
-
-    if [ "$actual_styles" -eq 0 ]; then
-        log_error "No style directories found in: $style_dir"
-        log_info "Run /workflow:ui-design:consolidate first to generate style design systems"
-        exit 1
-    fi
-
-    if [ "$STYLE_VARIANTS" -gt "$actual_styles" ]; then
-        log_warning "Requested $STYLE_VARIANTS style variants, but only found $actual_styles directories"
-        log_info "Available style directories:"
-        find "$style_dir" -maxdepth 1 -type d -name "style-*" 2>/dev/null | sed 's|.*/||' | sort
-        log_info "Auto-correcting to $actual_styles style variants"
-        STYLE_VARIANTS=$actual_styles
-    fi
-fi
-
-# Parse pages into array
-IFS=',' read -ra PAGE_ARRAY <<< "$PAGES"
-
-if [ ${#PAGE_ARRAY[@]} -eq 0 ]; then
-    log_error "No pages found"
-    exit 1
-fi
-
-# ============================================================================
-# Header Output
-# ============================================================================
-
-echo "========================================="
-echo "UI Prototype Instantiation & Preview"
-if [ "$AUTO_DETECT" = true ]; then
-    echo "(Auto-detected configuration)"
-fi
-echo "========================================="
-echo "Base Path: $BASE_PATH"
-echo "Mode: $MODE"
-echo "Pages/Components: $PAGES"
-echo "Style Variants: $STYLE_VARIANTS"
-echo "Layout Variants: $LAYOUT_VARIANTS"
-echo "Run ID: $RUN_ID"
-echo "Session ID: $SESSION_ID"
-echo "========================================="
-echo ""
-
-# Change to base path
-cd "$BASE_PATH" || exit 1
-
-# ============================================================================
-# Phase 1: Instantiate Prototypes
-# ============================================================================
-
-log_info "🚀 Phase 1: Instantiating prototypes from templates..."
-echo ""
-
-total_generated=0
-total_failed=0
-
-for page in "${PAGE_ARRAY[@]}"; do
-    # Trim whitespace
-    page=$(echo "$page" | xargs)
-
-    log_info "Processing page/component: $page"
-
-    for s in $(seq 1 "$STYLE_VARIANTS"); do
-        for l in $(seq 1 "$LAYOUT_VARIANTS"); do
-            # Define file paths
-            TEMPLATE_HTML="_templates/${page}-layout-${l}.html"
-            STRUCTURAL_CSS="_templates/${page}-layout-${l}.css"
-            TOKEN_CSS="../style-extraction/style-${s}/tokens.css"
-            OUTPUT_HTML="${page}-style-${s}-layout-${l}.html"
-
-            # Copy template and replace placeholders
-            if [ -f "$TEMPLATE_HTML" ]; then
-                cp "$TEMPLATE_HTML" "$OUTPUT_HTML" || {
-                    log_error "Failed to copy template: $TEMPLATE_HTML"
-                    ((total_failed++))
-                    continue
-                }
-
-                # Replace CSS placeholders (Windows-compatible sed syntax)
-                sed -i "s|{{STRUCTURAL_CSS}}|${STRUCTURAL_CSS}|g" "$OUTPUT_HTML" || true
-                sed -i "s|{{TOKEN_CSS}}|${TOKEN_CSS}|g" "$OUTPUT_HTML" || true
-
-                log_success "Created: $OUTPUT_HTML"
-                ((total_generated++))
-
-                # Create implementation notes (simplified)
-                NOTES_FILE="${page}-style-${s}-layout-${l}-notes.md"
-
-                # Generate notes with simple heredoc
-                cat > "$NOTES_FILE" <<NOTESEOF
-# Implementation Notes: ${page}-style-${s}-layout-${l}
-
-## Generation Details
- **Template**: ${TEMPLATE_HTML}
- **Structural CSS**: ${STRUCTURAL_CSS}
- **Style Tokens**: ${TOKEN_CSS}
- **Layout Strategy**: Layout ${l}
- **Style Variant**: Style ${s}
- **Mode**: ${MODE}
-
-## Template Reuse
-This prototype was generated from a shared layout template to ensure consistency
-across all style variants. The HTML structure is identical for all ${page}-layout-${l}
-prototypes, with only the design tokens (colors, fonts, spacing) varying.
-
-## Design System Reference
-Refer to \`../style-extraction/style-${s}/style-guide.md\` for:
- Design philosophy
- Token usage guidelines
- Component patterns
- Accessibility requirements
-
-## Customization
-To modify this prototype:
-1. Edit the layout template: \`${TEMPLATE_HTML}\` (affects all styles)
-2. Edit the structural CSS: \`${STRUCTURAL_CSS}\` (affects all styles)
-3. Edit design tokens: \`${TOKEN_CSS}\` (affects only this style variant)
-
-## Run Information
- **Run ID**: ${RUN_ID}
- **Session ID**: ${SESSION_ID}
- **Generated**: $(date -u +%Y-%m-%dT%H:%M:%SZ 2>/dev/null || date -u +%Y-%m-%d)
-NOTESEOF
-
-            else
-                log_error "Template not found: $TEMPLATE_HTML"
-                ((total_failed++))
-            fi
-        done
-    done
-done
-
-echo ""
-log_success "Phase 1 complete: Generated ${total_generated} prototypes"
-if [ $total_failed -gt 0 ]; then
-    log_warning "Failed: ${total_failed} prototypes"
-fi
-echo ""
-
-# ============================================================================
-# Phase 2: Generate Preview Files (if enabled)
-# ============================================================================
-
-if [ "$GENERATE_PREVIEW" = false ]; then
-    log_info "⏭️  Skipping preview generation (--no-preview flag)"
-    exit 0
-fi
-
-log_info "🎨 Phase 2: Generating preview files..."
-echo ""
-
-# ============================================================================
-# 2a. Generate compare.html from template
-# ============================================================================
-
-if [ ! -f "$TEMPLATE_PATH" ]; then
-    log_warning "Template not found: $TEMPLATE_PATH"
-    log_info "   Skipping compare.html generation"
-else
-    log_info "📄 Generating compare.html from template..."
-
-    # Convert page array to JSON format
-    PAGES_JSON="["
-    for i in "${!PAGE_ARRAY[@]}"; do
-        page=$(echo "${PAGE_ARRAY[$i]}" | xargs)
-        PAGES_JSON+="\"$page\""
-        if [ $i -lt $((${#PAGE_ARRAY[@]} - 1)) ]; then
-            PAGES_JSON+=", "
-        fi
-    done
-    PAGES_JSON+="]"
-
-    TIMESTAMP=$(date -u +%Y-%m-%dT%H:%M:%SZ 2>/dev/null || date -u +%Y-%m-%d)
-
-    # Read template and replace placeholders
-    cat "$TEMPLATE_PATH" | \
-        sed "s|{{run_id}}|${RUN_ID}|g" | \
-        sed "s|{{session_id}}|${SESSION_ID}|g" | \
-        sed "s|{{timestamp}}|${TIMESTAMP}|g" | \
-        sed "s|{{style_variants}}|${STYLE_VARIANTS}|g" | \
-        sed "s|{{layout_variants}}|${LAYOUT_VARIANTS}|g" | \
-        sed "s|{{pages_json}}|${PAGES_JSON}|g" \
-        > compare.html
-
-    log_success "Generated: compare.html"
-fi
-
-# ============================================================================
-# 2b. Generate index.html
-# ============================================================================
-
-log_info "📄 Generating index.html..."
-
-# Calculate total prototypes
-TOTAL_PROTOTYPES=$((STYLE_VARIANTS * LAYOUT_VARIANTS * ${#PAGE_ARRAY[@]}))
-
-# Generate index.html with simple heredoc
-cat > index.html <<'INDEXEOF'
-<!DOCTYPE html>
-<html lang="en">
-<head>
-  <meta charset="UTF-8">
-  <meta name="viewport" content="width=device-width, initial-scale=1.0">
-  <title>UI Prototypes - __MODE__ Mode - __RUN_ID__</title>
-  <style>
-    body {
-      font-family: system-ui, -apple-system, sans-serif;
-      max-width: 900px;
-      margin: 2rem auto;
-      padding: 0 2rem;
-      background: #f9fafb;
-    }
-    .header {
-      background: white;
-      padding: 2rem;
-      border-radius: 0.75rem;
-      box-shadow: 0 1px 3px rgba(0,0,0,0.1);
-      margin-bottom: 2rem;
-    }
-    h1 {
-      color: #2563eb;
-      margin-bottom: 0.5rem;
-      font-size: 2rem;
-    }
-    .meta {
-      color: #6b7280;
-      font-size: 0.875rem;
-      margin-top: 0.5rem;
-    }
-    .info {
-      background: #f3f4f6;
-      padding: 1.5rem;
-      border-radius: 0.5rem;
-      margin: 1.5rem 0;
-      border-left: 4px solid #2563eb;
-    }
-    .cta {
-      display: inline-block;
-      background: #2563eb;
-      color: white;
-      padding: 1rem 2rem;
-      border-radius: 0.5rem;
-      text-decoration: none;
-      font-weight: 600;
-      margin: 1rem 0;
-      transition: background 0.2s;
-    }
-    .cta:hover {
-      background: #1d4ed8;
-    }
-    .stats {
-      display: grid;
-      grid-template-columns: repeat(auto-fit, minmax(150px, 1fr));
-      gap: 1rem;
-      margin: 1.5rem 0;
-    }
-    .stat {
-      background: white;
-      border: 1px solid #e5e7eb;
-      padding: 1.5rem;
-      border-radius: 0.5rem;
-      text-align: center;
-      box-shadow: 0 1px 2px rgba(0,0,0,0.05);
-    }
-    .stat-value {
-      font-size: 2.5rem;
-      font-weight: bold;
-      color: #2563eb;
-      margin-bottom: 0.25rem;
-    }
-    .stat-label {
-      color: #6b7280;
-      font-size: 0.875rem;
-    }
-    .section {
-      background: white;
-      padding: 2rem;
-      border-radius: 0.75rem;
-      margin-bottom: 2rem;
-      box-shadow: 0 1px 3px rgba(0,0,0,0.1);
-    }
-    h2 {
-      color: #1f2937;
-      margin-bottom: 1rem;
-      font-size: 1.5rem;
-    }
-    ul {
-      line-height: 1.8;
-      color: #374151;
-    }
-    .pages-list {
-      list-style: none;
-      padding: 0;
-    }
-    .pages-list li {
-      background: #f9fafb;
-      padding: 0.75rem 1rem;
-      margin: 0.5rem 0;
-      border-radius: 0.375rem;
-      border-left: 3px solid #2563eb;
-    }
-    .badge {
-      display: inline-block;
-      background: #dbeafe;
-      color: #1e40af;
-      padding: 0.25rem 0.75rem;
-      border-radius: 0.25rem;
-      font-size: 0.75rem;
-      font-weight: 600;
-      margin-left: 0.5rem;
-    }
-  </style>
-</head>
-<body>
-  <div class="header">
-    <h1>🎨 UI Prototype __MODE__ Mode</h1>
-    <div class="meta">
-      <strong>Run ID:</strong> __RUN_ID__ |
-      <strong>Session:</strong> __SESSION_ID__ |
-      <strong>Generated:</strong> __TIMESTAMP__
-    </div>
-  </div>
-
-  <div class="info">
-    <p><strong>Matrix Configuration:</strong> __STYLE_VARIANTS__ styles × __LAYOUT_VARIANTS__ layouts × __PAGE_COUNT__ __MODE__s</p>
-    <p><strong>Total Prototypes:</strong> __TOTAL_PROTOTYPES__ interactive HTML files</p>
-  </div>
-
-  <a href="compare.html" class="cta">🔍 Open Interactive Matrix Comparison →</a>
-
-  <div class="stats">
-    <div class="stat">
-      <div class="stat-value">__STYLE_VARIANTS__</div>
-      <div class="stat-label">Style Variants</div>
-    </div>
-    <div class="stat">
-      <div class="stat-value">__LAYOUT_VARIANTS__</div>
-      <div class="stat-label">Layout Options</div>
-    </div>
-    <div class="stat">
-      <div class="stat-value">__PAGE_COUNT__</div>
-      <div class="stat-label">__MODE__s</div>
-    </div>
-    <div class="stat">
-      <div class="stat-value">__TOTAL_PROTOTYPES__</div>
-      <div class="stat-label">Total Prototypes</div>
-    </div>
-  </div>
-
-  <div class="section">
-    <h2>🌟 Features</h2>
-    <ul>
-      <li><strong>Interactive Matrix View:</strong> __STYLE_VARIANTS__×__LAYOUT_VARIANTS__ grid with synchronized scrolling</li>
-      <li><strong>Flexible Zoom:</strong> 25%, 50%, 75%, 100% viewport scaling</li>
-      <li><strong>Fullscreen Mode:</strong> Detailed view for individual prototypes</li>
-      <li><strong>Selection System:</strong> Mark favorites with export to JSON</li>
-      <li><strong>__MODE__ Switcher:</strong> Compare different __MODE__s side-by-side</li>
-      <li><strong>Persistent State:</strong> Selections saved in localStorage</li>
-    </ul>
-  </div>
-
-  <div class="section">
-    <h2>📄 Generated __MODE__s</h2>
-    <ul class="pages-list">
-__PAGES_LIST__
-    </ul>
-  </div>
-
-  <div class="section">
-    <h2>📚 Next Steps</h2>
-    <ol>
-      <li>Open <code>compare.html</code> to explore all variants in matrix view</li>
-      <li>Use zoom and sync scroll controls to compare details</li>
-      <li>Select your preferred style×layout combinations</li>
-      <li>Export selections as JSON for implementation planning</li>
-      <li>Review implementation notes in <code>*-notes.md</code> files</li>
-    </ol>
-  </div>
-</body>
-</html>
-INDEXEOF
-
-# Build pages list HTML
-PAGES_LIST_HTML=""
-for page in "${PAGE_ARRAY[@]}"; do
-    page=$(echo "$page" | xargs)
-    VARIANT_COUNT=$((STYLE_VARIANTS * LAYOUT_VARIANTS))
-    PAGES_LIST_HTML+="      <li>\n"
-    PAGES_LIST_HTML+="        <strong>${page}</strong>\n"
-    PAGES_LIST_HTML+="        <span class=\"badge\">${STYLE_VARIANTS}×${LAYOUT_VARIANTS} = ${VARIANT_COUNT} variants</span>\n"
-    PAGES_LIST_HTML+="      </li>\n"
-done
-
-# Replace all placeholders in index.html
-MODE_UPPER=$(echo "$MODE" | awk '{print toupper(substr($0,1,1)) tolower(substr($0,2))}')
-sed -i "s|__RUN_ID__|${RUN_ID}|g" index.html
-sed -i "s|__SESSION_ID__|${SESSION_ID}|g" index.html
-sed -i "s|__TIMESTAMP__|${TIMESTAMP}|g" index.html
-sed -i "s|__MODE__|${MODE_UPPER}|g" index.html
-sed -i "s|__STYLE_VARIANTS__|${STYLE_VARIANTS}|g" index.html
-sed -i "s|__LAYOUT_VARIANTS__|${LAYOUT_VARIANTS}|g" index.html
-sed -i "s|__PAGE_COUNT__|${#PAGE_ARRAY[@]}|g" index.html
-sed -i "s|__TOTAL_PROTOTYPES__|${TOTAL_PROTOTYPES}|g" index.html
-sed -i "s|__PAGES_LIST__|${PAGES_LIST_HTML}|g" index.html
-
-log_success "Generated: index.html"
-
-# ============================================================================
-# 2c. Generate PREVIEW.md
-# ============================================================================
-
-log_info "📄 Generating PREVIEW.md..."
-
-cat > PREVIEW.md <<PREVIEWEOF
-# UI Prototype Preview Guide
-
-## Quick Start
-1. Open \`index.html\` for overview and navigation
-2. Open \`compare.html\` for interactive matrix comparison
-3. Use browser developer tools to inspect responsive behavior
-
-## Configuration
-
- **Exploration Mode:** ${MODE_UPPER}
- **Run ID:** ${RUN_ID}
- **Session ID:** ${SESSION_ID}
- **Style Variants:** ${STYLE_VARIANTS}
- **Layout Options:** ${LAYOUT_VARIANTS}
- **${MODE_UPPER}s:** ${PAGES}
- **Total Prototypes:** ${TOTAL_PROTOTYPES}
- **Generated:** ${TIMESTAMP}
-
-## File Naming Convention
-
-\`\`\`
-{${MODE}}-style-{s}-layout-{l}.html
-\`\`\`
-
-**Example:** \`dashboard-style-1-layout-2.html\`
- ${MODE_UPPER}: dashboard
- Style: Design system 1
- Layout: Layout variant 2
-
-## Interactive Features (compare.html)
-
-### Matrix View
- **Grid Layout:** ${STYLE_VARIANTS}×${LAYOUT_VARIANTS} table with all prototypes visible
- **Synchronized Scroll:** All iframes scroll together (toggle with button)
- **Zoom Controls:** Adjust viewport scale (25%, 50%, 75%, 100%)
- **${MODE_UPPER} Selector:** Switch between different ${MODE}s instantly
-
-### Prototype Actions
- **⭐ Selection:** Click star icon to mark favorites
- **⛶ Fullscreen:** View prototype in fullscreen overlay
- **↗ New Tab:** Open prototype in dedicated browser tab
-
-### Selection Export
-1. Select preferred prototypes using star icons
-2. Click "Export Selection" button
-3. Downloads JSON file: \`selection-${RUN_ID}.json\`
-4. Use exported file for implementation planning
-
-## Design System References
-
-Each prototype references a specific style design system:
-PREVIEWEOF
-
-# Add style references
-for s in $(seq 1 "$STYLE_VARIANTS"); do
-    cat >> PREVIEW.md <<STYLEEOF
-
-### Style ${s}
- **Tokens:** \`../style-extraction/style-${s}/design-tokens.json\`
- **CSS Variables:** \`../style-extraction/style-${s}/tokens.css\`
- **Style Guide:** \`../style-extraction/style-${s}/style-guide.md\`
-STYLEEOF
-done
-
-cat >> PREVIEW.md <<'FOOTEREOF'
-
-## Responsive Testing
-
-All prototypes are mobile-first responsive. Test at these breakpoints:
-
- **Mobile:** 375px - 767px
- **Tablet:** 768px - 1023px
- **Desktop:** 1024px+
-
-Use browser DevTools responsive mode for testing.
-
-## Accessibility Features
-
- Semantic HTML5 structure
- ARIA attributes for screen readers
- Keyboard navigation support
- Proper heading hierarchy
- Focus indicators
-
-## Next Steps
-
-1. **Review:** Open `compare.html` and explore all variants
-2. **Select:** Mark preferred prototypes using star icons
-3. **Export:** Download selection JSON for implementation
-4. **Implement:** Use `/workflow:ui-design:update` to integrate selected designs
-5. **Plan:** Run `/workflow:plan` to generate implementation tasks
-
---
-
-**Generated by:** `ui-instantiate-prototypes.sh`
-**Version:** 3.0 (auto-detect mode)
-FOOTEREOF
-
-log_success "Generated: PREVIEW.md"
-
-# ============================================================================
-# Completion Summary
-# ============================================================================
-
-echo ""
-echo "========================================="
-echo "✅ Generation Complete!"
-echo "========================================="
-echo ""
-echo "📊 Summary:"
-echo "   Prototypes: ${total_generated} generated"
-if [ $total_failed -gt 0 ]; then
-    echo "   Failed: ${total_failed}"
-fi
-echo "   Preview Files: compare.html, index.html, PREVIEW.md"
-echo "   Matrix: ${STYLE_VARIANTS}×${LAYOUT_VARIANTS} (${#PAGE_ARRAY[@]} ${MODE}s)"
-echo "   Total Files: ${TOTAL_PROTOTYPES} prototypes + preview files"
-echo ""
-echo "🌐 Next Steps:"
-echo "   1. Open: ${BASE_PATH}/index.html"
-echo "   2. Explore: ${BASE_PATH}/compare.html"
-echo "   3. Review: ${BASE_PATH}/PREVIEW.md"
-echo ""
-echo "Performance: Template-based approach with ${STYLE_VARIANTS}× speedup"
-echo "========================================="
--- a/.claude/scripts/update_module_claude.sh
+++ b/.claude/scripts/update_module_claude.sh
@@ -1,337 +0,0 @@
-#!/bin/bash
-# ⚠️ DEPRECATED: This script is deprecated.
-# Please use: ccw tool exec update_module_claude '{"strategy":"single-layer","path":".","tool":"gemini"}'
-# This file will be removed in a future version.
-
-# Update CLAUDE.md for modules with two strategies
-# Usage: update_module_claude.sh <strategy> <module_path> [tool] [model]
-#   strategy: single-layer|multi-layer
-#   module_path: Path to the module directory
-#   tool: gemini|qwen|codex (default: gemini)
-#   model: Model name (optional, uses tool defaults)
-#
-# Default Models:
-#   gemini: gemini-2.5-flash
-#   qwen: coder-model
-#   codex: gpt5-codex
-#
-# Strategies:
-#   single-layer: Upward aggregation
-#     - Read: Current directory code + child CLAUDE.md files
-#     - Generate: Single ./CLAUDE.md in current directory
-#     - Use: Large projects, incremental bottom-up updates
-#
-#   multi-layer: Downward distribution
-#     - Read: All files in current and subdirectories
-#     - Generate: CLAUDE.md for each directory containing files
-#     - Use: Small projects, full documentation generation
-#
-# Features:
-#   - Minimal prompts based on unified template
-#   - Respects .gitignore patterns
-#   - Path-focused processing (script only cares about paths)
-#   - Template-driven generation
-
-# Build exclusion filters from .gitignore
-build_exclusion_filters() {
-    local filters=""
-
-    # Common system/cache directories to exclude
-    local system_excludes=(
-        ".git" "__pycache__" "node_modules" ".venv" "venv" "env"
-        "dist" "build" ".cache" ".pytest_cache" ".mypy_cache"
-        "coverage" ".nyc_output" "logs" "tmp" "temp"
-    )
-
-    for exclude in "${system_excludes[@]}"; do
-        filters+=" -not -path '*/$exclude' -not -path '*/$exclude/*'"
-    done
-
-    # Find and parse .gitignore (current dir first, then git root)
-    local gitignore_file=""
-
-    # Check current directory first
-    if [ -f ".gitignore" ]; then
-        gitignore_file=".gitignore"
-    else
-        # Try to find git root and check for .gitignore there
-        local git_root=$(git rev-parse --show-toplevel 2>/dev/null)
-        if [ -n "$git_root" ] && [ -f "$git_root/.gitignore" ]; then
-            gitignore_file="$git_root/.gitignore"
-        fi
-    fi
-
-    # Parse .gitignore if found
-    if [ -n "$gitignore_file" ]; then
-        while IFS= read -r line; do
-            # Skip empty lines and comments
-            [[ -z "$line" || "$line" =~ ^[[:space:]]*# ]] && continue
-
-            # Remove trailing slash and whitespace
-            line=$(echo "$line" | sed 's|/$||' | xargs)
-
-            # Skip wildcards patterns (too complex for simple find)
-            [[ "$line" =~ \* ]] && continue
-
-            # Add to filters
-            filters+=" -not -path '*/$line' -not -path '*/$line/*'"
-        done < "$gitignore_file"
-    fi
-
-    echo "$filters"
-}
-
-# Scan directory structure and generate structured information
-scan_directory_structure() {
-    local target_path="$1"
-    local strategy="$2"
-
-    if [ ! -d "$target_path" ]; then
-        echo "Directory not found: $target_path"
-        return 1
-    fi
-
-    local exclusion_filters=$(build_exclusion_filters)
-    local structure_info=""
-
-    # Get basic directory info
-    local dir_name=$(basename "$target_path")
-    local total_files=$(eval "find \"$target_path\" -type f $exclusion_filters 2>/dev/null" | wc -l)
-    local total_dirs=$(eval "find \"$target_path\" -type d $exclusion_filters 2>/dev/null" | wc -l)
-
-    structure_info+="Directory: $dir_name\n"
-    structure_info+="Total files: $total_files\n"
-    structure_info+="Total directories: $total_dirs\n\n"
-
-    if [ "$strategy" = "multi-layer" ]; then
-        # For multi-layer: show all subdirectories with file counts
-        structure_info+="Subdirectories with files:\n"
-        while IFS= read -r dir; do
-            if [ -n "$dir" ] && [ "$dir" != "$target_path" ]; then
-                local rel_path=${dir#$target_path/}
-                local file_count=$(eval "find \"$dir\" -maxdepth 1 -type f $exclusion_filters 2>/dev/null" | wc -l)
-                if [ $file_count -gt 0 ]; then
-                    structure_info+="  - $rel_path/ ($file_count files)\n"
-                fi
-            fi
-        done < <(eval "find \"$target_path\" -type d $exclusion_filters 2>/dev/null")
-    else
-        # For single-layer: show direct children only
-        structure_info+="Direct subdirectories:\n"
-        while IFS= read -r dir; do
-            if [ -n "$dir" ]; then
-                local dir_name=$(basename "$dir")
-                local file_count=$(eval "find \"$dir\" -maxdepth 1 -type f $exclusion_filters 2>/dev/null" | wc -l)
-                local has_claude=$([ -f "$dir/CLAUDE.md" ] && echo " [has CLAUDE.md]" || echo "")
-                structure_info+="  - $dir_name/ ($file_count files)$has_claude\n"
-            fi
-        done < <(eval "find \"$target_path\" -maxdepth 1 -type d $exclusion_filters 2>/dev/null" | grep -v "^$target_path$")
-    fi
-
-    # Show main file types in current directory
-    structure_info+="\nCurrent directory files:\n"
-    local code_files=$(eval "find \"$target_path\" -maxdepth 1 -type f \\( -name '*.ts' -o -name '*.tsx' -o -name '*.js' -o -name '*.jsx' -o -name '*.py' -o -name '*.sh' \\) $exclusion_filters 2>/dev/null" | wc -l)
-    local config_files=$(eval "find \"$target_path\" -maxdepth 1 -type f \\( -name '*.json' -o -name '*.yaml' -o -name '*.yml' -o -name '*.toml' \\) $exclusion_filters 2>/dev/null" | wc -l)
-    local doc_files=$(eval "find \"$target_path\" -maxdepth 1 -type f -name '*.md' $exclusion_filters 2>/dev/null" | wc -l)
-
-    structure_info+="  - Code files: $code_files\n"
-    structure_info+="  - Config files: $config_files\n"
-    structure_info+="  - Documentation: $doc_files\n"
-
-    printf "%b" "$structure_info"
-}
-
-update_module_claude() {
-    local strategy="$1"
-    local module_path="$2"
-    local tool="${3:-gemini}"
-    local model="$4"
-
-    # Validate parameters
-    if [ -z "$strategy" ] || [ -z "$module_path" ]; then
-        echo "❌ Error: Strategy and module path are required"
-        echo "Usage: update_module_claude.sh <strategy> <module_path> [tool] [model]"
-        echo "Strategies: single-layer|multi-layer"
-        return 1
-    fi
-
-    # Validate strategy
-    if [ "$strategy" != "single-layer" ] && [ "$strategy" != "multi-layer" ]; then
-        echo "❌ Error: Invalid strategy '$strategy'"
-        echo "Valid strategies: single-layer, multi-layer"
-        return 1
-    fi
-
-    if [ ! -d "$module_path" ]; then
-        echo "❌ Error: Directory '$module_path' does not exist"
-        return 1
-    fi
-
-    # Set default models if not specified
-    if [ -z "$model" ]; then
-        case "$tool" in
-            gemini)
-                model="gemini-2.5-flash"
-                ;;
-            qwen)
-                model="coder-model"
-                ;;
-            codex)
-                model="gpt5-codex"
-                ;;
-            *)
-                model=""
-                ;;
-        esac
-    fi
-
-    # Build exclusion filters from .gitignore
-    local exclusion_filters=$(build_exclusion_filters)
-
-    # Check if directory has files (excluding gitignored paths)
-    local file_count=$(eval "find \"$module_path\" -maxdepth 1 -type f $exclusion_filters 2>/dev/null" | wc -l)
-    if [ $file_count -eq 0 ]; then
-        echo "⚠️  Skipping '$module_path' - no files found (after .gitignore filtering)"
-        return 0
-    fi
-
-    # Use unified template for all modules
-    local template_path="$HOME/.claude/workflows/cli-templates/prompts/memory/02-document-module-structure.txt"
-
-    # Read template content directly
-    local template_content=""
-    if [ -f "$template_path" ]; then
-        template_content=$(cat "$template_path")
-        echo "   📋 Loaded template: $(wc -l < "$template_path") lines"
-    else
-        echo "   ⚠️  Template not found: $template_path"
-        echo "   Using fallback template..."
-        template_content="Create comprehensive CLAUDE.md documentation following standard structure with Purpose, Structure, Components, Dependencies, Integration, and Implementation sections."
-    fi
-
-    # Scan directory structure first
-    echo "   🔍 Scanning directory structure..."
-    local structure_info=$(scan_directory_structure "$module_path" "$strategy")
-
-    # Prepare logging info
-    local module_name=$(basename "$module_path")
-
-    echo "⚡ Updating: $module_path"
-    echo "   Strategy: $strategy | Tool: $tool | Model: $model | Files: $file_count"
-    echo "   Template: $(basename "$template_path") ($(echo "$template_content" | wc -l) lines)"
-    echo "   Structure: Scanned $(echo "$structure_info" | wc -l) lines of structure info"
-
-    # Build minimal strategy-specific prompt with explicit paths and structure info
-    local final_prompt=""
-
-    if [ "$strategy" = "multi-layer" ]; then
-        # multi-layer strategy: read all, generate for each directory
-        final_prompt="Directory Structure Analysis:
-$structure_info
-
-Read: @**/*
-
-Generate CLAUDE.md files:
- Primary: ./CLAUDE.md (current directory)
- Additional: CLAUDE.md in each subdirectory containing files
-
-Template Guidelines:
-$template_content
-
-Instructions:
- Work bottom-up: deepest directories first
- Parent directories reference children
- Each CLAUDE.md file must be in its respective directory
- Follow the template guidelines above for consistent structure
- Use the structure analysis to understand directory hierarchy"
-    else
-        # single-layer strategy: read current + child CLAUDE.md, generate current only
-        final_prompt="Directory Structure Analysis:
-$structure_info
-
-Read: @*/CLAUDE.md @*.ts @*.tsx @*.js @*.jsx @*.py @*.sh @*.md @*.json @*.yaml @*.yml
-
-Generate single file: ./CLAUDE.md
-
-Template Guidelines:
-$template_content
-
-Instructions:
- Create exactly one CLAUDE.md file in the current directory
- Reference child CLAUDE.md files, do not duplicate their content
- Follow the template guidelines above for consistent structure
- Use the structure analysis to understand the current directory context"
-    fi
-
-    # Execute update
-    local start_time=$(date +%s)
-    echo "   🔄 Starting update..."
-
-    if cd "$module_path" 2>/dev/null; then
-        local tool_result=0
-
-        # Execute with selected tool
-        # NOTE: Model parameter (-m) is placed AFTER the prompt
-        case "$tool" in
-            qwen)
-                if [ "$model" = "coder-model" ]; then
-                    # coder-model is default, -m is optional
-                    qwen -p "$final_prompt" --yolo 2>&1
-                else
-                    qwen -p "$final_prompt" -m "$model" --yolo 2>&1
-                fi
-                tool_result=$?
-                ;;
-            codex)
-                codex --full-auto exec "$final_prompt" -m "$model" --skip-git-repo-check -s danger-full-access 2>&1
-                tool_result=$?
-                ;;
-            gemini)
-                gemini -p "$final_prompt" -m "$model" --yolo 2>&1
-                tool_result=$?
-                ;;
-            *)
-                echo "   ⚠️  Unknown tool: $tool, defaulting to gemini"
-                gemini -p "$final_prompt" -m "$model" --yolo 2>&1
-                tool_result=$?
-                ;;
-        esac
-
-        if [ $tool_result -eq 0 ]; then
-            local end_time=$(date +%s)
-            local duration=$((end_time - start_time))
-            echo "   ✅ Completed in ${duration}s"
-            cd - > /dev/null
-            return 0
-        else
-            echo "   ❌ Update failed for $module_path"
-            cd - > /dev/null
-            return 1
-        fi
-    else
-        echo "   ❌ Cannot access directory: $module_path"
-        return 1
-    fi
-}
-
-# Execute function if script is run directly
-if [[ "${BASH_SOURCE[0]}" == "${0}" ]]; then
-    # Show help if no arguments or help requested
-    if [ $# -eq 0 ] || [ "$1" = "-h" ] || [ "$1" = "--help" ]; then
-        echo "Usage: update_module_claude.sh <strategy> <module_path> [tool] [model]"
-        echo ""
-        echo "Strategies:"
-        echo "  single-layer    - Read current dir code + child CLAUDE.md, generate ./CLAUDE.md"
-        echo "  multi-layer     - Read all files, generate CLAUDE.md for each directory"
-        echo ""
-        echo "Tools: gemini (default), qwen, codex"
-        echo "Models: Use tool defaults if not specified"
-        echo ""
-        echo "Examples:"
-        echo "  ./update_module_claude.sh single-layer ./src/auth"
-        echo "  ./update_module_claude.sh multi-layer ./components gemini gemini-2.5-flash"
-        exit 0
-    fi
-
-    update_module_claude "$@"
-fi
--- a/.claude/skills/_shared/mermaid-utils.md
+++ b/.claude/skills/_shared/mermaid-utils.md
@@ -0,0 +1,584 @@
+# Mermaid Utilities Library
+
+Shared utilities for generating and validating Mermaid diagrams across all analysis skills.
+
+## Sanitization Functions
+
+### sanitizeId
+
+Convert any text to a valid Mermaid node ID.
+
+```javascript
+/**
+ * Sanitize text to valid Mermaid node ID
+ * - Only alphanumeric and underscore allowed
+ * - Cannot start with number
+ * - Truncates to 50 chars max
+ * 
+ * @param {string} text - Input text
+ * @returns {string} - Valid Mermaid ID
+ */
+function sanitizeId(text) {
+  if (!text) return '_empty';
+  return text
+    .replace(/[^a-zA-Z0-9_\u4e00-\u9fa5]/g, '_')  // Allow Chinese chars
+    .replace(/^[0-9]/, '_$&')                      // Prefix number with _
+    .replace(/_+/g, '_')                           // Collapse multiple _
+    .substring(0, 50);                             // Limit length
+}
+
+// Examples:
+// sanitizeId("User-Service") → "User_Service"
+// sanitizeId("3rdParty") → "_3rdParty"
+// sanitizeId("用户服务") → "用户服务"
+```
+
+### escapeLabel
+
+Escape special characters for Mermaid labels.
+
+```javascript
+/**
+ * Escape special characters in Mermaid labels
+ * Uses HTML entity encoding for problematic chars
+ * 
+ * @param {string} text - Label text
+ * @returns {string} - Escaped label
+ */
+function escapeLabel(text) {
+  if (!text) return '';
+  return text
+    .replace(/"/g, "'")                            // Avoid quote issues
+    .replace(/\(/g, '#40;')                        // (
+    .replace(/\)/g, '#41;')                        // )
+    .replace(/\{/g, '#123;')                       // {
+    .replace(/\}/g, '#125;')                       // }
+    .replace(/\[/g, '#91;')                        // [
+    .replace(/\]/g, '#93;')                        // ]
+    .replace(/</g, '#60;')                         // <
+    .replace(/>/g, '#62;')                         // >
+    .replace(/\|/g, '#124;')                       // |
+    .substring(0, 80);                             // Limit length
+}
+
+// Examples:
+// escapeLabel("Process(data)") → "Process#40;data#41;"
+// escapeLabel("Check {valid?}") → "Check #123;valid?#125;"
+```
+
+### sanitizeType
+
+Sanitize type names for class diagrams.
+
+```javascript
+/**
+ * Sanitize type names for Mermaid classDiagram
+ * Removes generics syntax that causes issues
+ * 
+ * @param {string} type - Type name
+ * @returns {string} - Sanitized type
+ */
+function sanitizeType(type) {
+  if (!type) return 'any';
+  return type
+    .replace(/<[^>]*>/g, '')           // Remove generics <T>
+    .replace(/\|/g, ' or ')            // Union types
+    .replace(/&/g, ' and ')            // Intersection types
+    .replace(/\[\]/g, 'Array')         // Array notation
+    .substring(0, 30);
+}
+
+// Examples:
+// sanitizeType("Array<string>") → "Array"
+// sanitizeType("string | number") → "string or number"
+```
+
+## Diagram Generation Functions
+
+### generateFlowchartNode
+
+Generate a flowchart node with proper shape.
+
+```javascript
+/**
+ * Generate flowchart node with shape
+ * 
+ * @param {string} id - Node ID
+ * @param {string} label - Display label
+ * @param {string} type - Node type: start|end|process|decision|io|subroutine
+ * @returns {string} - Mermaid node definition
+ */
+function generateFlowchartNode(id, label, type = 'process') {
+  const safeId = sanitizeId(id);
+  const safeLabel = escapeLabel(label);
+  
+  const shapes = {
+    start: `${safeId}(["${safeLabel}"])`,           // Stadium shape
+    end: `${safeId}(["${safeLabel}"])`,             // Stadium shape
+    process: `${safeId}["${safeLabel}"]`,           // Rectangle
+    decision: `${safeId}{"${safeLabel}"}`,          // Diamond
+    io: `${safeId}[/"${safeLabel}"/]`,              // Parallelogram
+    subroutine: `${safeId}[["${safeLabel}"]]`,      // Subroutine
+    database: `${safeId}[("${safeLabel}")]`,        // Cylinder
+    manual: `${safeId}[/"${safeLabel}"\\]`          // Trapezoid
+  };
+  
+  return shapes[type] || shapes.process;
+}
+```
+
+### generateFlowchartEdge
+
+Generate a flowchart edge with optional label.
+
+```javascript
+/**
+ * Generate flowchart edge
+ * 
+ * @param {string} from - Source node ID
+ * @param {string} to - Target node ID
+ * @param {string} label - Edge label (optional)
+ * @param {string} style - Edge style: solid|dashed|thick
+ * @returns {string} - Mermaid edge definition
+ */
+function generateFlowchartEdge(from, to, label = '', style = 'solid') {
+  const safeFrom = sanitizeId(from);
+  const safeTo = sanitizeId(to);
+  const safeLabel = label ? `|"${escapeLabel(label)}"|` : '';
+  
+  const arrows = {
+    solid: '-->',
+    dashed: '-.->',
+    thick: '==>'
+  };
+  
+  const arrow = arrows[style] || arrows.solid;
+  return `    ${safeFrom} ${arrow}${safeLabel} ${safeTo}`;
+}
+```
+
+### generateAlgorithmFlowchart (Enhanced)
+
+Generate algorithm flowchart with branch/loop support.
+
+```javascript
+/**
+ * Generate algorithm flowchart with decision support
+ * 
+ * @param {Object} algorithm - Algorithm definition
+ *   - name: Algorithm name
+ *   - inputs: [{name, type}]
+ *   - outputs: [{name, type}]
+ *   - steps: [{id, description, type, next: [id], conditions: [text]}]
+ * @returns {string} - Complete Mermaid flowchart
+ */
+function generateAlgorithmFlowchart(algorithm) {
+  let mermaid = 'flowchart TD\n';
+  
+  // Start node
+  mermaid += `    START(["开始: ${escapeLabel(algorithm.name)}"])\n`;
+  
+  // Input node (if has inputs)
+  if (algorithm.inputs?.length > 0) {
+    const inputList = algorithm.inputs.map(i => `${i.name}: ${i.type}`).join(', ');
+    mermaid += `    INPUT[/"输入: ${escapeLabel(inputList)}"/]\n`;
+    mermaid += `    START --> INPUT\n`;
+  }
+  
+  // Process nodes
+  const steps = algorithm.steps || [];
+  for (const step of steps) {
+    const nodeId = sanitizeId(step.id || `STEP_${step.step_num}`);
+    
+    if (step.type === 'decision') {
+      mermaid += `    ${nodeId}{"${escapeLabel(step.description)}"}\n`;
+    } else if (step.type === 'io') {
+      mermaid += `    ${nodeId}[/"${escapeLabel(step.description)}"/]\n`;
+    } else if (step.type === 'loop_start') {
+      mermaid += `    ${nodeId}[["循环: ${escapeLabel(step.description)}"]]\n`;
+    } else {
+      mermaid += `    ${nodeId}["${escapeLabel(step.description)}"]\n`;
+    }
+  }
+  
+  // Output node
+  const outputDesc = algorithm.outputs?.map(o => o.name).join(', ') || '结果';
+  mermaid += `    OUTPUT[/"输出: ${escapeLabel(outputDesc)}"/]\n`;
+  mermaid += `    END_(["结束"])\n`;
+  
+  // Connect first step to input/start
+  if (steps.length > 0) {
+    const firstStep = sanitizeId(steps[0].id || 'STEP_1');
+    if (algorithm.inputs?.length > 0) {
+      mermaid += `    INPUT --> ${firstStep}\n`;
+    } else {
+      mermaid += `    START --> ${firstStep}\n`;
+    }
+  }
+  
+  // Connect steps based on next array
+  for (const step of steps) {
+    const nodeId = sanitizeId(step.id || `STEP_${step.step_num}`);
+    
+    if (step.next && step.next.length > 0) {
+      step.next.forEach((nextId, index) => {
+        const safeNextId = sanitizeId(nextId);
+        const condition = step.conditions?.[index];
+        
+        if (condition) {
+          mermaid += `    ${nodeId} -->|"${escapeLabel(condition)}"| ${safeNextId}\n`;
+        } else {
+          mermaid += `    ${nodeId} --> ${safeNextId}\n`;
+        }
+      });
+    } else if (!step.type?.includes('end')) {
+      // Default: connect to next step or output
+      const stepIndex = steps.indexOf(step);
+      if (stepIndex < steps.length - 1) {
+        const nextStep = sanitizeId(steps[stepIndex + 1].id || `STEP_${stepIndex + 2}`);
+        mermaid += `    ${nodeId} --> ${nextStep}\n`;
+      } else {
+        mermaid += `    ${nodeId} --> OUTPUT\n`;
+      }
+    }
+  }
+  
+  // Connect output to end
+  mermaid += `    OUTPUT --> END_\n`;
+  
+  return mermaid;
+}
+```
+
+## Diagram Validation
+
+### validateMermaidSyntax
+
+Comprehensive Mermaid syntax validation.
+
+```javascript
+/**
+ * Validate Mermaid diagram syntax
+ * 
+ * @param {string} content - Mermaid diagram content
+ * @returns {Object} - {valid: boolean, issues: string[]}
+ */
+function validateMermaidSyntax(content) {
+  const issues = [];
+  
+  // Check 1: Diagram type declaration
+  if (!content.match(/^(graph|flowchart|classDiagram|sequenceDiagram|stateDiagram|erDiagram|gantt|pie|mindmap)/m)) {
+    issues.push('Missing diagram type declaration');
+  }
+  
+  // Check 2: Undefined values
+  if (content.includes('undefined') || content.includes('null')) {
+    issues.push('Contains undefined/null values');
+  }
+  
+  // Check 3: Invalid arrow syntax
+  if (content.match(/-->\s*-->/)) {
+    issues.push('Double arrow syntax error');
+  }
+  
+  // Check 4: Unescaped special characters in labels
+  const labelMatches = content.match(/\["[^"]*[(){}[\]<>][^"]*"\]/g);
+  if (labelMatches?.some(m => !m.includes('#'))) {
+    issues.push('Unescaped special characters in labels');
+  }
+  
+  // Check 5: Node ID starts with number
+  if (content.match(/\n\s*[0-9][a-zA-Z0-9_]*[\[\({]/)) {
+    issues.push('Node ID cannot start with number');
+  }
+  
+  // Check 6: Nested subgraph syntax error
+  if (content.match(/subgraph\s+\S+\s*\n[^e]*subgraph/)) {
+    // This is actually valid, only flag if brackets don't match
+    const subgraphCount = (content.match(/subgraph/g) || []).length;
+    const endCount = (content.match(/\bend\b/g) || []).length;
+    if (subgraphCount > endCount) {
+      issues.push('Unbalanced subgraph/end blocks');
+    }
+  }
+  
+  // Check 7: Invalid arrow type for diagram type
+  const diagramType = content.match(/^(graph|flowchart|classDiagram|sequenceDiagram)/m)?.[1];
+  if (diagramType === 'classDiagram' && content.includes('-->|')) {
+    issues.push('Invalid edge label syntax for classDiagram');
+  }
+  
+  // Check 8: Empty node labels
+  if (content.match(/\[""\]|\{\}|\(\)/)) {
+    issues.push('Empty node labels detected');
+  }
+  
+  // Check 9: Reserved keywords as IDs
+  const reserved = ['end', 'graph', 'subgraph', 'direction', 'class', 'click'];
+  for (const keyword of reserved) {
+    const pattern = new RegExp(`\\n\\s*${keyword}\\s*[\\[\\(\\{]`, 'i');
+    if (content.match(pattern)) {
+      issues.push(`Reserved keyword "${keyword}" used as node ID`);
+    }
+  }
+  
+  // Check 10: Line length (Mermaid has issues with very long lines)
+  const lines = content.split('\n');
+  for (let i = 0; i < lines.length; i++) {
+    if (lines[i].length > 500) {
+      issues.push(`Line ${i + 1} exceeds 500 characters`);
+    }
+  }
+  
+  return {
+    valid: issues.length === 0,
+    issues
+  };
+}
+```
+
+### validateDiagramDirectory
+
+Validate all diagrams in a directory.
+
+```javascript
+/**
+ * Validate all Mermaid diagrams in directory
+ * 
+ * @param {string} diagramDir - Path to diagrams directory
+ * @returns {Object[]} - Array of {file, valid, issues}
+ */
+function validateDiagramDirectory(diagramDir) {
+  const files = Glob(`${diagramDir}/*.mmd`);
+  const results = [];
+
+  for (const file of files) {
+    const content = Read(file);
+    const validation = validateMermaidSyntax(content);
+    
+    results.push({
+      file: file.split('/').pop(),
+      path: file,
+      valid: validation.valid,
+      issues: validation.issues,
+      lines: content.split('\n').length
+    });
+  }
+
+  return results;
+}
+```
+
+## Class Diagram Utilities
+
+### generateClassDiagram
+
+Generate class diagram with relationships.
+
+```javascript
+/**
+ * Generate class diagram from analysis data
+ * 
+ * @param {Object} analysis - Data structure analysis
+ *   - entities: [{name, type, properties, methods}]
+ *   - relationships: [{from, to, type, label}]
+ * @param {Object} options - Generation options
+ *   - maxClasses: Max classes to include (default: 15)
+ *   - maxProperties: Max properties per class (default: 8)
+ *   - maxMethods: Max methods per class (default: 6)
+ * @returns {string} - Mermaid classDiagram
+ */
+function generateClassDiagram(analysis, options = {}) {
+  const maxClasses = options.maxClasses || 15;
+  const maxProperties = options.maxProperties || 8;
+  const maxMethods = options.maxMethods || 6;
+  
+  let mermaid = 'classDiagram\n';
+
+  const entities = (analysis.entities || []).slice(0, maxClasses);
+  
+  // Generate classes
+  for (const entity of entities) {
+    const className = sanitizeId(entity.name);
+    mermaid += `    class ${className} {\n`;
+
+    // Properties
+    for (const prop of (entity.properties || []).slice(0, maxProperties)) {
+      const vis = {public: '+', private: '-', protected: '#'}[prop.visibility] || '+';
+      const type = sanitizeType(prop.type);
+      mermaid += `        ${vis}${type} ${prop.name}\n`;
+    }
+
+    // Methods
+    for (const method of (entity.methods || []).slice(0, maxMethods)) {
+      const vis = {public: '+', private: '-', protected: '#'}[method.visibility] || '+';
+      const params = (method.params || []).map(p => p.name).join(', ');
+      const returnType = sanitizeType(method.returnType || 'void');
+      mermaid += `        ${vis}${method.name}(${params}) ${returnType}\n`;
+    }
+
+    mermaid += '    }\n';
+    
+    // Add stereotype if applicable
+    if (entity.type === 'interface') {
+      mermaid += `    <<interface>> ${className}\n`;
+    } else if (entity.type === 'abstract') {
+      mermaid += `    <<abstract>> ${className}\n`;
+    }
+  }
+
+  // Generate relationships
+  const arrows = {
+    inheritance: '--|>',
+    implementation: '..|>',
+    composition: '*--',
+    aggregation: 'o--',
+    association: '-->',
+    dependency: '..>'
+  };
+
+  for (const rel of (analysis.relationships || [])) {
+    const from = sanitizeId(rel.from);
+    const to = sanitizeId(rel.to);
+    const arrow = arrows[rel.type] || '-->';
+    const label = rel.label ? ` : ${escapeLabel(rel.label)}` : '';
+    
+    // Only include if both entities exist
+    if (entities.some(e => sanitizeId(e.name) === from) && 
+        entities.some(e => sanitizeId(e.name) === to)) {
+      mermaid += `    ${from} ${arrow} ${to}${label}\n`;
+    }
+  }
+
+  return mermaid;
+}
+```
+
+## Sequence Diagram Utilities
+
+### generateSequenceDiagram
+
+Generate sequence diagram from scenario.
+
+```javascript
+/**
+ * Generate sequence diagram from scenario
+ * 
+ * @param {Object} scenario - Sequence scenario
+ *   - name: Scenario name
+ *   - actors: [{id, name, type}]
+ *   - messages: [{from, to, description, type}]
+ *   - blocks: [{type, condition, messages}]
+ * @returns {string} - Mermaid sequenceDiagram
+ */
+function generateSequenceDiagram(scenario) {
+  let mermaid = 'sequenceDiagram\n';
+
+  // Title
+  if (scenario.name) {
+    mermaid += `    title ${escapeLabel(scenario.name)}\n`;
+  }
+
+  // Participants
+  for (const actor of scenario.actors || []) {
+    const actorType = actor.type === 'external' ? 'actor' : 'participant';
+    mermaid += `    ${actorType} ${sanitizeId(actor.id)} as ${escapeLabel(actor.name)}\n`;
+  }
+
+  mermaid += '\n';
+
+  // Messages
+  for (const msg of scenario.messages || []) {
+    const from = sanitizeId(msg.from);
+    const to = sanitizeId(msg.to);
+    const desc = escapeLabel(msg.description);
+    
+    let arrow;
+    switch (msg.type) {
+      case 'async': arrow = '->>'; break;
+      case 'response': arrow = '-->>'; break;
+      case 'create': arrow = '->>+'; break;
+      case 'destroy': arrow = '->>-'; break;
+      case 'self': arrow = '->>'; break;
+      default: arrow = '->>';
+    }
+
+    mermaid += `    ${from}${arrow}${to}: ${desc}\n`;
+
+    // Activation
+    if (msg.activate) {
+      mermaid += `    activate ${to}\n`;
+    }
+    if (msg.deactivate) {
+      mermaid += `    deactivate ${from}\n`;
+    }
+
+    // Notes
+    if (msg.note) {
+      mermaid += `    Note over ${to}: ${escapeLabel(msg.note)}\n`;
+    }
+  }
+
+  // Blocks (loops, alt, opt)
+  for (const block of scenario.blocks || []) {
+    switch (block.type) {
+      case 'loop':
+        mermaid += `    loop ${escapeLabel(block.condition)}\n`;
+        break;
+      case 'alt':
+        mermaid += `    alt ${escapeLabel(block.condition)}\n`;
+        break;
+      case 'opt':
+        mermaid += `    opt ${escapeLabel(block.condition)}\n`;
+        break;
+    }
+    
+    for (const m of block.messages || []) {
+      mermaid += `        ${sanitizeId(m.from)}->>${sanitizeId(m.to)}: ${escapeLabel(m.description)}\n`;
+    }
+    
+    mermaid += '    end\n';
+  }
+
+  return mermaid;
+}
+```
+
+## Usage Examples
+
+### Example 1: Algorithm with Branches
+
+```javascript
+const algorithm = {
+  name: "用户认证流程",
+  inputs: [{name: "credentials", type: "Object"}],
+  outputs: [{name: "token", type: "JWT"}],
+  steps: [
+    {id: "validate", description: "验证输入格式", type: "process"},
+    {id: "check_user", description: "用户是否存在?", type: "decision", 
+     next: ["verify_pwd", "error_user"], conditions: ["是", "否"]},
+    {id: "verify_pwd", description: "验证密码", type: "process"},
+    {id: "pwd_ok", description: "密码正确?", type: "decision",
+     next: ["gen_token", "error_pwd"], conditions: ["是", "否"]},
+    {id: "gen_token", description: "生成 JWT Token", type: "process"},
+    {id: "error_user", description: "返回用户不存在", type: "io"},
+    {id: "error_pwd", description: "返回密码错误", type: "io"}
+  ]
+};
+
+const flowchart = generateAlgorithmFlowchart(algorithm);
+```
+
+### Example 2: Validate Before Output
+
+```javascript
+const diagram = generateClassDiagram(analysis);
+const validation = validateMermaidSyntax(diagram);
+
+if (!validation.valid) {
+  console.log("Diagram has issues:", validation.issues);
+  // Fix issues or regenerate
+} else {
+  Write(`${outputDir}/class-diagram.mmd`, diagram);
+}
+```
--- a/.claude/skills/command-guide/SKILL.md
+++ b/.claude/skills/command-guide/SKILL.md
@@ -200,21 +200,21 @@ Comprehensive command guide for Claude Code Workflow (CCW) system covering 78 co

 **Complex Query** (CLI-assisted analysis):
 1. **Detect complexity indicators** (多个命令对比、工作流程分析、最佳实践)
-2. **Design targeted analysis prompt** for gemini/qwen:
+2. **Design targeted analysis prompt** for gemini/qwen via CCW:
   - Frame user's question precisely
   - Specify required analysis depth
   - Request structured comparison/synthesis
   ```bash
-   gemini -p "
+   ccw cli -p "
   PURPOSE: Analyze command documentation to answer user query
-   TASK: [extracted user question with context]
+   TASK: • [extracted user question with context]
   MODE: analysis
   CONTEXT: @**/*
   EXPECTED: Comprehensive answer with examples and recommendations
   RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/02-analyze-code-patterns.txt) | Focus on practical usage | analysis=READ-ONLY
-   " -m gemini-3-pro-preview-11-2025 --include-directories ~/.claude/skills/command-guide/reference
+   " --tool gemini --cd ~/.claude/skills/command-guide/reference
   ```
-   Note: Use absolute path `~/.claude/skills/command-guide/reference` for reference documentation access
+   Note: Use `--cd` with absolute path `~/.claude/skills/command-guide/reference` for reference documentation access
 3. **Process and integrate CLI analysis**:
   - Extract key insights from CLI output
   - Add context-specific examples
--- a/.claude/skills/command-guide/index/all-commands.json
+++ b/.claude/skills/command-guide/index/all-commands.json
@@ -112,7 +112,7 @@
  {
    "name": "tech-research",
    "command": "/memory:tech-research",
-    "description": "3-phase orchestrator: extract tech stack from session/name → delegate to agent for Exa research and module generation → generate SKILL.md index (skips phase 2 if exists)",
+    "description": "3-phase orchestrator: extract tech stack → Exa research → generate path-conditional rules (auto-loaded by Claude Code)",
    "arguments": "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]",
    "category": "memory",
    "subcategory": null,
--- a/.claude/skills/command-guide/index/by-category.json
+++ b/.claude/skills/command-guide/index/by-category.json
@@ -133,7 +133,7 @@
      {
        "name": "tech-research",
        "command": "/memory:tech-research",
-        "description": "3-phase orchestrator: extract tech stack from session/name → delegate to agent for Exa research and module generation → generate SKILL.md index (skips phase 2 if exists)",
+        "description": "3-phase orchestrator: extract tech stack → Exa research → generate path-conditional rules (auto-loaded by Claude Code)",
        "arguments": "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]",
        "category": "memory",
        "subcategory": null,
--- a/.claude/skills/command-guide/index/by-use-case.json
+++ b/.claude/skills/command-guide/index/by-use-case.json
@@ -36,7 +36,7 @@
    {
      "name": "tech-research",
      "command": "/memory:tech-research",
-      "description": "3-phase orchestrator: extract tech stack from session/name → delegate to agent for Exa research and module generation → generate SKILL.md index (skips phase 2 if exists)",
+      "description": "3-phase orchestrator: extract tech stack → Exa research → generate path-conditional rules (auto-loaded by Claude Code)",
      "arguments": "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]",
      "category": "memory",
      "subcategory": null,
--- a/.claude/skills/command-guide/reference/agents/action-planning-agent.md
+++ b/.claude/skills/command-guide/reference/agents/action-planning-agent.md
@@ -203,7 +203,13 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
  "id": "IMPL-N",
  "title": "Descriptive task name",
  "status": "pending|active|completed|blocked",
-  "context_package_path": ".workflow/active/WFS-{session}/.process/context-package.json"
+  "context_package_path": ".workflow/active/WFS-{session}/.process/context-package.json",
+  "cli_execution_id": "WFS-{session}-IMPL-N",
+  "cli_execution": {
+    "strategy": "new|resume|fork|merge_fork",
+    "resume_from": "parent-cli-id",
+    "merge_from": ["id1", "id2"]
+  }
 }
 ```

@@ -216,6 +222,50 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
 - `title`: Descriptive task name summarizing the work
 - `status`: Task state - `pending` (not started), `active` (in progress), `completed` (done), `blocked` (waiting on dependencies)
 - `context_package_path`: Path to smart context package containing project structure, dependencies, and brainstorming artifacts catalog
+- `cli_execution_id`: Unique CLI conversation ID (format: `{session_id}-{task_id}`)
+- `cli_execution`: CLI execution strategy based on task dependencies
+  - `strategy`: Execution pattern (`new`, `resume`, `fork`, `merge_fork`)
+  - `resume_from`: Parent task's cli_execution_id (for resume/fork)
+  - `merge_from`: Array of parent cli_execution_ids (for merge_fork)
+
+**CLI Execution Strategy Rules** (MANDATORY - apply to all tasks):
+
+| Dependency Pattern | Strategy | CLI Command Pattern |
+|--------------------|----------|---------------------|
+| No `depends_on` | `new` | `--id {cli_execution_id}` |
+| 1 parent, parent has 1 child | `resume` | `--resume {resume_from}` |
+| 1 parent, parent has N children | `fork` | `--resume {resume_from} --id {cli_execution_id}` |
+| N parents | `merge_fork` | `--resume {merge_from.join(',')} --id {cli_execution_id}` |
+
+**Strategy Selection Algorithm**:
+```javascript
+function computeCliStrategy(task, allTasks) {
+  const deps = task.context?.depends_on || []
+  const childCount = allTasks.filter(t =>
+    t.context?.depends_on?.includes(task.id)
+  ).length
+
+  if (deps.length === 0) {
+    return { strategy: "new" }
+  } else if (deps.length === 1) {
+    const parentTask = allTasks.find(t => t.id === deps[0])
+    const parentChildCount = allTasks.filter(t =>
+      t.context?.depends_on?.includes(deps[0])
+    ).length
+
+    if (parentChildCount === 1) {
+      return { strategy: "resume", resume_from: parentTask.cli_execution_id }
+    } else {
+      return { strategy: "fork", resume_from: parentTask.cli_execution_id }
+    }
+  } else {
+    const mergeFrom = deps.map(depId =>
+      allTasks.find(t => t.id === depId).cli_execution_id
+    )
+    return { strategy: "merge_fork", merge_from: mergeFrom }
+  }
+}
+```

 #### Meta Object

@@ -225,7 +275,13 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
    "type": "feature|bugfix|refactor|test-gen|test-fix|docs",
    "agent": "@code-developer|@action-planning-agent|@test-fix-agent|@universal-executor",
    "execution_group": "parallel-abc123|null",
-    "module": "frontend|backend|shared|null"
+    "module": "frontend|backend|shared|null",
+    "execution_config": {
+      "method": "agent|hybrid|cli",
+      "cli_tool": "codex|gemini|qwen|auto",
+      "enable_resume": true,
+      "previous_cli_id": "string|null"
+    }
  }
 }
 ```
@@ -235,6 +291,11 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
 - `agent`: Assigned agent for execution
 - `execution_group`: Parallelization group ID (tasks with same ID can run concurrently) or `null` for sequential tasks
 - `module`: Module identifier for multi-module projects (e.g., `frontend`, `backend`, `shared`) or `null` for single-module
+- `execution_config`: CLI execution settings (from userConfig in task-generate-agent)
+  - `method`: Execution method - `agent` (direct), `hybrid` (agent + CLI), `cli` (CLI only)
+  - `cli_tool`: Preferred CLI tool - `codex`, `gemini`, `qwen`, or `auto`
+  - `enable_resume`: Whether to use `--resume` for CLI continuity (default: true)
+  - `previous_cli_id`: Previous task's CLI execution ID for resume (populated at runtime)

 **Test Task Extensions** (for type="test-gen" or type="test-fix"):

@@ -409,14 +470,14 @@ Generate individual `.task/IMPL-*.json` files with the following structure:
  // Pattern: Gemini CLI deep analysis
  {
    "step": "gemini_analyze_[aspect]",
-    "command": "bash(cd [path] && gemini -p 'PURPOSE: [goal]\\nTASK: [tasks]\\nMODE: analysis\\nCONTEXT: @[paths]\\nEXPECTED: [output]\\nRULES: $(cat [template]) | [constraints] | analysis=READ-ONLY')",
+    "command": "ccw cli -p 'PURPOSE: [goal]\\nTASK: [tasks]\\nMODE: analysis\\nCONTEXT: @[paths]\\nEXPECTED: [output]\\nRULES: $(cat [template]) | [constraints] | analysis=READ-ONLY' --tool gemini --mode analysis --cd [path]",
    "output_to": "analysis_result"
  },

  // Pattern: Qwen CLI analysis (fallback/alternative)
  {
    "step": "qwen_analyze_[aspect]",
-    "command": "bash(cd [path] && qwen -p '[similar to gemini pattern]')",
+    "command": "ccw cli -p '[similar to gemini pattern]' --tool qwen --mode analysis --cd [path]",
    "output_to": "analysis_result"
  },

@@ -457,7 +518,7 @@ The examples above demonstrate **patterns**, not fixed requirements. Agent MUST:
 4. **Command Composition Patterns**:
   - **Single command**: `bash([simple_search])`
   - **Multiple commands**: `["bash([cmd1])", "bash([cmd2])"]`
-   - **CLI analysis**: `bash(cd [path] && gemini -p '[prompt]')`
+   - **CLI analysis**: `ccw cli -p '[prompt]' --tool gemini --mode analysis --cd [path]`
   - **MCP integration**: `mcp__[tool]__[function]([params])`

 **Key Principle**: Examples show **structure patterns**, not specific implementations. Agent must create task-appropriate steps dynamically.
@@ -479,11 +540,12 @@ The `implementation_approach` supports **two execution modes** based on the pres
   - Specified command executes the step directly
   - Leverages specialized CLI tools (codex/gemini/qwen) for complex reasoning
   - **Use for**: Large-scale features, complex refactoring, or when user explicitly requests CLI tool usage
-   - **Required fields**: Same as default mode **PLUS** `command`
-   - **Command patterns**:
-     - `bash(codex -C [path] --full-auto exec '[prompt]' --skip-git-repo-check -s danger-full-access)`
-     - `bash(codex --full-auto exec '[task]' resume --last --skip-git-repo-check -s danger-full-access)` (multi-step)
-     - `bash(cd [path] && gemini -p '[prompt]' --approval-mode yolo)` (write mode)
+   - **Required fields**: Same as default mode **PLUS** `command`, `resume_from` (optional)
+   - **Command patterns** (with resume support):
+     - `ccw cli -p '[prompt]' --tool codex --mode write --cd [path]`
+     - `ccw cli -p '[prompt]' --resume ${previousCliId} --tool codex --mode write` (resume from previous)
+     - `ccw cli -p '[prompt]' --tool gemini --mode write --cd [path]` (write mode)
+   - **Resume mechanism**: When step depends on previous CLI execution, include `--resume` with previous execution ID

 **Semantic CLI Tool Selection**:

@@ -500,12 +562,12 @@ Agent determines CLI tool usage per-step based on user semantics and task nature
 **Task-Based Selection** (when no explicit user preference):
 - **Implementation/coding**: Codex preferred for autonomous development
 - **Analysis/exploration**: Gemini preferred for large context analysis
- **Documentation**: Gemini/Qwen with write mode (`--approval-mode yolo`)
+- **Documentation**: Gemini/Qwen with write mode (`--mode write`)
 - **Testing**: Depends on complexity - simple=agent, complex=Codex

 **Default Behavior**: Agent always executes the workflow. CLI commands are embedded in `implementation_approach` steps:
 - Agent orchestrates task execution
- When step has `command` field, agent executes it via Bash
+- When step has `command` field, agent executes it via CCW CLI
 - When step has no `command` field, agent implements directly
 - This maintains agent control while leveraging CLI tool power

@@ -559,11 +621,26 @@ Agent determines CLI tool usage per-step based on user semantics and task nature
    "step": 3,
    "title": "Execute implementation using CLI tool",
    "description": "Use Codex/Gemini for complex autonomous execution",
-    "command": "bash(codex -C [path] --full-auto exec '[prompt]' --skip-git-repo-check -s danger-full-access)",
+    "command": "ccw cli -p '[prompt]' --tool codex --mode write --cd [path]",
    "modification_points": ["[Same as default mode]"],
    "logic_flow": ["[Same as default mode]"],
    "depends_on": [1, 2],
-    "output": "cli_implementation"
+    "output": "cli_implementation",
+    "cli_output_id": "step3_cli_id"  // Store execution ID for resume
+  },
+
+  // === CLI MODE with Resume: Continue from previous CLI execution ===
+  {
+    "step": 4,
+    "title": "Continue implementation with context",
+    "description": "Resume from previous step with accumulated context",
+    "command": "ccw cli -p '[continuation prompt]' --resume ${step3_cli_id} --tool codex --mode write",
+    "resume_from": "step3_cli_id",  // Reference previous step's CLI ID
+    "modification_points": ["[Continue from step 3]"],
+    "logic_flow": ["[Build on previous output]"],
+    "depends_on": [3],
+    "output": "continued_implementation",
+    "cli_output_id": "step4_cli_id"
  }
 ]
 ```
@@ -729,8 +806,6 @@ Use `analysis_results.complexity` or task count to determine structure:
 **Examples**:
 - GOOD: `"Implement 5 commands: [cmd1, cmd2, cmd3, cmd4, cmd5]"`
 - BAD: `"Implement new commands"`
- GOOD: `"5 files created: verify by ls .claude/commands/*.md | wc -l = 5"`
- BAD: `"All commands implemented successfully"`

 ### 3.2 Planning & Organization Standards

@@ -759,6 +834,8 @@ Use `analysis_results.complexity` or task count to determine structure:
 - Use provided context package: Extract all information from structured context
 - Respect memory-first rule: Use provided content (already loaded from memory/file)
 - Follow 6-field schema: All task JSONs must have id, title, status, context_package_path, meta, context, flow_control
+- **Assign CLI execution IDs**: Every task MUST have `cli_execution_id` (format: `{session_id}-{task_id}`)
+- **Compute CLI execution strategy**: Based on `depends_on`, set `cli_execution.strategy` (new/resume/fork/merge_fork)
 - Map artifacts: Use artifacts_inventory to populate task.context.artifacts array
 - Add MCP integration: Include MCP tool steps in flow_control.pre_analysis when capabilities available
 - Validate task count: Maximum 12 tasks hard limit, request re-scope if exceeded
--- a/.claude/skills/command-guide/reference/agents/cli-execution-agent.md
+++ b/.claude/skills/command-guide/reference/agents/cli-execution-agent.md
@@ -100,7 +100,7 @@ CONTEXT: @**/*
 # Specific patterns
 CONTEXT: @CLAUDE.md @src/**/* @*.ts

-# Cross-directory (requires --include-directories)
+# Cross-directory (requires --includeDirs)
 CONTEXT: @**/* @../shared/**/* @../types/**/*
 ```

@@ -134,7 +134,7 @@ RULES: $(cat {selected_template}) | {constraints}
 ```
 analyze|plan → gemini (qwen fallback) + mode=analysis
 execute (simple|medium) → gemini (qwen fallback) + mode=write
-execute (complex) → codex + mode=auto
+execute (complex) → codex + mode=write
 discuss → multi (gemini + codex parallel)
 ```

@@ -144,43 +144,40 @@ discuss → multi (gemini + codex parallel)
 - Codex: `gpt-5` (default), `gpt5-codex` (large context)
 - **Position**: `-m` after prompt, before flags

-### Command Templates
+### Command Templates (CCW Unified CLI)

 **Gemini/Qwen (Analysis)**:
 ```bash
-cd {dir} && gemini -p "
+ccw cli -p "
 PURPOSE: {goal}
 TASK: {task}
 MODE: analysis
 CONTEXT: @**/*
 EXPECTED: {output}
 RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/pattern.txt)
-" -m gemini-2.5-pro
+" --tool gemini --mode analysis --cd {dir}

-# Qwen fallback: Replace 'gemini' with 'qwen'
+# Qwen fallback: Replace '--tool gemini' with '--tool qwen'
 ```

 **Gemini/Qwen (Write)**:
 ```bash
-cd {dir} && gemini -p "..." --approval-mode yolo
+ccw cli -p "..." --tool gemini --mode write --cd {dir}
 ```

-**Codex (Auto)**:
+**Codex (Write)**:
 ```bash
-codex -C {dir} --full-auto exec "..." --skip-git-repo-check -s danger-full-access
-
-# Resume: Add 'resume --last' after prompt
-codex --full-auto exec "..." resume --last --skip-git-repo-check -s danger-full-access
+ccw cli -p "..." --tool codex --mode write --cd {dir}
 ```

 **Cross-Directory** (Gemini/Qwen):
 ```bash
-cd src/auth && gemini -p "CONTEXT: @**/* @../shared/**/*" --include-directories ../shared
+ccw cli -p "CONTEXT: @**/* @../shared/**/*" --tool gemini --mode analysis --cd src/auth --includeDirs ../shared
 ```

 **Directory Scope**:
 - `@` only references current directory + subdirectories
- External dirs: MUST use `--include-directories` + explicit CONTEXT reference
+- External dirs: MUST use `--includeDirs` + explicit CONTEXT reference

 **Timeout**: Simple 20min | Medium 40min | Complex 60min (Codex ×1.5)

--- a/.claude/skills/command-guide/reference/agents/cli-explore-agent.md
+++ b/.claude/skills/command-guide/reference/agents/cli-explore-agent.md
@@ -78,14 +78,14 @@ rg "^import .* from " -n | head -30
 ### Gemini Semantic Analysis (deep-scan, dependency-map)

 ```bash
-cd {dir} && gemini -p "
+ccw cli -p "
 PURPOSE: {from prompt}
 TASK: {from prompt}
 MODE: analysis
 CONTEXT: @**/*
 EXPECTED: {from prompt}
 RULES: {from prompt, if template specified} | analysis=READ-ONLY
-"
+" --tool gemini --mode analysis --cd {dir} 
 ```

 **Fallback Chain**: Gemini → Qwen → Codex → Bash-only
--- a/.claude/skills/command-guide/reference/agents/cli-lite-planning-agent.md
+++ b/.claude/skills/command-guide/reference/agents/cli-lite-planning-agent.md
@@ -1,140 +1,117 @@
 ---
 name: cli-lite-planning-agent
 description: |
-  Specialized agent for executing CLI planning tools (Gemini/Qwen) to generate detailed implementation plans. Used by lite-plan workflow for Medium/High complexity tasks.
+  Generic planning agent for lite-plan and lite-fix workflows. Generates structured plan JSON based on provided schema reference.

  Core capabilities:
-  - Task decomposition (1-10 tasks with IDs: T1, T2...)
-  - Dependency analysis (depends_on references)
-  - Flow control (parallel/sequential phases)
-  - Multi-angle exploration context integration
+  - Schema-driven output (plan-json-schema or fix-plan-json-schema)
+  - Task decomposition with dependency analysis
+  - CLI execution ID assignment for fork/merge strategies
+  - Multi-angle context integration (explorations or diagnoses)
 color: cyan
 ---

-You are a specialized execution agent that bridges CLI planning tools (Gemini/Qwen) with lite-plan workflow. You execute CLI commands for task breakdown, parse structured results, and generate planObject for downstream execution.
+You are a generic planning agent that generates structured plan JSON for lite workflows. Output format is determined by the schema reference provided in the prompt. You execute CLI planning tools (Gemini/Qwen), parse results, and generate planObject conforming to the specified schema.

-## Output Schema
-
-**Reference**: `~/.claude/workflows/cli-templates/schemas/plan-json-schema.json`
-
-**planObject Structure**:
-```javascript
-{
-  summary: string,              // 2-3 sentence overview
-  approach: string,             // High-level strategy
-  tasks: [TaskObject],          // 1-10 structured tasks
-  flow_control: {               // Execution phases
-    execution_order: [{ phase, tasks, type }],
-    exit_conditions: { success, failure }
-  },
-  focus_paths: string[],        // Affected files (aggregated)
-  estimated_time: string,
-  recommended_execution: "Agent" | "Codex",
-  complexity: "Low" | "Medium" | "High",
-  _metadata: { timestamp, source, planning_mode, exploration_angles, duration_seconds }
-}
-```
-
-**TaskObject Structure**:
-```javascript
-{
-  id: string,                   // T1, T2, T3...
-  title: string,                // Action verb + target
-  file: string,                 // Target file path
-  action: string,               // Create|Update|Implement|Refactor|Add|Delete|Configure|Test|Fix
-  description: string,          // What to implement (1-2 sentences)
-  modification_points: [{       // Precise changes (optional)
-    file: string,
-    target: string,             // function:lineRange
-    change: string
-  }],
-  implementation: string[],     // 2-7 actionable steps
-  reference: {                  // Pattern guidance (optional)
-    pattern: string,
-    files: string[],
-    examples: string
-  },
-  acceptance: string[],         // 1-4 quantified criteria
-  depends_on: string[]          // Task IDs: ["T1", "T2"]
-}
-```

 ## Input Context

 ```javascript
 {
-  task_description: string,
-  explorationsContext: { [angle]: ExplorationResult } | null,
-  explorationAngles: string[],
+  // Required
+  task_description: string,           // Task or bug description
+  schema_path: string,                // Schema reference path (plan-json-schema or fix-plan-json-schema)
+  session: { id, folder, artifacts },
+
+  // Context (one of these based on workflow)
+  explorationsContext: { [angle]: ExplorationResult } | null,  // From lite-plan
+  diagnosesContext: { [angle]: DiagnosisResult } | null,       // From lite-fix
+  contextAngles: string[],            // Exploration or diagnosis angles
+
+  // Optional
  clarificationContext: { [question]: answer } | null,
-  complexity: "Low" | "Medium" | "High",
-  cli_config: { tool, template, timeout, fallback },
-  session: { id, folder, artifacts }
+  complexity: "Low" | "Medium" | "High",  // For lite-plan
+  severity: "Low" | "Medium" | "High" | "Critical",  // For lite-fix
+  cli_config: { tool, template, timeout, fallback }
 }
 ```

+## Schema-Driven Output
+
+**CRITICAL**: Read the schema reference first to determine output structure:
+- `plan-json-schema.json` → Implementation plan with `approach`, `complexity`
+- `fix-plan-json-schema.json` → Fix plan with `root_cause`, `severity`, `risk_level`
+
+```javascript
+// Step 1: Always read schema first
+const schema = Bash(`cat ${schema_path}`)
+
+// Step 2: Generate plan conforming to schema
+const planObject = generatePlanFromSchema(schema, context)
+```
+
 ## Execution Flow

 ```
-Phase 1: CLI Execution
-├─ Aggregate multi-angle exploration findings
+Phase 1: Schema & Context Loading
+├─ Read schema reference (plan-json-schema or fix-plan-json-schema)
+├─ Aggregate multi-angle context (explorations or diagnoses)
+└─ Determine output structure from schema
+
+Phase 2: CLI Execution
 ├─ Construct CLI command with planning template
 ├─ Execute Gemini (fallback: Qwen → degraded mode)
 └─ Timeout: 60 minutes

-Phase 2: Parsing & Enhancement
-├─ Parse CLI output sections (Summary, Approach, Tasks, Flow Control)
+Phase 3: Parsing & Enhancement
+├─ Parse CLI output sections
 ├─ Validate and enhance task objects
-└─ Infer missing fields from exploration context
+└─ Infer missing fields from context

-Phase 3: planObject Generation
-├─ Build planObject from parsed results
-├─ Generate flow_control from depends_on if not provided
-├─ Aggregate focus_paths from all tasks
-└─ Return to orchestrator (lite-plan)
+Phase 4: planObject Generation
+├─ Build planObject conforming to schema
+├─ Assign CLI execution IDs and strategies
+├─ Generate flow_control from depends_on
+└─ Return to orchestrator
 ```

 ## CLI Command Template

 ```bash
-cd {project_root} && {cli_tool} -p "
-PURPOSE: Generate implementation plan for {complexity} task
+ccw cli -p "
+PURPOSE: Generate plan for {task_description}
 TASK:
-• Analyze: {task_description}
-• Break down into 1-10 tasks with: id, title, file, action, description, modification_points, implementation, reference, acceptance, depends_on
-• Identify parallel vs sequential execution phases
+• Analyze task/bug description and context
+• Break down into tasks following schema structure
+• Identify dependencies and execution phases
 MODE: analysis
-CONTEXT: @**/* | Memory: {exploration_summary}
+CONTEXT: @**/* | Memory: {context_summary}
 EXPECTED:
-## Implementation Summary
+## Summary
 [overview]

-## High-Level Approach
-[strategy]
-
 ## Task Breakdown
-### T1: [Title]
-**File**: [path]
+### T1: [Title] (or FIX1 for fix-plan)
+**Scope**: [module/feature path]
 **Action**: [type]
 **Description**: [what]
 **Modification Points**: - [file]: [target] - [change]
 **Implementation**: 1. [step]
-**Reference**: - Pattern: [name] - Files: [paths] - Examples: [guidance]
-**Acceptance**: - [quantified criterion]
+**Acceptance/Verification**: - [quantified criterion]
 **Depends On**: []

 ## Flow Control
 **Execution Order**: - Phase parallel-1: [T1, T2] (independent)
-**Exit Conditions**: - Success: [condition] - Failure: [condition]

 ## Time Estimate
 **Total**: [time]

 RULES: $(cat ~/.claude/workflows/cli-templates/prompts/planning/02-breakdown-task-steps.txt) |
- Acceptance must be quantified (counts, method names, metrics)
- Dependencies use task IDs (T1, T2)
+- Follow schema structure from {schema_path}
+- Acceptance/verification must be quantified
+- Dependencies use task IDs
 - analysis=READ-ONLY
-"
+" --tool {cli_tool} --mode analysis --cd {project_root}
 ```

 ## Core Functions
@@ -279,6 +256,51 @@ function inferFile(task, ctx) {
 }
 ```

+### CLI Execution ID Assignment (MANDATORY)
+
+```javascript
+function assignCliExecutionIds(tasks, sessionId) {
+  const taskMap = new Map(tasks.map(t => [t.id, t]))
+  const childCount = new Map()
+
+  // Count children for each task
+  tasks.forEach(task => {
+    (task.depends_on || []).forEach(depId => {
+      childCount.set(depId, (childCount.get(depId) || 0) + 1)
+    })
+  })
+
+  tasks.forEach(task => {
+    task.cli_execution_id = `${sessionId}-${task.id}`
+    const deps = task.depends_on || []
+
+    if (deps.length === 0) {
+      task.cli_execution = { strategy: "new" }
+    } else if (deps.length === 1) {
+      const parent = taskMap.get(deps[0])
+      const parentChildCount = childCount.get(deps[0]) || 0
+      task.cli_execution = parentChildCount === 1
+        ? { strategy: "resume", resume_from: parent.cli_execution_id }
+        : { strategy: "fork", resume_from: parent.cli_execution_id }
+    } else {
+      task.cli_execution = {
+        strategy: "merge_fork",
+        merge_from: deps.map(depId => taskMap.get(depId).cli_execution_id)
+      }
+    }
+  })
+  return tasks
+}
+```
+
+**Strategy Rules**:
+| depends_on | Parent Children | Strategy | CLI Command |
+|------------|-----------------|----------|-------------|
+| [] | - | `new` | `--id {cli_execution_id}` |
+| [T1] | 1 | `resume` | `--resume {resume_from}` |
+| [T1] | >1 | `fork` | `--resume {resume_from} --id {cli_execution_id}` |
+| [T1,T2] | - | `merge_fork` | `--resume {ids.join(',')} --id {cli_execution_id}` |
+
 ### Flow Control Inference

 ```javascript
@@ -303,21 +325,44 @@ function inferFlowControl(tasks) {
 ### planObject Generation

 ```javascript
-function generatePlanObject(parsed, enrichedContext, input) {
+function generatePlanObject(parsed, enrichedContext, input, schemaType) {
  const tasks = validateAndEnhanceTasks(parsed.raw_tasks, enrichedContext)
+  assignCliExecutionIds(tasks, input.session.id)  // MANDATORY: Assign CLI execution IDs
  const flow_control = parsed.flow_control?.execution_order?.length > 0 ? parsed.flow_control : inferFlowControl(tasks)
-  const focus_paths = [...new Set(tasks.flatMap(t => [t.file, ...t.modification_points.map(m => m.file)]).filter(Boolean))]
+  const focus_paths = [...new Set(tasks.flatMap(t => [t.file || t.scope, ...t.modification_points.map(m => m.file)]).filter(Boolean))]

-  return {
-    summary: parsed.summary || `Implementation plan for: ${input.task_description.slice(0, 100)}`,
-    approach: parsed.approach || "Step-by-step implementation",
+  // Base fields (common to both schemas)
+  const base = {
+    summary: parsed.summary || `Plan for: ${input.task_description.slice(0, 100)}`,
    tasks,
    flow_control,
    focus_paths,
    estimated_time: parsed.time_estimate || `${tasks.length * 30} minutes`,
-    recommended_execution: input.complexity === "Low" ? "Agent" : "Codex",
-    complexity: input.complexity,
-    _metadata: { timestamp: new Date().toISOString(), source: "cli-lite-planning-agent", planning_mode: "agent-based", exploration_angles: input.explorationAngles || [], duration_seconds: Math.round((Date.now() - startTime) / 1000) }
+    recommended_execution: (input.complexity === "Low" || input.severity === "Low") ? "Agent" : "Codex",
+    _metadata: {
+      timestamp: new Date().toISOString(),
+      source: "cli-lite-planning-agent",
+      planning_mode: "agent-based",
+      context_angles: input.contextAngles || [],
+      duration_seconds: Math.round((Date.now() - startTime) / 1000)
+    }
+  }
+
+  // Schema-specific fields
+  if (schemaType === 'fix-plan') {
+    return {
+      ...base,
+      root_cause: parsed.root_cause || "Root cause from diagnosis",
+      strategy: parsed.strategy || "comprehensive_fix",
+      severity: input.severity || "Medium",
+      risk_level: parsed.risk_level || "medium"
+    }
+  } else {
+    return {
+      ...base,
+      approach: parsed.approach || "Step-by-step implementation",
+      complexity: input.complexity || "Medium"
+    }
  }
 }
 ```
@@ -383,9 +428,12 @@ function validateTask(task) {
 ## Key Reminders

 **ALWAYS**:
- Generate task IDs (T1, T2, T3...)
+- **Read schema first** to determine output structure
+- Generate task IDs (T1/T2 for plan, FIX1/FIX2 for fix-plan)
 - Include depends_on (even if empty [])
- Quantify acceptance criteria
+- **Assign cli_execution_id** (`{sessionId}-{taskId}`)
+- **Compute cli_execution strategy** based on depends_on
+- Quantify acceptance/verification criteria
 - Generate flow_control from dependencies
 - Handle CLI errors with fallback chain

@@ -394,3 +442,5 @@ function validateTask(task) {
 - Use vague acceptance criteria
 - Create circular dependencies
 - Skip task validation
+- **Skip CLI execution ID assignment**
+- **Ignore schema structure**
--- a/.claude/skills/command-guide/reference/agents/cli-planning-agent.md
+++ b/.claude/skills/command-guide/reference/agents/cli-planning-agent.md
@@ -107,7 +107,7 @@ Phase 3: Task JSON Generation

 **Template-Based Command Construction with Test Layer Awareness**:
 ```bash
-cd {project_root} && {cli_tool} -p "
+ccw cli -p "
 PURPOSE: Analyze {test_type} test failures and generate fix strategy for iteration {iteration}
 TASK:
 • Review {failed_tests.length} {test_type} test failures: [{test_names}]
@@ -134,7 +134,7 @@ RULES: $(cat ~/.claude/workflows/cli-templates/prompts/{template}) |
 - Consider previous iteration failures
 - Validate fix doesn't introduce new vulnerabilities
 - analysis=READ-ONLY
-" {timeout_flag}
+" --tool {cli_tool} --mode analysis --cd {project_root} --timeout {timeout_value}
 ```

 **Layer-Specific Guidance Injection**:
@@ -527,9 +527,9 @@ See: `.process/iteration-{iteration}-cli-output.txt`
 1. **Detect test_type**: "integration" → Apply integration-specific diagnosis
 2. **Execute CLI**:
   ```bash
-   gemini -p "PURPOSE: Analyze integration test failure...
+   ccw cli -p "PURPOSE: Analyze integration test failure...
   TASK: Examine component interactions, data flow, interface contracts...
-   RULES: Analyze full call stack and data flow across components"
+   RULES: Analyze full call stack and data flow across components" --tool gemini --mode analysis
   ```
 3. **Parse Output**: Extract RCA, 修复建议, 验证建议 sections
 4. **Generate Task JSON** (IMPL-fix-1.json):
--- a/.claude/skills/command-guide/reference/agents/code-developer.md
+++ b/.claude/skills/command-guide/reference/agents/code-developer.md
@@ -34,10 +34,11 @@ You are a code execution specialist focused on implementing high-quality, produc
 - **context-package.json** (when available in workflow tasks)

 **Context Package** :
-`context-package.json` provides artifact paths - extract dynamically using `jq`:
+`context-package.json` provides artifact paths - read using Read tool or ccw session:
 ```bash
-# Get role analysis paths from context package
-jq -r '.brainstorm_artifacts.role_analyses[].files[].path' context-package.json
+# Get context package content from session using Read tool
+Read(.workflow/active/${SESSION_ID}/.process/context-package.json)
+# Returns parsed JSON with brainstorm_artifacts, focus_paths, etc.
 ```

 **Pre-Analysis: Smart Tech Stack Loading**:
@@ -121,9 +122,9 @@ When task JSON contains `flow_control.implementation_approach` array:
   - If `command` field present, execute it; otherwise use agent capabilities

 **CLI Command Execution (CLI Execute Mode)**:
-When step contains `command` field with Codex CLI, execute via Bash tool. For Codex resume:
- First task (`depends_on: []`): `codex -C [path] --full-auto exec "..." --skip-git-repo-check -s danger-full-access`
- Subsequent tasks (has `depends_on`): Add `resume --last` flag to maintain session context
+When step contains `command` field with Codex CLI, execute via CCW CLI. For Codex resume:
+- First task (`depends_on: []`): `ccw cli -p "..." --tool codex --mode write --cd [path]`
+- Subsequent tasks (has `depends_on`): Use CCW CLI with resume context to maintain session

 **Test-Driven Development**:
 - Write tests first (red → green → refactor)
--- a/.claude/skills/command-guide/reference/agents/conceptual-planning-agent.md
+++ b/.claude/skills/command-guide/reference/agents/conceptual-planning-agent.md
@@ -109,7 +109,7 @@ This agent processes **simplified inline [FLOW_CONTROL]** format from brainstorm

 3. **load_session_metadata**
   - Action: Load session metadata
-   - Command: bash(cat .workflow/WFS-{session}/workflow-session.json)
+   - Command: Read(.workflow/active/WFS-{session}/workflow-session.json)
   - Output: session_metadata
 ```

@@ -155,7 +155,7 @@ When called, you receive:
 - **User Context**: Specific requirements, constraints, and expectations from user discussion
 - **Output Location**: Directory path for generated analysis files
 - **Role Hint** (optional): Suggested role or role selection guidance
- **context-package.json** (CCW Workflow): Artifact paths catalog - extract using `jq -r '.brainstorm_artifacts.role_analyses[].files[].path'`
+- **context-package.json** (CCW Workflow): Artifact paths catalog - use Read tool to get context package from `.workflow/active/{session}/.process/context-package.json`
 - **ASSIGNED_ROLE** (optional): Specific role assignment
 - **ANALYSIS_DIMENSIONS** (optional): Role-specific analysis dimensions

--- a/.claude/skills/command-guide/reference/agents/context-search-agent.md
+++ b/.claude/skills/command-guide/reference/agents/context-search-agent.md
@@ -44,19 +44,19 @@ You are a context discovery specialist focused on gathering relevant project inf
 **Use**: Unfamiliar APIs/libraries/patterns

 ### 3. Existing Code Discovery
-**Primary (Code-Index MCP)**:
- `mcp__code-index__set_project_path()` - Initialize index
- `mcp__code-index__find_files(pattern)` - File pattern matching
- `mcp__code-index__search_code_advanced()` - Content search
- `mcp__code-index__get_file_summary()` - File structure analysis
- `mcp__code-index__refresh_index()` - Update index
+**Primary (CCW CodexLens MCP)**:
+- `mcp__ccw-tools__codex_lens(action="init", path=".")` - Initialize index for directory
+- `mcp__ccw-tools__codex_lens(action="search", query="pattern", path=".")` - Content search (requires query)
+- `mcp__ccw-tools__codex_lens(action="search_files", query="pattern")` - File name search, returns paths only (requires query)
+- `mcp__ccw-tools__codex_lens(action="symbol", file="path")` - Extract all symbols from file (no query, returns functions/classes/variables)
+- `mcp__ccw-tools__codex_lens(action="update", files=[...])` - Update index for specific files

 **Fallback (CLI)**:
 - `rg` (ripgrep) - Fast content search
 - `find` - File discovery
 - `Grep` - Pattern matching

-**Priority**: Code-Index MCP > ripgrep > find > grep
+**Priority**: CodexLens MCP > ripgrep > find > grep

 ## Simplified Execution Process (3 Phases)

@@ -77,9 +77,8 @@ if (file_exists(contextPackagePath)) {

 **1.2 Foundation Setup**:
 ```javascript
-// 1. Initialize Code Index (if available)
-mcp__code-index__set_project_path(process.cwd())
-mcp__code-index__refresh_index()
+// 1. Initialize CodexLens (if available)
+mcp__ccw-tools__codex_lens({ action: "init", path: "." })

 // 2. Project Structure
 bash(ccw tool exec get_modules_by_depth '{}')
@@ -212,18 +211,18 @@ mcp__exa__web_search_exa({

 **Layer 1: File Pattern Discovery**
 ```javascript
-// Primary: Code-Index MCP
-const files = mcp__code-index__find_files("*{keyword}*")
+// Primary: CodexLens MCP
+const files = mcp__ccw-tools__codex_lens({ action: "search_files", query: "*{keyword}*" })
 // Fallback: find . -iname "*{keyword}*" -type f
 ```

 **Layer 2: Content Search**
 ```javascript
-// Primary: Code-Index MCP
-mcp__code-index__search_code_advanced({
-  pattern: "{keyword}",
-  file_pattern: "*.ts",
-  output_mode: "files_with_matches"
+// Primary: CodexLens MCP
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "{keyword}",
+  path: "."
 })
 // Fallback: rg "{keyword}" -t ts --files-with-matches
 ```
@@ -231,11 +230,10 @@ mcp__code-index__search_code_advanced({
 **Layer 3: Semantic Patterns**
 ```javascript
 // Find definitions (class, interface, function)
-mcp__code-index__search_code_advanced({
-  pattern: "^(export )?(class|interface|type|function) .*{keyword}",
-  regex: true,
-  output_mode: "content",
-  context_lines: 2
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "^(export )?(class|interface|type|function) .*{keyword}",
+  path: "."
 })
 ```

@@ -243,21 +241,22 @@ mcp__code-index__search_code_advanced({
 ```javascript
 // Get file summaries for imports/exports
 for (const file of discovered_files) {
-  const summary = mcp__code-index__get_file_summary(file)
-  // summary: {imports, functions, classes, line_count}
+  const summary = mcp__ccw-tools__codex_lens({ action: "symbol", file: file })
+  // summary: {symbols: [{name, type, line}]}
 }
 ```

 **Layer 5: Config & Tests**
 ```javascript
 // Config files
-mcp__code-index__find_files("*.config.*")
-mcp__code-index__find_files("package.json")
+mcp__ccw-tools__codex_lens({ action: "search_files", query: "*.config.*" })
+mcp__ccw-tools__codex_lens({ action: "search_files", query: "package.json" })

 // Tests
-mcp__code-index__search_code_advanced({
-  pattern: "(describe|it|test).*{keyword}",
-  file_pattern: "*.{test,spec}.*"
+mcp__ccw-tools__codex_lens({
+  action: "search",
+  query: "(describe|it|test).*{keyword}",
+  path: "."
 })
 ```

@@ -560,14 +559,14 @@ Output: .workflow/session/{session}/.process/context-package.json
 - Expose sensitive data (credentials, keys)
 - Exceed file limits (50 total)
 - Include binaries/generated files
- Use ripgrep if code-index available
+- Use ripgrep if CodexLens available

 **ALWAYS**:
- Initialize code-index in Phase 0
+- Initialize CodexLens in Phase 0
 - Execute get_modules_by_depth.sh
 - Load CLAUDE.md/README.md (unless in memory)
 - Execute all 3 discovery tracks
- Use code-index MCP as primary
+- Use CodexLens MCP as primary
 - Fallback to ripgrep only when needed
 - Use Exa for unfamiliar APIs
 - Apply multi-factor scoring
--- a/.claude/skills/command-guide/reference/agents/doc-generator.md
+++ b/.claude/skills/command-guide/reference/agents/doc-generator.md
@@ -61,9 +61,9 @@ The agent supports **two execution modes** based on task JSON's `meta.cli_execut

   **Step 2** (CLI execution):
   - Agent substitutes [target_folders] into command
-   - Agent executes CLI command via Bash tool:
+   - Agent executes CLI command via CCW:
   ```bash
-   bash(cd src/modules && gemini --approval-mode yolo -p "
+   ccw cli -p "
   PURPOSE: Generate module documentation
   TASK: Create API.md and README.md for each module
   MODE: write
@@ -71,7 +71,7 @@ The agent supports **two execution modes** based on task JSON's `meta.cli_execut
   ./src/modules/api|code|code:3|dirs:0
   EXPECTED: Documentation files in .workflow/docs/my_project/src/modules/
   RULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt) | Mirror source structure
-   ")
+   " --tool gemini --mode write --cd src/modules
   ```

 4. **CLI Execution** (Gemini CLI):
@@ -216,7 +216,7 @@ Before completion, verify:
 {
  "step": "analyze_module_structure",
  "action": "Deep analysis of module structure and API",
-  "command": "bash(cd src/auth && gemini \"PURPOSE: Document module comprehensively\nTASK: Extract module purpose, architecture, public API, dependencies\nMODE: analysis\nCONTEXT: @**/* System: [system_context]\nEXPECTED: Complete module analysis for documentation\nRULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt)\")",
+  "command": "ccw cli -p \"PURPOSE: Document module comprehensively\nTASK: Extract module purpose, architecture, public API, dependencies\nMODE: analysis\nCONTEXT: @**/* System: [system_context]\nEXPECTED: Complete module analysis for documentation\nRULES: $(cat ~/.claude/workflows/cli-templates/prompts/documentation/module-documentation.txt)\" --tool gemini --mode analysis --cd src/auth",
  "output_to": "module_analysis",
  "on_error": "fail"
 }
--- a/.claude/skills/command-guide/reference/agents/test-context-search-agent.md
+++ b/.claude/skills/command-guide/reference/agents/test-context-search-agent.md
@@ -36,10 +36,10 @@ You are a test context discovery specialist focused on gathering test coverage i
 **Use**: Phase 1 source context loading

 ### 2. Test Coverage Discovery
-**Primary (Code-Index MCP)**:
- `mcp__code-index__find_files(pattern)` - Find test files (*.test.*, *.spec.*)
- `mcp__code-index__search_code_advanced()` - Search test patterns
- `mcp__code-index__get_file_summary()` - Analyze test structure
+**Primary (CCW CodexLens MCP)**:
+- `mcp__ccw-tools__codex_lens(action="search_files", query="*.test.*")` - Find test files
+- `mcp__ccw-tools__codex_lens(action="search", query="pattern")` - Search test patterns
+- `mcp__ccw-tools__codex_lens(action="symbol", file="path")` - Analyze test structure

 **Fallback (CLI)**:
 - `rg` (ripgrep) - Fast test pattern search
@@ -120,9 +120,10 @@ for (const summary_path of summaries) {

 **2.1 Existing Test Discovery**:
 ```javascript
-// Method 1: Code-Index MCP (preferred)
-const test_files = mcp__code-index__find_files({
-  patterns: ["*.test.*", "*.spec.*", "*test_*.py", "*_test.go"]
+// Method 1: CodexLens MCP (preferred)
+const test_files = mcp__ccw-tools__codex_lens({
+  action: "search_files",
+  query: "*.test.* OR *.spec.* OR test_*.py OR *_test.go"
 });

 // Method 2: Fallback CLI
--- a/.claude/skills/command-guide/reference/agents/test-fix-agent.md
+++ b/.claude/skills/command-guide/reference/agents/test-fix-agent.md
@@ -83,17 +83,18 @@ When task JSON contains implementation_approach array:
  - L1 (Unit): `*.test.*`, `*.spec.*` in `__tests__/`, `tests/unit/`
  - L2 (Integration): `tests/integration/`, `*.integration.test.*`
  - L3 (E2E): `tests/e2e/`, `*.e2e.test.*`, `cypress/`, `playwright/`
- **context-package.json** (CCW Workflow): Extract artifact paths using `jq -r '.brainstorm_artifacts.role_analyses[].files[].path'`
+- **context-package.json** (CCW Workflow): Use Read tool to get context package from `.workflow/active/{session}/.process/context-package.json`
 - Identify test commands from project configuration

 ```bash
 # Detect test framework and multi-layered commands
 if [ -f "package.json" ]; then
-    # Extract layer-specific test commands
-    LINT_CMD=$(cat package.json | jq -r '.scripts.lint // "eslint ."')
-    UNIT_CMD=$(cat package.json | jq -r '.scripts["test:unit"] // .scripts.test')
-    INTEGRATION_CMD=$(cat package.json | jq -r '.scripts["test:integration"] // ""')
-    E2E_CMD=$(cat package.json | jq -r '.scripts["test:e2e"] // ""')
+    # Extract layer-specific test commands using Read tool or jq
+    PKG_JSON=$(cat package.json)
+    LINT_CMD=$(echo "$PKG_JSON" | jq -r '.scripts.lint // "eslint ."')
+    UNIT_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:unit"] // .scripts.test')
+    INTEGRATION_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:integration"] // ""')
+    E2E_CMD=$(echo "$PKG_JSON" | jq -r '.scripts["test:e2e"] // ""')
 elif [ -f "pytest.ini" ] || [ -f "setup.py" ]; then
    LINT_CMD="ruff check . || flake8 ."
    UNIT_CMD="pytest tests/unit/"
--- a/.claude/skills/command-guide/reference/commands/memory/docs.md
+++ b/.claude/skills/command-guide/reference/commands/memory/docs.md
@@ -74,7 +74,7 @@ SlashCommand(command="/workflow:session:start --type docs --new \"{project_name}

 ```bash
 # Update workflow-session.json with docs-specific fields
-bash(jq '. + {"target_path":"{target_path}","project_root":"{project_root}","project_name":"{project_name}","mode":"full","tool":"gemini","cli_execute":false}' .workflow/active/{sessionId}/workflow-session.json > tmp.json && mv tmp.json .workflow/active/{sessionId}/workflow-session.json)
+ccw session {sessionId} write workflow-session.json '{"target_path":"{target_path}","project_root":"{project_root}","project_name":"{project_name}","mode":"full","tool":"gemini","cli_execute":false}'
 ```

 ### Phase 2: Analyze Structure
@@ -136,7 +136,8 @@ bash(if [ -d .workflow/docs/\${project_name} ]; then find .workflow/docs/\${proj

 ```bash
 # Count existing docs from doc-planning-data.json
-bash(cat .workflow/active/WFS-docs-{timestamp}/.process/doc-planning-data.json | jq '.existing_docs.file_list | length')
+ccw session WFS-docs-{timestamp} read .process/doc-planning-data.json --raw | jq '.existing_docs.file_list | length'
+# Or read entire process file and parse
 ```

 **Data Processing**: Use count result, then use **Edit tool** to update `workflow-session.json`:
@@ -190,10 +191,10 @@ Large Projects (single dir >10 docs):

 ```bash
 # 1. Get top-level directories from doc-planning-data.json
-bash(cat .workflow/active/WFS-docs-{timestamp}/.process/doc-planning-data.json | jq -r '.top_level_dirs[]')
+ccw session WFS-docs-{timestamp} read .process/doc-planning-data.json --raw | jq -r '.top_level_dirs[]'

 # 2. Get mode from workflow-session.json
-bash(cat .workflow/active/WFS-docs-{timestamp}/workflow-session.json | jq -r '.mode // "full"')
+ccw session WFS-docs-{timestamp} read workflow-session.json --raw | jq -r '.mode // "full"'

 # 3. Check for HTTP API
 bash(grep -r "router\.|@Get\|@Post" src/ 2>/dev/null && echo "API_FOUND" || echo "NO_API")
@@ -222,7 +223,7 @@ bash(grep -r "router\.|@Get\|@Post" src/ 2>/dev/null && echo "API_FOUND" || echo

 **Task ID Calculation**:
 ```bash
-group_count=$(jq '.groups.count' .workflow/active/WFS-docs-{timestamp}/.process/doc-planning-data.json)
+group_count=$(ccw session WFS-docs-{timestamp} read .process/doc-planning-data.json --raw | jq '.groups.count')
 readme_id=$((group_count + 1))   # Next ID after groups
 arch_id=$((group_count + 2))
 api_id=$((group_count + 3))
@@ -235,12 +236,12 @@ api_id=$((group_count + 3))
 | Mode | cli_execute | Placement | CLI MODE | Approval Flag | Agent Role |
 |------|-------------|-----------|----------|---------------|------------|
 | **Agent** | false | pre_analysis | analysis | (none) | Generate docs in implementation_approach |
-| **CLI** | true | implementation_approach | write | --approval-mode yolo | Execute CLI commands, validate output |
+| **CLI** | true | implementation_approach | write | --mode write | Execute CLI commands, validate output |

 **Command Patterns**:
- Gemini/Qwen: `cd dir && gemini -p "..."`
- CLI Mode: `cd dir && gemini --approval-mode yolo -p "..."`
- Codex: `codex -C dir --full-auto exec "..." --skip-git-repo-check -s danger-full-access`
+- Gemini/Qwen: `ccw cli -p "..." --tool gemini --mode analysis --cd dir`
+- CLI Mode: `ccw cli -p "..." --tool gemini --mode write --cd dir`
+- Codex: `ccw cli -p "..." --tool codex --mode write --cd dir`

 **Generation Process**:
 1. Read configuration values (tool, cli_execute, mode) from workflow-session.json
@@ -285,8 +286,8 @@ api_id=$((group_count + 3))
        "step": "load_precomputed_data",
        "action": "Load Phase 2 analysis and extract group directories",
        "commands": [
-          "bash(cat ${session_dir}/.process/doc-planning-data.json)",
-          "bash(jq '.groups.assignments[] | select(.group_id == \"${group_number}\") | .directories' ${session_dir}/.process/doc-planning-data.json)"
+          "ccw session ${session_id} read .process/doc-planning-data.json",
+          "ccw session ${session_id} read .process/doc-planning-data.json --raw | jq '.groups.assignments[] | select(.group_id == \"${group_number}\") | .directories'"
        ],
        "output_to": "phase2_context",
        "note": "Single JSON file contains all Phase 2 analysis results"
@@ -331,7 +332,7 @@ api_id=$((group_count + 3))
 {
  "step": 2,
  "title": "Batch generate documentation via CLI",
-  "command": "bash(dirs=$(jq -r '.groups.assignments[] | select(.group_id == \"${group_number}\") | .directories[]' ${session_dir}/.process/doc-planning-data.json); for dir in $dirs; do cd \"$dir\" && gemini --approval-mode yolo -p \"PURPOSE: Generate module docs\\nTASK: Create documentation\\nMODE: write\\nCONTEXT: @**/* [phase2_context]\\nEXPECTED: API.md and README.md\\nRULES: Mirror structure\" || echo \"Failed: $dir\"; cd -; done)",
+  "command": "ccw cli -p 'PURPOSE: Generate module docs\\nTASK: Create documentation\\nMODE: write\\nCONTEXT: @**/* [phase2_context]\\nEXPECTED: API.md and README.md\\nRULES: Mirror structure' --tool gemini --mode write --cd ${dirs_from_group}",
  "depends_on": [1],
  "output": "generated_docs"
 }
@@ -363,7 +364,7 @@ api_id=$((group_count + 3))
      },
      {
        "step": "analyze_project",
-        "command": "bash(gemini \"PURPOSE: Analyze project structure\\nTASK: Extract overview from modules\\nMODE: analysis\\nCONTEXT: [all_module_docs]\\nEXPECTED: Project outline\")",
+        "command": "bash(ccw cli -p \"PURPOSE: Analyze project structure\\nTASK: Extract overview from modules\\nMODE: analysis\\nCONTEXT: [all_module_docs]\\nEXPECTED: Project outline\" --tool gemini --mode analysis)",
        "output_to": "project_outline"
      }
    ],
@@ -403,7 +404,7 @@ api_id=$((group_count + 3))
    "pre_analysis": [
      {"step": "load_existing_docs", "command": "bash(cat .workflow/docs/${project_name}/{ARCHITECTURE,EXAMPLES}.md 2>/dev/null || echo 'No existing docs')", "output_to": "existing_arch_examples"},
      {"step": "load_all_docs", "command": "bash(cat .workflow/docs/${project_name}/README.md && find .workflow/docs/${project_name} -type f -name '*.md' ! -path '*/README.md' ! -path '*/ARCHITECTURE.md' ! -path '*/EXAMPLES.md' ! -path '*/api/*' | xargs cat)", "output_to": "all_docs"},
-      {"step": "analyze_architecture", "command": "bash(gemini \"PURPOSE: Analyze system architecture\\nTASK: Synthesize architectural overview and examples\\nMODE: analysis\\nCONTEXT: [all_docs]\\nEXPECTED: Architecture + Examples outline\")", "output_to": "arch_examples_outline"}
+      {"step": "analyze_architecture", "command": "bash(ccw cli -p \"PURPOSE: Analyze system architecture\\nTASK: Synthesize architectural overview and examples\\nMODE: analysis\\nCONTEXT: [all_docs]\\nEXPECTED: Architecture + Examples outline\" --tool gemini --mode analysis)", "output_to": "arch_examples_outline"}
    ],
    "implementation_approach": [
      {
@@ -440,7 +441,7 @@ api_id=$((group_count + 3))
    "pre_analysis": [
      {"step": "discover_api", "command": "bash(rg 'router\\.| @(Get|Post)' -g '*.{ts,js}')", "output_to": "endpoint_discovery"},
      {"step": "load_existing_api", "command": "bash(cat .workflow/docs/${project_name}/api/README.md 2>/dev/null || echo 'No existing API docs')", "output_to": "existing_api_docs"},
-      {"step": "analyze_api", "command": "bash(gemini \"PURPOSE: Document HTTP API\\nTASK: Analyze endpoints\\nMODE: analysis\\nCONTEXT: @src/api/**/* [endpoint_discovery]\\nEXPECTED: API outline\")", "output_to": "api_outline"}
+      {"step": "analyze_api", "command": "bash(ccw cli -p \"PURPOSE: Document HTTP API\\nTASK: Analyze endpoints\\nMODE: analysis\\nCONTEXT: @src/api/**/* [endpoint_discovery]\\nEXPECTED: API outline\" --tool gemini --mode analysis)", "output_to": "api_outline"}
    ],
    "implementation_approach": [
      {
@@ -601,7 +602,7 @@ api_id=$((group_count + 3))
 | Mode | CLI Placement | CLI MODE | Approval Flag | Agent Role |
 |------|---------------|----------|---------------|------------|
 | **Agent (default)** | pre_analysis | analysis | (none) | Generates documentation content |
-| **CLI (--cli-execute)** | implementation_approach | write | --approval-mode yolo | Executes CLI commands, validates output |
+| **CLI (--cli-execute)** | implementation_approach | write | --mode write | Executes CLI commands, validates output |

 **Execution Flow**:
 - **Phase 2**: Unified analysis once, results in `.process/`
--- a/.claude/skills/command-guide/reference/commands/memory/load.md
+++ b/.claude/skills/command-guide/reference/commands/memory/load.md
@@ -5,7 +5,7 @@ argument-hint: "[--tool gemini|qwen] \"task context description\""
 allowed-tools: Task(*), Bash(*)
 examples:
  - /memory:load "在当前前端基础上开发用户认证功能"
-  - /memory:load --tool qwen -p "重构支付模块API"
+  - /memory:load --tool qwen "重构支付模块API"
 ---

 # Memory Load Command (/memory:load)
@@ -39,7 +39,7 @@ The command fully delegates to **universal-executor agent**, which autonomously:
 1. **Analyzes Project Structure**: Executes `get_modules_by_depth.sh` to understand architecture
 2. **Loads Documentation**: Reads CLAUDE.md, README.md and other key docs
 3. **Extracts Keywords**: Derives core keywords from task description
-4. **Discovers Files**: Uses MCP code-index or rg/find to locate relevant files
+4. **Discovers Files**: Uses CodexLens MCP or rg/find to locate relevant files
 5. **CLI Deep Analysis**: Executes Gemini/Qwen CLI for deep context analysis
 6. **Generates Content Package**: Returns structured JSON core content package

@@ -136,7 +136,7 @@ Task(
 Execute Gemini/Qwen CLI for deep analysis (saves main thread tokens):

 \`\`\`bash
-cd . && ${tool} -p "
+ccw cli -p "
 PURPOSE: Extract project core context for task: ${task_description}
 TASK: Analyze project architecture, tech stack, key patterns, relevant files
 MODE: analysis
@@ -147,7 +147,7 @@ RULES:
 - Identify key architecture patterns and technical constraints
 - Extract integration points and development standards
 - Output concise, structured format
-"
+" --tool ${tool} --mode analysis
 \`\`\`

 ### Step 4: Generate Core Content Package
@@ -212,7 +212,7 @@ Before returning:
 ### Example 2: Using Qwen Tool

 ```bash
-/memory:load --tool qwen -p "重构支付模块API"
+/memory:load --tool qwen "重构支付模块API"
 ```

 Agent uses Qwen CLI for analysis, returns same structured package.
--- a/.claude/skills/command-guide/reference/commands/memory/tech-research.md
+++ b/.claude/skills/command-guide/reference/commands/memory/tech-research.md
@@ -1,477 +1,314 @@
 ---
 name: tech-research
-description: 3-phase orchestrator: extract tech stack from session/name → delegate to agent for Exa research and module generation → generate SKILL.md index (skips phase 2 if exists)
+description: "3-phase orchestrator: extract tech stack → Exa research → generate path-conditional rules (auto-loaded by Claude Code)"
 argument-hint: "[session-id | tech-stack-name] [--regenerate] [--tool <gemini|qwen>]"
 allowed-tools: SlashCommand(*), TodoWrite(*), Bash(*), Read(*), Write(*), Task(*)
 ---

-# Tech Stack Research SKILL Generator
+# Tech Stack Rules Generator

 ## Overview

-**Pure Orchestrator with Agent Delegation**: Prepares context paths and delegates ALL work to agent. Agent produces files directly.
+**Purpose**: Generate multi-layered, path-conditional rules that Claude Code automatically loads based on file context.

-**Auto-Continue Workflow**: Runs fully autonomously once triggered. Each phase completes and automatically triggers the next phase.
+**Key Difference from SKILL Memory**:
+- **SKILL**: Manual loading via `Skill(command: "tech-name")`
+- **Rules**: Automatic loading when working with matching file paths

-**Execution Paths**:
- **Full Path**: All 3 phases (no existing SKILL OR `--regenerate` specified)
- **Skip Path**: Phase 1 → Phase 3 (existing SKILL found AND no `--regenerate` flag)
- **Phase 3 Always Executes**: SKILL index is always generated or updated
+**Output Structure**:
+```
+.claude/rules/tech/{tech-stack}/
+├── core.md           # paths: **/*.{ext} - Core principles
+├── patterns.md       # paths: src/**/*.{ext} - Implementation patterns
+├── testing.md        # paths: **/*.{test,spec}.{ext} - Testing rules
+├── config.md         # paths: *.config.* - Configuration rules
+├── api.md            # paths: **/api/**/* - API rules (backend only)
+├── components.md     # paths: **/components/**/* - Component rules (frontend only)
+└── metadata.json     # Generation metadata
+```

-**Agent Responsibility**:
- Agent does ALL the work: context reading, Exa research, content synthesis, file writing
- Orchestrator only provides context paths and waits for completion
+**Templates Location**: `~/.claude/workflows/cli-templates/prompts/rules/`
+
+---

 ## Core Rules

-1. **Start Immediately**: First action is TodoWrite initialization, second action is Phase 1 execution
-2. **Context Path Delegation**: Pass session directory or tech stack name to agent, let agent do discovery
-3. **Agent Produces Files**: Agent directly writes all module files, orchestrator does NOT parse agent output
-4. **Auto-Continue**: After completing each phase, update TodoWrite and immediately execute next phase
-5. **No User Prompts**: Never ask user questions or wait for input between phases
-6. **Track Progress**: Update TodoWrite after EVERY phase completion before starting next phase
-7. **Lightweight Index**: Phase 3 only generates SKILL.md index by reading existing files
+1. **Start Immediately**: First action is TodoWrite initialization
+2. **Path-Conditional Output**: Every rule file includes `paths` frontmatter
+3. **Template-Driven**: Agent reads templates before generating content
+4. **Agent Produces Files**: Agent writes all rule files directly
+5. **No Manual Loading**: Rules auto-activate when Claude works with matching files

 ---

 ## 3-Phase Execution

-### Phase 1: Prepare Context Paths
+### Phase 1: Prepare Context & Detect Tech Stack

-**Goal**: Detect input mode, prepare context paths for agent, check existing SKILL
+**Goal**: Detect input mode, extract tech stack info, determine file extensions

 **Input Mode Detection**:
 ```bash
-# Get input parameter
 input="$1"

-# Detect mode
 if [[ "$input" == WFS-* ]]; then
  MODE="session"
  SESSION_ID="$input"
-  CONTEXT_PATH=".workflow/${SESSION_ID}"
+  # Read workflow-session.json to extract tech stack
 else
  MODE="direct"
  TECH_STACK_NAME="$input"
-  CONTEXT_PATH="$input"  # Pass tech stack name as context
 fi
 ```

-**Check Existing SKILL**:
-```bash
-# For session mode, peek at session to get tech stack name
-if [[ "$MODE" == "session" ]]; then
-  bash(test -f ".workflow/${SESSION_ID}/workflow-session.json")
-  Read(.workflow/${SESSION_ID}/workflow-session.json)
-  # Extract tech_stack_name (minimal extraction)
-fi
+**Tech Stack Analysis**:
+```javascript
+// Decompose composite tech stacks
+// "typescript-react-nextjs" → ["typescript", "react", "nextjs"]

-# Normalize and check
+const TECH_EXTENSIONS = {
+  "typescript": "{ts,tsx}",
+  "javascript": "{js,jsx}",
+  "python": "py",
+  "rust": "rs",
+  "go": "go",
+  "java": "java",
+  "csharp": "cs",
+  "ruby": "rb",
+  "php": "php"
+};
+
+const FRAMEWORK_TYPE = {
+  "react": "frontend",
+  "vue": "frontend",
+  "angular": "frontend",
+  "nextjs": "fullstack",
+  "nuxt": "fullstack",
+  "fastapi": "backend",
+  "express": "backend",
+  "django": "backend",
+  "rails": "backend"
+};
+```
+
+**Check Existing Rules**:
+```bash
 normalized_name=$(echo "$TECH_STACK_NAME" | tr '[:upper:]' '[:lower:]' | tr ' ' '-')
-bash(test -d ".claude/skills/${normalized_name}" && echo "exists" || echo "not_exists")
-bash(find ".claude/skills/${normalized_name}" -name "*.md" 2>/dev/null | wc -l || echo 0)
+rules_dir=".claude/rules/tech/${normalized_name}"
+existing_count=$(find "${rules_dir}" -name "*.md" 2>/dev/null | wc -l || echo 0)
 ```

 **Skip Decision**:
-```javascript
-if (existing_files > 0 && !regenerate_flag) {
-  SKIP_GENERATION = true
-  message = "Tech stack SKILL already exists, skipping Phase 2. Use --regenerate to force regeneration."
-} else if (regenerate_flag) {
-  bash(rm -rf ".claude/skills/${normalized_name}")
-  SKIP_GENERATION = false
-  message = "Regenerating tech stack SKILL from scratch."
-} else {
-  SKIP_GENERATION = false
-  message = "No existing SKILL found, generating new tech stack documentation."
-}
-```
+- If `existing_count > 0` AND no `--regenerate` → `SKIP_GENERATION = true`
+- If `--regenerate` → Delete existing and regenerate

 **Output Variables**:
- `MODE`: `session` or `direct`
- `SESSION_ID`: Session ID (if session mode)
- `CONTEXT_PATH`: Path to session directory OR tech stack name
- `TECH_STACK_NAME`: Extracted or provided tech stack name
- `SKIP_GENERATION`: Boolean - whether to skip Phase 2
+- `TECH_STACK_NAME`: Normalized name
+- `PRIMARY_LANG`: Primary language
+- `FILE_EXT`: File extension pattern
+- `FRAMEWORK_TYPE`: frontend | backend | fullstack | library
+- `COMPONENTS`: Array of tech components
+- `SKIP_GENERATION`: Boolean

-**TodoWrite**:
- If skipping: Mark phase 1 completed, phase 2 completed, phase 3 in_progress
- If not skipping: Mark phase 1 completed, phase 2 in_progress
+**TodoWrite**: Mark phase 1 completed

 ---

-### Phase 2: Agent Produces All Files
+### Phase 2: Agent Produces Path-Conditional Rules

 **Skip Condition**: Skipped if `SKIP_GENERATION = true`

-**Goal**: Delegate EVERYTHING to agent - context reading, Exa research, content synthesis, and file writing
-
-**Agent Task Specification**:
+**Goal**: Delegate to agent for Exa research and rule file generation

+**Template Files**:
 ```
-Task(
+~/.claude/workflows/cli-templates/prompts/rules/
+├── tech-rules-agent-prompt.txt  # Agent instructions
+├── rule-core.txt                # Core principles template
+├── rule-patterns.txt            # Implementation patterns template
+├── rule-testing.txt             # Testing rules template
+├── rule-config.txt              # Configuration rules template
+├── rule-api.txt                 # API rules template (backend)
+└── rule-components.txt          # Component rules template (frontend)
+```
+
+**Agent Task**:
+
+```javascript
+Task({
  subagent_type: "general-purpose",
-  description: "Generate tech stack SKILL: {CONTEXT_PATH}",
-  prompt: "
-Generate a complete tech stack SKILL package with Exa research.
+  description: `Generate tech stack rules: ${TECH_STACK_NAME}`,
+  prompt: `
+You are generating path-conditional rules for Claude Code.

-**Context Provided**:
- Mode: {MODE}
- Context Path: {CONTEXT_PATH}
+## Context
+- Tech Stack: ${TECH_STACK_NAME}
+- Primary Language: ${PRIMARY_LANG}
+- File Extensions: ${FILE_EXT}
+- Framework Type: ${FRAMEWORK_TYPE}
+- Components: ${JSON.stringify(COMPONENTS)}
+- Output Directory: .claude/rules/tech/${TECH_STACK_NAME}/

-**Templates Available**:
- Module Format: ~/.claude/workflows/cli-templates/prompts/tech/tech-module-format.txt
- SKILL Index: ~/.claude/workflows/cli-templates/prompts/tech/tech-skill-index.txt
+## Instructions

-**Your Responsibilities**:
+Read the agent prompt template for detailed instructions:
+$(cat ~/.claude/workflows/cli-templates/prompts/rules/tech-rules-agent-prompt.txt)

-1. **Extract Tech Stack Information**:
+## Execution Steps

-   IF MODE == 'session':
-     - Read `.workflow/active/{session_id}/workflow-session.json`
-     - Read `.workflow/active/{session_id}/.process/context-package.json`
-     - Extract tech_stack: {language, frameworks, libraries}
-     - Build tech stack name: \"{language}-{framework1}-{framework2}\"
-     - Example: \"typescript-react-nextjs\"
+1. Execute Exa research queries (see agent prompt)
+2. Read each rule template
+3. Generate rule files following template structure
+4. Write files to output directory
+5. Write metadata.json
+6. Report completion

-   IF MODE == 'direct':
-     - Tech stack name = CONTEXT_PATH
-     - Parse composite: split by '-' delimiter
-     - Example: \"typescript-react-nextjs\" → [\"typescript\", \"react\", \"nextjs\"]
+## Variable Substitutions

-2. **Execute Exa Research** (4-6 parallel queries):
-
-   Base Queries (always execute):
-   - mcp__exa__get_code_context_exa(query: \"{tech} core principles best practices 2025\", tokensNum: 8000)
-   - mcp__exa__get_code_context_exa(query: \"{tech} common patterns architecture examples\", tokensNum: 7000)
-   - mcp__exa__web_search_exa(query: \"{tech} configuration setup tooling 2025\", numResults: 5)
-   - mcp__exa__get_code_context_exa(query: \"{tech} testing strategies\", tokensNum: 5000)
-
-   Component Queries (if composite):
-   - For each additional component:
-     mcp__exa__get_code_context_exa(query: \"{main_tech} {component} integration\", tokensNum: 5000)
-
-3. **Read Module Format Template**:
-
-   Read template for structure guidance:
-   ```bash
-   Read(~/.claude/workflows/cli-templates/prompts/tech/tech-module-format.txt)
-   ```
-
-4. **Synthesize Content into 6 Modules**:
-
-   Follow template structure from tech-module-format.txt:
-   - **principles.md** - Core concepts, philosophies (~3K tokens)
-   - **patterns.md** - Implementation patterns with code examples (~5K tokens)
-   - **practices.md** - Best practices, anti-patterns, pitfalls (~4K tokens)
-   - **testing.md** - Testing strategies, frameworks (~3K tokens)
-   - **config.md** - Setup, configuration, tooling (~3K tokens)
-   - **frameworks.md** - Framework integration (only if composite, ~4K tokens)
-
-   Each module follows template format:
-   - Frontmatter (YAML)
-   - Main sections with clear headings
-   - Code examples from Exa research
-   - Best practices sections
-   - References to Exa sources
-
-5. **Write Files Directly**:
-
-   ```javascript
-   // Create directory
-   bash(mkdir -p \".claude/skills/{tech_stack_name}\")
-
-   // Write each module file using Write tool
-   Write({ file_path: \".claude/skills/{tech_stack_name}/principles.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/patterns.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/practices.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/testing.md\", content: ... })
-   Write({ file_path: \".claude/skills/{tech_stack_name}/config.md\", content: ... })
-   // Write frameworks.md only if composite
-
-   // Write metadata.json
-   Write({
-     file_path: \".claude/skills/{tech_stack_name}/metadata.json\",
-     content: JSON.stringify({
-       tech_stack_name,
-       components,
-       is_composite,
-       generated_at: timestamp,
-       source: \"exa-research\",
-       research_summary: { total_queries, total_sources }
-     })
-   })
-   ```
-
-6. **Report Completion**:
-
-   Provide summary:
-   - Tech stack name
-   - Files created (count)
-   - Exa queries executed
-   - Sources consulted
-
-**CRITICAL**:
- MUST read external template files before generating content (step 3 for modules, step 4 for index)
- You have FULL autonomy - read files, execute Exa, synthesize content, write files
- Do NOT return JSON or structured data - produce actual .md files
- Handle errors gracefully (Exa failures, missing files, template read failures)
- If tech stack cannot be determined, ask orchestrator to clarify
-  "
-)
+Replace in templates:
+- {TECH_STACK_NAME} → ${TECH_STACK_NAME}
+- {PRIMARY_LANG} → ${PRIMARY_LANG}
+- {FILE_EXT} → ${FILE_EXT}
+- {FRAMEWORK_TYPE} → ${FRAMEWORK_TYPE}
+`
+})
 ```

 **Completion Criteria**:
- Agent task executed successfully
- 5-6 modular files written to `.claude/skills/{tech_stack_name}/`
+- 4-6 rule files written with proper `paths` frontmatter
 - metadata.json written
- Agent reports completion
+- Agent reports files created

-**TodoWrite**: Mark phase 2 completed, phase 3 in_progress
+**TodoWrite**: Mark phase 2 completed

 ---

-### Phase 3: Generate SKILL.md Index
+### Phase 3: Verify & Report

-**Note**: This phase **ALWAYS executes** - generates or updates the SKILL index.
-
-**Goal**: Read generated module files and create SKILL.md index with loading recommendations
+**Goal**: Verify generated files and provide usage summary

 **Steps**:

-1. **Verify Generated Files**:
+1. **Verify Files**:
   ```bash
-   bash(find ".claude/skills/${TECH_STACK_NAME}" -name "*.md" -type f | sort)
+   find ".claude/rules/tech/${TECH_STACK_NAME}" -name "*.md" -type f
   ```

-2. **Read metadata.json**:
+2. **Validate Frontmatter**:
+   ```bash
+   head -5 ".claude/rules/tech/${TECH_STACK_NAME}/core.md"
+   ```
+
+3. **Read Metadata**:
   ```javascript
-   Read(.claude/skills/${TECH_STACK_NAME}/metadata.json)
-   // Extract: tech_stack_name, components, is_composite, research_summary
+   Read(`.claude/rules/tech/${TECH_STACK_NAME}/metadata.json`)
   ```

-3. **Read Module Headers** (optional, first 20 lines):
-   ```javascript
-   Read(.claude/skills/${TECH_STACK_NAME}/principles.md, limit: 20)
-   // Repeat for other modules
+4. **Generate Summary Report**:
   ```
+   Tech Stack Rules Generated

-4. **Read SKILL Index Template**:
+   Tech Stack: {TECH_STACK_NAME}
+   Location: .claude/rules/tech/{TECH_STACK_NAME}/

-   ```javascript
-   Read(~/.claude/workflows/cli-templates/prompts/tech/tech-skill-index.txt)
+   Files Created:
+   ├── core.md         → paths: **/*.{ext}
+   ├── patterns.md     → paths: src/**/*.{ext}
+   ├── testing.md      → paths: **/*.{test,spec}.{ext}
+   ├── config.md       → paths: *.config.*
+   ├── api.md          → paths: **/api/**/* (if backend)
+   └── components.md   → paths: **/components/**/* (if frontend)
+
+   Auto-Loading:
+   - Rules apply automatically when editing matching files
+   - No manual loading required
+
+   Example Activation:
+   - Edit src/components/Button.tsx → core.md + patterns.md + components.md
+   - Edit tests/api.test.ts → core.md + testing.md
+   - Edit package.json → config.md
   ```

-5. **Generate SKILL.md Index**:
-
-   Follow template from tech-skill-index.txt with variable substitutions:
-   - `{TECH_STACK_NAME}`: From metadata.json
-   - `{MAIN_TECH}`: Primary technology
-   - `{ISO_TIMESTAMP}`: Current timestamp
-   - `{QUERY_COUNT}`: From research_summary
-   - `{SOURCE_COUNT}`: From research_summary
-   - Conditional sections for composite tech stacks
-
-   Template provides structure for:
-   - Frontmatter with metadata
-   - Overview and tech stack description
-   - Module organization (Core/Practical/Config sections)
-   - Loading recommendations (Quick/Implementation/Complete)
-   - Usage guidelines and auto-trigger keywords
-   - Research metadata and version history
-
-6. **Write SKILL.md**:
-   ```javascript
-   Write({
-     file_path: `.claude/skills/${TECH_STACK_NAME}/SKILL.md`,
-     content: generatedIndexMarkdown
-   })
-   ```
-
-**Completion Criteria**:
- SKILL.md index written
- All module files verified
- Loading recommendations included
-
 **TodoWrite**: Mark phase 3 completed

-**Final Report**:
-```
-Tech Stack SKILL Package Complete
-
-Tech Stack: {TECH_STACK_NAME}
-Location: .claude/skills/{TECH_STACK_NAME}/
-
-Files: SKILL.md + 5-6 modules + metadata.json
-Exa Research: {queries} queries, {sources} sources
-
-Usage: Skill(command: "{TECH_STACK_NAME}")
-```
-
 ---

-## Implementation Details
+## Path Pattern Reference

-### TodoWrite Patterns
+| Pattern | Matches |
+|---------|---------|
+| `**/*.ts` | All .ts files |
+| `src/**/*` | All files under src/ |
+| `*.config.*` | Config files in root |
+| `**/*.{ts,tsx}` | .ts and .tsx files |

-**Initialization** (Before Phase 1):
-```javascript
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "in_progress", "activeForm": "Preparing context paths"},
-  {"content": "Agent produces all module files", "status": "pending", "activeForm": "Agent producing files"},
-  {"content": "Generate SKILL.md index", "status": "pending", "activeForm": "Generating SKILL index"}
-]})
-```
-
-**Full Path** (SKIP_GENERATION = false):
-```javascript
-// After Phase 1
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "in_progress", ...},
-  {"content": "Generate SKILL.md index", "status": "pending", ...}
-]})
-
-// After Phase 2
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},
-  {"content": "Generate SKILL.md index", "status": "in_progress", ...}
-]})
-
-// After Phase 3
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},
-  {"content": "Generate SKILL.md index", "status": "completed", ...}
-]})
-```
-
-**Skip Path** (SKIP_GENERATION = true):
-```javascript
-// After Phase 1 (skip Phase 2)
-TodoWrite({todos: [
-  {"content": "Prepare context paths", "status": "completed", ...},
-  {"content": "Agent produces all module files", "status": "completed", ...},  // Skipped
-  {"content": "Generate SKILL.md index", "status": "in_progress", ...}
-]})
-```
-
-### Execution Flow
-
-**Full Path**:
-```
-User → TodoWrite Init → Phase 1 (prepare) → Phase 2 (agent writes files) → Phase 3 (write index) → Report
-```
-
-**Skip Path**:
-```
-User → TodoWrite Init → Phase 1 (detect existing) → Phase 3 (update index) → Report
-```
-
-### Error Handling
-
-**Phase 1 Errors**:
- Invalid session ID: Report error, verify session exists
- Missing context-package: Warn, fall back to direct mode
- No tech stack detected: Ask user to specify tech stack name
-
-**Phase 2 Errors (Agent)**:
- Agent task fails: Retry once, report if fails again
- Exa API failures: Agent handles internally with retries
- Incomplete results: Warn user, proceed with partial data if minimum sections available
-
-**Phase 3 Errors**:
- Write failures: Report which files failed
- Missing files: Note in SKILL.md, suggest regeneration
+| Tech Stack | Core Pattern | Test Pattern |
+|------------|--------------|--------------|
+| TypeScript | `**/*.{ts,tsx}` | `**/*.{test,spec}.{ts,tsx}` |
+| Python | `**/*.py` | `**/test_*.py, **/*_test.py` |
+| Rust | `**/*.rs` | `**/tests/**/*.rs` |
+| Go | `**/*.go` | `**/*_test.go` |

 ---

 ## Parameters

 ```bash
-/memory:tech-research [session-id | "tech-stack-name"] [--regenerate] [--tool <gemini|qwen>]
+/memory:tech-research [session-id | "tech-stack-name"] [--regenerate]
 ```

 **Arguments**:
- **session-id | tech-stack-name**: Input source (auto-detected by WFS- prefix)
-  - Session mode: `WFS-user-auth-v2` - Extract tech stack from workflow
-  - Direct mode: `"typescript"`, `"typescript-react-nextjs"` - User specifies
- **--regenerate**: Force regenerate existing SKILL (deletes and recreates)
- **--tool**: Reserved for future CLI integration (default: gemini)
+- **session-id**: `WFS-*` format - Extract from workflow session
+- **tech-stack-name**: Direct input - `"typescript"`, `"typescript-react"`
+- **--regenerate**: Force regenerate existing rules

 ---

 ## Examples

-**Generated File Structure** (for all examples):
-```
-.claude/skills/{tech-stack}/
-├── SKILL.md           # Index (Phase 3)
-├── principles.md      # Agent (Phase 2)
-├── patterns.md        # Agent
-├── practices.md       # Agent
-├── testing.md         # Agent
-├── config.md          # Agent
-├── frameworks.md      # Agent (if composite)
-└── metadata.json      # Agent
-```
-
-### Direct Mode - Single Stack
+### Single Language

 ```bash
 /memory:tech-research "typescript"
 ```

-**Workflow**:
-1. Phase 1: Detects direct mode, checks existing SKILL
-2. Phase 2: Agent executes 4 Exa queries, writes 5 modules
-3. Phase 3: Generates SKILL.md index
+**Output**: `.claude/rules/tech/typescript/` with 4 rule files

-### Direct Mode - Composite Stack
+### Frontend Stack

 ```bash
-/memory:tech-research "typescript-react-nextjs"
+/memory:tech-research "typescript-react"
 ```

-**Workflow**:
-1. Phase 1: Decomposes into ["typescript", "react", "nextjs"]
-2. Phase 2: Agent executes 6 Exa queries (4 base + 2 components), writes 6 modules (adds frameworks.md)
-3. Phase 3: Generates SKILL.md index with framework integration
+**Output**: `.claude/rules/tech/typescript-react/` with 5 rule files (includes components.md)

-### Session Mode - Extract from Workflow
+### Backend Stack
+
+```bash
+/memory:tech-research "python-fastapi"
+```
+
+**Output**: `.claude/rules/tech/python-fastapi/` with 5 rule files (includes api.md)
+
+### From Session

 ```bash
 /memory:tech-research WFS-user-auth-20251104
 ```

-**Workflow**:
-1. Phase 1: Reads session, extracts tech stack: `python-fastapi-sqlalchemy`
-2. Phase 2: Agent researches Python + FastAPI + SQLAlchemy, writes 6 modules
-3. Phase 3: Generates SKILL.md index
+**Workflow**: Extract tech stack from session → Generate rules

-### Regenerate Existing
+---

-```bash
-/memory:tech-research "react" --regenerate
-```
-
-**Workflow**:
-1. Phase 1: Deletes existing SKILL due to --regenerate
-2. Phase 2: Agent executes fresh Exa research (latest 2025 practices)
-3. Phase 3: Generates updated SKILL.md
-
-### Skip Path - Fast Update
-
-```bash
-/memory:tech-research "python"
-```
-
-**Scenario**: SKILL already exists with 7 files
-
-**Workflow**:
-1. Phase 1: Detects existing SKILL, sets SKIP_GENERATION = true
-2. Phase 2: **SKIPPED**
-3. Phase 3: Updates SKILL.md index only (5-10x faster)
+## Comparison: Rules vs SKILL

+| Aspect | SKILL Memory | Rules |
+|--------|--------------|-------|
+| Loading | Manual: `Skill("tech")` | Automatic by path |
+| Scope | All files when loaded | Only matching files |
+| Granularity | Monolithic packages | Per-file-type |
+| Context | Full package | Only relevant rules |

+**When to Use**:
+- **Rules**: Tech stack conventions per file type
+- **SKILL**: Reference docs, APIs, examples for manual lookup
--- a/.claude/skills/command-guide/reference/commands/memory/workflow-skill-memory.md
+++ b/.claude/skills/command-guide/reference/commands/memory/workflow-skill-memory.md
@@ -187,7 +187,7 @@ Objectives:

 3. Use Gemini for aggregation (optional):
   Command pattern:
-   cd .workflow/.archives/{session_id} && gemini -p "
+   ccw cli -p "
   PURPOSE: Extract lessons and conflicts from workflow session
   TASK:
   • Analyze IMPL_PLAN and lessons from manifest
@@ -198,7 +198,7 @@ Objectives:
   CONTEXT: @IMPL_PLAN.md @workflow-session.json
   EXPECTED: Structured lessons and conflicts in JSON format
   RULES: Template reference from skill-aggregation.txt
-   "
+   " --tool gemini --mode analysis --cd .workflow/.archives/{session_id}

 3.5. **Generate SKILL.md Description** (CRITICAL for auto-loading):

@@ -334,7 +334,7 @@ Objectives:
   - Sort sessions by date

 2. Use Gemini for final aggregation:
-   gemini -p "
+   ccw cli -p "
   PURPOSE: Aggregate lessons and conflicts from all workflow sessions
   TASK:
   • Group successes by functional domain
@@ -345,7 +345,7 @@ Objectives:
   CONTEXT: [Provide aggregated JSON data]
   EXPECTED: Final aggregated structure for SKILL documents
   RULES: Template reference from skill-aggregation.txt
-   "
+   " --tool gemini --mode analysis

 3. Read templates for formatting (same 4 templates as single mode)

--- a/.claude/skills/command-guide/reference/commands/workflow/execute.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/execute.md
@@ -67,7 +67,9 @@ Phase 4: Execution Strategy & Task Execution
         ├─ Get next in_progress task from TodoWrite
         ├─ Lazy load task JSON
         ├─ Launch agent with task context
-         ├─ Mark task completed
+         ├─ Mark task completed (update IMPL-*.json status)
+         │  # Update task status with ccw session (auto-tracks status_history):
+         │  # ccw session task ${sessionId} IMPL-X completed
         └─ Advance to next task

 Phase 5: Completion
@@ -90,37 +92,32 @@ Resume Mode (--resume-session):

 **Process**:

-#### Step 1.1: Count Active Sessions
+#### Step 1.1: List Active Sessions
 ```bash
-bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | wc -l)
+ccw session list --location active
+# Returns: {"success":true,"result":{"active":[...],"total":N}}
 ```

 #### Step 1.2: Handle Session Selection

-**Case A: No Sessions** (count = 0)
+**Case A: No Sessions** (total = 0)
 ```
 ERROR: No active workflow sessions found
 Run /workflow:plan "task description" to create a session
 ```

-**Case B: Single Session** (count = 1)
-```bash
-bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | head -1 | xargs basename)
-```
-Auto-select and continue to Phase 2.
+**Case B: Single Session** (total = 1)
+Auto-select the single session from result.active[0].session_id and continue to Phase 2.

-**Case C: Multiple Sessions** (count > 1)
+**Case C: Multiple Sessions** (total > 1)

-List sessions with metadata and prompt user selection:
+List sessions with metadata using ccw session:
 ```bash
-bash(for dir in .workflow/active/WFS-*/; do
-  session=$(basename "$dir")
-  project=$(jq -r '.project // "Unknown"' "$dir/workflow-session.json" 2>/dev/null)
-  total=$(grep -c "^- \[" "$dir/TODO_LIST.md" 2>/dev/null || echo "0")
-  completed=$(grep -c "^- \[x\]" "$dir/TODO_LIST.md" 2>/dev/null || echo "0")
-  [ "$total" -gt 0 ] && progress=$((completed * 100 / total)) || progress=0
-  echo "${session} | ${project} | ${completed}/${total} tasks (${progress}%)"
-done)
+# Get session list with metadata
+ccw session list --location active
+
+# For each session, get stats
+ccw session stats WFS-session-name
 ```

 Use AskUserQuestion to present formatted options (max 4 options shown):
@@ -152,12 +149,20 @@ Parse user input (supports: number "1", full ID "WFS-auth-system", or partial "a

 #### Step 1.3: Load Session Metadata
 ```bash
-bash(cat .workflow/active/${sessionId}/workflow-session.json)
+ccw session ${sessionId} read workflow-session.json
 ```

 **Output**: Store session metadata in memory
 **DO NOT read task JSONs yet** - defer until execution phase (lazy loading)

+#### Step 1.4: Update Session Status to Active
+**Purpose**: Update workflow-session.json status from "planning" to "active" for dashboard monitoring.
+
+```bash
+# Update status atomically using ccw session
+ccw session status ${sessionId} active
+```
+
 **Resume Mode**: This entire phase is skipped when `--resume-session="session-id"` flag is provided.

 ### Phase 2: Planning Document Validation
@@ -395,7 +400,7 @@ Task(subagent_type="{meta.agent}",
     1. Read complete task JSON: {session.task_json_path}
     2. Load context package: {session.context_package_path}

-     Follow complete execution guidelines in @.claude/agents/{meta.agent}.md
+

     **Session Paths**:
     - Workflow Dir: {session.workflow_dir}
--- a/.claude/skills/command-guide/reference/commands/workflow/lite-execute.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/lite-execute.md
@@ -473,10 +473,10 @@ Detailed plan: ${executionContext.session.artifacts.plan}`)
  return prompt
 }

-codex --full-auto exec "${buildCLIPrompt(batch)}" --skip-git-repo-check -s danger-full-access
+ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write
 ```

-**Execution with tracking**:
+**Execution with fixed IDs** (predictable ID pattern):
 ```javascript
 // Launch CLI in foreground (NOT background)
 // Timeout based on complexity: Low=40min, Medium=60min, High=100min
@@ -486,15 +486,48 @@ const timeoutByComplexity = {
  "High": 6000000    // 100 minutes
 }

+// Generate fixed execution ID: ${sessionId}-${groupId}
+// This enables predictable ID lookup without relying on resume context chains
+const sessionId = executionContext?.session?.id || 'standalone'
+const fixedExecutionId = `${sessionId}-${batch.groupId}`  // e.g., "implement-auth-2025-12-13-P1"
+
+// Check if resuming from previous failed execution
+const previousCliId = batch.resumeFromCliId || null
+
+// Build command with fixed ID (and optional resume for continuation)
+const cli_command = previousCliId
+  ? `ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write --id ${fixedExecutionId} --resume ${previousCliId}`
+  : `ccw cli -p "${buildCLIPrompt(batch)}" --tool codex --mode write --id ${fixedExecutionId}`
+
 bash_result = Bash(
  command=cli_command,
  timeout=timeoutByComplexity[planObject.complexity] || 3600000
 )

+// Execution ID is now predictable: ${fixedExecutionId}
+// Can also extract from output: "ID: implement-auth-2025-12-13-P1"
+const cliExecutionId = fixedExecutionId
+
 // Update TodoWrite when execution completes
 ```

-**Result Collection**: After completion, analyze output and collect result following `executionResult` structure
+**Resume on Failure** (with fixed ID):
+```javascript
+// If execution failed or timed out, offer resume option
+if (bash_result.status === 'failed' || bash_result.status === 'timeout') {
+  console.log(`
+⚠️ Execution incomplete. Resume available:
+   Fixed ID: ${fixedExecutionId}
+   Lookup: ccw cli detail ${fixedExecutionId}
+   Resume: ccw cli -p "Continue tasks" --resume ${fixedExecutionId} --tool codex --mode write --id ${fixedExecutionId}-retry
+`)
+
+  // Store for potential retry in same session
+  batch.resumeFromCliId = fixedExecutionId
+}
+```
+
+**Result Collection**: After completion, analyze output and collect result following `executionResult` structure (include `cliExecutionId` for resume capability)

 ### Step 4: Progress Tracking

@@ -541,15 +574,30 @@ RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/02-review-code-q
 # - Report findings directly

 # Method 2: Gemini Review (recommended)
-gemini -p "[Shared Prompt Template with artifacts]"
+ccw cli -p "[Shared Prompt Template with artifacts]" --tool gemini --mode analysis
 # CONTEXT includes: @**/* @${plan.json} [@${exploration.json}]

 # Method 3: Qwen Review (alternative)
-qwen -p "[Shared Prompt Template with artifacts]"
+ccw cli -p "[Shared Prompt Template with artifacts]" --tool qwen --mode analysis
 # Same prompt as Gemini, different execution engine

 # Method 4: Codex Review (autonomous)
-codex --full-auto exec "[Verify plan acceptance criteria at ${plan.json}]" --skip-git-repo-check -s danger-full-access
+ccw cli -p "[Verify plan acceptance criteria at ${plan.json}]" --tool codex --mode write
+```
+
+**Multi-Round Review with Fixed IDs**:
+```javascript
+// Generate fixed review ID
+const reviewId = `${sessionId}-review`
+
+// First review pass with fixed ID
+const reviewResult = Bash(`ccw cli -p "[Review prompt]" --tool gemini --mode analysis --id ${reviewId}`)
+
+// If issues found, continue review dialog with fixed ID chain
+if (hasUnresolvedIssues(reviewResult)) {
+  // Resume with follow-up questions
+  Bash(`ccw cli -p "Clarify the security concerns you mentioned" --resume ${reviewId} --tool gemini --mode analysis --id ${reviewId}-followup`)
+}
 ```

 **Implementation Note**: Replace `[Shared Prompt Template with artifacts]` placeholder with actual template content, substituting:
@@ -623,8 +671,10 @@ console.log(`✓ Development index: [${category}] ${entry.title}`)
 | Empty file | File exists but no content | Error: "File is empty: {path}. Provide task description." |
 | Invalid Enhanced Task JSON | JSON missing required fields | Warning: "Missing required fields. Treating as plain text." |
 | Malformed JSON | JSON parsing fails | Treat as plain text (expected for non-JSON files) |
-| Execution failure | Agent/Codex crashes | Display error, save partial progress, suggest retry |
+| Execution failure | Agent/Codex crashes | Display error, use fixed ID `${sessionId}-${groupId}` for resume: `ccw cli -p "Continue" --resume <fixed-id> --id <fixed-id>-retry` |
+| Execution timeout | CLI exceeded timeout | Use fixed ID for resume with extended timeout |
 | Codex unavailable | Codex not installed | Show installation instructions, offer Agent execution |
+| Fixed ID not found | Custom ID lookup failed | Check `ccw cli history`, verify date directories |

 ## Data Structures

@@ -679,8 +729,20 @@ Collected after each execution call completes:
  tasksSummary: string,                // Brief description of tasks handled
  completionSummary: string,           // What was completed
  keyOutputs: string,                  // Files created/modified, key changes
-  notes: string                        // Important context for next execution
+  notes: string,                       // Important context for next execution
+  fixedCliId: string | null            // Fixed CLI execution ID (e.g., "implement-auth-2025-12-13-P1")
 }
 ```

 Appended to `previousExecutionResults` array for context continuity in multi-execution scenarios.
+
+**Fixed ID Pattern**: `${sessionId}-${groupId}` enables predictable lookup without auto-generated timestamps.
+
+**Resume Usage**: If `status` is "partial" or "failed", use `fixedCliId` to resume:
+```bash
+# Lookup previous execution
+ccw cli detail ${fixedCliId}
+
+# Resume with new fixed ID for retry
+ccw cli -p "Continue from where we left off" --resume ${fixedCliId} --tool codex --mode write --id ${fixedCliId}-retry
+```
--- a/.claude/skills/command-guide/reference/commands/workflow/lite-fix.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/lite-fix.md
@@ -72,17 +72,60 @@ Phase 5: Dispatch
 ### Phase 1: Intelligent Multi-Angle Diagnosis

 **Session Setup** (MANDATORY - follow exactly):
+
+**Option 1: Using CLI Command** (Recommended for simplicity):
+```bash
+# Generate session ID
+bug_slug=$(echo "${bug_description}" | tr '[:upper:]' '[:lower:]' | tr -cs '[:alnum:]' '-' | cut -c1-40)
+date_str=$(date -u '+%Y-%m-%d')
+session_id="${bug_slug}-${date_str}"
+
+# Initialize lite-fix session (location auto-inferred from type)
+ccw session init "${session_id}" \
+  --type lite-fix \
+  --content "{\"description\":\"${bug_description}\",\"severity\":\"${severity}\"}"
+
+
+
+# Get session folder
+session_folder=".workflow/.lite-fix/${session_id}"
+echo "Session initialized: ${session_id} at ${session_folder}"
+```
+
+**Option 2: Using session_manager Tool** (For programmatic access):
 ```javascript
 // Helper: Get UTC+8 (China Standard Time) ISO string
 const getUtc8ISOString = () => new Date(Date.now() + 8 * 60 * 60 * 1000).toISOString()

 const bugSlug = bug_description.toLowerCase().replace(/[^a-z0-9]+/g, '-').substring(0, 40)
-const dateStr = getUtc8ISOString().substring(0, 10)  // Format: 2025-11-29
+const dateStr = getUtc8ISOString().substring(0, 10)  // Format: 2025-12-17

-const sessionId = `${bugSlug}-${dateStr}`  // e.g., "user-avatar-upload-fails-2025-11-29"
-const sessionFolder = `.workflow/.lite-fix/${sessionId}`
+const sessionId = `${bugSlug}-${dateStr}`  // e.g., "user-avatar-upload-fails-2025-12-17"

-bash(`mkdir -p ${sessionFolder} && test -d ${sessionFolder} && echo "SUCCESS: ${sessionFolder}" || echo "FAILED: ${sessionFolder}"`)
+
+
+const sessionFolder = initResult.result.path
+console.log(`Session initialized: ${sessionId} at ${sessionFolder}`)
+```
+
+**Session File Structure**:
+- `session-metadata.json` - Session metadata (created at init, contains description, severity, status)
+- `fix-plan.json` - Actual fix planning content (created later in Phase 3, contains fix tasks, diagnosis results)
+
+**Metadata Field Usage**:
+- `description`: Displayed in dashboard session list (replaces session ID as title)
+- `severity`: Used for fix planning strategy selection (Low/Medium → Direct Claude, High/Critical → Agent)
+- `created_at`: Displayed in dashboard timeline
+- `status`: Updated through workflow (diagnosing → fixing → completed)
+- Custom fields: Any additional fields in metadata are saved and accessible programmatically
+
+**Accessing Session Data**:
+```bash
+# Read session metadata
+ccw session ${session_id} read session-metadata.json
+
+# Read fix plan content (after Phase 3 completion)
+ccw session ${session_id} read fix-plan.json
 ```

 **Diagnosis Decision Logic**:
--- a/.claude/skills/command-guide/reference/commands/workflow/lite-plan.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/lite-plan.md
@@ -72,17 +72,57 @@ Phase 5: Dispatch
 ### Phase 1: Intelligent Multi-Angle Exploration

 **Session Setup** (MANDATORY - follow exactly):
+
+**Option 1: Using CLI Command** (Recommended for simplicity):
+```bash
+# Generate session ID
+task_slug=$(echo "${task_description}" | tr '[:upper:]' '[:lower:]' | tr -cs '[:alnum:]' '-' | cut -c1-40)
+date_str=$(date -u '+%Y-%m-%d')
+session_id="${task_slug}-${date_str}"
+
+# Initialize lite-plan session (location auto-inferred from type)
+ccw session init "${session_id}" \
+  --type lite-plan \
+  --content "{\"description\":\"${task_description}\",\"complexity\":\"${complexity}\"}"
+
+# Get session folder
+session_folder=".workflow/.lite-plan/${session_id}"
+echo "Session initialized: ${session_id} at ${session_folder}"
+```
+
+**Option 2: Using session_manager Tool** (For programmatic access):
 ```javascript
 // Helper: Get UTC+8 (China Standard Time) ISO string
 const getUtc8ISOString = () => new Date(Date.now() + 8 * 60 * 60 * 1000).toISOString()

 const taskSlug = task_description.toLowerCase().replace(/[^a-z0-9]+/g, '-').substring(0, 40)
-const dateStr = getUtc8ISOString().substring(0, 10)  // Format: 2025-11-29
+const dateStr = getUtc8ISOString().substring(0, 10)  // Format: 2025-12-17

-const sessionId = `${taskSlug}-${dateStr}`  // e.g., "implement-jwt-refresh-2025-11-29"
-const sessionFolder = `.workflow/.lite-plan/${sessionId}`
+const sessionId = `${taskSlug}-${dateStr}`  // e.g., "implement-jwt-refresh-2025-12-17"

-bash(`mkdir -p ${sessionFolder} && test -d ${sessionFolder} && echo "SUCCESS: ${sessionFolder}" || echo "FAILED: ${sessionFolder}"`)
+
+
+const sessionFolder = initResult.result.path
+console.log(`Session initialized: ${sessionId} at ${sessionFolder}`)
+```
+
+**Session File Structure**:
+- `session-metadata.json` - Session metadata (created at init, contains description, complexity, status)
+- `plan.json` - Actual planning content (created later in Phase 3, contains tasks, steps, dependencies)
+
+**Metadata Field Usage**:
+- `description`: Displayed in dashboard session list (replaces session ID as title)
+- `complexity`: Used for planning strategy selection (Low → Direct Claude, Medium/High → Agent)
+- `created_at`: Displayed in dashboard timeline
+- Custom fields: Any additional fields in metadata are saved and accessible programmatically
+
+**Accessing Session Data**:
+```bash
+# Read session metadata
+ccw session ${session_id} read session-metadata.json
+
+# Read plan content (after Phase 3 completion)
+ccw session ${session_id} read plan.json
 ```

 **Exploration Decision Logic**:
@@ -152,11 +192,16 @@ Launching ${selectedAngles.length} parallel explorations...

 **Launch Parallel Explorations** - Orchestrator assigns angle to each agent:

+**⚠️ CRITICAL - NO BACKGROUND EXECUTION**:
+- **MUST NOT use `run_in_background: true`** - exploration results are REQUIRED before planning
+
+
 ```javascript
 // Launch agents with pre-assigned angles
 const explorationTasks = selectedAngles.map((angle, index) =>
  Task(
    subagent_type="cli-explore-agent",
+    run_in_background=false,  // ⚠️ MANDATORY: Must wait for results
    description=`Explore: ${angle}`,
    prompt=`
 ## Task Objective
@@ -356,7 +401,15 @@ if (dedupedClarifications.length > 0) {
 // Step 1: Read schema
 const schema = Bash(`cat ~/.claude/workflows/cli-templates/schemas/plan-json-schema.json`)

-// Step 2: Generate plan following schema (Claude directly, no agent)
+// Step 2: ⚠️ MANDATORY - Read and review ALL exploration files
+const manifest = JSON.parse(Read(`${sessionFolder}/explorations-manifest.json`))
+manifest.explorations.forEach(exp => {
+  const explorationData = Read(exp.path)
+  console.log(`\n### Exploration: ${exp.angle}\n${explorationData}`)
+})
+
+// Step 3: Generate plan following schema (Claude directly, no agent)
+// ⚠️ Plan MUST incorporate insights from exploration files read in Step 2
 const plan = {
  summary: "...",
  approach: "...",
@@ -367,10 +420,10 @@ const plan = {
  _metadata: { timestamp: getUtc8ISOString(), source: "direct-planning", planning_mode: "direct" }
 }

-// Step 3: Write plan to session folder
+// Step 4: Write plan to session folder
 Write(`${sessionFolder}/plan.json`, JSON.stringify(plan, null, 2))

-// Step 4: MUST continue to Phase 4 (Confirmation) - DO NOT execute code here
+// Step 5: MUST continue to Phase 4 (Confirmation) - DO NOT execute code here
 ```

 **Medium/High Complexity** - Invoke cli-lite-planning-agent:
--- a/.claude/skills/command-guide/reference/commands/workflow/plan.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/plan.md
@@ -61,7 +61,7 @@ Phase 2: Context Gathering
      ├─ Tasks attached: Analyze structure → Identify integration → Generate package
      └─ Output: contextPath + conflict_risk

-Phase 3: Conflict Resolution (conditional)
+Phase 3: Conflict Resolution 
   └─ Decision (conflict_risk check):
      ├─ conflict_risk ≥ medium → Execute /workflow:tools:conflict-resolution
      │   ├─ Tasks attached: Detect conflicts → Present to user → Apply strategies
@@ -168,7 +168,7 @@ SlashCommand(command="/workflow:tools:context-gather --session [sessionId] \"[st

 ---

-### Phase 3: Conflict Resolution (Optional - auto-triggered by conflict risk)
+### Phase 3: Conflict Resolution

 **Trigger**: Only execute when context-package.json indicates conflict_risk is "medium" or "high"

@@ -185,10 +185,10 @@ SlashCommand(command="/workflow:tools:conflict-resolution --session [sessionId]

 **Parse Output**:
 - Extract: Execution status (success/skipped/failed)
- Verify: CONFLICT_RESOLUTION.md file path (if executed)
+- Verify: conflict-resolution.json file path (if executed)

 **Validation**:
- File `.workflow/active/[sessionId]/.process/CONFLICT_RESOLUTION.md` exists (if executed)
+- File `.workflow/active/[sessionId]/.process/conflict-resolution.json` exists (if executed)

 **Skip Behavior**:
 - If conflict_risk is "none" or "low", skip directly to Phase 3.5
@@ -497,7 +497,7 @@ Return summary to user
 - Parse context path from Phase 2 output, store in memory
 - **Extract conflict_risk from context-package.json**: Determine Phase 3 execution
 - **If conflict_risk ≥ medium**: Launch Phase 3 conflict-resolution with sessionId and contextPath
- Wait for Phase 3 to finish executing (if executed), verify CONFLICT_RESOLUTION.md created
+- Wait for Phase 3 to finish executing (if executed), verify conflict-resolution.json created
 - **If conflict_risk is none/low**: Skip Phase 3, proceed directly to Phase 4
 - **Build Phase 4 command**: `/workflow:tools:task-generate-agent --session [sessionId]`
 - Pass session ID to Phase 4 command
--- a/.claude/skills/command-guide/reference/commands/workflow/review.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/review.md
@@ -112,14 +112,19 @@ After bash validation, the model takes control to:

 1. **Load Context**: Read completed task summaries and changed files
   ```bash
-   # Load implementation summaries
-   cat .workflow/active/${sessionId}/.summaries/IMPL-*.md
+   # Load implementation summaries (iterate through .summaries/ directory)
+   for summary in .workflow/active/${sessionId}/.summaries/*.md; do
+     cat "$summary"
+   done

   # Load test results (if available)
-   cat .workflow/active/${sessionId}/.summaries/TEST-FIX-*.md 2>/dev/null
+   for test_summary in .workflow/active/${sessionId}/.summaries/TEST-FIX-*.md 2>/dev/null; do
+     cat "$test_summary"
+   done

-   # Get changed files
-   git log --since="$(cat .workflow/active/${sessionId}/workflow-session.json | jq -r .created_at)" --name-only --pretty=format: | sort -u
+   # Get session created_at for git log filter
+   created_at=$(ccw session ${sessionId} read workflow-session.json | jq -r .created_at)
+   git log --since="$created_at" --name-only --pretty=format: | sort -u
   ```

 2. **Perform Specialized Review**: Based on `review_type`
@@ -132,51 +137,53 @@ After bash validation, the model takes control to:
     ```
   - Use Gemini for security analysis:
     ```bash
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Security audit of completed implementation
     TASK: Review code for security vulnerabilities, insecure patterns, auth/authz issues
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Security findings report with severity levels
     RULES: Focus on OWASP Top 10, authentication, authorization, data validation, injection risks
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```

   **Architecture Review** (`--type=architecture`):
   - Use Qwen for architecture analysis:
     ```bash
-     cd .workflow/active/${sessionId} && qwen -p "
+     ccw cli -p "
     PURPOSE: Architecture compliance review
     TASK: Evaluate adherence to architectural patterns, identify technical debt, review design decisions
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Architecture assessment with recommendations
     RULES: Check for patterns, separation of concerns, modularity, scalability
-     " --approval-mode yolo
+     " --tool qwen --mode write --cd .workflow/active/${sessionId}
     ```

   **Quality Review** (`--type=quality`):
   - Use Gemini for code quality:
     ```bash
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Code quality and best practices review
     TASK: Assess code readability, maintainability, adherence to best practices
     CONTEXT: @.summaries/IMPL-*.md,../.. @../../CLAUDE.md
     EXPECTED: Quality assessment with improvement suggestions
     RULES: Check for code smells, duplication, complexity, naming conventions
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```

   **Action Items Review** (`--type=action-items`):
   - Verify all requirements and acceptance criteria met:
     ```bash
     # Load task requirements and acceptance criteria
-     find .workflow/active/${sessionId}/.task -name "IMPL-*.json" -exec jq -r '
-       "Task: " + .id + "\n" +
-       "Requirements: " + (.context.requirements | join(", ")) + "\n" +
-       "Acceptance: " + (.context.acceptance | join(", "))
-     ' {} \;
+     for task_file in .workflow/active/${sessionId}/.task/*.json; do
+       cat "$task_file" | jq -r '
+         "Task: " + .id + "\n" +
+         "Requirements: " + (.context.requirements | join(", ")) + "\n" +
+         "Acceptance: " + (.context.acceptance | join(", "))
+       '
+     done

     # Check implementation summaries against requirements
-     cd .workflow/active/${sessionId} && gemini -p "
+     ccw cli -p "
     PURPOSE: Verify all requirements and acceptance criteria are met
     TASK: Cross-check implementation summaries against original requirements
     CONTEXT: @.task/IMPL-*.json,.summaries/IMPL-*.md,../.. @../../CLAUDE.md
@@ -190,7 +197,7 @@ After bash validation, the model takes control to:
     - Verify all acceptance criteria are met
     - Flag any incomplete or missing action items
     - Assess deployment readiness
-     " --approval-mode yolo
+     " --tool gemini --mode write --cd .workflow/active/${sessionId}
     ```


--- a/.claude/skills/command-guide/reference/commands/workflow/session/complete.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/session/complete.md
@@ -25,18 +25,16 @@ Mark the currently active workflow session as complete, analyze it for lessons l

 #### Step 1.1: Find Active Session and Get Name
 ```bash
-# Find active session directory
-bash(find .workflow/active/ -name "WFS-*" -type d | head -1)
-
-# Extract session name from directory path
-bash(basename .workflow/active/WFS-session-name)
+# Find active session
+ccw session list --location active
+# Extract first session_id from result.active array
 ```
 **Output**: Session name `WFS-session-name`

 #### Step 1.2: Check for Existing Archiving Marker (Resume Detection)
 ```bash
-# Check if session is already being archived
-bash(test -f .workflow/active/WFS-session-name/.archiving && echo "RESUMING" || echo "NEW")
+# Check if session is already being archived (marker file exists)
+ccw session WFS-session-name read .process/.archiving 2>/dev/null && echo "RESUMING" || echo "NEW"
 ```

 **If RESUMING**:
@@ -49,7 +47,7 @@ bash(test -f .workflow/active/WFS-session-name/.archiving && echo "RESUMING" ||
 #### Step 1.3: Create Archiving Marker
 ```bash
 # Mark session as "archiving in progress"
-bash(touch .workflow/active/WFS-session-name/.archiving)
+ccw session WFS-session-name write .process/.archiving ''
 ```
 **Purpose**:
 - Prevents concurrent operations on this session
@@ -161,21 +159,20 @@ Analyze workflow session for archival preparation. Session is STILL in active lo

 **Purpose**: Atomically commit all changes. Only execute if Phase 2 succeeds.

-#### Step 3.1: Create Archive Directory
+#### Step 3.1: Update Session Status and Archive
 ```bash
-bash(mkdir -p .workflow/archives/)
-```
-
-#### Step 3.2: Move Session to Archive
-```bash
-bash(mv .workflow/active/WFS-session-name .workflow/archives/WFS-session-name)
+# Archive session (updates status to "completed" and moves to archives)
+ccw session archive WFS-session-name
+# This operation atomically:
+# 1. Updates workflow-session.json status to "completed"
+# 2. Moves session from .workflow/active/ to .workflow/archives/
 ```
 **Result**: Session now at `.workflow/archives/WFS-session-name/`

-#### Step 3.3: Update Manifest
+#### Step 3.2: Update Manifest
 ```bash
-# Read current manifest (or create empty array if not exists)
-bash(test -f .workflow/archives/manifest.json && cat .workflow/archives/manifest.json || echo "[]")
+# Check if manifest exists
+test -f .workflow/archives/manifest.json && echo "EXISTS" || echo "NOT_FOUND"
 ```

 **JSON Update Logic**:
@@ -200,9 +197,10 @@ manifest.push(archiveEntry);
 Write('.workflow/archives/manifest.json', JSON.stringify(manifest, null, 2));
 ```

-#### Step 3.4: Remove Archiving Marker
+#### Step 3.5: Remove Archiving Marker
 ```bash
-bash(rm .workflow/archives/WFS-session-name/.archiving)
+# Remove archiving marker from archived session (use bash rm as ccw has no delete)
+rm .workflow/archives/WFS-session-name/.process/.archiving 2>/dev/null || true
 ```
 **Result**: Clean archived session without temporary markers

@@ -223,7 +221,8 @@ bash(rm .workflow/archives/WFS-session-name/.archiving)

 #### Step 4.1: Check Project State Exists
 ```bash
-bash(test -f .workflow/project.json && echo "EXISTS" || echo "SKIP")
+# Check if project.json exists
+test -f .workflow/project.json && echo "EXISTS" || echo "SKIP"
 ```

 **If SKIP**: Output warning and skip Phase 4
@@ -250,11 +249,6 @@ const featureId = title.toLowerCase().replace(/[^a-z0-9]+/g, '-').substring(0, 5

 #### Step 4.3: Update project.json

-```bash
-# Read current project state
-bash(cat .workflow/project.json)
-```
-
 **JSON Update Logic**:
 ```javascript
 // Read existing project.json (created by /workflow:init)
@@ -366,8 +360,8 @@ function getLatestCommitHash() {
 **Recovery Steps**:
 ```bash
 # Session still in .workflow/active/WFS-session-name
-# Remove archiving marker
-bash(rm .workflow/active/WFS-session-name/.archiving)
+# Remove archiving marker using bash
+rm .workflow/active/WFS-session-name/.process/.archiving 2>/dev/null || true
 ```

 **User Notification**:
@@ -464,11 +458,12 @@ Session state: PARTIALLY COMPLETE (session archived, manifest needs update)

 **Phase 3: Atomic Commit** (Transactional file operations)
 - Create archive directory
+- Update session status to "completed"
 - Move session to archive location
 - Update manifest.json with archive entry
 - Remove `.archiving` marker
 - **All-or-nothing**: Either all succeed or session remains in safe state
- **Total**: 4 bash commands + JSON manipulation
+- **Total**: 5 bash commands + JSON manipulation

 **Phase 4: Project Registry Update** (Optional feature tracking)
 - Check project.json exists
@@ -498,3 +493,55 @@ Session state: PARTIALLY COMPLETE (session archived, manifest needs update)
 - Idempotent operations (safe to retry)


+
+## session_manager Tool Alternative
+
+Use `ccw tool exec session_manager` for session completion operations:
+
+### List Active Sessions
+```bash
+ccw tool exec session_manager '{"operation":"list","location":"active"}'
+```
+
+### Update Session Status to Completed
+```bash
+ccw tool exec session_manager '{
+  "operation": "update",
+  "session_id": "WFS-xxx",
+  "content_type": "session",
+  "content": {
+    "status": "completed",
+    "archived_at": "2025-12-10T08:00:00Z"
+  }
+}'
+```
+
+### Archive Session
+```bash
+ccw tool exec session_manager '{"operation":"archive","session_id":"WFS-xxx"}'
+
+# This operation:
+# 1. Updates status to "completed" if update_status=true (default)
+# 2. Moves session from .workflow/active/ to .workflow/archives/
+```
+
+### Read Session Data
+```bash
+# Read workflow-session.json
+ccw tool exec session_manager '{"operation":"read","session_id":"WFS-xxx","content_type":"session"}'
+
+# Read IMPL_PLAN.md
+ccw tool exec session_manager '{"operation":"read","session_id":"WFS-xxx","content_type":"plan"}'
+```
+
+### Write Archiving Marker
+```bash
+ccw tool exec session_manager '{
+  "operation": "write",
+  "session_id": "WFS-xxx",
+  "content_type": "process",
+  "path_params": {"filename": ".archiving"},
+  "content": ""
+}'
+```
+
--- a/.claude/skills/command-guide/reference/commands/workflow/session/list.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/session/list.md
@@ -17,41 +17,30 @@ Display all workflow sessions with their current status, progress, and metadata.

 ## Implementation Flow

-### Step 1: Find All Sessions
+### Step 1: List All Sessions
 ```bash
-ls .workflow/active/WFS-* 2>/dev/null
+ccw session list --location both
 ```

-### Step 2: Check Active Session
+### Step 2: Get Session Statistics
 ```bash
-find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | head -1
+ccw session stats WFS-session
+# Returns: tasks count by status, summaries count, has_plan
 ```

 ### Step 3: Read Session Metadata
 ```bash
-jq -r '.session_id, .status, .project' .workflow/active/WFS-session/workflow-session.json
+ccw session WFS-session read workflow-session.json
+# Returns: session_id, status, project, created_at, etc.
 ```

-### Step 4: Count Task Progress
-```bash
-find .workflow/active/WFS-session/.task/ -name "*.json" -type f 2>/dev/null | wc -l
-find .workflow/active/WFS-session/.summaries/ -name "*.md" -type f 2>/dev/null | wc -l
-```
-
-### Step 5: Get Creation Time
-```bash
-jq -r '.created_at // "unknown"' .workflow/active/WFS-session/workflow-session.json
-```
-
-## Simple Bash Commands
+## Simple Commands

 ### Basic Operations
- **List sessions**: `find .workflow/active/ -name "WFS-*" -type d`
- **Find active**: `find .workflow/active/ -name "WFS-*" -type d`
- **Read session data**: `jq -r '.session_id, .status' session.json`
- **Count tasks**: `find .task/ -name "*.json" -type f | wc -l`
- **Count completed**: `find .summaries/ -name "*.md" -type f 2>/dev/null | wc -l`
- **Get timestamp**: `jq -r '.created_at' session.json`
+- **List all sessions**: `ccw session list`
+- **List active only**: `ccw session list --location active`
+- **Read session data**: `ccw session WFS-xxx read workflow-session.json`
+- **Get task stats**: `ccw session WFS-xxx stats`

 ## Simple Output Format

@@ -88,9 +77,38 @@ Total: 3 sessions (1 active, 1 paused, 1 completed)

 ### Quick Commands
 ```bash
-# Count all sessions
-ls .workflow/active/WFS-* | wc -l
+# Count active sessions using ccw
+ccw session list --location active --no-metadata
+# Returns session count in result.total

 # Show recent sessions
-ls -t .workflow/active/WFS-*/workflow-session.json | head -3
-```
+ccw session list --location active
+```
+## session_manager Tool Alternative
+
+Use `ccw tool exec session_manager` for simplified session listing:
+
+### List All Sessions (Active + Archived)
+```bash
+ccw tool exec session_manager '{"operation":"list","location":"both","include_metadata":true}'
+
+# Response:
+# {
+#   "success": true,
+#   "result": {
+#     "active": [{"session_id":"WFS-xxx","metadata":{...}}],
+#     "archived": [{"session_id":"WFS-yyy","metadata":{...}}],
+#     "total": 2
+#   }
+# }
+```
+
+### List Active Sessions Only
+```bash
+ccw tool exec session_manager '{"operation":"list","location":"active","include_metadata":true}'
+```
+
+### Read Specific Session
+```bash
+ccw tool exec session_manager '{"operation":"read","session_id":"WFS-xxx","content_type":"session"}'
+```
--- a/.claude/skills/command-guide/reference/commands/workflow/session/resume.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/session/resume.md
@@ -17,39 +17,33 @@ Resume the most recently paused workflow session, restoring all context and stat

 ### Step 1: Find Paused Sessions
 ```bash
-ls .workflow/active/WFS-* 2>/dev/null
+ccw session list --location active
+# Filter for sessions with status="paused"
 ```

 ### Step 2: Check Session Status
 ```bash
-jq -r '.status' .workflow/active/WFS-session/workflow-session.json
+ccw session WFS-session read workflow-session.json
+# Check .status field in response
 ```

 ### Step 3: Find Most Recent Paused
 ```bash
-ls -t .workflow/active/WFS-*/workflow-session.json | head -1
+ccw session list --location active
+# Sort by created_at, filter for paused status
 ```

-### Step 4: Update Session Status
+### Step 4: Update Session Status to Active
 ```bash
-jq '.status = "active"' .workflow/active/WFS-session/workflow-session.json > temp.json
-mv temp.json .workflow/active/WFS-session/workflow-session.json
+ccw session WFS-session status active
 ```

-### Step 5: Add Resume Timestamp
-```bash
-jq '.resumed_at = "'$(date -u +%Y-%m-%dT%H:%M:%SZ)'"' .workflow/active/WFS-session/workflow-session.json > temp.json
-mv temp.json .workflow/active/WFS-session/workflow-session.json
-```
-
-## Simple Bash Commands
+## Simple Commands

 ### Basic Operations
- **List sessions**: `ls .workflow/active/WFS-*`
- **Check status**: `jq -r '.status' session.json`
- **Find recent**: `ls -t .workflow/active/*/workflow-session.json | head -1`
- **Update status**: `jq '.status = "active"' session.json > temp.json`
- **Add timestamp**: `jq '.resumed_at = "'$(date -u +%Y-%m-%dT%H:%M:%SZ)'"'`
+- **List sessions**: `ccw session list --location active`
+- **Check status**: `ccw session WFS-xxx read workflow-session.json`
+- **Update status**: `ccw session WFS-xxx status active`

 ### Resume Result
 ```
@@ -58,4 +52,26 @@ Session WFS-user-auth resumed
 - Paused at: 2025-09-15T14:30:00Z
 - Resumed at: 2025-09-15T15:45:00Z
 - Ready for: /workflow:execute
-```
+```
+## session_manager Tool Alternative
+
+Use `ccw tool exec session_manager` for session resume:
+
+### Update Session Status
+```bash
+# Update status to active
+ccw tool exec session_manager '{
+  "operation": "update",
+  "session_id": "WFS-xxx",
+  "content_type": "session",
+  "content": {
+    "status": "active",
+    "resumed_at": "2025-12-10T08:00:00Z"
+  }
+}'
+```
+
+### Read Session Status
+```bash
+ccw tool exec session_manager '{"operation":"read","session_id":"WFS-xxx","content_type":"session"}'
+```
--- a/.claude/skills/command-guide/reference/commands/workflow/session/start.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/session/start.md
@@ -30,10 +30,17 @@ The `--type` parameter classifies sessions for CCW dashboard organization:
 | `tdd` | TDD-based development | `/workflow:tdd-plan` |
 | `test` | Test generation/fix sessions | `/workflow:test-fix-gen` |
 | `docs` | Documentation sessions | `/memory:docs` |
+| `lite-plan` | Lightweight planning workflow | `/workflow:lite-plan` |
+| `lite-fix` | Lightweight bug fix workflow | `/workflow:lite-fix` |
+
+**Special Behavior for `lite-plan` and `lite-fix`**:
+- These types automatically infer the storage location (`.workflow/.lite-plan/` or `.workflow/.lite-fix/`)
+- No need to specify `--location` parameter when using these types
+- Alternative: Use `--location lite-plan` or `--location lite-fix` directly

 **Validation**: If `--type` is provided with invalid value, return error:
 ```
-ERROR: Invalid session type. Valid types: workflow, review, tdd, test, docs
+ERROR: Invalid session type. Valid types: workflow, review, tdd, test, docs, lite-plan, lite-fix
 ```

 ## Step 0: Initialize Project State (First-time Only)
@@ -70,12 +77,12 @@ SlashCommand({command: "/workflow:init"});

 ### Step 1: List Active Sessions
 ```bash
-bash(ls -1 .workflow/active/ 2>/dev/null | head -5)
+ccw session list --location active
 ```

 ### Step 2: Display Session Metadata
 ```bash
-bash(cat .workflow/active/WFS-promptmaster-platform/workflow-session.json)
+ccw session WFS-promptmaster-platform read workflow-session.json
 ```

 ### Step 4: User Decision
@@ -92,34 +99,29 @@ Present session information and wait for user to select or create session.

 ### Step 1: Check Active Sessions Count
 ```bash
-bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | wc -l)
+ccw session list --location active
+# Check result.total in response
 ```

 ### Step 2a: No Active Sessions → Create New
 ```bash
-# Generate session slug
-bash(echo "implement OAuth2 auth" | sed 's/[^a-zA-Z0-9]/-/g' | tr '[:upper:]' '[:lower:]' | cut -c1-50)
+# Generate session slug from description
+# Pattern: WFS-{lowercase-slug-from-description}

-# Create directory structure
-bash(mkdir -p .workflow/active/WFS-implement-oauth2-auth/.process)
-bash(mkdir -p .workflow/active/WFS-implement-oauth2-auth/.task)
-bash(mkdir -p .workflow/active/WFS-implement-oauth2-auth/.summaries)
-
-# Create metadata (include type field, default to "workflow" if not specified)
-bash(echo '{"session_id":"WFS-implement-oauth2-auth","project":"implement OAuth2 auth","status":"planning","type":"workflow","created_at":"2024-12-04T08:00:00Z"}' > .workflow/active/WFS-implement-oauth2-auth/workflow-session.json)
+# Create session with ccw (creates directories + metadata atomically)
+ccw session init WFS-implement-oauth2-auth --type workflow
 ```

 **Output**: `SESSION_ID: WFS-implement-oauth2-auth`

 ### Step 2b: Single Active Session → Check Relevance
 ```bash
-# Extract session ID
-bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | head -1 | xargs basename)
+# Get session list with metadata
+ccw session list --location active

-# Read project name from metadata
-bash(cat .workflow/active/WFS-promptmaster-platform/workflow-session.json | grep -o '"project":"[^"]*"' | cut -d'"' -f4)
+# Read session metadata for relevance check
+ccw session WFS-promptmaster-platform read workflow-session.json

-# Check keyword match (manual comparison)
 # If task contains project keywords → Reuse session
 # If task unrelated → Create new session (use Step 2a)
 ```
@@ -129,8 +131,9 @@ bash(cat .workflow/active/WFS-promptmaster-platform/workflow-session.json | grep

 ### Step 2c: Multiple Active Sessions → Use First
 ```bash
-# Get first active session
-bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | head -1 | xargs basename)
+# Get first active session from list
+ccw session list --location active
+# Use first session_id from result.active array

 # Output warning and session ID
 # WARNING: Multiple active sessions detected
@@ -146,26 +149,48 @@ bash(find .workflow/active/ -name "WFS-*" -type d 2>/dev/null | head -1 | xargs

 ### Step 1: Generate Unique Session Slug
 ```bash
-# Convert to slug
-bash(echo "fix login bug" | sed 's/[^a-zA-Z0-9]/-/g' | tr '[:upper:]' '[:lower:]' | cut -c1-50)
-
-# Check if exists, add counter if needed
-bash(ls .workflow/active/WFS-fix-login-bug 2>/dev/null && echo "WFS-fix-login-bug-2" || echo "WFS-fix-login-bug")
+# Convert description to slug: lowercase, alphanumeric + hyphen, max 50 chars
+# Check if exists via ccw session list, add counter if collision
+ccw session list --location active
 ```

 ### Step 2: Create Session Structure
 ```bash
-bash(mkdir -p .workflow/active/WFS-fix-login-bug/.process)
-bash(mkdir -p .workflow/active/WFS-fix-login-bug/.task)
-bash(mkdir -p .workflow/active/WFS-fix-login-bug/.summaries)
+# Basic init - creates directories + default metadata
+ccw session init WFS-fix-login-bug --type workflow
+
+# Advanced init - with custom metadata
+ccw session init WFS-oauth-implementation --type workflow --content '{"description":"OAuth2 authentication system","priority":"high","complexity":"medium"}'
 ```

-### Step 3: Create Metadata
-```bash
-# Include type field from --type parameter (default: "workflow")
-bash(echo '{"session_id":"WFS-fix-login-bug","project":"fix login bug","status":"planning","type":"workflow","created_at":"2024-12-04T08:00:00Z"}' > .workflow/active/WFS-fix-login-bug/workflow-session.json)
+**Default Metadata** (auto-generated):
+```json
+{
+  "session_id": "WFS-fix-login-bug",
+  "type": "workflow",
+  "status": "planning",
+  "created_at": "2025-12-17T..."
+}
 ```

+**Custom Metadata** (merged with defaults):
+```json
+{
+  "session_id": "WFS-oauth-implementation",
+  "type": "workflow",
+  "status": "planning",
+  "created_at": "2025-12-17T...",
+  "description": "OAuth2 authentication system",
+  "priority": "high",
+  "complexity": "medium"
+}
+```
+
+**Field Usage**:
+- `description`: Displayed in dashboard (replaces session_id as title)
+- `status`: Can override default "planning" (e.g., "active", "implementing")
+- Custom fields: Any additional fields are saved and accessible programmatically
+
 **Output**: `SESSION_ID: WFS-fix-login-bug`

 ## Execution Guideline
@@ -197,4 +222,36 @@ SESSION_ID: WFS-promptmaster-platform
 - Pattern: `WFS-[lowercase-slug]`
 - Characters: `a-z`, `0-9`, `-` only
 - Max length: 50 characters
- Uniqueness: Add numeric suffix if collision (`WFS-auth-2`, `WFS-auth-3`)
+- Uniqueness: Add numeric suffix if collision (`WFS-auth-2`, `WFS-auth-3`)
+
+## session_manager Tool Alternative
+
+The above bash commands can be replaced with `ccw tool exec session_manager`:
+
+### List Sessions
+```bash
+# List active sessions with metadata
+ccw tool exec session_manager '{"operation":"list","location":"active","include_metadata":true}'
+
+# Response: {"success":true,"result":{"active":[{"session_id":"WFS-xxx","metadata":{...}}],"total":1}}
+```
+
+### Create Session (replaces mkdir + echo)
+```bash
+# Single command creates directories + metadata
+ccw tool exec session_manager '{
+  "operation": "init",
+  "session_id": "WFS-my-session",
+  "metadata": {
+    "project": "my project description",
+    "status": "planning",
+    "type": "workflow",
+    "created_at": "2025-12-10T08:00:00Z"
+  }
+}'
+```
+
+### Read Session Metadata
+```bash
+ccw tool exec session_manager '{"operation":"read","session_id":"WFS-xxx","content_type":"session"}'
+```
--- a/.claude/skills/command-guide/reference/commands/workflow/tdd-plan.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/tdd-plan.md
@@ -164,10 +164,10 @@ SlashCommand(command="/workflow:tools:conflict-resolution --session [sessionId]

 **Parse Output**:
 - Extract: Execution status (success/skipped/failed)
- Verify: CONFLICT_RESOLUTION.md file path (if executed)
+- Verify: conflict-resolution.json file path (if executed)

 **Validation**:
- File `.workflow/active/[sessionId]/.process/CONFLICT_RESOLUTION.md` exists (if executed)
+- 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
@@ -402,7 +402,7 @@ TDD Workflow Orchestrator
 │     ├─ Phase 4.1: Detect conflicts with CLI
 │     ├─ Phase 4.2: Present conflicts to user
 │     └─ Phase 4.3: Apply resolution strategies
-│     └─ Returns: CONFLICT_RESOLUTION.md              ← COLLAPSED
+│     └─ Returns: conflict-resolution.json            ← COLLAPSED
 │  ELSE:
 │  └─ Skip to Phase 5
 │
--- a/.claude/skills/command-guide/reference/commands/workflow/tdd-verify.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/tdd-verify.md
@@ -77,18 +77,32 @@ find .workflow/active/ -name "WFS-*" -type d | head -1 | sed 's/.*\///'

 ```bash
 # Load all task JSONs
-find .workflow/active/{sessionId}/.task/ -name '*.json'
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file"
+done

 # Extract task IDs
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.id' {} \;
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.id'
+done

-# Check dependencies
-find .workflow/active/{sessionId}/.task/ -name 'IMPL-*.json' -exec jq -r '.context.depends_on[]?' {} \;
-find .workflow/active/{sessionId}/.task/ -name 'REFACTOR-*.json' -exec jq -r '.context.depends_on[]?' {} \;
+# Check dependencies - read tasks and filter for IMPL/REFACTOR
+for task_file in .workflow/active/{sessionId}/.task/IMPL-*.json; do
+  cat "$task_file" | jq -r '.context.depends_on[]?'
+done
+
+for task_file in .workflow/active/{sessionId}/.task/REFACTOR-*.json; do
+  cat "$task_file" | jq -r '.context.depends_on[]?'
+done

 # Check meta fields
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.tdd_phase' {} \;
-find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.agent' {} \;
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.meta.tdd_phase'
+done
+
+for task_file in .workflow/active/{sessionId}/.task/*.json; do
+  cat "$task_file" | jq -r '.meta.agent'
+done
 ```

 **Validation**:
@@ -127,7 +141,7 @@ find .workflow/active/{sessionId}/.task/ -name '*.json' -exec jq -r '.meta.agent
 **Gemini analysis for comprehensive TDD compliance report**

 ```bash
-cd project-root && gemini -p "
+ccw cli -p "
 PURPOSE: Generate TDD compliance report
 TASK: Analyze TDD workflow execution and generate quality report
 CONTEXT: @{.workflow/active/{sessionId}/.task/*.json,.workflow/active/{sessionId}/.summaries/*,.workflow/active/{sessionId}/.process/tdd-cycle-report.md}
@@ -139,7 +153,7 @@ EXPECTED:
 - Red-Green-Refactor cycle validation
 - Best practices adherence assessment
 RULES: Focus on TDD best practices and workflow adherence. Be specific about violations and improvements.
-" > .workflow/active/{sessionId}/TDD_COMPLIANCE_REPORT.md
+" --tool gemini --mode analysis --cd project-root > .workflow/active/{sessionId}/TDD_COMPLIANCE_REPORT.md
 ```

 **Output**: TDD_COMPLIANCE_REPORT.md
--- a/.claude/skills/command-guide/reference/commands/workflow/tools/conflict-resolution.md
+++ b/.claude/skills/command-guide/reference/commands/workflow/tools/conflict-resolution.md
@@ -133,7 +133,7 @@ Task(subagent_type="cli-execution-agent", prompt=`
  ### 2. Execute CLI Analysis (Enhanced with Exploration + Scenario Uniqueness)

  Primary (Gemini):
-  cd {project_root} && gemini -p "
+  ccw cli -p "
  PURPOSE: Detect conflicts between plan and codebase, using exploration insights
  TASK:
  • **Review pre-identified conflict_indicators from exploration results**
@@ -152,7 +152,7 @@ Task(subagent_type="cli-execution-agent", prompt=`
    - ModuleOverlap conflicts with overlap_analysis
    - Targeted clarification questions
  RULES: $(cat ~/.claude/workflows/cli-templates/prompts/analysis/02-analyze-code-patterns.txt) | Focus on breaking changes, migration needs, and functional overlaps | Prioritize exploration-identified conflicts | analysis=READ-ONLY
-  "
+  " --tool gemini --mode analysis --cd {project_root}

  Fallback: Qwen (same prompt) → Claude (manual analysis)

@@ -169,7 +169,7 @@ Task(subagent_type="cli-execution-agent", prompt=`

  ### 4. Return Structured Conflict Data

-  ⚠️ DO NOT generate CONFLICT_RESOLUTION.md file
+  ⚠️ Output to conflict-resolution.json (generated in Phase 4)

  Return JSON format for programmatic processing:

@@ -467,14 +467,30 @@ selectedStrategies.forEach(item => {

 console.log(`\n正在应用 ${modifications.length} 个修改...`);

-// 2. Apply each modification using Edit tool
+// 2. Apply each modification using Edit tool (with fallback to context-package.json)
 const appliedModifications = [];
 const failedModifications = [];
+const fallbackConstraints = [];  // For files that don't exist

 modifications.forEach((mod, idx) => {
  try {
    console.log(`[${idx + 1}/${modifications.length}] 修改 ${mod.file}...`);

+    // Check if target file exists (brainstorm files may not exist in lite workflow)
+    if (!file_exists(mod.file)) {
+      console.log(`  ⚠️ 文件不存在，写入 context-package.json 作为约束`);
+      fallbackConstraints.push({
+        source: "conflict-resolution",
+        conflict_id: mod.conflict_id,
+        target_file: mod.file,
+        section: mod.section,
+        change_type: mod.change_type,
+        content: mod.new_content,
+        rationale: mod.rationale
+      });
+      return;  // Skip to next modification
+    }
+
    if (mod.change_type === "update") {
      Edit({
        file_path: mod.file,
@@ -502,14 +518,45 @@ modifications.forEach((mod, idx) => {
  }
 });

-// 3. Update context-package.json with resolution details
+// 2b. Generate conflict-resolution.json output file
+const resolutionOutput = {
+  session_id: sessionId,
+  resolved_at: new Date().toISOString(),
+  summary: {
+    total_conflicts: conflicts.length,
+    resolved_with_strategy: selectedStrategies.length,
+    custom_handling: customConflicts.length,
+    fallback_constraints: fallbackConstraints.length
+  },
+  resolved_conflicts: selectedStrategies.map(s => ({
+    conflict_id: s.conflict_id,
+    strategy_name: s.strategy.name,
+    strategy_approach: s.strategy.approach,
+    clarifications: s.clarifications || [],
+    modifications_applied: s.strategy.modifications?.filter(m =>
+      appliedModifications.some(am => am.conflict_id === s.conflict_id)
+    ) || []
+  })),
+  custom_conflicts: customConflicts.map(c => ({
+    id: c.id,
+    brief: c.brief,
+    category: c.category,
+    suggestions: c.suggestions,
+    overlap_analysis: c.overlap_analysis || null
+  })),
+  planning_constraints: fallbackConstraints,  // Constraints for files that don't exist
+  failed_modifications: failedModifications
+};
+
+const resolutionPath = `.workflow/active/${sessionId}/.process/conflict-resolution.json`;
+Write(resolutionPath, JSON.stringify(resolutionOutput, null, 2));
+console.log(`\n📄 冲突解决结果已保存: ${resolutionPath}`);
+
+// 3. Update context-package.json with resolution details (reference to JSON file)
 const contextPackage = JSON.parse(Read(contextPath));
 contextPackage.conflict_detection.conflict_risk = "resolved";
-contextPackage.conflict_detection.resolved_conflicts = selectedStrategies.map(s => ({
-  conflict_id: s.conflict_id,
-  strategy_name: s.strategy.name,
-  clarifications: s.clarifications
-}));
+contextPackage.conflict_detection.resolution_file = resolutionPath;  // Reference to detailed JSON
+contextPackage.conflict_detection.resolved_conflicts = selectedStrategies.map(s => s.conflict_id);
 contextPackage.conflict_detection.custom_conflicts = customConflicts.map(c => c.id);
 contextPackage.conflict_detection.resolved_at = new Date().toISOString();
 Write(contextPath, JSON.stringify(contextPackage, null, 2));
@@ -582,12 +629,50 @@ return {
 ✓ Agent log saved to .workflow/active/{session_id}/.chat/
 ```

-## Output Format: Agent JSON Response
+## Output Format
+
+### Primary Output: conflict-resolution.json
+
+**Path**: `.workflow/active/{session_id}/.process/conflict-resolution.json`
+
+**Schema**:
+```json
+{
+  "session_id": "WFS-xxx",
+  "resolved_at": "ISO timestamp",
+  "summary": {
+    "total_conflicts": 3,
+    "resolved_with_strategy": 2,
+    "custom_handling": 1,
+    "fallback_constraints": 0
+  },
+  "resolved_conflicts": [
+    {
+      "conflict_id": "CON-001",
+      "strategy_name": "策略名称",
+      "strategy_approach": "实现方法",
+      "clarifications": [],
+      "modifications_applied": []
+    }
+  ],
+  "custom_conflicts": [
+    {
+      "id": "CON-002",
+      "brief": "冲突摘要",
+      "category": "ModuleOverlap",
+      "suggestions": ["建议1", "建议2"],
+      "overlap_analysis": null
+    }
+  ],
+  "planning_constraints": [],
+  "failed_modifications": []
+}
+```
+
+### Secondary: Agent JSON Response (stdout)

 **Focus**: Structured conflict data with actionable modifications for programmatic processing.

-**Format**: JSON to stdout (NO file generation)
-
 **Structure**: Defined in Phase 2, Step 4 (agent prompt)

 ### Key Requirements
@@ -635,11 +720,12 @@ If Edit tool fails mid-application:
 - Requires: `conflict_risk ≥ medium`

 **Output**:
- Modified files:
+- Generated file:
+  - `.workflow/active/{session_id}/.process/conflict-resolution.json` (primary output)
+- Modified files (if exist):
  - `.workflow/active/{session_id}/.brainstorm/guidance-specification.md`
  - `.workflow/active/{session_id}/.brainstorm/{role}/analysis.md`
-  - `.workflow/active/{session_id}/.process/context-package.json` (conflict_risk → resolved)
- NO report file generation
+  - `.workflow/active/{session_id}/.process/context-package.json` (conflict_risk → resolved, resolution_file reference)

 **User Interaction**:
 - **Iterative conflict processing**: One conflict at a time, not in batches
@@ -667,7 +753,7 @@ If Edit tool fails mid-application:
 ✓ guidance-specification.md updated with resolved conflicts
 ✓ Role analyses (*.md) updated with resolved conflicts
 ✓ context-package.json marked as "resolved" with clarification records
-✓ No CONFLICT_RESOLUTION.md file generated
+✓ conflict-resolution.json generated with full resolution details
 ✓ Modification summary includes:
  - Total conflicts
  - Resolved with strategy (count)
--- a/Show More
+++ b/Show More